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WPS Setup REVIEW DRAFT Version 2CISCO CONFIDENTIAL
PIN Control A client may also enroll with a registrar by using a PIN. For example, the AP administrator may start an enrollment transaction for a particular VAP by entering the PIN of a client. When the client detects the WPS-enabled device, its user can then supply its PIN to the AP to continue the enrollment process. After the WPS protocol has completed, the client securely joins the network. The client can also initiate this process. As with the PBC method, if the AP begins the enrollment transaction and no client attempts to enroll after 120 seconds, the AP terminates the pending transaction.
Although the AP supports an internal registrar for WPS, its use is optional. After an external registrar has configured the AP, the AP acts as a proxy for that external registrar, regardless of whether the APs internal registrar is enabled (it is enabled by default).
Each AP stores a WPS-compatible device PIN in nonvolatile RAM. WPS requires this PIN if an administrator wants to allow an unconfigured AP (that is, one with only factory defaults, including WPS being enabled on a VAP) to join a network. In this "out-of-box" scenario, the administrator obtains the PIN value from the UI of the AP. The administrator may wish to change the PIN if network integrity has been compromised in some way. The AP provides a method for generating a new PIN and storing this value in NVRAM. In the event that the value in NVRAM is corrupted, erased, or missing, a new PIN is generated by the AP and stored in NVRAM. The PIN method of enrollment is potentially vulnerable by way of "brute force"
attacks. A network intruder could, in theory, try to pose as an external registrar on the wireless LAN and attempt to derive the AP's PIN value by exhaustively applying WPS-compliant PINs. To address this vulnerability, in the event that a registrar fails to supply a correct PIN in three attempts within 60 seconds, the AP prohibits any further attempts by an external registrar to register the AP on the WPS-enabled VAP for 60 seconds. However, wireless client stations may enroll with the AP's internal registrar, if enabled, during this lockdown period. The AP also continues to provide proxy services for enrollment requests to external registrars. The AP adds an additional security mechanism for protecting its device PIN. Once the AP has completed registration with an external registrar, and the resulting WPS transaction has concluded, the device PIN is automatically regenerated. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 71
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The WPS protocol on a WPS-enabled VAP may configure the following parameters:
Network SSID
Key management options (WPA-PSK, or WPA-PSK and WPA2-PSK)
Cryptography options (CCMP/AES, or TKIP and CCMP/AES)
Network (public shared) key If a VAP is enabled for WPS, these configuration parameters are subject to change, and are persistent between reboots of the AP.
The AP supports the registration with WPS external registrars (ER) on the wired and wireless LAN. On the WLAN, external registrars advertise their capabilities within WPS-specific information elements (IEs) of their beacon frames; on the wired LAN, external registrars announce their presence via UPnP. WPS v2.0 does not require registration with an ER to be done explicitly through the APs user interface. The AP administrator can register the AP with an ER by:
Initiating the registration process on the AP by entering the ERs PIN on the AP. 1. 2. Registering the AP by entering the AP's PIN on the user interface of the ER.
The registration process can also configure the AP as specified in
if the AP has declared within the WPS-specific IEs of its beacon frames or UPnP messages that it requires such configuration. The AP is capable of serving as a proxy for up to three external registrars simultaneously.
Any one VAP on the AP can be enabled for WPS. At most, one WPS transaction (for example, enrollment and association of an 802.11 client) can be in progress at a time on the AP. The AP administrator can terminate the transaction in progress from the web-based AP configuration utility. The configuration of the VAP, however, should not be changed during the transaction; nor should the VAP be changed during the authentication process. This restriction is recommended but not enforced on the AP. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 72
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Although the WAP121 supports WPS version 2.0, the AP interoperates with enrollees and registrars that are certified by the Wi-Fi Alliance to conform to version 1.0 of the WPS protocol.
You can use the WPS Setup page to enable the AP as a WPS-capable device and configure basic settings. When you are ready to use the feature to enroll a new device or add the AP to a WPS-enabled network, use the WPS Process page.
!
For security reasons, it is recommended, but not required, that you use an HTTPS connection to the web-based AP configuration utility when configuring WPS. To configure the AP as a WPS-capable device:
Click > in the navigation window. The WPS Setup page shows global parameters and status, and parameters and status of the WPS instance. An instance is an implementation of WPS that is associated with a VAP on the network. The AP supports one instance only.
Configure the global parameters:
The WPS protocol version that the AP supports.
A default device name displays. You can assign a different name of up to 32 characters, including spaces and special characters.
Whether the WPS protocol is enabled or disabled on the AP. It is enabled by default.
A system-generated eight-digit WPS PIN for the AP. The administrator may need to enter the PIN at the registrar to add the AP to a WPS-enabled network. You can click to generate a new PIN. This is advisable if network integrity has been compromised.
Configure the WPS instance parameters:
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An identifier for the instance. As there is only one instance, the only option is wps1.
Enables or disables the instance.
The VAP associated with this WPS instance.
Select to enable the built-in registrar function. When disabled, another device on the network can act as the registrar and the AP can serve as a proxy for forwarding client registration requests and the registrars responses.
Whether the VAP will be configured from the external registrar as a part of WPS process. It can be set to one of the following values:
- VAP settings will be configured using WPS, after which the state will be change to Configured.
- VAP settings will not be configured by the external registrar and will retain the existing configuration.
Click . The changes are saved to the Running Configuration and to the Startup Configuration. The operational status of the instance and the reason for that status also display. See for information about conditions that may cause the instance to be disabled.
The Instance Status area displays the as Enabled or Disabled. You can click to update the page with the most recent status information.
You can use the WPS Process page to use WPA to enroll a client station on the network. You can enroll a client using a pin or using the push button method, if supported on the client station.
To enroll a client station using the PIN method:
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Obtain the PIN from the client device. The PIN may be printed on the hardware itself, or may be obtained from the devices software interface.
Click > in the navigation window.
Enter the clients PIN in the text box and click .
Within two minutes, enter the APs pin on the client stations software interface. The APs pin is configured on the page. When you enter the PIN on the client device, the The WPS Operational Status changes to Adding Enrollee. When the enrollment process is complete, the WPS Operational Status changes to Ready and the Transaction Status changes to Success.
This enrollment sequence may also work in reverse; that is, you may be able to initiate the process on the client station by entering the APs pin, and then entering the clients PIN on the AP. When the client is enrolled, either the APs internal registrar or the external registrar on the network proceeds to configure the client with the SSID, encryption mode, and public shared key of a WPS-enabled BSS.
To enroll a client station using the push method:
Click next to .
Push the hardware button on the client station.
You can alternatively initiate this process on the client station, and then click the PBC Enrollment Start button on the AP. When you push the button on the client station, the The WPS Operational Status changes to Adding Enrollee. When the enrollment process is complete, the WPS Operational Status changes to Ready and the Transaction Status changes to Success. When the client is enrolled, either the APs internal registrar or the external registrar on the network proceeds to configure the client with the SSID, encryption mode, and public shared key of a WPS-enabled BSS. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 75
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The following information displays for WPS instance:
If the WPS Configuration State field on the WPS Setup page is set to Unconfigured, then the SSID and Security values are configured by the external registrar. If the field is set to Configured, then these values are configured by the administrator.
You can click to update the page with the most recent status information. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 76 REVIEW DRAFT Version 2CISCO CONFIDENTIAL 6
This chapter describes how to configure the Simple Network Management Protocol to perform configuration and statistics gathering tasks. It contains the following topics:
Simple Network Management Protocol (SNMP) defines a standard for recording, storing, and sharing information about network devices. SNMP facilitates network management, troubleshooting, and maintenance. The AP supports SNMP versions 1, 2, and 3. Unless specifically noted, all configuration parameters apply to SNMPv1 and SNMPv2c only. Key components of any SNMP-managed network are managed devices, SNMP agents, and a management system. The agents store data about their devices in Management Information Bases (MIBs) and return this data to the SNMP manager when requested. Managed devices can be network nodes such as APs, routers, switches, bridges, hubs, servers, or printers. The AP can function as an SNMP managed device for seamless integration into network management systems. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 77
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You can use the General page to enable SNMP and configure basic protocol settings. To configure general SNMP settings:
Click > in the navigation window.
Select for the setting. SNMP is enabled by default.
Configure the parameters:
A read-only community name for SNMPv2 access. The valid range is 1256 characters. The community name acts as a simple authentication mechanism to restrict the machines on the network that can request data to the SNMP agent. The name functions as a password, and the request is assumed to be authentic if the sender knows the password. The community name can be in any alphanumeric format.
By default an SNMP agent only listens to requests from logical port 161. However, you can configure this so the agent listens to requests on another port. The valid range is 1-65535.
When enabled, machines on the network can execute configuration changes via an SNMP agent to the System MIB on the AP.
Sets a read-write community name to be used for SNMP Set requests. The valid range is 1-256 characters. Setting a community name is similar to setting a password. Only requests from the machines that identify themselves with this community name will be accepted. The community name can be in any alphanumeric format.
Determines which stations can access the AP via SNMP: Select one of the following:
- The set of stations that can access the AP via SNMP is not restricted.
- Restricts the source of permitted SNMP requests to those specified in the following lists. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 78
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The IPv4 DNS hostname or subnet of the machines that can execute get and set requests to the managed devices. The valid range is 1256 characters. As with community names, this provides a level of security on SNMP settings. The SNMP agent will only accept requests from the hostname or subnet specified here. To specify a subnet, enter one or more subnetwork address ranges in the form address/mask_length where address is an IP address and mask_length is the number of mask bits. Both formats address/mask and address/mask_length are supported. Individual hosts can be provided for this, i.e. I.P Address or Hostname. For example, if you enter a range of 192.168.1.0/24 this specifies a subnetwork with address 192.168.1.0 and a subnet mask of 255.255.255.0. The address range is used to specify the subnet of the designated NMS. Only machines with IP addresses in this range are permitted to execute get and set requests on the managed device. Given the example above, the machines with addresses from 192.168.1.1 through 192.168.1.254 can execute SNMP commands on the device. (The address identified by suffix .0 in a subnetwork range is always reserved for the subnet address, and the address identified by .255 in the range is always reserved for the broadcast address). As another example, if you enter a range of 10.10.1.128/25 machines with IP addresses from 10.10.1.129 through 10.10.1.254 can execute SNMP requests on managed devices. In this example, 10.10.1.128 is the network address and 10.10.1.255 is the broadcast address. 126 addresses would be designated.
The IPv6 DNS hostname or subnet of the machines that can execute get and set requests to the managed devices.
A global community string associated with SNMP traps. Traps sent from the device will provide this string as a community name. The community name can be in any alphanumeric format. Special characters are not permitted. The valid range is 1256 characters
A list of up to three IP addresses or hostnames to receive SNMP traps. The valid range is 1-256 characters. Select the checkbox and choose a (IPv4 or IPv6) before adding the
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An example of a DNS hostname is: snmptraps.foo.com. Since SNMP traps are sent randomly from the SNMP agent, it makes sense to specify where exactly the traps should be sent. You can add up to a maximum of three DNS hostnames. Ensure you select the EEnabled check box and select the appropriate Host Type.
Click . The changes are saved to the Running Configuration and to the Startup Configuration.
Changing some settings might cause the AP to stop and restart system processes. If this happens, wireless clients will temporarily lose connectivity. We recommend that you change AP settings when WLAN traffic is low.
An SNMP MIB view is a family of view subtrees in the MIB hierarchy. A view subtree is identified by the pairing of an object identifier (OID) subtree value with a bit string mask value. Each MIB view is defined by two sets of view subtrees, included in or excluded from the MIB view. You can create MIB views to control the OID range that SNMPv3 users can access. The AP supports a maximum of 16 views. The following notes summarize some critical guidelines regarding SNMPv3 view configuration. Please read all the notes before proceeding.
A MIB view called all is created by default in the system. This view contains all management objects supported by the system.
By default, view-all and view-none SNMPv3 views are created on the AP. These views cannot be deleted, but the OID, Mask, and Type fields can be modified. To configure an SNMP view:
Click > in the navigation window.
Configure the parameters:
A name that identifies the MIB view. View names can contain up to 32 alphanumeric characters.
Whether to include or exclude the view subtree or family of subtrees from the MIB view. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 80
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An OID string for the subtree to include or exclude from the view. For example, the system subtree is specified by the OID string .1.3.6.1.2.1.1.
An OID mask. The mask is 47 characters in length. The format of the OID mask is xx.xx.xx (.)... or xx:xx:xx.... (:) and is 16 octets in length. Each octet is two hexadecimal characters separated by either . (period) or : (colon). Only hex characters are accepted in this field. For example, OID mask FA.80 is 11111010.10000000. A family mask is used to define a family of view subtrees. The family mask indicates which sub-identifiers of the associated family OID string are significant to the family's definition. A family of view subtrees enables efficient control access to one row in a table.
Click , and then click . The view is added to the SNMPv3 Views list and your changes are saved to the Running Configuration and to the Startup Configuration.
To remove a view, select the view in the list and click .
SNMPv3 groups allow you to combine users into groups of different authorization and access privileges. Each group is associated with one of three security levels:
.noAuthNoPriv. authNoPriv. authPriv. Access to management objects (MIBs) for each group is controlled by associating a MIB view to a group for read or write access, separately. By default, the AP has three groups:
A read-only group with no authentication and no data encryption. No security is provided by this group. By default, users of this group have read access to the default all MIB view, which can be modified by the user.
A read/write group using authentication, but no data encryption. Users in this group send SNMP messages that use an MD5 key/password Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 81
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for authentication, but not a DES key/password for encryption. By default, users of this group will have read and write access to the default all MIB view, which can be modified by the user.
A read/write group using authentication and data encryption. Users in this group use an MD5 key/password for authentication and a DES key/password for encryption. Both the MD5 and DES key/passwords must be defined. By default, users of this group have read and write access to the default all MIB view, which can be modified by the user.
The default groups RO, RWAuth, and RWPriv cannot be deleted.
The AP supports a maximum of eight groups. To add an SNMP group:
Click > in the navigation window.
Configure the parameters:
A name that identifies the group. The default group names are RWPriv, RWAuth, and RO. Group names can contain up to 32 alphanumeric characters.
The security level for the group, which can be one of the following:
-
noAuthentication-noPrivacyNo authentication and no data encryption
(no security).
- Authentication-noPrivacyAuthentication, but no data encryption. With this security level, users send SNMP messages that use an MD5 key/
password for authentication, but not a DES key/password for encryption.
Authentication and data encryption. With this security level, users send an MD5 key/password for authentication and a DES key/password for encryption. For groups that require authentication, encryption, or both, you must define the MD5 and DES key/passwords on the SNMP Users page.
The write access to management objects (MIBs) for the group, which can be one of the following:
- The group can create, alter, and delete MIBs.
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The read access to management objects (MIBs) for the group:
-
-
The group is allowed to view and read all MIBs.
The group cannot view or read MIBs.
Click , and then click . The group is added to the SNMPv3 Groups list and your changes are saved to the Running Configuration and to the Startup Configuration.
To remove a group, select the group in the list and click .
You can use the SNMP Users page to define users, associate a security level to each user, and configure per-user security keys. Each user is mapped to an SNMPv3 group, either from the predefined or user-
defined groups, and, optionally, is configured for authentication and encryption. For authentication, only the MD5 type is supported. For encryption, only the DES type is supported. There are no default SNMPv3 users on the AP. To add SNMP users:
Click > in the navigation window.
Configure the parameters:
A name that identifies the SNMPv3 user. User names can contain up to 32 alphanumeric characters.
The group that the user is mapped to. The default groups are RWAuth, RWPriv, and RO. You can define additional groups on the SNMP Groups page.
The type of authentication to use on SNMP requests from the user, which can be one of the following:
- Require MD5 authentication on SNMPv3 requests from the user.
- SNMPv3 requests from this user require no authentication. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 83
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(If you specify MD5 as the authentication type) A password to enable the SNMP agent to authenticate requests sent by the user. The password must be between 8 and 32 characters in length.
The type of privacy to use on SNMP requests from the user, which can be one of the following:
- Use DES encryption on SNMPv3 requests from the user.
- SNMPv3 requests from this user require no privacy.
(If you specify DES as the privacy type) A key to use to encrypt the SNMP requests. The key must be between 8 and 32 characters in length.
Click , and then click . The user is added to the SNMPv3 Users list and your changes are saved to the Running Configuration and to the Startup Configuration.
To remove a user, select the user in the list and click .
SNMPv3 targets send trap messages to the SNMP manager. Inform messages are not supported. Each target is defined with a target IP address, UDP port, and SNMPv3 user name.
SNMPv3 user configuration (see ) should be completed before configuring SNMPv3 targets.
The AP supports a maximum of eight targets. To add SNMP targets:
Click > in the navigation window.
Configure the parameters:
Enter the IP address of the remote SNMP manager to receive the target. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 84
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Enter the UDP port to use for sending SNMP targets.
Enter the name of the SNMP user to associate with the target. To configure SNMP users, see Configuring SNMPv3 Users on page 125.
This field shows the SNMPv3 Targets on the AP. To remove a target, select it and click Remove.
Click , and then click . The user is added to the SNMPv3 Targets list and your changes are saved to the Running Configuration and to the Startup Configuration.
To remove a user, select the user in the list and click . Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 85 REVIEW DRAFT Version 2CISCO CONFIDENTIAL 7
This chapter describes how to configure global system settings and perform diagnostics. It contains the following topics.
The System Settings page enables you to configure information that identifies the switch within the network. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 86
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To configure system settings:
Click > in the navigation window.
Enter the parameters:
Administratively-assigned name for the AP. By convention, this is the fully-qualified domain name of the node. The default host name is
"wap" concatenated with the last 6 hex digits of the MAC address of the switch. Host Name labels contain only letters, digits and hyphens. Host Name labels cannot begin or end with a hyphen. No other symbols, punctuation characters, or blank spaces are permitted.
A contact person for the switch.
Description of the physical location of the switch.
Click . The changes are saved to the Running Configuration and the Startup Configuration.
One management user is configured on the switch by default:
User Name:
Password: You can use the User Accounts page configure up to five additional users and to change a user password.
To add a new user:
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RedThe password fails to meet the minimum complexity requirements.
OrangeThe password meets the minimum complexity requirements but the password strength is weak.
GreenThe password is strong.
Click . The changes are saved to the Running Configuration and to the Startup Configuration.
As new versions of the AP firmware become available, you can upgrade the firmware on your devices to take advantage of new features and enhancements. The AP uses a TFTP or HTTP client for firmware upgrades. After you upload new firmware and the system reboots, the newly added firmware becomes the primary image. If the upgrade fails, the original firmware remains as the primary image.
When you upgrade the firmware, the access point retains the existing configuration information.
To upgrade the firmware on an access point using TFTP:
Click > in the navigation window. The Product ID (PID), Vender ID (VID), and current Firmware Version display.
Select TTFTP for TTransfer Method.
Enter a name (1 to 256 characters) for the image file in the field, including the path to the directory that contains the image to upload. For example, to upload the ap_upgrade.tar image located in the /share/builds/ap directory, enter /share/builds/ap/ap_upgrade.tar. The firmware upgrade file supplied must be a tar file. Do not attempt to use bin files or files of other formats for the upgrade; these types of files will not work.
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Uploading the new software may take several minutes. Do not refresh the page or navigate to another page while uploading the new software, or the software upload will be aborted. When the process is complete the access point will restart and resume normal operation.
To verify that the firmware upgrade completed successfully, log into the user interface and display the Upgrade Firmware page and view the active firmware version.
To upgrade using HTTP:
Select HHTTP for TTransfer Method.
If you know the name and path to the new file, enter it in the field. Otherwise, click the BBrowse button and locate the firmware image file on your network. The firmware upgrade file supplied must be a tar file. Do not attempt to use bin files or files of other formats for the upgrade; these types of files will not work.
Click UUpgrade to apply the new firmware image. Uploading the new software may take several minutes. Do not refresh the page or navigate to another page while uploading the new software, or the software upload will be aborted. When the process is complete the access point will restart and resume normal operation.
To verify that the firmware upgrade completed successfully, log into the user interface and display the Upgrade Firmware page and view the active firmware version.
The wireless packet capture feature enables capturing and storing packets received and transmitted by the AP. The captured packets can then be analyzed by a network protocol analyzer, for troubleshooting or performance optimization. Packet capture can operate in either of two modes:
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Click > in the navigation window. The User Account Table displays the currently configured users. The user is preconfigured in the system to have Read/Write privileges. This user cannot be deleted. However, you can change the password. All other user can have Read Only Access, but not Read/Write access.
Click . A new row of text boxes displays.
Select the checkbox for the new user and click .
Enter a between 1 to 32 alphanumeric characters. Only numbers 0-9 and letters a-z (upper or lower) are allowed for user names.
Enter a between 1 and 64 characters and then enter the same password in the text box. As you enter a password, the number and color of vertical bars changes to indicate the password strength, as follows:
RedThe password fails to meet the minimum complexity requirements.
OrangeThe password meets the minimum complexity requirements but the password strength is weak.
GreenThe password is strong.
Click . The changes are saved to the Running Configuration and to the Startup Configuration.
To delete a user, select the check box next to the user name and click .
To change a user password:
Click > in the navigation window.
Select the user to configure and click .
Enter a between 1 and 64 characters and then enter the same password in the text box. As you enter a password, the number and color of vertical bars changes to indicate the password strength, as follows:
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Capture file mode Captured packets are stored in a file on the AP. The AP can transfer the file to a TFTP server. The file is formatted in pcap format and can be examined using tools such as Wireshark and OmniPeek.
Remote capture modeCaptured packets are redirected in real time to an external PC running the Wireshark tool. The AP can capture the following types of packets:
802.11 packets received and transmitted on radio interfaces. Packets captured on radio interfaces include the 802.11 header.
802.3 packets received and transmitted on the Ethernet interface.
802.3 packets received and transmitted on the internal logical interfaces such as VAPs and WDS interfaces. Click AAdministration > Packet Capture to display the Packet Capture page. From this page you can:
Configure packet capture parameters.
Start a local or remote packet capture.
View the current packet capture status.
Download a packet capture file.
The Packet Capture Configuration area of page enables you to configure parameters and initiate a packet capture. To configure packet capture settings:
Configure the following parameters:
Enables or disables the capturing of 802.11 beacons detected or transmitted by the radio.
Enables or disables promiscuous mode when the capture is active. In promiscuous mode, the radio receives all traffic on the channel, including traffic that is not destined to this AP. While the radio is operating in promiscuous mode, it continues serving associated clients. Packets not destined to the AP are not forwarded. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 91
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As soon as the capture is completed, the radio reverts to non-promiscuous mode operation.
Enables or disables the WLAN client filter to capture only frames that are transmitted to, or received from, a WLAN client with a specified MAC address.
The MAC address for WLAN client filtering.
: The MAC filter is active only when capture is performed on an 802.11 interface.
Select one of the following:
- Captured packets are stored in a file on the AP.
- Captured packets are redirected in real time to an external PC running the Wireshark tool.
Depending on the selected method, refer to the steps in either of the following sections to continue.
Changes to packet capture configuration parameters take affect after packet capture is restarted. Modifying the parameters while the packet capture is running does not affect the current packet capture session. In order to begin using new parameter values, an existing packet capture session must be stopped and re-
started.
To initiate a local packet capture:
Ensure that is selected for the .
Configure the following parameters:
The AP capture interface names eligible for packet capture are:
-
radio1802.11 traffic.
- eth0802.3 traffic on the Ethernet port.
- wlan0VAP0 traffic on radio 1.
- wlan0vap1 to wlan0vap15VAP1 through VAP15 traffic (if configured). Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 92
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- brtrunkLinux bridge interface in the AP.
The time duration in seconds for the capture (range 10 to 3600).
The maximum allowed size for the capture file in KB
(range 64 to 4096).
Click . The changes are saved to the Running Configuration and the Startup Configuration.
Click . In Packet File Capture mode, the AP stores captured packets in the RAM file system. Upon activation, the packet capture proceeds until one of the following occurs:
The capture time reaches configured duration.
The capture file reaches its maximum size.
The administrator stops the capture. The Packet Capture Status area of the page shows the status of a packet capture, if one is active on the AP. The following fields display:
Whether packet capture is running or stopped.
Elapsed capture time.
The current capture file size. Click RRefresh to display the latest data from the AP.
To stop a packet file capture, click .
The Remote Packet Capture feature enables you to specify a remote port as the destination for packet captures. This feature works in conjunction with the Wireshark network analyzer tool for Windows. A packet capture server runs on the AP and sends the captured packets via a TCP connection to the Wireshark tool. A Windows PC running the Wireshark tool allows you to display, log, and analyze captured traffic. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 93
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When the remote capture mode is in use, the AP does not store any captured data locally in its file system. Your can trace up to five interfaces on the AP at the same time. However, you must start a separate Wireshark session for each interface. You can configure the IP port number used for connecting Wireshark to the AP. The default port number is 2002. The system uses five consecutive port numbers, starting with the configured port for the packet capture sessions. If a firewall is installed between the Wireshark PC and the AP, these ports must be allowed to pass through the firewall. The firewall must also be configured to allow the Wireshark PC to initiate TCP connection to the AP. To configure Wireshark to use the AP as the source for captured packets, you must specify the remote interface in the "Capture Options" menu. For example to capture packets on an AP with IP address 192.168.1.10 on radio 1 using the default IP port, specify the following interface:
rpcap://192.168.1.10/radio1 To capture packets on the Ethernet interface of the AP and VAP0 on radio 1 using IP port 58000, start two Wireshark sessions and specify the following interfaces:
rpcap://192.168.1.10:58000/eth0 rpcap://192.168.1.10:58000/wlan0 When you are capturing traffic on the radio interface, you can disable beacon capture, but other 802.11 control frames are still sent to Wireshark. You can set up a display filter to show only:
Data frames in the trace
Traffic on specific BSSIDs
Traffic between two clients Some examples of useful display filters are:
Exclude beacons and ACK/RTS/CTS frames:
!(wlan.fc.type_subtype == 8 || wlan.fc.type == 1)
Data frames only:
wlan.fc.type == 2
Traffic on a specific BSSID:
wlan.bssid == 00:02:bc:00:17:d0 Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 94
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All traffic to and from a specific client:
wlan.addr == 00:00:e8:4e:5f:8e
In remote capture mode, traffic is sent to the PC running Wireshark via one of the network interfaces. Depending on where the Wireshark tool is located, the traffic can be sent on an Ethernet interface or one of the radios. To avoid a traffic flood caused by tracing the trace packets, the AP automatically installs a capture filter to filter out all packets destined to the Wireshark application. For example if the Wireshark IP port is configured to be 58000 then the following capture filter is automatically installed on the AP:
not portrange 58000-58004. Enabling the packet capture feature impacts performance of the AP and can create a security issue (unauthorized clients may be able to connect to the AP and trace user data). The AP performance is negatively impacted even if there is no active Wireshark session with the AP. The performance is negatively impacted to a greater extent when packet capture is in progress. Due to performance and security issues, the packet capture mode is not saved in NVRAM on the AP; if the AP resets, the capture mode is disabled and the you must reenable it in order to resume capturing traffic. Packet capture parameters (other than mode) are saved in NVRAM. In order to minimize performance impact on the AP while traffic capture is in progress, you should install capture filters to limit which traffic is sent to the Wireshark tool. When capturing 802.11 traffic, large portion of the captured frames tend to be beacons (typically sent every 100 ms by all APs). Although Wireshark supports a display filter for beacon frames, it does not support a capture filter to prevent the AP from forwarding captured beacon packets to the Wireshark tool. In order to reduce the performance impact of capturing the 802.11 beacons, you can disable the capture beacons mode. The remote packet capture facility is a standard feature of the Wireshark tool for Windows.
Remote packet capture is not standard on the Linux version of Wireshark; the Linux version does not work with the AP. Wireshark is an open source tool and is available for free; it can be downloaded from http://www.wireshark.org. To start a remote packet capture:
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Ensure that is selected for the .
Specify the to use as the destination for packet captures.
(range 1 to 65530).
Click . The changes are saved to the Running Configuration and the Startup Configuration.
Click . A confirmation window displays to remind you to make sure the monitoring application is ready.
Click .
To stop a remote packet capture, click .
You can download a capture file by TFTP to a configured TFTP server, or by HTTP(S) to a PC. A capture is automatically stopped when the capture file download command is triggered. Because the capture file is located in the RAM file system, it disappears if the AP is reset. To download a packet capture file using TFTP:
Select .
Enter the to download, if different from the default. By default, the captured packets are stored in the folder file /tmp/apcapture.pcap on the AP.
Specify a in the field provided.
Click . To download a packet capture file using HTTP:
Clear .
Click . A confirmation window displays. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 96
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Click . A dialog box displays to enable you to choose a network location to save the file.
You can use the Log Settings page to enable log messages to be saved in permanent memory and to specify a remote host that provides syslog relay services.
If the system unexpectedly reboots, log messages can be useful to diagnose the cause. However, log messages are erased when the system reboots unless you enable persistent logging.
!
Enabling persistent logging can wear out the flash (non-volatile) memory and degrade network performance. You should only enable persistent logging to debug a problem. Make sure you disable persistent logging after you finish debugging the problem. To configure persistent log settings:
Click > in the navigation window. parameters and initiate a packet capture.
Configure the parameters:
Click EEnable to save system logs to nonvolatile memory so that the logs are not erased when the AP reboots. Clear this field to save system logs to volatile memory. Logs in volatile memory are deleted when the system reboots.
The minimum severity that an event must have for it to be written to the log in nonvolatile memory. For example, if you specify 2, critical, then critical, alert and emergency events are logged to nonvolatile memory. Error messages with a severity level of 37 are written to volatile memory. The severity levels are as follows:
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- 0emergency
- 1alert
- 2critical
- 3error
- 4warning
- 5notice
- 6info
- 7debug
You can store up to 512 messages in memory. When the number you configure in this field is reached, the oldest log event is overwritten by the new log event.
Click . The changes are saved to the Running Configuration and the Startup Configuration.
The Kernel Log is a comprehensive list of system events (shown in the System Log) and kernel messages such as error conditions, such as dropped frames. You cannot view kernel log messages directly from the Web interface. You must first set up a remote server running a syslog process and acting as a syslog log relay host on your network. Then, you can configure the AP to send syslog messages to the remote server. Remote log server collection for AP syslog messages provides the following features:
Allows aggregation of syslog messages from multiple APs
Stores a longer history of messages than kept on a single AP
Triggers scripted management operations and alerts To use Kernel Log relaying, you must configure a remote server to receive the syslog messages. The procedure to configure a remote log host depends on the type of system you use as the remote host. To specify a host on your network that serves as a syslog relay host:
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Click > in the navigation window.
Configure the parameters:
Enables the AP to send log messages to a remote host. When disabled, all log messages are kept on the local system.
The IP address or DNS name of the remote log server.
The logical port number for the syslog process on the relay host. The default port is 514. Using the default port is recommended. However; If you choose to reconfigure the log port, make sure that the port number you assign to syslog is not being used by another process.
Click SSave. The changes are saved to the Running Configuration and to the Startup Configuration. If you enabled the Log Relay Host, clicking SSave will activate remote logging. The AP will send its kernel messages real-time for display to the remote log server monitor, a specified kernel log file, or other storage, depending on how you configured the Log Relay Host. If you disabled the Log Relay Host, clicking SSave will disable remote logging.
Changing some settings might cause the AP to stop and restart system processes. If this happens, wireless clients will temporarily lose connectivity. We recommend that you change AP settings when WLAN traffic is low.
Use the email alert feature to send messages to the configured email addresses when particular system events occur. The feature supports mail server configuration, message severity configuration, and up to three email address configurations to send urgent and non-urgent email alerts. To configure the AP to send email alerts:
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Click > in the navigation window.
In the Global Configuration area, configure the following parameters:
Enables the email alert feature globally.
Email alert From Address configuration. The address is a 255 character string with only printable characters. The default is null.
The email alert log duration in minutes. The range is 30-1440 minutes. The default is 30 minutes.
Log messages of this severity level or higher are grouped and sent periodically to the configuration email address. Select from the following values: None, Emergency, Alert, Critical, Error, Warning, Notice, Info, Debug. If set to None, then no scheduled severity messages are sent.
Log messages of this severity level or higher are are sent to the configured email address immediately. Possible values are: None, Emergency, Alert, Critical, Error, Warning, Notice, Info, Debug. If set to None, then no urgent severity messages are sent. The default is Alert.
In the Mail Server Configuration area, configure the following parameters:
Configures the SMTP server IP address. The server address must be a valid IPv4 address or hostname.
Configures the mode of security. Possible values are Open or TLSv1.
Configures the SMTP port. The range is a valid Port number from 0 to 65535. The default is 25.
The username for authentication. The username is a 64-byte character string with all printable characters.
The password for authentication. The username is a 64-byte character string with all printable characters.
Configure the email addresses and subject line.
Three addresses to send email alerts to. The address must be a valid email.
The text to appear in the email subject line. This can be up to a 255 character alphanumeric string. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 100
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Click TTest Mail to validate the configured email server credentials. The administrator can send a test email once the email server details are configured. The following is a sample format of the email alert sent from the AP:
From: AP-192.168.2.10@mailserver.com Sent: Wednesday, September 09, 2009 11:16 AM To: administrator@mailserver.com Subject: log message from AP TIME Sep 8 03:48:25 info Sep 8 03:48:26 info reached PriorityProcess Id login[1457]
mini_http-ssl[1175] Max concurrent connections of 20 Message root login on ttyp0
Click . The changes are saved to the Running Configuration and to the Startup Configuration.
Bonjour enables the AP and its services to be discovered by using multicast DNS
(mDNS). Bonjour advertises services to the network and answers queries for service types it supports, simplifying network configuration in small business environments. The AP advertises the following service types:
(csco-sb)This service enables clients to discover Cisco AP and other products deployed in small business networks.
This service identifies the management interfaces available on the AP (HTTP, Telnet, SSH, and SNMP). When a Bonjour-enabled AP is attached to a network, any Bonjour client can discover and get access to the management interface without prior configuration. A system administrator can use an installed Internet Explorer plug-in to discover the AP. The web-based AP configuration utility shows up as a tab in the browser. Bonjour works in both IPv4 and IPv6 networks. To enable the AP to be discovered through Bonjour:
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Click > in the navigation window.
Select .
Click . Your changes are saved to the Running Configuration and the Startup Configuration.
Use the HTTP/HTTPS Service page to enable and configure web-based management connections. If HTTPS will be used for secure management sessions, you also use this page to manage the required SSL certificates.
To configure the HTTP and HTTP services:
Click > in the navigation window.
Configure the following Global Parameters:
The number web sessions, including both HTTP and HTTPs, that can be in use at the same time. When a user logs on to the AP web interface, a session is created. This session is maintained until the user logs off or the session inactivity timer expires. The range is 110 sessions. The default is 5. If the maximum number of sessions is reached, the next user who attempts to log on to the AP web interface receives an error message about the session limit.
The maximum amount of time, in minutes, an inactive user remains logged on to the AP web interface. When the configured timeout is reached, the user is automatically logged off the AP. The range is 11440 minutes (1440 minutes = 1 day). The default is 5 minutes.
Configure HTTP and HTTPS services:
Enables access via secure HTTP. By default, HTTPS access is enabled. If you disable it, any current connections using that protocol are disconnected. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 102
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The logical port number to use for HTTP connections, from 1025 to 65535. The default port number for HTTP connections is the well-
known IANA port number 443.
Enables access via HTTP. By default, HTTP access is enabled. If you disable it, any current connections using that protocol are disconnected.
The logical port number to use for HTTP connections, from 1025 to 65535. The default port number for HTTP connections is the well-
known IANA port number 80.
Redirects management HTTP access attempts on the HTTP port to the HTTPS port. This field is available only when HTTP access is disabled.
Click . The changes are saved to the Running Configuration and to the Startup Configuration.
To use HTTPS services, the AP must have a valid SSL certificate. The AP can generate a certificate or you can download it from your network or from a TFTP server. To have the AP generate the certificate, click This should be done after the AP has acquired an IP address to ensure that the common name for the certificate matches the IP address of the AP. Generating a new SSL certificate restarts the secure Web server. The secure connection will not work until the new certificate is accepted on the browser. In the Certificate File Status area, you can view whether a certificate currently exists on the AP, and, if one does, the following information about it:
Certificate File Present
Certificate Expiration Date
Certificate Issuer Common Name If an SSL certificate exists on the AP, you can download it to your PC as a backup. In the Download SSL Certificate (From Device to PC) area, select or for the and click . Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 103
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If you select HTTP, you will be prompted to confirm the download and then to browse to the location to save the file on your network. If you select TFTP, additional fields display to enable you to enter the File Name to assign to the downloaded file, and the TFTP server address where the file will be downloaded. You can also upload a certificate file from your PC to the AP. In the Upload SSL Certificate (From PC to Device), select or for the
For an HTTP, browse to the network location, select the file, and click
. For TFTP, enter the as it exists on the TFTP server and the
, then click . A confirmation displays to indicate that the upload was successful.
You can enable management access through Telnet and SSH. The user names and passwords that you configure for HTTP/HTTPS access also apply to the Telnet and SSH services. These services are disabled by default. To enable Telnet or SSH:
Click > in the navigation window.
Select for or .
Click . The changes are saved to the Running Configuration and to the Startup Configuration.
You can create an access control list (ACL) that lists up to five IPv4 hosts and five IPv6 hosts that are authorized to access the AP management interface. If this feature is disabled, anyone can access the management interface from any network client by supplying the correct AP username and password. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 104
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If the management ACL is enabled, access via the Web, Telnet, SSH, and SNMP is restricted to the specified IP hosts. To create an access list:
Click > in the navigation window.
Select for the .
Enter up to five IPv4 and five IPv6 addresses that you want to provide access to.
Click . The changes are saved to the Running Configuration and to the Startup Configuration.
The AP configuration files are in XML format and contain all the information about the AP settings. You can backup (upload) the configuration files to a network host or TFTP server to manually edit the content or create backups. After you edit a backed-up configuration file, you can download it back to the access point to modify the configuration. The AP maintains the following configuration files:
The current configuration, including any changes applied in the any management sessions since the last reboot.
The configuration file saved to flash memory.
An additional configuration file saved on the switch for use as a backup.
If the Running Configuration is not modified for at least 24 hours, it is automatically saved to a Mirror Configuration file type, and a log message with severity alert is generated to indicate that a new mirror file is available. This feature allows the administrator to view the previous version of the configuration before it is saved to the Startup Configuration file type or to copy the Mirror Configuration file type to another configuration file type. If the AP is rebooted, the Mirror Configuration is reset to the factory default parameters. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 105
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In addition to downloading and uploading these files to another system, you can copy them to different file types on the AP. See
.
To backup (upload) the configuration file to a network host or TFTP server:
Click > in the navigation window.
Select or as the .
Select as the .
For a TFTP backup only, enter the , including path, where the file is to be placed on the server, then enter the .
For a TFTP backup only, enter the .
Select which configuration file you want to back up:
Current configuration, including any changes applied in the current management session.
Configuration file type used when the switch last booted. This does not include any configuration changes applied but not yet saved to the switch.
Backup configuration file type saved on the switch.
If the Running Configuration is not modified for at least 24 hours, it is automatically saved to the Mirror Configuration file type, and a log message with severity level is generated to indicate that a new Mirror Configuration file is available. The Mirror Configuration file can be used when the switch has problems booting with the Startup or Backup Configuration file types. In such cases, the administrator can copy the Mirror Configuration to either the Startup or Backup Configuration file type and reboot.
Click to begin the backup. For HTTP backups, a window displays to enable you to browse to the desired location for saving the file. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 106
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You can download a file to the AP to update the configuration or to restore the AP to a previously backed-up configuration. To download a configuration file to the AP:
Click > in the navigation window.
Select or as the .
Select as the .
For a TFTP download only, enter the , including path, where the file exists on the server, then enter the .
Select which configuration file on the AP you want to be overwritten with the downloaded file: the or the . If the downloaded file overwrites the Startup Configuration file, and the file passes a validity check, then the downloaded configuration will take effect the next time the AP reboots.
Click to begin the upgrade or backup. For HTTP downloads, a window displays to enable you to browse to select the file to download. When the download is finished, a window displays indicating Download Successful!
!
Ensure that power to the AP remains uninterrupted while the configuration file is downloading to the switch. If a power failure occurs while downloading the configuration file, the file is lost and the process must be restarted.
The Configuration Files Properties page enables you clear the Startup, Running, or Backup Configuration file. If you clear the Startup Configuration file, the Backup Configuration file will become active the next time you reboot the AP. The Running Configuration cannot be cleared. To delete the Startup Configuration or Backup Configuration file:
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Click > in the navigation window.
Select the , , or
file type.
Click .
The Copy/Save Configuration page enables you to copy files within the AP file system. For example, you can copy the Backup Configuration file to the Startup Configuration file type, so that it will be used the next time you boot up the switch. To copy a file to another file type:
Click > in the navigation window.
Select the :
Current configuration, including any changes applied in the current management session.
Configuration file type used when the switch last booted. This does not include any configuration changes applied but not yet saved to the switch.
Backup configuration file type saved on the switch.
If the Running Configuration is not modified for at least 24 hours, it is automatically saved to the Mirror Configuration file type, and a log message with severity level is generated to indicate that a new Mirror Configuration file is available. The Mirror Configuration file can be used when the switch has problems booting with the Startup or Backup Configuration file types. In such cases, the administrator can copy the Mirror Configuration to either the Startup or Backup Configuration file type and reboot.
For the , select the file type to be overwritten with the file you are copying. (The running configuration cannot be overwritten.)
Click to begin the copy process. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 108 REVIEW DRAFT Version 2CISCO CONFIDENTIAL
When complete, a window displays the message, Copy Operation Successful.
Rebooting
You can use the Reboot page reboot the AP, as follows:
Click > in the navigation window.
Select one of the following options:
Reboots the switch using Startup Configuration.
Reboots the switch using with the factory default configuration file. Any customized settings are lost. A window appears to enable you to confirm or cancel the reboot. The current management session might be terminated.
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This chapter describes how to configure security settings on the AP. It contains the following topics.
Several of the AP features require communication with a RADIUS authentication server. For example, when you configure virtual access points (VAPs) on the AP, you can configure security methods that control wireless client access (see
). The Dynamic WEP and WPA Enterprise security methods use an external RADIUS server to authenticate clients. The MAC address filtering feature, whereby client access is restricted to a list, may also be configured to use a RADIUS server to control access. The Captive Portal feature also uses RADIUS to authenticate clients. You can use the RADIUS Server page to configure the RADIUS servers that are used by these features. You can configure up to four globally available IPv4 or IPv6 RADIUS servers; however you must select whether the RADIUS client operates in IPv4 or IPv6 mode with respect to the global servers. One of the servers always acts as a primary while the others act as backup servers.
In addition to using the global RADIUS servers, you can also configure each VAPs to use a specific set of RADIUS servers. See the Networks page. To configure global RADIUS servers:
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Click > in the navigation window.
Enter the parameters:
The IP version that the RADIUS server uses. You can toggle between the address types to configure IPv4 and IPv6 global RADIUS address settings, but the AP contacts only the RADIUS server or servers of the address type you select in this field.
or The addresses for the primary global RADIUS server. When the first wireless client tries to authenticate with the AP, the AP sends an authentication request to the primary server. If the primary server responds to the authentication request, the AP continues to use this RADIUS server as the primary server, and authentication requests are sent to the address you specify.
through or through Up to three backup IPv4 or IPv6 RADIUS server addresses. If authentication fails with the primary server, each configured backup server is tried in sequence.
The shared secret key that the AP uses to authenticate to the primary RADIUS server. You can use up to 63 standard alphanumeric and special characters. The key is case sensitive and must match the key configured on the RADIUS server. The text you enter will be displayed as "*" characters.
throughThe RADIUS key associated with the configured backup RADIUS servers. The server at RADIUS IP Address-2 uses RADIUS Key-2, RADIUS IP Address-3 uses RADIUS Key-3, and so on.
Enables tracking and measuring the resources a particular user has consumed, such as system time, amount of data transmitted and received, and so on. If you enable RADIUS accounting, it is enabled for the primary RADIUS server and all backup servers.
Click . The changes are saved to the Running Configuration and to the Startup Configuration. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 111
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IEEE 802.1X authentication enables the access point to gain access to a secured wired network. You can enable the access point as an 802.1X supplicant (client) on the wired network. A user name and password that are encrypted using the MD5 algorithm can be configured to allow the access point to authenticate using 802.1X. On networks that use IEEE 802.1X port-based network access control, a supplicant cannot gain access to the network until the 802.1X authenticator grants access. If your network uses 802.1X, you must configure 802.1X authentication information on the AP, so that it can supply it to the authenticator. The 802.1X Supplicant page is divided into three areas: Supplicant Configuration, Certificate File Status, and Certificate File Upload. The Supplicant Configuration area enables you to configure the 802.1X operational status and basic settings. To configure the APs 802.1X supplicant functionality:
Click > in the navigation window.
Enter the parameters:
Enables the 802.1X supplicant functionality.
The algorithm to be used for encrypting authentication user names and passwords.
- A hash function defined in RFC 3748 that provides basic security.
- Protected Extensible Authentication Protocol, which provides a higher level of security than MD5 by encapsulating it within a TLS tunnel.
- Transport Layer Security, as defined in RFC 5216, an open standard that provides a high level of security.
The user name for the AP to use when responding to requests from an 802.1X authenticator. The user name can be 1 to 64 characters long. ASCII-printable characters are allowed, which includes upper and lower case alphabetic letters, the numeric digits, and special symbols such as @
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The MD5 password for the AP to use when responding to requests from an 802.1X authenticator. The password can be 1 to 64 characters in length. ASCII-printable characters are allowed, which includes upper and lower case letters, numbers, and special symbols such as @ and
#.
Click . The changes are saved to the Running Configuration and to the Startup Configuration.
Changing some settings might cause the AP to stop and restart system processes. If this happens, wireless clients will temporarily lose connectivity. We recommend that you change AP settings when WLAN traffic is low. The Certificate File Status area shows whether a current certificate exists:
Indicates if the HTTP SSL Certificate file is present. Range is Yes or No. The default is No.
Indicates when the HTTP SSL Certificate file will expire. The range is a valid date. The Certificate File Upload area enables you to upload a certificate file to the AP:
Select either or as the .
If you selected HTTP, click to select the file.
: To configure the HTTP and HTTPS server settings, see
. If you selected TFTP, enter and the .
Click . A confirmation window displays, followed by a progress bar to indicate the status of the upload.
You can configure minimum complexity requirements for passwords used to access the AP management interfaces. More complex passwords increase security. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 113
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To configure password complexity requirements:
Click > in the navigation window.
For the setting, select .
Configure the parameters:
The minimum number of character classes that must be represented in the password string. The four possible character classes are: uppercase letters, lowercase letters, numbers, and special characters available on a standard keyboard.
Select to have users enter a different password when their current passwords expire. If not selected, users can reenter the previous password when their current password expires.
The maximum password length in number of characters, from 64 to 80.
The minimum password length in number of characters, from 0 to 64.
Select to have passwords expire after a configured time period.
The number of days before a newly created password expires, from 1 to 365.
Click . The changes are saved to the Running Configuration and to the Startup Configuration.
When you configure VAPs on the AP, you can select a method of securely authenticating clients. If you select the WPA Personal protocol (also known as WPA pre-shared key or WPA-PSK) as the security method for any VAP, you can use the WPA-PSK Complexity page to configure complexity requirements for the key used in the authentication process. More complex keys provide increased security. To configure WPA-PSK complexity:
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Click > in the navigation window.
Click for the setting to enable the AP to check WPA-PSK keys against the criteria you configure. If you clear the checkbox, none of the following settings will be used.
Configure the parameters:
The minimum number of character classes that must be represented in the key string. The four possible character classes are: uppercase letters, lowercase letters, numbers, and special characters available on a standard keyboard.
Select one of the following:
- Users must configure a different key when their current key expire.
- Users can reenter the previous key when their current key expires.
The maximum key length in number of characters, from 64 to 80.
The minimum key length in number of characters, from 8 to 64. Select the checkbox to make the field editable and to activate this requirement.
Click . The changes are saved to the Running Configuration and to the Startup Configuration. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 115 REVIEW DRAFT Version 2CISCO CONFIDENTIAL 9
This chapter describes the Captive Portal feature, which allows you to block wireless clients from accessing the network until user verification has been established. You can configure CP verification to allow access for both guest and authenticated users.
The Captive Portal feature is available only on the WAP321 AP. Authenticated users must be validated against a database of authorized Captive Portal users before access is granted. The database can be stored locally on the AP or on a RADIUS server. You can create up to two CP instances, which can then be assigned to VAPs in the system. The instances can be configured with different parameters that affect the user experience when attempting to access a particular VAP. For example, users may be redirected to a particular web page after authenticating to VAP0, but to another web page after authenticating to VAP1, based on the differing CP instances associated with each VAP. This chapter includes the following topics:
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You can use the CP Global Configuration page to control the administrative state of the CP feature and configure global settings that affect all captive portal instances configured on the AP. To configure CP Global settings:
Click > in the navigation window. Step body
Configure the parameters:
Enables CP operation on the AP.
To access the network through a portal, the client must first enter authentication information on an authentication Web page. This field specifies the number of seconds the AP will keep an authentication session open with the client. When the timeout expires, the AP disconnects any active TCP or SSL connection with the client.
HTTP traffic uses port 80, but you can configure an additional port for HTTP traffic. Enter a port number between 0-65535.
HTTP traffic over SSL (HTTPS) uses port 443, but you can configure an additional port for HTTPS traffic. Enter a port number between 0-65535. The following fields display nonconfigurable CP information:
The number of CP instances currently configured on the AP. Up to two instances can be configured.
The number of CP groups currently configured on the AP. Up to three groups can be configured.
The number of CP users currently configured on the AP. Up to 128 users can be configured.
Click . The changes are saved to the Running Configuration and to the Startup Configuration. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 117
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You can create up to two captive portal instances, which is a defined set of CP parameters. Instances can be associated with one or more VAPs. Different instances can be configured to respond differently to users as they attempt to access the associated VAP. To create a CP instance and configure its settings:
Click > in the navigation window.
Select from the list. The Captive Portal Instance Parameters fields display.
Enter and (132 characters) and (either 1 or 2) and click .
Select the instance name from the list. The Captive Portal Instance Parameters fields redisplay, with additional options.
Configure the parameters:
Enables and disables the CP instance.
Specifies HTTP or HTTPs as the protocol for the CP instance to use during the verification process.
- Does not use encryption during verification.
- Uses the Secure Sockets Layer (SSL), which requires a certificate to provide encryption. The certificate is presented to the user at connection time.
The mode for the CP to use to verify clients:
- The user does not need to be authenticated by a database.
- The AP uses a local database to authenticated users.
- The AP uses a database on a remote RADIUS server to authenticate users.
Specifies that the CP should redirect the newly authenticated client to the configured URL. If this option is clear, the user sees the locale-
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The URL to which the newly authenticated client is redirected if the URL Redirect Mode is enabled.
The number of seconds a user can remain idle before automatically being logged out. If the value is set to 0, the timeout is not enforced. The default value is 0.
The number of seconds to wait before terminating a session. A user is logged out once the session timeout is reached. If the value is set to 0, the timeout is not enforced. The default value is 0.
The maximum speed, in megabytes per second, that a client can transmit traffic when using the captive portal. This setting limits the bandwidth at which the client can send data into the network.
The maximum speed, in megabytes per second, that a client can receive traffic when using the captive portal. This setting limits the bandwidth at which the client can receive data from the network.
If the Verification Mode is Local or RADIUS, assigns an existing User Group to the captive portal. All users who belong to the group are permitted to access the network through this portal.
Whether the the AP RADIUS client will use the configured IPv4 or IPv6 RADIUS server addresses.
If the Verification Mode is RADIUS, select to specify that the default RADIUS server list is used to authenticating clients. (See
for information about configuring the global RADIUS servers.) If you want the CP feature to use a different set of RADIUS servers, clear this setting and configure the servers in the fields on this page.
Enables tracking and measuring the resources a particular user has consumed, such as system time and amount of data transmitted and received. If you enable RADIUS accounting, it is enabled for the primary RADIUS server and all backup servers, and for globally or locally configured servers.
The IPv4 or IPv6 address for the primary RADIUS server for this VAP. When the first wireless client tries to authenticate with a VAP, the AP sends an authentication request to the primary server. If the primary server responds to the authentication request, the AP continues to use this RADIUS server as the primary server, and authentication requests are sent to the address you specify. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 119
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Up to three IPv4or IPv6 backup RADIUS server addresses. If authentication fails with the primary server, each configured backup server is tried in sequence.
Enables administratively selecting the active RADIUS server, rather than having the AP attempt to contact each configured server in sequence and choose the first server that is up.
The shared secret key that the AP uses to authenticate to the primary RADIUS server. You can use up to 63 standard alphanumeric and special characters. The key is case sensitive and must match the key configured on the RADIUS server. The text you enter will be displayed as "*" characters.
The RADIUS key associated with the configured backup RADIUS servers. The server at RADIUS IP Address-1 uses RADIUS Key-1, RADIUS IP Address-2 uses RADIUS Key-2, and so on.
The number of locales associated with the instance. You assign locales to instances on the Web Customization page.
Deletes the current instance.
Click . You changes are saved to the Running Configuration.
You can use the VAP configuration page to associate a CP instance to a VAP. The associated CP instance settings will apply to users who attempt to authenticate on the VAP. To associate an instance to a VAP:
Click > in the navigation window.
From the list, select the VAP to which you want to associate a CP instance.
From the list select the CP instance you want to associate with the VAP. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 120
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Click . Your change are saved to the Running Configuration.
When users initiate access to a VAP that is associated to a captive portal instance, an authentication page displays. You can customize this page with your own logo and other graphics. You can use the Upload Binary Files page to upload these graphics to the AP. To upload binary graphic files to the AP:
Create or identify custom graphics to replace the default graphics, as shown in the following table.:
Logo Account Displays at top left of page to provide branding information. Displays above the login field to depict an authenticated login. 295 55 pixels
168 78 pixels Background Displays in the page background. 10 800 Images will be resized to fit the specified dimensions. For best results, the logo and account images should be similar in proportion to the default images. All images must be 5 kilobytes or smaller and must be in GIF or JPG format.
Click > in the navigation window.
Click next to to select the file from your PC or network.
Click .
Go to the Web Customization page to apply an uploaded graphic to a CP web page. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 121
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: To delete an image, select it from the list and click .
When users initiate access to a VAP that is associated to a captive portal instance, an authentication page displays. You can use the Web Customization page to create unique pages for different locales on your network, and to customize the textual and graphic elements of the pages. To create and customize a CP authentication page:
Click > in the navigation window.
Select from the list. You can create up to three pages for use with different locales on your network.
Enter a to assign to the page.
Specify a , from 13.
From the list, select the CP instance that this locale is associated with. You can associate multiple locales with an instance. When a user attempts to access a particular VAP that is associated with a CP instance, the locales that are associated with that instance display as links on the authentication page. The user can select a link to switch to that locale.
Click . The changes are saved to the Running Configuration and to the Startup Configuration.
From the list, select the locale you created. The page displays additional fields for modifying the locale. The ,
, and fields display and cannot be edited. The editable fields are populated with default values.
Configure the parameters:
The image to display as the page background. If you uploaded a custom background image to the AP, you can select it from the list. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 122
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The image file to display on the top left corner of the page. This image is used for branding purposes, such as the company logo. If you uploaded a custom logo image to the AP, you can select it from the list.
The HTML code for the foreground color in 6-digit hexadecimal format.
The HTML code for the background color in 6-digit hexadecimal format.
The HTML code for the color of the thick horizontal line that separates the page header from the page body, in 6-digit hexadecimal format.
A descriptive label for the locale, from 132 characters. The default is English.
An abbreviation for the locale, from 132 characters. The default is en.
The image file to display above the login field to depict an authenticated login.
The text that instructs the user to enter a user name.
The label for the user name text box.
The label for the user password text box.
The label on the button users click to submit their user name/
password for authentication.
The name of the font to use for all text on the CP page. You can enter multiple font names, each separated by a comma. If the first font is not available on the client system, the next font will be used, and so on. For font names that have spaces, surround the entire name in quotes.
The text to display in the browser title bar.
The text that displays in the page header, to the right of the logo.
The instructive text that displays in the page body below the user name and password text boxes.
The text that appears in the Acceptance Use Policy box. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 123
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The text that instructs users to select the check box to acknowledge reading and accepting the Acceptance Use Policy.
Error: The text that displays in a pop-up window when a user submits login credentials without selecting the Acceptance Use Policy check box.
The text that displays during authentication.
The text that displays when a user fails authentication.
The text that displays when the authenticator is unavailable.
The text that displays when the authenticator has not replied in the configured time frame.
The text that displays when the client has authenticated to the VAP.
The text that displays when the client has connected to the network.
Deletes the current locale.
Click . Your changes are saved to the Running Configuration and the Startup Configuration. You can use the Web Customization Preview page view the updated page.
Use the Web Customization Preview page to view a locale page that you have modified. To preview a customized page:
Click > in the navigation window.
Select the locale you want to preview from the list. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 124
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The page for the locale displays in the Captive Portal Web Locale Parameters Preview area.
Each local user is assigned to a user group. Each group is assigned to a CP instance. The group facilitates managing the assignment of users to CP instances. The user group named default is built-in and cannot be deleted. You can create up to two additional user groups. To add local user groups:
Click > in the navigation window.
In the list, click . The page displays additional fields for configuring a new group.
Enter a and and click . The changes are saved to the Running Configuration and to the Startup Configuration.
: To delete a group, select it in the list, select the
check box, and click .
You can configure a captive portal instance to accommodate either guest users and authorized users. Guest users do not have assigned user names and passwords. The CP instance to which guest users are assigned might be associated with a VAP that provides a more restricted access to the network. Authorized users provide a valid user name and password that must first be validated against a local database or RADIUS server. Authorized users are typically assigned to a CP instance that is associated with a different VAP than guest users. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 125
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You can use the Local Users page to configure up to 128 authorized users in the local database. To add and configure a local user:
Click > in the navigation window.
Select in the list. The page displays additional fields for creating a new user.
Enter a and , then click .
From the list, select the name of the user you created. The page displays additional fields for configuring the user.
Enter the parameters:
Enter the users password, from 8 to 64 alphanumeric and special characters. A user enter must enter the password to log into the network through the Captive Portal.
The period of time after which the user is logged out if there is no activity.
The group the user is assigned to. Each CP instance is configured to support a particular group of users.
The maximum speed, in megabytes per second, that a client can transmit traffic when using the captive portal. This setting limits the bandwidth at which the client can send data into the network.
The maximum speed, in megabytes per second, that a client can receive traffic when using the captive portal. This setting limits the bandwidth at which the client can receive data from the network.
Deletes the current user.
Click . The changes are saved to the Running Configuration and to the Startup Configuration. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 126
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When you define CP users, you assign them to groups. The groups are assigned to a CP instance, enabling all members access to that CP instance. In addition to making a user a member of a group, you can also associate the user with another group (without assigning them as member). The association enables a user access to an additional CP instance. To associate a user to a group (of which the user is not already a member):
Click > in the navigation window.
In the list, click . The page displays additional fields for associating a user to a group.
Enter a
Enter the and to associate and click . The changes are saved to the Running Configuration and to the Startup Configuration.
: To delete a group, select it in the list, select the check box, and click .
The Authenticated Clients page provides information about clients that have authenticated on any Captive Portal instance. To view the list of authenticated clients, click >
in the navigation window. The following fields display:
The MAC address of the client.
The IP address of the client.
The clients Captive Portal user name.
The protocol the user used to establish the connection (HTTP or HTTPS). Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 127
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The method used to authenticate the user on the Captive Portal, which can be one of the following values:
- The user does not need to be authenticated by a database.
- The AP uses a local database to authenticated users.
- The AP uses a database on a remote RADIUS server to authenticate users.
The VAP that the user is associated with.
The ID of the radio. Because the AP has a single radio, this field always displays Radio1.
The ID of the Captive Portal instance to which the user is associated.
The time that has elapsed since the user authenticated on Captive Portal.
The time that has elapsed since the last user activity.
The URL that the user initially attempted to access.
The number of IP packets received by the AP from the user station.
The number of IP packets transmitted from the AP to the user station.
The number of bytes received by the AP from the user station.
The number of bytes transmitted from the AP to the user station. You can click to show the latest data from the switch.
The Failed Authenticated Clients page lists information about clients that attempted to authenticate on a Captive Portal and failed. To view a list of clients who failed authentication, click >
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The following fields display:
The MAC address of the client.
The IP address of the client.
The clients Captive Portal user name.
The method the client attempted to use to authenticate on the Captive Portal, which can be one of the following values:
- The user does not need to be authenticated by a database.
- The AP uses a local database to authenticated users.
- The AP uses a database on a remote RADIUS server to authenticate users.
The VAP that the user is associated with.
The ID of the radio. Because the AP has a single radio, this field always displays Radio1.
The ID of the Captive Portal instance to which the user is associated.
The time that the authentication failure occurred. You can click to show the latest data from the switch. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 129 REVIEW DRAFT Version 2CISCO CONFIDENTIAL 10
This chapter provides an overview of Quality of Service (QoS) and explains the QoS features available from the Quality of Service menu.
ACLs are a collection of permit and deny conditions, called rules, that provide security by blocking unauthorized users and allowing authorized users to access specific resources. ACLs can block any unwarranted attempts to reach network resources. The AP supports up to 50 IPv4, IPv6, and MAC ACLs.
IP ACLs classify traffic for Layers 3 and 4. Each ACL is a set of up to 10 rules applied to traffic sent from a wireless client or to be received by a wireless client. Each rule specifies whether the contents of a given field should be used to permit or deny access to the network. Rules can be based on various criteria and may apply to one ore more fields within a packet, such as the source or destination IP address, the source or destination L4 port, or the protocol carried in the packet. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 130
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MAC ACLs are Layer 2 ACLs. You can configure the rules to inspect fields of a frame such as the source or destination MAC address, the VLAN ID, or the Class of Service 802.1p priority. When a frame enters or exits the AP port (depending on whether the ACL is applied in the up or down direction), the AP inspects the frame and checks the ACL rules against the content of the frame. If any of the rules match the content, a permit or deny action is taken on the frame.
Configure ACLs and rules on the ACL Configuration page (steps 15), and then apply the rules to a specified VAP. Use the following general steps to configure ACLs:
Specify a name for the ACL.
Select the type of ACL to add.
Add the ACL
Add new rules to the ACL.
Configure the match criteria for the rules.
Use the Client QoS Association page to apply the ACL to one or more VAPs. To add an ACL and configure its rules:
Click > in the navigation window.
Enter the following parameters to create a new ACL:
A name to identify the ACL. The name can contain from 1 31 alphanumeric characters. Spaces are not allowed.
The type of ACL to configure:
-
-
IPv4 IPv6
- MAC IPv4 and IPv6 ACLs control access to network resources based on Layer 3 and Layer 4 criteria. MAC ACLs control access based on Layer 2 criteria. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 131
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Click . The page displays additional fields for configuring the ACL.
Configure the rule parameters:
The ACL to configure with the new rule. The list contains all ACLs added in the ACL Configuration section.
The action to be taken:
- Select to configure a new rule for the selected ACL
-
If rules already exist (even if created for use with other ACLs), you can select the rule number to add the rule to the selected ACL or to modify the rule. When an ACL has multiple rules, the rules are applied to the packet or frame in the order in which you add them to the ACL. There is an implicit deny all rule as the final rule.
Whether the ACL rule permits or denies an action. When you select Permit, the rule allows all traffic that meets the rule criteria to enter or exit the AP (depending on the ACL direction you select). Traffic that does not meet the criteria is dropped. When you select Deny, the rule blocks all traffic that meets the rule criteria from entering or exiting the AP (depending on the ACL direction you select). Traffic that does not meet the criteria is forwarded unless this rule is the final rule. Because there is an implicit deny all rule at the end of every ACL, traffic that is not explicitly permitted is dropped.
If selected, the rule, which either has a permit or deny action, will match the frame or packet regardless of its contents. If you select this field, you cannot configure any additional match criteria. The Match Every option is selected by default for a new rule. You must clear the option to configure other match fields. For IPv4 ACLs, configure the following parameters:
The Protocol field to use an L3 or L4 protocol match condition based on the value of the IP Protocol field in IPv4 packets or the Next Header field of IPv6 packets. If you select the checkbox, select one of the following:
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- Select one of the following protocols: IP, ICMP, IGMP, TCP, or UDP.
- Enter a standard IANA-assigned protocol ID from 0255. Choose this method to identify a protocol not listed by name in the Select From List.
Requires a packet's source IP address to match the address listed here. Enter an IP address in the appropriate field to apply this criteria.
The source IP address wildcard mask. The wild card masks determines which bits are used and which bits are ignored. A wild card mask of 255.255.255.255 indicates that no bit is important. A wildcard of 0.0.0.0 indicates that all of the bits are important. This field is required when Source IP Address is checked. A wild card mask is, in essence, the inverse of a subnet mask. For example, To match the criteria to a single host address, use a wildcard mask of 0.0.0.0. To match the criteria to a 24-bit subnet (for example 192.168.10.0/24), use a wild card mask of 0.0.0.255.
Includes a source port in the match condition for the rule. The source port is identified in the datagram header. If you select this checkbox, choose the port name or enter the port number.
- The keyword associated with the source port to match: ftp, ftpdata, http, smtp, snmp, telnet, tftp, www. Each of these keywords translates into its equivalent port number.
The IANA port number to match to the source port identified in the datagram header. The port range is 065535 and includes three different types of ports:
01023: Well Known Ports 102449151: Registered Ports 4915265535: Dynamic and/or Private Ports
Requires a packet's destination IP address to match the address listed here. Enter an IP address in the appropriate field to apply this criteria.
The destination IP address wildcard mask. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 133
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The wild card masks determines which bits are used and which bits are ignored. A wild card mask of 255.255.255.255 indicates that no bit is important. A wildcard of 0.0.0.0 indicates that all of the bits are important. This field is required when Source IP Address is selected. A wild card mask is in essence the inverse of a subnet mask. For example, To match the criteria to a single host address, use a wildcard mask of 0.0.0.0. To match the criteria to a 24-bit subnet (for example 192.168.10.0/24), use a wild card mask of 0.0.0.255.
Includes a destination port in the match condition for the rule. The destination port is identified in the datagram header. If you select this checkbox, choose the port name or enter the port number.
- Select the keyword associated with the destination port to match: ftp, ftpdata, http, smtp, snmp, telnet, tftp, www. Each of these keywords translates into its equivalent port number.
The IANA port number to match to the destination port identified in the datagram header. The port range is 065535 and includes three different types of ports:
01023: Well Known Ports 102449151: Registered Ports 4915265535: Dynamic and/or Private Ports
Matches packets based on their IP DSCP value. If you select this checkbox, choose one of the following as the match criteria:
- DSCP Assured Forwarding (AS), Class of Service
(CS) or Expedited Forwarding (EF) values.
A custom DSCP value, from 063.
Matches packets based on their IP Precedence value. If you select this checkbox, enter an IP Precedence value from 07.
Specifies a value to use the packet's Type of Service bits in the IP header as match criteria. The IP TOS field in a packet is defined as all eight bits of the Service Type octet in the IP header. The TOS Bits value is a two-digit hexadecimal number from 00 to ff. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 134
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The high-order three bits represent the IP precedence value. The high-order six bits represent the IP Differentiated Services Code Point (DSCP) value.
Enter an IP TOS mask value to identify the bit positions in the TOS Bits value that are used for comparison against the IP TOS field in a packet. The TOS Mask value is a two-digit hexadecimal number from 00 to ff, representing an inverted (i.e. wildcard) mask. The zero-valued bits in the TOS Mask denote the bit positions in the TOS Bits value that are used for comparison against the IP TOS field of a packet. For example, to check for an IP TOS value having bits 7 and 5 set and bit 1 clear, where bit 7 is most significant, use a TOS Bits value of a0 and a TOS Mask of 00. This is an optional configuration. For IPv6 ACLs, configure the following parameters:
Select the Protocol field to use an L3 or L4 protocol match condition based on the value of the IP Protocol field in IPv4 packets or the Next Header field of IPv6 packets. If you select the field, choose the protocol to match by keyword or protocol ID.
Select this field to require a packet's source IPv6 address to match the address listed here. Enter an IPv6 address in the appropriate field to apply this criteria.
Enter the prefix length of the source IPv6 address.
Select this option to include a source port in the match condition for the rule. The source port is identified in the datagram header. If you select this checkbox, choose the port name or enter the port number.
Select this field to require a packet's destination IPv6 address to match the address listed here. Enter an IPv6 address in the appropriate field to apply this criteria.
Enter the prefix length of the destination IPv6 address.
Select this option to include a destination port in the match condition for the rule. The destination port is identified in the datagram header. If you select this checkbox, choose the port name or enter the port number. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 135
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Flow label is 20-bit number that is unique to an IPv6 packet. It is used by end stations to signify quality-of-service handling in routers (range 0 to 1048575).
Matches packets based on their IP DSCP value. If you select this checkbox, choose one of the following as the match criteria:
- DSCP Assured Forwarding (AS), Class of Service
(CS) or Expedited Forwarding (EF) values.
A custom DSCP value, from 063. For a MAC ACL, configure the following parameters:
Select the EtherType field to compare the match criteria against the value in the header of an Ethernet frame. Select an EtherType keyword or enter an EtherType value to specify the match criteria.
- Select one of the following protocol types: appletalk, arp, ipv4, ipv6, ipx, netbios, pppoe
- Enter a custom protocol identifier to which packets are matched. The value is a four-digit hexadecimal number in the range of 0600FFFF.
Select this field and enter an 802.1p user priority to compare against an Ethernet frame. The valid range is 07. This field is located in the first/only 802.1Q VLAN tag.
Select this field and enter the source MAC address to compare against an Ethernet frame.
Select this field and enter the source MAC address mask specifying which bits in the source MAC to compare against an Ethernet frame. A 0 indicates that the address bit is significant, and an f indicates that the address bit is to be ignored. A MAC mask of 00:00:00:00:00:00 matches a single MAC address.
Select this field and enter the destination MAC address to compare against an Ethernet frame. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 136
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Enter the destination MAC address mask specifying which bits in the destination MAC to compare against an Ethernet frame. A 0 indicates that the address bit is significant, and an f indicates that the address bit is to be ignored. A MAC mask of 00:00:00:00:00:00 matches a single MAC address.
Select this field and enter the VLAN IDs to compare against an Ethernet frame. This field is located in the first/only 802.1Q VLAN tag.
Click . The changes are saved to the Running Configuration and to the Startup Configuration.
To delete an ACL, ensure that it is selected in the list, select , and click .
The Client QoS feature contains Differentiated Services (DiffServ) support that allows traffic to be classified into streams and given certain QoS treatment in accordance with defined per-hop behaviors. Standard IP-based networks are designed to provide best effort data delivery service. Best effort service implies that the network delivers the data in a timely fashion, although there is no guarantee that it will. During times of congestion, packets may be delayed, sent sporadically, or dropped. For typical Internet applications, such as e-mail and file transfer, a slight degradation in service is acceptable and in many cases unnoticeable. However, on applications with strict timing requirements, such as voice or multimedia, any degradation of service has undesirable effects. A diffserv configuration begins with defining class maps, which classify traffic according to their IP protocol and other criteria. Each class map can then be associated with a policy map, which defines how to handle the traffic class. Classes that include time-sensitive traffic can be assigned to policy maps that give precedence over other traffic. You can use the Class Map page to define classes of traffic. Use the Policy Map page to define policies and associate class maps to them. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 137
Class Map REVIEW DRAFT Version 2CISCO CONFIDENTIAL
To add a class map:
Click > in the navigation window.
Enter a .
Select a value from the list:
The class map applies only to IPv4 traffic on the AP.
The class map applies only to IPv6 traffic on the AP. The Class Map page displays with additional fields, depending on the layer 3 protocol selected:
Use the fields in the Match Criteria Configuration area to match packets to a class. Select the check box for each field to be used as a criterion for a class and enter data in the related field. You can have multiple match criteria in a class. The match criteria fields that are available depend on whether the class map is an IPv4 or IPv6 class map.
To configure a class map:
Select the class map from the list.
Configure the parameters (parameters that display only for IPv4 or IPv6 class maps are noted):
The match condition is true to all the parameters in an L3 packet. When selected, all L3 packets will match an Match Every match condition.
Use an L3 or L4 protocol match condition based on the value of the IP Protocol field in IPv4 packets or the Next Header field of IPv6 packets. If you select the field, choose the protocol to match by keyword or enter a protocol ID. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 138
Class Map REVIEW DRAFT Version 2CISCO CONFIDENTIAL
- Match the selected protocol: IP, ICMP, IPv6, ICMPv6, IGMP, TCP, UDP.
- Match a protocol that is not listed by name. Enter the protocol ID. The protocol ID is a standard value assigned by the IANA. The range is a number from 0255.
or Requires a packet's source IP address to match the address listed here. Select the checkbox and enter an IP address in the text box.
(IPv4 only)The source IP address mask. The mask for DiffServ is a network-style bit mask in IP dotted decimal format indicating which part(s) of the destination IP Address to use for matching against packet content. A DiffServ mask of 255.255.255.255 indicates that all bits are important, and a mask of 0.0.0.0 indicates that no bits are important. The opposite is true with an ACL wild card mask. For example, to match the criteria to a single host address, use a mask of 255.255.255.255. To match the criteria to a 24-
bit subnet (for example 192.168.10.0/24), use a mask of 255.255.255.0.
(IPv6 only)The prefix length of the source IPv6 address.
or Requires a packet's destination IP address to match the address listed here. Enter an IP address in the appropriate field to apply this criteria.
(IPv4 only)The destination IP address mask. The mask for DiffServ is a network-style bit mask in IP dotted decimal format indicating which part(s) of the destination IP Address to use for matching against packet content. A DiffServ mask of 255.255.255.255 indicates that all bits are important, and a mask of 0.0.0.0 indicates that no bits are important. The opposite is true with an ACL wild card mask. For example, to match the criteria to a single host address, use a mask of 255.255.255.255. To match the criteria to a 24-bit subnet (for example 192.168.10.0/24), use a mask of 255.255.255.0.
(IPv6 only)The prefix length of the destination IPv6 address.
(IPv6 only)A 20-bit number that is unique to an IPv6 packet. It is used by end stations to signify quality-of-service handling in routers (range 0 to 1048575). Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 139
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See description under Service Types below.
Includes a source port in the match condition for the rule. The source port is identified in the datagram header. If you select the field, choose the port name or enter the port number.
- Matches a keyword associated with the source port:
ftp, ftpdata, http, smtp, snmp, telnet, tftp, www. Each of these keywords translates into its equivalent port number.
- Matches the source port number in the datagram header to a IANA port number that you specify. The port range is 065535 and includes three different types of ports:
01023Well Known Ports 102449151: Registered Ports 4915265535: Dynamic and/or Private Ports
Includes a destination port in the match condition for the rule. The destination port is identified in the datagram header. If you select this field, choose the port name or enter the port number.
- Matches the destination port in the datagram header with the selected keyword: ftp, ftpdata, http, smtp, snmp, telnet, tftp, www. Each of these keywords translates into its equivalent port number.
- Matches the destination port in the datagram header with an IANA port number that you specify. The port range is 065535 and includes three different types of ports:
01023: Well Known Ports 102449151: Registered Ports 4915265535: Dynamic and/or Private Ports
Compares the match criteria against the value in the header of an Ethernet frame. Select an EtherType keyword or enter an EtherType value to specify the match criteria. Cisco Small Business WAP121 and WAP321 Wireless-N Access Point with PoE 140
1 2 3 4 | Internal Photos | Internal Photos | 1.95 MiB | November 17 2015 |
Compliance Certification Services Inc. Reference No: T111028201 Report No.: T150622D07 INTERNAL PHOTOGRAPHS OF EUT A1 - 14 Compliance Certification Services Inc. Reference No: T111028201 Report No.: T150622D07 A1 - 15 Compliance Certification Services Inc. Reference No: T111028201 Report No.: T150622D07 A1 - 16 Compliance Certification Services Inc. Reference No: T111028201 Report No.: T150622D07 A1 - 17 Compliance Certification Services Inc. Reference No: T111028201 Report No.: T150622D07 For Antenna A1 - 18 Compliance Certification Services Inc. Reference No: T111028201 Report No.: T150622D07 A1 - 19 Compliance Certification Services Inc. Reference No: T111028201 Report No.: T150622D07 A1 - 20
1 2 3 4 | External Photos | External Photos | 2.35 MiB | November 17 2015 |
Compliance Certification Services Inc. Reference No: T111028201 Report No.: T150622D07 APPENDIX 1 - PHOTOGRAPHS OF EUT EXTERNAL PHOTOGRAPHS OF EUT A1 - 1 / 20 Compliance Certification Services Inc. Reference No: T111028201 Report No.: T150622D07 A1 - 2 Compliance Certification Services Inc. Reference No: T111028201 Report No.: T150622D07 A1 - 3 Compliance Certification Services Inc. Reference No: T111028201 Report No.: T150622D07 A1 - 4 Compliance Certification Services Inc. Reference No: T111028201 Report No.: T150622D07 T150622D07 A1 - 5 Compliance Certification Services Inc. Reference No: T111028201 Report No.: T150622D07 T150622D07 A1 - 6 Compliance Certification Services Inc. Reference No: T111028201 Report No.: T150622D07 T150622D07 A1 - 7 Compliance Certification Services Inc. Reference No: T111028201 Report No.: T150622D07 T150622D07 A1 - 8 Compliance Certification Services Inc. Reference No: T111028201 Report No.: T150622D07 T150622D07 T150622D07 A1 - 9 Compliance Certification Services Inc. Reference No: T111028201 Report No.: T150622D07 T150622D07 T150622D07 A1 - 10 Compliance Certification Services Inc. Reference No: T111028201 Report No.: T150622D07 T150622D07 T150622D07 A1 - 11 Compliance Certification Services Inc. Reference No: T111028201 Report No.: T150622D07 T150622D07 T150622D07 A1 - 12 Compliance Certification Services Inc. Reference No: T111028201 Report No.: T150622D07 T150622D07 A1 - 13
1 2 3 4 | ID Label & Location | ID Label/Location Info | 176.92 KiB | January 20 2012 |
UCLA Nk Pe Cay MR rece CCS aL This device complies with part 15 FCC rules. Operation is subject to the following two conditions: Le.
(1) this device may not cause harmful interference c US E210821
(2) this device must accept any interference received aud including interference that may cause undesired operations, LISTED This devices complies with Industry Canada ICES-003 rule. Cet appareil est conforme la norme NMBO0S d'industrie Canada. power :2v 14, IC: 5604A-WAP321 Alimentation 12.V 1A, FCC ID: P27-WAP321 C t Ea 35x16mm, Made in Taiwan
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1 2 3 4 | C2PC Letter | Cover Letter(s) | 42.67 KiB | November 17 2015 |
DateNovember 16, 2015 Federal Communications Commission Authorization and Evaluation Devision 7435 Oakland Mills Road Columbia, MD 21046 Attn: OET Dept. Ref: FCC Class II Permissive change for FCC ID: P27-WAP321 Original Grant Date: 01/20/2012 Applicant: Sercomm Corporation Dear Examiner, This is to request a Class II permissive change for FCC ID: P27-WAP321 originally granted on 01/20/2012 Change reason:
1. Applicant updates standard and also Reduces B4 output power which is lower than original report. 2. Reduced the power setting :
-NB and EUT connection, NB with network cable must all support 1GHz
- WAP321 can use telnet to play BCM packeteng command downgraded POWER Should you have any questions regarding this application, please feel free to contact the undersigned. Your Sincerely, Kevin Kuo Sr. Manager / R&D Division Sercomm Corporation TEL: 886-2-2655-3988#2631 FAX: 886-2-2655-7379 E-Mail: kevin_kuo@sercomm.com
1 2 3 4 | Confidentiality Letter | Cover Letter(s) | 50.39 KiB | November 17 2015 |
BABT TCB DateNovember 11, 2015 Confidentiality Request FCC ID: P27-WAP321 Pursuant to Sections 0.457(d)(1)(ii) and 0.459 of the Commissions Rules, Sercomm Corporation hereby requests permanent confidential treatment of information accompanying this application as outlined below:
Common exhibits for which confidentiality is requested are:
Schematics Block Diagrams Theory of Operation KDB 594280 D02 v01r02 U-NII Device SW Security Statement The above materials contain trade secrets and proprietary information not customarily released to the public. The public disclosure of these matters might be harmful to the Applicant and provide unjustified benefits to its competitors. The Applicant understands that pursuant to Rule 0.457(d)(1)(ii), disclosure of this Application and all accompanying materials will not be made before the date of the Grant for this Application. Your Sincerely, Kevin Kuo Sr. Manager / R&D Division Sercomm Corporation TEL: 886-2-2655-3988#2631 FAX: 886-2-2655-7379 E-Mail: kevin_kuo@sercomm.com
1 2 3 4 | RF Exposure Report | RF Exposure Info | 227.54 KiB | November 17 2015 |
Compliance Certification Services Inc. FCC ID: P27-WAP321 Report No.: T150622D07-MF IEEE C95.1 KDB 447498 D03 47 C.F.R. Part 1, Subpart I, Section 1.1310 47 C.F.R. Part 2, Subpart J, Section 2.1091 RF EXPOSURE REPORT For Wireless-N Selectable-Band Access Point with PoE Model: WAP321 Trade Name: Cisco Issued to 8F, No. 3-1, YuanQu St., NanKang, Taipei 115, Taiwan, R.O.C. Sercomm Corporation Issued by Compliance Certification Services Inc. No.11, Wugong 6th Rd., Wugu Dist., New Taipei City 24891, Taiwan. (R.O.C.) http://www.ccsrf.com service@ccsrf.com Issued Date: August 06, 2015 This report shall not be reproduced except in full, without the written approval of Compliance Certification Services. Page 1 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Report No.: T150622D07-MF Revision History Rev. Issue Date Revisions Effect Page Revised By 00 2015/08/06 Initial Issue ALL Doris Chu This report shall not be reproduced except in full, without the written approval of Compliance Certification Services. Page 2 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Report No.: T150622D07-MF TABLE OF CONTENTS 1. LIMIT ...................................................................................................... 4 2. EUT SPECIFICATION ........................................................................ 4 3. TEST RESULTS .................................................................................. 7 4. MAXIMUM PERMISSIBLE EXPOSURE ......................................... 8 5. SIMULTANEOUS TRANSMISSION SAR ANALYSIS ............... 10 This report shall not be reproduced except in full, without the written approval of Compliance Certification Services. Page 3 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Report No.: T150622D07-MF 1. LIMIT According to 15.247(i), systems operating under the provisions of this section shall be operated in a manner that ensures that the public is not exposed to radio frequency energy levels in excess of the Commission's guidelines. See 1.1307(b)(1) of this chapter. 2. EUT SPECIFICATION EUT Wireless-N Selectable-Band Access Point with PoE Model WAP321 Frequency band
(Operating) 802.11b/g/n HT20: 2.412GHz ~ 2.462GHz 802.11n HT40: 2.422GHz ~ 2.452GHz 802.11a/n HT20: 5.180GHz ~ 5.240GHz / 5.745 ~ 5.825GHz 802.11n HT40: 5.190GHz ~ 5.230GHz / 5.755 ~ 5.795GHz Device category Others Portable (<20cm separation) Mobile (>20cm separation) Others Exposure classification Occupational/Controlled exposure (S = 5mW/cm2) General Population/Uncontrolled exposure
(S=1mW/cm2) Antenna 1:
Antenna 2:
Antenna 3:
Mode 1 (Ant1 + Ant2) :
Antenna Specification Mode 2 (Ant2 + Ant3):
Mode 3 (Ant1 + Ant3)::
This report shall not be reproduced except in full, without the written approval of Compliance Certification Services. Page 4 Rev.00 2.4GHz: Antenna Gain :4.32 dBi(Numeric gain:2.70)5 GHz: Antenna Gain :4.88 dBi(Numeric gain:3.08)2.4GHz: Antenna Gain :4.67 dBi(Numeric gain:2.93)5 GHz: Antenna Gain :4.97 dBi(Numeric gain:3.14)2.4GHz: Antenna Gain :3.96 dBi(Numeric gain:2.49)5 GHz: Antenna Gain :4.74 dBi(Numeric gain:2.98)2.4GHz:Directional gain =4.67 dBi+10log( 2 )=7.68 dBi(Numeric gain:5.86)5GHz:Directional gain =4.97 dBi+10log( 2 )=7.98 dBi(Numeric gain:6.28)2.4GHz:Directional gain =4.67 dBi+10log( 2 )=7.68 dBi(Numeric gain:5.86)5GHz:Directional gain =4.97 dBi+10log( 2 )=7.98 dBi(Numeric gain:6.28)2.4GHz:Directional gain =4.32 dBi+10log( 2 )=7.33 dBi(Numeric gain:5.41)5GHz:Directional gain =4.88 dBi+10log( 2 )=7.89 dBi(Numeric gain:6.15) Compliance Certification Services Inc. FCC ID: P27-WAP321 Report No.: T150622D07-MF Mode1:
Mode 2:
Maximum Average output power Mode 3:
This report shall not be reproduced except in full, without the written approval of Compliance Certification Services. Page 5 Rev.00 IEEE 802.11b Mode:17.89 dBm(61.518 mW)IEEE 802.11g Mode:15.17 dBm(32.885 mW)IEEE 802.11a Mode:14.83 dBm(30.409 mW)2.4GHzIEEE 802.11n HT 20 Mode: 15.50 dBm(35.481 mW)IEEE 802.11n HT 40 Mode: 15.49 dBm(35.400 mW)5GHzIEEE 802.11n HT 20 Mode: 14.83 dBm(30.409 mW)IEEE 802.11n HT 40 Mode: 15.86 dBm(38.548 mW)2.4GHzIEEE 802.11n HT 20 Mode: 15.52 dBm(35.645 mW)IEEE 802.11n HT 40 Mode: 15.34 dBm(34.198 mW)5GHzIEEE 802.11n HT 20 Mode: 15.89 dBm(38.815 mW)IEEE 802.11n HT 40 Mode: 14.87 dBm(30.690 mW)2.4GHzIEEE 802.11n HT 20 Mode: 15.54 dBm(35.810 mW)IEEE 802.11n HT 40 Mode: 15.46 dBm(35.156 mW)5GHzIEEE 802.11n HT 20 Mode: 15.13 dBm(32.584 mW)IEEE 802.11n HT 40 Mode: 15.36 dBm(34.356 mW) Compliance Certification Services Inc. FCC ID: P27-WAP321 Report No.: T150622D07-MF Mode1:
Mode 2:
Maximum Tune up Power Mode 3:
Evaluation applied MPE Evaluation*
SAR Evaluation N/A This report shall not be reproduced except in full, without the written approval of Compliance Certification Services. Page 6 Rev.00 IEEE 802.11b Mode:19.00 dBm(79.433 mW)IEEE 802.11g Mode:17.00 dBm(50.119 mW)IEEE 802.11a Mode:16.00 dBm(39.811 mW)2.4GHzIEEE 802.11n HT 20 Mode: 17.00 dBm(50.119 mW)IEEE 802.11n HT 40 Mode: 17.00 dBm(50.119 mW)5GHzIEEE 802.11n HT 20 Mode: 16.00 dBm(39.811 mW)IEEE 802.11n HT 40 Mode: 17.00 dBm(50.119 mW)2.4GHzIEEE 802.11n HT 20 Mode: 17.00 dBm(50.119 mW)IEEE 802.11n HT 40 Mode: 17.00 dBm(50.119 mW)5GHzIEEE 802.11n HT 20 Mode: 17.00 dBm(50.119 mW)IEEE 802.11n HT 40 Mode: 16.00 dBm(39.811 mW)2.4GHzIEEE 802.11n HT 20 Mode: 17.00 dBm(50.119 mW)IEEE 802.11n HT 40 Mode: 17.00 dBm(50.119 mW)5GHzIEEE 802.11n HT 20 Mode: 17.00 dBm(50.119 mW)IEEE 802.11n HT 40 Mode: 17.00 dBm(50.119 mW) Compliance Certification Services Inc. FCC ID: P27-WAP321 Report No.: T150622D07-MF 3. TEST RESULTS No non-compliance noted. Calculation Given
&
Where E = Field strength in Volts / meter P = Power in Watts G = Numeric antenna gain d = Distance in meters S = Power density in watts / meter Combining equations and re-arranging the terms to express the distance as a function of the remaining variables yields:
Changing to units of mW and cm, using:
P (mW) = P (W) / 1000 and d (cm) = d(m) / 100 Yields Equation 1 Where d = Distance in cm P = Power in mW G = Numeric antenna gain S = Power density in mW / cm2 This report shall not be reproduced except in full, without the written approval of Compliance Certification Services. Page 7 Rev.00 dGPE303772ES237730dGPS220796.0100/3771000/30dGPdGPS Compliance Certification Services Inc. FCC ID: P27-WAP321 Report No.: T150622D07-MF 4. MAXIMUM PERMISSIBLE EXPOSURE Substituting the MPE safe distance using d = 20 cm into Equation 1:
Where P = Power in mW G = Numeric antenna gain S = Power density in mW / cm2 IEEE 802.11b mode:
IEEE 802.11g mode:
IEEE 802.11a mode:
Mode 1 IEEE 802.11n HT20 mode:
IEEE 802.11n HT40 mode:
IEEE 802.11n HT20 mode:
IEEE 802.11n HT40 mode:
This report shall not be reproduced except in full, without the written approval of Compliance Certification Services. Page 8 Rev.00 GPS000199.0Ch.Frq.(MHz)P (mW)Gain (num.)D (cm)Power density in mW / cm2Limit (mW/cm2)1241279.4332.93200.04631Ch.Frq.(MHz)P (mW)Gain (num.)D (cm)Power density in mW / cm2Limit (mW/cm2)7244250.1192.93200.02921Ch.Frq.(MHz)P (mW)Gain (num.)D (cm)Power density in mW / cm2Limit (mW/cm2)157578539.8113.14200.02491Ch.Frq.(MHz)P (mW)Gain (num.)D (cm)Power density in mW / cm2Limit (mW/cm2)7244250.1195.86200.05841Ch.Frq.(MHz)P (mW)Gain (num.)D (cm)Power density in mW / cm2Limit (mW/cm2)7244250.1195.86200.05841Ch.Frq.(MHz)P (mW)Gain (num.)D (cm)Power density in mW / cm2Limit (mW/cm2)157578539.8116.28200.04981Ch.Frq.(MHz)P (mW)Gain (num.)D (cm)Power density in mW / cm2Limit (mW/cm2)159579550.1196.28200.06261 Compliance Certification Services Inc. FCC ID: P27-WAP321 Report No.: T150622D07-MF Mode 2 IEEE 802.11n HT20 mode:
IEEE 802.11n HT40 mode:
IEEE 802.11n HT20 mode:
IEEE 802.11n HT40 mode:
Mode 3 IEEE 802.11n HT20 mode:
IEEE 802.11n HT40 mode:
IEEE 802.11n HT20 mode:
IEEE 802.11n HT40 mode:
This report shall not be reproduced except in full, without the written approval of Compliance Certification Services. Page 9 Rev.00 Ch.Frq.(MHz)P (mW)Gain (num.)D (cm)Power density in mW / cm2Limit (mW/cm2)7244250.1195.86200.05841Ch.Frq.(MHz)P (mW)Gain (num.)D (cm)Power density in mW / cm2Limit (mW/cm2)7244250.1195.86200.05841Ch.Frq.(MHz)P (mW)Gain (num.)D (cm)Power density in mW / cm2Limit (mW/cm2)165582550.1196.28200.06261Ch.Frq.(MHz)P (mW)Gain (num.)D (cm)Power density in mW / cm2Limit (mW/cm2)159579539.8116.28200.04981Ch.Frq.(MHz)P (mW)Gain (num.)D (cm)Power density in mW / cm2Limit (mW/cm2)7244250.1195.41200.05401Ch.Frq.(MHz)P (mW)Gain (num.)D (cm)Power density in mW / cm2Limit (mW/cm2)7244250.1195.41200.05401Ch.Frq.(MHz)P (mW)Gain (num.)D (cm)Power density in mW / cm2Limit (mW/cm2)165582550.1196.15200.06131Ch.Frq.(MHz)P (mW)Gain (num.)D (cm)Power density in mW / cm2Limit (mW/cm2)151575550.1196.15200.06131 Compliance Certification Services Inc. FCC ID: P27-WAP321 Report No.: T150622D07-MF 5. SIMULTANEOUS TRANSMISSION SAR ANALYSIS Both of the 2.4GHz band and 5GHz band can transmit simultaneously, the formula of calculated the MPE is:
CPD1 / LPD1 + CPD2 / LPD2 + etc. < 1 CPD = Calculation power density LPD = Limit of power density Therefore, the worst-case situation is 0.0626 / 1 + 0.0463 / 1 = 0.1089, which is less than 1. This report shall not be reproduced except in full, without the written approval of Compliance Certification Services. Page 10 Rev.00
1 2 3 4 | Test Report I | Test Report | 2.09 MiB | November 17 2015 |
Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 FCC 47 CFR PART 15 SUBPART E
(Class II Permissive Change) TEST REPORT For Wireless-N Selectable-Band Access Point with PoE Model: WAP321 Trade Name: Cisco Issued to Sercomm Corporation 8F, No. 3-1, YuanQu St., NanKang, Taipei 115, Taiwan, R.O.C. Issued by Compliance Certification Services Inc. No.11, Wu-Gong 6th Rd., Wugu Industrial Park, New Taipei City 248, Taiwan (R.O.C.) http://www.ccsrf.com service@ccsrf.com Issued Date: July 23, 2015 Note: This report shall not be reproduced except in full, without the written approval of Compliance Certification Services Inc. This document may be altered or revised by Compliance Certification Services Inc. personnel only, and shall be noted in the revision section of the document. Page 1 / 115 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Rev. Issue Date January 17, 2012 00 01 July 23, 2015 Rev. (01) Revision History Revisions Initial Issue Effect Page ALL ALL Revised By Angel Cheng Doris Chu Rev. (01) 1. Applicant updates standard. 2. Other information, please refer to the T111028201 and this test report. 3. Update report in accordance with FCC new rule. 4. Test data is same as the previous data. Page 2 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 TABLE OF CONTENTS 1. TEST RESULT CERTIFICATION ..................................................................................... 4 2. EUT DESCRIPTION .......................................................................................................... 5 3. TEST METHODOLOGY .................................................................................................... 6 3.1 EUT CONFIGURATION ............................................................................................ 6 3.2 EUT EXERCISE ........................................................................................................ 6 3.3 GENERAL TEST PROCEDURES ............................................................................. 6 3.4 FCC PART 15.205 RESTRICTED BANDS OF OPERATIONS ................................. 7 3.5 DESCRIPTION OF TEST MODES ............................................................................ 8 4. INSTRUMENT CALIBRATION ......................................................................................... 9 4.1 MEASURING INSTRUMENT CALIBRATION ........................................................... 9 4.2 MEASUREMENT EQUIPMENT USED ..................................................................... 9 4.3 MEASUREMENT UNCERTAINTY .......................................................................... 10 5. FACILITIES AND ACCREDITATIONS ........................................................................... 11 5.1 FACILITIES ............................................................................................................. 11 5.2 EQUIPMENT ........................................................................................................... 11 5.3 TABLE OF ACCREDITATIONS AND LISTINGS ..................................................... 12 6. SETUP OF EQUIPMENT UNDER TEST ........................................................................ 13 6.1 SETUP CONFIGURATION OF EUT ....................................................................... 13 6.2 SUPPORT EQUIPMENT ........................................................................................ 13 7. FCC PART 15 REQUIREMENTS ................................................................................... 14 26 DB EMISSION BANDWIDTH ............................................................................. 14 7.1 7.2 MAXIMUM CONDUCTED OUTPUT POWER ......................................................... 38 7.3 BAND EDGES MEASUREMENT ............................................................................ 41 7.4 PEAK POWER SPECTRAL DENSITY .................................................................... 57 7.5 RADIATED UNDESIRABLE EMISSION ................................................................. 80 7.6 POWERLINE CONDUCTED EMISSIONS ............................................................ 103 7.7 FREQUENCY STABILITY ..................................................................................... 106 APPENDIX I PHOTOGRAPHS OF TEST SETUP .............................................................. 113 Page 3 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 1. TEST RESULT CERTIFICATION Applicant:
Sercomm Corporation 8F, No. 3-1, YuanQu St., NanKang, Taipei 115, Taiwan, R.O.C. Equipment Under Test: Wireless-N Selectable-Band Access Point with PoE Trade Name:
Model:
Cisco WAP321 Date of Test:
July 12, 2015 APPLICABLE STANDARDS STANDARD TEST RESULT FCC 47 CFR Part 15 Subpart E No non-compliance noted We hereby certify that:
Compliance Certification Services Inc. tested the above equipment. The test data, data evaluation, test procedures, and equipment configurations shown in this report were made in accordance with the procedures given in ANSI C63.10: 2009 and the energy emitted by the sample EUT tested as described in this report is in compliance with conducted and radiated emission limits of FCC Rules Part 15.407. The test results of this report relate only to the tested sample identified in this report. Approved by:
Reviewed by:
Miller Lee Manager Compliance Certification Services Inc. Angel Cheng Section Manager Compliance Certification Services Inc. Page 4 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 2. EUT DESCRIPTION Product Wireless-N Selectable-Band Access Point with PoE Trade Name Cisco Model Number WAP321 Model Discrepancy N/A Received Date June 22, 2015 Power Adapter 1. Sunny/ SYS1381-121-W2C I/P: 100-240V~, 0.5A MAX, 50-60Hz O/P: 12V, 1.0A 2. LEADER / MU12-G120100-A2 I/P: 100-240V~, 50-60Hz, 0.5A O/P: 12V, 1A 3. Sunny/ SYS1381-1212-W2 I/P: 100-240V~, 0.5A MAX, 50-60Hz O/P: 12V, 1.0A 4. LEADER / MU12-G120100-A1 I/P: 100-240V~, 50-60Hz, 0.5A O/P: 12V, 1A Operating Frequency Range &
Number of Channels Mode UNII Band I IEEE 802.11a IEEE 802.11n HT 20 MHz IEEE 802.11n HT 40 MHz Frequency Range
(MHz) 5180 5240 5180 5240 5190 ~ 5230 Number of Channels 4 Channels 4 Channels 2 Channels Transmit Power IEEE 802.11a mode: 13.41 dBm Mode 1:
IEEE 802.11n HT 20 MHz Mode : 12.56 dBm IEEE 802.11n HT 40 MHz Mode: 12.35 dBm Mode 2:
IEEE 802.11n HT 20 MHz Mode : 13.23 dBm IEEE 802.11n HT 40 MHz Mode: 13.27 dBm Mode 3:
IEEE 802.11n HT 20 MHz Mode: 12.35 dBm IEEE 802.11n HT 40 MHz Mode: 12.76 dBm Modulation Technique OFDM (QPSK, BPSK, 16-QAM, 64-QAM) Transmit Data Rate IEEE 802.11a mode: 54, 48, 36, 24, 18, 12, 9, 6 Mbps IEEE 802.11n HT 20 mode: OFDM (6.5, 7.2, 13, 14.4, 14.44, 19.5, 21.7, 26, 28.89, 28.9, 39, 43.3, 43.33 52, 57.78, 57.8, 58.5, 65.0, 72.2, 78, 86.67, 104, 115.56, 117, 130, 144.44 Mbps) IEEE 802.11n HT 40 mode: OFDM (13.5, 15, 27, 30, 40.5, 45, 54, 60, 81, 90, 108, 120, 121.5, 135, 150, 162, 180, 216, 240, 243, 270, 300 Mbps) Antenna Specification Antenna 1 (chain 0): 4.32 dBi Antenna 2 (chain 1): 4.67 dBi Antenna 3 (chain 2): 3.96 dBi Antenna Designation PIFA Antenna Remark:
The sample selected for test was production product and was provided by manufacturer. 1. 2. This submittal(s) (test report) is intended for FCC ID: P27-WAP321 filing to comply with Section 15.407 of the FCC Part 15, Subpart E Rules. Page 5 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 3. TEST METHODOLOGY Both conducted and radiated testing was performed according to the procedures in ANSI C63.10: 2009 Radiated testing was performed at an antenna to EUT distance 3 meters. The tests documented in this report were performed in accordance with ANSI C63.10:
2009, FCC CFR 47 Part 15.207, 15.209, 15.407 and KDB 789033 D02 General UNII Test Procedures New Rules v01. 3.1 EUT CONFIGURATION The EUT configuration for testing is installed for RF field strength measurement to meet the Commissions requirement, and is operated in a manner intended to generate the maximum emission in a continuous normal application. 3.2 EUT EXERCISE The EUT is operated in the engineering mode to fix the Tx frequency for the purposes of measurement. According to its specifications, the EUT must comply with the requirements of Section 15.407 under the FCC Rules Part 15 Subpart E. 3.3 GENERAL TEST PROCEDURES Conducted Emissions The EUT is placed on the turntable, which is positioned at 0.8 m above the ground plane. According to the requirements in ANSI C63.10: 2009, the conducted emission from the EUT is measured in the frequency range between 0.15 MHz and 30MHz, using the CISPR Quasi-Peak detector mode. Radiated Emissions The EUT is placed on the turntable, which is 1.5 m above the ground plane. The turntable is then rotated for 360 degrees to determine the proper orientation for the maximum emission level. The EUT is set 3m away from the receiving antenna, which is varied from 1m to 4m to find out the highest emission level. And, each emission is to be maximized by changing the horizontal and vertical polarization of the receiving antenna. In order to find out the maximum emissions, exploratory radiated emission measurements were made according to the requirements in ANSI C63.10: 2009. Page 6 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 3.4 FCC PART 15.205 RESTRICTED BANDS OF OPERATIONS
(a) Except as shown in paragraph (d) of this section, only spurious emissions are permitted in any of the frequency bands listed below:
MHz MHz MHz GHz 0.090 - 0.110 10.495 - 0.505 2.1735 - 2.1905 4.125 - 4.128 4.17725 - 4.17775 4.20725 - 4.20775 6.215 - 6.218 6.26775 - 6.26825 6.31175 - 6.31225 8.291 - 8.294 8.362 - 8.366 8.37625 - 8.38675 8.41425 - 8.41475 16.42 - 16.423 16.69475 - 16.69525 16.80425 - 16.80475 25.5 - 25.67 37.5 - 38.25 73 - 74.6 74.8 - 75.2 108 - 121.94 123 - 138 149.9 - 150.05 156.52475 -
156.52525 156.7 - 156.9 12.29 - 12.293 162.0125 - 167.17 12.51975 - 12.52025 12.57675 - 12.57725 13.36 - 13.41 167.72 - 173.2 240 - 285 322 - 335.4 399.9 - 410 608 - 614 960 - 1240 1300 - 1427 1435 - 1626.5 1645.5 - 1646.5 1660 - 1710 1718.8 - 1722.2 2200 - 2300 2310 - 2390 2483.5 - 2500 2655 - 2900 3260 - 3267 3332 - 3339 3345.8 - 3358 3600 - 4400 4.5 - 5.15 5.35 - 5.46 7.25 - 7.75 8.025 - 8.5 9.0 - 9.2 9.3 - 9.5 10.6 - 12.7 13.25 - 13.4 14.47 - 14.5 15.35 - 16.2 17.7 - 21.4 22.01 - 23.12 23.6 - 24.0 31.2 - 31.8 36.43 - 36.5
(2) 1 Until February 1, 1999, this restricted band shall be 0.490-0.510 MHz. 2 Above 38.6
(b) Except as provided in paragraphs (d) and (e), the field strength of emissions appearing within these frequency bands shall not exceed the limits shown in Section 15.209. At frequencies equal to or less than 1000 MHz, compliance with the limits in Section 15.209 shall be demonstrated using measurement instrumentation employing a CISPR quasi-peak detector. Above 1000 MHz, compliance with the emission limits in Section 15.209 shall be demonstrated based on the average value of the measured emissions. The provisions in Section 15.35 apply to these measurements. Page 7 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 3.5 DESCRIPTION OF TEST MODES The EUT (model: WAP321) comes with four types of power adapter (SYS1381-121-W2C, MU12-G120100-A2, SYS1381-1212-W2, MU12-G120100-A1) for sale. After the preliminary test, the EUT with power adapter (Model: MU12-G120100-A1) was found to emit the worst emissions and therefore had been tested under operating condition. The EUT comes with three modes: mode 1 & mode 2 & mode 3. Mode 1 antenna 1 (chain 0), antenna 2 (chain 1) Mode 2 antenna 2 (chain 1), antenna 3 (chain 2) Mode 3 antenna 1 (chain 0), antenna 3 (chain 2) The EUT is a 2x2 configuration spatial MIMO (2Tx & 2Rx) without beam forming function that Operate in double TX chains and double RX chains. The 2x2 configuration is implemented with Two outside TX & RX chains (Chain 0 and Chain 1)(Chain 1 and Chain 2)(Chain 0 and Chain 2) Software used to control the EUT for staying in continuous transmitting and receiving mode was programmed. After verification, all tests carried out are with the worst-case test modes as shown below except radiated spurious emission below 1GHz and power line conducted emissions below 30MHz, which worst case was in normal link mode IEEE 802.11a mode / 5180 ~ 5240MHz:
During the preliminary test, Chain 0, Chain 1,Chain 2 with IEEE 802.11a mode were pre-tested and found that Chain 1 emits the highest output power. Channel Low (5180MHz), Channel Mid (5220MHz) and Channel High (5240MHz) with chain 1 at 6Mbps data rate were chosen for full testing. IEEE 802.11n HT 20 MHz mode / 5180 ~ 5240MHz:
During the preliminary test, MCS0 : Chain 0,Chain 1,Chain 2 and MCS8 : Chain 0+Chain 1,Chain 1 +Chain 2,Chain 0 + chain 2 with IEEE 802.11n HT 20 MHz were pre-tested and found that Chain 0+Chain 1,Chain 1 +Chain 2,Chain 0 + chain 2 emits the highest output power. Channel Low (5180MHz), Channel Mid (5220MHz) and Channel High (5240MHz) with chain 0 +
chain 1 and chain 1 + chain 2 and chain 0 + chain 2 at MCS 8 data rate were chosen for full testing. IEEE 802.11n HT 40 MHz mode / 5190 ~ 5230MHz:
During the preliminary test, MCS0 : Chain 0,Chain 1,Chain 2 and MCS8 : Chain 0+Chain 1,Chain 1 +Chain 2,Chain 0 + chain 2 with IEEE 802.11n HT 40 MHz were pre-tested and found that Chain 0+Chain 1,Chain 1 +Chain 2,Chain 0 + chain 2 emits the highest output power. Channel Low (5190MHz) and Channel High (5230MHz) with chain 0 + chain 1 and chain 1 +
chain 2 and chain 0 + chain 2 at MCS 8 data rate were chosen for full testing. The field strength of spurious emission was measured in the following position: EUT stand-up position (Z axis), lie-down position (X, Y axis). The worst emission was found in lie-down position (Y axis) and the worst case was recorded. Page 8 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 4. INSTRUMENT CALIBRATION 4.1 MEASURING INSTRUMENT CALIBRATION The measuring equipment, which was utilized in performing the tests documented herein, has been calibrated in accordance with the manufacturer's recommendations for utilizing calibration equipment, which is traceable to recognized national standards. 4.2 MEASUREMENT EQUIPMENT USED Equipment Used for Emissions Measurement Remark: Each piece of equipment is scheduled for calibration once a year and Loop Antenna is scheduled for calibration once three years. Name of Equipment Manufacturer Spectrum Analyzer Agilent Model E4446A Serial Number US42510252 Calibration Due 11/23/2015 Conducted Emissions Test Site Thermostatic/Hrgrosatic Chamber AC Power Source DC Power Supply Power Meter Power Sensor TAICHY MHG-150LF 930619 10/07/2015 EXTECH ABM Anritsu Anritsu 6205 8301HD ML2495A MA2411A 1140845 D011531 1012009 0917072 101073 N.C.R N.C.R 06/07/2016 06/08/2016 07/08/2016 Spectrum Analyzer ROHDE&SCHWARZ FSV40 Wugu 966 Chamber A Name of Equipment Manufacturer Spectrum Analyzer EMI Test Receiver Agilent R&S Model E4446A ESCI JB3 3117 3116 CC-T-1F CC-A-1F CC-C-1F 1652-3000 EMC 01265 AMF-6F-260400-
40-8P Serial Number US42510268 100064 A030105 00055165 26370 N/A N/A N/A 1490939 4035 985646 Sunol Sciences EMCO EMCO CCS CCS CCS MITEQ EMC MITEQ Huber+Suhner Huber+Suhner 102 102 29212/2 29406/2 EZ-EMC (CCS-3A1RE) Conducted Emission room # B Calibration Due 09/18/2015 06/04/2016 08/19/2015 01/26/2016 12/25/2015 N.C.R N.C.R N.C.R 08/09/2016 06/04/2016 12/25/2015 12/25/2015 12/25/2015 R&S FCC Model ESCI FCC-LISN-50-32-2 SCHWARZBECK NSLK 8127 MIYAZAKI R&S 5D-FB ESH3-Z2 WISEWIND 201A Serial Number Calibration Due 100234 08009 8127382 BNC B3 100374 1006 06/09/2016 03/23/2016 12/30/2015 08/04/2015 01/05/2016 05/19/2016 Bilog Antenna Horn Antenna Horn Antenna Turn Table Antenna Tower Controller Pre-Amplifier Pre-Amplifier Pre-Amplifier Coaxial Cable Coaxial Cable Test S/W TEST RECEIVER LISN (EUT) LISN BNC CABLE Pulse Limiter THERMO-
HYGRO METER Test S/W Name of Equipment Manufacturer CCS-3A1-CE Page 9 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 4.3 MEASUREMENT UNCERTAINTY PARAMETER UNCERTAINTY Powerline Conducted Emission 3M Semi Anechoic Chamber / 30M~200M 3M Semi Anechoic Chamber / 200M~1000M 3M Semi Anechoic Chamber / 1G~8G 3M Semi Anechoic Chamber / 8G~18G 3M Semi Anechoic Chamber / 18G~26G 3M Semi Anechoic Chamber / 26G~40G
+/-1.1089
+/- 4.0138
+/- 3.9483
+/- 2.5975
+/- 2.6112
+/- 2.7389
+/- 2.9683 Remark: This uncertainty represents an expanded uncertainty expressed at approximately the 95%
confidence level using a coverage factor of k=2. Page 10 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 5. FACILITIES AND ACCREDITATIONS 5.1 FACILITIES All measurement facilities used to collect the measurement data are located at No.199, Chunghsen Road, Hsintien City, Taipei Hsien, Taiwan, R.O.C. Tel: 886-2-2217-0894 / Fax: 886-2-2217-1029 Remark: The powerline conducted emissions test items was tested at Compliance Certification Services Inc. (Sindian Lab.) The test equipments were listed in page 10 and the test data, please refer page 104-105. No.11, Wu-Gong 6th Rd., Wugu Industrial Park, New Taipei City 248, Taiwan (R.O.C.) Tel: 886-2-2299-9720 / Fax: 886-2-2298-4045 No.81-1, Lane 210, Bade 2nd Rd., Lujhu Township, Taoyuan County 33841, TAIWAN, R.O.C. Tel: 886-3-324-0332 / Fax: 886-3-324-5235 The sites are constructed in conformance with the requirements of ANSI C63.7, ANSI C63.10: 2009 and CISPR Publication 22. 5.2 EQUIPMENT Radiated emissions are measured with one or more of the following types of linearly polarized antennas: tuned dipole, biconical, log periodic, bi-log, ridged waveguide, horn and/or Loop. Spectrum analyzers with pre-selectors and quasi-peak detectors are used to perform radiated measurements. Conducted emissions are measured with Line Impedance Stabilization Networks and EMI Test Receivers. Calibrated wideband preamplifiers, coaxial cables, and coaxial attenuators are also used for making measurements. All receiving equipment conforms to CISPR Publication 16-1, Radio Interference Measuring Apparatus and Measurement Methods. Page 11 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 5.3 TABLE OF ACCREDITATIONS AND LISTINGS Country Agency Scope of Accreditation Logo USA FCC 3M Semi Anechoic Chamber (FCC MRA: TW1039) to perform FCC Part 15 measurements FCC MRA: TW1039 Taiwan TAF LP0002, RTTE01, FCC Method-47 CFR Part 15 Subpart C, D, E, RSS-247, RSS-310 IDA TS SRD, AS/NZS 4268, AS/NZS 4771, TS 12.1 & 12,2, ETSI EN 300 440-1, ETSI EN 300 440-2, ETSI EN 300 328, ETSI EN 300 220-1, ETSI EN 300 220-2, ETSI EN 301 893, ETSI EN 301 489-1/3/7/17 FCC OET Bulletin 65 + Supplement C, EN 50360, EN 50361, EN 50371, RSS 102, EN 50383, EN 50385, EN 50392, IEC 62209, CNS 14958-1, CNS 14959 FCC Method 47 CFR Part 15 Subpart B IEC / EN 61000-3-2, IEC / EN 61000-3-3, IEC / EN 61000-4-2/3/4/5/6/8/11 Canada Industry Canada 3M Semi Anechoic Chamber (IC 2324G-1 / IC 2324G-2) to perform IC 2324G-1 IC 2324G-2
* No part of this report may be used to claim or imply product endorsement by A2LA or any agency of the US Government. Page 12 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 6. SETUP OF EQUIPMENT UNDER TEST 6.1 SETUP CONFIGURATION OF EUT See test photographs attached in Appendix I for the actual connections between EUT and support equipment. Data Cable Power Cord 6.2 SUPPORT EQUIPMENT No. Equipment Model No. Serial No. FCC ID 1 2 3 4 5 6 7 USB Mouse USB Keyboard Printer M-UAE96 F93A90A5BU90L20 KU-0316 BC3870FVBWH079 Deskjet D2360 TH73C1492F Monitor 933SN+
CM19HVKSB00002 Host PC T3500 8X36VBX Modem AL-56ERM 0MERM04A0224 Server PC xw4400 N/A FCC DOC FCC DOC FCC DOC FCC DOC FCC DOC FCC DOC FCC DOC Brand Name HP HP HP Shielded, 1.8m Shielded, 1.8m Shielded, 1.8m SAMSUN G DELL Shielded, 1.8m with two cores Unshielded, 1.5m GALILEO Shielded, 1.0m HP N/A 8. Notebook PC dv6-1332TX CNF9491GM9 PD9112BNHU HP N/A N/A N/A Unshielded, 1.8m Unshielded, 1.8m Unshielded, 1.8m Unshielded, 1.8m Unshielded, 1.8m AC I/P:
Unshielded, 1.8m DC O/P:
Unshielded, 1.8m with a core Remark:
1. All the equipment/cables were placed in the worst-case configuration to maximize the emission during the test. 2. Grounding was established in accordance with the manufacturers requirements and conditions for the intended use. Page 13 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 7. FCC PART 15 REQUIREMENTS 7.1 26 DB EMISSION BANDWIDTH LIMIT According to 15.303(c), for purposes of this subpart the emission bandwidth shall be determined by measuring the width of the signal between two points, one below the carrier center frequency and one above the carrier center frequency, that are 26 dB down relative to the maximum level of the modulated carrier. Compliance with the emissions limits is based on the use of measurement instrumentation employing a peak detector function with an instrument resolutions bandwidth approximately equal to 1.0 percent of the emission bandwidth of the device under measurement. Test Configuration EUT Spectrum Analyzer TEST PROCEDURE 1. Place the EUT on the table and set it in the transmitting mode. 2. Remove the antenna from the EUT and then connect a low-loss RF cable from the antenna port to the spectrum analyzer. 3. Set the spectrum analyzer as RBW > 1%EBW, VBW > RBW, Span >26dB bandwidth, and Sweep = auto. 4. Mark the peak frequency and 26dB (upper and lower) frequency. 5. Repeat until all the rest channels were investigated. Page 14 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 TEST RESULTS No non-compliance noted Test Data Test mode: IEEE 802.11a mode / 5180 ~ 5240MHz Frequency 26db Bandwidth
(MHz) 5180 5220 5240
(MHz) 20.795 21.036 22.939 Channel Low Mid High Mode 1 Test mode: IEEE 802.11n HT 20 MHz mode / 5180 ~ 5240MHz / Chain 0 Channel Low Mid High Frequency 26db Bandwidth
(MHz) 5180 5220 5240
(MHz) 21.444 21.377 21.205 Test mode: IEEE 802.11n HT 20 MHz mode / 5180 ~ 5240MHz / Chain 1 Channel Low Mid High Frequency 26db Bandwidth
(MHz) 5180 5220 5240
(MHz) 20.855 21.040 20.994 Test mode: IEEE 802.11n HT 40 MHz mode / 5190 ~ 5230MHz / Chain 0 Channel Low High Frequency 26db Bandwidth
(MHz) 5190 5230
(MHz) 40.751 40.628 Test mode: IEEE 802.11n HT 40 MHz mode/ 5190 ~ 5230MHz / Chain 1 Channel Low High Frequency 26db Bandwidth
(MHz) 5190 5230
(MHz) 40.294 40.235 Page 15 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Mode 2 Test mode: IEEE 802.11n HT 20 MHz mode / 5180 ~ 5240MHz / Chain 1 Channel Low Mid High Frequency 26db Bandwidth
(MHz) 5180 5220 5240
(MHz) 21.363 21.322 21.279 Test mode: IEEE 802.11n HT 20 MHz mode / 5180 ~ 5240MHz / Chain 2 Channel Low Mid High Frequency 26db Bandwidth
(MHz) 5180 5220 5240
(MHz) 20.820 20.900 20.783 Test mode: IEEE 802.11n HT 40 MHz mode/ 5190 ~ 5230MHz / Chain 1 Channel Low High Frequency 26db Bandwidth
(MHz) 5190 5230
(MHz) 40.390 40.832 Test mode: IEEE 802.11n HT 40 MHz mode/ 5190 ~ 5230MHz / Chain 2 Channel Low High Frequency 26db Bandwidth
(MHz) 5190 5230
(MHz) 40.352 40.137 Page 16 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Mode 3 Test mode: IEEE 802.11n HT 20 MHz mode / 5180 ~ 5240MHz / Chain 0 Channel Low Mid High Frequency 26db Bandwidth
(MHz) 5180 5220 5240
(MHz) 21.364 21.380 21.321 Test mode: IEEE 802.11n HT 20 MHz mode / 5180 ~ 5240MHz / Chain 2 Channel Low Mid High Frequency 26db Bandwidth
(MHz) 5180 5220 5240
(MHz) 20.890 20.849 20.982 Test mode: IEEE 802.11n HT 40 MHz mode / 5190 ~ 5230MHz / Chain 0 Channel Low High Frequency 26db Bandwidth
(MHz) 5190 5230
(MHz) 40.968 40.938 Test mode: IEEE 802.11n HT 40 MHz mode/ 5190 ~ 5230MHz / Chain 2 Channel Low High Frequency 26db Bandwidth
(MHz) 5190 5230
(MHz) 40.155 40.251 Page 17 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Test Plot IEEE 802.11a mode / 5180 ~ 5240MHz CH Low CH Mid Page 18 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 CH High Page 19 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Mode 1 IEEE 802.11n HT 20 MHz mode / 5180 ~ 5240MHz / Chain 0 CH Low CH Mid Page 20 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 CH High Page 21 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 IEEE 802.11n HT 20 MHz mode / 5180 ~ 5240MHz / Chain 1 CH Low CH Mid Page 22 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 CH High Page 23 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 IEEE 802.11n HT 40 MHz mode / 5190 ~ 5230MHz / Chain 0 CH Low CH High Page 24 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 IEEE 802.11n HT 40 MHz mode / 5190 ~ 5230MHz / Chain 1 CH Low CH High Page 25 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Mode 2 IEEE 802.11n HT 20 MHz mode / 5180 ~ 5240MHz / Chain 1 CH Low CH Mid Page 26 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 CH High Page 27 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 IEEE 802.11n HT 20 MHz mode / 5180 ~ 5240MHz / Chain 2 CH Low CH Mid Page 28 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 CH High Page 29 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 IEEE 802.11n HT 40 MHz mode / 5190 ~ 5230MHz / Chain 1 CH Low CH High Page 30 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 IEEE 802.11n HT 40 MHz mode / 5190 ~ 5230MHz / Chain 2 CH Low CH High Page 31 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Mode 3 IEEE 802.11n HT 20 MHz mode / 5180 ~ 5240MHz / Chain 0 CH Low CH Mid Page 32 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 CH High Page 33 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 IEEE 802.11n HT 20 MHz mode / 5180 ~ 5240MHz / Chain 2 CH Low CH Mid Page 34 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 CH High Page 35 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 IEEE 802.11n HT 40 MHz mode / 5190 ~ 5230MHz / Chain 0 CH Low CH High Page 36 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 IEEE 802.11n HT 40 MHz mode / 5190 ~ 5230MHz / Chain 2 CH Low CH High Page 37 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 7.2 MAXIMUM CONDUCTED OUTPUT POWER LIMIT According to 15.407(a),
(1) For the band 5.15-5.25 GHz, the maximum conducted output power over the frequency band of operation shall not exceed the lesser of 250 mW, where B is the 26 dB emission bandwidth in MHz.
(2) For the 5.25-5.35 GHz and 5.47-5.725 GHz bands, the maximum conducted output power over the frequency bands of operation shall not exceed the lesser of 250 mW, where B is the 26 dB emission bandwidth in MHz. If transmitting antennas of directional gain greater than 6dBi are used, both the peak transmit power and the peak power spectral density shall be reduced by the amount in dB that the directional gain of the antenna exceeds 6dBi. Specified Limit of the Maximum Output PowerTest Configuration The EUT was connected to a Power Meter through a 50 RF cable. EUT EUT Power Spectrum Meter Analyzer TEST PROCEDURE The transmitter output is connected to the Power Meter. The Power Meter is set to the avg power detection. The EUT is configured to transmit continuously. TEST RESULTS No non-compliance noted Page 38 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Test Data Test mode: IEEE 802.11a mode / 5180 ~ 5240MHz Channel Low Mid High Mode 1 Frequency Maximum Conducted Output Power
(MHz) 5180 5220 5240
(dBm) 13.17
*13.41 13.36 Limit
(dBm) 30.00 30.00 30.00 Test mode: IEEE 802.11n HT 20 MHz Channel mode / 5180 ~ 5240MHz Channel Frequency
(MHz) Chain 0 Chain 1 Total Maximum Output Power Output Power Conducted Output
(dBm)
(dBm) Low Mid High 5180 5220 5240 9.42 9.67 9.85 9.34 9.39 9.22 Test mode: IEEE 802.11n HT 40 MHz Channel mode / 5190 ~ 5230MHz Channel Frequency
(MHz) Chain 0 Chain 1 Total Maximum Output Power Output Power Conducted Output
(dBm)
(dBm) Power
(dBm) 12.39 12.54
*12.56 Power
(dBm) 12.22
*12.35 Limit
(dBm) 28.06 28.06 28.06 Limit
(dBm) 28.06 28.06 Low High 5190 5230 8.54 9.05 9.78 9.61 Remark:
1. Total Output Power (w) = Chain 0 (10^(Output Power /10)/1000) + Chain 1 (10^(Output Power /10)/1000)) 2. The maximum antenna gain is 7.94dBi; therefore the reduction due to antenna gain is 1.94dBi, so the limit is 28.06dBm. Page 39 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Mode 2 Test mode: IEEE 802.11n HT 20 MHz Channel mode / 5180 ~ 5240MHz Channel Frequency
(MHz) Chain 1 Chain 2 Total Maximum Output Power Output Power Conducted Output
(dBm)
(dBm) Low Mid High 5180 5220 5240 9.64 9.30 9.27 10.66 10.98 10.48 Test mode: IEEE 802.11n HT 40 MHz Channel mode / 5190 ~ 5230MHz Channel Frequency
(MHz) Chain 1 Chain 2 Total Maximum Output Power Output Power Conducted Output
(dBm)
(dBm) Low High 5190 5230 8.88 8.95 10.96 11.26 Remark:
1. Total Output Power (w) = Chain 1 (10^(Output Power /10)/1000) + Chain 2 (10^(Output Power /10)/1000) 2. The maximum antenna gain is 7.87dBi; therefore the reduction due to antenna gain is 1.87dBi, so the limit is 28.13dBm. Mode 3 Test mode: IEEE 802.11n HT 20 MHz Channel mode / 5180 ~ 5240MHz Channel Frequency
(MHz) Chain 0 Chain 2 Total Maximum Output Power Output Power Conducted Output
(dBm)
(dBm) Low Mid High 5180 5220 5240 9.07 9.16 9.25 9.16 9.17 9.44 Test mode: IEEE 802.11n HT 40 MHz Channel mode / 5190 ~ 5230MHz Channel Frequency
(MHz) Chain 0 Chain 2 Total Maximum Output Power Output Power Conducted Output
(dBm)
(dBm) Low High 5190 5230 9.02 9.07 10.04 10.33 Remark:
1. Total Output Power (w) = Chain 0 (10^(Output Power /10)/1000) + Chain 2 (10^(Output Power /10)/1000) 2. The maximum antenna gain is 7.82dBi; therefore the reduction due to antenna gain is 1.82dBi, so the limit is 28.18dBm. Page 40 Power
(dBm) 13.19
*13.23 12.93 Power
(dBm) 13.06
*13.27 Power
(dBm) 12.12 12.17
*12.35 Power
(dBm) 12.57
*12.76 Limit
(dBm) 28.13 28.13 28.13 Limit
(dBm) 28.13 28.13 Limit
(dBm) 28.18 28.18 28.18 Limit
(dBm) 28.18 28.18 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 7.3 BAND EDGES MEASUREMENT LIMIT According to 15.247(d), in any 100 kHz bandwidth outside the frequency bands in which the spread spectrum intentional radiator in operating, the radio frequency power that is produced by the intentional radiator shall be at least 20 dB below that in the 100 kHz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiated measurement, provided the transmitter demonstrates compliance with the peak conducted power limits. In addition, radiated emissions which fall in the restricted bands, as defined in 15.205(a), must also comply with the radiated emission limits specified in 15.209(a) (see Section 15.205(c)). Test Configuration For Radiated 1.5m For Conducted EUT Spectrum Analyzer Page 41 Spectrum analyzer Horn antenna 3m 4m 1m Turntable EUT 0.8m Antenna tower Pre-amp Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 TEST PROCEDURE For Radiated 1. The EUT is placed on a turntable, which is 1.5m above the ground plane. 2. The turntable shall be rotated for 360 degrees to determine the position of maximum emission level. 3. EUT is set 3m away from the receiving antenna, which is varied from 1m to 4m to find out the highest emission. 4. Set the spectrum analyzer in the following setting in order to capture the lower and upper band-edges of the emission:
(a) PEAK: RBW=VBW=1MHz / Sweep=AUTO
(b) AVERAGE: RBW=1MHz, if duty cycle98%, VBW=10Hz. if duty cycle<98% VBW=1/T. IEEE 802.11a mode: = 95%, VBW=510Hz IEEE 802.11n HT 20 MHz mode: = 92%, VBW=1.1KHz IEEE 802.11n HT 40 MHz mode: = 85%, VBW=2.2KHz 5. Repeat the procedures until all the PEAK and AVERAGE versus POLARIZATION are measured. For Conducted Conducted RF measurements of the transmitter output were made to confirm that the EUT antenna port conducted emissions meet the specified limit and to identify any spurious signals that require further investigation or measurements on the radiated emissions site. The transmitter output is connected to the spectrum analyzer. The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 100 kHz. TEST RESULTS Refer to attach spectrum analyzer data chart. Page 42 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Band Edges (IEEE 802.11a mode / 5180 MHz) Polarity: Vertical No. Frequency Reading Correct Result Limit Margin Height Degree Remark 1 2
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 5150.000 53.30 5150.000 38.95 3.04 3.04 56.34 74.00
-17.66 100 284 peak 41.99 54.00
-12.01 100 284 AVG Page 43 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Polarity: Horizontal No. Frequency Reading Correct Result Limit Margin Height Degree Remark 1 2
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 5150.000 61.16 5150.000 41.30 3.04 3.04 64.20 74.00
-9.80 100 215 peak 44.34 54.00
-9.66 100 215 AVG Page 44 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 For Mode 1 Band Edges (IEEE 802.11n HT 20 MHz / 5180 MHz) Polarity: Vertical No. Frequency Reading Correct Result Limit Margin Height Degree Remark 1 2
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 4807.450 51.57 4807.450 38.28 4.04 4.04 55.61 74.00
-18.39 100 191 peak 42.32 54.00
-11.68 100 191 AVG Page 45 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Polarity: Horizontal No. Frequency Reading Correct Result Limit Margin Height Degree Remark 1 2
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 5009.600 51.70 5009.600 38.56 3.84 3.84 55.54 74.00
-18.46 100 234 peak 42.40 54.00
-11.60 100 234 AVG Page 46 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Band Edges (IEEE 802.11n HT 40 MHz / 5190 MHz) Polarity: Vertical No. Frequency Reading Correct Result Limit Margin Height Degree Remark 1 2
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 5150.000 53.21 5150.000 40.28 3.04 3.04 56.25 74.00
-17.75 100 248 peak 43.32 54.00
-10.68 100 248 AVG Page 47 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Polarity: Horizontal No. Frequency Reading Correct Result Limit Margin Height Degree Remark
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 5142.200 55.66 5142.200 41.75 2.99 2.99 58.65 74.00
-15.35 100 359 peak 44.74 54.00
-9.26 100 359 AVG 1 2 Page 48 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 For Mode 2 Band Edges (IEEE 802.11n HT 20 MHz / 5180 MHz) Polarity: Vertical No. Frequency Reading Correct Result Limit Margin Height Degree Remark 1 2
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 4787.950 51.20 4787.950 38.52 4.00 4.00 55.20 74.00
-18.80 100 42.52 54.00
-11.48 100 46 46 peak AVG Page 49 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Polarity: Horizontal No. Frequency Reading Correct Result Limit Margin Height Degree Remark 1 2
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 4895.200 51.67 4895.200 38.45 3.89 3.89 55.56 74.00
-18.44 100 42.34 54.00
-11.66 100 13 13 peak AVG Page 50 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Band Edges (IEEE 802.11n HT 40 MHz / 5190 MHz) Polarity: Vertical No. Frequency Reading Correct Result Limit Margin Height Degree Remark 1 2
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 4942.000 51.88 4942.000 38.80 3.91 3.91 55.79 74.00
-18.21 100 42.71 54.00
-11.29 100 45 45 peak AVG Page 51 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Polarity: Horizontal No. Frequency Reading Correct Result Limit Margin Height Degree Remark 1 2
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 5149.350 54.37 5149.350 41.80 3.04 3.04 57.41 74.00
-16.59 100 359 peak 44.84 54.00
-9.16 100 359 AVG Page 52 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 For Mode 3 Band Edges (IEEE 802.11n HT 20 MHz / 5180 MHz) Polarity: Vertical No. Frequency Reading Correct Result Limit Margin Height Degree Remark 1 2
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 4831.500 51.80 4831.500 38.34 4.00 4.00 55.80 74.00
-18.20 100 137 peak 42.34 54.00
-11.66 100 137 AVG Page 53 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Polarity: Horizontal No. Frequency Reading Correct Result Limit Margin Height Degree Remark 1 2
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 4893.900 51.34 4893.900 38.31 3.89 3.89 55.23 74.00
-18.77 100 359 peak 42.20 54.00
-11.80 100 359 AVG Page 54 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Band Edges (IEEE 802.11n HT 40 MHz / 5190 MHz) Polarity: Vertical No. Frequency Reading Correct Result Limit Margin Height Degree Remark 1 2
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 4876.350 51.72 4876.350 40.55 3.92 3.92 55.64 74.00
-18.36 100 124 peak 44.47 54.00
-9.53 100 124 AVG Page 55 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Polarity: Horizontal No. Frequency Reading Correct Result Limit Margin Height Degree Remark 1 2
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 5150.000 54.72 5150.000 41.78 3.04 3.04 57.76 74.00
-16.24 100 282 peak 44.82 54.00
-9.18 100 282 AVG Page 56 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 7.4 PEAK POWER SPECTRAL DENSITY LIMIT According to 15.407(a),
(1) For the band 5.15-5.25 GHz, the peak power spectral density shall not exceed 4dBm in any 1MHz band.
(2) For the band 5.25-5.35 GHz, the peak power spectral density shall not exceed 11dBm in any 1MHz band. If transmitting antennas of directional gain greater than 6dBi are used, both the peak transmit power and the peak power spectral density shall be reduced by the amount in dB that the directional gain of the antenna exceeds 6dBi. Test Configuration EUT Spectrum Analyzer TEST PROCEDURE 1. Place the EUT on the table and set it in transmitting mode. Remove the antenna from the EUT and then connect a low loss RF cable from the antenna port to the spectrum analyzer. 2. Set the spectrum analyzer as RBW = 1MHz, VBW = 3MHz, Span = Sweep= AUTO 3. Record the max. reading. 4. Repeat the above procedure until the measurements for all frequencies are completed TEST RESULTS No non-compliance noted Page 57 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Test Data Test mode: IEEE 802.11a mode / 5180 ~ 5240MHz Channel Frequency
(MHz) Low Mid High Mode 1 5180 5220 5240 PPSD
(dBm)
-3.08
-2.78
-2.56 Limit
(dBm) 17.00 17.00 17.00 Margin Result
-20.08
-19.78
-19.56 PASS PASS PASS Test mode: IEEE 802.11n HT 20 MHz / 5180 ~ 5240MHz Channel Frequency
(MHz) Chain 0 PPSD
(dBm) Chain 1 PPSD
(dBm) PPSD
(dBm) Limit
(dBm) Margin Result Low Mid High 5180 5220 5240
-7.82
-6.57
-6.46
-1.97
-0.97 15.06 -16.03 PASS
-2.23
-0.87 15.06 -15.93 PASS
-2.28
-0.88 15.06 -15.94 PASS Test mode: IEEE 802.11n HT 40 MHz / 5190 ~ 5230MHz Channel Frequency
(MHz) Low High 5190 5230 Chain 0 PPSD
(dBm)
-5.54
-5.65 Chain 1 PPSD
(dBm) PPSD
(dBm) Limit
(dBm) Margin Result
-5.64
-2.58 15.06 -17.64 PASS
-5.52
-2.57 15.06 -17.63 PASS Remark:
1. Total PPSD (dBm) = 10*LOG(10^(Chain 0 PPSD / 10)+10^(Chain 1 PPSD /10) 2. The maximum antenna gain is 7.94dBi; therefore the reduction due to antenna gain is 1.94dBi, so the limit is 15.06dBm. Page 58 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Mode 2 Test mode: IEEE 802.11n HT 20 MHz / 5180 ~ 5240MHz Channel Frequency
(MHz) Chain 1 PPSD
(dBm) Chain 2 PPSD
(dBm) PPSD
(dBm) Limit
(dBm) Margin Result Low Mid High 5180 5220 5240
-2.46
-2.89
-2.86
-2.76 0.40 15.13 -14.73 PASS
-3.30
-0.08 15.13 -15.21 PASS
-3.89
-0.33 15.13 -15.46 PASS Test mode: IEEE 802.11n HT 40 MHz / 5190 ~ 5230MHz Channel Frequency
(MHz) Low High 5190 5230 Chain 1 PPSD
(dBm)
-5.91
-5.63 Chain 2 PPSD
(dBm) PPSD
(dBm) Limit
(dBm) Margin Result
-5.50
-2.69 15.13 -17.82 PASS
-5.49
-2.55 15.13 -17.68 PASS Remark:
1. Total PPSD (dBm) = 10^(Chain 1 PPSD /10)+10^(Chain 2 PPSD /10)) 2. The maximum antenna gain is 7.87dBi; therefore the reduction due to antenna gain is 1.87dBi, so the limit is 15.13dBm. Mode 3 Test mode: IEEE 802.11n HT 20 MHz / 5180 ~ 5240MHz Channel Frequency
(MHz) Chain 0 PPSD
(dBm) Chain 2 PPSD
(dBm) PPSD
(dBm) Limit
(dBm) Margin Result Low Mid High 5180 5220 5240
-8.03
-7.78
-7.44
-4.26
-2.74 15.18 -17.92 PASS
-4.54
-2.85 15.18 -18.03 PASS
-4.60
-2.78 15.18 -17.96 PASS Test mode: IEEE 802.11n HT 40 MHz / 5190 ~ 5230MHz Channel Frequency
(MHz) Low High 5190 5230 Chain 0 PPSD
(dBm)
-6.67
-8.10 Chain 2 PPSD
(dBm) PPSD
(dBm) Limit
(dBm) Margin Result
-5.37
-2.96 15.18 -18.14 PASS
-4.35
-2.82 15.18 -18.00 PASS Remark:
1. Total PPSD (dBm) = 10*LOG(10^(Chain 0 PPSD / 10) +10^(Chain 2 PPSD /10)) 2. The maximum antenna gain is 7.82dBi; therefore the reduction due to antenna gain is 1.82dBi, so the limit is 15.18dBm. Page 59 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Test Plot IEEE 802.11a mode / 5180 ~ 5240MHz CH Low CH Mid Page 60 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 CH High Page 61 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Mode 1 IEEE 802.11n HT 20 MHz / 5180 ~ 5240MHz / Chain 0 CH Low CH Mid Page 62 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 CH High Page 63 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 IEEE 802.11n HT 20 MHz / 5180 ~ 5240MHz / Chain 1 CH Low CH Mid Page 64 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 CH High Page 65 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 IEEE 802.11n HT 40 MHz / 5190 ~ 5230MHz / Chain 0 CH Low CH High Page 66 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 IEEE 802.11n HT 40 MHz / 5190 ~ 5230MHz / Chain 1 CH Low CH High Page 67 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Mode 2 IEEE 802.11n HT 20 MHz / 5180 ~ 5240MHz / Chain 1 CH Low CH Mid Page 68 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 CH High Page 69 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 IEEE 802.11n HT 20 MHz / 5180 ~ 5240MHz / Chain 2 CH Low CH Mid Page 70 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 CH High Page 71 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 IEEE 802.11n HT 40 MHz / 5190 ~ 5230MHz / Chain 1 CH Low CH High Page 72 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 IEEE 802.11n HT 40 MHz / 5190 ~ 5230MHz / Chain 2 CH Low CH High Page 73 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Mode 3 IEEE 802.11n HT 20 MHz / 5180 ~ 5240MHz / Chain 0 CH Low CH Mid Page 74 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 CH High Page 75 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 IEEE 802.11n HT 20 MHz / 5180 ~ 5240MHz / Chain 2 CH Low CH Mid Page 76 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 CH High Page 77 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 IEEE 802.11n HT 40 MHz / 5190 ~ 5230MHz / Chain 0 CH Low CH High Page 78 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 IEEE 802.11n HT 40 MHz / 5190 ~ 5230MHz / Chain 2 CH Low CH High Page 79 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 7.5 RADIATED UNDESIRABLE EMISSION 1. According to 15.209(a), except as provided elsewhere in this Subpart, the emissions from an intentional radiator shall not exceed the field strength levels specified in the following table:
Frequency Field Strength Measurement Distance
(MHz) 30-88 88-216 216-960 Above 960
(V/m) 100*
150*
200*
500
(m) 3 3 3 3 Remark: Except as provided in paragraph (g), fundamental emissions from intentional radiators operating under this Section shall not be located in the frequency bands 54-72 MHz, 76-88 MHz, 174-216 MHz or 470-806 MHz. However, operation within these frequency bands is permitted under other sections of this Part, e.g., Sections 15.231 and 15.241. 2. In the emission table above, the tighter limit applies at the band edges. Frequency
(MHz) 30-88 88-216 216-960 Above 960 Field Strength
(V/m at 3-meter) Field Strength
(dBV/m at 3-meter) 100 150 200 500 40 43.5 46 54 Page 80 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Test Configuration 9kHz ~ 30MHz 30MHz ~ 1GHz Page 81 Spectrum / Receiver 3m 1m Turntable EUT 0.8m Loop antenna Reference ground plane Spectrum analyzer 3m 4m 1m Turntable EUT 0.8m Antenna tower Reference ground plane Bi-log antenna Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Above 1 GHz 1.5m Page 82 Spectrum analyzer Horn antenna 3m 4m 1m Turntable EUT 0.8m Antenna tower Pre-amp Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 TEST PROCEDURE 1. The EUT is placed on a turntable, which is 1.5m above ground plane. 2. The turntable shall be rotated for 360 degrees to determine the position of maximum emission level. 3. EUT is set 3m away from the receiving antenna, which is varied from 1m to 4m to find out the highest emissions. 4. Maximum procedure was performed on the six highest emissions to ensure EUT compliance. 5. And also, each emission was to be maximized by changing the polarization of receiving antenna both horizontal and vertical. 6. Set the spectrum analyzer in the following setting as:
Below 1GHz:
RBW=100kHz / VBW=300kHz / Sweep=AUTO Above 1GHz:
(a) PEAK: RBW=VBW=1MHz / Sweep=AUTO
(b) AVERAGE: RBW=1MHz, if duty cycle98%, VBW=10Hz. if duty cycle<98% VBW=1/T. IEEE 802.11a mode: = 95%, VBW=510Hz IEEE 802.11n HT 20 MHz mode: = 92%, VBW=1.1KHz IEEE 802.11n HT 40 MHz mode: = 85%, VBW=2.2KHz 7. Repeat above procedures until the measurements for all frequencies are complete. Page 83 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Below 1 GHz Operation Mode: Normal Link Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity:
Ver. / Hor. Correction Result Limit Frequency
(MHz) Reading
(Peak/QP)
(dBuV) 228.8500 53.94 Factor
(dB/m)
-18.83 256.3333 48.07
-17.94 419.6167 47.34
-13.49 539.2500 42.98
-11.18 597.4500 39.26
-10.53 767.2000 38.75
-7.71 228.8500 58.81
-18.83 259.5667 55.16
-17.71 419.6167 44.02
-13.49 618.4667 41.60
-10.07 689.6000 38.37 768.8167 43.23
-8.90
-7.69 Remark:
(Peak/QP)
(dBuV/m)
(Peak/QP)
(dBuV/m) 35.11 30.13 33.85 31.80 28.73 31.04 39.98 37.45 30.53 31.53 29.47 35.54 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 Margin
(dB) Remark Ant.Pol.
(H/V)
-10.89
-15.87
-12.15
-14.20
-17.27
-14.96
-6.02
-8.55
-15.47
-14.47
-16.53
-10.46 peak peak peak peak peak peak Peak Peak Peak Peak Peak Peak V V V V V V H H H H H H 1. Measuring frequencies from 30 MHz to the 1GHz. 2. Radiated emissions measured in frequency range from 30 MHz to 1000MHz were made with an instrument using peak/quasi-peak detector mode. 3. Quasi-peak test would be performed if the peak result were greater than the quasi-peak limit or as required by the applicant. 4. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 5. Margin (dB) = Remark result (dBuV/m) Quasi-peak limit (dBuV/m). Page 84 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Above 1 GHz Operation Mode:
Tx / IEEE 802.11a mode / 5180 ~ 5240MHz
/ CH Low Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 2386.000 54.79
-3.81 50.98 74.00
-23.02 peak V N/A 3289.000 52.35
-1.42 50.93 74.00
-23.07 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 85 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Operation Mode:
Tx / IEEE 802.11a mode / 5180 ~ 5240MHz
/ CH Mid Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 3527.000 51.58
-0.79 50.79 74.00
-23.21 peak V N/A 3198.000 52.04
-1.63 50.41 74.00
-23.59 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 86 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Operation Mode:
Tx / IEEE 802.11a mode / 5180 ~ 5240MHz
/ CH High Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 4262.000 49.66 2.22 51.88 74.00
-22.12 peak V N/A 4031.000 50.43 1.35 51.78 74.00
-22.22 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 87 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 For Mode 1 Operation Mode:
Tx / IEEE 802.11n HT 20 MHz Channel mode / 5180 ~ 5240MHz / CH Low Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 2393.000 52.48
-3.75 48.73 74.00
-25.27 peak V N/A 1938.000 55.67
-5.21 50.46 74.00
-23.54 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 88 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Operation Mode:
Tx / IEEE 802.11n HT 20 MHz Channel mode / 5180 ~ 5240MHz / CH Mid Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 3863.000 50.95 0.64 51.59 74.00
-22.41 peak V N/A 4227.000 49.55 2.09 51.64 74.00
-22.36 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 89 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Operation Mode:
Tx / IEEE 802.11n HT 20 MHz Channel mode / 5180 ~ 5240MHz / CH High Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 3891.000 50.80 0.76 51.56 74.00
-22.44 peak V N/A 4031.000 50.05 1.35 51.40 74.00
-22.60 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 90 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Operation Mode:
Tx / IEEE 802.11n HT 40 MHz Channel mode / 5190 ~ 5230MHz / CH Low Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 3268.000 51.86
-1.47 50.39 74.00
-23.61 peak V N/A 3317.000 51.62
-1.35 50.27 74.00
-23.73 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 91 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Operation Mode:
Tx / IEEE 802.11n HT 40 MHz Channel mode / 5190 ~ 5230MHz / CH High Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 3863.000 50.45 0.64 51.09 74.00
-22.91 peak V N/A 3912.000 49.58 0.85 50.43 74.00
-23.57 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 92 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 For Mode 2 Operation Mode:
Tx / IEEE 802.11n HT 20 MHz Channel mode / 5180 ~ 5240MHz / CH Low Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 2400.000 54.34
-3.69 50.65 74.00
-23.35 peak V N/A 3604.000 51.71
-0.46 51.25 74.00
-22.75 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 93 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Operation Mode:
Tx / IEEE 802.11n HT 20 MHz Channel mode / 5180 ~ 5240MHz / CH Mid Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 3226.000 51.87
-1.57 50.30 74.00
-23.70 peak V N/A 3793.000 50.78 0.34 51.12 74.00
-22.88 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 94 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Operation Mode:
Tx / IEEE 802.11n HT 20 MHz Channel mode / 5180 ~ 5240MHz / CH High Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 2386.000 52.75
-3.81 48.94 74.00
-25.06 peak V N/A 2400.000 54.52
-3.69 50.83 74.00
-23.17 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 95 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Operation Mode:
Tx / IEEE 802.11n HT 40 MHz Channel mode / 5190 ~ 5230MHz / CH Low Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 4017.000 49.88 1.29 51.17 74.00
-22.83 peak V N/A 3324.000 51.44
-1.33 50.11 74.00
-23.89 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 96 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Operation Mode:
Tx / IEEE 802.11n HT 40 MHz Channel mode / 5190 ~ 5230MHz / CH High Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 3331.000 51.87
-1.32 50.55 74.00
-23.45 peak V N/A 3352.000 51.58
-1.27 50.31 74.00
-23.69 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 97 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 For Mode 3 Operation Mode:
Tx / IEEE 802.11n HT 20 MHz Channel mode / 5180 ~ 5240MHz / CH Low Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 3191.000 51.94
-1.65 50.29 74.00
-23.71 peak V N/A 3205.000 51.73
-1.62 50.11 74.00
-23.89 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 98 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Operation Mode:
Tx / IEEE 802.11n HT 20 MHz Channel mode / 5180 ~ 5240MHz / CH Mid Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 3275.000 52.73
-1.45 51.28 74.00
-22.72 peak V N/A 3275.000 51.98
-1.45 50.53 74.00
-23.47 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 99 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Operation Mode:
Tx / IEEE 802.11n HT 20 MHz Channel mode / 5180 ~ 5240MHz / CH High Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 3191.000 52.60
-1.65 50.95 74.00
-23.05 peak V N/A 3275.000 52.20
-1.45 50.75 74.00
-23.25 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 100 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Operation Mode:
Tx / IEEE 802.11n HT 40 MHz Channel mode / 5190 ~ 5230MHz / CH Low Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 3387.000 51.50
-1.18 50.32 74.00
-23.68 peak V N/A 3261.000 51.84
-1.48 50.36 74.00
-23.64 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 101 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Operation Mode:
Tx / IEEE 802.11n HT 40 MHz Channel mode / 5190 ~ 5230MHz / CH High Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 3310.000 51.38
-1.37 50.01 74.00
-23.99 peak V N/A 3359.000 51.77
-1.25 50.52 74.00
-23.48 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 102 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 7.6 POWERLINE CONDUCTED EMISSIONS LIMIT According to 15.207(a), except as shown in paragraphs (b) and (c) of this section, for an intentional radiator that is designed to be connected to the public utility (AC) power line, the radio frequency voltage that is conducted back onto the AC power line on any frequency or frequencies within the band 150 kHz to 30 MHz shall not exceed the limits in the following table, as measured using a 50 H/50 ohms line impedance stabilization network (LISN). Compliance with the provisions of this paragraph shall be based on the measurement of the radio frequency voltage between each power line and ground at the power terminal. The lower limit applies at the boundary between the frequency ranges. Frequency Range
(MHz) 0.15 to 0.50 0.50 to 5 Limits
(dBV) Quasi-peak 66 to 56*
56 60
* Decreases with the logarithm of the frequency. 5 to 30 TEST CONFIGURATION Average 56 to 46*
46 50 See test photographs attached in Appendix 1 for the actual connections between EUT and support equipment. TEST PROCEDURE 1. The EUT was placed on a table, which is 0.8m above ground plane. 2. Maximum procedure was performed on the six highest emissions to ensure EUT compliance. 3. Repeat above procedures until all frequency measured were complete. TEST RESULTS The initial step in collecting conducted data is a spectrum analyzer peak scan of the measurement range. Significant peaks are then marked as shown on the following data page, and these signals are then quasi-peaked. Page 103 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Test Data Operation Mode:
Normal Link Test Date:
July 14, 2015 Temperature:
24C Tested by:
Frank Liao Humidity:
60% RH Line L1 No. Frequency Reading Factor Result
(dBuV) 58.13 47.22 46.52 24.85 31.88 13.23 37.58 25.27 30.42 27.18 40.77 26.04
(MHz) 0.1500 0.1500 0.1620 0.1620 0.2380 0.2380 2.3900 2.3900 12.0580 12.0580 26.9340 26.9340
(dBuV) 47.87 36.96 36.29 14.62 21.76 3.11 27.55 15.24 20.21 16.97 30.21 15.48
(dB) 10.26 10.26 10.23 10.23 10.12 10.12 10.03 10.03 10.21 10.21 10.56 10.56 1 2 3 4 5 6 7 8 9 10 11 12 Limit Margin Detector
(dBuV) 65.99 55.99 65.36 55.36 62.16 52.16 56.00 46.00 60.00 50.00 60.00 50.00
(dB)
-7.86
-8.77
-18.84
-30.51
-30.28
-38.93
-18.42
-20.73
-29.58
-22.82
-19.23
-23.96 QP AVG QP AVG QP AVG QP AVG QP AVG QP AVG Remark:
1. Measuring frequencies from 0.15 MHz to 30MHz. 2. The emissions measured in frequency range from 0.15 MHz to 30MHz were made with an instrument using Quasi-peak detector and average detector. 3. The IF bandwidth of SPA between 0.15MHz to 30MHz was 10kHz; the IF bandwidth of Test Receiver between 0.15MHz to 30MHz was 9kHz. 4. L1 = Line One (Live Line) / L2 = Line Two (Neutral Line) Page 104 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Operation Mode:
Normal Link Test Date:
July 14, 2015 Temperature:
24C Tested by:
Frank Liao Humidity:
60% RH Line L2 No. Frequency Reading Factor Result
(dBuV) 57.53 42.68 52.25 46.83 40.56 28.11 42.54 28.05 42.30 24.27 42.92 26.46
(MHz) 0.1500 0.1500 0.1580 0.1580 0.2220 0.2220 0.3140 0.3140 2.3580 2.3900 26.9340 27.3780
(dBuV) 47.44 32.59 42.18 36.76 30.56 18.11 32.60 18.11 32.36 14.33 32.42 15.96
(dB) 10.09 10.09 10.07 10.07 10.00 10.00 9.94 9.94 9.94 9.94 10.50 10.50 1 2 3 4 5 6 7 8 9 10 11 12 Limit Margin Detector
(dBuV) 65.99 55.99 65.56 55.56 62.74 52.74 59.86 49.86 56.00 46.00 60.00 50.00
(dB)
-8.46
-13.31
-13.31
-8.73
-22.18
-24.63
-17.32
-21.81
-13.70
-21.73
-17.08
-23.54 QP AVG QP AVG QP AVG QP AVG QP AVG QP AVG Remark:
1. Measuring frequencies from 0.15 MHz to 30MHz. 2. The emissions measured in frequency range from 0.15 MHz to 30MHz were made with an instrument using Quasi-peak detector and average detector. The IF bandwidth of SPA between 0.15MHz to 30MHz was 10kHz; the IF 3. bandwidth of Test Receiver between 0.15MHz to 30MHz was 9kHz. L1 = Line One (Live Line) / L2 = Line Two (Neutral Line) 4. Page 105 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 7.7 FREQUENCY STABILITY LIMIT According to 15.407(g), manufacturers of U-NII devices are responsible for ensuring frequency stability such that an emission is maintained within the band of operation under all conditions of normal operation as specified in the users manual. Test Configuration Temperature Chamber Spectrum analyzer EUT Att. Variable Power Supply Remark: Measurement setup for testing on Antenna connector Page 106 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 TEST PROCEDURE The equipment under test was connected to an external AC or DC power supply and input rated voltage. RF output was connected to a frequency counter or spectrum analyzer via feed through attenuators. The EUT was placed inside the temperature chamber. Set the spectrum analyzer RBW low enough to obtain the desired frequency resolution and measure EUT 20oC operating frequency as reference frequency. Turn EUT off and set the chamber temperature to 20oC. After the temperature stabilized for approximately 30 minutes recorded the frequency. Repeat step measure with 10oC increased per stage until the highest temperature of +50oC reached. TEST RESULTS No non-compliance noted. IEEE 802.11a mode / 5180 ~ 5240 MHz:
CH Low Environment Temperature
(oC) 50 40 30 20 10 0
-10
-20 Environment Temperature
(oC) 20 Operating Frequency: 5180 MHz Voltage Measured Frequency
(MHz) Limit Range Test Result 5180.008069 5150~5250 5179.979388 5150~5250 5179.999456 5150~5250 5180.018443 5150~5250 5180.010820 5150~5250 5180.002534 5150~5250 5180.018997 5150~5250 5179.971479 5150~5250 Pass Pass Pass Pass Pass Pass Pass Pass Operating Frequency: 5180 MHz Voltage Measured Frequency
(MHz) Limit Range Test Result
(V) 120 120 120 120 120 120 120 120
(V) 108 120 132 5180.009737 5150~5250 5179.975147 5150~5250 5179.985548 5150~5250 Pass Pass Pass Page 107 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 CH High Environment Temperature
(oC) 50 40 30 20 10 0
-10
-20 Environment Temperature
(oC) 20 Operating Frequency: 5240 MHz Voltage Measured Frequency
(MHz) Limit Range Test Result 5240.017597 5150~5250 5239.989365 5150~5250 5240.005376 5150~5250 5239.975195 5150~5250 5240.008279 5150~5250 5239.985528 5150~5250 5240.002413 5150~5250 5239.981400 5150~5250 Pass Pass Pass Pass Pass Pass Pass Pass Operating Frequency: 5240 MHz Voltage Measured Frequency
(MHz) Limit Range Test Result
(V) 120 120 120 120 120 120 120 120
(V) 108 120 132 5239.997143 5150~5250 5239.983163 5150~5250 5240.015898 5150~5250 Pass Pass Pass Page 108 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 IEEE 802.11n HT 20 MHz / 5180 ~ 5240 MHz:
CH Low Environment Temperature
(oC) 50 40 30 20 10 0
-10
-20 Environment Temperature
(oC) 20 Operating Frequency: 5180 MHz Voltage Measured Frequency
(MHz) Limit Range Test Result 5179.999227 5150~5250 5180.008547 5150~5250 5179.996451 5150~5250 5180.018148 5150~5250 5180.015381 5150~5250 5179.992953 5150~5250 5179.981694 5150~5250 5179.979523 5150~5250 Pass Pass Pass Pass Pass Pass Pass Pass Operating Frequency: 5180 MHz Voltage Measured Frequency
(MHz) Limit Range Test Result
(V) 120 120 120 120 120 120 120 120
(V) 108 120 132 5180.005194 5150~5250 5179.987306 5150~5250 5179.99221 5150~5250 Pass Pass Pass Page 109 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 CH High Environment Temperature
(oC) 50 40 30 20 10 0
-10
-20 Environment Temperature
(oC) 20 Operating Frequency: 5240 MHz Voltage Measured Frequency
(MHz) Limit Range Test Result 5239.999173 5150~5250 5239.975561 5150~5250 5240.006332 5150~5250 5240.011244 5150~5250 5240.016157 5150~5250 5240.010347 5150~5250 5239.976576 5150~5250 5239.985276 5150~5250 Pass Pass Pass Pass Pass Pass Pass Pass Operating Frequency: 5240 MHz Voltage Measured Frequency
(MHz) Limit Range Test Result
(V) 120 120 120 120 120 120 120 120
(V) 108 120 132 5239.975275 5150~5250 5239.978235 5150~5250 5240.010857 5150~5250 Pass Pass Pass Page 110 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 IEEE 802.11n HT 40 MHz / 5190 ~ 5230 MHz:
CH Low Environment Temperature
(oC) 50 40 30 20 10 0
-10
-20 Environment Temperature
(oC) 20 Operating Frequency: 5190 MHz Voltage Measured Frequency
(MHz) Limit Range Test Result 5189.976894 5150~5250 5189.976695 5150~5250 5190.000180 5150~5250 5190.005424 5150~5250 5189.989693 5150~5250 5190.004222 5150~5250 5190.020994 5150~5250 5189.975604 5150~5250 Pass Pass Pass Pass Pass Pass Pass Pass Operating Frequency: 5190 MHz Voltage Measured Frequency
(MHz) Limit Range Test Result
(V) 120 120 120 120 120 120 120 120
(V) 108 120 132 5190.008673 5150~5250 5189.986866 5150~5250 5189.986508 5150~5250 Pass Pass Pass Page 111 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 CH High Environment Temperature
(oC) 50 40 30 20 10 0
-10
-20 Environment Temperature
(oC) 20 Operating Frequency: 5230 MHz Voltage Measured Frequency
(MHz) Limit Range Test Result 5229.971337 5150~5250 5229.987898 5150~5250 5229.988175 5150~5250 5229.995861 5150~5250 5230.014015 5150~5250 5229.971852 5150~5250 5230.005806 5150~5250 5229.998456 5150~5250 Pass Pass Pass Pass Pass Pass Pass Pass Operating Frequency: 5230 MHz Voltage Measured Frequency
(MHz) Limit Range Test Result
(V) 120 120 120 120 120 120 120 120
(V) 108 120 132 5229.991501 5150~5250 5230.011001 5150~5250 5229.998871 5150~5250 Pass Pass Pass Page 112
1 2 3 4 | Test Report II | Test Report | 1.99 MiB | November 17 2015 |
Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 FCC 47 CFR PART 15 SUBPART E
(Class II Permissive Change) TEST REPORT For Wireless-N Selectable-Band Access Point with PoE Model: WAP321 Trade Name: Cisco Issued to Sercomm Corporation 8F, No. 3-1, YuanQu St., NanKang, Taipei 115, Taiwan, R.O.C. Issued by Compliance Certification Services Inc. No.11, Wugong 6th Rd., Wugu Dist., New Taipei City 24891, Taiwan. (R.O.C.) http://www.ccsrf.com service@ccsrf.com Issued Date: July 23, 2015 Note: This report shall not be reproduced except in full, without the written approval of Compliance Certification Services Inc. This document may be altered or revised by Compliance Certification Services Inc. personnel only, and shall be noted in the revision section of the document. Page 1 / 108 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Revision History Rev. 00 Issue Date July 23, 2015 Initial Issue Revisions Effect Page ALL Revised By Doris Chu Page 2 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 TABLE OF CONTENTS 1. TEST RESULT CERTIFICATION ..................................................................................... 4 2. EUT DESCRIPTION .......................................................................................................... 5 3. TEST METHODOLOGY .................................................................................................... 6 3.1 EUT CONFIGURATION ............................................................................................ 6 3.2 EUT EXERCISE ........................................................................................................ 6 3.3 GENERAL TEST PROCEDURES ............................................................................. 6 3.4 FCC PART 15.205 RESTRICTED BANDS OF OPERATIONS ................................. 7 3.5 DESCRIPTION OF TEST MODES ............................................................................ 8 4. INSTRUMENT CALIBRATION ......................................................................................... 9 4.1 MEASURING INSTRUMENT CALIBRATION ........................................................... 9 4.2 MEASUREMENT EQUIPMENT USED ..................................................................... 9 4.3 MEASUREMENT UNCERTAINTY .......................................................................... 10 5. FACILITIES AND ACCREDITATIONS ........................................................................... 11 5.1 FACILITIES ............................................................................................................. 11 5.2 EQUIPMENT ........................................................................................................... 11 5.3 TABLE OF ACCREDITATIONS AND LISTINGS ..................................................... 12 6. SETUP OF EQUIPMENT UNDER TEST ........................................................................ 13 6.1 SETUP CONFIGURATION OF EUT ....................................................................... 13 6.2 SUPPORT EQUIPMENT ........................................................................................ 13 7. FCC PART 15 REQUIREMENTS ................................................................................... 14 6DB BANDWIDTH .................................................................................................. 14 7.1 7.2 MAXIMUM CONDUCTED OUTPUT POWER ......................................................... 38 7.3 BAND EDGES MEASUREMENT ............................................................................ 41 7.4 PEAK POWER SPECTRAL DENSITY .................................................................... 57 7.5 RADIATED UNDESIRABLE EMISSION ................................................................. 80 7.6 POWERLINE CONDUCTED EMISSIONS ............................................................ 103 APPENDIX I PHOTOGRAPHS OF TEST SETUP .............................................................. 106 Page 3 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 1. TEST RESULT CERTIFICATION Applicant:
Sercomm Corporation 8F, No. 3-1, YuanQu St., NanKang, Taipei 115, Taiwan, R.O.C. Equipment Under Test: Wireless-N Selectable-Band Access Point with PoE Trade Name:
Model:
Cisco WAP321 Date of Test:
July 12, 2015 APPLICABLE STANDARDS STANDARD TEST RESULT FCC 47 CFR Part 15 Subpart E No non-compliance noted We hereby certify that:
Compliance Certification Services Inc. tested the above equipment. The test data, data evaluation, test procedures, and equipment configurations shown in this report were made in accordance with the procedures given in ANSI C63.10: 2009 and the energy emitted by the sample EUT tested as described in this report is in compliance with conducted and radiated emission limits of FCC Rules Part 15.407. The test results of this report relate only to the tested sample identified in this report. Approved by:
Reviewed by:
Miller Lee Manager Compliance Certification Services Inc. Angel Cheng Section Manager Compliance Certification Services Inc. Page 4 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 2. EUT DESCRIPTION Product Wireless-N Selectable-Band Access Point with PoE Trade Name Cisco Model Number WAP321 Model Discrepancy N/A Received Date June 22, 2015 Power Supply 1. Sunny/ SYS1381-121-W2C I/P: 100-240V~, 0.5A MAX, 50-60Hz O/P: 12V, 1.0A 2. LEADER / MU12-G120100-A2 I/P: 100-240V~, 50-60Hz, 0.5A O/P: 12V, 1A 3. Sunny/ SYS1381-1212-W2 I/P: 100-240V~, 0.5A MAX, 50-60Hz O/P: 12V, 1.0A 4. LEADER / MU12-G120100-A1 I/P: 100-240V~, 50-60Hz, 0.5A O/P: 12V, 1A Operating Frequency Range & Number of Channels Mode Frequency Range
(MHz) IEEE 802.11a 5745 ~ 5825 Number of Channels 5 Channels UNII Band IV IEEE 802.11n HT 20 mode 5745 ~ 5825 5 Channels IEEE 802.11n HT 40 mode 5755 ~ 5795 2 Channels Transmit Power IEEE 802.11a mode: 14.83 dBm Mode 1:
IEEE 802.11n HT 20 MHz Mode : 14.83 dBm IEEE 802.11n HT 40 MHz Mode: 15.86 dBm Mode 2:
IEEE 802.11n HT 20 MHz Mode : 15.89 dBm IEEE 802.11n HT 40 MHz Mode: 14.87 dBm Mode 3:
IEEE 802.11n HT 20 MHz Mode: 15.13 dBm IEEE 802.11n HT 40 MHz Mode: 15.36 dBm Modulation Technique OFDM (QPSK, BPSK, 16-QAM, 64-QAM, 256QAM) IEEE 802.11a mode: 54, 48, 36, 24, 18, 12, 9, 6 Mbps IEEE 802.11n HT 20 mode: OFDM (6.50, 13.00, 19.50, 26.00, 39.00, 52.00, Transmit Data Rate 58.50, 65.00, 78.00, 104.0, 117.0, 130.0, 156.0, 175.5, 195.0Mbps) IEEE 802.11n HT 40 mode: OFDM (13.50, 27.00, 40.50, 54.00, 81.00, 108.0, 121.5, 135.0, 162.0, 216.0, 243.0, 270.0, 324.0, 364.5, 405.0Mbps) Antenna Specification Antenna 1 (chain 0): 4.32 dBi Antenna 2 (chain 1): 4.67 dBi Antenna 3 (chain 2): 3.96 dBi Antenna Designation PIFA Antenna Remark:
The sample selected for test was production product and was provided by manufacturer. 1. 2. This submittal(s) (test report) is intended for FCC ID: P27-WAP321 filing to comply with Section 15.407 of the FCC Part 15, Subpart E Rules. Page 5 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 3. TEST METHODOLOGY Both conducted and radiated testing was performed according to the procedures in ANSI C63.10: 2009 Radiated testing was performed at an antenna to EUT distance 3 meters. The tests documented in this report were performed in accordance with ANSI C63.10:
2009, FCC CFR 47 Part 15.207, 15.209, 15.407 and KDB 789033 D02 General UNII Test Procedures New Rules v01. 3.1 EUT CONFIGURATION The EUT configuration for testing is installed for RF field strength measurement to meet the Commissions requirement, and is operated in a manner intended to generate the maximum emission in a continuous normal application. 3.2 EUT EXERCISE The EUT is operated in the engineering mode to fix the Tx frequency for the purposes of measurement. According to its specifications, the EUT must comply with the requirements of Section 15.407 under the FCC Rules Part 15 Subpart E. 3.3 GENERAL TEST PROCEDURES Conducted Emissions The EUT is placed on the turntable, which is positioned at 0.8 m above the ground plane. According to the requirements in ANSI C63.10: 2009, the conducted emission from the EUT is measured in the frequency range between 0.15 MHz and 30MHz, using the CISPR Quasi-Peak detector mode. Radiated Emissions The EUT is placed on the turntable, which is 1.5 m above the ground plane. The turntable is then rotated for 360 degrees to determine the proper orientation for the maximum emission level. The EUT is set 3m away from the receiving antenna, which is varied from 1m to 4m to find out the highest emission level. And, each emission is to be maximized by changing the horizontal and vertical polarization of the receiving antenna. In order to find out the maximum emissions, exploratory radiated emission measurements were made according to the requirements in ANSI C63.10: 2009. Page 6 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 3.4 FCC PART 15.205 RESTRICTED BANDS OF OPERATIONS
(a) Except as shown in paragraph (d) of this section, only spurious emissions are permitted in any of the frequency bands listed below:
MHz MHz MHz GHz 0.090 - 0.110 10.495 - 0.505 2.1735 - 2.1905 4.125 - 4.128 4.17725 - 4.17775 4.20725 - 4.20775 6.215 - 6.218 6.26775 - 6.26825 6.31175 - 6.31225 8.291 - 8.294 8.362 - 8.366 8.37625 - 8.38675 8.41425 - 8.41475 16.42 - 16.423 16.69475 - 16.69525 16.80425 - 16.80475 25.5 - 25.67 37.5 - 38.25 73 - 74.6 74.8 - 75.2 108 - 121.94 123 - 138 149.9 - 150.05 156.52475 -
156.52525 156.7 - 156.9 12.29 - 12.293 162.0125 - 167.17 12.51975 - 12.52025 12.57675 - 12.57725 13.36 - 13.41 167.72 - 173.2 240 - 285 322 - 335.4 399.9 - 410 608 - 614 960 - 1240 1300 - 1427 1435 - 1626.5 1645.5 - 1646.5 1660 - 1710 1718.8 - 1722.2 2200 - 2300 2310 - 2390 2483.5 - 2500 2655 - 2900 3260 - 3267 3332 - 3339 3345.8 - 3358 3600 - 4400 4.5 - 5.15 5.35 - 5.46 7.25 - 7.75 8.025 - 8.5 9.0 - 9.2 9.3 - 9.5 10.6 - 12.7 13.25 - 13.4 14.47 - 14.5 15.35 - 16.2 17.7 - 21.4 22.01 - 23.12 23.6 - 24.0 31.2 - 31.8 36.43 - 36.5
(2) 1 Until February 1, 1999, this restricted band shall be 0.490-0.510 MHz. 2 Above 38.6
(b) Except as provided in paragraphs (d) and (e), the field strength of emissions appearing within these frequency bands shall not exceed the limits shown in Section 15.209. At frequencies equal to or less than 1000 MHz, compliance with the limits in Section 15.209 shall be demonstrated using measurement instrumentation employing a CISPR quasi-peak detector. Above 1000 MHz, compliance with the emission limits in Section 15.209 shall be demonstrated based on the average value of the measured emissions. The provisions in Section 15.35 apply to these measurements. Page 7 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 3.5 DESCRIPTION OF TEST MODES The EUT (model: WAP321) comes with four types of power adapter (SYS1381-121-W2C, MU12-G120100-A2, SYS1381-1212-W2, MU12-G120100-A1) for sale. After the preliminary test, the EUT with power adapter (Model: MU12-G120100-A1) was found to emit the worst emissions and therefore had been tested under operating condition. The EUT comes with three modes: mode 1 & mode 2 & mode 3. Mode 1 antenna 1 (chain 0), antenna 2 (chain 1) Mode 2 antenna 2 (chain 1), antenna 3 (chain 2) Mode 3 antenna 1 (chain 0), antenna 3 (chain 2) The EUT is a 2x2 configuration spatial MIMO (2Tx & 2Rx) without beam forming function that Operate in double TX chains and double RX chains. The 2x2 configuration is implemented with Two outside TX & RX chains (Chain 0 and Chain 1)(Chain 1 and Chain 2)(Chain 0 and Chain 2) Software used to control the EUT for staying in continuous transmitting and receiving mode was programmed. After verification, all tests carried out are with the worst-case test modes as shown below except radiated spurious emission below 1GHz and power line conducted emissions below 30MHz, which worst case was in normal link mode Band IV IEEE 802.11a mode / 5745 ~ 5825MHz During the preliminary test, Chain 0, Chain 1,Chain 2 with IEEE 802.11a mode were pre-tested and found that Chain 1 emits the highest output power. Channel Low (5745MHz), Channel Mid (5785MHz) and Channel High (5825MHz) with chain 1 at 6Mbps data rate were chosen for full testing. IEEE 802.11n HT 20 mode: / 5745 ~ 5825MHz During the preliminary test, MCS0 : Chain 0,Chain 1,Chain 2 and MCS8 : Chain 0+Chain 1,Chain 1 +Chain 2,Chain 0 + chain 2 with IEEE 802.11n HT 20 MHz were pre-tested and found that Chain 0+Chain 1,Chain 1 +Chain 2,Chain 0 + chain 2 emits the highest output power. Channel Low(5745MHz), Channel Mid(5785MHz) and Channel High(5825MHz) with chain 0 +
chain 1 and chain 1 + chain 2 and chain 0 + chain 2 at MCS 8 data rate were chosen for full testing. IEEE 802.11n HT 40 mode / 5755 ~ 5795MHz During the preliminary test, MCS0 : Chain 0,Chain 1,Chain 2 and MCS8 : Chain 0+Chain 1,Chain 1 +Chain 2,Chain 0 + chain 2 with IEEE 802.11n HT 40 MHz were pre-tested and found that Chain 0+Chain 1,Chain 1 +Chain 2,Chain 0 + chain 2 emits the highest output power. Channel Low(5755MHz) and Channel High(5795MHz) with chain 0 + chain 1 and chain 1 + chain 2 and chain 0 + chain 2 at MCS 8 data rate were chosen for full testing. The field strength of spurious emission was measured in the following position: EUT stand-up position (Z axis), lie-down position (X, Y axis). The worst emission was found in lie-down position (Y axis) and the worst case was recorded. Page 8 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 4. INSTRUMENT CALIBRATION 4.1 MEASURING INSTRUMENT CALIBRATION The measuring equipment, which was utilized in performing the tests documented herein, has been calibrated in accordance with the manufacturer's recommendations for utilizing calibration equipment, which is traceable to recognized national standards. 4.2 MEASUREMENT EQUIPMENT USED Equipment Used for Emissions Measurement Remark: Each piece of equipment is scheduled for calibration once a year and Loop Antenna is scheduled for calibration once three years. Name of Equipment Manufacturer Spectrum Analyzer Agilent Model E4446A Serial Number US42510252 Calibration Due 11/23/2015 Conducted Emissions Test Site Thermostatic/Hrgrosatic Chamber AC Power Source DC Power Supply Power Meter Power Sensor TAICHY MHG-150LF 930619 10/07/2015 EXTECH ABM Anritsu Anritsu 6205 8301HD ML2495A MA2411A 1140845 D011531 1012009 0917072 101073 N.C.R N.C.R 06/07/2016 06/08/2016 07/08/2016 Spectrum Analyzer ROHDE&SCHWARZ FSV40 Wugu 966 Chamber A Name of Equipment Manufacturer Spectrum Analyzer EMI Test Receiver Agilent R&S Model E4446A ESCI JB3 3117 3116 CC-T-1F CC-A-1F CC-C-1F 1652-3000 EMC 01265 AMF-6F-260400-
40-8P Serial Number US42510268 100064 A030105 00055165 26370 N/A N/A N/A 1490939 4035 985646 Sunol Sciences EMCO EMCO CCS CCS CCS MITEQ EMC MITEQ Huber+Suhner Huber+Suhner 102 102 29212/2 29406/2 EZ-EMC (CCS-3A1RE) Conducted Emission room # B Calibration Due 09/18/2015 06/04/2016 08/19/2015 01/26/2016 12/25/2015 N.C.R N.C.R N.C.R 08/09/2016 06/04/2016 12/25/2015 12/25/2015 12/25/2015 R&S FCC Model ESCI FCC-LISN-50-32-2 SCHWARZBECK NSLK 8127 MIYAZAKI R&S 5D-FB ESH3-Z2 WISEWIND 201A Serial Number Calibration Due 100234 08009 8127382 BNC B3 100374 1006 06/09/2016 03/23/2016 12/30/2015 08/04/2015 01/05/2016 05/19/2016 Bilog Antenna Horn Antenna Horn Antenna Turn Table Antenna Tower Controller Pre-Amplifier Pre-Amplifier Pre-Amplifier Coaxial Cable Coaxial Cable Test S/W TEST RECEIVER LISN (EUT) LISN BNC CABLE Pulse Limiter THERMO-
HYGRO METER Test S/W Name of Equipment Manufacturer CCS-3A1-CE Page 9 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 4.3 MEASUREMENT UNCERTAINTY PARAMETER UNCERTAINTY Powerline Conducted Emission 3M Semi Anechoic Chamber / <200M 3M Semi Anechoic Chamber / 200M~1000M 3M Semi Anechoic Chamber / 1G~8G 3M Semi Anechoic Chamber / 8G~18G 3M Semi Anechoic Chamber / 18G~26G 3M Semi Anechoic Chamber / 26G~40G
+/-1.1089
+/- 4.0138
+/- 3.9483
+/- 2.5975
+/- 2.6112
+/- 2.7389
+/- 2.9683 Remark: This uncertainty represents an expanded uncertainty expressed at approximately the 95%
confidence level using a coverage factor of k=2. Page 10 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 5. FACILITIES AND ACCREDITATIONS 5.1 FACILITIES All measurement facilities used to collect the measurement data are located at No.199, Chunghsen Road, Hsintien City, Taipei Hsien, Taiwan, R.O.C. Tel: 886-2-2217-0894 / Fax: 886-2-2217-1029 Remark: The powerline conducted emissions test items was tested at Compliance Certification Services Inc. (Sindian Lab.) The test equipments were listed in page 10 and the test data, please refer page 104-105. No.11, Wugong 6th Rd., Wugu Dist., New Taipei City 24891, Taiwan. (R.O.C.) Tel: 886-2-2299-9720 / Fax: 886-2-2298-4045 No.81-1, Lane 210, Bade 2nd Rd., Lujhu Township, Taoyuan County 33841, TAIWAN, R.O.C. Tel: 886-3-324-0332 / Fax: 886-3-324-5235 The sites are constructed in conformance with the requirements of ANSI C63.7, ANSI C63.10:
2009 and CISPR Publication 22. 5.2 EQUIPMENT Radiated emissions are measured with one or more of the following types of linearly polarized antennas: tuned dipole, biconical, log periodic, bi-log, ridged waveguide, horn and/or Loop. Spectrum analyzers with pre-selectors and quasi-peak detectors are used to perform radiated measurements. Conducted emissions are measured with Line Impedance Stabilization Networks and EMI Test Receivers. Calibrated wideband preamplifiers, coaxial cables, and coaxial attenuators are also used for making measurements. All receiving equipment conforms to CISPR Publication 16-1, Radio Interference Measuring Apparatus and Measurement Methods. Page 11 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 5.3 TABLE OF ACCREDITATIONS AND LISTINGS Country Agency Scope of Accreditation Logo USA FCC 3M Semi Anechoic Chamber (FCC MRA: TW1039) to perform FCC Part 15 measurements FCC MRA: TW1039 Taiwan TAF LP0002, RTTE01, FCC Method-47 CFR Part 15 Subpart C, D, E, RSS-247, RSS-310 IDA TS SRD, AS/NZS 4268, AS/NZS 4771, TS 12.1 & 12,2, ETSI EN 300 440-1, ETSI EN 300 440-2, ETSI EN 300 328, ETSI EN 300 220-1, ETSI EN 300 220-2, ETSI EN 301 893, ETSI EN 301 489-1/3/7/17 FCC OET Bulletin 65 + Supplement C, EN 50360, EN 50361, EN 50371, RSS 102, EN 50383, EN 50385, EN 50392, IEC 62209, CNS 14958-1, CNS 14959 FCC Method 47 CFR Part 15 Subpart B IEC / EN 61000-3-2, IEC / EN 61000-3-3, IEC / EN 61000-4-2/3/4/5/6/8/11 Canada Industry Canada 3M Semi Anechoic Chamber (IC 2324G-1 / IC 2324G-2) to perform IC 2324G-1 IC 2324G-2
* No part of this report may be used to claim or imply product endorsement by A2LA or any agency of the US Government. Page 12 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 6. SETUP OF EQUIPMENT UNDER TEST 6.1 SETUP CONFIGURATION OF EUT See test photographs attached in Appendix I for the actual connections between EUT and support equipment. Data Cable Power Cord 6.2 SUPPORT EQUIPMENT No. Equipment Model No. Serial No. FCC ID 1 2 3 4 5 6 7 USB Mouse USB Keyboard Printer M-UAE96 F93A90A5BU90L20 KU-0316 BC3870FVBWH079 Deskjet D2360 TH73C1492F Monitor 933SN+
CM19HVKSB00002 Host PC T3500 8X36VBX Modem AL-56ERM 0MERM04A0224 Server PC xw4400 N/A FCC DOC FCC DOC FCC DOC FCC DOC FCC DOC FCC DOC FCC DOC Brand Name HP HP HP Shielded, 1.8m Shielded, 1.8m Shielded, 1.8m SAMSUNG DELL Shielded, 1.8m with two cores Unshielded, 1.5m GALILEO Shielded, 1.0m HP N/A 8. Notebook PC dv6-1332TX CNF9491GM9 PD9112BNHU HP N/A N/A N/A Unshielded, 1.8m Unshielded, 1.8m Unshielded, 1.8m Unshielded, 1.8m Unshielded, 1.8m AC I/P:
Unshielded, 1.8m DC O/P:
Unshielded, 1.8m with a core Remark:
1. All the equipment/cables were placed in the worst-case configuration to maximize the emission during the test. 2. Grounding was established in accordance with the manufacturers requirements and conditions for the intended use. Page 13 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 7. FCC PART 15 REQUIREMENTS 7.1 6DB BANDWIDTH LIMIT According to 15.407, systems using digital modulation techniques may operate in the 5725
- 5850 MHz bands. The minimum 6dB bandwidth shall be at least 500 kHz. Test Configuration EUT Spectrum Analyzer TEST PROCEDURE 1. Place the EUT on the table and set it in the transmitting mode. 2. Remove the antenna from the EUT and then connect a low loss RF cable from the antenna port to the spectrum analyzer. 3. Set the spectrum analyzer as RBW = VBW = 100kHz, Span = 50MHz, Sweep =
auto. 4. Mark the peak frequency and 6dB (upper and lower) frequency. 5. Repeat until all the rest channels are investigated. TEST RESULTS No non-compliance noted Page 14 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Test Data Test mode: IEEE 802.11a mode / 5745 ~ 5825MHz Channel Low Mid High Mode 1 Frequency 6db Bandwidth
(MHz) 5745 5785 5825
(MHz) 16.578 16.466 16.676 Test mode: IEEE 802.11n HT 20 mode / 5745 ~ 5825MHz / Chain 0 Channel Low Mid High Frequency 6db Bandwidth
(MHz) 5745 5785 5825
(MHz) 17.776 17.706 17.769 Test mode: IEEE 802.11n HT 20 mode / 5745 ~ 5825MHz / / Chain 1 Channel Low Mid High Frequency 6db Bandwidth
(MHz) 5745 5785 5825
(MHz) 17.888 17.735 17.785 Test mode: IEEE 802.11n HT 40 mode / 5755 ~ 5795MHz / Chain 0 Channel Low High Frequency 6db Bandwidth
(MHz) 5755 5795
(MHz) 36.276 36.191 Test mode: IEEE 802.11n HT 40 mode / 5755 ~ 5795MHz / Chain 1 Channel Low High Frequency 6db Bandwidth
(MHz) 5755 5795
(MHz) 36.257 36.213 Page 15 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Mode 2 Test mode: IEEE 802.11n HT 20 mode / 5745 ~ 5825MHz / Chain 1 Channel Low Mid High Frequency 6db Bandwidth
(MHz) 5745 5785 5825
(MHz) 17.738 17.774 17.823 Test mode: IEEE 802.11n HT 20 mode / 5745 ~ 5825MHz / / Chain 2 Channel Low Mid High Frequency 6db Bandwidth
(MHz) 5745 5785 5825
(MHz) 17.772 17.662 17.685 Test mode: IEEE 802.11n HT 40 mode / 5755 ~ 5795MHz / Chain 1 Channel Low High Frequency 6db Bandwidth
(MHz) 5755 5795
(MHz) 36.318 36.442 Test mode: IEEE 802.11n HT 40 mode / 5755 ~ 5795MHz / Chain 2 Channel Low High Frequency 6db Bandwidth
(MHz) 5755 5795
(MHz) 36.279 36.224 Page 16 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Mode 3 Test mode: IEEE 802.11n HT 20 mode / 5745 ~ 5825MHz / Chain 0 Channel Low Mid High Frequency 6db Bandwidth
(MHz) 5745 5785 5825
(MHz) 17.733 17.820 17.783 Test mode: IEEE 802.11n HT 20 mode / 5745 ~ 5825MHz / Chain 2 Channel Low Mid High Frequency 6db Bandwidth
(MHz) 5745 5785 5825
(MHz) 17.726 17.757 17.817 Test mode: IEEE 802.11n HT 40 mode / 5755 ~ 5795MHz / Chain 0 Channel Low High Frequency 6db Bandwidth
(MHz) 5755 5795
(MHz) 36.315 36.514 Test mode: IEEE 802.11n HT 40 mode / 5755 ~ 5795MHz / Chain 2 Channel Low High Frequency 6db Bandwidth
(MHz) 5755 5795
(MHz) 36.435 36.262 Page 17 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Test Plot IEEE 802.11a mode / 5745 ~ 5825MHz CH Low CH Mid Page 18 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 CH High Page 19 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Mode 1 IEEE 802.11n HT 20 mode / 5745 ~ 5825MHz / Chain 0 CH Low CH Mid Page 20 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 CH High Page 21 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 IEEE 802.11n HT 20 mode / 5745 ~ 5825MHz / Chain 1 CH Low CH Mid Page 22 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 CH High Page 23 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 IEEE 802.11n HT 40 mode / 5755 ~ 5795MHz / Chain 0 CH Low CH High Page 24 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 IEEE 802.11n HT 40 mode / 5755 ~ 5795MHz / Chain 1 CH Low CH High Page 25 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Mode 2 IEEE 802.11n HT 20 mode / 5745 ~ 5825MHz / Chain 1 CH Low CH Mid Page 26 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 CH High Page 27 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 IEEE 802.11n HT 20 mode / 5745 ~ 5825MHz / Chain 2 CH Low CH Mid Page 28 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 CH High Page 29 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 IEEE 802.11n HT 40 mode / 5755 ~ 5795MHz / Chain 1 CH Low CH High Page 30 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 IEEE 802.11n HT 40 mode / 5755 ~ 5795MHz / Chain 2 CH Low CH High Page 31 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Mode 3 IEEE 802.11n HT 20 mode / 5745 ~ 5825MHz / Chain 0 CH Low CH Mid Page 32 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 CH High Page 33 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 IEEE 802.11n HT 20 mode / 5745 ~ 5825MHz / Chain 2 CH Low CH Mid Page 34 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 CH High Page 35 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 IEEE 802.11n HT 40 mode / 5755 ~ 5795MHz / Chain 0 CH Low CH High Page 36 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 IEEE 802.11n HT 40 mode / 5755 ~ 5795MHz / Chain 2 CH Low CH High Page 37 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 7.2 MAXIMUM CONDUCTED OUTPUT POWER LIMIT According to 15.407(a)
(1) For the band 5.725-5.850 GHz bands, the maximum conducted output power over the frequency band of operation shall not exceed the lesser of 30 dBm, where B is the 6 dB emission bandwidth in MHz. If transmitting antennas of directional gain greater than 6dBi are used, both the peak transmit power and the peak power spectral density shall be reduced by the amount in dB that the directional gain of the antenna exceeds 6dBi. Test Configuration The EUT was connected to a Power Meter through a 50 RF cable EUT Power Meter TEST PROCEDURE The transmitter output is connected to the Power Meter. The Power Meter is set to the avg power detection. The EUT is configured to transmit continuously. TEST RESULTS No non-compliance noted Page 38 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Test Data Test mode: IEEE 802.11a mode / 5745 ~ 5825MHz Frequency Maximum Conducted Output Power
(MHz) 5745 5785 5825
(dBm) 14.71
*14.83 13.85 Limit
(dBm) 30.00 30.00 30.00 Channel Low Mid High Mode 1 Test mode: IEEE 802.11n HT 20 mode / 5745 ~ 5825MHz Channel Frequency
(MHz) Chain 0 Chain 1 Total Maximum Output Power Output Power Conducted Output
(dBm)
(dBm) Low Mid High 5745 5785 5825 11.69 11.81 10.95 11.59 11.84 11.30 Test mode: IEEE 802.11n HT 40 mode / 5755 ~ 5795MHz Channel Frequency
(MHz) Chain 0 Chain 1 Total Maximum Output Power Output Power Conducted Output
(dBm)
(dBm) Low High 5755 5795 11.93 12.38 13.29 13.26 Power
(dBm) 14.65
*14.83 14.14 Power
(dBm) 15.68
*15.86 Limit
(dBm) 28.06 28.06 28.06 Limit
(dBm) 28.06 28.06 Remark:
1. Total Output Power (w) = Chain 0 (10^(Output Power /10)/1000) + Chain 1 (10^(Output Power /10)/1000)) 2. The maximum antenna gain is 7.94dBi; therefore the reduction due to antenna gain is 1.94dB, so the limit is 28.06dBm. Page 39 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Mode 2 Test mode: IEEE 802.11n HT 20 mode / 5745 ~ 5825MHz Channel Frequency
(MHz) Chain 1 Chain 2 Total Maximum Output Power Output Power Conducted Output
(dBm)
(dBm) Low Mid High 5745 5785 5825 11.36 11.82 11.85 13.52 13.71 13.72 Test mode: IEEE 802.11n HT 40 mode / 5755 ~ 5795MHz Channel Frequency
(MHz) Chain 1 Chain 2 Total Maximum Output Power Output Power Conducted Output
(dBm)
(dBm) Low High 5755 5795 9.98 10.56 13.02 12.86 Remark:
1. Total Output Power (w) = Chain 1 (10^(Output Power /10)/1000) + Chain 2 (10^(Output Power /10)/1000)) 2. The maximum antenna gain is 7.87dBi; therefore the reduction due to antenna gain is 1.87dB, so the limit is 28.13dBm. Mode 3 Test mode: IEEE 802.11n HT 20 mode / 5745 ~ 5825MHz Channel Frequency
(MHz) Chain 0 Chain 2 Total Maximum Output Power Output Power Conducted Output
(dBm)
(dBm) Low Mid High 5745 5785 5825 11.77 11.67 11.83 12.14 12.33 12.39 Test mode: IEEE 802.11n HT 40 mode / 5755 ~ 5795MHz Channel Frequency
(MHz) Chain 0 Chain 2 Total Maximum Output Power Output Power Conducted Output
(dBm)
(dBm) Low High 5755 5795 11.84 10.69 12.80 12.04 Remark:
1. Total Output Power (w) = Chain 0 (10^(Output Power /10)/1000) + Chain 2 (10^(Output Power /10)/1000)) 2. The maximum antenna gain is 7.82dBi; therefore the reduction due to antenna gain is 1.82dB, so the limit is 28.18dBm. Page 40 Rev.00 Power
(dBm) 15.58 15.88
*15.89 Power
(dBm) 14.77
*14.87 Power
(dBm) 14.97 15.02
*15.13 Power
(dBm)
*15.36 14.43 Limit
(dBm) 28.13 28.13 28.13 Limit
(dBm) 28.13 28.13 Limit
(dBm) 28.18 28.18 28.18 Limit
(dBm) 28.18 28.18 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 7.3 BAND EDGES MEASUREMENT LIMIT According to 15.247(d), in any 100 kHz bandwidth outside the frequency bands in which the spread spectrum intentional radiator in operating, the radio frequency power that is produced by the intentional radiator shall be at least 20 dB below that in the 100 kHz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiated measurement, provided the transmitter demonstrates compliance with the peak conducted power limits. In addition, radiated emissions which fall in the restricted bands, as defined in 15.205(a), must also comply with the radiated emission limits specified in 15.209(a) (see Section 15.205(c)). Test Configuration For Radiated 1.5m For Conducted EUT Spectrum Analyzer Page 41 Rev.00 Spectrum analyzer Horn antenna 3m 4m 1m Turntable EUT 0.8m Antenna tower Pre-amp Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 TEST PROCEDURE 1. The EUT is placed on a turntable, which is 1.5m above the ground plane. 2. The turntable shall be rotated for 360 degrees to determine the position of maximum emission level. 3. EUT is set 3m away from the receiving antenna, which is varied from 1m to 4m to find out the highest emission. 4. Set the spectrum analyzer in the following setting in order to capture the lower and upper band-edges of the emission:
(a) PEAK: RBW=VBW=1MHz / Sweep=AUTO
(b) AVERAGE: RBW=1MHz, if duty cycle98%, VBW=10Hz. if duty cycle<98% VBW=1/T. IEEE 802.11a mode: = 95%, VBW=510Hz IEEE 802.11n HT 20 MHz mode: = 92%, VBW=1.1KHz IEEE 802.11n HT 40 MHz mode: = 85%, VBW=2.2KHz 5. Repeat the procedures until all the PEAK and AVERAGE versus POLARIZATION are measured. For Conducted Conducted RF measurements of the transmitter output were made to confirm that the EUT antenna port conducted emissions meet the specified limit and to identify any spurious signals that require further investigation or measurements on the radiated emissions site. The transmitter output is connected to the spectrum analyzer. The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 100 kHz. TEST RESULTS Refer to attach spectrum analyzer data chart. Page 42 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Band Edges (IEEE 802.11a mode / CH 5825 MHz) Polarity: Vertical No. Frequency Reading Correct Result Limit Margin Height Degree Remark 1 2
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 5850.050 57.19 5850.050 40.97 6.74 6.74 63.93 74.00
-10.07 100 193 peak 47.71 54.00
-6.29 100 193 AVG Page 43 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Polarity: Horizontal No. Frequency Reading Correct Result Limit Margin Height Degree Remark 1 2
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 5850.000 65.06 5850.000 46.45 6.74 6.74 71.80 74.00
-2.20 100 164 peak 53.19 54.00
-0.81 100 164 AVG Page 44 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Mode 1 Band Edges (IEEE 802.11n HT 20 MHz mode / CH 5825 MHz) Polarity: Vertical No. Frequency Reading Correct Result Limit Margin Height Degree Remark 1 2
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 5850.900 65.39 5850.900 38.72 6.74 6.74 72.13 74.00
-1.87 100 45.46 54.00
-8.54 100 6 6 peak AVG Page 45 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Polarity: Horizontal No. Frequency Reading Correct Result Limit Margin Height Degree Remark
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 5850.050 63.37 5850.050 43.58 6.74 6.74 70.11 74.00
-3.89 100 296 peak 50.32 54.00
-3.68 100 296 AVG 1 2 Page 46 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Band Edges (IEEE 802.11n HT 40 MHz mode / CH 5795 MHz) Polarity: Vertical No. Frequency Reading Correct Result Limit Margin Height Degree Remark 1 2
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 5851.750 55.11 5851.750 40.22 6.75 6.75 61.86 74.00
-12.14 100 181 peak 46.97 54.00
-7.03 100 181 AVG Page 47 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Polarity: Horizontal No. Frequency Reading Correct Result Limit Margin Height Degree Remark
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 5852.050 60.19 5852.050 42.81 6.75 6.75 66.94 74.00
-7.06 100 122 peak 49.56 54.00
-4.44 100 122 AVG 1 2 Page 48 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Mode 2 Band Edges (IEEE 802.11n HT 20 MHz mode / CH 5825 MHz) Polarity: Vertical No. Frequency Reading Correct Result Limit Margin Height Degree Remark 1 2
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 5850.350 64.33 5850.350 43.67 6.74 6.74 71.07 74.00
-2.93 100 160 peak 50.41 54.00
-3.59 100 160 AVG Page 49 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Polarity: Horizontal No. Frequency Reading Correct Result Limit Margin Height Degree Remark 1 2
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 5850.350 64.25 5850.350 43.94 6.74 6.74 70.99 74.00
-3.01 100 314 peak 50.68 54.00
-3.32 100 314 AVG Page 50 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Band Edges (IEEE 802.11n HT 40 MHz mode / CH 5795 MHz) Polarity: Vertical No. Frequency Reading Correct Result Limit Margin Height Degree Remark 1 2
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 5851.100 52.76 5851.100 39.60 6.75 6.75 59.51 74.00
-14.49 100 263 peak 46.35 54.00
-7.65 100 263 AVG Page 51 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Polarity: Horizontal No. Frequency Reading Correct Result Limit Margin Height Degree Remark
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 5853.600 55.38 5853.600 40.03 6.76 6.76 62.14 74.00
-11.86 100 170 peak 46.79 54.00
-7.21 100 170 AVG 1 2 Page 52 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Mode 3 Band Edges (IEEE 802.11n HT 20 MHz mode / CH 5825 MHz) Polarity: Vertical No. Frequency Reading Correct Result Limit Margin Height Degree Remark 1 2
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 5851.500 63.64 5851.500 42.91 6.75 6.75 70.39 74.00
-3.61 100 186 peak 49.66 54.00
-4.34 100 186 AVG Page 53 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Polarity: Horizontal No. Frequency Reading Correct Result Limit Margin Height Degree Remark 1 2
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 5850.200 62.55 5850.200 43.52 6.74 6.74 69.29 74.00
-4.71 100 186 peak 50.26 54.00
-3.74 100 186 AVG Page 54 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Band Edges (IEEE 802.11n HT 40 MHz mode / CH 5795 MHz) Polarity: Vertical No. Frequency Reading Correct Result Limit Margin Height Degree Remark 1 2
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 5851.550 61.75 5851.550 42.55 6.75 6.75 68.50 74.00
-5.50 100 240 peak 49.30 54.00
-4.70 100 240 AVG Page 55 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Polarity: Horizontal No. Frequency Reading Correct Result Limit Margin Height Degree Remark
(MHz)
(dBuV) Factor(dB/m)
(dBuV/m)
(dBuV/m)
(dB)
(cm)
( ) 5850.000 62.33 5850.000 44.95 6.74 6.74 69.07 74.00
-4.93 100 152 peak 51.69 54.00
-2.31 100 152 AVG 1 2 Page 56 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 7.4 PEAK POWER SPECTRAL DENSITY LIMIT According to 15.407(a),
(1) For the band 5.725-5.850 GHz, the peak power spectral density shall not exceed 30dBm in any 1MHz band. If transmitting antennas of directional gain greater than 6dBi are used, both the peak transmit power and the peak power spectral density shall be reduced by the amount in dB that the directional gain of the antenna exceeds 6dBi. Test Configuration EUT Spectrum Analyzer TEST PROCEDURE 1. Place the EUT on the table and set it in transmitting mode. Remove the antenna from the EUT and then connect a low loss RF cable from the antenna port to the spectrum analyzer. 2. Set the spectrum analyzer as RBW = 500kHHz, VBW = 3*RBW, Span = Sweep=
AUTO 3. Record the max. reading. 4. Repeat the above procedure until the measurements for all frequencies are completed TEST RESULTS No non-compliance noted Page 57 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Test Data Test mode: IEEE 802.11a mode/ 5745 ~ 5825MHz Channel Frequency
(MHz) 5745 5785 5825 Low Mid High Mode 1 PPSD
(dBm)
-5.32
-5.12
-4.64 Limit
(dBm) 30 30 30 Margin Result
-35.32
-35.12
-34.64 PASS PASS PASS Test mode: IEEE 802.11n HT 20 mode / 5745 ~ 5825MHz Channel Frequency
(MHz) Low Mid High 5745 5785 5825 Chain 0 PPSD
(dBm) Chain 1 PPSD
(dBm)
-6.07
-6.31
-5.25 0.39 0.41 0.14 PPSD
(dBm) Limit
(dBm) Margin Result 1.27 1.25 1.24 28.06 28.06 28.06
-26.79
-26.81
-26.82 PASS PASS PASS Test mode: IEEE 802.11n HT 40 mode / 5755 ~ 5795MHz Channel Frequency
(MHz) Low High 5755 5795 Chain 0 PPSD
(dBm)
-5.27
-5.41 Chain 1 PPSD
(dBm)
-4.02
-4.33 PPSD
(dBm) Limit
(dBm) Margin Result
-1.59 28.06
-29.65
-1.83 28.06
-29.89 PASS PASS Remark:
1. Total PPSD (dBm) = 10*LOG(10^(Chain 0 PPSD / 10)+10^(Chain 1 PPSD /10)) 2. The maximum antenna gain is 7.94dBi; therefore the reduction due to antenna gain is 1.94dB, so the limit is 28.06dBm. Page 58 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Mode 2 Test mode: IEEE 802.11n HT 20 mode / 5745 ~ 5825MHz Channel Frequency
(MHz) Low Mid High 5745 5785 5825 Chain 1 PPSD
(dBm) Chain 2 PPSD
(dBm)
-5.87
-4.18
-4.97
-4.69
-1.22
-0.97 PPSD
(dBm) Limit
(dBm) Margin Result
-2.23 28.13
-30.36 0.56 0.49 28.13 28.13
-27.57
-27.64 PASS PASS PASS Test mode: IEEE 802.11n HT 40 mode / 5755 ~ 5795MHz Channel Frequency
(MHz) Low High 5755 5795 Chain 1 PPSD
(dBm)
-9.56
-9.14 Chain 2 PPSD
(dBm)
-5.86
-5.91 PPSD
(dBm) Limit
(dBm) Margin Result
-4.32 28.13
-32.45
-4.22 28.13
-32.35 PASS PASS Remark:
1. Total PPSD (dBm) = 10*LOG(10^(Chain 1 PPSD / 10)+10^(Chain 2 PPSD /10)) 2. The maximum antenna gain is 7.87dBi; therefore the reduction due to antenna gain is 1.87dB, so the limit is 28.13dBm. Mode 3 Test mode: IEEE 802.11n HT 20 mode / 5745 ~ 5825MHz Channel Frequency
(MHz) Low Mid High 5745 5785 5825 Chain 0 PPSD
(dBm) Chain 2 PPSD
(dBm)
-9.28
-8.79
-6.88
-2.81
-2.61
-1.48 PPSD
(dBm) Limit
(dBm) Margin Result
-1.93 28.18
-30.11
-1.67 28.18
-29.85
-0.38 28.18
-28.56 PASS PASS PASS Test mode: IEEE 802.11n HT 40 mode / 5755 ~ 5795MHz Channel Frequency
(MHz) Low High 5755 5795 Chain 0 PPSD
(dBm)
-7.83
-9.16 Chain 2 PPSD
(dBm)
-0.70
-1.49 PPSD
(dBm) Limit
(dBm) Margin Result 0.07 28.18
-28.11
-0.80 28.18
-28.98 PASS PASS Remark:
1. Total PPSD (dBm) = 10*LOG(10^(Chain 0 PPSD / 10)+10^(Chain 2PPSD /10)) 2. The maximum antenna gain is 7.82dBi; therefore the reduction due to antenna gain is 1.82dB, so the limit is 28.18dBm. Page 59 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Test Plot IEEE 802.11a mode / 5745 ~ 5825MHz CH Low CH Mid Page 60 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 CH High Page 61 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Mode 1 IEEE 802.11n HT 20 mode / 5745 ~ 5825MHz / Chain 0 CH Low CH Mid Page 62 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 CH High Page 63 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 IEEE 802.11n HT 20 mode / 5745 ~ 5825MHz / Chain 1 CH Low CH Mid Page 64 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 CH High Page 65 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 IEEE 802.11n HT 40 mode / 5755 ~ 5795MHz / Chain 0 CH Low CH High Page 66 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 IEEE 802.11n HT 40 mode / 5755 ~ 5795MHz / Chain 1 CH Low CH High Page 67 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Mode 2 IEEE 802.11n HT 20 mode / 5745 ~ 5825MHz / Chain 1 CH Low CH Mid Page 68 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 CH High Page 69 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 IEEE 802.11n HT 20 mode / 5745 ~ 5825MHz / Chain 2 CH Low CH Mid Page 70 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 CH High Page 71 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 IEEE 802.11n HT 40 mode / 5755 ~ 5795MHz / Chain 1 CH Low CH High Page 72 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 IEEE 802.11n HT 40 mode / 5755 ~ 5795MHz / Chain 2 CH Low CH High Page 73 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Mode 3 IEEE 802.11n HT 20 mode / 5745 ~ 5825MHz / Chain 0 CH Low CH Mid Page 74 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 CH High Page 75 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 IEEE 802.11n HT 20 mode / 5745 ~ 5825MHz / Chain 2 CH Low CH Mid Page 76 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 CH High Page 77 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 IEEE 802.11n HT 40 mode / 5755 ~ 5795MHz / Chain 0 CH Low CH High Page 78 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 IEEE 802.11n HT 40 mode / 5755 ~ 5795MHz / Chain 2 CH Low CH High Page 79 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 7.5 RADIATED UNDESIRABLE EMISSION 1. According to 15.209(a), except as provided elsewhere in this Subpart, the emissions from an intentional radiator shall not exceed the field strength levels specified in the following table:
Frequency
(MHz) 0.009 - 0.490 0.490 - 1.705 1.705 30.0 30-88 88-216 216-960 Above 960 Field Strength Measurement Distance
(V/m) 2400/F(kHz) 24000/F(kHz) 30 100 150 200 500
(m) 300 30 30 3 3 3 3 Remark: Except as provided in paragraph (g), fundamental emissions from intentional radiators operating under this Section shall not be located in the frequency bands 54-72 MHz, 76-88 MHz, 174-216 MHz or 470-806 MHz. However, operation within these frequency bands is permitted under other sections of this Part, e.g., Sections 15.231 and 15.241. 2. In the emission table above, the tighter limit applies at the band edges. Frequency
(MHz) 0.009 - 0.490 0.490 - 1.705 1.705 30.0 30-88 88-216 216-960 Above 960 Field Strength
(V/m at 3-meter) Field Strength
(dBV/m at 3-meter) 2400/F(kHz) +80 20LOG((2400/F(kHz))+80) 24000/F(kHz) +40 20LOG((24000/F(kHz))+40) 30 100 150 200 500 69.54 40 43.5 46 54 Page 80 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Test Configuration 9kHz ~ 30MHz 30MHz ~ 1GHz Page 81 Rev.00 Spectrum / Receiver 3m 1m Turntable EUT 0.8m Loop antenna Reference ground plane Spectrum analyzer 3m 4m 1m Turntable EUT 0.8m Antenna tower Reference ground plane Bi-log antenna Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Above 1 GHz 1.5m Page 82 Rev.00 Spectrum analyzer Horn antenna 3m 4m 1m Turntable EUT 0.8m Antenna tower Pre-amp Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 TEST PROCEDURE 1. The EUT is placed on a turntable, which is 1.5m above ground plane. 2. The turntable shall be rotated for 360 degrees to determine the position of maximum emission level. 3. EUT is set 3m away from the receiving antenna, which is varied from 1m to 4m to find out the highest emissions. 4. Maximum procedure was performed on the six highest emissions to ensure EUT compliance. 5. And also, each emission was to be maximized by changing the polarization of receiving antenna both horizontal and vertical. 6. Set the spectrum analyzer in the following setting as:
Below 1GHz:
RBW=100kHz / VBW=300kHz / Sweep=AUTO Above 1GHz:
(a) PEAK: RBW=VBW=1MHz / Sweep=AUTO
(b) AVERAGE: RBW=1MHz, if duty cycle98%, VBW=10Hz. if duty cycle<98% VBW=1/T. IEEE 802.11a mode: = 95%, VBW=510Hz IEEE 802.11n HT 20 MHz mode: = 92%, VBW=1.1KHz IEEE 802.11n HT 40 MHz mode: = 85%, VBW=2.2KHz 7. Repeat above procedures until the measurements for all frequencies are complete. Page 83 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 TEST RESULTS Below 1 GHz Operation Mode: Normal Link Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Frequency
(MHz) Reading
(dBuV) Correcti on Factor
(dB/m) 228.8500 53.94
-18.83 256.3333 48.07
-17.94 419.6167 47.34
-13.49 539.2500 42.98
-11.18 597.4500 39.26
-10.53 767.2000 38.75
-7.71 228.8500 58.81
-18.83 259.5667 55.16
-17.71 419.6167 44.02
-13.49 618.4667 41.60
-10.07 689.6000 38.37
-8.90 768.8167 Remark:
43.23
-7.69 Tested by: Jason Lu Polarity:
Ver. / Hor. Result
(dBuV/m) Limit 3m
(dBuV/m) Margin
(dB) Detector Mode
(PK/QP) Ant.Pol.
(H/V) 35.11 30.13 33.85 31.80 28.73 31.04 39.98 37.45 30.53 31.53 29.47 35.54 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00 46.00
-10.89
-15.87
-12.15
-14.20
-17.27
-14.96
-6.02
-8.55
-15.47
-14.47
-16.53
-10.46 Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak V V V V V V H H H H H H 1. Measuring frequencies from 30 MHz to the 1GHz. 2. Radiated emissions measured in frequency range from 30 MHz to 1000MHz were made with an instrument using peak/quasi-peak detector mode. 3. Quasi-peak test would be performed if the peak result were greater than the quasi-peak limit or as required by the applicant. 4. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 5. Margin (dB) = Remark result (dBuV/m) Quasi-peak limit (dBuV/m). Page 84 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Above 1 GHz Operation Mode:
Tx / IEEE 802.11a mode / 5745 ~
5825MHz / CH Low Temperature:
27C Humidity:
53% RH Test Date: July 12, 2015 Tested by: Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) 3191.000 53.03 11500.000 34.86
-1.65 16.78 51.38 51.64 74.00 74.00 Margin
(dB)
-22.62
-22.36 Remark peak peak N/A Ant.Pol.
(H/V) V V 3828.000 50.05 0.49 50.54 74.00
-23.46 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 85 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Operation Mode:
Tx / IEEE 802.11a mode / 5745 ~
5825MHz / CH Mid Temperature:
27C Humidity:
53% RH Test Date: July 12, 2015 Tested by: Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) 3107.000 52.39 11570.000 34.61
-1.85 16.84 50.54 51.45 74.00 74.00 Margin
(dB)
-23.46
-22.55 Remark peak peak N/A Ant.Pol.
(H/V) V V 3198.000 52.09
-1.63 50.46 74.00
-23.54 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 86 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Operation Mode:
Tx / IEEE 802.11a mode / 5745 ~ 5825MHz
/ CH High Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 3926.000 50.13 0.91 51.04 74.00
-22.96 peak V N/A 3884.000 51.45 0.73 52.18 74.00
-21.82 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 87 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 For Mode 1 Operation Mode:
Tx / IEEE 802.11n HT 20 mode / 5745 ~
5825MHz / CH Low Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 4290.000 48.94 2.33 51.27 74.00
-22.73 peak V N/A 3275.000 52.16
-1.45 50.71 74.00
-23.29 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 88 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Operation Mode:
Tx / IEEE 802.11n HT 20 mode / 5745 ~
5825MHz / CH Mid Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) 3205.000 52.11 11560.000 35.89
-1.62 16.83 50.49 52.72 74.00 74.00 Margin
(dB)
-23.51
-21.28 Remark peak peak N/A Ant.Pol.
(H/V) V V 3310.000 51.69
-1.37 50.32 74.00
-23.68 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 89 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Operation Mode:
Tx / IEEE 802.11n HT 20 mode / 5745 ~
5825MHz / CH High Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 3296.000 51.47
-1.40 50.07 74.00
-23.93 peak V N/A 3548.000 51.01
-0.70 50.31 74.00
-23.69 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 90 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Operation Mode:
Tx / IEEE 802.11n HT 40 mode / 5755 ~
5795MHz / CH Low Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 2386.000 54.18
-3.81 50.37 74.00
-23.63 peak V N/A 4451.000 49.00 2.93 51.93 74.00
-22.07 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 91 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Operation Mode:
Tx / IEEE 802.11n HT 40 mode / 5755 ~
5795MHz / CH High Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 4003.000 49.46 1.24 50.70 74.00
-23.30 peak V N/A 3394.000 52.03
-1.16 50.87 74.00
-23.13 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 92 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 For Mode 2 Operation Mode:
Tx / IEEE 802.11n HT 20 mode / 5745 ~
5825MHz / CH Low Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 3191.000 52.46
-1.65 50.81 74.00
-23.19 peak V N/A 3345.000 53.03
-1.28 51.75 74.00
-22.25 peak N/A Remark:
V H 1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 93 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Operation Mode:
Tx / IEEE 802.11n HT 20 mode / 5745 ~
5825MHz / CH Mid Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 2393.000 53.98
-3.75 50.23 74.00
-23.77 peak V N/A 4164.000 49.41 1.85 51.26 74.00
-22.74 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 94 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Operation Mode:
Tx / IEEE 802.11n HT 20 mode / 5745 ~
5825MHz / CH High Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 3254.000 51.72
-1.50 50.22 74.00
-23.78 peak V N/A 3891.000 50.36 0.76 51.12 74.00
-22.88 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 95 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Operation Mode:
Tx / IEEE 802.11n HT 40 mode / 5755 ~
5795MHz / CH Low Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 3289.000 51.77
-1.42 50.35 74.00
-23.65 peak V N/A 3303.000 52.02
-1.38 50.64 74.00
-23.36 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 96 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Operation Mode:
Tx / IEEE 802.11n HT 40 mode / 5755 ~
5795MHz / CH High Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 3310.000 51.61
-1.37 50.24 74.00
-23.76 peak V N/A 3191.000 51.96
-1.65 50.31 74.00
-23.69 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 97 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 For Mode 3 Operation Mode:
Tx / IEEE 802.11n HT 20 mode / 5745 ~
5825MHz / CH Low Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 2673.000 53.65
-2.77 50.88 74.00
-23.12 peak V N/A 3121.000 52.59
-1.82 50.77 74.00
-23.23 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 98 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Operation Mode:
Tx / IEEE 802.11n HT 20 mode / 5745 ~
5825MHz / CH Mid Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 2393.000 55.39
-3.75 51.64 74.00
-22.36 peak V N/A 3310.000 51.66
-1.37 50.29 74.00
-23.71 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 99 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Operation Mode:
Tx / IEEE 802.11n HT 20 mode / 5745 ~
5825MHz / CH High Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 2386.000 54.51
-3.81 50.70 74.00
-23.30 peak V N/A 3205.000 51.94
-1.62 50.32 74.00
-23.68 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 100 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Operation Mode:
Tx / IEEE 802.11n HT 40 mode / 5755 ~
5795MHz / CH Low Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 3268.000 51.61
-1.47 50.14 74.00
-23.86 peak V N/A 3219.000 52.01
-1.58 50.43 74.00
-23.57 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 101 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Operation Mode:
Tx / IEEE 802.11n HT 40 mode / 5755 ~
5795MHz / CH High Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(dBuV) Correction
(dB/m) Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 3198.000 52.62
-1.63 50.99 74.00
-23.01 peak V N/A 3331.000 51.25
-1.32 49.93 74.00
-24.07 peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 102 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 7.6 POWERLINE CONDUCTED EMISSIONS LIMIT According to 15.207(a), except as shown in paragraphs (b) and (c) of this section, for an intentional radiator that is designed to be connected to the public utility (AC) power line, the radio frequency voltage that is conducted back onto the AC power line on any frequency or frequencies within the band 150 kHz to 30 MHz shall not exceed the limits in the following table, as measured using a 50 H/50 ohms line impedance stabilization network (LISN). Compliance with the provisions of this paragraph shall be based on the measurement of the radio frequency voltage between each power line and ground at the power terminal. The lower limit applies at the boundary between the frequency ranges. Frequency Range
(MHz) 0.15 to 0.50 0.50 to 5 Limits
(dBV) Quasi-peak 66 to 56*
56 60
* Decreases with the logarithm of the frequency. 5 to 30 TEST CONFIGURATION Average 56 to 46*
46 50 See test photographs attached in Appendix 1 for the actual connections between EUT and support equipment. TEST PROCEDURE 1. The EUT was placed on a table, which is 0.8m above ground plane. 2. Maximum procedure was performed on the six highest emissions to ensure EUT compliance. 3. Repeat above procedures until all frequency measured were complete. TEST RESULTS The initial step in collecting conducted data is a spectrum analyzer peak scan of the measurement range. Significant peaks are then marked as shown on the following data page, and these signals are then quasi-peaked. Page 103 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Test Data Operation Mode:
Normal Link Test Date:
July 14, 2015 Temperature:
24C Tested by:
Frank Liao Humidity:
60% RH Line L1 No. Frequency Reading Factor Result
(dBuV) 58.13 47.22 46.52 24.85 31.88 13.23 37.58 25.27 30.42 27.18 40.77 26.04
(MHz) 0.1500 0.1500 0.1620 0.1620 0.2380 0.2380 2.3900 2.3900 12.0580 12.0580 26.9340 26.9340
(dBuV) 47.87 36.96 36.29 14.62 21.76 3.11 27.55 15.24 20.21 16.97 30.21 15.48
(dB) 10.26 10.26 10.23 10.23 10.12 10.12 10.03 10.03 10.21 10.21 10.56 10.56 1 2 3 4 5 6 7 8 9 10 11 12 Limit Margin Detector
(dBuV) 65.99 55.99 65.36 55.36 62.16 52.16 56.00 46.00 60.00 50.00 60.00 50.00
(dB)
-7.86
-8.77
-18.84
-30.51
-30.28
-38.93
-18.42
-20.73
-29.58
-22.82
-19.23
-23.96 QP AVG QP AVG QP AVG QP AVG QP AVG QP AVG Remark:
1. Measuring frequencies from 0.15 MHz to 30MHz. 2. The emissions measured in frequency range from 0.15 MHz to 30MHz were made with an instrument using Quasi-peak detector and average detector. 3. The IF bandwidth of SPA between 0.15MHz to 30MHz was 10kHz; the IF bandwidth of Test Receiver between 0.15MHz to 30MHz was 9kHz. 4. L1 = Line One (Live Line) / L2 = Line Two (Neutral Line) Page 104 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Operation Mode:
Normal Link Test Date:
July 14, 2015 Temperature:
24C Tested by:
Frank Liao Humidity:
60% RH Line L2 No. Frequency Reading Factor Result
(dBuV) 57.53 42.68 52.25 46.83 40.56 28.11 42.54 28.05 42.30 24.27 42.92 26.46
(MHz) 0.1500 0.1500 0.1580 0.1580 0.2220 0.2220 0.3140 0.3140 2.3580 2.3900 26.9340 27.3780
(dBuV) 47.44 32.59 42.18 36.76 30.56 18.11 32.60 18.11 32.36 14.33 32.42 15.96
(dB) 10.09 10.09 10.07 10.07 10.00 10.00 9.94 9.94 9.94 9.94 10.50 10.50 1 2 3 4 5 6 7 8 9 10 11 12 Limit Margin Detector
(dBuV) 65.99 55.99 65.56 55.56 62.74 52.74 59.86 49.86 56.00 46.00 60.00 50.00
(dB)
-8.46
-13.31
-13.31
-8.73
-22.18
-24.63
-17.32
-21.81
-13.70
-21.73
-17.08
-23.54 QP AVG QP AVG QP AVG QP AVG QP AVG QP AVG Remark:
1. Measuring frequencies from 0.15 MHz to 30MHz. 2. The emissions measured in frequency range from 0.15 MHz to 30MHz were made with an instrument using Quasi-peak detector and average detector. The IF bandwidth of SPA between 0.15MHz to 30MHz was 10kHz; the IF 3. bandwidth of Test Receiver between 0.15MHz to 30MHz was 9kHz. L1 = Line One (Live Line) / L2 = Line Two (Neutral Line) 4. Page 105 Rev.00
1 2 3 4 | Test Setup Photos I | Test Setup Photos | 987.74 KiB | November 17 2015 |
Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 APPENDIX I PHOTOGRAPHS OF TEST SETUP Conducted Emission Setup Photo Page 113 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Radiated Emission Set up Photos Page 114 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP2 Report No.: T150622D07-RP2 Powerline Conducted Emissions Setup Photos Page 115
1 2 3 4 | Test Setup Photos II | Test Setup Photos | 944.52 KiB | November 17 2015 |
Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 APPENDIX I PHOTOGRAPHS OF TEST SETUP Conducted Emission Set Up Photo Page 106 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Radiated Emission Set up Photos Page 107 Rev.00 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP3 Report No.: T150622D07-RP3 Powerline Conducted Emissions Setup Photos Page 108 Rev.00
1 2 3 4 | Test Report | Test Report | 4.32 MiB | November 17 2015 |
Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 FCC 47 CFR PART 15 SUBPART C
(Class II Permissive Change) TEST REPORT For Wireless-N Selectable-Band Access Point with PoE Model: WAP321 Trade Name: Cisco Issued to Sercomm Corporation 8F, No. 3-1, YuanQu St., NanKang, Taipei 115, Taiwan, R.O.C. Issued by Compliance Certification Services Inc. No.11, Wu-Gong 6th Rd., Wugu Industrial Park, New Taipei City 248, Taiwan (R.O.C.) http://www.ccsrf.com service@ccsrf.com Issued Date: July 20, 2015 Note: This report shall not be reproduced except in full, without the written approval of Compliance Certification Services Inc. This document may be altered or revised by Compliance Certification Services Inc. personnel only, and shall be noted in the revision section of the document. Page 1 / 170 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Rev. Issue Date Revision History Revisions Initial Issue Effect Page ALL ALL Revised By Angel Cheng Doris Chu November 24, 2011 00 01 July 20, 2015 Leverage FCC 5G new standard Rev. (01) Rev. (01) 1. Applicant updates standard. 2. Other information, please refer to the T111028201 and this test report. Page 2 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 TABLE OF CONTENTS 1. TEST RESULT CERTIFICATION ........................................................................................... 4 2. EUT DESCRIPTION ................................................................................................................ 5 3. TEST METHODOLOGY .......................................................................................................... 6 3.1 EUT CONFIGURATION ..................................................................................................... 6 3.2 EUT EXERCISE ................................................................................................................. 6 3.3 GENERAL TEST PROCEDURES ...................................................................................... 6 3.4 FCC PART 15.205 RESTRICTED BANDS OF OPERATIONS .......................................... 7 3.5 DESCRIPTION OF TEST MODES ..................................................................................... 8 4. INSTRUMENT CALIBRATION ............................................................................................... 9 4.1 MEASURING INSTRUMENT CALIBRATION .................................................................... 9 4.2 MEASUREMENT EQUIPMENT USED .............................................................................. 9 4.3 MEASUREMENT UNCERTAINTY ................................................................................... 10 5. FACILITIES AND ACCREDITATIONS ................................................................................. 11 5.1 FACILITIES ...................................................................................................................... 11 5.2 EQUIPMENT .................................................................................................................... 11 5.3 TABLE OF ACCREDITATIONS AND LISTINGS .............................................................. 12 6. SETUP OF EQUIPMENT UNDER TEST .............................................................................. 13 6.1 SETUP CONFIGURATION OF EUT ................................................................................ 13 6.2 SUPPORT EQUIPMENT .................................................................................................. 13 7. FCC PART 15.247 REQUIREMENTS .................................................................................. 14 7.1 6DB BANDWIDTH ............................................................................................................ 14 7.2 PEAK POWER ................................................................................................................. 41 7.3 AVERAGE POWER ......................................................................................................... 44 7.4 BAND EDGES MEASUREMENT ..................................................................................... 47 7.5 PEAK POWER SPECTRAL DENSITY ............................................................................. 81 7.6 SPURIOUS EMISSIONS ................................................................................................ 109 7.7 RADIATED EMISSIONS ................................................................................................ 136 7.8 POWERLINE CONDUCTED EMISSIONS ..................................................................... 165 APPENDIX I PHOTOGRAPHS OF TEST SETUP .................................................................... 168 Page 3 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 1. TEST RESULT CERTIFICATION Applicant:
Sercomm Corporation 8F, No. 3-1, YuanQu St., NanKang, Taipei 115, Taiwan, R.O.C. Equipment Under Test: Wireless-N Selectable-Band Access Point with PoE Trade Name:
Model:
Cisco WAP321 Date of Test:
July 12 ~ 14, 2015 APPLICABLE STANDARDS STANDARD TEST RESULT FCC 47 CFR Part 15 Subpart C No non-compliance noted We hereby certify that:
The above equipment was tested by Compliance Certification Services Inc. The test data, data evaluation, test procedures, and equipment configurations shown in this report were made in accordance with the procedures given in ANSI C63.10: 2009 and the energy emitted by the sample EUT tested as described in this report is in compliance with the requirements of FCC Rules Part 15.207, 15.209, 15.247. The test results of this report relate only to the tested sample EUT identified in this report. Approved by:
Reviewed by:
Miller Lee Manager Compliance Certification Services Inc. Angel Cheng Section Manager Compliance Certification Services Inc. Page 4 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 2. EUT DESCRIPTION Product Wireless-N Selectable-Band Access Point with PoE Trade Name Cisco Model Number WAP321 Model Discrepancy N/A Received Date June 22, 2015 1. Sunny/ SYS1381-121-W2C I/P: 100-240V~, 0.5A MAX, 50-60Hz O/P: 12V, 1.0A 2. LEADER / MU12-G120100-A2 I/P: 100-240V~, 50-60Hz, 0.5A O/P: 12V, 1A 3. Sunny/ SYS1381-1212-W2 I/P: 100-240V~, 0.5A MAX, 50-60Hz O/P: 12V, 1.0A 4. LEADER / MU12-G120100-A1 I/P: 100-240V~, 50-60Hz, 0.5A O/P: 12V, 1A IEEE 802.11b/g/ IEEE 802.11n HT 20 MHz: 2412 ~ 2462 MHz IEEE 802.11n HT 40 MHz: 2422 ~ 2452 MHz IEEE 802.11b mode: 21.76 dBm IEEE 802.11g mode: 24.15 dBm Mode 1:
IEEE 802.11n HT 20 MHz mode: 25.04 dBm IEEE 802.11n HT 40 MHz mode: 25.57dBm Mode 2:
IEEE 802.11n HT 20 MHz mode: 24.91 dBm IEEE 802.11n HT 40 MHz mode: 25.50 dBm Mode 3:
IEEE 802.11n HT 20 MHz mode: 25.10dBm IEEE 802.11n HT 40 MHz mode: 25.36dBm IEEE 802.11b mode: DSSS (1, 2, 5.5 and 11 Mbps) IEEE 802.11g mode: OFDM (6, 9, 12, 18, 24, 36, 48 and 54 Mbps) IEEE 802.11n HT 20 MHz mode: OFDM (6.5, 13, 19.5, 26, 39, 52, 58.5, 65.0Mbps) IEEE 802.11n HT 40 MHz mode: OFDM (13.5, 27, 40.5, 54, 81, 108, 121.5, Power Adapter Frequency Range Transmit Power Modulation Technique Number of Channels Antenna Specification 135Mbps) IEEE 802.11b/g mode: 11 Channels IEEE 802.11n HT 20 MHz mode: 11 Channels IEEE 802.11n HT 40 MHz mode: 7 Channels Antenna 1 (chain 0): 4.32 dBi Antenna 2 (chain 1): 4.67 dBi Antenna 3 (chain 2): 3.96 dBi Antenna Designation PIFA Antenna Remark:
1. 2. The sample selected for test was production product and was provided by manufacturer. This submittal(s) (test report) is intended for FCC ID: P27-WAP321 filing to comply with Section 15.207, 15.209 and 15.247 of the FCC Part 15, Subpart C Rules. 3. The conducted test is using largest mimo gain to test, because it Stringent than the limit value. Page 5 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 3. TEST METHODOLOGY The tests documented in this report were performed in accordance with ANSI C63.10:
2009 and FCC CFR 47 Part 15.207, 15.209, 15.247, KDB558074. 3.1 EUT CONFIGURATION The EUT configuration for testing is installed on RF field strength measurement to meet the Commissions requirement and operating in a manner that intends to maximize its emission characteristics in a continuous normal application. 3.2 EUT EXERCISE The EUT was operated in the engineering mode to fix the TX frequency that was for the purpose of the measurements. According to its specifications, the EUT must comply with the requirements of the Section 15.207, 15.209 and 15.247 under the FCC Rules Part 15 Subpart C. 3.3 GENERAL TEST PROCEDURES Conducted Emissions The EUT is placed on the turntable, which is 0.8 m above ground plane. According to the requirements in ANSI C63.10: 2009 Conducted emissions from the EUT measured in the frequency range between 0.15 MHz and 30MHz using CISPR Quasi-peak and average detector modes. Radiated Emissions The EUT is placed on a turn table, which is 1.5 m above ground plane. The turntable shall rotate 360 degrees to determine the position of maximum emission level. EUT is set 3m away from the receiving antenna, which varied from 1m to 4m to find out the highest emission. And also, each emission was to be maximized by changing the polarization of receiving antenna both horizontal and vertical. In order to find out the maximum emissions, exploratory radiated emission measurements were made according to the requirements in ANSI C63.10: 2009. Page 6 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 3.4 FCC PART 15.205 RESTRICTED BANDS OF OPERATIONS
(a) Except as shown in paragraph (d) of this section, only spurious emissions are permitted in any of the frequency bands listed below:
MHz MHz MHz GHz 0.090 - 0.110 10.495 - 0.505 2.1735 - 2.1905 4.125 - 4.128 4.17725 - 4.17775 4.20725 - 4.20775 6.215 - 6.218 6.26775 - 6.26825 6.31175 - 6.31225 8.291 - 8.294 8.362 - 8.366 8.37625 - 8.38675 8.41425 - 8.41475 16.42 - 16.423 16.69475 - 16.69525 16.80425 - 16.80475 25.5 - 25.67 37.5 - 38.25 73 - 74.6 74.8 - 75.2 108 - 121.94 123 - 138 149.9 - 150.05 156.52475 -
156.52525 156.7 - 156.9 12.29 - 12.293 162.0125 - 167.17 12.51975 - 12.52025 12.57675 - 12.57725 13.36 - 13.41 167.72 - 173.2 240 - 285 322 - 335.4 399.9 - 410 608 - 614 960 - 1240 1300 - 1427 1435 - 1626.5 1645.5 - 1646.5 1660 - 1710 1718.8 - 1722.2 2200 - 2300 2310 - 2390 2483.5 - 2500 2655 - 2900 3260 - 3267 3332 - 3339 3345.8 - 3358 3600 - 4400 4.5 - 5.15 5.35 - 5.46 7.25 - 7.75 8.025 - 8.5 9.0 - 9.2 9.3 - 9.5 10.6 - 12.7 13.25 - 13.4 14.47 - 14.5 15.35 - 16.2 17.7 - 21.4 22.01 - 23.12 23.6 - 24.0 31.2 - 31.8 36.43 - 36.5
(2) 1 Until February 1, 1999, this restricted band shall be 0.490-0.510 MHz. 2 Above 38.6
(b) Except as provided in paragraphs (d) and (e), the field strength of emissions appearing within these frequency bands shall not exceed the limits shown in Section 15.209. At frequencies equal to or less than 1000 MHz, compliance with the limits in Section 15.209 shall be demonstrated using measurement instrumentation employing a CISPR quasi-peak detector. Above 1000 MHz, compliance with the emission limits in Section 15.209 shall be demonstrated based on the average value of the measured emissions. The provisions in Section 15.35 apply to these measurements. Page 7 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 3.5 DESCRIPTION OF TEST MODES The EUT (model: WAP321) comes with four types of power adapter (SYS1381-121-W2C, MU12-G120100-A2, SYS1381-1212-W2, MU12-G120100-A1) for sale. After the preliminary test, the EUT with power adapter (Model: MU12-G120100-A1) was found to emit the worst emissions and therefore had been tested under operating condition. The EUT comes with three modes: mode 1 & mode 2 & mode 3. Mode 1 antenna 1 (chain 0), antenna 2 (chain 1) Mode 2 antenna 2 (chain 1), antenna 3 (chain 2) Mode 3 antenna 1 (chain 0), antenna 3 (chain 2) The EUT is a 2x2 configuration spatial MIMO (2Tx & 2Rx) without beam forming function that Operate in double TX chains and double RX chains. The 2x2 configuration is implemented with Two outside TX & RX chains (Chain 0 and Chain 1)(Chain 1 and Chain 2)(Chain 0 and Chain 2) Software used to control the EUT for staying in continuous transmitting and receiving mode was programmed. After verification, all tests carried out are with the worst-case test modes as shown below except radiated spurious emission below 1GHz and power line conducted emissions below 30MHz, which worst case was in normal link mode and receiving radiated spurious emission above 1GHz, which worst case was in CH Mid mode only. IEEE 802.11b mode:
During the preliminary test, Chain 0, Chain 1, Chain 2 with IEEE 802.11b mode were pre-tested and found that Chain 1 emits the highest output power. Channel Low (2412MHz), Channel Mid (2442MHz) and Channel High (2462MHz) with chain 1 at 1Mbps data rate were chosen for full testing IEEE 802.11g mode:
During the preliminary test, Chain 0, Chain 1, Chain 2 with IEEE 802.11g mode were pre-tested and found that Chain 1 emits the highest output power. Channel Low (2412MHz), Channel Mid (2442MHz) and Channel High (2462MHz) with chain 1 at 6Mbps data rate were chosen for full testing. IEEE 802.11n HT 20 MHz mode:
During the preliminary test, MCS0 : Chain 0,Chain 1,Chain 2 and MCS8 : Chain 0+Chain 1,Chain 1 +Chain 2,Chain 0 + chain 2 with IEEE 802.11n HT 20 MHz were pre-tested and found that Chain 0+Chain 1,Chain 1 +Chain 2,Chain 0 + chain 2 emits the highest output power. Channel Low (2412MHz), Channel Mid (2442MHz) and Channel High (2462MHz) with chain 0
+ chain 1 and chain 1 + chain 2 and chain 0 + chain 2 at MCS 8 data rate were chosen for full testing. IEEE 802.11n HT 40 MHz mode:
During the preliminary test, MCS0 : Chain 0,Chain 1,Chain 2 and MCS8 : Chain 0+Chain 1,Chain 1 +Chain 2,Chain 0 + chain 2 with IEEE 802.11n HT 40 MHz were pre-tested and found that Chain 0+Chain 1,Chain 1 +Chain 2,Chain 0 + chain 2 emits the highest output power. Channel Low (2422MHz), Channel Mid (2442MHz) and Channel High (2452MHz) with chain 0
+ chain 1 and chain 1 + chain 2 and chain 0 + chain 2 at MCS 8 data rate were chosen for full Testing. The field strength of spurious emission was measured in the following position: EUT stand-up position (Z axis), lie-down position (X, Y axis). The worst emission was found in lie-down position (Y axis) and the worst case was recorded. Page 8 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 4. INSTRUMENT CALIBRATION 4.1 MEASURING INSTRUMENT CALIBRATION The measuring equipment, which was utilized in performing the tests documented herein, has been calibrated in accordance with the manufacturer's recommendations for utilizing calibration equipment, which is traceable to recognized national standards. 4.2 MEASUREMENT EQUIPMENT USED Equipment Used for Emissions Measurement Remark: Each piece of equipment is scheduled for calibration once a year and Loop Antenna is scheduled for calibration once three years. Name of Equipment Manufacturer Spectrum Analyzer Agilent Model E4446A Serial Number US42510252 Calibration Due 11/23/2015 Conducted Emissions Test Site Thermostatic/Hrgrosatic Chamber AC Power Source DC Power Supply Power Meter Power Sensor TAICHY MHG-150LF 930619 10/07/2015 EXTECH ABM Anritsu Anritsu 6205 8301HD ML2495A MA2411A 1140845 D011531 1012009 0917072 101073 N.C.R N.C.R 06/07/2016 06/08/2016 07/08/2016 Spectrum Analyzer ROHDE&SCHWARZ FSV40 Wugu 966 Chamber A Name of Equipment Manufacturer Spectrum Analyzer EMI Test Receiver Agilent R&S Model E4446A ESCI JB3 3117 3116 CC-T-1F CC-A-1F CC-C-1F 1652-3000 EMC 01265 AMF-6F-260400-
40-8P Serial Number US42510268 100064 A030105 00055165 26370 N/A N/A N/A 1490939 4035 985646 Sunol Sciences EMCO EMCO CCS CCS CCS MITEQ EMC MITEQ Huber+Suhner Huber+Suhner 102 102 29212/2 29406/2 EZ-EMC (CCS-3A1RE) Conducted Emission room # B Calibration Due 09/18/2015 06/04/2016 08/19/2015 01/26/2016 12/25/2015 N.C.R N.C.R N.C.R 08/09/2016 06/04/2016 12/25/2015 12/25/2015 12/25/2015 R&S FCC Model ESCI FCC-LISN-50-32-2 SCHWARZBECK NSLK 8127 MIYAZAKI R&S 5D-FB ESH3-Z2 WISEWIND 201A Serial Number Calibration Due 100234 08009 8127382 BNC B3 100374 1006 06/09/2016 03/23/2016 12/30/2015 08/04/2015 01/05/2016 05/19/2016 Bilog Antenna Horn Antenna Horn Antenna Turn Table Antenna Tower Controller Pre-Amplifier Pre-Amplifier Pre-Amplifier Coaxial Cable Coaxial Cable Test S/W TEST RECEIVER LISN (EUT) LISN BNC CABLE Pulse Limiter THERMO-
HYGRO METER Test S/W Name of Equipment Manufacturer CCS-3A1-CE Page 9 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 4.3 MEASUREMENT UNCERTAINTY PARAMETER UNCERTAINTY Powerline Conducted Emission 3M Semi Anechoic Chamber / 30M~200M 3M Semi Anechoic Chamber / 200M~1000M 3M Semi Anechoic Chamber / 1G~8G 3M Semi Anechoic Chamber / 8G~18G 3M Semi Anechoic Chamber / 18G~26G 3M Semi Anechoic Chamber / 26G~40G
+/-1.1089
+/- 4.0138
+/- 3.9483
+/- 2.5975
+/- 2.6112
+/- 2.7389
+/- 2.9683 Remark: This uncertainty represents an expanded uncertainty expressed at approximately the 95%
confidence level using a coverage factor of k=2. Page 10 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 5. FACILITIES AND ACCREDITATIONS 5.1 FACILITIES All measurement facilities used to collect the measurement data are located at No.199, Chunghsen Road, Hsintien City, Taipei Hsien, Taiwan, R.O.C. Tel: 886-2-2217-0894 / Fax: 886-2-2217-1029 Remark: The powerline conducted emissions test items was tested at Compliance Certification Services Inc.
(Sindian Lab.) The test equipments were listed in page 10 and the test data, please refer page 166-167. No.11, Wu-Gong 6th Rd., Wugu Industrial Park, New Taipei City 248, Taiwan (R.O.C.) Tel: 886-2-2299-9720 / Fax: 886-2-2298-4045 No.81-1, Lane 210, Bade 2nd Rd., Lujhu Township, Taoyuan County 33841, TAIWAN, R.O.C. Tel: 886-3-324-0332 / Fax: 886-3-324-5235 The sites are constructed in conformance with the requirements of ANSI C63.7, ANSI C63.10: 2009 and CISPR Publication 22. 5.2 EQUIPMENT Radiated emissions are measured with one or more of the following types of linearly polarized antennas: tuned dipole, biconical, log periodic, bi-log, ridged waveguide, horn and/or Loop. Spectrum analyzers with pre-selectors and quasi-peak detectors are used to perform radiated measurements. Conducted emissions are measured with Line Impedance Stabilization Networks and EMI Test Receivers. Calibrated wideband preamplifiers, coaxial cables, and coaxial attenuators are also used for making measurements. All receiving equipment conforms to CISPR Publication 16-1, Radio Interference Measuring Apparatus and Measurement Methods. Page 11 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 5.3 TABLE OF ACCREDITATIONS AND LISTINGS Country Agency Scope of Accreditation Logo USA FCC 3M Semi Anechoic Chamber (FCC MRA: TW1039) to perform FCC Part 15 measurements FCC MRA: TW1039 Taiwan TAF LP0002, RTTE01, FCC Method-47 CFR Part 15 Subpart C, D, E, RSS-247, RSS-310 IDA TS SRD, AS/NZS 4268, AS/NZS 4771, TS 12.1 & 12,2, ETSI EN 300 440-1, ETSI EN 300 440-2, ETSI EN 300 328, ETSI EN 300 220-1, ETSI EN 300 220-2, ETSI EN 301 893, ETSI EN 301 489-1/3/7/17 FCC OET Bulletin 65 + Supplement C, EN 50360, EN 50361, EN 50371, RSS 102, EN 50383, EN 50385, EN 50392, IEC 62209, CNS 14958-1, CNS 14959 FCC Method 47 CFR Part 15 Subpart B IEC / EN 61000-3-2, IEC / EN 61000-3-3, IEC / EN 61000-4-2/3/4/5/6/8/11 Canada Industry Canada 3M Semi Anechoic Chamber (IC 2324G-1 / IC 2324G-2) to perform IC 2324G-1 IC 2324G-2
* No part of this report may be used to claim or imply product endorsement by A2LA or any agency of the US Government. Page 12 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 6. SETUP OF EQUIPMENT UNDER TEST 6.1 SETUP CONFIGURATION OF EUT See test photographs attached in Appendix I for the actual connections between EUT and support equipment. Data Cable Power Cord 6.2 SUPPORT EQUIPMENT No. Equipment Model No. Serial No. FCC ID 1 2 3 4 5 6 7 USB Mouse USB Keyboard Printer M-UAE96 F93A90A5BU90L20 KU-0316 BC3870FVBWH079 Deskjet D2360 TH73C1492F Monitor 933SN+
CM19HVKSB00002 Host PC T3500 8X36VBX Modem AL-56ERM 0MERM04A0224 Server PC xw4400 N/A FCC DOC FCC DOC FCC DOC FCC DOC FCC DOC FCC DOC FCC DOC Brand Name HP HP HP Shielded, 1.8m Shielded, 1.8m Shielded, 1.8m SAMSUNG DELL Shielded, 1.8m with two cores Unshielded, 1.5m GALILEO Shielded, 1.0m HP N/A 8. Notebook PC dv6-1332TX CNF9491GM9 PD9112BNHU HP N/A N/A N/A Unshielded, 1.8m Unshielded, 1.8m Unshielded, 1.8m Unshielded, 1.8m Unshielded, 1.8m AC I/P:
Unshielded, 1.8m DC O/P:
Unshielded, 1.8m with a core Remark:
1. All the equipment/cables were placed in the worst-case configuration to maximize the emission during the test. 2. Grounding was established in accordance with the manufacturers requirements and conditions for the intended use. Page 13 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 7. FCC PART 15.247 REQUIREMENTS 7.1 6dB BANDWIDTH LIMIT According to 15.247(a)(2), systems using digital modulation techniques may operate in the 2400 - 2483.5 MHz bands. The minimum 6dB bandwidth shall be at least 500 kHz. Test Configuration EUT Spectrum Analyzer TEST PROCEDURE The transmitter output is connected to the spectrum analyzer. Set the RBW=100kHz the emission bandwidth, VBW 3 x RBW, Detector = Peak, Trace mode = max hold, Sweep = auto couple. Measure the maximum width of the emission that is constrained by the frequencies associated with the two amplitude points (upper and lower) that are attenuated by 6dB relative to the maximum level measured in the fundamental emission. TEST RESULTS No non-compliance noted Page 14 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Test Data Test mode: IEEE 802.11b mode Channel Low Mid High Frequency 6dB Bandwidth
(MHz) 2412 2442 2462
(MHz) 8.25 8.25 8.25 Test mode: IEEE 802.11g mode Channel Low Mid High Frequency 6dB Bandwidth
(MHz) 2412 2442 2462
(MHz) 16.5 16.5 16.5 Test mode: IEEE 802.11n HT 20 MHz mode / Chain 0 Channel Low Mid High Frequency 6dB Bandwidth
(MHz) 2412 2442 2462
(MHz) 17.6666 17.75 17.75 Test mode: IEEE 802.11n HT 20 MHz mode / Chain 1 Channel Low Mid High Frequency 6dB Bandwidth
(MHz) 2412 2442 2462
(MHz) 17.75 17.75 17.75 Test mode: IEEE 802.11n HT 20 MHz mode / Chain 2 Channel Low Mid High Frequency 6dB Bandwidth
(MHz) 2412 2442 2462
(MHz) 17.75 17.6666 17.75 Limit
(kHz)
>500 Limit
(kHz)
>500 Limit
(kHz)
>500 Limit
(kHz)
>500 Limit
(kHz)
>500 Result PASS PASS PASS Result PASS PASS PASS Result PASS PASS PASS Result PASS PASS PASS Result PASS PASS PASS Page 15 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Test mode: IEEE 802.11n HT 40 MHz mode / Chain 0 Channel Low Mid High Frequency 6dB Bandwidth
(MHz) 2422 2442 2452
(MHz) 35.9167 35.75 35.75 Test mode: IEEE 802.11n HT 40 MHz mode / Chain 1 Channel Low Mid High Frequency 6dB Bandwidth
(MHz) 2422 2442 2452
(MHz) 36.4167 36.4167 36.4167 Test mode: IEEE 802.11n HT 40 MHz mode / Chain 2 Channel Low Mid High Frequency 6dB Bandwidth
(MHz) 2422 2442 2452
(MHz) 36 36.1667 36 Limit
(kHz)
>500 Limit
(kHz)
>500 Limit
(kHz)
>500 Result PASS PASS PASS Result PASS PASS PASS Result PASS PASS PASS Page 16 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Test Plot IEEE 802.11b mode 6dB Bandwidth (CH Low) No. 1 2 3 No. 1 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2407.8333 2412.5000 2416.0833 0.83 9.59 1.47 3.59 3.59 3.59
-2.76 6.00
-2.12 mk3-mk1 Frequency(MHz) 8.25 Level(dB) 0.64 Page 17 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 6dB Bandwidth (CH Mid) No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2442.8333 2442.5000 2446.0833 0.91 9.65 1.43 3.65 3.65 3.65
-2.74 6.00
-2.22 No. 1 mk3-mk1 Frequency(MHz) 8.25 Level(dB) 0.52 Page 18 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 6dB Bandwidth (CH High) Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2457.8333 2461.5000 2466.0833 0.76 9.47 1.37 3.47 3.47 3.47
-2.71 6.00
-2.10 mk3-mk1 Frequency(MHz) 8.25 Level(dB) 0.61 No. 1 2 3 No. 1 Page 19 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 IEEE 802.11g mode 6dB Bandwidth (CH Low) No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2403.7500 2414.5000 2420.2500
-4.81 1.77
-5.17
-4.23
-4.23
-4.23
-0.58 6.00
-0.94 No. 1 mk3-mk1 Frequency(MHz) 16.5 Level(dB)
-0.36 Page 20 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 6dB Bandwidth (CH Mid) No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2433.7500 2447.0000 2450.2500
-2.62 4.07
-3.08
-1.93
-1.93
-1.93
-0.69 6.00
-1.15 No. 1 mk3-mk1 Frequency(MHz) 16.5 Level(dB)
-0.46 Page 21 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 6dB Bandwidth (CH High) No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2453.7500 2464.5000 2470.2500
-4.76 1.93
-5.01
-4.07
-4.07
-4.07
-0.69 6.00
-0.94 No. 1 mk3-mk1 Frequency(MHz) 16.5 Level(dB)
-0.25 Page 22 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 IEEE 802.11n HT 20 MHz mode / Chain 0 6dB Bandwidth (CH Low) No. 1 2 3 No. 1 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2403.1667 2414.5000 2420.8333
-9.58
-3.49
-11.02
-9.49
-9.49
-9.49
-0.09 6.00
-1.53 mk3-mk1 Frequency(MHz) 17.6666 Level(dB)
-1.44 Page 23 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 6dB Bandwidth (CH Mid) No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2433.0833 2444.5000 2450.8333
-5.29 2.07
-5.49
-3.93
-3.93
-3.93
-1.36 6.00
-1.56 No. 1 mk3-mk1 Frequency(MHz) 17.75 Level(dB)
-0.2 Page 24 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 6dB Bandwidth (CH High) No. 1 2 3 No. 1 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2453.0833 2464.5000 2470.8333
-10.90
-3.52
-11.11
-9.52
-9.52
-9.52
-1.38 6.00
-1.59 mk3-mk1 Frequency(MHz) 17.75 Level(dB)
-0.21 Page 25 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 IEEE 802.11n HT 20 MHz mode / Chain 1 6dB Bandwidth (CH Low) No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2403.0833 2417.0000 2420.8333
-12.36
-4.03
-11.34
-10.03
-10.03
-10.03
-2.33 6.00
-1.31 No. 1 mk3-mk1 Frequency(MHz) 17.75 Level(dB) 1.02 Page 26 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 6dB Bandwidth (CH Mid) No. 1 2 3 No. 1 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2433.0833 2447.0000 2450.8333
-7.00 1.47
-5.97
-4.53
-4.53
-4.53
-2.47 6.00
-1.44 mk3-mk1 Frequency(MHz) 17.75 Level(dB) 1.03 Page 27 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 6dB Bandwidth (CH High) No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2453.0833 2467.0000 2470.8333
-12.69
-4.25
-11.68
-10.25
-10.25
-10.25
-2.44 6.00
-1.43 No. 1 mk3-mk1 Frequency(MHz) 17.75 Level(dB) 1.01 Page 28 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 IEEE 802.11n HT 20 MHz mode / Chain 2 6dB Bandwidth (CH Low) No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2403.0833 2417.0000 2420.8333
-12.25
-3.42
-11.05
-9.42
-9.42
-9.42
-2.83 6.00
-1.63 No. 1 mk3-mk1 Frequency(MHz) 17.75 Level(dB) 1.2 Page 29 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 6dB Bandwidth (CH Mid) No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2433.1667 2447.0000 2450.8333
-4.12 2.03
-5.68
-3.97
-3.97
-3.97
-0.15 6.00
-1.71 No. 1 mk3-mk1 Frequency(MHz) 17.6666 Level(dB)
-1.56 Page 30 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 6dB Bandwidth (CH High) No. 1 2 3 No. 1 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2453.0833 2467.0000 2470.8333
-12.08
-3.43
-10.84
-9.43
-9.43
-9.43
-2.65 6.00
-1.41 mk3-mk1 Frequency(MHz) 17.75 Level(dB) 1.24 Page 31 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 IEEE 802.11n HT 40 MHz mode / Chain 0 6dB Bandwidth (CH Low) No. 1 2 3 No. 1 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2404.0000 2427.0000 2439.9167
-12.99
-5.34
-11.62
-11.34
-11.34
-11.34
-1.65 6.00
-0.28 mk3-mk1 Frequency(MHz) 35.9167 Level(dB) 1.37 Page 32 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 6dB Bandwidth (CH Mid) No. 1 2 3 No. 1 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2424.1667 2445.7500 2459.9167
-6.72
-0.39
-6.65
-6.39
-6.39
-6.39
-0.33 6.00
-0.26 mk3-mk1 Frequency(MHz) 35.75 Level(dB) 0.07 Page 33 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 6dB Bandwidth (CH High) No. 1 2 3 No. 1 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2434.1667 2457.0000 2469.9167
-11.30
-5.03
-11.90
-11.03
-11.03
-11.03
-0.27 6.00
-0.87 mk3-mk1 Frequency(MHz) 35.75 Level(dB)
-0.6 Page 34 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 IEEE 802.11n HT 40 MHz mode / Chain 1 6dB Bandwidth (CH Low) No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2403.7500 2417.0000 2440.1667
-15.05
-5.52
-12.02
-11.52
-11.52
-11.52
-3.53 6.00
-0.50 No. 1 mk3-mk1 Frequency(MHz) 36.4167 Level(dB) 3.03 Page 35 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 6dB Bandwidth (CH Mid) No. 1 2 3 No. 1 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2423.7500 2442.0000 2460.1667
-9.57
-0.12
-7.00
-6.12
-6.12
-6.12
-3.45 6.00
-0.88 mk3-mk1 Frequency(MHz) 36.4167 Level(dB) 2.57 Page 36 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 6dB Bandwidth (CH High) No. 1 2 3 No. 1 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2433.7500 2447.0000 2470.1667
-14.68
-5.25
-12.18
-11.25
-11.25
-11.25
-3.43 6.00
-0.93 mk3-mk1 Frequency(MHz) 36.4167 Level(dB) 2.5 Page 37 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 IEEE 802.11n HT 40 MHz mode / Chain 2 6dB Bandwidth (CH Low) No. 1 2 3 No. 1 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2404.0000 2425.7500 2440.0000
-11.75
-5.14
-11.95
-11.14
-11.14
-11.14
-0.61 6.00
-0.81 mk3-mk1 Frequency(MHz) 36 Level(dB)
-0.2 Page 38 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 6dB Bandwidth (CH Mid) No. 1 2 3 No. 1 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2424.0000 2436.9167 2460.1667
-6.97
-0.32
-6.68
-6.32
-6.32
-6.32
-0.65 6.00
-0.36 mk3-mk1 Frequency(MHz) 36.1667 Level(dB) 0.29 Page 39 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 6dB Bandwidth (CH High) No. 1 2 3 No. 1 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2434.0000 2457.0000 2470.0000
-12.62
-5.86
-12.33
-11.86
-11.86
-11.86
-0.76 6.00
-0.47 mk3-mk1 Frequency(MHz) 36 Level(dB) 0.29 Page 40 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 7.2 PEAK POWER LIMIT The maximum peak output power of the intentional radiator shall not exceed the following:
1. According to 15.247(b)(3), for systems using digital modulation in the bands of 2400-2483.5 MHz: 1 Watt. 2. According to 15.247(b)(4), the conducted output power limit specified in paragraph (b) of this section is based on the use of antennas with directional gains that do not exceed 6 dBi. Except as shown in paragraph (c) of this section, if transmitting antennas of directional gain greater than 6 dBi are used, the conducted output power from the intentional radiator shall be reduced below the stated values in paragraphs (b)(1), (b)(2), and (b)(3) of this section, as appropriate, by the amount in dB that the directional gain of the antenna exceeds 6 dBi. Test Configuration EUT Power Meter Power Sensor TEST PROCEDURE The transmitter output is connected to the Power Meter. The Power Meter is set to the peak power detection. TEST RESULTS No non-compliance noted. Page 41 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Test Data Test mode: IEEE 802.11b mode Channel Low Mid High Frequency Output Power Output Power
(MHz) 2412 2442 2462
(dBm) 21.7
*21.76 21.71
(W) 0.1479 0.1500 0.1483 Test mode: IEEE 802.11g mode Channel Low Mid High For Mode 1 Frequency Output Power Output Power
(MHz) 2412 2442 2462
(dBm) 22.56
*24.15 22.49
(W) 0.1803 0.2600 0.1774 Test mode: IEEE 802.11n HT 20 MHz mode Limit
(dBm) 30 Limit
(dBm) 30 Result PASS PASS PASS Result PASS PASS PASS Chain 0 Chain 1 Total Output Output Power Output Power Channel Frequency
(MHz) Low Mid 2412
(dBm) 17.38 2442 22.18 High 2462 17.16
(dBm) 16.88 21.87 16.38 Power
(dBm) 20.15 Output Power
(W) Limit
(dBm) 0.1035 Result PASS
*25.04 0.3190 28.49 PASS 19.80 0.0955 PASS Test mode: IEEE 802.11n HT 40 MHz mode Chain 0 Chain 1 Total Output Channel Frequency
(MHz) Low Mid High 2422 2442 2452 Output Power Output Power
(dBm) 18.14 22.47 17.51
(dBm) 18.48 22.64 18.39 Power
(dBm) 21.32 Output Power
(W) Limit
(dBm) 0.1356 Result PASS
*25.57 0.3603 28.49 PASS 20.98 0.1254 PASS Remark:
1. Total Output Power (w) = Chain 0 (10^(Output Power /10)/1000)+ Chain 1 (10^(Output Power /10)/1000) 2. The maximum antenna gain is 7.51dBi; therefore the reduction due to antenna gain is 1.51dBi, so the limit is 28.49dBm. Page 42 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 For Mode 2 Test mode: IEEE 802.11n HT 20 MHz mode Chain 1 Chain 2 Total Output Output Power Output Power Channel Frequency
(MHz) Low Mid 2412
(dBm) 16.72 2442 21.74 High 2462 17.12
(dBm) 17.07 22.05 16.96 Power
(dBm) 19.91 Output Power
(W) Limit
(dBm) 0.0979 Result PASS
*24.91 0.3096 28.67 PASS 20.05 0.1012 PASS Test mode: IEEE 802.11n HT 40 MHz mode Chain 1 Chain 2 Total Output Channel Frequency
(MHz) Low Mid High 2422 2442 2452 Output Power Output Power
(dBm) 17.24 21.69 17.22
(dBm) 18.95 23.17 18.63 Power
(dBm) 21.19 Output Power
(W) Limit
(dBm) 0.1315 Result PASS
*25.50 0.3551 28.67 PASS 20.99 0.1257 PASS Remark:
1. Total Output Power (w) = Chain 1 (10^(Output Power /10)/1000)+ Chain 2 (10^(Output Power /10)/1000) 2. The maximum antenna gain is 7.33dBi; therefore the reduction due to antenna gain is 1.33dBi, so the limit is 28.67dBm. For Mode 3 Test mode: IEEE 802.11n HT 20 MHz mode Chain 0 Chain 2 Total Output Output Power Output Power Channel Frequency
(MHz) Low Mid 2412
(dBm) 17.25 2442 22.01 High 2462 17.41
(dBm) 16.88 22.17 17.18 Power
(dBm) 20.08 Output Power
(W) Limit
(dBm) 0.1018 Result PASS
*25.10 0.3237 28.85 PASS 20.31 0.1073 PASS Test mode: IEEE 802.11n HT 40 MHz mode Chain 0 Chain 2 Total Output Channel Frequency
(MHz) Low Mid High 2422 2442 2452 Output Power Output Power
(dBm) 17.62 22.01 17.64
(dBm) 18.86 22.67 19.17 Power
(dBm) 21.29 Output Power
(W) Limit
(dBm) 0.1347 Result PASS
*25.36 0.3438 28.85 PASS 21.48 0.1407 PASS Remark:
1. Total Output Power (w) = Chain 0 (10^(Output Power /10)/1000)+ Chain 2 (10^(Output Power /10)/1000) 2. The maximum antenna gain is 7.15dBi; therefore the reduction due to antenna gain is 1.15dBi, so the limit is 28.85dBm. Page 43 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 7.3 AVERAGE POWER LIMIT None; for reporting purposes only. Test Configuration EUT Power Meter Power Sensor TEST PROCEDURE The transmitter output is connected to the Power Meter. The Power Meter is set to the avg power detection. Page 44 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 TEST RESULTS No non-compliance noted Test Data Test mode: IEEE 802.11b mode Channel Low Mid Frequency Output Power
(MHz) 2412
(dBm) 17.89 2442 17.71 High 2462 17.86 Test mode: IEEE 802.11g mode Channel Low Mid Frequency Output Power
(MHz) 2412
(dBm) 13.01 2442 15.17 High 2462 12.86 For Mode 1 Test mode: IEEE 802.11n HT 20 MHz mode Chain 0 Chain 1 Total Output Power Output Power Output Power Channel Frequency
(MHz) Low Mid 2412
(dBm) 7.78 2442 12.83 High 2462 7.37
(dBm) 6.59 12.11 6.54
(dBm) 10.24 15.50 9.99 Test mode: IEEE 802.11n HT 40 MHz mode Channel Frequency
(MHz) Low Mid High 2422 2442 2452 Chain 0 Chain 1 Total Output Power Output Power Output Power
(dBm) 7.71 12.46 7.53
(dBm) 7.26 12.49 7.39
(dBm) 10.50 15.49 10.47 Remark: Total Output Power (w) = Chain 0 (10^(Output Power /10)/1000) + Chain 1 (10^(Output Power
/10)/1000) Page 45 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 For Mode 2 Test mode: IEEE 802.11n HT 20 MHz mode Chain 1 Chain 2 Total Output Power Output Power Output Power Channel Frequency
(MHz) Low Mid 2412
(dBm) 7.07 2442 12.64 High 2462 7.2
(dBm) 6.95 12.38 6.99
(dBm) 10.02 15.52 10.11 Test mode: IEEE 802.11n HT 40 MHz mode Channel Frequency
(MHz) Low Mid High 2422 2442 2452 Chain 1 Chain 2 Total Output Power Output Power Output Power
(dBm) 7.12 11.98 7.05
(dBm) 7.78 12.66 7.58
(dBm) 10.47 15.34 10.33 Remark: Total Output Power (w) = Chain 1 (10^(Output Power /10)/1000) + Chain 2 (10^(Output Power
/10)/1000) For Mode 3 Test mode: IEEE 802.11n HT 20 MHz mode Chain 0 Chain 2 Total Output Power Output Power Output Power Channel Frequency
(MHz) Low Mid 2412
(dBm) 7.49 2442 12.82 High 2462 7.51
(dBm) 6.88 12.22 7.51
(dBm) 10.21 15.54 10.52 Test mode: IEEE 802.11n HT 40 MHz mode Channel Frequency
(MHz) Low Mid High 2422 2442 2452 Chain 0 Chain 2 Total Output Power Output Power Output Power
(dBm) 7.45 12.19 7.28
(dBm) 7.64 12.69 7.46
(dBm) 10.56 15.46 10.38 Remark: Total Output Power (w) = Chain 0 (10^(Output Power /10)/1000) + Chain 2 (10^(Output Power
/10)/1000) Page 46 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 7.4 BAND EDGES MEASUREMENT LIMIT According to 15.247(d), in any 100 kHz bandwidth outside the frequency bands in which the spread spectrum intentional radiator in operating, the radio frequency power that is produced by the intentional radiator shall be at least 20 dB below that in the 100 kHz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiated measurement, provided the transmitter demonstrates compliance with the peak conducted power limits. In addition, radiated emissions which fall in the restricted bands, as defined in 15.205(a), must also comply with the radiated emission limits specified in 15.209(a) (see Section 15.205(c)). Test Configuration For Radiated 1.5m For Conducted EUT Spectrum Analyzer Page 47 Spectrum analyzer Horn antenna 3m 4m 1m Turntable EUT 0.8m Antenna tower Pre-amp Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 TEST PROCEDURE 1. The EUT is placed on a turntable, which is 1.5m above the ground plane. 2. The turntable shall be rotated for 360 degrees to determine the position of maximum emission level. 3. EUT is set 3m away from the receiving antenna, which is varied from 1m to 4m to find out the highest emission. 4. Set the spectrum analyzer in the following setting in order to capture the lower and upper band-edges of the emission:
(a) PEAK: RBW=VBW=1MHz / Sweep=AUTO
(b) AVERAGE: RBW=1MHz / VBW=10Hz / Sweep=AUTO 5. Repeat the procedures until all the PEAK and AVERAGE versus POLARIZATION are measured. For Conducted Conducted RF measurements of the transmitter output were made to confirm that the EUT antenna port conducted emissions meet the specified limit and to identify any spurious signals that require further investigation or measurements on the radiated emissions site. The transmitter output is connected to the spectrum analyzer. The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 100 kHz. TEST RESULTS Refer to attach spectrum analyzer data chart. Page 48 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Band Edges (IEEE 802.11b mode / CH Low) Detector mode: Peak Polarity: Vertical Detector mode: Average Polarity: Vertical Page 49 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Detector mode: Peak Polarity: Horizontal Detector mode: Average Polarity: Horizontal Page 50 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Band Edges (IEEE 802.11b mode / CH High) Detector mode: Peak Polarity: Vertical Detector mode: Average Polarity: Vertical Page 51 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Detector mode: Peak Polarity: Horizontal Detector mode: Average Polarity: Horizontal Page 52 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Band Edges (IEEE 802.11g mode / CH Low) Detector mode: Peak Polarity: Vertical Detector mode: Average Polarity: Vertical Page 53 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Detector mode: Peak Polarity: Horizontal Detector mode: Average Polarity: Horizontal Page 54 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Band Edges (IEEE 802.11g mode / CH High) Detector mode: Peak Polarity: Vertical Detector mode: Average Polarity: Vertical Page 55 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Detector mode: Peak Polarity: Horizontal Detector mode: Average Polarity: Horizontal Page 56 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 For Mode 1 Band Edges (IEEE 802.11n HT 20 MHz mode / CH Low) Detector mode: Peak Polarity: Vertical Detector mode: Average Polarity: Vertical Page 57 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Detector mode: Peak Polarity: Horizontal Detector mode: Average Polarity: Horizontal Page 58 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Band Edges (IEEE 802.11n HT 20 MHz mode / CH High) Detector mode: Peak Polarity: Vertical Detector mode: Average Polarity: Vertical Page 59 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Detector mode: Peak Polarity: Horizontal Detector mode: Average Polarity: Horizontal Page 60 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Band Edges (IEEE 802.11n HT 40 MHz mode / CH Low) Detector mode: Peak Polarity: Vertical Detector mode: Average Polarity: Vertical Page 61 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Detector mode: Peak Polarity: Horizontal Detector mode: Average Polarity: Horizontal Page 62 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Band Edges (IEEE 802.11n HT 40 MHz mode / CH High) Detector mode: Peak Polarity: Vertical Detector mode: Average Polarity: Vertical Page 63 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Detector mode: Peak Polarity: Horizontal Detector mode: Average Polarity: Horizontal Page 64 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 For Mode 2 Band Edges (IEEE 802.11n HT 20 MHz mode / CH Low) Detector mode: Peak Polarity: Vertical Detector mode: Average Polarity: Vertical Page 65 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Detector mode: Peak Polarity: Horizontal Detector mode: Average Polarity: Horizontal Page 66 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Band Edges (IEEE 802.11n HT 20 MHz mode / CH High) Detector mode: Peak Polarity: Vertical Detector mode: Average Polarity: Vertical Page 67 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Detector mode: Peak Polarity: Horizontal Detector mode: Average Polarity: Horizontal Page 68 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Band Edges (IEEE 802.11n HT 40 MHz mode / CH Low) Detector mode: Peak Polarity: Vertical Detector mode: Average Polarity: Vertical Page 69 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Detector mode: Peak Polarity: Horizontal Detector mode: Average Polarity: Horizontal Page 70 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Band Edges (IEEE 802.11n HT 40 MHz mode / CH High) Detector mode: Peak Polarity: Vertical Detector mode: Average Polarity: Vertical Page 71 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Detector mode: Peak Polarity: Horizontal Detector mode: Average Polarity: Horizontal Page 72 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 For Mode 3 Band Edges (IEEE 802.11n HT 20 MHz mode / CH Low) Detector mode: Peak Polarity: Vertical Detector mode: Average Polarity: Vertical Page 73 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Detector mode: Peak Polarity: Horizontal Detector mode: Average Polarity: Horizontal Page 74 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Band Edges (IEEE 802.11n HT 20 MHz mode / CH High) Detector mode: Peak Polarity: Vertical Detector mode: Average Polarity: Vertical Page 75 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Detector mode: Peak Polarity: Horizontal Detector mode: Average Polarity: Horizontal Page 76 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Band Edges (IEEE 802.11n HT 40 MHz mode / CH Low) Detector mode: Peak Polarity: Vertical Detector mode: Average Polarity: Vertical Page 77 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Detector mode: Peak Polarity: Horizontal Detector mode: Average Polarity: Horizontal Page 78 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Band Edges (IEEE 802.11n HT 40 MHz mode / CH High) Detector mode: Peak Polarity: Vertical Detector mode: Average Polarity: Vertical Page 79 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Detector mode: Peak Polarity: Horizontal Detector mode: Average Polarity: Horizontal Page 80 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 7.5 PEAK POWER SPECTRAL DENSITY LIMIT 1. According to 15.247(e), for digitally modulated systems, the power spectral density conducted from the intentional radiator to the antenna shall not be greater than 8 dBm in any 3 kHz band during any time interval of continuous transmission. 2. According to 15.247(f), the digital modulation operation of the hybrid system, with the frequency hopping turned off, shall comply with the power density requirements of paragraph (d) of this section. Test Configuration EUT Spectrum Analyzer TEST PROCEDURE The transmitter output is connected to a spectrum analyzer. Set the RBW = 3 kHz, VBW =10 kHz, span to 1.5 times the DTS bandwidth, Detector = peak, Trace mode = max hold, Sweep =
auto couple. Use the peak marker function to determine the maximum amplitude level within the RBW. TEST RESULTS No non-compliance noted Page 81 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Test Data Test mode: IEEE 802.11b mode Channel Low Mid High Frequency
(MHz) 2412 2442 2462 PPSD
(dBm) Limit
(dBm)
-4.61
-1.16
-4.87 8.00 Test mode: IEEE 802.11g mode Channel Low Mid High Frequency
(MHz) 2412 PPSD
(dBm)
-13.66 Limit
(dBm) 2442
-10.75 8.00 2462
-13.65 Result PASS PASS PASS Result PASS PASS PASS Page 82 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Test mode: IEEE 802.11n HT 20 MHz mode Mode 1 Channel Frequency
(MHz) Chain 0 PPSD
(dBm) Chain 1 PPSD
(dBm) PPSD
(dBm) Limit
(dBm) Result Low Mid High 2412 2442 2462
-17.23
-18.89
-14.97 PASS
-13.92
-14.63
-11.25 6.49 PASS
-16.89
-19.56
-15.01 PASS Remark:
1. Total PPSD (dBm) = 10*LOG(10^(Chain 0 PPSD / 10)+10^(Chain 1 PPSD /10)) 2. The maximum antenna gain is 7.51dBi; therefore the reduction due to antenna gain is 1.51dBi, so the limit is 6.49dBm. Mode 2 Channel Frequency
(MHz) Chain 1 PPSD
(dBm) Chain 2 PPSD
(dBm) PPSD
(dBm) Limit
(dBm) Result Low Mid High 2412 2442 2462
-18.89
-19.40
-16.13 PASS
-14.63
-12.83
-10.63 6.67 PASS
-19.56
-18.81
-16.16 PASS Remark:
1. Total PPSD (dBm) = 10*LOG(10^(Chain 1 PPSD /10)+10^(Chain 2 PPSD /10)) 2. The maximum antenna gain is 7.33dBi; therefore the reduction due to antenna gain is 1.33dBi, so the limit is 6.679dBm. Mode 3 Channel Frequency
(MHz) Chain 0 PPSD
(dBm) Chain 2 PPSD
(dBm) PPSD
(dBm) Limit
(dBm) Result Low Mid High 2412 2442 2462
-17.23
-19.40
-15.17 PASS
-13.92
-12.83
-10.33 6.85 PASS
-16.89
-18.81
-14.73 PASS Remark:
1. Total PPSD (dBm) = 10*LOG(10^(Chain 0 PPSD / 10) +10^(Chain 2 PPSD /10)) 2. The maximum antenna gain is 7.15dBi; therefore the reduction due to antenna gain is 1.15dBi, so the limit is 6.85dBm. Page 83 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Test mode: IEEE 802.11n HT 40 MHz mode Mode 1 Channel Frequency
(MHz) Chain 0 PPSD
(dBm) Chain 1 PPSD
(dBm) PPSD
(dBm) Limit
(dBm) Result Low Mid High 2422 2442 2452
-19.89
-20.95
-17.38 PASS
-15.18
-15.86
-12.50 6.49 PASS
-20.63
-22.26
-18.36 PASS Remark:
1. Total PPSD (dBm) = 10*LOG(10^(Chain 0 PPSD / 10)+10^(Chain 1 PPSD /10)) 2. The maximum antenna gain is 7.51dBi; therefore the reduction due to antenna gain is 1.51dBi, so the limit is 6.49dBm. Mode 2 Channel Frequency
(MHz) Chain 1 PPSD
(dBm) Chain 2 PPSD
(dBm) PPSD
(dBm) Limit
(dBm) Result Low Mid High 2422 2442 2452
-20.95
-20.20
-17.55 PASS
-15.86
-15.43
-12.63 6.67 PASS
-22.26
-21.24
-18.71 PASS Remark:
1. Total PPSD (dBm) = 10*LOG(10^(Chain 1 PPSD /10)+10^(Chain 2 PPSD /10)) 2. The maximum antenna gain is 7.33dBi; therefore the reduction due to antenna gain is 1.33dBi, so the limit is 6.679dBm. Mode 3 Channel Frequency
(MHz) Chain 0 PPSD
(dBm) Chain 2 PPSD
(dBm) PPSD
(dBm) Limit
(dBm) Result Low Mid High 2422 2442 2452
-19.89
-20.20
-17.03 PASS
-15.18
-15.43
-12.29 6.85 PASS
-20.63
-21.24
-17.91 PASS Remark:
1. Total PPSD (dBm) = 10*LOG(10^(Chain 0 PPSD / 10) +10^(Chain 2 PPSD /10)) 2. The maximum antenna gain is 7.15dBi; therefore the reduction due to antenna gain is 1.15dBi, so the limit is 6.85dBm. Page 84 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Test Plot IEEE 802.11b mode PPSD (CH Low) No. 1 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2411.9811
-4.61 8.00
-12.61 Page 85 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 PPSD (CH Mid) No. 1 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2441.9806
-1.16 8.00
-9.16 Page 86 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 PPSD (CH High) No. 1 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2461.9803
-4.87 8.00
-12.87 Page 87 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 IEEE 802.11g mode PPSD (CH Low) No. 1 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2408.5755
-13.66 8.00
-21.66 Page 88 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 PPSD (CH Mid) No. 1 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2442.9399
-10.75 8.00
-18.75 Page 89 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 PPSD (CH High) No. 1 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2457.3035
-13.65 8.00
-21.65 Page 90 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 IEEE 802.11n HT 20 MHz mode / Chain 0 PPSD (CH Low) No. 1 Frequency(MHz) 2406.9520 Level(dBm)
-17.23 Page 91 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 PPSD (CH Mid) No. 1 Frequency(MHz) 2436.7031 Level(dBm)
-13.92 Page 92 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 PPSD (CH High) No. 1 Frequency(MHz) 2456.9512 Level(dBm)
-16.89 Page 93 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 IEEE 802.11n HT 20 MHz mode / Chain 1 PPSD (CH Low) No. 1 Frequency(MHz) 2415.7378 Level(dBm)
-18.89 Page 94 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 PPSD (CH Mid) No. 1 Frequency(MHz) 2444.1519 Level(dBm)
-14.63 Page 95 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 PPSD (CH High) No. 1 Frequency(MHz) 2466.9761 Level(dBm)
-19.56 Page 96 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 IEEE 802.11n HT 20 MHz mode / Chain 2 PPSD (CH Low) No. 1 Frequency(MHz) 2414.1522 Level(dBm)
-19.40 Page 97 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 PPSD (CH Mid) No. 1 Frequency(MHz) 2445.7368 Level(dBm)
-12.83 Page 98 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 PPSD (CH High) No. 1 Frequency(MHz) 2456.9634 Level(dBm)
-18.81 Page 99 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 IEEE 802.11n HT 40 MHz mode / Chain 0 PPSD (CH Low) No. 1 Frequency(MHz) 2419.4961 Level(dBm)
-19.89 Page 100 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 PPSD (CH Mid) No. 1 Frequency(MHz) 2439.4967 Level(dBm)
-15.18 Page 101 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 PPSD (CH High) No. 1 Frequency(MHz) 2455.3836 Level(dBm)
-20.63 Page 102 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 IEEE 802.11n HT 40 MHz mode / Chain 1 PPSD (CH Low) No. 1 Frequency(MHz) 2418.5560 Level(dBm)
-20.95 Page 103 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 PPSD (CH Mid) No. 1 Frequency(MHz) 2438.5551 Level(dBm)
-15.86 Page 104 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 PPSD (CH High) No. 1 Frequency(MHz) 2446.6616 Level(dBm)
-22.26 Page 105 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 IEEE 802.11n HT 40 MHz mode / Chain 2 PPSD (CH Low) No. 1 Frequency(MHz) 2415.7627 Level(dBm)
-20.20 Page 106 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 PPSD (CH Mid) No. 1 Frequency(MHz) 2435.7621 Level(dBm)
-15.43 Page 107 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 PPSD (CH High) No. 1 Frequency(MHz) 2447.6069 Level(dBm)
-21.24 Page 108 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 7.6 SPURIOUS EMISSIONS 7.6.1 Conducted Measurement LIMIT According to 15.247(d), in any 100 kHz bandwidth outside the frequency bands in which the spread spectrum intentional radiator in operating, the radio frequency power that is produced by the intentional radiator shall be at least 20 dB below that in the 100 kHz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiated measurement, provided the transmitter demonstrates compliance with the peak conducted power limits. In addition, radiated emissions which fall in the restricted bands, as defined in 15.205(a), must also comply with the radiated emission limits specified in 15.209(a) (see Section 15.205(c)). Test Configuration EUT Spectrum Analyzer TEST PROCEDURE Conducted RF measurements of the transmitter output were made to confirm that the EUT antenna port conducted emissions meet the specified limit and to identify any spurious signals that require further investigation or measurements on the radiated emissions site. The transmitter output is connected to the spectrum analyzer. The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 100 kHz. Measurements are made over the 30MHz to 26GHz range with the transmitter set to the lowest, middle, and highest channels. TEST RESULTS No non-compliance noted Page 109 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Test Plot IEEE 802.11b mode CH Low No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2235.6833 2402.1500 24425.7500
-53.56 7.95
-50.40
-12.05
-12.05
-12.05
-41.51 20.00
-38.35 Remark: The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 300 kHz. Page 110 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 CH Mid No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2277.3000 2443.7667 24458.9833
-49.05 8.41
-50.35
-11.59
-11.59
-11.59
-37.46 20.00
-38.76 Remark: The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 300 kHz. Page 111 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 CH High No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 2152.4500 2443.7667 2568.6167
-55.96 8.31
-47.38
-11.69
-11.69
-11.69
-44.27 20.00
-35.69 Remark: The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 300 kHz. Page 112 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 IEEE 802.11g mode CH Low No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 362.9333 2402.1500 24458.9833
-60.74 1.26
-49.82
-18.74
-18.74
-18.74
-42.00 20.00
-31.08 Remark: The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 300 kHz. Page 113 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 CH Mid No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 446.1667 2443.7667 24916.7667
-61.17 1.42
-50.47
-18.58
-18.58
-18.58
-42.59 20.00
-31.89 Remark: The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 300 kHz. Page 114 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 CH High No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 779.1000 2485.3833 24958.3833
-61.20
-0.69
-49.92
-20.69
-20.69
-20.69
-40.51 20.00
-29.23 Remark: The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 300 kHz. Page 115 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 IEEE 802.11n HT 20 MHz mode / Chain 0 CH Low No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 1611.4333 2402.1500 23709.8833
-60.54
-3.78
-50.65
-23.78
-23.78
-23.78
-36.76 20.00
-26.87 Remark: The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 300 kHz. Page 116 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 CH Mid No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 903.9500 2443.7667 24958.3833
-60.67 1.79
-49.72
-18.21
-18.21
-18.21
-42.46 20.00
-31.51 Remark: The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 300 kHz. Page 117 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 CH High No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 238.0833 2443.7667 23626.6500
-61.46
-5.29
-49.85
-25.29
-25.29
-25.29
-36.17 20.00
-24.56 Remark: The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 300 kHz. Page 118 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 IEEE 802.11n HT 20 MHz mode / Chain 1 CH Low No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 612.6333 2402.1500 24958.3833
-58.19
-6.72
-50.21
-26.72
-26.72
-26.72
-31.47 20.00
-23.49 Remark: The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 300 kHz. Page 119 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 CH Mid No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 612.6333 2443.7667 24458.9833
-58.06 1.04
-50.12
-18.96
-18.96
-18.96
-39.10 20.00
-31.16 Remark: The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 300 kHz. Page 120 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 CH High No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 612.6333 2443.7667 24334.1333
-58.87
-7.19
-60.13
-27.19
-27.19
-27.19
-31.68 20.00
-32.94 Remark: The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 300 kHz. Page 121 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 IEEE 802.11n HT 20 MHz mode / Chain 2 CH Low No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 196.4667 2402.1500 24958.3833
-61.18
-6.24
-50.42
-26.24
-26.24
-26.24
-34.94 20.00
-24.18 Remark: The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 300 kHz. Page 122 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 CH Mid No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 362.9333 2443.7667 24458.9833
-61.07
-0.97
-50.12
-20.97
-20.97
-20.97
-40.10 20.00
-29.15 Remark: The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 300 kHz. Page 123 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 CH High No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 1444.9667 2485.3833 23543.4167
-60.79
-6.68
-49.98
-26.68
-26.68
-26.68
-34.11 20.00
-23.30 Remark: The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 300 kHz. Page 124 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 IEEE 802.11n HT 20 MHz mode Low Channel Frequency
(MHz) 1611.4333 Chain0
(dBm)
-60.54 23709.8833
-50.65 612.6333 24958.3833 196.4667
---
---
---
Chain1
(dBm) Chain2
(dBm) Total
(dBm) Limit
(dBm) Margin
(dBm)
---
---
-58.19
-50.21
---
---
---
-57.53
-26.72
-30.81
-47.64
-26.72
-20.92
-55.18
-26.72
-28.46
-50.42
-47.20
-26.72
-20.48
---
-61.18
-58.17
-26.72
-31.45 Fundamental limi
-23.78
-26.72
-26.24
---
Mid Channel Frequency
(MHz) 903.95 Chain0
(dBm)
-60.67 24958.3833
-49.72 612.6333 24458.9833 362.9333
---
---
---
Chain1
(dBm) Chain2
(dBm) Total
(dBm) Limit
(dBm) Margin
(dBm)
---
---
-58.06
-50.12
---
---
---
-57.66
-20.97
-36.69
-46.71
-20.97
-25.74
-55.05
-20.97
-34.08
-50.12
-47.11
-20.97
-26.14
---
-61.07
-58.06
-20.97
-37.09 Fundamental limi
-18.21
-18.96
-20.97
---
Frequency
(MHz) 238.0833 23626.65 612.6333 24334.1333 1444.9667 23543.4167 Chain0
(dBm)
-61.46
-49.85
---
---
---
---
High Channel Chain1
(dBm) Chain2
(dBm) Total
(dBm) Limit
(dBm) Margin
(dBm)
---
---
-58.87
-60.13
---
---
---
---
---
---
-58.45
-27.19
-31.26
-46.84
-27.19
-19.65
-55.86
-27.19
-28.67
-57.12
-27.19
-29.93
-60.79
-57.78
-27.19
-30.59
-49.98
-46.97
-27.19
-19.78 Fundamental limi
-25.29
-27.19
-26.68
---
Remark:
1. Total (dBm) = Measure + 10 log(3) dB, Measure=Choose the max chain value Page 125 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 IEEE 802.11n HT 40 MHz mode / Chain 0 CH Low No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 1777.9000 2402.1500 24458.9833
-58.53
-6.00
-60.34
-26.00
-26.00
-26.00
-32.53 20.00
-34.34 Remark: The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 300 kHz. Page 126 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 CH Mid No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 1777.9000 2443.7667 24425.7500
-57.25
-0.64
-50.13
-20.64
-20.64
-20.64
-36.61 20.00
-29.49 Remark: The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 300 kHz. Page 127 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 CH High No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 1777.9000 2443.7667 24167.6667
-58.93
-6.08
-59.77
-26.08
-26.08
-26.08
-32.85 20.00
-33.69 Remark: The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 300 kHz. Page 128 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 IEEE 802.11n HT 40 MHz mode / Chain 1 CH Low No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 612.6333 2402.1500 25000.0000
-58.19
-6.04
-60.81
-26.04
-26.04
-26.04
-32.15 20.00
-34.77 Remark: The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 300 kHz. Page 129 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 CH Mid No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 612.6333 2443.7667 25000.0000
-57.60
-1.04
-50.39
-21.04
-21.04
-21.04
-36.56 20.00
-29.35 Remark: The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 300 kHz. Page 130 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 CH High No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 612.6333 2443.7667 24417.3667
-58.59
-5.47
-59.85
-25.47
-25.47
-25.47
-33.12 20.00
-34.38 Remark: The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 300 kHz. Page 131 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 IEEE 802.11n HT 40 MHz mode / Chain 2 CH Low No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 1777.9000 2443.7667 24458.9833
-59.84
-6.32
-60.66
-26.32
-26.32
-26.32
-33.52 20.00
-34.34 Remark: The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 300 kHz. Page 132 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 CH Mid No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 1777.9000 2443.7667 23626.6500
-59.10
-0.80
-49.83
-20.80
-20.80
-20.80
-38.30 20.00
-29.03 Remark: The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 300 kHz. Page 133 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 CH High No. 1 2 3 Frequency(MHz) Level(dBm) Limit(dBm) Margin(dBm) 1777.9000 2443.7667 24458.9833
-58.56
-5.84
-60.08
-25.84
-25.84
-25.84
-32.72 20.00
-34.24 Remark: The resolution bandwidth is set to 100 kHz. The video bandwidth is set to 300 kHz. Page 134 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 IEEE 802.11n HT 40 MHz mode Low Channel Frequency
(MHz) 1777.9 Chain0
(dBm)
-58.53 24458.9833
-60.34 612.6333 25000 Fundamental limit
---
---
-26 Chain1
(dBm) Chain2
(dBm) Total
(dBm) Limit
(dBm) Margin
(dBm)
---
---
-58.19
-60.81
-26.04
-59.84
-55.52
-26.32
-29.20
-60.66
-57.33
-26.32
-31.01
---
---
-26.32
-55.18
-26.32
-28.86
-57.80
-26.32
-31.48
---
Mid Channel Frequency
(MHz) 1777.9 24425.75 612.6333 25000 23626.65 Chain0
(dBm)
-57.25
-50.13
---
---
---
Chain1
(dBm) Chain2
(dBm) Total
(dBm) Limit
(dBm) Margin
(dBm)
---
---
-57.6
-50.39
-59.1
-54.24
-21.04
-33.20
---
---
---
-47.12
-21.04
-26.08
-54.59
-21.04
-33.55
-47.38
-21.04
-26.34
---
-49.83
-46.82
-21.04
-25.78 Fundamental limit
-20.64
-21.04
-20.8
---
High Channel Frequency
(MHz) 1777.9 Chain0
(dBm)
-58.93 24167.6667
-59.77 612.6333 24417.3667 24458.9833
---
---
---
Chain1
(dBm) Chain2
(dBm) Total
(dBm) Limit
(dBm) Margin
(dBm)
---
---
-58.59
-59.85
-58.56
-55.55
-26.08
-29.47
---
---
---
-56.76
-26.08
-30.68
-55.58
-26.08
-29.50
-56.84
-26.08
-30.76
---
-60.08
-57.07
-26.08
-30.99 Fundamental limit
-26.08
-25.47
-25.84
---
Remark:
1. Total (dBm) = Measure + 10 log(3) dB, Measure=Choose the max chain value Page 135 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 7.7 RADIATED EMISSIONS LIMIT 1. According to 15.209(a), except as provided elsewhere in this Subpart, the emissions from an intentional radiator shall not exceed the field strength levels specified in the following table:
Frequency
(MHz) 0.009 - 0.490 0.490 - 1.705 1.705 30.0 30-88 88-216 216-960 Above 960 Field Strength Measurement Distance
(V/m) 2400/F(kHz) 24000/F(kHz) 30 100 150 200 500
(m) 300 30 30 3 3 3 3 Remark: Except as provided in paragraph (g), fundamental emissions from intentional radiators operating under this Section shall not be located in the frequency bands 54-72 MHz, 76-88 MHz, 174-216 MHz or 470-806 MHz. However, operation within these frequency bands is permitted under other sections of this Part, e.g., Sections 15.231 and 15.241. 2. In the emission table above, the tighter limit applies at the band edges. Frequency
(MHz) 0.009 - 0.490 0.490 - 1.705 1.705 30.0 30-88 88-216 216-960 Above 960 Field Strength
(V/m at 3-meter) Field Strength
(dBV/m at 3-meter) 2400/F(kHz) +80 20LOG((2400/F(kHz))+80) 24000/F(kHz) +40 20LOG((24000/F(kHz))+40) 30 100 150 200 500 69.54 40 43.5 46 54 Page 136 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Test Configuration 9kHz ~ 30MHz 30MHz ~ 1 GHz Page 137 Spectrum / Receiver 3m 1m Turntable EUT 0.8m Loop antenna Reference ground plane Spectrum analyzer 3m 4m 1m Turntable EUT 0.8m Antenna tower Reference ground plane Bi-log antenna Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Above 1 GHz 1.5m Page 138 Spectrum analyzer Horn antenna 3m 4m 1m Turntable EUT 0.8m Antenna tower Pre-amp Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 TEST PROCEDURE 1. The EUT is placed on a turntable, which is 1.5m above ground plane. 2. The turntable shall be rotated for 360 degrees to determine the position of maximum emission level. 3. EUT is set 3m away from the receiving antenna, which is varied from 1m to 4m to find out the highest emissions. 4. Maximum procedure was performed on the six highest emissions to ensure EUT compliance. 5. And also, each emission was to be maximized by changing the polarization of receiving antenna both horizontal and vertical. 6. Set the spectrum analyzer in the following setting as:
Below 1GHz:
RBW=100kHz / VBW=300kHz / Sweep=AUTO Above 1GHz:
(a) PEAK: RBW=VBW=1MHz / Sweep=AUTO
(b) AVERAGE: RBW=1MHz / VBW=10Hz / Sweep=AUTO 7. Repeat above procedures until the measurements for all frequencies are complete. Page 139 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Below 1 GHz Operation Mode: Normal Link Test Date: July 14, 2015 Temperature:
27C Humidity:
53% RH Frequency
(MHz) Reading
(dBuV) Correction Factor
(dB/m) 65.57 51.92
-16.97 144.78 49.05
-12.28 308.07 52.56
-10.71 374.35 45.67 453.57 43.77 624.93 43.50
-9.75
-8.55
-6.30 110.83 51.30
-12.90 144.78 46.93
-12.28 191.67 51.86
-12.69 277.35 49.00
-11.29 624.93 44.62 875.52 41.38
-6.30
-2.54 Remark:
Tested by: Jason Lu Polarity:
Ver. / Hor. Result
(dBuV/m) Limit
(dBuV/m) Margin
(dB) Remark Ant.Pol.
(H/V) 34.95 36.77 41.85 35.92 35.22 37.19 38.40 34.64 39.17 37.71 38.31 38.84 40.00 43.50 46.00 46.00 46.00 46.00 43.50 43.50 43.50 46.00 46.00 46.00
-5.05
-6.73
-4.15
-10.08
-10.78
-8.81
-5.10
-8.86
-4.33
-8.29
-7.69
-7.16 Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak V V V V V V H H H H H H 1. Measuring frequencies from 30 MHz to the 1GHz. 2. Radiated emissions measured in frequency range from 30 MHz to 1000MHz were made with an instrument using peak/quasi-peak detector mode. 3. Quasi-peak test would be performed if the peak result were greater than the quasi-peak limit or as required by the applicant. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Quasi-peak limit (dBuV/m). Page 140 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Above 1 GHz Operation Mode: Tx / IEEE 802.11b mode / CH Low Test Date:
July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by:
Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(Peak)
(dBuV) Reading
(Average)
(dBuV) 2270.00 56.56 4825.00 47.94
---
---
Correction Factor
(dB/m)
-4.77 Result
(Peak)
(dBuV/m) Result
(Average)
(dBuV/m) Limit
(Peak)
(dBuV/m) Limit
(Average)
(dBuV/m) Margin
(dB) Remark Ant. Pol.
(H/V) 51.79 2.61 50.55
---
---
74.00 54.00
-2.21 Peak 74.00 54.00
-3.45 Peak 7233.33 46.76 40.95 7.26 54.02 48.21 74.00 54.00
-5.79 AVG N/A 2253.33 58.83 51.28
-4.81 54.01 46.47 74.00 54.00
-7.53 AVG 2493.33 62.82 54.77
-3.90 58.92 50.87 74.00 54.00
-3.13 AVG 2530.00 58.88 50.22
-3.77 55.11 46.45 74.00 54.00
-7.55 AVG 4825.00 48.32
---
2.61 50.93
---
74.00 54.00
-3.07 Peak N/
Remark:
V V V H H H H 1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit or as required by the applicant. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 141 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Operation Mode: Tx / IEEE 802.11b mode / CH Mid Test Date:
July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by:
Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(Peak)
(dBuV) Reading
(Average)
(dBuV) Correction Factor
(dB/m) Result
(Peak)
(dBuV/m) Result
(Average)
(dBuV/m) Limit
(Peak)
(dBuV/m) Limit
(Average)
(dBuV/m) Margin
(dB) Remark Ant. Pol.
(H/V) 1133.33 59.04 4883.33 49.20
---
---
-10.93 48.11 2.73 51.93 N/A
---
---
74.00 54.00
-5.89 Peak 74.00 54.00
-2.07 Peak 2380.00 60.54 57.09
-4.36 56.18 52.73 74.00 54.00
-1.27 AVG 2493.33 60.28 51.88
-3.90 56.38 47.98 74.00 54.00
-6.02 AVG 2606.67 59.32 52.23
-3.51 55.81 48.72 74.00 54.00
-5.28 AVG 4883.33 46.64
---
2.73 49.37
---
74.00 54.00
-4.63 Peak 7325.00 47.01 41.63 7.23 54.24 48.86 74.00 54.00
-5.14 AVG N/A V V H H H H H Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit or as required by the applicant. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 142 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Operation Mode: Tx / IEEE 802.11b mode / CH High Test Date:
July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by:
Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(Peak)
(dBuV) Reading
(Average)
(dBuV) 2360.00 56.11 4925.00 48.92
---
---
Correction Factor
(dB/m)
-4.44 Result
(Peak)
(dBuV/m) Result
(Average)
(dBuV/m) Limit
(Peak)
(dBuV/m) Limit
(Average)
(dBuV/m) Margin
(dB) Remark Ant. Pol.
(H/V) 51.67 2.81 51.73
---
---
74.00 54.00
-2.33 Peak 74.00 54.00
-2.27 Peak 7383.33 46.72 41.76 7.20 53.92 48.96 74.00 54.00
-5.04 AVG N/A 2543.33 63.72 54.30
-3.72 60.00 50.58 74.00 54.00
-3.42 AVG 4925.00 47.59
---
2.81 50.40
---
74.00 54.00
-3.60 Peak 7383.33 48.52 42.91 7.20 55.72 50.11 74.00 54.00
-3.89 AVG N/A Remark:
V V V H H H 1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit or as required by the applicant. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 143 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Operation Mode: Tx / IEEE 802.11g mode / CH Low Test Date:
July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by:
Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(Peak)
(dBuV) Reading
(Average)
(dBuV) 2143.33 56.46 4825.00 47.36
---
---
Correction Factor
(dB/m)
-5.10 51.37 2.61 49.97 N/A Result
(Peak)
(dBuV/m) Result
(Average)
(dBuV/m) Limit
(Peak)
(dBuV/m) Limit
(Average)
(dBuV/m) Margin
(dB) Remark Ant. Pol.
(H/V)
---
---
74.00 54.00
-2.63 Peak 74.00 54.00
-4.03 Peak V V 2490.00 60.52 54.63
-3.91 56.61 50.72 74.00 54.00
-3.28 AVG H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit or as required by the applicant. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 144 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Operation Mode: Tx / IEEE 802.11g mode/ CH Mid Test Date:
July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by:
Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(Peak)
(dBuV) Reading
(Average)
(dBuV) Correction Factor
(dB/m) Result
(Peak)
(dBuV/m) Result
(Average)
(dBuV/m) Limit
(Peak)
(dBuV/m) Limit
(Average)
(dBuV/m) Margin
(dB) Remark Ant. Pol.
(H/V) 1140.00 61.08
---
-10.92 50.16
---
74.00 54.00
-3.84 Peak N/A 2380.00 58.59 51.44
-4.36 54.23 47.08 74.00 54.00
-6.92 AVG 2523.33 59.70 50.57
-3.79 55.91 46.78 74.00 54.00
-7.22 AVG N/A Remark:
V H H 1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit or as required by the applicant. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 145 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Operation Mode: Tx / IEEE 802.11g mode/ CH High Test Date:
July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by:
Jason Lu Polarity:
Ver. / Hor. Frequency
(MHz) Reading
(Peak)
(dBuV) Reading
(Average)
(dBuV) 2153.33 57.05
---
Correction Factor
(dB/m)
-5.07 Result
(Peak)
(dBuV/m) Result
(Average)
(dBuV/m) Limit
(Peak)
(dBuV/m) Limit
(Average)
(dBuV/m) Margin
(dB) Remark Ant. Pol.
(H/V) 51.98
---
74.00 54.00
-2.02 Peak V N/A 2540.00 59.51 50.66
-3.73 55.78 46.93 74.00 54.00
-7.07 AVG 2620.00 58.79 51.20
-3.46 55.33 47.74 74.00 54.00
-6.26 AVG 7191.67 46.60 34.69 7.28 53.88 41.97 74.00 54.00
-12.03 AVG N/A H H H Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit or as required by the applicant. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 146 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Mode 1 Operation Mode: TX / IEEE 802.11n HT 20 MHz mode / CH Low Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(Peak)
(dBuV) Reading
(Average)
(dBuV) 2076.67 56.81
---
Correction Factor
(dB/m)
-5.27 Result
(Peak)
(dBuV/m) Result
(Average)
(dBuV/m) Limit
(Peak)
(dBuV/m) Limit
(Average)
(dBuV/m) Margin
(dB) Remark Ant. Pol.
(H/V) 51.54
---
74.00 54.00
-2.46 Peak V N/A 1946.67 57.14
---
-6.01 51.13
---
74.00 54.00
-2.87 Peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit or as required by the applicant. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 147 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Operation Mode: TX / IEEE 802.11n HT 20 MHz mode / CH Mid Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(Peak)
(dBuV) Reading
(Average)
(dBuV) 2103.33 56.32
---
Correction Factor
(dB/m)
-5.20 Result
(Peak)
(dBuV/m) Result
(Average)
(dBuV/m) Limit
(Peak)
(dBuV/m) Limit
(Average)
(dBuV/m) Margin
(dB) Remark Ant. Pol.
(H/V) 51.12
---
74.00 54.00
-2.88 Peak V N/A 2596.67 59.65 45.30 13.54 56.11 41.76 74.00 54.00
-12.24 AVG H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit or as required by the applicant. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 148 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Operation Mode: TX / IEEE 802.11n HT 20 MHz mode / CH High Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(Peak)
(dBuV) Reading
(Average)
(dBuV) 2040.00 56.76
---
Correction Factor
(dB/m)
-5.37 Result
(Peak)
(dBuV/m) Result
(Average)
(dBuV/m) Limit
(Peak)
(dBuV/m) Limit
(Average)
(dBuV/m) Margin
(dB) Remark Ant. Pol.
(H/V) 51.40
---
74.00 54.00
-2.60 Peak V N/A 2033.33 57.24
---
-5.38 51.86
---
74.00 54.00
-2.14 Peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit or as required by the applicant. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 149 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Operation Mode: TX / IEEE 802.11n HT 40 MHz mode / CH Low Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(Peak)
(dBuV) Reading
(Average)
(dBuV) 2016.67 56.96
---
Correction Factor
(dB/m)
-5.43 Result
(Peak)
(dBuV/m) Result
(Average)
(dBuV/m) Limit
(Peak)
(dBuV/m) Limit
(Average)
(dBuV/m) Margin
(dB) Remark Ant. Pol.
(H/V) 51.53
---
74.00 54.00
-2.47 Peak V N/A 2126.67 57.13
---
-5.14 51.99
---
74.00 54.00
-2.01 Peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit or as required by the applicant. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 150 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Operation Mode: TX / IEEE 802.11n HT 40 MHz mode / CH Mid Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(Peak)
(dBuV) Reading
(Average)
(dBuV) 2266.67 56.10
---
Correction Factor
(dB/m)
-4.78 Result
(Peak)
(dBuV/m) Result
(Average)
(dBuV/m) Limit
(Peak)
(dBuV/m) Limit
(Average)
(dBuV/m) Margin
(dB) Remark Ant. Pol.
(H/V) 51.33
---
74.00 54.00
-2.67 Peak V N/A 2390.00 67.37 47.44
-4.32 63.05 43.12 74.00 54.00
-10.88 AVG 2483.33 77.86 55.43
-3.94 73.92 51.49 74.00 54.00
-2.51 AVG N/A Remark:
H H 1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit or as required by the applicant. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 151 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Operation Mode: TX / IEEE 802.11n HT 40 MHz mode / CH High Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(Peak)
(dBuV) Reading
(Average)
(dBuV) 1990.00 57.56
---
Correction Factor
(dB/m)
-5.57 Result
(Peak)
(dBuV/m) Result
(Average)
(dBuV/m) Limit
(Peak)
(dBuV/m) Limit
(Average)
(dBuV/m) Margin
(dB) Remark Ant. Pol.
(H/V) 51.99
---
74.00 54.00
-2.01 Peak V N/A 2483.33 68.17 56.51
-3.94 64.23 52.57 74.00 54.00
-1.43 AVG H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit or as required by the applicant. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 152 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Mode 2 Operation Mode: TX / IEEE 802.11n HT 20 MHz mode / CH Low Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(Peak)
(dBuV) Reading
(Average)
(dBuV) Correction Factor
(dB/m) Result
(Peak)
(dBuV/m) Result
(Average)
(dBuV/m) Limit
(Peak)
(dBuV/m) Limit
(Average)
(dBuV/m) Margin
(dB) Remark Ant. Pol.
(H/V) 1140.00 59.44
---
-10.92 48.52
---
74.00 54.00
-5.48 Peak V N/A 2500.00 57.11 49.88
-3.87 53.24 46.01 74.00 54.00
-0.76 Peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit or as required by the applicant. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 153 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Operation Mode: TX / IEEE 802.11n HT 20 MHz mode / CH Mid Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(Peak)
(dBuV) Reading
(Average)
(dBuV) Correction Factor
(dB/m) Result
(Peak)
(dBuV/m) Result
(Average)
(dBuV/m) Limit
(Peak)
(dBuV/m) Limit
(Average)
(dBuV/m) Margin
(dB) Remark Ant. Pol.
(H/V) 1140.00 59.36
---
-10.92 48.44
---
74.00 54.00
-5.56 Peak V N/A 2526.67 57.95 47.95
-3.78 54.17 44.17 74.00 54.00
-9.83 AVG 2613.33 57.32 45.62
-3.48 53.83 42.14 74.00 54.00
-11.46 AVG N/A Remark:
H H 1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit or as required by the applicant. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 154 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Operation Mode: TX / IEEE 802.11n HT 20 MHz mode / CH High Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(Peak)
(dBuV) Reading
(Average)
(dBuV) Correction Factor
(dB/m) Result
(Peak)
(dBuV/m) Result
(Average)
(dBuV/m) Limit
(Peak)
(dBuV/m) Limit
(Average)
(dBuV/m) Margin
(dB) Remark Ant. Pol.
(H/V) 1126.67 59.67
---
-10.94 48.73
---
74.00 54.00
-5.27 Peak V N/A 2550.00 56.53 46.01
-3.70 52.83 42.31 74.00 54.00
-11.69 AVG H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit or as required by the applicant. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 155 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Operation Mode: TX / IEEE 802.11n HT 40 MHz mode / CH Low Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(Peak)
(dBuV) Reading
(Average)
(dBuV) Correction Factor
(dB/m) Result
(Peak)
(dBuV/m) Result
(Average)
(dBuV/m) Limit
(Peak)
(dBuV/m) Limit
(Average)
(dBuV/m) Margin
(dB) Remark Ant. Pol.
(H/V) 1140.00 60.07
---
-10.92 49.15
---
74.00 54.00
-4.85 Peak V N/A 2113.33 55.84
---
-5.18 50.66
---
74.00 54.00
-3.34 Peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit or as required by the applicant. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 156 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Operation Mode: TX / IEEE 802.11n HT 40 MHz mode / CH Mid Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(Peak)
(dBuV) Reading
(Average)
(dBuV) Correction Factor
(dB/m) Result
(Peak)
(dBuV/m) Result
(Average)
(dBuV/m) Limit
(Peak)
(dBuV/m) Limit
(Average)
(dBuV/m) Margin
(dB) Remark Ant. Pol.
(H/V) 1123.33 59.33
---
-10.94 48.39
---
74.00 54.00
-5.61 Peak V N/A 2483.33 73.63 56.45
-3.94 69.69 52.51 74.00 54.00
-1.49 AVG H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit or as required by the applicant. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 157 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Operation Mode: TX / IEEE 802.11n HT 40 MHz mode / CH High Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(Peak)
(dBuV) Reading
(Average)
(dBuV) Correction Factor
(dB/m) Result
(Peak)
(dBuV/m) Result
(Average)
(dBuV/m) Limit
(Peak)
(dBuV/m) Limit
(Average)
(dBuV/m) Margin
(dB) Remark Ant. Pol.
(H/V) 1176.67 58.86
---
-10.89 47.97
---
74.00 54.00
-6.03 Peak V N/A 1940.00 56.69
---
-6.08 50.61
---
74.00 54.00
-3.39 Peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit or as required by the applicant. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 158 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 For Mode 3 Operation Mode: TX / IEEE 802.11n HT 20 MHz mode / CH Low Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(Peak)
(dBuV) Reading
(Average)
(dBuV) 2123.33 56.72
---
Correction Factor
(dB/m)
-5.15 Result
(Peak)
(dBuV/m) Result
(Average)
(dBuV/m) Limit
(Peak)
(dBuV/m) Limit
(Average)
(dBuV/m) Margin
(dB) Remark Ant. Pol.
(H/V) 51.57
---
74.00 54.00
-2.43 Peak V N/A 2480.00 58.42 52.22
-3.95 54.47 48.27 74.00 54.00
-5.73 AVG H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit or as required by the applicant. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 159 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Operation Mode: TX / IEEE 802.11n HT 20 MHz mode / CH Mid Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(Peak)
(dBuV) Reading
(Average)
(dBuV) 2123.33 55.24
---
Correction Factor
(dB/m)
-5.15 Result
(Peak)
(dBuV/m) Result
(Average)
(dBuV/m) Limit
(Peak)
(dBuV/m) Limit
(Average)
(dBuV/m) Margin
(dB) Remark Ant. Pol.
(H/V) 50.09
---
74.00 54.00
-3.91 Peak V N/A 2543.33 57.66 49.87
-3.72 53.94 46.15 74.00 54.00
-7.85 AVG H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit or as required by the applicant. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 160 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Operation Mode: TX / IEEE 802.11n HT 20 MHz mode / CH High Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(Peak)
(dBuV) Reading
(Average)
(dBuV) Correction Factor
(dB/m) Result
(Peak)
(dBuV/m) Result
(Average)
(dBuV/m) Limit
(Peak)
(dBuV/m) Limit
(Average)
(dBuV/m) Margin
(dB) Remark Ant. Pol.
(H/V) 1146.67 58.61
---
-10.92 47.70
---
74.00 54.00
-6.30 Peak V N/A 2620.00 57.93 50.44
-3.46 54.47 46.98 74.00 54.00
-7.02 AVG H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit or as required by the applicant. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 161 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Operation Mode: TX / IEEE 802.11n HT 40 MHz mode / CH Low Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(Peak)
(dBuV) Reading
(Average)
(dBuV) Correction Factor
(dB/m) Result
(Peak)
(dBuV/m) Result
(Average)
(dBuV/m) Limit
(Peak)
(dBuV/m) Limit
(Average)
(dBuV/m) Margin
(dB) Remark Ant. Pol.
(H/V) 1126.67 59.39
---
-10.94 48.45
---
74.00 54.00
-5.55 Peak V N/A 2090.00 56.88
---
-5.24 51.65
---
74.00 54.00
-2.35 Peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit or as required by the applicant. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 162 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Operation Mode: TX / IEEE 802.11n HT 40 MHz mode / CH Mid Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(Peak)
(dBuV) Reading
(Average)
(dBuV) 1963.33 57.77
---
Correction Factor
(dB/m)
-5.84 Result
(Peak)
(dBuV/m) Result
(Average)
(dBuV/m) Limit
(Peak)
(dBuV/m) Limit
(Average)
(dBuV/m) Margin
(dB) Remark Ant. Pol.
(H/V) 51.93
---
74.00 54.00
-2.07 Peak V N/A 2390.00 64.53 45.21
-4.32 60.21 40.89 74.00 54.00
-13.11 AVG 2483.33 76.93 55.44
-3.94 72.99 51.50 74.00 54.00
-2.50 AVG N/A Remark:
H H 1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit or as required by the applicant. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 163 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Operation Mode: TX / IEEE 802.11n HT 40 MHz mode / CH High Test Date: July 12, 2015 Temperature:
27C Humidity:
53% RH Tested by: Jason Lu Polarity: Ver. / Hor. Frequency
(MHz) Reading
(Peak)
(dBuV) Reading
(Average)
(dBuV) 2133.33 56.74
---
Correction Factor
(dB/m)
-5.12 Result
(Peak)
(dBuV/m) Result
(Average)
(dBuV/m) Limit
(Peak)
(dBuV/m) Limit
(Average)
(dBuV/m) Margin
(dB) Remark Ant. Pol.
(H/V) 51.62
---
74.00 54.00
-2.38 Peak V N/A 2080.00 57.17
---
-5.26 51.91
---
74.00 54.00
-2.09 Peak H N/A Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental frequency. 2. Radiated emissions measured in frequency above 1000MHz were made with an instrument using peak/average detector mode. 3. Average test would be performed if the peak result were greater than the average limit or as required by the applicant. 4. Data of measurement within this frequency range shown --- in the table above means the reading of emissions are attenuated more than 20dB below the permissible limits or the field strength is too small to be measured. 5. Measurements above show only up to 6 maximum emissions noted, or would be lesser, with N/A remark, if no specific emissions from the EUT are recorded (ie: margin>20dB from the applicable limit) and considered that's already beyond the background noise floor. 6. Margin (dB) = Remark result (dBuV/m) Average limit (dBuV/m). Page 164 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 7.8 POWERLINE CONDUCTED EMISSIONS LIMIT According to 15.207(a), except as shown in paragraphs (b) and (c) of this section, for an intentional radiator that is designed to be connected to the public utility (AC) power line, the radio frequency voltage that is conducted back onto the AC power line on any frequency or frequencies within the band 150 kHz to 30 MHz shall not exceed the limits in the following table, as measured using a 50 H/50 ohms line impedance stabilization network (LISN). Compliance with the provisions of this paragraph shall be based on the measurement of the radio frequency voltage between each power line and ground at the power terminal. The lower limit applies at the boundary between the frequency ranges. Frequency Range
(MHz) 0.15 to 0.50 0.50 to 5 5 to 30 Limits
(dBV) Quasi-peak 66 to 56*
56 60 Average 56 to 46*
46 50
* Decreases with the logarithm of the frequency. Test Configuration See test photographs attached in Appendix 1 for the actual connections between EUT and support equipment. TEST PROCEDURE 1. The EUT was placed on a table, which is 0.8m above ground plane. 2. Maximum procedure was performed on the six highest emissions to ensure EUT compliance. 3. Repeat above procedures until all frequency measured were complete. TEST RESULTS The initial step in collecting conducted data is a spectrum analyzer peak scan of the measurement range. Significant peaks are then marked as shown on the following data page, and these signals are then quasi-peaked. Page 165 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Test Data Operation Mode:
Normal Link Test Date:
July 14, 2015 Temperature:
24C Tested by:
Frank Liao Humidity:
60% RH Line L1 No. Frequency Reading Factor Result
(dBuV) 58.13 47.22 46.52 24.85 31.88 13.23 37.58 25.27 30.42 27.18 40.77 26.04
(MHz) 0.1500 0.1500 0.1620 0.1620 0.2380 0.2380 2.3900 2.3900 12.0580 12.0580 26.9340 26.9340
(dBuV) 47.87 36.96 36.29 14.62 21.76 3.11 27.55 15.24 20.21 16.97 30.21 15.48
(dB) 10.26 10.26 10.23 10.23 10.12 10.12 10.03 10.03 10.21 10.21 10.56 10.56 1 2 3 4 5 6 7 8 9 10 11 12 Limit Margin Detector
(dBuV) 65.99 55.99 65.36 55.36 62.16 52.16 56.00 46.00 60.00 50.00 60.00 50.00
(dB)
-7.86
-8.77
-18.84
-30.51
-30.28
-38.93
-18.42
-20.73
-29.58
-22.82
-19.23
-23.96 QP AVG QP AVG QP AVG QP AVG QP AVG QP AVG Remark:
1. Measuring frequencies from 0.15 MHz to 30MHz. 2. The emissions measured in frequency range from 0.15 MHz to 30MHz were made with an instrument using Quasi-peak detector and average detector. 3. The IF bandwidth of SPA between 0.15MHz to 30MHz was 10kHz; the IF bandwidth of Test Receiver between 0.15MHz to 30MHz was 9kHz. 4. L1 = Line One (Live Line) / L2 = Line Two (Neutral Line) Page 166 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 Operation Mode:
Normal Link Test Date:
July 14, 2015 Temperature:
24C Tested by:
Frank Liao Humidity:
60% RH Line L2 No. Frequency Reading Factor Result
(dBuV) 57.53 42.68 52.25 46.83 40.56 28.11 42.54 28.05 42.30 24.27 42.92 26.46
(MHz) 0.1500 0.1500 0.1580 0.1580 0.2220 0.2220 0.3140 0.3140 2.3580 2.3900 26.9340 27.3780
(dBuV) 47.44 32.59 42.18 36.76 30.56 18.11 32.60 18.11 32.36 14.33 32.42 15.96
(dB) 10.09 10.09 10.07 10.07 10.00 10.00 9.94 9.94 9.94 9.94 10.50 10.50 1 2 3 4 5 6 7 8 9 10 11 12 Limit Margin Detector
(dBuV) 65.99 55.99 65.56 55.56 62.74 52.74 59.86 49.86 56.00 46.00 60.00 50.00
(dB)
-8.46
-13.31
-13.31
-8.73
-22.18
-24.63
-17.32
-21.81
-13.70
-21.73
-17.08
-23.54 QP AVG QP AVG QP AVG QP AVG QP AVG QP AVG Remark:
1. Measuring frequencies from 0.15 MHz to 30MHz. 2. The emissions measured in frequency range from 0.15 MHz to 30MHz were made with an instrument using Quasi-peak detector and average detector. 3. The IF bandwidth of SPA between 0.15MHz to 30MHz was 10kHz; the IF bandwidth of Test Receiver between 0.15MHz to 30MHz was 9kHz. 4. L1 = Line One (Live Line) / L2 = Line Two (Neutral Line) Page 167
1 2 3 4 | Test Setup Photos | Test Setup Photos | 1.23 MiB | November 17 2015 |
Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 APPENDIX I PHOTOGRAPHS OF TEST SETUP CONDUCTED EMISSION SETUP PHOTOS Page 168 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 RADIATED EMISSION SETUP PHOTOS Page 169 Compliance Certification Services Inc. FCC ID: P27-WAP321 Reference No: T111028201-RP1 Report No.: T150622D07-RP1 POWERLINE CONDUCTED EMISSIONS SETUP PHOTOS Page 170
1 2 3 4 | Antenna Specification | Parts List/Tune Up Info | 1.64 MiB | January 20 2012 |
ANTENNA SPECIFICATION Revision Part No Project No : 464300
: S2
: 4643-WAP321 Preliminary Design Specification Dual-Band Compact Balanced Antennas For Cisco WAP321 Access Point Galtronics P/Ns:
021020140-04643-1 021020140-04643-2 021020140-04643-3 Sercomm P/Ns:
6172105MGN 6172105NGN 6172105RGN 2011 COPYRIGHT GALTRONICS LTD. This document is issued by Galtronics Ltd. (hereinafter called Galtronics) in confidence, and is not to be reproduced in whole or in part without the prior written permission of Galtronics. The information contained herein is the property of Galtronics and is to be used only for the purpose for which it is submitted and is not to be released in whole or in part without the prior written permission of Galtronics. GALTRONICS CONFIDENTIAL AND PROPRIETARY INFORMATION MAY NOT BE COPIED OR DISCLOSED. Document: 4643-WAP321_S2.docx Form No.: FM016 Page 2 of 11 Rev C Cisco WAP321 Dual-Band Access Point Antenna Performance Report Antenna Performance Report WAP321 Access Point requires 3 dual-band antennas that operate on unlicensed 2.45 GHz and 5 GHz bands for 3x3 MIMO antenna configuration. q i t t t ll t t I Install prototype antennas in test fixture consisting of f production enclosure and unpopulated PCB. One antenna is installed in front of PCB, second antenna is antenna is installed in front of PCB, second antenna is installed on right side of enclosure, and third antenna is installed on left side of enclosure. t fi t i ti Measure antenna performance and report results. 1 Galtronics Proprietary and Confidential Information Subject to Terms of Non-Disclosure Agreement 5/31/2011 Cisco WAP321 Dual-Band Access Point Antenna 3 A t 2 Antenna 2 Antenna 1 Antenna 1 2 Galtronics Proprietary and Confidential Information Subject to Terms of Non-Disclosure Agreement 5/31/2011 Antenna Return Loss Port1 = Antenna2 Port2 = Antenna3 Port3 = Antenna1 3 Galtronics Proprietary and Confidential Information Subject to Terms of Non-Disclosure Agreement 5/31/2011 Antenna Isolation Port1 = Antenna2 Port2 = Antenna3 Port3 = Antenna1 4 Galtronics Proprietary and Confidential Information Subject to Terms of Non-Disclosure Agreement 5/31/2011 Antenna Efficiency and Peak Gain Antenna1 Antenna2 Antenna3 Frequency y q
(GHz) 2.400 2.450 2.500 AVERAGE AVERAGE 2.400 2.450 2.500 AVERAGE 2.400 2.450 2.500 AVERAGE Low Band Peak Directivity Gain 4.10 4.31 4.32 5.30 5.27 5.23 S11
-12.20
-14.40
-14.64 4.97 5.09 5.36 3.86 4.26 4.67
-12.35
-13.73
-14.63 5.73 5.30 5.32 3.96 3.75 3.85
-14.57
-15.30
-15.27 q Terminal Frequency y Efficiency 75.88%
80.34%
81.09%
(GHz) 5.150 5.250 5.350 5 725 5.725 5.825 79 10%
79.10%
77.41%
82.65%
82.44%
80.83%
66.54%
69.88%
71.36%
69.26%
AVERAGE 5.150 5.250 5.350 5.725 5.825 AVERAGE AVERAGE 5.150 5.250 5.350 5.725 5.825 AVERAGE High Band Peak Directivity Gain 3.86 3.99 3.98 4 29 4.29 4.88 4.92 4.88 4.84 5 20 5.20 5.07 6.12 5.38 5.34 4.86 5.23 6.03 6.38 5.87 4.67 4.94 4.97 4.38 4.59 4.04 4.50 3.96 4.74 4.43 2.88 3.70 S11
-20.46
-21.71
-17.44 17 21
-17.21
-13.68
-13.22
-14.11
-17.47
-13.56
-11.50
-10.23
-14.72
-17.14
-10.84
-16.26 Terminal Efficiency 78.35%
81.52%
81.94%
81 06%
81.06%
83.89%
81.35%
76.69%
79.52%
84.09%
82.77%
86.22%
81 88%
81.88%
62.08%
68.70%
71.81%
66.22%
75.27%
68.82%
5 Galtronics Proprietary and Confidential Information Subject to Terms of Non-Disclosure Agreement 5/31/2011 Azimuth Cut Power Sum Low Band 120o 90o 90o 3 dB 60o 150o 180o
-150o 0
-3 6
-6
-9
-12
-15
-15
-12
-9
-6
-3 0
-120o 120 3 dB
-60o 60 Beam Beam Beam
-90o
= 2.55 dBi at 18o
= 2400 MHz : Max Gain 1 1
= 2.59 dBi at 12o
= 2450 MHz : Max Gain 2 2
= 2.59 dBi at 15o
= 2500 MHz : Max Gain 3 3 Antenna1 Antenna1 90 30o 0 150o Front 0o 180o High Band 120o 90o 90o 3 dB 60o 0
-3 6
-6
-9
-12
-15
-15
-12
-9
-6
-3 30o 0o
-30o
-30o
-150o Beam 0
-120o 120 Beam = 5250 MHz : Max Gain = 2 37 dBi at -27o Beam
= 2.37 dBi at -27 2 3 dB
= 2 dBi at 9o
= 5151 MHz : Max Gain 1 1
-60o 60
= 5250 MHz : Max Gain 2
= 2.9 dBi at -24o
= 5351 MHz : Max Gain 3 3
= 4.25 dBi at -6o
= 5726 MHz : Max Gain 4 4
= 4.83 dBi at -6o
= 5825 MHz : Max Gain 5 5
-90o Beam Beam Beam 6 Galtronics Proprietary and Confidential Information Subject to Terms of Non-Disclosure Agreement 5/31/2011 Elevation (Front to Back) Cut Power Sum Low Band
-30o 0o 3 dB 30o
-60o
-90o
-120o 0
-3
-6
-9
-12
-15
-15
-12
-9
-6
-3 0
-150o 150o 3 dB 3 ddB 150o 150o Beam Beam Beam 180o
= 3.75 dBi at 3o
= 2400 MHz : Max Gain 1 1
= 3.68 dBi at 39o
= 2450 MHz : Max Gain 2 2
= 3.9 dBi at -3o
= 2500 MHz : Max Gain 3 3 Antenna1 Antenna1 0 90
-60o 60o Front 90o
-90o 120o
-120o High Band
-30o 0o 3 dB 30o 0
-3
-6
-9
-12
-15
-15
-12
-9
-6
-3 60o 90o 120o Beam 150o
-150o Beam Beam Beam Beam 0 3 dB 3 ddB 150o 150o
= 3.58 dBi at 21o
= 5151 MHz : Max Gain 1 1
= 3.9 dBi at 15o
= 5250 MHz : Max Gain 2 2
= 3.91 dBi at 6o
= 5351 MHz : Max Gain 3 3
= 3.85 dBi at 81o
= 5726 MHz : Max Gain 4 4
= 4.21 dBi at 90o
= 5825 MHz : Max Gain 5 5 180o 7 Galtronics Proprietary and Confidential Information Subject to Terms of Non-Disclosure Agreement 5/31/2011 Elevation (Side to Side) Cut Power Sum Low Band
-30o 0o 3 dB 30o 0
-3
-6
-9
-12
-15
-15
-12
-9
-6
-3 0 0 3 dB 150o
= 3.67 dBi at 0o
= 2400 MHz : Max Gain 1 1
= 3.9 dBi at 21o
= 2450 MHz : Max Gain 2 2 180o
-60o
-90o
-120o
-150o Beam Beam Beam = 2500 MHz : Max Gain = 3 96 dBi at 21o Beam 3.96 dBi at 21 2500 MHz : Max Gain 3 3 Antenna1 Antenna1 0 L e f t 60o R R i g h t t
-60o High Band 90
-30o 0o 3 dB 30o 0
-3
-6
-9
-12
-15
-15
-12
-9
-6
-3 60o 90o 120o 0 0 3 dB
= 3.02 dBi at -6o
= 5151 MHz : Max Gain 1 1
= 3.4 dBi at -3o
= 5250 MHz : Max Gain 2 2
= 3.69 dBi at -3o
= 5351 MHz : Max Gain 3 3
= 3.4 dBi at -6o
= 5726 MHz : Max Gain 4 4 180o 150o B Beam 5825 MH M G i
= 5825 MHz : Max Gain 5 5 t 6o
= 3.43 dBi at -6o 3 43 dBi 90o
-90o 120o
-120o Beam
-150o Beam Beam Beam 8 Galtronics Proprietary and Confidential Information Subject to Terms of Non-Disclosure Agreement 5/31/2011 Azimuth Cut Power Sum Low Band 120o 90o 90 3 dB 60o 150o 150 180o o
-150o 0
-3
-6
-9
-12
-15
-15
-12
-9 6
-6
-3 0 Antenna2 Antenna2 90 30o 30 0 150o 150 Front o 0o 180o o
-30o
-150o High Band 120o 90o 90 3 dB 60o 0
-3
-6
-9
-12
-15
-15
-12
-9 6
-6
-3 0 30o 30 0
-30o
-120o 3 dB
-60o Beam Beam Beam
-90o
= 2.41 dBi at 93o
= 2400 MHz : Max Gain 1 1
= 2.6 dBi at 93o
= 2450 MHz : Max Gain 2 2
= 3.07 dBi at 93o
= 2500 MHz : Max Gain 3 3 Beam
-120o Beam Beam Beam Beam 3 dB
-60o
= 1.03 dBi at 99o
= 5151 MHz : Max Gain 1 1
= 0.83 dBi at 96o
= 5250 MHz : Max Gain 2 2 2 2
= 2.73 dBi at 69o
= 5351 MHz : Max Gain 3 3
= 4.02 dBi at 81o
= 5726 MHz : Max Gain 4 4
= 4.48 dBi at 81o
= 5825 MHz : Max Gain 5 5
-90o 9 Galtronics Proprietary and Confidential Information Subject to Terms of Non-Disclosure Agreement 5/31/2011 Elevation (Front to Back) Cut Power Sum Low Band
-30o 0o 3 dB 3 ddB 30o
-60o
-90o 90 120o
-120o 0
-3
-6
-9
-12
-15
-15
-12
-9
-6
-3 0
-150o 1 3 dB 150o Beam = 2400 MHz : Max Gain = 3 82 dBi at 0o 3.82 dBi at 0 Beam o 180o 2400 MHz : Max Gain 1
= 3.74 dBi at -9o
= 2450 MHz : Max Gain 2 2
= 4.51 dBi at 0o
= 2500 MHz : Max Gain 3 3 Beam Beam Antenna2 Antenna2 0 60o 90
-60o Front 90o 90
-90o 90 120o 120o
-120o 120o High Band 0o 3 dB 3 ddB 30o
-30o 0
-3
-6
-9
-12
-15
-15
-12
-9
-6
-3 60o 90o 90 120o 120o Beam
-150o Beam Beam Beam Beam 0
= 4.69 dBi at 165o
= 5151 MHz : Max Gain 1 1 150o
= 4.3 dBi at 3o
= 5250 MHz : Max Gain 2 2 3 dB 3 o 180o
= 4.55 dBi at 3o o
= 5351 MHz : Max Gain 3
= 3.86 dBi at 3o
= 5726 MHz : Max Gain 4 4
= 4.42 dBi at 6o
= 5825 MHz : Max Gain 5 5 10 Galtronics Proprietary and Confidential Information Subject to Terms of Non-Disclosure Agreement 5/31/2011 Elevation (Side to Side) Cut Power Sum Low Band
-30o 0o 0 3 dB 30o 0
-3
-6
-9
-12
-15
-15
-12
-9 6
-6
-3 0 3 dB 150o
= 3.83 dBi at 3o
= 2400 MHz : Max Gain 1 1
= 4.16 dBi at 36o
= 2450 MHz : Max Gain 2 2
= 4.51 dBi at 0o
= 2500 MHz : Max Gain 3 3 180o 60o
-60 o
-90o
-120o
-150o Beam Beam Beam Antenna2 Antenna2 0 L e f t 60o 60
-30o 90 R R i g h 60ot
-60 t o 90o o
-90o 120o
-120o High Band 0o 0 3 dB 30o 0
-3
-6
-9
-12
-15
-15
-12
-9 6
-6
-3 60o 60 o 90o 120o Beam
-150o Beam Beam Beam Beam 0 3 dB
= 4.93 dBi at -168o
= 5151 MHz : Max Gain 1 1 150o
= 4.25 dBi at 3o
= 5250 MHz : Max Gain 2 2
= 4.46 dBi at 3o
= 5351 MHz : Max Gain 3 3
= 3.74 dBi at 0o
= 5726 MHz : Max Gain 4 4
= 3.77 dBi at 69o
= 5825 MHz : Max Gain 5 5 180o 11 Galtronics Proprietary and Confidential Information Subject to Terms of Non-Disclosure Agreement 5/31/2011 Azimuth Cut Power Sum Low Band 120o 90o 3 dB 3 ddB 60o 150o 180o 180 150o
-150o 0
-3
-6
-9
-12
-15
-15
-12
-9
-6
-3 0
-120o 3 dB
-60o Beam Beam Beam Beam 1 1
= 1.64 dBi at -90o 1.64 dBi at 90 o
-90o
= 2400 MHz : Max Gain 2400 MHz : Max Gain 1 1
= 2.06 dBi at -87o
= 2450 MHz : Max Gain 2 2
= 2.68 dBi at -90o
= 2500 MHz : Max Gain 3 3 Antenna3 Antenna3 90 30o 0 150o Front 0o 0 180o 180 30o
-30o
-150o 150o High Band 90o 3 dB 3 ddB 60o 120o 0
-3
-6
-9
-12
-15
-15
-12
-9
-6
-3 30o 0o 0 30o
-30o Beam
-120o Beam Beam Beam Beam 0 3 dB
-60o
= -0.97 dBi at -51o
= 5151 MHz : Max Gain 1 1
= 0.64 dBi at -57o
= 5250 MHz : Max Gain 2 2
= 0.97 dBi at -75o
= 5351 MHz : Max Gain 3 3
= 2.41 dBi at -90o
= 5726 MHz : Max Gain 4 4
= 2.85 dBi at -90o
= 5825 MHz : Max Gain 5 5 o
-90o 12 Galtronics Proprietary and Confidential Information Subject to Terms of Non-Disclosure Agreement 5/31/2011 Elevation (Front to Back) Cut Power Sum Low Band
-30o 0o 0 3 dB 30o 60o
-60 o
-90o
-120o 0
-3
-6
-9
-12
-15
-15
-12
-9 6
-6
-3 0
-150o 3 dB 150o Beam Beam Beam 180o
= 3.26 dBi at -3o
= 2400 MHz : Max Gain 1 1
= 2.3 dBi at -9o
= 2450 MHz : Max Gain 2 2
= 3.5 dBi at 0o
= 2500 MHz : Max Gain 3 3 Antenna3 Antenna3 0 60o 60 90 60o
-60 Front o 90o o
-90o 120o
-120o High Band
-30o 0o 0 3 dB 30o 0
-3
-6
-9
-12
-15
-15
-12
-9 6
-6
-3 60o 60 o 90o 120o Beam
-150o Beam Beam Beam Beam 0 3 dB 150o
= 3.68 dBi at -162o
= 5151 MHz : Max Gain 1 1
= 4.02 dBi at -162o
= 5250 MHz : Max Gain 2 2
= 3.51 dBi at -6o
= 5351 MHz : Max Gain 3 3
= 2.85 dBi at -3o
= 5726 MHz : Max Gain 4 4
= 3.11 dBi at -3o
= 5825 MHz : Max Gain 5 5 180o 13 Galtronics Proprietary and Confidential Information Subject to Terms of Non-Disclosure Agreement 5/31/2011 Elevation (Side to Side) Cut Power Sum Low Band
-30o 0o 3 dB 3 ddB 30o
-60o
-90o 90 120o
-120o 0
-3
-6
-9
-12
-15
-15
-12
-9
-6
-3 0
-150o 3 dB 150o 1 180o o Beam = 2400 MHz : Max Gain = 3 9 dBi at 21o
= 3.9 dBi at 21o Beam
= 2400 MHz : Max Gain 1
= 3.68 dBi at 24o
= 2450 MHz : Max Gain 2 2
= 3.72 dBi at 21o
= 2500 MHz : Max Gain 3 3 Beam Beam Antenna3 Antenna3 0 L e f t 60o
-30o R R i g h
-60o t t 90 90o 90
-90o 90 120o 120o
-120o 120o High Band 0o 3 dB 3 ddB 30o 0
-3
-6
-9
-12
-15
-15
-12
-9
-6
-3 60o 90o 90 120o 120o Beam
-150o Beam Beam Beam Beam 0
= 2.73 dBi at -162o
= 5151 MHz : Max Gain 1 1
= 3.56 dBi at -162o
= 5250 MHz : Max Gain 2 2 150o 3 dB
= 3.32 dBi at -162o o o 180o 3
= 5351 MHz : Max Gain 3
= 2.71 dBi at 0o
= 5726 MHz : Max Gain 4 4
= 3.1 dBi at -3o
= 5825 MHz : Max Gain 5 5 14 Galtronics Proprietary and Confidential Information Subject to Terms of Non-Disclosure Agreement 5/31/2011 Azimuth Cut Power Sum Low Band 120o 90o 90 3 dB 60o 150o 150 180o 180
-150o 150 0
-3
-6
-9
-12
-15
-15
-12
-9
-6
-3 0 3 dB
-120o
= 2.59 dBi at 12o AUT
@ 2450 MHz : Max Gain 1 1
= 2.6 dBi at 93o AUT
@ 2450 MHz : Max Gain 2 2
= 2.06 dBi at -87o AUT
@ 2450 MHz : Max Gain 3 3
-60o
-90o
-90 System Coverage System Coverage 90 High Band 120o 90o 90 3 dB 60o 30o 30 0 150o 150 Front 0o 0 180o 180
-30o 30
-150o 150 Antenna1 Antenna2 Antenna3 0
-3
-6
-9
-12
-15
-15
-12
-9
-6
-3 0 30o 30 0o 0
-30o 30 3 dB
-120o
= 2.9 dBi at -24o AUT
@ 5351 MHz : Max Gain 1 1
= 2.73 dBi at 69o AUT
@ 5351 MHz : Max Gain 2 2
= 0.97 dBi at -75o AUT
@ 5351 MHz : Max Gain 3 3
-60o
-90o 90 15 Galtronics Proprietary and Confidential Information Subject to Terms of Non-Disclosure Agreement 5/31/2011 Elevation (Front to Back) Cut Power Sum Low Band
-30o 0o 3 dB 3 ddB 30o System Coverage System Coverage 0 High Band
-30o 0o 3 dB 3 ddB 30o
-60o
-90o
-120o 0
-3
-6 9
-9
-12
-15
-15
-12
-9
-6
-3 0 60o 90
-60o 90o Front
-90o 120o
-120o
-150o 3 dB 150o
= 3.68 dBi at 39o AUT
= 2450 MHz : Max Gain 1 1 180o AUT
= 2450 MHz : Max Gain 2 2
= 2.3 dBi at -9o AUT
= 2450 MHz : Max Gain 3 3
= 3.74 dBi at -9o o Antenna1 Antenna2 Antenna3 0
-3
-6
-9 9
-12
-15
-15
-12
-9
-6
-3 0 60o 90o 120o
-150o 150o
= 3.91 dBi at 6o AUT
= 5351 MHz : Max Gain 1 1 3 dB 180o AUT 2
= 5351 MHz : Max Gain 2
= 3.51 dBi at -6o AUT
= 5351 MHz : Max Gain 3 3
= 4.55 dBi at 3o o 16 Galtronics Proprietary and Confidential Information Subject to Terms of Non-Disclosure Agreement 5/31/2011 Elevation (Side to Side) Cut Power Sum Low Band
-30o o 0o 3 dB 30o o
-60o o
-90o o
-120o 0
-3
-6 6
-9
-12
-15
-15
-12
-9
-6
-6
-3 0
-150o 3 dB 150o AUT = 2450 MHz : Max Gain = 3 9 dBi at 21o AUT
= 3.9 dBi at 21 1
= 2450 MHz : Max Gain 1
= 4.16 dBi at 36o AUT
= 2450 MHz : Max Gain 2 2
= 3.68 dBi at 24o AUT
= 2450 MHz : Max Gain 3 3 180o o System Coverage System Coverage 0 L e f t o 60o
-30o 90 R R i g h t t o
-60o 90o o
-90o o o 120o o
-120o Antenna1 Antenna2 Antenna3 High Band o 0o 3 dB 30o 0
-3
-6 6
-9
-12
-15
-15
-12
-9
-6
-6
-3 0 o 60o o 90o o 120o 3 dB
-150o 150o AUT = 5351 MHz : Max Gain = 3 69 dBi at -3o AUT 3.69 dBi at 3 1 5351 MHz : Max Gain 1
= 4.46 dBi at 3o AUT
= 5351 MHz : Max Gain 2 2
= 3.32 dBi at -162o AUT
= 5351 MHz : Max Gain 3 3 180o o 17 Galtronics Proprietary and Confidential Information Subject to Terms of Non-Disclosure Agreement 5/31/2011
1 2 3 4 | Declaration letter | Cover Letter(s) | 51.64 KiB |
SerComm Corporation Taipei Office: 8F, No.3-1, YuanQu St., NanKang, Taipei 115, Taiwan, R.O.C. TEL: 886-2-2655-3988 FAX: 886-2-2655-3966 Chu Nan Office: 3F, No. 81, YuYi Rd., Chu-Nan, Miao-Li 350, Taiwan, R.O.C. TEL: 886-37-585-899 FAX: 886-37-585-000 Date:December 8, 2011 Federal Communications Commission 7435 Oakland Mills Road Columbia MD 21046 c.c. Compliance Certification Services Certification Division 47173 Benicia Street Fremont, CA 94538, USA FCC ID: P27-WAP321 To whom it may concern:
IEEE 802.11b or 802.11g operation of this product in the U.S.A. is firmware-limited to channels 1 through 11. IEEE 802.11b or 802.11g operation of this product in the Canada is firmware-limited to channels 1 through 11. For UNII:
IEEE 802.11a operation of this product in the U.S.A. is firmware-limited to channels 36 through 48. IEEE 802.11a operation of this product in the Canada is firmware-limited to channels 36 through 48. For DTS:
IEEE 802.11a operation of this product in the U.S.A. is firmware-limited to channels 149 through 165. IEEE 802.11a operation of this product in the Canada is firmware-limited to channels 149 through 165. Yours sincerely, ___________________________ Ronnie Cheng Associate Manager / R&D Division SerComm Corporation TEL: 886-2-2655-3988 #2547 FAX: 886-2-2655-3975 E-Mail: ronnie_cheng@sercomm.com
1 2 3 4 | Power of Attorney Letter | Cover Letter(s) | 360.60 KiB | January 20 2012 |
SerComm Corporation Taipei Office: 8F, No.3-1, YuanQu St., NanKang, Taipei 115, Taiwan, R.O.C. TEL: 886-2-2655-3988 FAX: 886-2-2655-3966 Chu Nan Office: 3F, No. 81, YuYi Rd., Chu-Nan, Miao-Li 350, Taiwan, R.O.C. TEL: 886-37-585-899 FAX: 886-37-585-000 Date: December 7, 2011 Federal Communications Commission 7435 Oakland Mills Road Columbia MD 21046 c.c. Compliance Certification Services Certification Division 47173 Benicia Street Fremont, CA 94538, USA To whom it may concern:
I, the undersigned, hereby authorize Mr. Jason Lin / Section Manager of Compliance Certification Services Inc. and hereafter referred to as CCS, to act on our behalf in all manners relating to application for equipment authorization, including signing of all documents relating to these matters. Any and all acts carried out by Mr. Jason Lin / Section Manager of Compliance Certification Services Inc. on our behalf shall have the same effect as acts of our own. I, the undersigned, hereby certify that we are not subject to a denial of federal benefits, that includes FCC benefits, pursuant to Section 5301 of the Anti-Drug Abuse Act of 1988, 21 U.S.C. 853(a). In authorizing CCS as our agent, we still recognize that we are responsible to:
a) b) c) d) comply with the relevant provisions of the certification program;
make all necessary arrangements for the conduct of the evaluation, including provision for examining documentation and access to all areas, records (including internal audit reports) and personnel for the purposes of evaluation (e.g. testing, inspection, assessment, surveillance, reassessment) and resolution of complaints;
make claims regarding certification only in respect of the scope for which certification has been granted;
do not use our product certification in such a manner as to bring the Certification Division into disrepute and not make any statement regarding our product certification which the Certification Division may consider misleading or unauthorized;
SerComm Corporation Taipei Office: 8F, No.3-1, YuanQu St., NanKang, Taipei 115, Taiwan, R.O.C. TEL: 886-2-2655-3988 FAX: 886-2-2655-3966 Chu Nan Office: 3F, No. 81, YuYi Rd., Chu-Nan, Miao-Li 350, Taiwan, R.O.C. e) f) g) h) i) j) TEL: 886-37-585-899 FAX: 886-37-585-000 upon suspension or cancellation of certification, discontinue use of all advertising matter that contains any reference thereto and return any certification documents as required by the Certification Division;
use certification only to indicate the products are certified as being in conformity with specified standards;
endeavor to ensure that no certificate or report nor any part thereof is used in a misleading manner;
ensure that any reference to our product certification in communication media such as documents, brochures or advertising, complies with the requirements of the Certification Division;
keep a record of all complaints made known to the us relating to the products compliance with requirements of the relevant standard and to make these records available to the Certification Division when requested;
take appropriate action with respect to such complaints and any deficiencies found in products or services that affect compliance with the requirements for certification;
k) document the actions taken. This authorization is valid until further written notice from the applicant. Yours sincerely, ___________________________ Ronnie Cheng Associate Manager / R&D Division SerComm Corporation TEL: 886-2-2655-3988 #2547 FAX: 886-2-2655-7379 E-Mail: ronnie_cheng@sercomm.com
1 2 3 4 | RF Exposure | RF Exposure Info | 84.11 KiB | January 20 2012 |
Compliance Certification Services Inc. FCC ID: P27-WAP321 Report No.: T111028201-RP2 APPENDIX I RADIO FREQUENCY EXPOSURE LIMIT According to 15.407(f), U-NII devices are subject to the radio frequency radiation exposure requirements specified in 1.1307(b), 2.1091 and 2.1093 of this chapter, as appropriate. All equipment shall be considered to operate in a "general population/uncontrolled" environment. Applications for equipment authorization of devices operating under this section must contain a statement confirming compliance with these requirements for both fundamental emissions and unwanted emissions. Technical information showing the basis for this statement must be submitted to the Commission upon request. EUT Specification EUT Wireless-N Selectable-Band Access Point with PoE Frequency band (Operating) Device category WLAN: 5180 5240MHz WLAN: 5260 5320MHz WLAN: 5500 5580MHz WLAN: 5680 5700MHz_____________________ Portable (<20cm separation) Mobile (>20cm separation) Others: ___________________ Exposure classification General Population/Uncontrolled exposure (S=1mW/cm2) Antenna diversity Max. output power Antenna gain (Max) Evaluation applied Single antenna Multiple antennas Tx diversity Rx diversity Tx/Rx diversity IEEE 802.11a mode / 5180 ~ 5240MHz: 13.13 dBm(20.55mW) IEEE 802.11n HT 20 MHz / 5180 ~ 5240MHz:
14.67dBm(29.30mW) IEEE 802.11n HT 40 MHz / 5190 ~ 5230MHz: 14.24 dBm
(26.54mW) Antenna Gain:
Antenna 1: 4.88 dBi Antenna 2: 4.97 dBi Antenna 3: 4.74 dBi MIMO: 10*LOG(((10^(4.88/20)+10^(4.97/20))^2)/2) = 7.94dBi
(Numeric gain: 6.22) MPE Evaluation*
SAR Evaluation N/A Remark:
The maximum output power is 14.67dBm (29.30mW) at 5220MHz (with 6.22 numeric antenna gain.) TEST RESULTS No non-compliance noted. MPE evaluation No non-compliance noted. Page 133 Compliance Certification Services Inc. FCC ID: P27-WAP321 Report No.: T111028201-RP2 Calculation 30 GP d 2E 3770
=
S =
&
P = Power in Watts G = Numeric antenna gain d = Distance in meters S = Power density in milliwatts / square centimeter E Where E = Field strength in Volts / meter Given Combining equations and re-arranging the terms to express the distance as a function of the remaining variables yields:
Changing to units of mW and cm, using:
Yields P (mW) = P (W) / 1000 and d (cm) = d(m) / 100
) G
) 2 100
(
P 30 1000
/
(
d 3770 GP 30 d 3770 2 Equation 1 GP d 2 0796
.0
=
=
=
S S
/
Where d = Distance in cm P = Power in mW G = Numeric antenna gain S = Power density in mW / cm2
.0
= 000199 Maximum Permissible Exposure Substituting the MPE safe distance using d = 20 cm into Equation 1:
Yields S GP Where P = Power in mW G = Numeric antenna gain S = Power density in mW / cm2 Page 134 Compliance Certification Services Inc. FCC ID: P27-WAP321 Report No.: T111028201-RP2 IEEE 802.11a mode:
EUT output power = 20.55 mW Numeric Antenna gain = 3.14
Power density = 0.0128 mW / cm2 IEEE 802.11n HT 20 MHz mode:
EUT output power = 29.30 mW Numeric Antenna gain = 6.22
Power density = 0.0362 mW / cm2 IEEE 802.11n HT 40 MHz mode:
EUT output power = 26.54mW Numeric Antenna gain = 6.22
Power density = 0.0328 mW / cm2
(For mobile or fixed location transmitters, the maximum power density is 1.0 mW/cm2 even if the calculation indicates that the power density would be larger.) Page 135
1 2 3 4 | Test Setup Photo | Test Setup Photos | 641.50 KiB | January 20 2012 |
Compliance Certification Services Inc. FCC ID: P27-WAP321 Report No.: T111028201-RP2 APPENDIX II PHOTOGRAPHS OF TEST SETUP Conducted Emission Setup Photo Page 136 Compliance Certification Services Inc. FCC ID: P27-WAP321 Report No.: T111028201-RP2 Radiated Emission Set up Photos Page 137 Compliance Certification Services Inc. FCC ID: P27-WAP321 Report No.: T111028201-RP2 Powerline Conducted Emissions Setup Photos Page 138
1 2 3 4 | RF Exposure Info | RF Exposure Info | 80.44 KiB | January 20 2012 |
Compliance Certification Services Inc. FCC ID: P27-WAP321 Report No.: T111028201-RP1 APPENDIX I RADIO FREQUENCY EXPOSURE LIMIT According to RSS-Gen 5.5, before equipment certification is granted, the applicable requirements of RSS-102 shall be met. EUT Specification EUT Frequency band
(Operating) Wireless-N Selectable-Band Access Point with PoE Device category Exposure classification Antenna diversity Max. output power Antenna Specification WLAN: 2.412GHz ~ 2.462GHz WLAN: 5.745GHz ~ 5.825GHz Others: Bluetooth: 2.402GHz ~ 2.480GHz Portable (<20cm separation) Mobile (>20cm separation) Others Occupational/Controlled exposure (S = 5mW/cm2) General Population/Uncontrolled exposure(S=1mW/cm2) Single antenna Multiple antennas Tx diversity Rx diversity Tx/Rx diversity Mode 1:
2.4GHz:
IEEE 802.11n HT 20 MHz mode: 25.04 dBm(319.15mW) IEEE 802.11n HT 40 MHz mode: 25.57 dBm(360.57mW) Mode 2:
2.4GHz:
IEEE 802.11n HT 20 MHz mode: 24.91 dBm(309.74mW) IEEE 802.11n HT 40 MHz mode: 25.50 dBm(354.81mW) Mode 3:
IEEE 802.11b mode: 21.76 dBm(149.96mW) IEEE 802.11g mode: 24.15 dBm(260.01mW) IEEE 802.11n HT 20 MHz mode: 25.10 dBm(323.59mW) IEEE 802.11n HT 40 MHz mode: 25.36 dBm(343.55mW) Antenna Type: PIFA Antenna IEEE 802.11b/g mode:
Antenna 1: 4.32 dBi Antenna 2: 4.67 dBi Antenna 3: 3.96 dBi MIMO: 10*LOG(((10^(4.32/20)+10^(4.67/20))^2)/2) = 7.51 dBi
(Numeric gain: 5.63) Page 217 Compliance Certification Services Inc. FCC ID: P27-WAP321 Report No.: T111028201-RP1 Evaluation applied MPE Evaluation*
SAR Evaluation N/A Remark:
The maximum output power is 25.57dBm (360.571mW) at 2442MHz (with 5.63 numeric antenna gain.) TEST RESULTS No non-compliance noted. MPE EVALUATION No non-compliance noted. Page 218 Compliance Certification Services Inc. FCC ID: P27-WAP321 Report No.: T111028201-RP1 Calculation 30 GP d 2E 3770
=
S =
&
E Where E = Field strength in Volts / meter Given Combining equations and re-arranging the terms to express the distance as a function of the remaining variables yields:
P = Power in Watts G = Numeric antenna gain d = Distance in meters S = Power density in milliwatts / square centimeter S
=
GP 30 d 3770 2 Changing to units of mW and cm, using:
P (mW) = P (W) / 1000 and d (cm) = d(m) / 100 Yields S
=
(
P
/
30 1000
(
d 3770
) G
) 2 100
/
=
.0 0796 GP d 2 Equation 1 Where d = Distance in cm P = Power in mW G = Numeric antenna gain S = Power density in mW / cm2 Maximum Permissible Exposure S
.0
= 000199 Substituting the MPE safe distance using d = 20 cm into Equation 1:
Yields Where P = Power in mW G = Numeric antenna gain S = Power density in mW / cm2 GP Page 219 Compliance Certification Services Inc. FCC ID: P27-WAP321 Report No.: T111028201-RP1 Mode 1 IEEE 802.11n HT 20 MHz mode:
EUT output power = 319.15 mW Numeric Antenna gain = 5.63
Power density = 0.3575 mW / cm2 IEEE 802.11n HT 40 MHz mode:
EUT output power = 360.57mW Numeric Antenna gain = 5.63
Power density = 0.4039 mW / cm2 Mode 2 IEEE 802.11n HT 20 MHz mode:
EUT output power = 309.74 mW Numeric Antenna gain = 5.63
Power density = 0.3470 mW / cm2 IEEE 802.11n HT 40 MHz mode:
EUT output power = 354.81mW Numeric Antenna gain = 5.63
Power density = 0.3975 mW / cm2 Page 220 Compliance Certification Services Inc. FCC ID: P27-WAP321 Report No.: T111028201-RP1 Mode 3 IEEE 802.11b mode:
EUT output power = 149.96 mW Numeric Antenna gain = 2.93
Power density = 0.0874 mW / cm2 IEEE 802.11g mode:
EUT output power = 260.01 mW Numeric Antenna gain = 2.93
Power density = 0.1516 mW / cm2 IEEE 802.11n HT 20 MHz mode:
EUT output power = 323.59 mW Numeric Antenna gain = 5.63
Power density = 0.362541 mW / cm2 IEEE 802.11n HT 40 MHz mode:
EUT output power = 343.55mW Numeric Antenna gain = 5.63
Power density = 0.3849 mW / cm2
(For mobile or fixed location transmitters, the maximum power density is 1.0 mW/cm2 even if the calculation indicates that the power density would be larger.) Page 221 Compliance Certification Services Inc. FCC ID: P27-WAP321 Report No.: T111028201-RP1 Wireless-N Selectable-Band Access Point with PoE EUT Frequency band (Operating) Device category Exposure classification Antenna diversity Max. output power Antenna gain (Max) Evaluation applied WLAN: 2.412GHz ~ 2.462GHz WLAN: 5.725GHz ~ 5.850GHz Others: Bluetooth: 2.402GHz ~ 2.480GHz Portable (<20cm separation) Mobile (>20cm separation) Others Occupational/Controlled exposure (S = 5mW/cm2) General Population/Uncontrolled exposure
(S=1mW/cm2) Single antenna Multiple antennas Tx diversity Rx diversity Tx/Rx diversity Mode 1:
5GHz:
IEEE 802.11n HT 20 MHz mode: 23.68 dBm(233.34mW) IEEE 802.11n HT 40 MHz mode: 24.34 dBm(271.64mW) Mode 2:
5GHz:
IEEE 802.11n HT 20 MHz mode: 23.97 dBm(249.45mW) IEEE 802.11n HT 40 MHz mode: 23.79 dBm(239.33mW) Mode 3:
IEEE 802.11a mode: 22.45 dBm(175.7mW) IEEE 802.11n HT 20 MHz mode: 24.14 dBm(259.41mW) IEEE 802.11n HT 40 MHz mode: 24.48 dBm (280.54mW) Antenna Type: PIFA Antenna Antenna Gain:
IEEE 802.11a:
Antenna 1: 4.88 dBi Antenna 2: 4.97 dBi Antenna 3: 4.74 dBi MIMO: 10*LOG(((10^(4.88/20)+10^(4.74/20))^2)/2) = 7.94 dBi
(Numeric gain: 6.22) MPE Evaluation*
SAR Evaluation N/A Remark:
The maximum output power is 24.34dBm (271.64mW) at 5795MHz (with6.22 numeric antenna gain.) TEST RESULTS No non-compliance noted. MPE EVALUATION No non-compliance noted. Page 222 Compliance Certification Services Inc. FCC ID: P27-WAP321 Report No.: T111028201-RP1 Calculation 30 GP d 2E 3770
=
S =
&
E Where E = Field strength in Volts / meter Given Combining equations and re-arranging the terms to express the distance as a function of the remaining variables yields:
P = Power in Watts G = Numeric antenna gain d = Distance in meters S = Power density in milliwatts / square centimeter S
=
GP 30 d 3770 2 Changing to units of mW and cm, using:
P (mW) = P (W) / 1000 and d (cm) = d(m) / 100 Yields S
=
(
P
/
30 1000
(
d 3770
) G
) 2 100
/
=
.0 0796 GP d 2 Equation 1 Where d = Distance in cm P = Power in mW G = Numeric antenna gain S = Power density in mW / cm2 Maximum Permissible Exposure S
.0
= 000199 Substituting the MPE safe distance using d = 20 cm into Equation 1:
Yields Where P = Power in mW G = Numeric antenna gain S = Power density in mW / cm2 GP Page 223 Compliance Certification Services Inc. FCC ID: P27-WAP321 Report No.: T111028201-RP1 Mode 1 IEEE 802.11n HT 20 MHz mode:
EUT output power = 233.34 mW Numeric Antenna gain = 6.22
Power density =0.2888 mW / cm2 IEEE 802.11n HT 40 MHz mode:
EUT output power = 271.64mW Numeric Antenna gain = 6.22
Power density =0.3362 mW / cm2 Mode 2 IEEE 802.11n HT 20 MHz mode:
EUT output power = 249.45 mW Numeric Antenna gain = 6.22
Power density = 0.3087 mW / cm2 IEEE 802.11n HT 40 MHz mode:
EUT output power = 239.33mW Numeric Antenna gain = 6.22
Power density = 0.2962 mW / cm2 Page 224 Compliance Certification Services Inc. FCC ID: P27-WAP321 Report No.: T111028201-RP1 Mode 3 IEEE 802.11a mode:
EUT output power = 175.7 mW Numeric Antenna gain = 3.14
Power density = 0.1097 mW / cm2 IEEE 802.11n HT 20 MHz mode:
EUT output power = 259.41 mW Numeric Antenna gain = 6.22
Power density = 0.3210 mW / cm2 IEEE 802.11n HT 40 MHz mode:
EUT output power = 280.54mW Numeric Antenna gain = 6.22
Power density = 0.3472 mW / cm2
(For mobile or fixed location transmitters, the maximum power density is 1.0 mW/cm2 even if the calculation indicates that the power density would be larger.) Page 225
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2015-11-17 | 5755 ~ 5795 | NII - Unlicensed National Information Infrastructure TX | Class II Permissive Change |
2 | 2422 ~ 2452 | DTS - Digital Transmission System | ||
3 | 2012-01-20 | 5190 ~ 5230 | NII - Unlicensed National Information Infrastructure TX | Original Equipment |
4 | 5755 ~ 5795 | DTS - Digital Transmission System |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 2 3 4 | Effective |
2015-11-17
|
||||
1 2 3 4 |
2012-01-20
|
|||||
1 2 3 4 | Applicant's complete, legal business name |
Sercomm Corporation
|
||||
1 2 3 4 | FCC Registration Number (FRN) |
0015548027
|
||||
1 2 3 4 | Physical Address |
8F, No. 3-1, YuanQu St, NanKang
|
||||
1 2 3 4 |
Taipei, N/A
|
|||||
1 2 3 4 |
Taiwan
|
|||||
app s | TCB Information | |||||
1 2 3 4 | TCB Application Email Address |
V******@tuvam.com
|
||||
1 2 3 4 |
c******@ccsemc.com
|
|||||
1 2 3 4 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
app s | FCC ID | |||||
1 2 3 4 | Grantee Code |
P27
|
||||
1 2 3 4 | Equipment Product Code |
WAP321
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 2 3 4 | Name |
N**** W********
|
||||
1 2 3 4 | Title |
Engineer
|
||||
1 2 3 4 | Telephone Number |
886-2******** Extension:
|
||||
1 2 3 4 | Fax Number |
886-2********
|
||||
1 2 3 4 |
N******@SERCOMM.COM
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 2 3 4 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 2 3 4 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 2 3 4 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 2 3 4 | Equipment Class | NII - Unlicensed National Information Infrastructure TX | ||||
1 2 3 4 | DTS - Digital Transmission System | |||||
1 2 3 4 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Wireless-N Selectable-Band Access Point with PoE | ||||
1 2 3 4 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 2 3 4 | Modular Equipment Type | Does not apply | ||||
1 2 3 4 | Purpose / Application is for | Class II Permissive Change | ||||
1 2 3 4 | Original Equipment | |||||
1 2 3 4 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | Yes | ||||
1 2 3 4 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 2 3 4 | Grant Comments | C2PC as described in this filing. Output power is conducted. This device has 20 and 40 MHz BW modes. The antenna used for this transmitter must be installed to provide a separation distance of at least 20 cm from all persons. End users and installers must be provided with antenna installation instruction and transmitter operation conditions for satisfying RF Exposure compliance. | ||||
1 2 3 4 | C2PC as described in this filing. Output power is conducted. The antenna used for this transmitter must be installed to provide a separation distance of at least 20 cm from all persons. End users must be informed of the requirements for satisfying RF Exposure compliance. | |||||
1 2 3 4 | Power listed is conducted. The antenna(s) used for this transmitter must be installed to provide a separation distance of at least 20 cm from all persons and must not transmit simultaneously with any other antenna or transmitter, except in accordance with FCC multitransmitter product procedures. End-users must be provided with transmitter operating conditions for satisfying RF exposure compliance. | |||||
1 2 3 4 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 2 3 4 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 2 3 4 | Firm Name |
Compliance Certification Services Inc.
|
||||
1 2 3 4 | Name |
H******** L********
|
||||
1 2 3 4 | Telephone Number |
886-2******** Extension:
|
||||
1 2 3 4 | Fax Number |
886-2********
|
||||
1 2 3 4 |
h******@sgs.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15E | 38 CC MO | 5180 | 5240 | 0.021 | |||||||||||||||||||||||||||||||||||
1 | 2 | 15E | 38 CC MO | 5190 | 5230 | 0.019 | |||||||||||||||||||||||||||||||||||
1 | 3 | 15E | 38 CC MO | 5745 | 5825 | 0.2597 | |||||||||||||||||||||||||||||||||||
1 | 4 | 15E | 38 CC MO | 5755 | 5795 | 0.2806 | |||||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
2 | 1 | 15C | CC | 2412 | 2462 | 0.3237 | |||||||||||||||||||||||||||||||||||
2 | 2 | 15C | CC | 2422 | 2452 | 0.3603 | |||||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
3 | 1 | 15E | CC | 5180 | 5240 | 0.021 | |||||||||||||||||||||||||||||||||||
3 | 2 | 15E | CC | 5180 | 5240 | 0.02 | |||||||||||||||||||||||||||||||||||
3 | 3 | 15E | CC | 5190 | 5230 | 0.019 | |||||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
4 | 1 | 15C | CC | 2412 | 2462 | 0.15 | |||||||||||||||||||||||||||||||||||
4 | 2 | 15C | CC | 2412 | 2462 | 0.26 | |||||||||||||||||||||||||||||||||||
4 | 3 | 15C | CC | 2412 | 2462 | 0.3237 | |||||||||||||||||||||||||||||||||||
4 | 4 | 15C | CC | 2422 | 2452 | 0.3603 | |||||||||||||||||||||||||||||||||||
4 | 5 | 15C | CC | 5745 | 5825 | 0.1758 | |||||||||||||||||||||||||||||||||||
4 | 6 | 15C | CC | 5745 | 5825 | 0.2597 | |||||||||||||||||||||||||||||||||||
4 | 7 | 15C | CC | 5755 | 5795 | 0.2806 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC