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Addendum | Users Manual | 21.77 KiB | April 02 2013 / May 02 2013 | |||
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Manual | Users Manual | 5.42 MiB | April 02 2013 / May 02 2013 | |||
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1 2 | Ops | Operational Description | February 04 2013 | confidential | ||||
1 2 | Schema | Schematics | February 04 2013 | confidential | ||||
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1 2 | Ant Spec | Operational Description | February 04 2013 | confidential | ||||
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1 2 | Module Spec | Operational Description | February 04 2013 | confidential | ||||
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1 2 | Addendum | Users Manual | 21.77 KiB | April 02 2013 / May 02 2013 |
FCC INFORMATION This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions:
1. This device may not cause harmful interference, and 2. This device must accept any interference received, including interference that may cause undesired operation. Note: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
Reorient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help. Caution: Any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate this equipment. RF Exposure: A distance of 20 cm shall be maintained between the antenna and users, and the transmitter module may not be co-located with any other transmitter or antenna.
1 2 | Manual | Users Manual | 5.42 MiB | April 02 2013 / May 02 2013 |
Integrated Wireless IP Camera INTRODUCTION Thank you for purchasing the Nexxt Solutions XPY 300 Camera. Our new XPY is an integrated wireless IP Camera solution that combines a high quality digital video camera with network connectivity and a powerful web server to bring a clear picture to your desktop or mobile phone from anywhere on your local network or over the Internet. 2 Nexxt Solutions - Integrated Wireless IP Camera BEFORE YOU BEGIN This camera is intended for indoor use only. Use the supplied power adaptor to connect the camera to the AC mains (5.0V DC, 1.5A). The warranty does not cover any damage caused by applying the wrong voltage. Never attempt to disassemble the unit. The warranty does not cover damages as a result of tampering with, or the improper alteration of the device. Do not point the camera at the sun or at any other strong light source. Do not install the camera where it can be exposed to rain or water Wait at least 10 seconds when powering the camera on and off. Otherwise, it can cause serious damage to the CPU. When updating the camera, please make sure that:
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the camera is connected directly to a computer using a network cable;
all other programs and windows on the computer have been closed;
the camera remains connected during the entire firmware update.
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3 Nexxt Solutions - Integrated Wireless IP Camera FEATURES The camera combines a high-sensitivity 1/4 CMOS image sensor with a powerful wireless web server in order to capture clear images from anywhere, and to transmit them instantly on your local network or over the internet. Can be used on WiFi or wired networks. Selectable image resolution of 640x480 and 320x240 pixels. The system can be expanded at any time by adding multiple cameras. View multiple cameras in split screen view or choose full screen in order to monitor the activity from a single camera. Cameras can be viewed via standard PC or Mac browsers, including Internet Explorer, Safari, Chrome and Firefox. Infrared LEDs for night vision (up to 15 meters). Includes multi-level user management system, which can be configured with passwords for controlled access. Easy- to-use web browser controls. They also allow quick configuration changes via the settings menu. Compatibility with smartphones enables you to view real-time videos over the internet using any standard browser. Supports image snapshots and image forwarding via email and FTP upload. NOTES ON WINDOWS AND MAC COMPATIBILITY:
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IP camera setup should be completed on a Windows PC only using Internet Explorer. Live viewing, taking snapshots, recording and camera configuration are fully supported on computers with Windows operating systems.
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4 Nexxt Solutions - Integrated Wireless IP Camera Mac users are only able to:
view live images via compatible web browsers
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including Safari, Firefox and Chrome but are limited to viewing one camera at a time. take and save snapshot images via the web browser interface.
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PACKAGE CONTENTS Open the box and make sure all items listed below are included:
x1 x1 x1 x1 Wireless IP Camera AC power adaptor Quick installation guide CD-ROM
(includes the IP Super Client Software) Network cable Mounting bracket and hardware NOTE: if any of the listed items are missing or damaged, please notify immediately the Nexxt Solutions reseller from whom you purchased the product for replacement or warranty information. x1 CAMERA INSTALLATION Our WiFi Camera can be set up in minutes for instant monitoring and live viewing on your Windows computer and 3G Smartphone - all via your wireless network router or switch. For optional recording capabilities, simply install the recording software in your Windows PC and configure it according to your particular needs. 5 Nexxt Solutions - Integrated Wireless IP Camera 1. 2. Begin by screwing the bracket to the camera. Connect the camera using the power adaptor that comes with the product. Using a standard Ethernet network cable, connect the camera to your network. The camera can either be connected to a router/
switch or directly to a PC with an Ethernet network cable. We recommend setting up the camera on your network using a wired connection prior to using the device in a wireless configuration. INTERNET Internet connection Computer Modem Intranet Cellular Phone PDA IP Camera 3. Continue with the setup of the camera (as described in the following chapter). Once the camera has been successfully connected to your network, it can be mounted on the wall or ceiling using the wall plugs and screws included with the device. (The initial set up must be performed using Windows operating system only). 1. Plug the cable into the RJ-45 connector on the rear of the camera.. 6 Nexxt Solutions - Integrated Wireless IP Camera 2. Plug the other end into an available RJ-45 port on your router. 3. Connect the power cable to the wall outlet. Please note that if you are using the camera on a wireless network, you will need to configure the camera for wired use, prior to configuring wireless settings in the device (later described in this manual). Accessing the IP camera Using the IP Super Client Software Note: The IP network camera is designed to work in a local area network (LAN) or over the internet. For the first method, we highly recommend using the software included in the CD. The installation steps are described below. 1. Introduction The IP camera Super Client is an easy-to-use software designed for surveillance applications with multiple cameras. This software includes PT controls, recording, alarm notifications, in addition to a central management feature that allows the administration, configuration and access control settings for each individual device. 7 Nexxt Solutions - Integrated Wireless IP Camera Nexxt Solutions - Integrated Wireless IP Camera Functions:
*Supports up to 81-video monitoring in one screen
*Supports multi-level structured device list.
*Supports scheduled recording with alarm.
*Supports panoramic recording.
*Supports motion detection, sound alert and external alarm trigger.
*Supports audio, SMS, SMS modem, dialing, email, FTP and alarm output switch.
*Supports inquiries, browsing of alarm and operation log records.
*Supports multi-level access management.
*Supports remote login to check records and alarm records. Adding devices After installing the client software, we need to add the devices. When running the program, the device list on the right of the main interface is empty; there is a guide to show you how to add the devices. Click the right button to choose add new device or add new group. This program supports a multi-level structure to manage existing devices. 8 Nexxt Solutions - Integrated Wireless IP Camera Now, lets take the 300-series and 330-series as examples to introduce the adding device option. 300-Series Image:
9 330-Series Image:
Name: name assigned to the camera, used to distinguish it from other devices connected. This 10 Nexxt Solutions - Integrated Wireless IP Camera name will be displayed on the camera list name will be displayed on the camera list. Basic information: the basic information used for connecting the camera, such as connection method, username, password, PT protocol, etc. Device parameters: set size of the image and frame rate. Not all series have this option available. Alarm: this menu contains all the alarm-related settings. Record: this menu contains all recording related settings. Connection Information IP/Domain mode: This mode provides LAN access to the camera, or to a camera which has a domain or fixed IP. To use this mode, an incoming port should be assigned. By default, this port is set to 81. Username/Password: the username and password used to access the camera. Forwarding Server: it provides access to videos by retrieving the files from the server. This requires the setup of server settings. This mode cannot support PT control. Support P2P: supports P2P technology. This mode cannot support PT Control. 11 Nexxt Solutions - Integrated Wireless IP Camera Camera Parameters 300-Series Image 330-Series Image 12 Nexxt Solutions - Integrated Wireless IP Camera This menu is used to quickly set the camera parameters. Not all models have this function. Click the Get button to obtain the current settings. Click Apply or Set depending on the model to save your modifications. Alarm It includes all the alarm-related settings. Please refer to the Alarm section for more details. Record It includes all the recording-related settings. Please refer to the Recording section for more details. Freq./Time setup It is used to schedule a timing action to change the lightning frequency. Additional information It is used to enter personal-related information, such as user name, telephone, address, and memo. Introduction to the main window Below is the main window of the client software. 13 Nexxt Solutions - Integrated Wireless IP Camera Device Tree Components: this tree provides a visual representation of all detected devices. Supports multi-level structure from which users can connect or disconnect devices in a particular group. Users can double click on a device to connect it and see the video in the display area, or click the Camera/
Group Options button to modify the settings. Display Control Panel: users can choose between full view in a single screen or a split screen configu-
ration of 4, 9,16,25,36,49, 64 or 81 frames. PT Control Panel: direction buttons for controlling the Pan and Tilt feature of the camera. This only applies to the P/T camera models. Main Menu: Allows the user to connect or disconnect all the devices, open the history manager, system setup, and other functions. PT Control This feature is available based on the model of the camera. If your camera supports the Pan and Tilt feature, enable it using the client software. Once enabled, the movement of the camera can be controlled with the buttons in the PT control area. Video Recording Video recording is a basic function of the client soft-
ware, where users can choose to record 14 Nexxt Solutions - Integrated Wireless IP Camera continuously, schedule a recording or setup a recording whenever an alarm is triggered. Under the Scheduled recording option, users can set specified dates and times. Records will be then saved to the assigned folder path set in the options settings, and will automatically overwrite the earliest files when the disk is full. The user can set the parameter of how long to keep the files. For the IP camera with MJPEG format, the client software can compress the saved data into MPEG4 format, which can be used to reduce the usage of space on the disk. To set record function, right click the device and choose Camera Options or click the Camera/
Group Options button. Next, go to Alarm tab. Enable record: when selecting this option, the recording function will be enabled. Continuous recording: the client software will record all the time. 15 Nexxt Solutions - Integrated Wireless IP Camera Scheduled recording: users can appoint a certain period in which the client will start recording. Alarm The Client software supports various kinds of alarm triggers, alarm events, and can be used to set an alarm schedule. Select the camera in the display area or from the device list, click the right button to choose Camera Options, or click the Camera/Group Options button. Next, go to Alarm tab. 16 Nexxt Solutions - Integrated Wireless IP Camera Enable alarm: in order to use the alarm function, you must check this option. Alarm group: it is a user-defined name to identify and link cameras belonging to the same group. Alarm lasting time: the period of time the software will keep the alarm active. That will have the same duration as the event causing the alarm, which includes the capturing of audio and the video recording time. Schedule trigger: sets the schedule during which alarm can be triggered. 17 Nexxt Solutions - Integrated Wireless IP Camera Days: specify the day(s) of the week the alarm will be triggered. Time: sets a starting and ending time for the alarm. Trigger mode: specifies the type of event that would trigger an alarm. It currently supports motion detection and alarm sensor input (depending on the model). An action on alarm defines how the software will respond once the alert is triggered. The actions supported are: sound, video recording, snapshots, alarm siren, email, FTP uploading, SMS, calling, SMS modem, alarm-output switching, program executing and URL opening. Below is the detailed explanation for each alarm action. Sound: When an alarm is triggered, the program will play a sound on the computer to frighten the intruder. Sounds can be customized. You can choose the sound from the list in the 18 Nexxt Solutions - Integrated Wireless IP Camera program. Select the sound and click OK to save the setting. You can also choose other sound files from your lo-
cal disk drive. In other words, you can record Catch the thief in a file, save it and then select the sound file by clicking the folder button to add the file you want. If you want to read a text on alarm, you can check the Speech icon and edit the contents to be read. In addition to reading the normal text, the program also displays the description of pre-defined features, such the name of the alarm device and alarm time. These pre-defined contents appear within the $$
symbols. The software includes the following pre-defined content:
$$DevName$$: the name of the device sending the alert signal.
$$AlarmTime$$: displays the time when the alarm occurred.
$$Trigger$$: displays the event triggering the alarm. If you only need to read a text having no audio being played, you can choose sound file without specifying the use of one. Check the Speech box below. 19 Nexxt Solutions - Integrated Wireless IP Camera Email: when the alarm goes off, the program will send an email acknowledgement with the pictures or video recording attached. Attachment: the user can choose to send emails with or without attachments, or with pictures or videos. However, when choosing to send an attachment, the user needs to have the live recording function enabled first. Receiver: it is the email address to which the alarm acknowledgement will be sent to. Copy: it is the email address or addresses to which the alarm acknowledgement will send a copy of the message and attachments. Use commas to separate multiple email addresses. Test: when you click this button, the program will send a test email. Users can check whether it was correctly sent or not. If sending fails, the program will show you the details of the failure. Users have the option to choose the mail server according to their own needs. 20 Nexxt Solutions - Integrated Wireless IP Camera FTP Uploading: when the alarm is triggered, the program will upload the snapshots to the FTP server. Upload file: three options are available: picture only, video only, or both picture and video. FTP host address: account information required to access the File Transfer Protocol host. FTP port: the default is set to 21. User name: the user name used in the FTP login window. Password: the FTP password used in the login window. Upload Directory: This is the path used for saving uploaded files. The program will create a folder using the time the alarm went off. The pictures and videos will be saved to this directory. Dialing: when the alarm is triggered, the program will dial the assigned telephone number automatically using the PCs modem. This service requires a modem to be installed on the PC which supports dialing functions. Dialing device: choose the modem from the list that 21 Nexxt Solutions - Integrated Wireless IP Camera supports the dialing feature. Number to be dialed: the number which will be dialed once the alarm is triggered. Test: Click Test to make sure this setting is functional. SMS modem: when an alarm is triggered, the program will send a Short Message Service transmission to the assigned phone through the modem. This service requires an SMS modem to be installed on the PC. SMS modem port: the serial port number which is attributed to the SMS modem. Receiving phone number: the enabled-SMS land line or mobile phone number which will receive the incoming message when the alarm is triggered. SMS interval (in minutes): defines the time interval in minutes that the SMS alerts will go off while the alarm is active. Test: click this button to test this service, the program will send a SMS to the assigned phone number. 22 Nexxt Solutions - Integrated Wireless IP Camera Skype: when an alarm is triggered, the program will use Skype to send Skype messages, text messages, Skype calls and call a mobile phone. This feature requires for Skype to be installed on your computer. When the alarm is triggered, the program will call or open the Skype interface, so that it can execute the actions mentioned above. If Skype is not running, the program will automatically start Skype. You can download Skype by going to http://www.skype.com. Send Skype Message: this option sends a text message to the designated Skype account. Send SMS: this option sends a text message to the designated phone. Please note that this feature requires a Skype account balance. To know more about using Skype to send SMS, recharge informa-
tion, etc., please visit the official Skype website. Call: it places a call to the designated Skype account or to a designated phone number. Please note that the dial a designated telephone number feature requires a Skype account balance. To know more about using Skype to make calls, please visit the Skype official website. 23 Nexxt Solutions - Integrated Wireless IP Camera Test: Click Test to make sure this setting is functional. Application: when the alarm is triggered, the program will execute the selected program. Program: it defines the path for the .exe file belonging to the selected program. Run parameter: the run parameter values should be entered in this box. Run once: this option will execute the command only when the alarm goes off for the first time, with no further action after that. 24 Nexxt Solutions - Integrated Wireless IP Camera URL Link: When the alarm is triggered, the program will open the assigned URL. Usually, this is used to inform other systems about the alert. User Account Administration The Client supports a multi-level management system, whereby different users are granted specific privileges and passwords for controlled access. This function is not enabled by default. Please click the Setup menu button on the lower right side of the dialog window and choose User Account Setup to continue. 25 Nexxt Solutions - Integrated Wireless IP Camera When this feature is enabled, the program will always request authentication from users. By default, the admin account enjoys full administra-
tor privileges. This account can never be deleted;
however, its password can be changed. Add operator: click the Add button and the dialogue box below will appear Once you type in the account information and assign the corresponding permissions, click OK to save it. Privileges to add or remove accounts mean that the account operator can include or delete its dependant users. This takes effect only after logging in with this account 26 Nexxt Solutions - Integrated Wireless IP Camera Delete: the currently selected operator will be erased. Modify authority: it changes the permission level assigned to this operator. Change password: it allows the user to modify the existing password. Log manager The client software has log management function. It will keep records of user operation and device con-
nection information. Click the Setup menu button on the bottom right corner of the dialog box, and then choose Log Management to open the window. 27 Nexxt Solutions - Integrated Wireless IP Camera After selecting the desired device and date, click the Find button. Records publisher Users can remotely view videos and alarm logs using the records publishing tool from the client. Click the Setup menu on the bottom right corner of the dialog box, and choose Record History Web Publisher. The following window will be displayed, as shown below. 28 Nexxt Solutions - Integrated Wireless IP Camera By default, this function is not enabled. You must first select the Enable History Publisher option and click the Apply button to enable this feature. The LAN IP address will be displayed at this point. Users can di-
rectly view records in the LAN if the PC has a fixed IP address. Records can also be accessed by entering the IP address and adding the port number. If using a dynamic IP, then the DDNS feature must be active to be able to view this information remotely. This tool should allow users to register a DDNS account for free. The account name needs to be longer than 5 characters. Click on the free account registration option. The DDNS registration box will appear, as shown below. Fill the form and click the Submit button to save your settings. Once completed, it will exhibit the remote access URL. Please note that port forwarding needs to be set up directly on your router. 29 Nexxt Solutions - Integrated Wireless IP Camera Users can set a password for controlled access permissions. The Web server port is the port provided for re-
mote visit. Normally, this value does not need to be changed, but if that port is being occupied by other devices, users can assign a different port number within the 1 ~ 65535 range. When entering the URL in IE address box, a page like the one below this will be displayed. 30 Nexxt Solutions - Integrated Wireless IP Camera A list containing all the devices with recorded video files will appear. Next, click on any specific device, and a list of recordings identified with the date will be displayed at this stage. When the operator chooses a certain date, the page below will pop up on the screen. The list contains the files recorded that day. When you click on a specific file, it will play the video. 31 Nexxt Solutions - Integrated Wireless IP Camera During playback, the user can rewind or forward the video, take a snapshot or invert the recorded images. The process to remotely access alarm records is the same as with video records. Registration Go to the Setup menu and select Registration. Enter the registration name and code, and click Register to complete the process. The registration name and code can be found on the supplied CD-ROM. Web browser If you access the camera through the Internet Explorer browser directly, type the cameras IP address. 1. To do so, follow the format http://XXX.XXX. XXX.XXX:81, (X represents the IP address and the :81 represents the default port number). 32 Nexxt Solutions - Integrated Wireless IP Camera When done, the camera login page will be displayed on the screen. 2. Click sign in to enter your account and password on the camera login page, as shown below. By default, the administrators username is admin and the password is left blank. You can log on to this page as an Administrator, Operator or Visitor. Access privileges will be assigned on the web browser interface based on the user. Details regarding access rights and user interface are included below. Visitor: when logged in as visitor, the user will be able to view the main monitoring page for all the enabled cameras on the network. Operator: when logged in as an operator, the user will have access to controls and to certain parameters associated with the operation of the camera. Administrator: when logged in as an administra-
tor, the user will have full access to controls, critical 33 Nexxt Solutions - Integrated Wireless IP Camera functions and to the advanced configuration of the camera. 3. If you are using a PC, follow the top link for IE Browsers. This will activate ActiveX which allows access to additional features of the user interface. If you are a Mac user, you can view the camera via a second link, Server Push Mode. This web browser mode features limited functionality; however, it allows you to view live video and take snapshot pictures using the XPY 300. Upgrade firmware Enter the correct User Name and Password to upgrade the system firmware and Web user interface. Main User Interface (as seen in Internet Explorer) Device Status 34 Nexxt Solutions - Integrated Wireless IP Camera Indicates the number of cameras connected on the network. For Viewer When logged in as visitor, the user will be able to view the main monitoring page for all the enabled cameras on the network. This window allows you to choose between Full View or Split Screen configurations. Select the icons according to the view preferred. For example: select Quad view or for Multi Split Screen. for Full Screen, for Add timestamp on record When checked, a timestamp will be added in the bottom right corner of recorded videos. OSD (On Screen Display) for multi-device settings The On Screen Display allows you to see the date and time on the video. Use this option to select the color of the timestamp or to disable the OSD feature. 35 Nexxt Solutions - Integrated Wireless IP Camera Audio switch Click to enable the audio stream from the cam-
era. The icon will change to . In order to be able to listen to the sound around the camera, you need to have an earphone or speaker connected to the computer, and the microphone function enabled. Click this icon once again when you want to disable this feature. Record Click on the icon to begin video recording. The camera will create an AVI file and save it in the folder you specified. Click on this button again when you wish to stop the recording. The audio will be stored provided that the microphone function has been previously enabled. Snapshot: Click on the icon to take a snapshot image. This button provides users a fast way to capture a single image of the video from the camera. Note: the video file would be assigned a name according to the following format:
Alias_actual date.avi For example: if the name of the file containing the video is XPY300K_20101211124441.avi, it means this recording belongs to the device having XPY300K as its alias, and that the video was recorded at 12:44:41 on December 11, 2010. 36 Nexxt Solutions - Integrated Wireless IP Camera For operator When logged in as an operator, the user will have access to the Operator Page, and to certain parameters associated with the operation of the camera. Pan/Tilt This function is not available for this model. Mirror Click the icons to see the horizontal or vertical mirror image. Video rotation options allow you to adjust the image if you set up the camera upside down or in a special position. Resolution Select either VGA (640x480) or QVGA (320x240). Operating mode Select 50Hz or 60Hz frequency, or Outdoor mode. Color parameters: click Brightness and Contrast to adjust the quality of the video. Default All: click to return the settings to their factory default values. For Administrator When logged in as an administrator, the user will have full access to controls, critical functions and to the advanced configuration of the system. Device Status: it displays the device ID, firmware and embedded Web UI version of the device, along 37 Nexxt Solutions - Integrated Wireless IP Camera with other basic information pertaining to the camera. Alias Settings: iallow the administrator to set a name to easily identify the IP camera. Anonymous is the default alias for the XPY300. Date & Time Settings: these are used to determine the time zone for your country. You can choose Sync with NTP Server or Sync with PC Time. User Settings: the administrator can set up a maximum of eight (8) user accounts. New users can be added as an administrator, operator or visitor, each with their own username and password. UPnP Settings - Access this page to find out if the UPnP (Universal Plug and Play) is working correctly on your computer. Upgrade Device Firmware - Upgrade the cameras Firmware and device embedded web UI software on this page. 38 Nexxt Solutions - Integrated Wireless IP Camera Restore Factory Settings - Restores the original settings of the device. Reboot Device - Reboots the device. Multi-Device Settings In the Multi Device Settings page, the user can visualize all devices detected in the LAN. The firmware inside the camera supports up to 9 cameras monitoring at the same time. You may view either 9 or 4 cameras at once in a grid on one screen, or choose to view a single camera at a time. The 1st device is the default IP camera. You can add more cameras to the list in the network for monitoring different areas. To add cameras to the LAN Click The 2nd Device and double click the IP camera from the Device List in LAN. The Alias, Host and HTTP Port will fill in automatically. Enter the correct User Name and Password then click 39 Nexxt Solutions - Integrated Wireless IP Camera Add. Repeat the same procedure to add additional cameras. To add cameras to the Internet First make sure the camera added can be accessed on the Internet with the IP address or DDNS domain. (for example: http://XXX.XXX.XXX. XXX:81 or http://ipcamera.dyndns.org:81). Enter the Host in the format: XXX.XXX.XXX.XXX port: 81 or Host: ipcamera.dyndns.org port: 81. Enter the correct User Name and Password followed by Add. Repeat the same procedure to add more cameras. Basic Network Settings If the router that the IP camera connects to has a DHCP function, you can choose Obtain IP from DHCP Server or you may fill in the network parameters manually. HTTP Port - In most cases, you can leave this value as 80; however, if your Internet Service Provider blocks this port, you may have to switch to another port number, such as 8005. Wireless LAN Settings Enter the wireless settings page of the Wireless Router to find out the SSID, Channel, Encryption and Authentication details. This product supports WEP and WAP security encryption methods. 40 Nexxt Solutions - Integrated Wireless IP Camera ADSL Settings When connected to the Internet through ADSL, you can enter the ADSL username and password obtained directly from your ISP. DDNS Service Settings The system supports protocols from some DDNS providers such as dyndns.org. Fill in the following fields once the DDNS service has been setup. 41 Nexxt Solutions - Integrated Wireless IP Camera User and Password: the User Name and Password used when applying for the domain name. DDNS Host: the domain name. DDNS or Proxy Server: if you access the DDNS host through a proxy, you should enter the Proxy IP here. DDNS or Proxy Port: the Proxy Port. Mail Service Settings Configure the email addresses that will receive and send mails after an alarm is triggered. Sender - This device uses the sender mailbox to send mails. Receiver The account used to receive mails from the Sender. You can set up to 4 receiver mailboxes. SMTP Server - The SMTP server for the sender mailbox. Need Authentication - Check the box if the email needs authentication. If so, please enter the SMTP User Name & Password. Mail test: Set the Mail parameters and click Submit before attempting to send a test email. 42 Nexxt Solutions - Integrated Wireless IP Camera There are 8 possible Mail Test errors:
1. Cannot connect to the server. 2. Network Error. Please try later. 3. Server Error. 4. Incorrect username or password. 5. The Sender is denied by the server - The server needs to authenticate the user; check settings and try again. 6. The Receiver is denied by the server - Could be caused by the anti-spam privacy settings of the server. 7. The message is denied by the server - Could be caused by the anti-spam privacy settings of the server. 8. The server does not support the authentication mode used by the device. Report Internet IP by Mail - Check the box so when the IP camera is powered on or the Internet IP address changes, an email will be sent. (For example: XPY 300`s address is http://119.123.207.96:9002). Make sure the port is mapped to the router correctly by UPnP or Virtual Map function. 43 Nexxt Solutions - Integrated Wireless IP Camera Report Internet IP by Mail - Check the box so when the IP camera is powered on or the Internet IP address changes, an email will be sent. (For example: XPY 300`s address is http://119.123.207.96:9002). Make sure the port is mapped to the router correctly by UPnP or Virtual Map function. FTP Service Settings Note: When under Alarm Service Settings the option Upload Image on Alarm is checked, the FTP Service takes effect. FTP Server - The FTP server address. FTP port - The port usually is 21. FTP Mode - Supports standard (PORT) mode and passive (PASV) mode. Upload Image Now - Check the box to upload an image. When checked, you can input the upload interval time in seconds. FTP Test - Set the FTP parameters and then click Submit before testing the FTP settings. If successful, the user will be prompted accordingly. Otherwise, an error message will be displayed. There are 8 possible FTP test errors:
44 Nexxt Solutions - Integrated Wireless IP Camera 1. Cannot connect to the server - Please check FTP Server settings. 2. Network Error. Please try later. 3. Server Error. 4. Incorrect username or password - Check the username and password. 5. Cannot access the folder - Ensure the folder exists and your account is authorized. 6. Error in PASV mode - Ensure the server supports PASV mode. 7. Error in PORT mode - PASV mode should be selected if the device is behind a NAT. 8. Cannot upload file - Ensure your account is authorized. Alarm Service Settings (Motion Detection) Enter the Alarm Service Settings page to configure the Motion Detection function. When motion detection is enabled, the camera can be triggered to send email alerts and upload images. In the camera monitoring page, the green icons will turn to red and you will hear an alert sound if motion is detected. Note: The default path for saving recorded files is C:\Documents and Settings\All Users\Documents. 45 Nexxt Solutions - Integrated Wireless IP Camera Motion Detection Sensitivity - Sensitivity can be determined in a scale from 1 to 10, 1 being the setting with the highest motion detection sensitivity, while 10 represents the lowest sensitivity available you can preset. Send Mail on Alarm - Sends picture & mail information to the set email address after the alarm is triggered. Upload Image on Alarm - Enable this function to upload an image after the alarm is triggered. REC on schedule and save to PC - Enable this function for automatic recording to start on the scheduled time for several seconds, and save the video in the PC when an alarm has been triggered. ACCESSING THE IP CAMERA Using the WiFi capability To use the wireless feature of the IP Camera, a wireless router is required. Follow the instructions below to get started after the camera has been mounted properly. 1. Use the Network cable to connect the IP Camera to the LAN. 2. Enter IP Camera Tool to search for the camera. 3. When IP address of the camera is listed in the Result Field of the IP Camera Tool, it means the basic configuration is completed. 4. Set the security settings in Internet Explorer on the PC when you view it for the first time. 46 Nexxt Solutions - Integrated Wireless IP Camera 5. Log in to the web browser of the IP camera. 6. Now you can use the IP Camera as a Visitor, Operator or Administration in the LAN. 7. Open the wireless router setup page and enter the SSID, Channel, Security Method (NONE, WEP), Authentication Type and Encryption. NOTE:
This product supports WEP and WAP security encryption methods. 8. Click Submit to reboot the device. 9. Wait at least 30 seconds, then unplug the ethernet cable followed by the power supply. Power on the camera once again, making sure only the power supply is connected. After 30 seconds, if the LED blinks, it indicates the IP camera has started working on WiFi mode. Connect to the Internet through ADSL directly 1. Use the Network cable to connect the IP Camera to PC. 2. Enter IP Camera Tool to search for the camera. 3. Log in to the IP camera web browser page as an Administrator. 4. Enter the ADSL Settings page to input ADSL User Name and password. 5. Enter DDNS Settings Page and enable the DDNS service. Next, click Submit to reboot the camera. 47 Nexxt Solutions - Integrated Wireless IP Camera 6. By connecting the IP Camera to the ADSL directly, you can access the Camera through the Internet using the domain name. NOTE: Choose the option Report ADSL IP by Mail, for the ADSL IP address to be sent via email. Connect to the Internet using a router Follow the steps below to use a router to access the Internet by shared ADSL. If a router is set for dial-up Internet access, setting an ADSL dial-up account and password on the IP Camera is not required. 1. Use the Network cable to connect the IP Camera to the LAN. 2. Open the IP Camera Tool in order to search for the camera. 3. Log in to the IP camera web browser page as an Administrator. 4. Enter the DDNS Settings Page to enable the DDNS service. Next, click Submit to reboot the camera. 5. Now access the Camera directly through the Internet using the domain name. Static IP address users Static IP address users do not need to use DDNS 48 Nexxt Solutions - Integrated Wireless IP Camera for remote access. When the settings of the IP camera in LAN mode are complete, you can access the Camera directly through the Internet using the WAN IP. Two methods are available to obtain the WAN IP address. 1. Obtain the WAN IP from a Website You can discover this easily by turning on a computer using the same connection as the IP camera and entering this address: http://www. whatismyip.com.The page at this address will show you the current WAN IP. 2. Obtain the WAN IP address from the router 1. Obtain the IP address of the router (LAN Gateway address), User Name and Password for logging into the router. 2. Enter the LAN IP address of the router
(ie:192.168.1.1) in the address bar of your PC browser to log on to the router. 3. Open the Status page to find out the WAN address of the router. In this example, the address is 116.25.51.115. 49 Nexxt Solutions - Integrated Wireless IP Camera Accessing the IP Camera over the Internet Users can access the IP Camera from the Internet. Enter the WAN IP address and port number into the browser. For example, http://116.25.51.115:85. Note: Make sure Port mapping is successful. Port mapping can be configured in two ways:
Enter the setting page of the router which the IP camera connects with to enable the UPNP function. To do so, open the the IP camera Upnp Settings dialog box, and make sure the status for Upnp is successful. If your router has the Virtual Map function, enter the router settings page, add the IP cameras IP address and port number to the Virtual map list. How to use DDNS When using ADSL, the IP Camera will connect to the Internet through ADSL automatically. For each ADSL reconnection, your Internet Service Provider will re-assign a new IP address for the IP Camera to facilitate the access. DDNS (Dynamic Domain Name Server) can map the dynamic IP address of an IP Camera to a fixed domain name. Therefore, we can access the IP Camera by the fixed domain name whether the IP address changes or not. The IP address is not necessary when using the DDNS via the domain name to find your network. 1. Go to the website that provides free domain names, such as http://www.dyndns.com. Register to apply for a free domain name. 50 Nexxt Solutions - Integrated Wireless IP Camera 2. Enter DDNS Settings Page to enable the DDNS service, and click Submit to reboot the camera. 3. Re-log in to the Camera web browser as Administrator and enter the DDNS Service Settings page to check if the DDNS Status has been successfully changed to DynDNS. 4. Enter the UPnP Settings page, the UPnP Status should be Successful UPnP Session. If not, you may enter the Basic Network Settings page to change the Http Port. Then click Submit and reboot device. 5. Re-log in to the Camera homepage to check and make sure the DDNS Status and UPnP Status have been successfully configured. 6. You only need to enter the domain name (Domain name+Port number http://ipcam.domain.net:81) in the IE address bar, and the browser will visit the IP Camera. Wait for several minutes and the IP Camera will access the Internet automatically. Another way the user can access the IP camera from a WAN is by using the DDNS domain name. 51 Nexxt Solutions - Integrated Wireless IP Camera If the gateway settings and DDNS settings have been completed, enter the DDNS dynamic domain name (for example,http://ipcam.vicp.net, do not add www.) in the address bar of IE to access the IP Camera. If multiple IP Cameras are connected to the same router, enter DDNS dynamic domain with the port number (for example, http://ipcam.vicp. net:85) in the address bar of IE to access different IP cameras. Accessing the IP Camera from your mobile phone Compatibility with mobile phones using 3G technology enables you to view real-time videos and change configuration settings over the internet using any supported browser (Google Browser or FireFox). Using other web browsers, you may have limited functionality, for instance when viewing or streaming live video. An IP camera can send a snapshot picture to an email account accessible via a cell phone. Cell phone surveillance also allows the user to adjust camera settings and video resolution for a mobile feed where video could then be accessible on a cell phone. There are applications that allow for advanced PT control at your fingertips, access to multiple cameras from different locations and even remote video playback. Follow the steps below to gain access to the IP Camera from your mobile phone:
1. Go to mobile internet browser 2. Enter http://the external IP address of your IP 52 Nexxt Solutions - Integrated Wireless IP Camera Camera: port number 3. Demo example: http://y-cam.dtns.net:8152. 4. This will bring up the authentication window to enter your user security settings. 5. Next, a window with 2 different option will pop up. 6. Select the best option based on the web browser supported by your particular phone. 7. Click on Live Video to see real time video footage captured by the camera. Frequently Asked Questions Note: Please check network connections first to troubleshoot any potential problems. Check if any LED on the network, server, hub, exchange or network card is showing signs of malfunction. In case of abnormal operation, verify that all connec-
tions on the network have been done correctly. In addition, you can see the list of problems below, as it contains the solution to the most common problems encountered while setting up the camera:
What do I do if I have forgotten the administrator User Name and/or password?
To reset the administrator User Name and password, press and hold down the RESET button for 5 seconds. Release the power button and the User Name and password will be reset back to their factory default configuration. Default administrator User Name: admin Default administrator password:
no password 53 Nexxt Solutions - Integrated Wireless IP Camera IP Address configuration Check whether the IP address of the IP Camera server shares the same subnet as your work station: Click My Computer > Control Panel > Net-
work & Dial-up Connections > LAN > Attributes >
Internet Protocols (TCP/IP). Make sure they are in the same subnet when configuring the cameras IP address manually if you are unable to access IP Camera via a web browser. Network Configuration Double check to ensure that your HTTP server software is configured and running properly. If you are running any firewall software, make sure it is allowing inbound connections to port 80. Also, if you happen to be using a cable/DSL router, verify that you have set up the port forwarding feature properly (consult your routers documentation for more information). If none of these seem to be the problem, it is also possible that your ISP is blocking inbound connections to port 80 - many ISPs have done this because of internet worms, such as Code Red. If this is the case, you will have to setup your HTTP server on an alternate port (such as 8080). Picture Problems Video streaming is transmitted by the ActiveX controller. If the ActiveX controller is not installed correctly, no video image will be seen. There are two ways to solve this problem:
54 Nexxt Solutions - Integrated Wireless IP Camera 1. Install the IP Camera Tool. ActiveX controller will be installed simultaneously (recommended). 2. Download ActiveX controller and set the Security Properties of IE on the PC when you view it for the first time: Go to Tools > Internet Properties >
Security > Custom Level > ActiveX control and Plug-ins. All 3 options need to be set to Enable.
- Enable: Download unsigned ActiveX controls.
- Enable: Initialize and script ActiveX controls not marked as safe.
- Enable: Run ActiveX controls and plug-ins. Problems with network bandwidth The image frame rate depends on the following factors:
1. Network bandwidth. 2. PC performance, network environment and display preference setting (brightness, theme, etc). 3. The number of visitors (too many visitors will slow down the image frame rate). 4. Choice of switch or hub (use a switch for multiple IP cameras rather than a hub). Pop up appears saying Fail to connect to the device This prompt will only appear when using multiple cameras. Enter the Multi-Device Settings page (log in as an Administrator) to check whether the Device settings are correct. When one of the multiple cameras disconnects, the icon changes color to yellow and the pop-up prompt Failed to connect to the device is displayed. 55 Nexxt Solutions - Integrated Wireless IP Camera Cant access the IP camera on the internet?
There could be a number of reasons:
1. ActiveX controller is not installed correctly. 2. The port IP camera being used is blocked by Firewall or an anti-virus software. Use a different port number and try again. 3. Port mapping failed. There are two ways available for configuring port mapping:
Open the setting page of the router which the IP camera connects with to allow the UPNP function. Go to the IP cameras UPnP Settings to enable UPnP, making sure the UPnP configuration is successful. If your router has the Virtual Map function, enter the router setting page, and add the IP cameras IP address and port number to the Virtual map list. Problems with using the Firefox browser -
monitoring pages are not displayed normally Due to security issues, the Firefox browser does not support ActiveX controls, but it provides a plug-in named IE-Tab which enables Firefox to support ActiveX controls. Using the Firefox browser, you can access the website as follows:
https://addons.mozilla.org/en-US/firefox/addon/1419. On the download page, select the right version for your browser, download it, and start installing the plug in. The installation steps for the Firefox browser
(version 2.0.0.18) plug-in are detailed as follows:
1. Select the right version, as shown in the figure below. 56 Nexxt Solutions - Integrated Wireless IP Camera 2. Click Add to Firefox (in Windows) to start the download. 3. Wait for the download to complete. A dialog box will pop-up as shown as in the chart below. 1. Click the Install Now button to start installation. 57 Nexxt Solutions - Integrated Wireless IP Camera 5. When installation is complete, click Restart Firefox to initialize the browser. 6. Log in to your device and locate the monitoring page, right click on the web browser page and click the new menu item named View page in IE-Tab to log in to the IP camera again. 58 Nexxt Solutions - Integrated Wireless IP Camera Default Parameters Default network parameters IP address:
Subnet mask: 255.255.255.0 Gateway:
DHCP:
DDNS:
Automatically obtained Disabled Disabled Automatically obtained Username and password Default Administrator User Name: admin Default Administrator Password: no password 59 Nexxt Solutions - Integrated Wireless IP Camera SPECIFICATIONS Specifications Model Camera Audio Video Network Alarm General Image sensor Lens Infrared LED Pixels Night vision range AWS/AGC/AES Compression format Minimum Illumination Viewing angle Audio Input Output Image format Max. frame rate Resolution Network interface Supported protocols WI-FI Motion detection Alarm events Periodic sending User authentication Web browser Simultaneous viewers Mobile compatibility Power Power consumption Operating temperature Storage temperature Operating humidity Storage humidity Gross weight Certifications Warranty AILR6324U1 1/4 color CMOS 4 mm 21 pcs 300,000 15 m Auto MJPEG 0.1 Lux Horizontal 57 Vertical 49.5 2 way audio Built in microphone Built in speaker PAL/NTSC 25 fps Resolution 640480 (VGA), 320240 (QVGA) RJ-45 (10BASE-T/100BASE-TX) TCP/UDP/IP/ARP/ICMP/DHCP/DNS/HTTP/FTP/SMTP/NTP/PPPOE/UPNP/DDNS IEE802.1 b/g Motion detection and video recording to local storage Notification via email, FTP Send pictures to Email/FTP within the time specified User/password; administrator/operator/general user IE 6.0 or above version, Mozilla Firefox, Safari, Opera, Chrome ,etc 10 viewers@320x240 4 viewers@640x480 Supports Nokia, Android, Windows mobile phone, Iphone and other smart cellular phones DC 5V 1.5 A 4W/6W (Infrared off/on)
-10 to+55 C
-20 to+60 C 20- 80% RH 20- 95%RH 600 g (including accessories) CE; FCC; RoHS Limited one year warranty 60 Nexxt Solutions - Integrated Wireless IP Camera
1 2 | Int | Internal Photos | 898.87 KiB | April 02 2013 / May 02 2013 |
EUT INTERNAL PHOTOGRAPHS EUT Uncovered View Antenna EUT PCB View EUT-LED PCB View EUT WIFI Module View EUT WI-FI MODUL View ANTENNA
1 2 | Ext | External Photos | 188.64 KiB | April 02 2013 / May 02 2013 |
EUT EXTERNAL PHOTOGRAPHS EUT View EUT Front View EUT Rear View EUT Side View EUT Adapter View
1 2 | Label | ID Label/Location Info | 10.34 KiB | April 02 2013 / May 02 2013 |
FCC ID Label Sample for FCC ID: X4Y340u1 for FCC ID: X4Y340U 1 Nexxt Solutions Product: IP Camera FCC ID: X4Y340U 1 Model: XPY300
1 2 | Location | ID Label/Location Info | 35.33 KiB | April 02 2013 / May 02 2013 |
FCC ID Label Location FCC ID Label Location
1 2 | 15B Report | Test Report | 405.91 KiB | April 02 2013 / May 02 2013 |
FCC PART 15 SUBPART B MEASUREMENT AND TEST REPORT For Nexxt Solutions Product description:
Model No.:
Supplementary Model: N/A FCC ID:
IP Camera XPY300 X4Y340U1 Prepared for: Nexxt Solutions 3505 NW 107th Ave, Miami, Fl., 33178, USA Prepared by: Bontek Compliance Laboratory Co., Ltd Report No.:
Issue Date:
Test Date:
Tested by:
Approved by:
1/F, Block East H-3, OCT Eastern Ind. Zone, Qiaocheng East Road, Nanshan, Shenzhen, China Tel: 86-755-86337020 Fax: 86-755-86337028 BCT12KR-2203E-1 January 19, 2013 November 26, 2012~January 19, 2013 Reviewed by:
Lion Cai Tony Wu Kendy Wang TABLE OF CONTENTS 1 - GENERAL INFORMATION ....................................................................................................................... 3 1.1 PRODUCT DESCRIPTION FOR EQUIPMENT UNDER TEST (EUT)........................................................................................ 3 1.2 TEST STANDARDS....................................................................................................................................................... 3 1.3 TEST SUMMARY.......................................................................................................................................................... 4 1.4 TEST METHODOLOGY.................................................................................................................................................. 4 1.5 TEST FACILITY............................................................................................................................................................ 5 1.6 TEST EQUIPMENT LIST AND DETAILS............................................................................................................................. 6 2 - SYSTEM TEST CONFIGURATION........................................................................................................... 8 2.1 JUSTIFICATION............................................................................................................................................................ 8 2.2 EUT EXERCISE SOFTWARE ......................................................................................................................................... 8 2.3 SPECIAL ACCESSORIES ............................................................................................................................................... 8 2.4 EQUIPMENT MODIFICATIONS ........................................................................................................................................ 8 2.5 CONFIGURATION OF TEST SYSTEM ............................................................................................................................... 8 2.6 TEST SETUP DIAGRAM ................................................................................................................................................ 8 3 - DISTURBANCE VOLTAGE AT THE MAINS TERMINALS...................................................................... 9 3.1 MEASUREMENT UNCERTAINTY...................................................................................................................................... 9 3.2 LIMIT OF DISTURBANCE VOLTAGE AT THE MAINS TERMINALS........................................................................................... 9 3.3 EUT SETUP ............................................................................................................................................................... 9 3.4 INSTRUMENT SETUP.................................................................................................................................................... 9 3.5 TEST PROCEDURE .................................................................................................................................................... 10 3.6 SUMMARY OF TEST RESULTS ..................................................................................................................................... 10 3.7 DISTURBANCE VOLTAGE TEST DATA........................................................................................................................... 10 3.8 TEST RESULT ........................................................................................................................................................... 10 4 - RADIATED DISTURBANCES ................................................................................................................. 15 4.1 MEASUREMENT UNCERTAINTY.................................................................................................................................... 15 4.2 LIMIT OF RADIATED DISTURBANCES ............................................................................................................................ 15 4.3 EUT SETUP ............................................................................................................................................................. 15 4.4 TEST RECEIVER SETUP ............................................................................................................................................. 16 4.5 TEST PROCEDURE .................................................................................................................................................... 16 4.6 CORRECTED AMPLITUDE & MARGIN CALCULATION ....................................................................................................... 16 4.7 RADIATED EMISSIONS TEST RESULT........................................................................................................................... 16 4.8 TEST RESULT ........................................................................................................................................................... 16 Report No.:BCT12KR-2203E-1 Page 2 of 20 FCC ID: X4Y340U1 1 - GENERAL INFORMATION 1.1 Product Description for Equipment Under Test (EUT) Client Information Nexxt Solutions 3505 NW 107th Ave, Miami, Fl., 33178, USA Nexxt Solutions 3505 NW 107th Ave, Miami, Fl., 33178, USA Applicant:
Address of applicant:
Manufacturer:
Address of manufacturer:
General Description of E.U.T EUT Description:
Model No.:
Supplementary Model:
Trade Mark:
Power Supply:
Adapter description:
IP Camera XPY300 N/A NEXXT Input: 5V DC 1.5A Model: RHD10W050150 Input:100-240V 1.5A 50/60Hz Output: 5V DC 1.5A Remark: * The test data gathered are from the production sample provided by the manufacturer. 1.2 Test Standards The following Declaration of Conformity report of EUT is prepared in accordance with FCC Rules and Regulations Part 15 Subpart B 2011 The objective of the manufacturer is to demonstrate compliance with the described above standards. Report No.:BCT12KR-2203E-1 Page 3 of 20 FCC ID: X4Y340U1 1.3 Test Summary For the EUT described above. The standards used were FCC Part 15 Subpart B for Emissions Table 1 : Tests Carried Out Under FCC Part 15 Subpart B Standard FCC Part 15 Subpart B FCC Part 15 Subpart B Test Items Conduction Emission, 0.15MHz to 30MHz Radiation Emission, 30MHz to 1000MHz Status Indicates that the test is applicable Indicates that the test is not applicable 1.4 Test Methodology All measurements contained in this report were conducted with ANSI C63.4-2009, American National Standard for Methods of Measurement of Radio-Noise Emissions from Low-Voltage Electrical and Electronic Equipment in the range of 9 kHz to 40 GHz. The equipment under test (EUT) was configured to measure its highest possible radiation level. The test modes were adapted accordingly in reference to the Operating Instructions. The maximum emission levels emanating from the device are compared to the FCC Part 15 Subpart B limits for radiation emissions and the measurement results contained in this test report show that EUT is to be technically compliant with FCC requirements. All measurement required was performed at Shenzhen Bontek Compliance Testing Laboratory Co., Ltd at 1/F, Block East H-3, OCT Eastern Ind. Zone, Qiaocheng East Road, Nanshan, Shenzhen, China Report No.:BCT12KR-2203E-1 Page 4 of 20 FCC ID: X4Y340U1 1.5 Test Facility The test facility is recognized, certified, or accredited by the following organizations:
FCC Registration No.: 338263 Shenzhen Bontek Compliance Testing Laboratory Co., Ltd., EMC Laboratory has been registered and fully described in a report filed with the (FCC) Federal Communications Commission. The acceptance letter from the FCC is maintained in our files. Registration 338263, March, 2011. IC Registration No.: 7631A The 3m alternate test site of Shenzhen Bontek Compliance Testing Laboratory Co., Ltd. EMC Laboratory has been registered by Certification and Engineer Bureau of Industry Canada for the performance of with Registration NO.: 7631A on January 2011. The facility also complies with the radiated and AC line conducted test site criteria set forth in ANSI C63.4-2003. CNAS - Registration No.: L3923 Shenzhen Bontek Compliance Testing Laboratory Co., Ltd. to ISO/IEC 17025:25 General Requirements for the Competence of Testing and Calibration Laboratories(CNAS-CL01 Accreditation Criteria for the Competence of Testing and Calibration Laboratories) for the competence in the field of testing.The acceptance letter from the CNAS is maintained in our files: Registration: L3923, March, 2012. TUV - Registration No.: UA 50242657-0001 Shenzhen Bontek Compliance Testing Laboratory Co.,Ltd. An assessment of the laboratory was conducted according to the"Procedures and Conditions for EMC Test Laboratories"with reference to EN ISO/IEC 17025 by a TUV Rheinland auditor. Audit Report NO.17010783-003 Report No.:BCT12KR-2203E-1 Page 5 of 20 FCC ID: X4Y340U1 1.6 Test Equipment List and Details Test equipments list of Shenzhen Bontek Compliance Testing Laboratory Co., Ltd . No. Instrument no. Equipment Manufacturer Model No. S/N ESCI ESPI 100687 100097 Last Calculator 2012-4-17 Due Calculator 2013-4-16 2012-11-1 2013-10-31 8447D 1937A02492 2012-4-20 2013-4-19 NNBM 8124 NNBM 8124 242 243 2012-4-20 2013-4-19 2012-4-20 2013-4-19 R&S R&S HP R&S R&S SCHWARZBECK MDS-21 3812 2012-11-5 2013-11-4 C&C CC-C-1F MF7802113 N/A N/A TESEQ NSG437 125 2012-11-2 2013-11-1 SCHAFFNER MODULA615 0 34572 2012-4-17 2013-4-16 Noiseken FNS-105AX 10501 2012-6-26 2013-6-25 PHILIPS PM5418 TM209947 N/A N/A EVERFINE EMS61000-
8K 608002 2012-4-17 2013-4-16 TESEQ CDN8014 25096 2012-4-17 2013-4-16 ELECTRO-
METRICS ELECTRO-
METRICS ELECTRO-
METRICS EM-6913 EM-6950 EM-6892 166 811 304 2013-11-27 2011-11-28 2011-11-28 2013-11-27 2011-11-28 2013-11-27 SCHWARZBECK VULB9163 9163-324 2012-5-19 2014-5-18 SCHWARZBECK BBHA9120A 0499 2011-11-28 2013-11-27 SCHWARZBECK NSLK8128 8128247 2012-11-1 2013-10-31 1 2 3 4 5 6 7 8 9 BCT-EMC001 EMI Test Receiver BCT-EMC002 EMI Test Receiver BCT-EMC003 Amplifier BCT-EMC004 BCT-EMC005 BCT-EMC006 BCT-EMC007 BCT-EMC008 BCT-EMC009 Single Power Conductor Module Single Power Conductor Module Power Clamp Positioning Controller
`Electrostatic Discharge Simulator Fast Transient Burst Generator 10 BCT-EMC010 Fast Transient Noise Simulator 11 BCT-EMC011 12 BCT-EMC012 Color TV Pattern Genenator Power Frequency Magnetic Field Generator 14 15 BCT-EMC014 Capacitive Coupling Clamp BCT-EMC015 High Field Biconical Antenna 16 BCT-EMC016 17 BCT-EMC017 BCT-EMC018 BCT-EMC019 BCT-EMC020 Log Periodic Antenna Remote Active Vertical Antenna TRILOG Broadband Test-Antenna Horn Antenna Teo Line Single Phase Module BCT-EMC022 BCT-EMC026 Electric bridge RF POWER AMPLIFIER 18 19 20 21 22 23 24 BCT-EMC021 Triple-Loop Antenna EVERFINE LLA-2 Jhai JK2812C 711002 803024 2012-11-15 2013-11-14 N/A N/A FRANKONIA FLL-75 1020A1109 2012-4-17 2013-4-16 BCT-EMC027 CDN FRANKONIA CDN M2+M3 A3027019 2012-4-17 2013-4-16 Report No.:BCT12KR-2203E-1 Page 6 of 20 FCC ID: X4Y340U1 6DB Attenuator FRANKONIA N/A 25 26 27 BCT-EMC029 BCT-EMC030 BCT-EMC031 EM Injection clamp 9kHz-2.4GHz signal generator 2024 28 29 30 31 32 BCT-EMC032 10dB attenuator BCT-EMC033 ISN BCT-EMC034 10KV surge generator BCT-EMC035 HRMONICS&FLICK RE ANALYSER BCT-EMC036 Spectrum Analyzer FCC MARCONI ELECTRO-
METRICS TESEQ 1001698 091536 2012-4-17 2012-4-17 2013-4-16 2013-4-16 112260/042 2012-4-17 2013-4-16 F-203I-23mm 10S/6625-99-
457-8730 EM-7600 836 2012-4-17 2013-4-16 ISN-T800 30301 2012-11-15 2013-11-14 SANKI SKS-0510M 048110003E 321 2012-11-01 2013-10-31 VOLTECH PM6000 200006700433 2012-11-20 2013-11-19 R&S SCH FSP 100397 2012-11-1 2013-10-31 9718-182 2012-4-20 2013-4-19 Broadband preamplifier BCT-EMC037 33 Support equipments or special accessories in test configuration WARZBECK BBV9718 AUX Description:
Manufacturer Model No. Certificate CABLE Notebook LENOVE 0658 CE,FCC N/A Monitor Printer Dell E178Pc CE, FCC EPSON P330A CE, FCC 1.5m Unshielded Power Cord 1.8m shielded data Cable with core 1.2m Unshielded Power Cord 1.5m shielded data Cable Report No.:BCT12KR-2203E-1 Page 7 of 20 FCC ID: X4Y340U1 2 - SYSTEM TEST CONFIGURATION 2.1 Justification The system was configured for testing in a typical fashion (as only used by a typical user). 2.2 EUT Exercise Software The EUT exercising program used during radiated and conducted testing was designed to exercise the various system components in a manner similar to a typical use. The software offered by manufacture, can let the EUT being ON operation. 2.3 Special Accessories As shown in section 2.5, interface cable used for compliance testing is shielded as normally supplied by Nexxt Solutions and its respective support equipment manufacturers. 2.4 Equipment Modifications The EUT tested was not modified by BCT. 2.5 Configuration of Test System 2.6 Test Setup Diagram 1.5m EUT 1.0m Report No.:BCT12KR-2203E-1 Page 8 of 20 FCC ID: X4Y340U1 3 - DISTURBANCE VOLTAGE AT THE MAINS TERMINALS 3.1 Measurement Uncertainty All measurements involve certain levels of uncertainties, especially in field of EMC. The factors contributing to uncertainties are spectrum analyzer, cable loss, and LISN. The Treatment of Uncertainty in EMC Measurements, the best estimate of the uncertainty of any conducted emissions measurement is 3.4 dB. 3.2 Limit of Disturbance Voltage at The Mains Terminals Limits ( dBuV) Frequency Range (MHz) 0.1500.500 0.5005.000 5.00030.00 Quasi-Peak 6656 56 60 Average 5646 46 50 Note: (1)The tighter limit shall apply at the edge between two frequency bands. 3.3 EUT Setup The setup of EUT is according with ANSI C63.4-2009 measurement procedure. The specification used was the FCC Rules and Regulations Part 15 Subpart B limits. The EUT was placed center and the back edge of the test table. The AV cables were draped along the test table and bundled to 30-40cm in the middle. The spacing between the peripherals was 10 cm. Maximum emission emitted from EUT was determined by manipulating the EUT, support equipment, interconnecting cables and varying the mode of operation and the levels in the final result of the test were recorded with the EUT running in the operating mode that maximum emission was emitted. AC120V/60Hz Test Receiver L.I.S.N Load EUT 3.4 Instrument Setup The test receiver was set with the following configurations:
Test Receiver Setting:
Frequency Range.150 KHz to 30 MHz Detector..Peak & Quasi-Peak & Average Sweep SpeedAuto IF Band Width...9 KHz Report No.:BCT12KR-2203E-1 Page 9 of 20 FCC ID: X4Y340U1 3.5 Test Procedure During the conducted emission test, the EUT power cord was connected to the auxiliary outlet of the first Artificial Mains. Maximizing procedure was performed on the six (6) highest emissions to ensure EUT compliance using all installation combination. All data was recorded in the peak detection mode. Quasi-peak and Average readings were only performed when an emission was found to be marginal (within -10 dBV of specification limits). Quasi-peak readings are distinguished with a "QP". Average readings are distinguished with a "AV". 3.6 Summary of Test Results According to the data in section 3.6, the EUT complied with the FCC Part 15 B Conducted margin, with the worst margin reading of:
3.7 Disturbance Voltage Test Data Temperature ( ) Humidity ( %RH ) Barometric Pressure ( mbar ) EUT M/N Operating Mode 22~25 50~55 950~1000 IP Camera XPY300 Connect to PC/On Test data see following pages Remark: (1) When PK reading is less than relevant limit 20dB, the QP reading and AV reading will not be recorded.
(2) Where QP reading is less than relevant AV limit, the AV reading will not be measured PASS 3.8 Test Result Report No.:BCT12KR-2203E-1 Page 10 of 20 FCC ID: X4Y340U1 Conducted Emission:
EUT:
M/N:
Operating Condition:
Test Site:
Operator:
Test Specification:
Comment:
Report No.:BCT12KR-2203E-1 IP Camera XPY300 Connect to PC Shielded Room Yang AC 120V/60Hz for adapter L Line Page 11 of 20 FCC ID: X4Y340U1 Conducted Emission:
EUT:
M/N:
Operating Condition:
Test Site:
Operator:
Test Specification:
Comment:
Report No.:BCT12KR-2203E-1 IP Camera XPY300 Connect to PC Shielded Room Yang AC 120V/60Hz for adapter N Line Page 12 of 20 FCC ID: X4Y340U1 Conducted Emission:
EUT:
M/N:
Operating Condition:
Test Site:
Operator:
Test Specification:
Comment:
Report No.:BCT12KR-2203E-1 IP Camera XPY300 On Shielded Room Yang AC 120V/60Hz for adapter L Line Page 13 of 20 FCC ID: X4Y340U1 Conducted Emission:
EUT:
M/N:
Operating Condition:
Test Site:
Operator:
Test Specification:
Comment:
Report No.:BCT12KR-2203E-1 IP Camera XPY300 On Shielded Room Yang AC 120V/60Hz for adapter N Line Page 14 of 20 FCC ID: X4Y340U1 4 - RADIATED DISTURBANCES 4.1 Measurement Uncertainty All measurements involve certain levels of uncertainties, especially in field of EMC. The factors contributing to uncertainties are spectrum analyzer, cable loss, antenna factor calibration, antenna directivity, antenna factor variation with height, antenna phase center variation, antenna factor frequency interpolation, measurement distance variation, site imperfections, mismatch (average), and system repeatability. The Treatment of Uncertainty in EMC Measurements, the best estimate of the uncertainty of a radiation emissions measurement is 4.0 dB. 4.2 Limit of Radiated Disturbances Frequency (MHz) Distance (Meters) Field Strengths Limits (dBV/m) 30 ~ 88 88~216 216 ~ 960 960 ~ 1000 3 3 3 3 40 43.5 46 54 Note: (1) The tighter limit shall apply at the edge between two frequency bands.
(2) Distance refers to the distance in meters between the test instrument antenna and the closest point of any part of the E.U.T. 4.3 EUT Setup The radiated emission tests were performed in the in the 3-meter anechoic chamber, using the setup accordance with the ANSI C63.4-2009. The specification used was the FCC Part 15 Subpart B limits. The EUT was placed on the center of the test table. Maximum emission emitted from EUT was determined by manipulating the EUT, support equipment, interconnecting cables and varying the mode of operation and the levels in the final result of the test were recorded with the EUT running in the operating mode that maximum emission was emitted. Block diagram of test setup (In chamber) Report No.:BCT12KR-2203E-1 Page 15 of 20 FCC ID: X4Y340U1 4.4 Test Receiver Setup According to FCC Part 15 rule, the frequency was investigated from 30 to 1000 MHz. During the radiated emission test, the test receiver was set with the following configurations:
Test Receiver Setting:
Detector..Peak & Quasi-Peak IF Band Width...120KHz Frequency Range.30MHz to 1000MHz Turntable Rotated.0 to 360 degrees Antenna Position:
Height.1m to 4m Polarity....Horizontal and Vertical 4.5 Test Procedure Maximizing procedure was performed on the highest emissions to ensure that the EUT complied with all installation combinations. All data was recorded in the peak detection mode. Quasi-peak readings performed only when an emission was found to be marginal (within -10 dBV of specification limits), and are distinguished with a "QP" in the data table. 4.6 Corrected Amplitude & Margin Calculation The Corrected Amplitude is calculated by adding the Antenna Factor and Cable Factor, and subtracting the Amplifier Gain from the Amplitude reading. The basic equation is as follows:
Corr. Ampl. = Indicated Reading + Antenna Factor + Cable Factor - Amplifier Gain The Margin column of the following data tables indicates the degree of compliance with the applicable limit. For example, a margin of -7dBV means the emission is 7dBV below the maximum limit for Subpart B. The equation for margin calculation is as follows:
Margin = Limit Corr. Ampl. 4.7 Radiated Emissions Test Result Temperature ( ) Humidity ( %RH ) Barometric Pressure ( mbar ) EUT M/N Operating Mode 22~25 50~54 950~1000 IP Camera XPY300 Connect to PC/On Test data see following pages Remark: (1) When PK reading is less than relevant limit 20dB, the QP reading and AV reading will not be recorded.
(2) Where QP reading is less than relevant AV limit, the AV reading will not be measured 4.8 Test Result PASS Report No.:BCT12KR-2203E-1 Page 16 of 20 FCC ID: X4Y340U1 Radiated Emission Test Data:
EUT:
M/N:
Operating Condition:
Test Site:
Operator:
Test Specification:
Comment:
Report No.:BCT12KR-2203E-1 IP Camera XPY300 Connect to PC 3m CHAMBER Chen AC 120V/60Hz for adapter Polarization: Horizontal Page 17 of 20 FCC ID: X4Y340U1 Radiated Emission Test Data:
EUT:
M/N:
Operating Condition:
Test Site:
Operator:
Test Specification:
Comment:
Report No.:BCT12KR-2203E-1 IP Camera XPY300 Connect to PC 3m CHAMBER Chen AC 120V/60Hz for adapter Polarization: Vertical Page 18 of 20 FCC ID: X4Y340U1 Radiated Emission Test Data:
EUT:
M/N:
Operating Condition:
Test Site:
Operator:
Test Specification:
Comment:
Report No.:BCT12KR-2203E-1 IP Camera XPY300 On 3m CHAMBER Chen AC 120V/60Hz for adapter Polarization: Horizontal Page 19 of 20 FCC ID: X4Y340U1 Radiated Emission Test Data:
EUT:
M/N:
Operating Condition:
Test Site:
Operator:
Test Specification:
Comment:
Report No.:BCT12KR-2203E-1 IP Camera XPY300 On 3m CHAMBER Chen AC 120V/60Hz for adapter Polarization: Vertical Page 20 of 20 FCC ID: X4Y340U1
1 2 | Authorization | Cover Letter(s) | 17.72 KiB | April 02 2013 / May 02 2013 |
Nexxt Solutions FCC Authorization Letter Number: CF304 Version: V03 Date: 01-08-2011 Nexxt Solutions 3505 NW 107th Ave, Miami, Fl., 33178, USA Miami USA Tony Wu Bontek Compliance Laboratory Co., Ltd. 1/F, Block East H-3,OCT Eastern Ind. Zone, Qiaocheng East Road, Nanshan, Shenzhen,Guangdong China We,
(the approval holder) Company name Address City Country declare that the following representative (agent):
Name (person) Company name Address City Country is hereby authorized to apply the following equipment for certification on our behalf:
IP Camera Product Description XPY300 Type or Model(s) Tradename or Brand(s) NEXXT We also authorize Teleconformity (Mr. M. Koop, Manager Certification, Address: Rietven 31, 7534NH Enschede, the Netherlands) to apply and sign this application for certification, registration or filing on our behalf (as representative agent or certifier). Attestation:
City and Country:
Miami, USA 2013-1-21 Miami, USA 2013-1-21 Signature:
(or official company stamp) Name:
(this must be a person) Naftali Mizrachi Vice President Function:
Date:
1 2 | Confid Request | Cover Letter(s) | 68.12 KiB | April 02 2013 / May 02 2013 |
Nexxt Solutions FCC Confidentiality Request Number: CF303 Version: V05 Date: 21-05-2012
(Permanent or also called long term confidentiality is the normal method to keep certain docuements confidential, and may apply to schematics, block diagrams, operational description and bill of materials.) To: Federal Communications Commission Equipment Authorization Branch 7435 Oakland Mills Road Columbia, MD 21046 Pursuant to 47 CFR Section 0.459(a) & (b), we,
(the applicant / grantee) Company name Address City Country Nexxt Solutions 3505 NW 107th Ave, Miami, Fl., 33178, USA Miami,Fl., 33178 USA request for this certification filing under:
Grantee Code Product Number FCC ID:
X4Y340U1 to maintain permanent confidentiality for the following documents submitted within this application:
(please cross what is applicable, or add other documents) Exhibit V Operational Description V Block Diagrams V Schematics Diagrams Description explaining the functioning of the block diagram showing the systematic building blocks of the EUT showing components, their values and interconnection Above materials crossed contain secrets, proprietary and technical information, which would customarily be guarded from competitors under 47 CFR, section 0.457(d)(2). Disclosure or publication or any portion of this company confidential material to other parties could cause substantial competitive harm and provide unjustified benefits for competitors. We understand that pursuant to 47 CFR section 0.457(d)(1)(ii) disclosure of the applicant and all accompanying documentation will not be made before the date of the grant. The documents indicated as confidential above, are not publicly available elsewhere. Attestation:
City and Country:
Enschede, The Netherlands Date:
25-01-2012 Name:
(this must be a person) M.Koop
(authorized) Function:
Manager Signature:
(or official company stamp)
1 2 | Setup | Test Setup Photos | 270.01 KiB | April 02 2013 / May 02 2013 |
TEST SETUP PHOTOGRAPHS Conducted Emission Conducted Emission Radiated Emission Radiated Emission Radiated Emission Above 1GHz
1 2 | RFx | RF Exposure Info | 37.01 KiB | April 02 2013 |
MPE Calculation FCC ID: X4Y340U1 Typical use distance: d 20 cm Power density limit for mobile devices at 2.4 GHz: S 1 mW/cm2 Remark: Average Peak, which means that calculating the power density applying Peak power is worst case. The worst case operation mode generating the highest power in each frequency range is taken for calculation. Frequency range: 2412-2462MHz Maximum measured conducted power (Peak): Pconducted = 16.36 dBm Antenna Gain: G = 2 dBi Calculation: Pradiated = Pconducted + Glinear = 16.36 dBm + 2 dBi = 18.36 dBm = 68.55 mW Power density S = (Pradiated) / (4 x d2) = 68.55 / 5026 = 0.0137 mW/cm2 which is below limit, pass. Frequency range: 2422-2452MHz Maximum measured conducted power (Peak): Pconducted = 10.66 dBm Antenna Gain: G = 2 dBi Calculation: Pradiated = Pconducted + Glinear = 10.66 dBm + 2 dBi = 12.66 dBm = 18.45 mW Power density S = (Pradiated) / (4 x d2) = 18.45 / 5026 = 0.00367 mW/cm2 which is below limit, pass.
1 2 | Test Report | Test Report | 3.04 MiB | April 02 2013 |
Test Report of FCC CFR 47 Part 15 Subpart C On Behalf of Nexxt Solutions FCC ID:
Product Description:
Model No.:
Supplementary Model: N/A Brand Name:
X4Y340U1 IP Camera XPY300 NEXXT Prepared for:
Prepared by:
Report No.:
Issue Date:
Test Date:
Tested by:
Approved by:
Nexxt Solutions 3505 NW 107th Ave, Miami, Fl., 33178, USA Bontek Compliance Testing Laboratory Co., Ltd 1/F, Block East H-3, OCT Eastern Ind. Zone, Qiaocheng East Road, Nanshan, Shenzhen, China Tel: 86-755-86337020 Fax: 86-755-86337028 BCT12KR-2203E January 19, 2013 November 26, 2012~January 19, 2013 Reviewed by:
Lion Cai Tony Wu Kendy Wang TABLE OF CONTENTS 1. GENERAL INFORMATION........................................................................................................................ 3 1.1 PRODUCT DESCRIPTION FOR EQUIPMENT UNDER TEST (EUT).................................................................. 3 1.2 TEST STANDARDS ................................................................................................................................... 3 1.3 TEST FACILITY ........................................................................................................................................ 4 2. SYSTEM TEST CONFIGURATION ........................................................................................................... 5 2.1 EUT CONFIGURATION ............................................................................................................................. 5 2.2 EUT EXERCISE....................................................................................................................................... 5 2.3 GENERAL TEST PROCEDURES ................................................................................................................. 5 2.4 MEASUREMENT UNCERTAINTY................................................................................................................. 5 2.5 LIST OF MEASURING EQUIPMENTS USED.................................................................................................. 6 3. SUMMARY OF TEST RESULTS............................................................................................................... 7 4. TEST OF AC POWER LINE CONDUCTED EMISSION ........................................................................... 8 4.1 APPLICABLE STANDARD........................................................................................................................... 8 4.2 TEST SETUP DIAGRAM ............................................................................................................................ 8 4.3 TEST RESULT ......................................................................................................................................... 8 5. TEST OF MAXIMUM PEAK OUTPUT POWER ...................................................................................... 11 5.1 APPLICABLE STANDARD......................................................................................................................... 11 5.2 EUT SETUP.......................................................................................................................................... 11 5.3 TEST EQUIPMENT LIST AND DETAILS...................................................................................................... 11 5.4 TEST PROCEDURE ................................................................................................................................ 11 5.5 TEST RESULT ....................................................................................................................................... 11 6. TEST OF PEAK POWER SPECTRAL DENSITY ................................................................................... 21 6.1 APPLICABLE STANDARD......................................................................................................................... 21 6.2 EUT SETUP.......................................................................................................................................... 21 6.3 TEST EQUIPMENT LIST AND DETAILS...................................................................................................... 21 6.4 TEST PROCEDURE ................................................................................................................................ 21 6.5 TEST RESULT ....................................................................................................................................... 21 7. TEST OF 6DB BANDWIDTH................................................................................................................... 31 7.1 APPLICABLE STANDARD......................................................................................................................... 31 7.2 EUT SETUP.......................................................................................................................................... 31 7.3 TEST EQUIPMENT LIST AND DETAILS...................................................................................................... 31 7.4 TEST PROCEDURE ................................................................................................................................ 31 7.5 TEST RESULT ....................................................................................................................................... 31 8. TEST OF CONDUCTED SPURIOUS EMISSION.................................................................................... 42 8.1 APPLICABLE STANDARD......................................................................................................................... 42 8.2 EUT SETUP.......................................................................................................................................... 42 8.3 TEST EQUIPMENT LIST AND DETAILS...................................................................................................... 42 8.4 TEST PROCEDURE ................................................................................................................................ 42 8.5 TEST RESULT ....................................................................................................................................... 43 9. TEST OF RADIATED SPURIOUS EMISSION ........................................................................................ 50 9.1 RADIATED SPURIOUS EMISSION............................................................................................................. 50 9.1.1 LIMITS ............................................................................................................................................... 50 9.1.2 EUT SETUP....................................................................................................................................... 51 9.1.3 TEST PROCEDURE ............................................................................................................................. 52 9.1.4 TEST RESULT .................................................................................................................................... 52 9.2 RESTRICTED BAND EDGES ............................................................................................................ 66 10. ANTENNA REQUIREMENT .................................................................................................................. 71 10.1 STANDARD APPLICABLE....................................................................................................................... 71 10.2 ANTENNA CONNECTED CONSTRUCTION ............................................................................................... 71 Report No.: BCT12KR-2203E Page 2 of 71 FCC ID: X4Y340U1 1. GENERAL INFORMATION 1.1 Product Description for Equipment Under Test (EUT) Client Information Applicant:
Address of Applicant:
Manufacturer:
Address of Manufacturer:
Nexxt Solutions 3505 NW 107th Ave, Miami, Fl., 33178, USA Nexxt Solutions 3505 NW 107th Ave, Miami, Fl., 33178, USA General Description of E.U.T Items EUT Description:
Trade Name:
Model No.:
Supplementary Model:
Frequency Band:
Channel Spacing:
Number of Channels:
Transmit Data Rate:
Type of Modulation:
Antenna Type:
Antenna Gain:
Power Supply:
Adapter Information:
Description IP Camera NEXXT XPY300 N/A IEEE 802.11b/g, IEEE 802.11n HT20 (ISM Band) : 2412MHz2462MHz, IEEE 802.11n HT40 (ISM Band) : 2422MHz2452MHz IEEE 802.11b/g, 802.11n HT20/HT40: 5MHz IEEE 802.11b/g, 802.11n HT20:11 Channels IEEE 802.11n HT40 :7 Channels maximum of 150Mbps IEEE 802.11bDSSS (CCK, DQPSK, DBPSK) IEEE 802.11gOFDM (64QAM, 16QAM, QPSK, BPSK) IEEE 802.11n HT20/40OFDM (64QAM, 16QAM, QPSK, BPSK) Built-in Antenna 2dB Input: 5V DC 1.5A Model: RHD10W050150 Input:100-240V 1.5A 50/60Hz Output: 5V DC 1.5A
* The test data gathered are from the production sample provided by the manufacturer. 1.2 Test Standards Report No.: BCT12KR-2203E Page 3 of 71 FCC ID: X4Y340U1 The tests were performed based on the Electromagnetic Interference (EMI) tests performed on the EUT. Both conducted and radiated testing were performed according to the procedures in ANSI C63.4
- 2003 Radiated testing was performed at an antenna to EUT distance 3 meters. The tests were performed in order to determine compliance with FCC Part 15, Subpart C, and section 15.203, 15.207, 15.209 and 15.247 rules and the FCC publication KDB558074 of Guidance on Measurements for Digital Transmission Systems (47 CFR 15.247). 1.3 Test Facility All measurement required was performed at laboratory of Bontek Compliance Testing Laboratory Ltd at 1/F, Block East H-3, OCT Eastern Ind. Zone, Qiaocheng East Road, Nanshan, Shenzhen, China. The test facility is recognized, certified, or accredited by the following organizations:
FCC Registration No.: 338263 Shenzhen Bontek Compliance Testing Laboratory Co., Ltd., EMC Laboratory has been registered and fully described in a report filed with the (FCC) Federal Communications Commission. The acceptance letter from the FCC is maintained in our files. Registration 338263, March, 2011. IC Registration No.: 7631A The 3m alternate test site of Shenzhen Bontek Compliance Testing Laboratory Co., Ltd. EMC Laboratory has been registered by Certification and Engineer Bureau of Industry Canada for the performance of with Registration NO.: 7631A on January 2011. The facility also complies with the radiated and AC line conducted test site criteria set forth in ANSI C63.4-2003. CNAS - Registration No.: L3923 Shenzhen Bontek Compliance Testing Laboratory Co., Ltd. to ISO/IEC 17025:25 General Requirements for the Competence of Testing and Calibration Laboratories(CNAS-CL01 Accreditation Criteria for the Competence of Testing and Calibration Laboratories) for the competence in the field of testing.The acceptance letter from the CNAS is maintained in our files: Registration: L3923, March, 2012. TUV - Registration No.: UA 50242657-0001 Shenzhen Bontek Compliance Testing Laboratory Co.,Ltd. An assessment of the laboratory was conducted according to the"Procedures and Conditions for EMC Test Laboratories"with reference to EN ISO/IEC 17025 by a TUV Rheinland auditor. Audit Report NO.17010783-003 Report No.: BCT12KR-2203E Page 4 of 71 FCC ID: X4Y340U1 2. SYSTEM TEST CONFIGURATION 2.1 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. 2.2 EUT Exercise The calibrated antennas used to sample the radiated field strength are mounted on a non-conductive, motorized antenna mast 3 or 10 meters from the leading edge of the turntable. Support equipments or special accessories in test configuration AUX Description:
Manufacturer Model No. Certificate CABLE Notebook LENOVE 0658 CE,FCC N/A Monitor Printer Dell E178Pc CE, FCC EPSON P330A CE, FCC 1.5m Unshielded Power Cord 1.8m shielded data Cable with core 1.2m Unshielded Power Cord 1.5m shielded data Cable 2.3 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 Section 7.1 of ANSI C63.4-2003 Conducted emissions from the EUT measured in the frequency range between 0.15 MHz and 30MHz using CISPR Quasi-Peak detector mode. Radiated Emissions: The EUT is a placed on as turntable, which is 0.8 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 Section 13.1.4.1 of ANSI C63.4-2003. 2.4 Measurement Uncertainty Where relevant, the following measurement uncertainty levels have been estimated for tests performed on the apparatus:
Parameter Power Line Conducted Emission Radiated Emission Uncertainty figures are valid to a confidence level of 95%. Uncertainty
+/- 2.3 dB
+/- 3.4 dB Report No.: BCT12KR-2203E Page 5 of 71 FCC ID: X4Y340U1 2.5 List of Measuring Equipments Used Test equipments list of Shenzhen Bontek Compliance Testing Laboratory Co., Ltd. No. Equipment Manufacturer Model No. S/N 1 2 3 4 5 6 7 EMI Test Receiver EMI Test Receiver Amplifier Single Power Conductor Module Single Power Conductor Module Positioning Controller R&S R&S HP FCC FCC C&C Signal generator Rhode &
Schwarz 8 GSM system simulator Rhode &
Schwarz 9 GSM system simulator Agilent ESCI ESPI 100687 100097 Calibration date 2012-4-6 Calibration due date 2013-4-5 2012-7-25 2013-7-24 8447D 1937A02492 2012-4-6 2013-4-5 FCC-LISN-5-
50-1-01-
CISPR25 FCC-LISN-5-
50-1-01-
CISPR25 CC-C-1F SMIQ 03HD +
option SM-B1, SMIQB11, SMIQB12, SMIQB14, SMIQB17, SMIQB20 CMU200 +
option K20, K21, K22, K23, K24, K27, K28, K29, K42, K65, B12, B41, B52, B66, B56 8960 Series 10 E1985A +
GSM_AMPS 07101 2012-4-6 2013-4-5 07102 2012-4-6 2013-4-5 MF7802113 N/A N/A 1125.5555.46 2012-4-6 2013-4-5 1100.0008.34 2012-4-6 2013-4-5 B.01.76 GB42450443 2012-4-6 2013-4-5 10 11 12 13 14 15 16 17 18 19 20 Spectrum Analyzer 6dB Attenuator Digital Multimeter TRILOG Broadband Test-Antenna Horn Antenna Active Loop Antenna 9kHz-2.4GHz signal generator 2024 10dB attenuator Spectrum Analyzer Broadband preamplifier Temperature &
Humidity Chamber Report No.: BCT12KR-2203E 0499 1200 Agilent Atten Fluke E4404B US41192833 2012-4-6 Attenuator 15B DC-4GHz 91280239 2012-4-6 2012-4-6 2013-4-5 2013-4-5 2013-4-5 SCHWARZBECK VULB9163 9163-324 2012-4-10 2013-4-9 SCHWARZBECK BBHA9120A 2012-11-27 2013-11-26 DAZE MARCONI ELECTRO-
METRICS R&S SCH WARZBECK ZN30900A 10S/6625-99-
457-8730 EM-7600 112260/042 2012-4-6 2012-4-6 2013-4-6 2013-4-5 836 2012-4-6 2013-4-5 FSP 100397 2012-11-2 2013-11-1 BBV9718 9718-182 2012-4-6 2013-4-5 TOPSTAT TOS-831A 3438A05208 2012-4-6 2013-4-5 Page 6 of 71 FCC ID: X4Y340U1 3. SUMMARY OF TEST RESULTS FCC Rules Description of Test FCC 15.207 FCC 15.247(b) FCC 15.247(e) FCC 15.247(a) FCC 15.247 (d) FCC 15.205 and 15.209 FCC 15.203/15.247(b)/(c) AC Power Line Conducted Emission Maximum Peak Output Power Power Spectral Density 6dB Bandwidth Conducted Spurious Emission Radiated Spurious Emission Antenna Requirement Result Pass Pass Pass Pass Pass Pass Pass Report No.: BCT12KR-2203E Page 7 of 71 FCC ID: X4Y340U1 4. TEST OF AC POWER LINE CONDUCTED EMISSION 4.1 Applicable Standard Refer to FCC 15.207. For a Low-power Radio-frequency Device is designed to be connected to the 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 below limits table. Limits ( dBuV) Frequency Range (MHz) 0.1500.500 0.5005.000 5.00030.00 Quasi-Peak 6656 56 60 Average 5646 46 50 4.2 Test Setup Diagram 4.3 Test Result Remark: The EUT was connected to a 120 VAC/ 60Hz power source. Temperature ( ) : 23~25 Humidity (%RH ): 45~58 Barometric Pressure ( mbar ): 950~1000 Operation Condition: Tx Mode EUT: IP Camera M/N: XPY300 Report No.: BCT12KR-2203E Page 8 of 71 FCC ID: X4Y340U1 Conducted Emission:
EUT:
M/N:
Operating Condition:
Test Site:
Operator:
Test Specification:
Comment:
Report No.: BCT12KR-2203E IP Camera XPY300 Tx Mode Shielded Room Yang AC 120V/60Hz for adapter L Line Page 9 of 71 FCC ID: X4Y340U1 Conducted Emission:
EUT:
M/N:
Operating Condition:
Test Site:
Operator:
Test Specification:
Comment:
Report No.: BCT12KR-2203E IP Camera XPY300 Tx Mode Shielded Room Yang AC 120V/60Hz for adapter N Line Page 10 of 71 FCC ID: X4Y340U1 5. Test of Maximum Peak Output Power 5.1 Applicable Standard Refer to FCC 15.247 (b) 5.2 EUT Setup Spectrum Analyzer 5.3 Test Equipment List and Details See section 2.5. 5.4 Test Procedure This procedure should only be used when the maximum available RBW of the spectrum/signal analyzer is less than the DTS bandwidth. The transmitter output was connected to a spectrum analyzer and the parameter was set as below:
1. Set the RBW = maximum available (at least 1 MHz). 2. Set the VBW = 3 x RBW or maximum available setting (must be RBW). 3. Set the span to fully encompass the DTS bandwidth. 4. Detector = peak. 5. Sweep time = auto couple. 6. Trace mode = max hold. 7. Allow trace to fully stabilize. 8. Use the spectrum analyzers band/channel power measurement function with the band limits set equal to the DTS bandwidth edges (for some analyzers, this may require a manual override to ensure use of peak detector). If the spectrum analyzer does not have a band power function, sum the spectrum levels (in linear power units) at intervals equal to the RBW extending across the DTS channel bandwidth. 5.5 Test Result Temperature ( ) : 22~23 Humidity (%RH ): 50~54 Barometric Pressure ( mbar ): 950~1000 EUT: IP Camera M/N: XPY300 Operation Condition: Tx Mode Report No.: BCT12KR-2203E Page 11 of 71 FCC ID: X4Y340U1 IEEE 802.11b mode Channel Channel Frequency
(MHz) Low Middle High 2412 2437 2462 20dB Bandwidth MHz 17.36 17.28 17.28 Peak Power
(dBm) Peak Power Limit
(dBm) Pass / Fail 16.02 16.36 16.12 30 30 30 PASS PASS PASS NOTE : 1. At finial test to get the worst-case emission at 1Mbps. IEEE 802.11g mode Channel Channel Frequency
(MHz) Low Middle High 2412 2437 2462 20dB Bandwidth MHz Peak Power
(dBm) Peak Power Limit
(dBm) Pass / Fail 18.8 18.8 18.72 14.47 14.26 14.57 30 30 30 PASS PASS PASS NOTE : 1. At finial test to get the worst-case emission at 6Mbps. IEEE 802.11n HT20mode Channel Channel Frequency
(MHz) Low Middle High 2412 2437 2462 20dB Bandwidth MHz Peak Power
(dBm) Peak Power Limit
(dBm) Pass / Fail 19.72 19.72 19.6 12.31 12.37 12.22 30 30 30 PASS PASS PASS NOTE : 1. At finial test to get the worst-case emission at 13Mbps. IEEE 802. 11n HT40 mode Channel Channel Frequency
(MHz) Low Middle High 2422 2437 2452 20dB Bandwidth MHz Peak Power
(dBm) Peak Power Limit
(dBm) Pass / Fail 38.24 38.24 38.4 10.66 10.38 10.14 30 30 30 PASS PASS PASS NOTE : 1. At finial test to get the worst-case emission at 13Mbps. Report No.: BCT12KR-2203E Page 12 of 71 FCC ID: X4Y340U1 MAXIMUM PEAK OUTPUT POWER ( 802.11b MODE CH Low) MAXIMUM PEAK OUTPUT POWER ( 802.11b MODE CH Mid) Report No.: BCT12KR-2203E Page 13 of 71 FCC ID: X4Y340U1 MAXIMUM PEAK OUTPUT POWER ( 802.11b MODE CH High) Report No.: BCT12KR-2203E Page 14 of 71 FCC ID: X4Y340U1 MAXIMUM PEAK OUTPUT POWER ( 802.11g MODE CH Low) MAXIMUM PEAK OUTPUT POWER ( 802.11g MODE CH Mid) Report No.: BCT12KR-2203E Page 15 of 71 FCC ID: X4Y340U1 MAXIMUM PEAK OUTPUT POWER ( 802.11g MODE CH High) Report No.: BCT12KR-2203E Page 16 of 71 FCC ID: X4Y340U1 MAXIMUM PEAK OUTPUT POWER ( 802.11nHT20 MODE CH Low) MAXIMUM PEAK OUTPUT POWER ( 802.11nHT20 MODE CH Mid) Report No.: BCT12KR-2203E Page 17 of 71 FCC ID: X4Y340U1 MAXIMUM PEAK OUTPUT POWER ( 802.11nHT20 MODE CH High) Report No.: BCT12KR-2203E Page 18 of 71 FCC ID: X4Y340U1 MAXIMUM PEAK OUTPUT POWER ( 802.11nHT40 MODE CH Low) MAXIMUM PEAK OUTPUT POWER ( 802.11nHT40 MODE CH Mid) Report No.: BCT12KR-2203E Page 19 of 71 FCC ID: X4Y340U1 MAXIMUM PEAK OUTPUT POWER ( 802.11nHT40 MODE CH High) Report No.: BCT12KR-2203E Page 20 of 71 FCC ID: X4Y340U1 6. Test of Peak Power Spectral Density 6.1 Applicable Standard Refer to FCC 15.247 (e). The power spectral density conducted from the transmitter to the antenna shall not be greater than 8 dBm in any 3 kHz band during any time interval of continuous transmission. 6.2 EUT Setup Spectrum Analyzer 6.3 Test Equipment List and Details See section 2.5. 6.4 Test Procedure The transmitter output was connected to the spectrum analyzer and the parameter was set as below:
1. Set analyzer center frequency to DTS channel center frequency. 2. Set the span to 1.5 times the DTS channel bandwidth. 3. Set the RBW 3 kHz. 4. Set the VBW 3 x RBW. 5. Detector = peak. 6. Sweep time = auto couple. 7. Trace mode = max hold. 8. Allow trace to fully stabilize. 9. Use the peak marker function to determine the maximum amplitude level. 10. If measured value exceeds limit, reduce RBW (no less than 3 kHz) and repeat. 6.5 Test Result Temperature ( ) : 22~23 Humidity (%RH ): 50~54 Report No.: BCT12KR-2203E EUT: IP Camera M/N: XPY300 Page 21 of 71 FCC ID: X4Y340U1 Barometric Pressure ( mbar ): 950~1000 IEEE 802.11b mode Operation Condition: Tx Mode Channel Low Middle High Channel Frequency (MHz) Final RF Power Level in 3KHz BW
(dBm) Maximum Limit
(dBm) Pass / Fail 2412 2437 2462
-16.83
-15.32
-16.24 8 8 8 PASS PASS PASS NOTE : 1. At finial test to get the worst-case emission at 1Mbps. IEEE 802.11 g mode Channel Low Middle High Channel Frequency (MHz) 2412 2437 2462 Final RF Power Level in 3KHz BW
(dBm)
-22.71
-22.94
-23.05 Maximum Limit
(dBm) Pass / Fail 8 8 8 PASS PASS PASS NOTE : 1. At finial test to get the worst-case emission at 6Mbps. IEEE 802.11nHT20 mode Channel Low Middle High Channel Frequency (MHz) 2412 2437 2462 Final RF Power Level in 3KHz BW
(dBm)
-23.75
-24.62
-24.62 Maximum Limit
(dBm) Pass / Fail 8 8 8 PASS PASS PASS NOTE : 1. At finial test to get the worst-case emission at 13Mbps. IEEE 802.11nHT40 mode Channel Low Middle High Channel Frequency (MHz) 2422 2437 2452 Final RF Power Level in 3KHz BW
(dBm)
-28.44
-27.67
-29.08 Maximum Limit
(dBm) Pass / Fail 8 8 8 PASS PASS PASS NOTE : 1. At finial test to get the worst-case emission at 13Mbps. Report No.: BCT12KR-2203E Page 22 of 71 FCC ID: X4Y340U1 POWER SPECTRAL DENSITY ( 802.11b MODE CH Low) POWER SPECTRAL DENSITY ( 802.11b MODE CH Mid) Report No.: BCT12KR-2203E Page 23 of 71 FCC ID: X4Y340U1 POWER SPECTRAL DENSITY ( 802.11b MODE CH High) Report No.: BCT12KR-2203E Page 24 of 71 FCC ID: X4Y340U1 POWER SPECTRAL DENSITY ( 802.11g MODE CH Low) POWER SPECTRAL DENSITY ( 802.11g MODE CH Mid) Report No.: BCT12KR-2203E Page 25 of 71 FCC ID: X4Y340U1 POWER SPECTRAL DENSITY ( 802.11g MODE CH High) Report No.: BCT12KR-2203E Page 26 of 71 FCC ID: X4Y340U1 POWER SPECTRAL DENSITY ( 802.11nHT20 MODE CH Low) POWER SPECTRAL DENSITY ( 802.11nHT20 MODE CH Mid) Report No.: BCT12KR-2203E Page 27 of 71 FCC ID: X4Y340U1 POWER SPECTRAL DENSITY ( 802.11nHT20 MODE CH High) Report No.: BCT12KR-2203E Page 28 of 71 FCC ID: X4Y340U1 POWER SPECTRAL DENSITY ( 802.11nHT40 MODE CH Low) POWER SPECTRAL DENSITY ( 802.11nHT40 MODE CH Mid) Report No.: BCT12KR-2203E Page 29 of 71 FCC ID: X4Y340U1 POWER SPECTRAL DENSITY ( 802.11nHT40 MODE CH High) Report No.: BCT12KR-2203E Page 30 of 71 FCC ID: X4Y340U1 7. Test of 6dB Bandwidth 7.1 Applicable Standard Refer to FCC 15.247 (a) (2) . The minimum 6 dB bandwidth shall be at least 500 kHz. 7.2 EUT Setup Spectrum Analyzer 7.3 Test Equipment List and Details See section 2.5. 7.4 Test Procedure The 6dB bandwidth is defined as the total spectrum the power of which is higher than peak power minus 6dB. The transmitter output was connected to a spectrum analyzer and the parameter was set as below:
1. Set resolution bandwidth (RBW) = 1-5% or DTS BW, not to exceed 100 kHz. 2. Set the video bandwidth (VBW) 3 x RBW. 3. Detector = Peak. 4. Trace mode = max hold. 5. Sweep = auto couple. 6. Allow the trace to stabilize. 7. Measure the maximum width of the emission that is constrained by the frequencies associated with the two outermost amplitude points (upper and lower) that are attenuated by 6 dB relative to the maximum level measured in the fundamental emission. 7.5 Test Result Temperature ( ) : 22~23 Humidity (%RH ): 50~54 Barometric Pressure ( mbar ): 950~1000 EUT: IP Camera M/N: XPY300 Operation Condition: Tx Mode Report No.: BCT12KR-2203E Page 31 of 71 FCC ID: X4Y340U1 IEEE 802.11b mode Channel Channel Frequency (MHz) 6dB Bandwidth
(MHz) Minimum Limit
(kHz) Pass / Fail Low Middle High 2412 2437 2462 10.24 10.24 10.24 500 500 500 PASS PASS PASS NOTE : 1. At finial test to get the worst-case emission at 1Mbps. IEEE 802.11g mode Channel Channel Frequency (MHz) 6dB Bandwidth
(MHz) Minimum Limit
(kHz) Pass / Fail Low Middle High 2412 2437 2462 16.64 16.64 16.64 500 500 500 PASS PASS PASS NOTE : 1. At finial test to get the worst-case emission at 6Mbps. IEEE 802.11n HT20 mode Channel Channel Frequency (MHz) 6dB Bandwidth
(MHz) Minimum Limit
(kHz) Pass / Fail Low Middle High 2412 2437 2462 17.92 17.92 17.92 500 500 500 PASS PASS PASS NOTE : 1. At finial test to get the worst-case emission at 13Mbps. Report No.: BCT12KR-2203E Page 32 of 71 FCC ID: X4Y340U1 IEEE 802.11 n HT40mode Channel Channel Frequency (MHz) 6dB Bandwidth
(MHz) Minimum Limit
(kHz) Pass / Fail Low Middle High 2422 2437 2452 36.82 36.80 36.80 500 500 500 PASS PASS PASS NOTE : 1. At finial test to get the worst-case emission at 13Mbps. Report No.: BCT12KR-2203E Page 33 of 71 FCC ID: X4Y340U1 Report No.: BCT12KR-2203E 6dB BANDWIDTH ( 802.11b MODE CH Low) 6dB BANDWIDTH ( 802.11b MODE CH Mid) Page 34 of 71 FCC ID: X4Y340U1 Report No.: BCT12KR-2203E 6dB BANDWIDTH ( 802.11b MODE CH High) Page 35 of 71 FCC ID: X4Y340U1 Report No.: BCT12KR-2203E 6dB BANDWIDTH ( 802.11g MODE CH Low) 6dB BANDWIDTH ( 802.11g MODE CH Mid) Page 36 of 71 FCC ID: X4Y340U1 Report No.: BCT12KR-2203E 6dB BANDWIDTH ( 802.11g MODE CH High) Page 37 of 71 FCC ID: X4Y340U1 Report No.: BCT12KR-2203E 6dB BANDWIDTH ( 802.11n HT20 MODE CH Low) 6dB BANDWIDTH ( 802.11n HT20 MODE CH Mid) Page 38 of 71 FCC ID: X4Y340U1 Report No.: BCT12KR-2203E 6dB BANDWIDTH ( 802.11n HT20 MODE CH High) Page 39 of 71 FCC ID: X4Y340U1 Report No.: BCT12KR-2203E 6dB BANDWIDTH ( 802.11n HT40 MODE CH Low) 6dB BANDWIDTH ( 802.11n HT40 MODE CH Mid) Page 40 of 71 FCC ID: X4Y340U1 Report No.: BCT12KR-2203E 6dB BANDWIDTH ( 802.11n HT40 MODE CH High) Page 41 of 71 FCC ID: X4Y340U1 8. Test of Conducted Spurious Emission 8.1 Applicable Standard Refer to FCC 15.247 (d) Output power was measured based on the use of RMS averaging over a time interval, therefore the required attenuation is 30 dB. 8.2 EUT Setup Spectrum Analyzer 8.3 Test Equipment List and Details See section 2.5. 8.4 Test Procedure The transmitter output was connected to a spectrum analyzer. The spectrum from 30 MHz to 26.5 GHz is investigated with the transmitter set to the lowest, middle, and highest channels in the 2.4 GHz band.The parameter of the spectrum analyzer was set as below:
1. Set start frequency to DTS channel edge frequency. 2. Set stop frequency so as to encompass the spectrum to be examined. 3. Set RBW = 100 kHz. 4. Set VBW 300 kHz. 5. Detector = peak. 6. Trace Mode = max hold. 7. Sweep = auto couple. 8. Allow the trace to stabilize (this may take some time, depending on the extent of the span). 9. Use peak marker function to determine maximum amplitude of all unwanted emissions within any 100 kHz bandwidth. Report No.: BCT12KR-2203E Page 42 of 71 FCC ID: X4Y340U1 8.5 Test Result Temperature ( ) : 22~23 Humidity (%RH ): 50~54 Barometric Pressure ( mbar ): 950~1000 EUT: IP Camera M/N: XPY300 Operation Condition: TX Mode IEEE 802.11b mode CH Low Report No.: BCT12KR-2203E Page 43 of 71 FCC ID: X4Y340U1 CH Mid CH High Report No.: BCT12KR-2203E Page 44 of 71 FCC ID: X4Y340U1 IEEE 802.11g mode CH Low CH Mid Report No.: BCT12KR-2203E Page 45 of 71 FCC ID: X4Y340U1 CH High IEEE 802.11n HT20 mode CH Low Report No.: BCT12KR-2203E Page 46 of 71 FCC ID: X4Y340U1 CH Mid CH High Report No.: BCT12KR-2203E Page 47 of 71 FCC ID: X4Y340U1 IEEE 802.11n HT40 mode CH Low CH Mid Report No.: BCT12KR-2203E Page 48 of 71 FCC ID: X4Y340U1 CH High Report No.: BCT12KR-2203E Page 49 of 71 FCC ID: X4Y340U1 9. Test of Radiated Spurious Emission 9.1 Radiated Spurious Emission 9.1.1 Limits 15.205 (a) Except as shown in paragraph (d) of this section, only spurious emissions are permitted in any of the frequency bands listed below:
15.205 (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 is 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. 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 :
Field Strength
(microvolts/meter) Measurement Distance
(meters) Frequency (MHz) 30 - 88 88 - 216 216 - 960 Above 960 100 **
150 **
200 **
500 3 3 3 3
** 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 Report No.: BCT12KR-2203E Page 50 of 71 FCC ID: X4Y340U1 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. 15.209 (b) In the emission table above, the tighter limit applies at the band edges. 9.1.2 EUT Setup Report No.: BCT12KR-2203E Page 51 of 71 FCC ID: X4Y340U1 9.1.3 Test Procedure 1. Configure the EUT according to ANSI C63.4-2003 2. The EUT was placed on the top of the turntable 0.8 meter above ground. 3. The turntable was rotated by 360 degrees to determine the position of the highest radiation. 4. For each suspected emission, the antenna tower was scanned (from 1 M to 4 M) and then the turntable was rotated (from 0 degree to 360 degrees) to find the maximum reading. 5. According to the characteristic of the EUT crystals, the range of frequencies was investigated from 9KHz to 30MHz, 30MHz to 1GHz and 1GHz to 24.8GHz. 6. Any testing performed below 30 MHz was performed using a magnetic loop antenna in accordance with ANSI C63.10: section 4.5, Table 1 7. In accordance with 15.35(b), above 1 GHz, emissions measured using a peak detector shall not exceed a level 20 dB above the average limit. 8. Measurements at 2400 & 2483.5 MHz were made to ensure band edge compliance. 9. Testing was performed with the EUT orientated in three orthogonal planes and the maximum emissions level recorded. In addition, the EUT antenna was varied within its range of motion in order to maximise emissions. 10. For Frequencies below 1 GHz, RBW= 100 kHz, testing was performed with CISPR16 compliant test receiver with QP detector. Above 1 GHz tests were performed using a spectrum analyser using the following settings:
Peak RBW=VBW= 1MHz Average RBW=VBW= 1MHz These settings as per ANSI C63.10 9.1.4 Test Result Temperature ( ) : 22~23 Humidity (%RH ): 50~54 Barometric Pressure ( mbar ): 950~1000 Operation Condition: Normal operation & TX Mode EUT: IP Camera M/N: XPY300 Note: In this testing, the EUT was respectively tested in three different orientations. That is:
1. EUT was lie vertically, and then its Antenna oriented upward 2. EUT was lie vertically, and then its Antenna oriented downward 3. EUT was lie flatwise, and then its Antenna oriented to the receiving antenna The worst test data see following pages When the EUT was lie flatwise, and its Antenna oriented to the receiving antenna, the worst test data was got as following table. Report No.: BCT12KR-2203E Page 52 of 71 FCC ID: X4Y340U1 WORST-CASE RADIATED EMISSION BELOW 30 MHz Normal operating Mode:
Frequency Meter Reading
(dBV) Antenna Factor
(dB/M)
(MHz) 0.47 17.63 19.91 25.59 20.41 20.22 21.37 23.19 7.15 8.23 8.54 7.08 Cable Loss
(dB) 1.03 1.19 1.08 1.66 Emission Levels
(dBV/M) 28.59 29.64 30.99 31.93 WORST-CASE RADIATED EMISSION BELOW 1 GHz Normal operating Mode:
Horizontal Frequency Meter Reading
(dBV) Antenna Factor
(dB/M) Cable Loss
(dB) Emission Levels
(dBV/M)
(MHz) 84.18 154.07 421.23 543.09 721.91 806.36 N/A Vertical Frequency
(MHz) 114.67 209.29 243.07 365.94 523.34 748.12 N/A 24.16 21.83 20.56 18.43 11.07 12.11
----
8.23 11.15 14.61 16.55 20.81 21.03
----
1.18 1.59 2.72 3.05 3.84 4.14
----
33.57 34.57 37.89 38.03 35.72 37.28
----
Meter Reading
(dBV) Antenna Factor
(dB/M) Cable Loss
(dB) Emission Levels
(dBV/M) 25.12 21.53 22.61 24.22 20.17 14.3
----
7.25 14.03 14.21 13.29 15.05 20.37
----
1.01 1.59 2.02 2.72 3.05 4.14
----
33.38 37.15 38.84 40.23 38.27 38.81
----
Limits
(dB V/M) 67 49.5 49.5 49.5 Limits
(dB V/M) 40 43.5 46 46 46 46
----
Limits
(dB V/M) 43.5 43.5 46 46 46 46
----
(dB) Margin Detector Mode PK/QP QP QP QP QP
-38.41
-19.86
-18.51
-17.57 Margin Detector Mode PK/QP
(dB)
-6.43
-8.93
-8.11
-7.97
-10.28
-8.72
----
QP QP QP QP QP QP
----
Margin Detector Mode PK/QP
(dB)
-10.12
-6.35
-7.16
-5.77
-7.73
-7.19
----
QP QP QP QP QP QP
----
Note: Emission level (dBV/m) =Antenna Factor (dB/m) + Cable loss (dB) + Meter Reading (dBV). Report No.: BCT12KR-2203E Page 53 of 71 FCC ID: X4Y340U1 WORST-CASE RADIATED EMISSION ABOVE 1 GHz IEEE 802.11b TX (CH Low) Maximum Frequency Polarity and Level Limit Channel Low2412MHz Margin
(dBV/m) 1 1 1 1 1 1 1 V V V H H H H
(m) 2412 2412 5181 4824 4824
(MHz) Height Polarity 1248.12 1242.98
(dBV/m) Mark
(P/Q/A)
-30.94
-30.04
-30.47
-30.85 N/A N/A N/A N/A
-18.21
-18.76
-15.56
-18.66
-19.75
-13.68
-16.29
-10.31
-20.92
-14.46
-19.22
-13.84
-20.37
-11.14 Transd
-9.21
-9.22
-9.28
-9.38
-7.05
-7.05
-7.05
-7.05 2.45 2.45 2.45 2.45 7.1 7.15 6.53 6.77 7.43 7.43 7.43 7.43 9.91 9.91
----
----
Reading dBV 52.27 33.18 52.81 32.53 109.77 97.65 109.55 100.21 53.34 32.79 55.99 32.89 47.15 33.17 51.18 36.92 45.65 32.11 47.35 32.73 43.72 32.95
----
----
Result dBV/m 43.06 23.96 43.53 23.15 102.72 90.6 102.5 93.16 55.79 35.24 58.44 35.34 54.25 40.32 57.71 43.69 53.08 39.54 54.78 40.16 53.63 11242.75 42.86
----
16328.85 25377.32
----
Remark: 1. Transd.=Antenna Factor+Cable Loss-Pre-amplifier Margin = Level-Limit Mark: P means Peak Value, Q means Quasi Peak Value, A means Average Value 2. 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. 3. Spectrum analyzer setting P(Peak): RBW=1MHz, VBW=1MHz, A(Average):
RBW=1MHz, VBW=10Hz. 4. The test limit distance is 3m limit 74 54 74 54 N/A N/A N/A N/A 74 54 74 54 74 54 74 54 74 54 74 54 74 54
----
----
P A P A P A P A P A P A P A P A P A P A P A
----
----
H
----
----
1
----
----
----
----
5173 7236 7236 H V V 1 1 1 Report No.: BCT12KR-2203E Page 54 of 71 FCC ID: X4Y340U1 Channel Middle2437MHz Polarity and Level Limit
(dBV/m) Margin
(dBV/m) Mark
(P/Q/A) IEEE 802.11b TX (CH Middle) Maximum Frequency
(MHz) Polarity 1228.48 1227.69 2437 2437 4874 4874 H V H V H V Height
(m) 1 1 1 1 1 1 Reading dBV 53.63 33.77 54.69 33.92 108.95 97.48 108.16 99.25 55.69 37.56 56.23 38.33 48.57 36.92 48.66 35.45 47.69 35.69 49.73 35.74 46.59 34.55
----
----
Transd
-9.41
-9.27
-9.49
-9.41
-6.98
-6.98
-6.98
-6.98 2.67 2.67 2.67 2.67 5.48 5.22 5.35 5.56 7.69 7.69 7.69 7.69 9.34 9.57
----
----
Result dBV/m 44.22 24.5 45.2 24.51 101.97 90.5 101.18 92.27 58.36 40.23 58.9 41
-29.78
-29.5
-28.8
-29.49 N/A N/A N/A N/A
-15.64
-13.77
-15.1
-13 74 54 74 54 N/A N/A N/A N/A 74 54 74 54 74 54 74 54 74 54 74 54 74 54
----
----
1 1 1 1 V V H H 7311 7311 5164 5166
-19.95
-11.86
-19.99
-12.99
-18.62
-10.62
-16.58
-10.57
-18.07
-9.88
----
----
54.05 42.14 54.01 41.01 55.38 43.38 57.42 43.43 55.93 11246.14 44.12
----
16331.85 25381.95
----
Remark: 1. Transd.=Antenna Factor+Cable Loss-Pre-amplifier Margin = Level-Limit Mark: P means Peak Value, Q means Quasi Peak Value, A means Average Value 2. 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. 3. Spectrum analyzer setting P(Peak): RBW=1MHz, VBW=1MHz, A(Average):
RBW=1MHz, VBW=10Hz. 4. The test limit distance is 3m limit H
----
----
1
----
----
Report No.: BCT12KR-2203E Page 55 of 71 FCC ID: X4Y340U1 P A P A P A P A P A P A P A P A P A P A P A
----
----
IEEE 802.11b TX (CH High) Maximum Frequency
(MHz) Polarity 1216.64 1215.56 2462 2462 4924 4924 5179.55 5178.77 7356 H V H V H V H V H Height
(m) 1 1 1 1 1 1 1 1 1 Channel High2462MHz Polarity and Level Limit
(dBV/m) Margin
(dBV/m) Mark
(P/Q/A) Reading dBV 56.89 34.37 56.48 34.77 109.83 99.56 107.26 97.26 53.22 34.46 54.26 33.47 47.57 33.79 44.78 32.56 42.33 33.72 45.57 34.59 46.47 36.65
----
----
Transd
-9.38
-9.42
-9.26
-9.28
-7.05
-7.05
-7.05
-7.05 2.45 2.45 2.45 2.45 5.12 5.22 5.51 5.66 7.43 7.43 7.43 7.43 9.67 9.71
----
----
Result dBV/m 47.51 24.95 47.22 25.49 102.78 92.51 100.21 90.21 55.67 36.91 56.71 35.92 52.69 39.01 50.29 38.22 49.76 41.15 53 74 54 74 54 N/A N/A N/A N/A 74 54 74 54 74 54 74 54 74 54 74 54 74 54
----
----
-26.49
-29.05
-26.78
-28.51 N/A N/A N/A N/A
-18.33
-17.09
-17.29
-18.08
-21.31
-14.99
-23.71
-15.78
-24.24
-12.85
-21 P A P A P A P A P A P A P A P A P A P A P A
----
----
1 V 7386 1
----
----
H
----
----
-11.98
-17.86
-7.64
----
----
42.02 56.14 11245.32 46.36
----
16338.37 25382.83
----
Remark: 1. Transd.=Antenna Factor+Cable Loss-Pre-amplifier Margin = Level-Limit Mark: P means Peak Value, Q means Quasi Peak Value, A means Average Value 2. 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. 3. Spectrum analyzer setting P(Peak): RBW=1MHz, VBW=1MHz, A(Average):
RBW=1MHz, VBW=10Hz. 4. The test limit distance is 3m limit Report No.: BCT12KR-2203E Page 56 of 71 FCC ID: X4Y340U1 IEEE 802.11g TX (CH Low) Maximum Frequency Polarity and Level Limit Channel Low2412MHz Margin
(dBV/m) 1 1 1 1 1 1 1 V V V H H H H
(m) 2412 2412 5146 4824 4824
(MHz) Height Polarity 1237.11 1223.36
(dBV/m) Mark
(P/Q/A) Transd
-9.16
-9.21
-9.35
-9.27
-7.05
-7.05
-7.05
-7.05 2.45 2.45 2.45 2.45 6.75 6.62 6.43 6.54 7.43 7.43 7.43 7.43 9.91 9.91
----
----
Reading dBV 51.45 31.65 52.63 31.59 108.23 96.39 107.59 99.47 53.15 33.19 55.73 33.25 46.47 32.16 50.18 35.47 44.12 33.27 45.22 33.92 43.22 31.69
----
----
Result dBV/m 42.29 22.44 43.28 22.32 101.18 89.34 100.54 92.42 55.6 35.64 58.18 35.7 53.22 38.78 56.61 42.01 51.55 40.7 52.65 41.35 53.13 11241.33 41.6
----
16327.32 25376.29
----
Remark: 1. Transd.=Antenna Factor+Cable Loss-Pre-amplifier Margin = Level-Limit Mark: P means Peak Value, Q means Quasi Peak Value, A means Average Value 2. 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. 3. Spectrum analyzer setting P(Peak): RBW=1MHz, VBW=1MHz, A(Average):
RBW=1MHz, VBW=10Hz. 4. The test limit distance is 3m limit
-31.71
-31.56
-30.72
-31.68 N/A N/A N/A N/A
-18.4
-18.36
-15.82
-18.3
-20.78
-15.22
-17.39
-11.99
-22.45
-13.3
-21.35
-12.65
-20.87
-12.4
----
----
74 54 74 54 N/A N/A N/A N/A 74 54 74 54 74 54 74 54 74 54 74 54 74 54
----
----
P A P A P A P A P A P A P A P A P A P A P A
----
----
H
----
----
1
----
----
5162 7236 7236 H V V 1 1 1 Report No.: BCT12KR-2203E Page 57 of 71 FCC ID: X4Y340U1 IEEE 802.11g TX (CH Middle) Maximum Frequency Channel Middle2437MHz Polarity and Level Limit Margin
(dBV/m) 1 1 1 1 1 1 1 V V V H H H H
(m) 2437 2437 5159 4874 4874
(MHz) Height Polarity 1214.29 1219.68 Mark
(P/Q/A)
(dBV/m)
-29.02
-28.96
-28.22
-30.05 N/A N/A N/A N/A
-17.67
-15.7
-17.66
-14.14
-21.42
-14.39
-20.45
-15.04
-20.99
-11.79
-18.03
-13.02
-18.55
-10.78 Transd
-9.25
-9.23
-9.35
-9.31
-6.98
-6.98
-6.98
-6.98 2.67 2.67 2.67 2.67 5.17 5.12 5.28 5.37 7.69 7.69 7.69 7.69 9.22 9.49
----
----
Reading dBV 54.23 34.27 55.13 33.26 107.26 95.59 107.56 98.33 53.66 35.63 53.67 37.19 47.41 34.49 48.27 33.59 45.32 34.52 48.28 33.29 46.23 33.73
----
----
Result dBV/m 44.98 25.04 45.78 23.95 100.28 88.61 100.58 91.35 56.33 38.3 56.34 39.86 52.58 39.61 53.55 38.96 53.01 42.21 55.97 40.98 55.45 11245.67 43.22
----
16328.78 25378.35
----
Remark: 1. Transd.=Antenna Factor+Cable Loss-Pre-amplifier Margin = Level-Limit Mark: P means Peak Value, Q means Quasi Peak Value, A means Average Value 2. 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. 3. Spectrum analyzer setting P(Peak): RBW=1MHz, VBW=1MHz, A(Average):
RBW=1MHz, VBW=10Hz. 4. The test limit distance is 3m limit 74 54 74 54 N/A N/A N/A N/A 74 54 74 54 74 54 74 54 74 54 74 54 74 54
----
----
P A P A P A P A P A P A P A P A P A P A P A
----
----
H
----
----
1
----
----
----
----
5156 7311 7311 H V V 1 1 1 Report No.: BCT12KR-2203E Page 58 of 71 FCC ID: X4Y340U1 IEEE 802.11g TX (CH High) Maximum Frequency Polarity and Level Limit Channel High2462MHz Margin
(dBV/m) 1 1 1 1 1 1 1 V V V H H H H
(m) 2462 2462 4924 4924
(MHz) Height Polarity 1213.89 1214.28 5166.49 Mark
(P/Q/A)
(dBV/m) Transd
-9.39
-9.36
-9.24
-9.27
-7.05
-7.05
-7.05
-7.05 2.45 2.45 2.45 2.45 5.11 5.21 5.67 5.56 7.43 7.43 7.43 7.43 9.52 9.66
----
----
Reading dBV 54.78 33.19 55.15 33.66 108.78 98.99 106.37 96.16 53.12 49.56 54.12 33.27 46.21 32.1 43.36 33.24 43.11 32.23 44.46 34.27 46.17 36.22
----
----
Result dBV/m 45.39 23.83 45.91 24.39 101.73 91.94 99.32 89.11 55.57 52.01 56.57 35.72 51.32 37.31 49.03 38.8 50.54 39.66 51.89 41.7 55.69 11244.39 45.88
----
16337.69 25381.59
----
Remark: 1. Transd.=Antenna Factor+Cable Loss-Pre-amplifier Margin = Level-Limit Mark: P means Peak Value, Q means Quasi Peak Value, A means Average Value 2. 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. 3. Spectrum analyzer setting P(Peak): RBW=1MHz, VBW=1MHz, A(Average):
RBW=1MHz, VBW=10Hz. 4. The test limit distance is 3m limit
-28.61
-30.17
-28.09
-29.61 N/A N/A N/A N/A
-18.43
-1.99
-17.43
-18.28
-22.68
-16.69
-24.97
-15.2
-23.46
-14.34
-22.11
-12.3
-18.31
-8.12
----
----
74 54 74 54 N/A N/A N/A N/A 74 54 74 54 74 54 74 54 74 54 74 54 74 54
----
----
P A P A P A P A P A P A P A P A P A P A P A
----
----
H
----
----
1
----
----
5167.59 7356 7386 H V V 1 1 1 Report No.: BCT12KR-2203E Page 59 of 71 FCC ID: X4Y340U1 IEEE 802.11n HT20 TX (CH Low) Maximum Frequency Polarity and Level Limit Channel Low2412MHz Margin
(dBV/m) 1 1 1 1 1 1 1 V V V H H H H
(m) 2412 2412 5163 4824 4824
(MHz) Height Polarity 1236.22 1231.29 Mark
(P/Q/A)
(dBV/m) Reading dBV 51.17 31.54 52.56 31.37 107.59 95.93 106.58 98.43 52.97 32.99 55.79 33.09 46.43
-31.84
-31.66
-30.73
-31.84 N/A N/A N/A N/A
-18.58
-18.56
-15.76
-18.46
-20.98
-15.44
-17.66
-12.38
-22.49
-13.38
-21.41
-12.18
-19.92
-10.62 Transd
-9.01
-9.2
-9.29
-9.21
-7.05
-7.05
-7.05
-7.05 2.45 2.45 2.45 2.45 6.59 6.56 6.33 6.39 7.43 7.43 7.43 7.43 9.91 9.91
----
----
Result dBV/m 42.16 22.34 43.27 22.16 100.54 88.88 99.53 91.38 55.42 35.44 58.24 35.54 53.02 38.56 56.34 41.62 51.51 40.62 52.59 41.82 54.08 11240.23 43.38
----
16327.21 25375.59
----
Remark: 1. Transd.=Antenna Factor+Cable Loss-Pre-amplifier Margin = Level-Limit Mark: P means Peak Value, Q means Quasi Peak Value, A means Average Value 2. 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. 3. Spectrum analyzer setting P(Peak): RBW=1MHz, VBW=1MHz, A(Average):
RBW=1MHz, VBW=10Hz. 4. The test limit distance is 3m limit 74 54 74 54 N/A N/A N/A N/A 74 54 74 54 74 54 74 54 74 54 74 54 74 54
----
----
P A P A P A P A P A P A P A P A P A P A P A
----
----
50.01 35.23 44.08 33.19 45.16 34.39 44.17 33.47
----
----
H
----
----
1
----
----
----
----
5159 7236 7236 32 H V V 1 1 1 Report No.: BCT12KR-2203E Page 60 of 71 FCC ID: X4Y340U1 IEEE 802.11n HT20 TX (CH Middle) Maximum Frequency Channel Middle2437MHz Polarity and Level Limit Margin
(dBV/m) 1 1 1 1 1 1 1 V V V H H H H
(m) 2437 2437 5156 4874 4874
(MHz) Height Polarity 1219.17 1218.27
(dBV/m) Mark
(P/Q/A)
-31.09
-30.06
-29.13
-29.08 N/A N/A N/A N/A
-17.55
-15.68
-17.07
-15.25
-22.24
-14.46
-20.89
-15.17
-21.28
-12.99
-18.17
-12.13
-19.87
-12.28 Transd
-9.18
-9.19
-9.27
-9.26
-6.98
-6.98
-6.98
-6.98 2.67 2.67 2.67 2.67 5.07 5.06 5.22 5.27 7.69 7.69 7.69 7.69 9.12 9.27
----
----
Reading dBV 52.09 33.13 54.14 34.18 106.18 94.19 106.33 97.93 53.78 35.65 54.26 36.08 46.69 34.48 47.89 33.56 45.03 33.32 48.14 34.18 45.01 32.45
----
----
Result dBV/m 42.91 23.94 44.87 24.92 99.2 87.21 99.35 90.95 56.45 38.32 56.93 38.75 51.76 39.54 53.11 38.83 52.72 41.01 55.83 41.87 54.13 11244.69 41.72
----
16328.06 25377.25
----
Remark: 1. Transd.=Antenna Factor+Cable Loss-Pre-amplifier Margin = Level-Limit Mark: P means Peak Value, Q means Quasi Peak Value, A means Average Value 2. 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. 3. Spectrum analyzer setting P(Peak): RBW=1MHz, VBW=1MHz, A(Average):
RBW=1MHz, VBW=10Hz. 4. The test limit distance is 3m limit 74 54 74 54 N/A N/A N/A N/A 74 54 74 54 74 54 74 54 74 54 74 54 74 54
----
----
P A P A P A P A P A P A P A P A P A P A P A
----
----
H
----
----
1
----
----
----
----
5154 7311 7311 H V V 1 1 1 Report No.: BCT12KR-2203E Page 61 of 71 FCC ID: X4Y340U1 IEEE 802.11n HT20 TX (CH High) Maximum Frequency Polarity and Level Limit Channel High2462MHz Margin
(dBV/m) 1 1 1 1 1 1 1 V V V H H H H
(m) 2462 2462 4924 4924
(MHz) Height Polarity 1212.77 1211.53 5164.17 Mark
(P/Q/A)
(dBV/m) Transd
-9.18
-9.13
-9.17
-9.22
-7.05
-7.05
-7.05
-7.05 2.45 2.45 2.45 2.45 5.26 5.07 5.26 5.28 7.43 7.43 7.43 7.43 9.45 9.39
----
----
Reading dBV 54.89 35.01 54.06 36.3 107.56 97.56 105.21 95.39 53.01 46.13 53.93 33.09 47.03 32.19 43.24 34.13 43.02 33.15 44.27 34.04 46.03 37.17
----
----
Result dBV/m 45.71 25.88 44.89 27.08 100.51 90.51 98.16 88.34 55.46 48.58 56.38 35.54 52.29 37.26 48.5 39.41 50.45 40.58 51.7 41.47 55.48 11243.56 46.56
----
16336.36 25380.29
----
Remark: 1. Transd.=Antenna Factor+Cable Loss-Pre-amplifier Margin = Level-Limit Mark: P means Peak Value, Q means Quasi Peak Value, A means Average Value 2. 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. 3. Spectrum analyzer setting P(Peak): RBW=1MHz, VBW=1MHz, A(Average):
RBW=1MHz, VBW=10Hz. 4. The test limit distance is 3m limit
-28.29
-28.12
-29.11
-26.92 N/A N/A N/A N/A
-18.54
-5.42
-17.62
-18.46
-21.71
-16.74
-25.5
-14.59
-23.55
-13.42
-22.3
-12.53
-18.52
-7.44
----
----
74 54 74 54 N/A N/A N/A N/A 74 54 74 54 74 54 74 54 74 54 74 54 74 54
----
----
P A P A P A P A P A P A P A P A P A P A P A
----
----
H
----
----
1
----
----
5165.26 7356 7386 H V V 1 1 1 Report No.: BCT12KR-2203E Page 62 of 71 FCC ID: X4Y340U1 IEEE 802.11n HT40 TX (CH Low) Channel Low2422MHz Polarity and Level Limit
(dBV/m) Result dBV/m Margin
(dBV/m) Mark
(P/Q/A) Maximum Frequency
(MHz) Polarity 1230.57 1236.11 2412 2412 H V H V Height
(m) 1 1 1 1 Reading dBV 51.02 31.03 53.17 31.19 105.27 93.49 106.04 97.42 52.55 32.67 55.19 32.94 46.23 31.45 49.25 35.14 43.72 33.26 44.47 34.36 43.54 33.24
----
----
Transd
-9.02
-9.09
-9.14
-9.16
-7.05
-7.05
-7.05
-7.05 2.45 2.45 2.45 2.45 6.37 6.29 6.15 6.27 7.43 7.43 7.43 7.43 9.91 9.91
----
----
42 21.94 44.03 22.03 98.22 86.44 98.99 90.37 55
-32
-32.06
-29.97
-31.97 N/A N/A N/A N/A
-19 74 54 74 54 N/A N/A N/A N/A 74 54 74 54 74 54 74 54 74 54 74 54 74 54
----
----
P A P A P A P A P A P A P A P A P A P A P A
----
----
1 H 4824 1 1 1 1 V V V H H 7236 7236 5158 5162 4824
-18.88
-16.36
-18.61
-21.4
-16.26
-18.6
-12.59
-22.85
-13.31
-22.1
-12.21
-20.55
-10.85 35.12 57.64 35.39 52.6 37.74 55.4 41.41 51.15 40.69 51.9 41.79 53.45 11240.19 43.15
----
16327.13 25374.08
----
Remark: 1. Transd.=Antenna Factor+Cable Loss-Pre-amplifier Margin = Level-Limit Mark: P means Peak Value, Q means Quasi Peak Value, A means Average Value 2. 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. 3. Spectrum analyzer setting P(Peak): RBW=1MHz, VBW=1MHz, A(Average):
RBW=1MHz, VBW=10Hz. 4. The test limit distance is 3m limit H
----
----
1
----
----
----
----
1 Report No.: BCT12KR-2203E Page 63 of 71 FCC ID: X4Y340U1 IEEE 802.11n HT40 TX (CH Mid) Maximum Frequency Channel Middle2437MHz Polarity and Level Limit Margin
(dBV/m) 1 1 1 1 1 1 1 V V V H H H H
(m) 2437 2437 5155 4874 4874
(MHz) Height Polarity 1220.02 1217.99
(dBV/m) Mark
(P/Q/A)
-31.17
-30.08
-29.43
-29.29 N/A N/A N/A N/A
-17.91
-15.78
-17.16
-15.49
-23.06
-14.99
-21.38
-15.64
-22.19
-12.96
-18.73
-11.84
-20.203
-12.55 Transd
-9.05
-9.09
-9.16
-9.17
-6.98
-6.98
-6.98
-6.98 2.67 2.67 2.67 2.67 4.85 4.9 5.07 5.19 7.69 7.69 7.69 7.69 9.06 9.17
----
----
Reading dBV 51.88 33.01 53.73 33.88 105.77 93.87 105.63 95.63 53.42 35.55 54.17 35.84 46.09 34.11 47.55 33.17 44.12 33.35 47.58 34.47 44.737 32.28
----
----
Result dBV/m 42.83 23.92 44.57 24.71 98.79 86.89 98.65 88.65 56.09 38.22 56.84 38.51 50.94 39.01 52.62 38.36 51.81 41.04 55.27 42.16 53.797 11243.21 41.45
----
16327.95 25376.04
----
Remark: 1. Transd.=Antenna Factor+Cable Loss-Pre-amplifier Margin = Level-Limit Mark: P means Peak Value, Q means Quasi Peak Value, A means Average Value 2. 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. 3. Spectrum analyzer setting P(Peak): RBW=1MHz, VBW=1MHz, A(Average):
RBW=1MHz, VBW=10Hz. 4. The test limit distance is 3m limit 74 54 74 54 N/A N/A N/A N/A 74 54 74 54 74 54 74 54 74 54 74 54 74 54
----
----
P A P A P A P A P A P A P A P A P A P A P A
----
----
H
----
----
1
----
----
----
----
5154 7311 7311 H V V 1 1 1 Report No.: BCT12KR-2203E Page 64 of 71 FCC ID: X4Y340U1 IEEE 802.11n HT40 TX (CH High) Maximum Frequency Polarity and Level Limit Channel High2452MHz Margin
(dBV/m) 1 1 1 1 1 1 1 V V V H H H H
(m) 2462 2462 4924 4924
(MHz) Height Polarity 1210.55 1210.69 5165.25 Mark
(P/Q/A)
(dBV/m) Transd
-9.01
-9.23
-9.21
-9.19
-7.05
-7.05
-7.05
-7.05 2.45 2.45 2.45 2.45 4.76 5.21 5.18 5.16 7.43 7.43 7.43 7.43 9.27 9.23
----
----
Reading dBV 54.87 34.93 56.93 32.17 106.53 96.99 104.62 94.54 52.82 33.64 53.66 32.74 45.63 31.87 43.13 33.28 42.23 31.52 44.24 32.61 44.46 35.01
----
----
Result dBV/m 45.86 25.7 47.72 22.98 99.48 89.94 97.57 87.49 55.27 36.09 56.11 35.19 50.39 37.08 48.31 38.44 49.66 38.95 51.67 40.04 53.73 11243.17 44.24
----
16336.87 25384.18
----
Remark: 1. Transd.=Antenna Factor+Cable Loss-Pre-amplifier Margin = Level-Limit Mark: P means Peak Value, Q means Quasi Peak Value, A means Average Value 2. 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. 3. Spectrum analyzer setting P(Peak): RBW=1MHz, VBW=1MHz, A(Average):
RBW=1MHz, VBW=10Hz. 4. The test limit distance is 3m limit
-28.14
-28.3
-26.28
-31.02 N/A N/A N/A N/A
-18.73
-17.91
-17.89
-18.81
-23.61
-16.92
-25.69
-15.56
-24.34
-15.05
-22.33
-13.96
-20.27
-9.76
----
----
74 54 74 54 N/A N/A N/A N/A 74 54 74 54 74 54 74 54 74 54 74 54 74 54
----
----
P A P A P A P A P A P A P A P A P A P A P A
----
----
H
----
----
1
----
----
5164.47 7356 7386 H V V 1 1 1 Report No.: BCT12KR-2203E Page 65 of 71 FCC ID: X4Y340U1 9.2 RESTRICTED BAND EDGES TEST RESULT IEEE 802.11b mode Channel Freq.(MHz) Level(dBuV/m) Limit(dBuV/m) Margin(dBuV/m) Detector Peak 48.95 36.84 47.54 35.45 47.63 35.48 46.85 35.05 74 54 74 54 74 54 74 54
-25.05
-17.16
-26.46
-18.55
-26.37
-18.52
-27.15
-18.95 Average Peak Average Average Peak Average Channel Freq.(MHz) Level(dBuV/m) Limit(dBuV/m) Margin(dBuV/m) Detector Peak Channel Freq.(MHz) Level(dBuV/m) Limit(dBuV/m) Margin(dBuV/m) Detector 46.54 35.63 45.85 35.02 74 54 74 54
-27.46
-18.37
-28.15
-18.98 Peak Average Peak Average Channel Freq.(MHz) Level(dBuV/m) Limit(dBuV/m) Margin(dBuV/m) Detector LOW HIGH 2389.52 2389.52 2484.21 2484.21 IEEE 802.11g mode LOW HIGH 2389.36 2389.36 2484.48 2484.48 IEEE 802.11n HT20 mode IEEE 802.11n HT40 mode LOW HIGH LOW HIGH 2389.79 2389.79 2484.18 2484.18 2389.15 2389.15 2484.68 2484.68 Report No.: BCT12KR-2203E 45.85 34.63 45.44 34.08 74 54 74 54
-28.15
-19.37
-28.56
-19.92 Peak Average Peak Average Page 66 of 71 FCC ID: X4Y340U1 CH Low (802.11b MODE) CH High (802.11b MODE) Test of Conducted band edges Report No.: BCT12KR-2203E Page 67 of 71 FCC ID: X4Y340U1 CH Low (802.11g MODE) CH High (802.11g MODE) Report No.: BCT12KR-2203E Page 68 of 71 FCC ID: X4Y340U1 CH Low (802.11n HT20 MODE) CH Low (802.11n HT20 MODE) Report No.: BCT12KR-2203E Page 69 of 71 FCC ID: X4Y340U1 CH High (802.11n HT40 MODE) CH High (802.11n HT40 MODE) Report No.: BCT12KR-2203E Page 70 of 71 FCC ID: X4Y340U1 10. ANTENNA REQUIREMENT 10.1 Standard Applicable Section 15.203:
An intentional radiator shall be designed to ensure that no antenna other than that furnished by the responsible party shall be used with the device. The use of a permanently attached antenna or of an antenna that uses a unique coupling to the intentional radiator shall be considered sufficient to comply with the provisions of this Section. The manufacturer may design the unit so that a broken antenna can be replaced by the user, but the use of a standard antenna jack or electrical connector is prohibited. Section 15.247(b)/(c):
If transmitting antennas of directional gain greater than 6 dBi are used, the peak output power from the intentional radiator shall be reduced by the amount in dB that the directional gain of the antenna exceeds 6 dBi. If the intentional radiator is used exclusively for fixed, point-to-point operations may employ transmitting antennas with directional gain greater than 6 dBi provided the maximum peak output power of the intentional radiator is reduced by 1 dB for every 3 dB that the directional gain of the antenna exceeds 6 dBi. 10.2 Antenna Connected Construction The antenna is designed with permanent attachment and no consideration of replacement. The antenna used in this product is complied with Standard. The maximum Gain of the antenna lower than 6.0dBi and have the definite antenna Specification. Report No.: BCT12KR-2203E Page 71 of 71 FCC ID: X4Y340U1
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2013-02-05 | JBP - Part 15 Class B Computing Device Peripheral | Original Equipment | |
2 | 2013-02-04 | 2412 ~ 2462 | DTS - Digital Transmission System |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 2 | Effective |
2013-02-05
|
||||
1 2 |
2013-02-04
|
|||||
1 2 | Applicant's complete, legal business name |
NEXXT SOLUTIONS
|
||||
1 2 | FCC Registration Number (FRN) |
0019499201
|
||||
1 2 | Physical Address |
3505 N.W 107TH AVE.
|
||||
1 2 |
MIAMI, FL
|
|||||
1 2 |
United States
|
|||||
app s | TCB Information | |||||
1 2 | TCB Application Email Address |
c******@micomlabs.com
|
||||
1 2 | TCB Scope |
A1: Low Power Transmitters below 1 GHz (except Spread Spectrum), Unintentional Radiators, EAS (Part 11) & Consumer ISM devices
|
||||
1 2 |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
|||||
app s | FCC ID | |||||
1 2 | Grantee Code |
X4Y
|
||||
1 2 | Equipment Product Code |
340U1
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 2 | Name |
A****** M****
|
||||
1 2 | Title |
Vice president of product development
|
||||
1 2 | Telephone Number |
786-2********
|
||||
1 2 | Fax Number |
305 4********
|
||||
1 2 |
a******@intcomex.com
|
|||||
app s | Technical Contact | |||||
1 2 | Firm Name |
Teleconformity
|
||||
1 2 | Name |
M******** K******
|
||||
1 2 | Physical Address |
Rietven 31
|
||||
1 2 |
Enschede, Overyssel, 7534NH
|
|||||
1 2 |
Netherlands
|
|||||
1 2 | Telephone Number |
(31)8********
|
||||
1 2 | Fax Number |
(31)8********
|
||||
1 2 |
m******@teleconformity.com
|
|||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 2 | 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 | 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 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 2 | Equipment Class | JBP - Part 15 Class B Computing Device Peripheral | ||||
1 2 | DTS - Digital Transmission System | |||||
1 2 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | IP Camera | ||||
1 2 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 2 | Modular Equipment Type | Does not apply | ||||
1 2 | Purpose / Application is for | Original Equipment | ||||
1 2 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | Yes | ||||
1 2 | 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 | Grant Comments | Power Output listed is Conducted. The antenna used for this transmitter must be installed to provide a separation distance of at least 20 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter within a device, except in accordance with accepted multi-transmitter product procedures. End-users and installers must be provided with antenna installation instructions and transmitter operating conditions for satisfying RF exposure compliance | ||||
1 2 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 2 | 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 | Firm Name |
Bontek Compliance Testing Laboratory Ltd
|
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1 2 | Name |
T******** W********
|
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1 2 | Telephone Number |
86-75********
|
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1 2 | Fax Number |
86-75********
|
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1 2 |
t******@bontek.com.cn
|
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Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
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Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15B | CC | ||||||||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
2 | 1 | 15C | CC | 2412.00000000 | 2462.00000000 | 0.0430000 |
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