FCC ID: 2ANBG-OR100 Outdoor Wireless Radios

OR100 Series User Material 1 OR100 Series User Material Table of Contents Chapter 1: Introduction 1.1 About This User Guide.....7 Page No. FCC User Information....8 Professional Antenna Installation Instructions.....9 Typical Outdoor Installation of Radios.........10 Certified Antenna Gain and Tx Power values....11 Safety Precautions..13 Product Overview...14 Product Key Features..14 2.1 3.1 4.1 5.1 6.1 7.1 8.1 Chapter 2: Device Configuration 9.1 10.1 Power On-Device...15 PC Configuration ...15 11.1 Device Access Types.....16 Login Process.....16 13.1 Quick Configuration...19 12.1 14.1 Graphical User Interface...20 2 OR100 Series User Material Chapter 3: Quick Start Page No System.....21 15.1.1 IP Configuration.....21 15.1.2 VLAN Configuration...22 Location......24 5 GHz Radio Configuration.........25 2.4 GHz Radio Configuration.........26 Site Survey.....27 Link Statistics.....28 15.1 16.1 17.1 18.1 19.1 20.1 Chapter 4: Wireless Configuration 5 GHz Radio Configuration.....29 Properties.......29 21.1 24.1 22.1 MIMO......31 23.1 DDRS /ATPC........32 Security..........33 25.1 MAC-ACL........33 26.1 DCS.........34 2.4 GHz Configuration.......35 27.1 Properties.......35 3 OR100 Series User Material 28.1 Security .....36 29.1 MAC-ACL....37 Chapter 5: Network 30.1 IP Configuration....38 31.1 Radius.....39 Static Routes........41 33.1 VLAN......41 34.1 Ethernet...42 32.1 35.1 DHCP Server......43 35.1.1 5 GHz Radio.....43 35.1.2 2.4 GHz Radio .......44 36.1 DHCP Fixed Leases.44 Filtering......45 37.1 Chapter 6: Management 38.1 System Configuration...46 38.1.1 General.....46 NTP...46 GPS...46 Dying Gasp...46 4 OR100 Series User Material 38.1.2 Logging....47 System log.....47 Temperate log......47 39.1 38.1.3 Location.....48 Services.....48 39.1.1 HTTP....48 39.1.2 Telnet/ SSH......48 39.1.3 SNMP.........48 40.1 Upgrade/Reset..........49 40.1.1 HTTP.........49 Backup & Restore.....49 Upgrade Firmware......49 40.1.2 TFTP.......50 40.1.3 Reset......51 Chapter 7: Monitor 41.1 Statistics........52 42.1 41.1.1 5 GHz Radio.....52 41.1.2 2.4 GHz Radio.....53 41.1.3 Wireless....53 41.1.4 Ethernet....54 LAN Table .........55 5 42.1.1 Bridge........55 42.1.1 ARP......55 OR100 Series User Material 43.1 Logs ........56 43.1.1 Wireless..56 43.1.2 Ethernet........58 43.1.3 System.....58 44.1 45.1 43.1.4 Configuration.....59 43.1.5 Reboot..59 Live Traffic .......60 44.1.1 Live connection.....60 44.1.2 Traffic...60 Tools ......61 45.1.1 Diagnostics........61 45.1.2 Site Survey......62 45.1.3 Spectrum Analyzer ....63 46.1 Technical Specifications.....64 6 OR100 Series User Material 1. Introduction 1.1 About This User Guide This guide describes the planning, installation, configuration and operation of the KeyWest Networks point-to-point and point-to-multipoint wireless radios. It covers OR100 Series. It is intended for use by the system designer, system installer and system administrator. Chapter 1: Introduction Chapter 2: Device Configuration Chapter 3: Quick Guide Chapter 4: Wireless Chapter 5: Network Chapter 6: Management Contacting KeyWest Networks Main website: http://keywestnetworks.com/

Sales enquiries: sales@keywestnetworks.com Contact Address: KeyWest Networks Limited, Corporate Headquarters San Jose, CA -95135 7 OR100 Series User Material 2.1 FCC User Information Federal Communication Commission Interference Statement 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. 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 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 FCC Caution: Any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate this equipment. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. Radiation Exposure Statement:

This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance 165cm between the radiator and your body. 8 OR100 Series User Material 3.1 Professional Installation Instruction Installation Personal This product is designed for specific application and needs to be installed by a qualified personal who has RF and related rule knowledge. The general user shall not attempt to install or change the setting. For complete RF test reports and regulatory power limits, please see documents under FCC-ID: 2ANBG-

APOR100 Installation Location The product shall be installed at a location where the radiating antenna can be kept 165cm from nearby person in normal operation condition to meet regulatory RF exposure requirement. External Antenna Use only the antennas which have been approved in section Certified Antennas. The non-approved antenna(s) may produce unwanted spurious or excessive RF transmitting power which may lead to the violation of FCC limit and is prohibited. Warning Please carefully select the installation position and make sure that the final output power does not exceed the limit set force in relevant rules. The violation of the rule could lead to serious federal penalty. It is the responsibility of the installer to ensure that when configuring the radio in the United States (or where FCC rules apply), the Tx power is set according to the values for which the product is certified. The use of Tx power values other than those, for which the product is certified, is expressly forbidden by FCC rules 47 CFR part 15.204. It is the responsibility of the installer to ensure that when using the outdoor antenna kits in the United States (or where FCC rules apply), only those antennas certified with the product are used. The use of any antenna other than those certified with the product is expressly forbidden by FCC rules 47 CFR part 15.204. 9 OR100 Series User Material 4.1 Typical Outdoor Installation of Radios KeyWest APOR100 Series products are all outdoor radios installed in one of the following methods:

1. Pole/Tower Mount: Radio installation kit includes two metal hose clamps to support pole sizes from 30mm to 60mm diameter. 2. Wall Mount: With optional wall mount kit, radios can be installed on the side of the building or a structure without any obstruction to the radio antenna. Please see below typical deployment. 10 OR100 Series User Material 5.1 Certified Antenna Gain & Tx Power Values Antennas shown in the table below or antennas of the same type with lower gain are approved for KeyWest Radio deployments. Operating Frequency Band 5725 5850 MHz Marketing Model Antenna P/N Antenna Type Antenna Gain (dBi) Tx Power Per Chain (dBm) APOR100-B18 MA-WC56-DP17 Integrated, dual Pol. Sector -

60 APOR100-X00 MA-WO56-DP10 External, dual pol. Omni - 11 APOR100-C23 MA-WA56-DP23 Integrated dual pol. Panel - 10 APOR100-C18 MT-485053-CVH-

B_ICD_KW Integrated dual pol. Panel - 17 18 10 23 18 14 22 23 23 Operating Frequency Band 5150 5250 MHz It is the responsibility of the installer to ensure that radios operating in the band 5150-5250 MHz are installed so that they do not exceed 21 dBm EIRP at any elevation angle above 30 degrees as measured from the horizon, as specified in FCC rule 47 CFR Part 15.407 (a)(1)(i). This compliance can be achieved through proper selection of radio with antenna, angle of elevation, and Tx power control to provide reasonable protection for co-channel NGSO/MSS operations. As shown in the typical deployment above, the highest antenna gain from the horizon above 30 degree for antenna model 1 & 2 is below. For more detail information, please refer to antenna specifications. Antenna No Antenna Gain Antenna Install Degree 1 0.77dBi 11 Due to device restrictions installation position is as above picture, thus consider above 30 degrees highest antenna gain is chosen from E-Plane antenna specification of 30-150 degrees, for H- plane antenna gain will not affect above 30 degrees from the horizon, therefore not required for evaluation. OR100 Series User Material 2

-4.88dBi Due to device restrictions installation position is as above picture, thus consider above 30 degrees highest antenna gain is chosen from E-Plane antenna specification of -60-60 degrees, for H-Plane antenna gain will not affect above 30 degrees from the horizon, therefore not required for evaluation. The formula used for the calculation of the Transmit Power is given below:

Tx-Power = EIRP Gant Gmimo EIRP Equivalent Isotropically Radiated Power Gant Antenna Gain at 30 in Elevation plane Gmimo Gain for Multi Input Multi Output (APOR100 Series operate in 2x2 MIMO, in this case the gain is 3 dB.) Antennas shown in the table below or antennas of the same type with lower gain are approved for deployments in frequency band 5150-5250 MHz with corresponding Transmit Power per chain configuration in the APOR100 Radios using above formula. Marketing Model Antenna P/N Antenna Type APOR100-B18 MA-WC56-DP17 Integrated, dual Pol. Sector -

60 Antenna Gain

(dBi) 18 APOR100-X00 MA-WO56-DP10 External, dual pol. Omni - 11 10 APOR100-C23 MA-WA56-DP23 Integrated dual pol. Panel - 10 23 APOR100-C18 MT-485053-CVH-

B_ICD_KW Integrated dual pol. Panel - 17 18 Tx Power Per Chain (dBm) 10 19 10 10 12 OR100 Series User Material 6.1 Safety Precautions Safety Notices 1. Read, follow, and keep these instructions. 2. Heed all warnings. 3. Use attachments or accessories specified by the manufacturer only. WARNING: Do not use this product in a location that can be submerged by water. Avoid using this product during an electrical storm. There may be a remote risk of electric shock from lightning Electrical Safety Information Compliance is required with respect to voltage, frequency, and current requirements indicated on the manufacturers label. Connection to a different power source than those specified may result in improper operation, damage to the equipment or pose a fire hazard if the limitations are not followed. There are no operator serviceable parts inside this equipment. Service should be provided only by a qualified service technician. This equipment is provided with a detachable power cord, which has an integral safety ground wire intended for connection to a grounded safety outlet. Do not substitute the power cord with one that is not the provided approved type. Never use an adapter plug to connect to a 2-wire outlet as this will defeat the continuity of the grounding wire. The equipment requires the use of the ground wire as a part of the safety certification, modification or misuse can provide a shock hazard that can result in serious injury or death. Contact a qualified electrician or the manufacturer if there are questions about the installation prior to connecting the equipment. 13 Protective Earthling is provided by Listed AC adapter. Building installation shall provide appropriate short-circuit backup protection. Protective bonding must be installed in accordance with local national wiring rules and regulations. OR100 Series User Material 7.1 Product Overview Overview OR100 Series of products were tailored for Internet service providers (ISPs) who wish to deliver uninterrupted wireless connectivity to Enterprise campuses, Public Wi-Fi, Hospitality, Educational institutions, Industrial campuses or just about any demanding outdoor environment. 8.1 Product Key Features Supports IEEE802.11ac/a/b/g/n wireless standards with up to 867 Mbps Data rate Support Wave 2 MU-MIMO function on 5GHz radio Perform 256-QAM to enhance data rate Flexible RF planning with 20,40,80 MHz channel size Up to 23.5 dBm transmit power enabling long range connectivity Support Tx Beam forming to enlarge the transmitting distance Robust housing with IP67 enclosure rated to deploy at extreme weather Superior QoS with Application aware traffic shaping capability AES Encryption and Radius Authentication provides the most secure outdoor wireless communication even in the unlicensed frequency spectrum Thank you for using OR100 Series. It is a powerful, enhanced, enterprise scale product, which functions as outdoor Access Point, Base Station Unit and Subscriber Units. 14 OR100 Series User Material 2. Device Configuration 9.1 Power On-Device Connect the PoE Injector to AC power socket using a power cord. Now connect PoE In to PC and PoE Out to the device. 10.1 PC Configuration Local PC IP Configuration Connect the Ethernet LAN cable to the Desktop/Laptop. Go to Control Panel> Network and Internet settings> Set up a new connection Configure the Desktop/Laptop with a static IP address of 192.168.1.1 and a subnet mask of 255.255.255.0 Note: The Desktop/Laptop accessing the device must be in the same subnet as that of the device. 15 OR100 Series User Material 11.1 Device Access Types The Device can be accessed in the following ways:

Access through Ethernet:

During initial setup, use a Wired Ethernet connection from the computer to the device using a PoE. Access through 2.4GHz Radio Interface:

After the basic network configuration, scan for wireless devices that are available on the network, default SSID is KeyWest_Wi-Fi with a passphrase as KWN@1234 The device can also be accessed using KeyWest Network Mobile App or using any laptop wireless connection. Access remotely over a network:

Once the wireless connection is established, the device can be accessed through a link (PTP or PTMP) within the network. 12.1 Login Process Launch any web browser on the PC that is connected to the device. In the URL type 192.168.1.1 and enter the default credentials as user name: admin and password:

admin Login and access the device settings 16 OR100 Series User Material A interfaces to configure, manage and monitor the device:

Network administrator can use the following HTTP / HTTPS SNMP Telnet SSH HTTP / HTTPS The Web interface HTTP provides easy access to configure settings and network statistics from any computer on the network. The Web interface can be accessed, through LAN, the Internet, or with an Ethernet cable connected directly to the computers Ethernet port. HTTPS: Enabling HTTPS is to transfer and display web content securely SNMP The device can also be configured, managed and monitored by using Simple Network Management Protocol (SNMP). SNMP is a networking management protocol used to monitor network-attached devices, which will also collect errors and user statistics. Telnet The device can be accessed through CLI by using Telnet, through LAN, or even with an Ethernet cable connected directly to the computers Ethernet port. To log on to the device using telnet:

Confirm that your computer has IP connectivity with the device Use telnet client Log on by entering username and password. The default login credentials are: Username: admin;

Password: admin 17 OR100 Series User Material Note:

It is recommended to change default passwords after your first login to the device. To change the password. Click Management > Services> HTTP > Admin password/ User / Super User/ Installer Password. Note that only an admin has a right to change the password The username and password are case-sensitive. If you enter an incorrect password, then a message is displayed stating that the password is incorrect. SSH Enable Secure Shell (SSH) to make secure, encrypted connections in the network. Secure Shell is a network protocol that allows data to be exchanged using a secure channel between two network devices. The administrators are required to provide a username, password, port number combination for authentication. User Credentials and Roles The network operator can configure, manage and monitor the device using HTTP/SNMP/Telnet/SSH protocols. For this, a set of user credentials should be pre-defined for read-write permissions. Based on user roles the access should be granted. There are four types of users: The admin, super user, user and the installer. Admin The Admin has full access to all the parameters in the settings of the device; this further prevents unauthorized changes in settings. Super user In case of accessing AP, the Super user has a read-only option, where he cannot create, modify or delete any parameters. In case of accessing SU, the Super user has read-only permission, but made few custom- limited read-

write permissions for parameters such as Ethernet Speed, VLAN modes (Transparent and Access), Filtering, Traffic shaping, and Device Reboot. User 18 OR100 Series User Material While accessing AP and SU devices, the user has read-only permission, where he cannot create, modify or delete any parameters. Installer The installer does not have full access to Access Point or Subscriber Unit, but he has read-write permission for a few parameters such as IP configuration, Location parameters, and Radio mode. The installer also can view site survey scan results (to join any AP) and observe the link statistics status. 13.1 Quick Configuration This section will show you how to do a quick configuration for both the outdoor Access Point and Subscriber Units using a web-based configuration interface. Please refer Devices Access Types or use your Ethernet port or wireless network to access the AP/ SU and proceed. After connecting via any one of the three-device access methods, the GUI will prompt you to login with a password. The default username and password is "admin", and should be changed immediately after login to protect your network since it gives the user read - write privileges. The password can be changed:

Click Management > Services> HTTP > Admin password/ User / Super User/ Installer Password. Web Launch connected any to In the URL type credentials as admin Login and Configuration web browser on the PC that is the device. 192.168.1.1 and enter default user name: admin and password:

access the device settings in the GUI 19 OR100 Series User Material 14.1 Graphical User Interface Overview Power on the Radio to access the Graphical User Interface (GUI). After a successful login, the user notices a title bar on the top, a navigation pane on the left, and a content pane in the center. The default page shown in the content pane is the Summary. Home: Click Home to return to the summary page, which displays all the key performance parameters such as System, Network, Wireless, and Throughput. Apply: Click Apply to save all changes made to the configuration parameters Reboot: Click Reboot for changes made in the configuration parameters to take effect. It is mandatory to click Apply; before Reboot to take effect. Logout: Click Logout when necessary, make sure to click Apply to save the most recent updates. Again, the login page is popped-out after a successful logout. 20 OR100 Series User Material 21 OR100 Series User Material 15.1 System 3. Quick Start 15.1.1 IP configuration To configure the IP Configuration, Click Quick Start> System Address Type: Dynamic / Static If Static is selected, the user should manually configure the network parameters. If Dynamic is selected, the device obtains the IPv4 parameters from a DHCP server automatically. According to the current software release, only IPv4 format is supported. IP Address: 192.168.1.1 Represents the IP Address of the Ethernet interface By default, the Static IP address is set to 192.168.1.1 When the Address Type is set to Dynamic, this parameter is read-only and displays the device IP Address obtained from the DHCP server. Subnet Mask: 255.255.255.0 Subnet Mask Represents the subnet mask of the Ethernet interface. By default, the subnet mask is 255.255.255.0. When the address type is set to Dynamic, this is read-only and displays the parameter device current subnet mask obtained from the DHCP server. The subnet mask will fall back to 255.255.255.0 if the device cannot obtain the subnet mask from the DHCP server. Gateway IP:

Specifies the IP address of the device gateway When Address Type is set to Dynamic, this parameter is read-only and displays the IP address of the device gateway. The device will be set to the Default Gateway IP address 192.168.1.1 if it cannot obtain the Gateway IP address from a DHCP server. If the Address Type is set to Static then you have to enter manually the Gateway IP address. 22 OR100 Series User Material 15.1.1 VLAN Configuration Virtual Local Area Networks (VLANs) are logical groupings of network hosts. Defined by software settings, other VLAN members or resources appear (to connected hosts) to be on the same physical segment, no matter where they are attached on the logical LAN or WAN segment. They simplify traffic flow between clients and their frequently used or restricted resources. A device can communicate across a VLAN-capable switch that analyses VLAN tagged frames and directs traffic to the appropriate units. The purpose of this network is to provide an easy way of modifying logical groups in the dynamic environment. To configure the VLAN, Click Quick Start> System VLAN Status: Enable/ Disable VLAN Mode:

By default VLAN Mode is Transparent in AP/SU In case of SU, VLAN Mode can be any mode among the following:

Transparent / Trunk / Access / Q-in-Q Management VLAN ID This parameter is used to configure the Management VLAN ID. The management stations must tag the management frames sent to the device with the management VLAN ID specified in the device. The device will tag all the management frames from the device with the specified management VLAN. Before setting the Management VLAN ID from 1 to 4094, make sure that the management platform or host is a member of the same VLAN; or else, your access to the device will be lost. If Tag Management is disabled, only untagged frames can access the device. Transparent To configure the VLAN Transparent Mode in AP or SU, Click Quick Start> System Transparent Mode is available for the Ethernet and Wireless interfaces for both AP and SU. It is equivalent to NO VLAN support and is the default mode. An interface in transparent mode forwards both tagged and untagged frames. The Management VLAN ID range can be between(1-4094) 23 Trunk To configure the VLAN Trunk Mode in SU, Click Quick Start> System Trunk mode is configurable only in SU. When an interface is in Trunk mode, it forwards only those tagged frames whose VLAN ID matches with a VLAN ID present in trunk table. All other frames will be dropped. Access To configure the VLAN Access Mode in SU, Click Quick Start> System Access mode is available only on the Ethernet interface of SU. In access mode, Tagged frames with specified Access VLAN ID are going out of the device through the Ethernet interface were untagged and forwarded. The untagged frames coming into the device through the Ethernet interface are tagged with specified Access VLAN ID and forwarded. OR100 Series User Material 24 OR100 Series User Material Q-in-Q To configure the VLAN Q-in-Q in SU, Click Quick Start> System This mode is well known for its double tagging or stacking. The Q-in-Q mechanism allows Service Providers to maintain customer assigned VLANs while avoiding interference with the Service providers VLANs. Using the Q-in-Q mechanism, a SVLAN ID is added to manage VLAN ID, such that interference is avoided and traffic is properly routed. 16.1 Location To configure the Location, Click Quick Start> Location This section consists of the basic profile information of customers device, such as Customer name, Customer Location, Customer email, Customer Phone, Base Station ID and Link ID. The major difference in AP and SU location parameters is that the SU have a Link Id which is used to link to the AP. 25 OR100 Series User Material 17.1 5 GHz Radio configuration To configure the 5 GHz Radio configuration, Click Quick Start> 5 GHz Radio Link Type:

Link type is a mode of selecting a wireless connection between AP and SU radios. A Link type here can be a PTP/ Backhaul/ PTMP. Few mandatory parameters are customized in AP than in SU. Radio Mode: Outdoor Base / Outdoor Subscriber If the Radio Mode is Outdoor Base, it is considered as AP. If the Radio Mode is Outdoor Subscriber, is selected then it is a SU. Service Set Identifier (SSID) SSID is simply the technical term for a network name. The SSID is a case-sensitive text string that can be as long as 32 characters consisting of letters and/or numbers. An SSID is publicly visible. Within those rules, the SSID can be anything for quick identification of the network. Country: India / 5 GHz Band1 5100- 5350 MHz Band2 5470- 5925 MHz Operational Mode: 11AC Bandwidth: 20/40/80MHz Given the above options, the admin has the flexibility to select the bandwidth. In general, 2.4GHz radio can have a bandwidth of 20 MHz i.e. for short distances. A 5GHz radio can have 40 MHz/ 80MHz bandwidth. Advantages of a 5 GHz with 40 MHz/ 80MHz bandwidth are; it is tuned for faster speed; more data can be transferred and less signal interference. Channel: Several Wi-Fi Channels and their numbers were pre-defined to achieve the best performance. 26 OR100 Series User Material Channel Parameters are available only in AP. The default channel is 120(5600 MHz) when Outdoor base is selected in radio mode. The SU after scanning should be updated automatically with the same parameters as AP, this is Note:

Bandwidth and possible only when SSID and Country parameters are same in both AP a SU. 18.1 2.4 GHZ Radio configuration To configure the 2.4 GHz Radio configuration, Click Quick Start> 2.4 GHz Radio Radio Mode: Access point Service Set Identifier (SSID) SSID is simply the technical term for a network name. The SSID is a case-sensitive text string that can be as long as 32 characters consisting of letters and/or numbers. An SSID is publicly visible. Within those rules, the SSID can be anything for quick identification of the network. Country: India 27 OR100 Series User Material Operational Mode: 11NG Bandwidth: 20MHz In general, 2.4GHz radio can have a bandwidth of 20 MHz i.e. for short distances. Channel: Auto When Auto is selected best, Wi-Fi Channel is selected to achieve the best performance. 19.1 Site Survey To configure the Site Survey, Click Quick Start> 2.4 GHz Radio Site Survey tab is custom-created for SU 5GHz Radio where it can scan and join the AP with the same SSID. Once the Access Point parameters were configured, the subscriber unit will scan and get parameters updated from the AP. This way SUs basic configuration will be updated and further need to be monitored. Note:

Once the System and Location Tabs are configured in both AP and SU. Go to SU web interface Quick Start> Site Survey tab> Join AP To verify whether the SU is linked to AP or not go to home button in the AP/SU and see the Remote partners value 1 or 0. If 1, successfully linked. 28 OR100 Series User Material 20.1 Link Statistics To configure Link Statistics, Click Quick Start> Link Statistics This is only for 5 GHz Wireless PTP and PTMP link parameters are summarized in this tab. click the edit symbol below the details. You will be directed to another window with detail statistics where you can find a disconnect option and conduct a link test. Link Test:

Link test in AP:

Navigate to Quick Start>Link Statistics> edit symbol Here the Link test can be between AP to SU (or) SU to AP either downlink or bi -directional, also input the packet size and duration before starting the test. The results of various parameters are displayed in the same screen. Link test in SU:

Navigate to Quick Start>Link Statistics> edit symbol 29 Here the Link test can be between SU to AP (or) AP to SU either uplink or bi -directional, also input the packet size and duration before starting the test. The results of various parameters are displayed in the OR100 Series User Material same screen. 4.Wireless OR100 Series devices are Dual-Band radios that support (5GHz, 2.4GHz) 5GHz Radio Configuration To configure 5GHz Radio Configuration, Click Wireless > 5 GHz Radio Configuration> Properties 21.1 Properties Link Type Link type is a mode of choosing a wireless connection between AP and SU radios. A Link type here can be a PTP/ Backhaul/ PTMP Radio Mode: Outdoor Base / Outdoor Subscriber If the Radio Mode is Outdoor Base, it is considered as AP. If the Radio Mode is Outdoor Subscriber, is selected then it is a SU. Service Set Identifier (SSID) 30 SSID is simply the technical term for a network name. The SSID is a case-sensitive text string that can be as long as 32 characters consisting of letters and/or numbers. An SSID is publicly visible. Within those rules, the SSID can be anything for quick identification of the network. Country: India / 5 GHz Band 1: [5100- 5350 MHz]; Band 2[5470-5925 MHz]

OR100 Series User Material Operational Mode: 11AC Bandwidth: 20/40/80MHz Given the above options, the admin has the flexibility to select the bandwidth. In general, 2.4GHz radio can have a bandwidth of 20 MHz i.e. for short distances. A 5GHz radio can have 40 MHz/ 80MHz bandwidth. Advantages of a 5 GHz with 40 MHz/ 80MHz bandwidth are; it is tuned for faster speed; more data can be transferred and less signal interference. This option is available only in Access Point, but not in Subscriber Unit. Channel:

Several Wi-Fi Channels and their numbers are predefined to achieve the best performance. This is available only in Access Point, but not in Subscriber Unit. Distance:

The distance between Access Point and Subscriber Unit should be mentioned in this section and the distance can be (1-30) Km Traffic Shaping By default traffic shaping is disabled, the operator can create shaping policies if required to limit traffic and then enable the traffic shaping and configure the uplink/downlink limit values. Uplink Limit:

31 The administrator can set this limit only when traffic shaping in enabled, and the limit range is (64-867000) Kbps that is from SU to AP. OR100 Series User Material Downlink Limit The administrator can set this limit only when traffic shaping in enabled, and the limit range is (64-867000) Kbps that is from AP to SU. Hide ESSID:

Extended Service Set Identifier (ESSID):

This should be unchecked when 5GHz radio (AP) is configured; which allows SU to identify the AP with the configured network name. Wireless Inactivity Timer This parameter is configured only in SU, if there is no activity on wireless interface of SU in a specified time interval, reset the wireless interface. The value should be configured in minutes. An event log is generated when wireless inactivity triggers. Link Inactivity Timer 32 If there is no activity on Wireless link on SU in a specified time, reset the wireless interface. An event log is generated when link inactivity triggers. The value should be configured in minutes. An event log is generated when Link inactivity triggers. OR100 Series User Material Max SUs This range defines how many SUs are linked to AP. The range can be (1-32). Retries This can be configured to allow a packet to be re-transmitted in specified attempts. 22.1 MIMO To configure MIMO, Click Wireless> 5 GHz Radio Configuration > MIMO OR100 Series devices support Multiple-Input-Multiple-Output (MIMO) antenna technology that uses multiple antennas at both the transmitting end and receiving end to improve communication performance. The transmitting antenna uses multiple radio TX chains and signal paths to simultaneously transmit different data streams, whereas the receiver combines the Rx signals resulting in higher throughput. By increasing the number of receiving and transmitting antennas, the throughput of the channel increases linearly resulting in high spectral efficiency. 23.1 DDRS Dynamic Data Rate Selection (DDRS) feature adjusts the transmission data rate to an optimal value and provides the best possible throughput according to the current communication conditions and link quality. To configure DDRS, Click Wireless> 5 GHz Radio Configuration > DDRS Select the Spatial stream as either as Auto, Single, or Dual. Dual Stream: Select Dual for higher throughput. Single Stream: Select Single for reliability and longer range. 33 Auto Stream: When you select Auto, DDRS decides the stream modes based on the environmental conditions. Note:

The data rate can be varied from min to max based on SNR and Retransmission percentage. OR100 Series User Material ATPC:

To configure ATPC, Click Wireless> 5 GHz Radio Configuration > ATPC When you enable the Adaptive Transmit Power Control (ATPC), the device automatically adjusts the transmit power to avoid saturation of remote receiver which could cause data errors leading to lower throughput and link outage. When you disable the ATPC, manually adjust the transmit power. The range should be between (1-26) dbm 24.1 Security The Wireless Security feature helps to configure security mechanisms between AP and SU. To configure Security, Click Wireless> 5 GHz Radio Configuration > Security Encryption Type: Select WPA2-PSK Key: Select any desired key considering the note below. None: If the encryption type is selected as none, then there exists any security to the data frames transmitted over the wireless medium 34 OR100 Series User Material 25.1 MAC-ACL MAC Access Control List is an additional security mechanism in a wireless network. To configure MAC ACL in AP (5GHz), Click Wireless> 5 GHz Radio Configuration> MAC ACL This section has MAC status: Allow/ Deny/Disable and a MAC ACL table: MAC Address Disable: By, default MAC ACL is disabled in AP (5GHz) Configuration, i.e. all SUs are linked to AP Allow: If Allow is selected, the MAC ACL feature allows only the authenticated SUs to access the wireless network of AP by adding their MAC addresses Deny: If Deny is selected, only a particular SU is restricted. Note: The maximum number of SUs that can be added to the MAC ACL table is 32 MAC ACL feature is applicable only in AP with 5 GHz / 2.4 GHz 35 OR100 Series User Material 26.1 DCS (Dynamic Channel Selection) To enable DCS, Click Wireless> 5 GHz Radio> DCS The DCS parameter allows an AP to monitor the retransmissions of packets transmitted to the associated SU on the current operating channel. When the average of Local RTX percentage of associated SU crosses user configured value, before switching to new channel, AP evaluates local RTX percentage for 30 sec and triggers Spectrum Analyser to scan the medium. The Spectrum Analyser scans for less interference channel and associates the high priority SU to the best channel available. Note:

This feature is available only in AP with 5GHz. The DCS threshold is user selectable range (0-100)% and is activated only when DCS is enabled. Default chosen DCS threshold is 50%, when this percentage limit exceeds, the AP activates spectrum analyser and assigns best channel to the desired SU. Respective logs will be generated under Monitor> Logs> Wireless section as For example : <time stamp>: DCS triggered (when SU request AP)

<Time stamp>: DCS selected best channel (When AP assigns new channel to SU) 36 OR100 Series User Material 2.4 GHz Radio Configurations 27.1 Properties To configure properties, Click Wireless > 2.4 GHz Radio Configuration> Properties Radio Mode: Access Point Radio Status: Enable/ Disable Service Set Identifier (SSID):

SSID is simply the technical term for a network name. The SSID is a case-sensitive text string that can be as long as 32 characters consisting of letters and/or numbers. An SSID is publicly visible. Within those rules, the SSID can be anything for quick identification of the network. Country: India Band1: [2402-2482 MHz]

Operational Mode: 11NG Bandwidth: 20MHz Channel: Several Wi-Fi Channels and their numbers are predefined to achieve the best performance. This is available only in Access Point, but not in SU 37 OR100 Series User Material Disable Legacy: Enable/ Disable Hide ESSID:

Extended Service Set Identifier (ESSID):

This should be checked when 2.4GHz radio (SU) is configured, When checked ESSID is not visible in the wireless network. Max Clients: Maximum number of clients permissible to 2.4 GHz Radio can be between(1-10). 28.1 Security The Wireless Security feature helps to configure security mechanisms between AP and SU. To configure Security, Click Wireless> 2.4 GHz Radio Configuration > Security Encryption Type: Select WPA2-PSK Key: Select any desired key considering the note below. None: If the encryption type is selected as none, then there exists any security to the data frames transmitted over the wireless medium Mobile App: Mobile App is used to configure the Access point remotely User name: admin (1-32) characters Password: XXXXXXXX (8-32) characters Note:

1. Special characters allowed for configuration! @ ^ * - _ + : , . { } [ ]

29.1 MAC-ACL 38 OR100 Series User Material To configure MAC ACL in AP, click Wireless> 2.4 GHz Radio Configuration> MAC ACL This section has MAC status: Allow/ Deny/Disable and a MAC ACL table: MAC Address Disable: By, default MAC ACL is disabled in AP (2.4 GHz) Configuration, i.e. all clients are linked to AP Allow: If Allow is selected, the MAC ACL feature allows only the authenticated clients to access the wireless network of AP by adding their MAC addresses Deny: If Deny is selected, only a particular client is restricted. Note: The maximum number of clients that can be added to the MAC ACL table is 32 MAC ACL feature is applicable only in AP with 5 GHz / 2.4 GHz 39 5.Network 30.1 IP Configuration in AP/SU OR100 Series User Material To configure the IP Configuration, Click Network > IP Configuration Network mode: Bridge For Detailed IP Configuration explanation, click IP Configuration DNS:

A domain name server is an Internet service that translates domain names into IP addresses. Primary DNS and Secondary DNS:

In most cases, a primary and a secondary DNS server are configured on a PC that is connected to an internet service provider (ISP). There are two DNS servers in case one of them happens to fail, in which case the second is used to resolve hostnames you enter. Note: If the DNS server could not find the correct IP address that's associated with the host name you enter, the website can't be located and loaded Note: While configuring IP in SU few other parameters are to be considered such as:

40 OR100 Series User Material Network mode: Routing Nat Status: Enable/Disable If NAT is turned off, the device will work on pure-router mode. Note:

The default status of NAT is disabled, so without special demand, please don't select the enable option. Wireless IP Address: 192.168.1.1 Subnet Mask: 255.255.255.0 Gateway IP: 192.168.3.1 Ethernet IP Address: 192.168.2.55 Subnet Mask: 255.255.255.0 31.1 Radius To configure RADIUS, Click Network > RADIUS > RADIUS Configuration The RADIUS server is a background process that serves the following functions:

Remote Authentication Dial In User Service (RADIUS) is a client/server networking protocol. It provides centralized Authentication, Authorization, and Accounting (AAA) management for computers to connect and use a network service To authenticate users or devices before granting them access to a network Note:

Radius configuration is possible only in AP. A RADIUS server profile consists of a Primary and a Secondary Servers that can act as Authentication servers. 41 OR100 Series User Material Configure Primary and Secondary parameters Primary Server: IP address of RADIUS server Primary Server Port: The port number on which the RADIUS server is operating Primary shared secret: An Authentication is required to connect the RADIUS Server to Client If Primary Server fails, then secondary parameter configuration is used. Configuration of Secondary Authentication Server is optional. Radius Parameters:

Reauthentication Time: Represents the maximum number of times an authentication request may be retransmitted to the configured RADIUS server. The time range can be between (10-65535) sec Retry Time: Represents the response time for which the AP should wait for the RADIUS server to respond to a request. The retry time range can be between (10-65535) sec Retry count: When a client tries to establish a connection to a RADIUS server, the number of retry counts is mentioned here. The retry count period can be between (1-65535) sec Retry count period: Represents the time after which the RADIUS server should re-authenticate a SU. The retry count period can be between (1-65535) sec 42 OR100 Series User Material 32.1 Static Routes Note: This is available only in SU To configure Static Routes, Click Network > Static Routes Static Routing is manually configured by a network administrator. Static routes are normally implemented in those situations where the choices in route selections are limited, or there is only a single default route available. 43 33.1 VLAN To configure VLAN, Click Network>VLAN> VLAN Configuration For Detailed explanation, click VLAN VLAN in AP OR100 Series User Material VLAN in SU 34.1 Ethernet To configure Ethernet, Click Networks> Ethernet > Ethernet Configuration Ethernet Speed Auto Negotiation When this option is chosen in AP/SU, the Ethernet configuration tries to auto negotiate. Based on connected switch/router to send the optimal mode for speed connection. 100 Mbps- Full and 1000 MbpsFull Allows two-way transmission simultaneously Displays whether 100 Mbps- Full or 1000 MbpsFull Ethernet transmission mode Ethernet Inactivity By default, it is disabled where no activity takes place. If Enabled and no activity is happening for 5 min, it will reset the Ethernet interface automatically and a log is generated. 44 Ethernet MTU This parameter determines the limit of transmission allowed for a data packet sent or received on the wireless interface. The MTU size varies from 1500 to 9000 bytes. OR100 Series User Material 45 35.1 DHCP Server Dynamic Host Configuration Protocol (DHCP) is a network protocol that enables a server to assign an IP address to the DHCP client from a defined range of IP addresses configured for a given network. Allocating IP addresses from a central location simplifies the process of configuring IP addresses to individual DHCP clients, and also avoids IP conflicts. If DHCP Server is enabled, it picks automatically the IP addresses from the specific interface address and assigns them to the respective DHCP clients. OR100 Series User Material 35.1 .1 5 GHz Radio To configure the DHCP server parameters, Click Network > DHCP Server > 5 GHz Radio DHCP Server Status by default disabled, when enabled one should enter the Start IP Address and End IP Address so that it will save the IP Addresses in the given range. 35.1 .2 2.4 GHz Radio To configure the DHCP server parameters, Click Network > DHCP Server> 2.4 GHz Radio A DHCP server is configured with a pool of available IP addresses and assigns one of them to the DHCP client. Lease time: Specifies the maximum lease time for which the DHCP client can use the IP address provided by the DHCP Server. The value ranges from 120 - 86400 seconds. 36.1 DHCP fixed Leases Here the MAC address and IP address are binded and listed down 46 OR100 Series User Material 37.1 Filtering Filtering is useful in controlling the amount of traffic exchanged between the wired and wireless networks. By using filtering methods, we can restrict any unauthorized packets from accessing the network. This is used to drop broadcast and multicast packets .Hence filtering can increase the amount of bandwidth available on the network and increase the network security. Filtering is available in bridge mode and routing mode. Filters are activated only when they are globally enabled on the device. To Configure Filtering, Click Network > Filtering > Filtering Configuration Filtering Status: Default status is enabled If Layer 2 Multicast is enabled, entire Layer 2 multicast (MAC layer) traffic will be dropped. If Layer 2 Broadcast is enabled, entire Layer 2 Broadcast (IP layer) traffic will be dropped. If Layer 3 Multicast is enabled, entire Layer 3 multicast (MAC layer) traffic will be dropped. If Layer 3 Broadcast is enabled, entire Layer 3 Broadcast (IP layer) traffic will be dropped. 47 OR100 Series User Material 6. Management This chapter provides information on how to manage the device by using Web interface. It contains information on the following:

38.1 System Configuration To configure General, Click Management > System > System Configuration> General 38.1.1 General 48 NTP This option feature. server. If The NTP server. GPS This the OR100 Series User Material allows user to enable or disable NTP enabled, user has to configure the NTP device will synchronize its local time with option allows user to enable and disable GPS feature. GPS feature will trigger the 1PPS pulses to retrieve the GPS information like latitude, longitude, number of satellites and local time. The device will configure its local time if NTP is not enabled. The GPS information is also used for calculating the distance between AP and SU. Dying Gasp This option allows user to enable or disable the Dying gasp feature. Dying Gasp feature will trigger a TRAP in the event of power failure to inform the remote device that it is shutting down due to power failure. The device can hold its power maximum for 20ms to allow the TRAP to be sent out in either wireless or wired interfaces. ACK:

When Dying Gasp is enabled in AP and a power failure happens in a SU. The SU informs the wireless AP. Once the AP receives Dying Gasp packet form SU, the AP sends acknowledgement to SU. When the SU receive acknowledgement (ACK) from AP, it will stop sending Dying Gasp packets to AP. 49 OR100 Series User Material 38.1.2 Logging To configure logging, Click Management > System > System Configuration> logging System log System logs can be stored in external syslog server on PC Log Server IP Configure the PC IP Address on which syslog server is running Log Server Port: The port on which the current log server is operating Temperature log Temperature Log feature is used to log the internal temperature of the device for the configured temperature logging interval (By default, it is 30 minutes). For every 30 min, new log is generated with temperature in C. To access this feature, navigate to Management >System> logging > Temperature and configure the following parameters:

Enable Temperature Log Temperature log interval

(0- 60) minutes 38.1.3 Location To configure location, Click Management > System > System Configuration> location This section consists of the basic profile information of customers device, such as Customer name, Customer Location, Customer email, Customer Phone, Base Station ID and Link ID. The major difference in AP and SU location parameters is that the SU have a Link Id which is used to link to the AP. 50 39.1 Services OR100 Series User Material The device can be managed using different management protocols. The supported protocols are HTTP, Telnet/SSH, SNMP. To configure the Services, Click Management > Services privilege to change the passwords. 39.1.1 HTTP: Passwords setting or modification can be done in this section. Only Admin has a 39.1.2 Telnet/ SSH: Enable Telnet/SSH and specify number of sessions. Here default is 2 39.1.3 SNMP: Enable SNMP SNMP version: SNMP v1, SNMPv1-v2 SNMP Read Password: Here only Read password is available in order to read the configuration from sessions the SNMP. SNMP Trap Host IP Address: Here the IP address of a Trap Server is specified SNMP Trap Host Password: The password is set to secure the Trap sent. 40.1 Upgrade/Reset 40.1.1 HTTP Backup & Restore To configure Backup & Restore, Click Management > Upgrade/ Reset> HTTP >

Backup & Restore This back-up option allows user to either download the device configuration locally 51 OR100 Series User Material The restore option allows user to restore the device configuration to the uploaded configuration file. Restoring the config file to the device will take 30 sec approx. After uploading the configuration file, the device will load with the new configuration Upgrade Firmware To configure Upgrade Firmware, Click Management > Upgrade/ Reset > HTTP > Upgrade Firmware The firmware upgrade process happens in four phases:

Upload: Select firmware to be uploaded Verification: Verify the firmware to validate the checksum Upgrade: Write the new firmware into flash memory Reboot: Once flash write processes is completed, and then automatically reboot the device. The whole firmware upgrade process takes around 6.30 minutes to complete. When upgrade process starts, all the existing links will be disconnected until it reboots with new firmware. Due to the above fact, it is recommended to upgrade all remote devices and then upgrade the local devices. 40.1.2 TFTP To configure TFTP, Click Management > Upgrade/ Reset> TFTP > Upgrade / Retrieve A Trivial File Transfer Protocol (TFTP) server lets you transfer files across a network. By using TFTP, you can retrieve files from the device for backup or copying, and you can upgrade the firmware or the configuration files onto the device. 52 Upgrade:

OR100 Series User Material Select Image from the drop down of file type and upgrade. The firmware upgrade process happens in four phases:

The TFTP firmware is uploaded from PC TFTP server path to the device. Verification: Verify the firmware to validate the checksum Upgrade: Write the new firmware into flash memory Reboot: Once flash write processes is completed, and then automatically reboot the device. The whole firmware upgrade process takes around 6.30 minutes to complete. When upgrade process starts, all the existing links will be disconnected until it reboots with new firmware. Due to the above fact, it is recommended to upgrade all remote devices and then upgrade the local devices. Retrieve:

The retrieved device config file will be stored in the PC TFTP Server path. 40.1.3 Reset To Reset, Click Management > Upgrade/ Reset> Reset This option allows user to reset all device configuration to factory defaults. After reset, the device has to be accessed using the LAN interface locally and has to be re-configured to allow the device to join into the network again. Retain IP: If Retain IP is checked, the last IP before the reset will be recalled. 53 OR100 Series User Material 7.Monitor 41.1 Statistics The objective of statistics page is to allow an administrator to view the state of wired and wireless interfaces. These statistics assist the network administrator to troubleshoot the devices. 41.1.1 5 GHz Radio:

54 OR100 Series User Material You can view the details of associated devices connected to the 5 GHz Radio. To view the 5 GHz Radio Statistics, click Monitor > Statistics > 5 GHz Radio MAC Address: Displays the MAC address of the linked remote device IPv4-Address: Displays the IP address of the remote device Link Id: Displays the link Id of remote device Distance (Km): Displays the distance between the AP and SU. Local Signal (dB): Displays the local signal strength Remote Signal (dB): Displays the Signal strength of the remote device Rate (Mbps): Displays the Transmit (Tx) and Receive (Rx) rate of a local device Throughput (Mbps): Displays the current Input and Output bandwidth 41.1.2 2.4 GHz Radio:

You can view the details of associated clients connected to the 2.4 GHz Radio To view the 2.4 GHz Radio Statistics, click Monitor > Statistics > 2.4 GHz Radio MAC Address: Displays the MAC address of the client that is connected to the AP IPv4-Address: Displays the IP address of the client 55 OR100 Series User Material RSSI (dB): RSSI stands for Received Signal Strength Indicator. For receiving strong signal, the RSSI should be high. This section displays the Receiver statistics. It indicates the power viewed across the receiver input. Noise (dB): Refers to the noise level with which the AP received wireless frames from the client Rx Rate (Mbps): Rx Rate of received wireless from the Client to AP TX Rate (Mbps): Tx rate of transmitted wireless from AP to Client 41.1.2 Wireless Statistics:

You can view information about wireless network traffic. To view the Wireless Statistics, click Monitor > Statistics > Wireless Log Type:

1. Display Wireless Advance statistics 2. Display Wireless statistics: A summary of basic wireless statistics 3. MAC Id, RSSI and SNR for remote device associated 1. Display Wireless Advance statistics:

Data: Specifies the total number of packets, broadcast packets; multicast packets, unicast packets of both Tx and Rx. Management: Device Management features are summarized Errors: Displays CRC and Frame Errors CRC Errors: Specifies the number of received packets with invalid CRC. 56 OR100 Series User Material Frame Errors: Too many frame errors cause network connection slow. 2. Display Wireless statistics:

This consists of the values of Tx and Rx Packets, Number of errors occurred, Link Quality, SNR, Number of retries etc. 3. MAC Id, RSSI and SNR for remote device associated 41.1.4 Ethernet You can view information about wired Ethernet network traffic. To view the Ethernet Statistics, click Monitor> Statistics > Ethernet Log Type 1. Display Ethernet Advance statistics: Displays a summary of Tx, Rx, Errors, L2, L3- Multicast& Broadcast drop count. 2. Display Ethernet statistics: A summary of basic Ethernet statistics (Tx, Rx, collisions etc.) 3. Network statistics for all Interfaces: A summary of all wired and wireless interfaces 57 42.1 LAN Table OR100 Series User Material To view the LAN Table Statistics, click Monitor > Statistics

> LAN Table 42.1.1 Bridge Learn Table:

Learn Table is used to view all the MAC addresses of a device on both wired and wireless interfaces. The Learn Table displays the information of port no, MAC addresses, whether the type of interface is local interface or not and finally the aging timer as shown. Click Refresh to get the updated or latest Learn Table. Click Clear to delete all entries of the Learn Table. 42.1.2 ARP This section displays the mapping of the IP and MAC addresses of all nodes in the network. This information is based upon the Address Resolution Protocol (ARP). ARP is a L2 neighboring protocol which converts the IP address into a physical address on the Ethernet network. Click Refresh to get the updated or latest ARP Table. Click Clear to delete all entries of the ARP Table. 58 OR100 Series User Material 43.1 Logs Logs are the entries of wired and wireless interfaces. 43.1.1 Wireless To view the Wireless logs, click Monitor > Logs> Wireless The Log types are classified into 1. Wireless Events 2. Wireless Events Last Boot Log 1. Wireless Events:

Here the latest wireless event entries are displayed. Different types of Logs are generated:

a. Associated Log: When an AP is connected to an SU or vice versa, a log is generated which is called as Associated log. This log consists of MAC Addresses of the remote device. For example:

Sat Apr 13 07:12:53 2019: Associated (MAC: 00:d0:41:e0:1c:1c) in SU Sat Apr 13 07:12:51 2019: Associated (MAC: 00:d0:41:e0:1c:04) in AP b. Disassociated log: When an AP is disconnected with an SU or vice versa due to a reboot/soft reset/

a manual disconnect then a log is generated which is called a disassociated log. This log consists of MAC Addresses and a reason for disconnection of the device. For example:

59 Sat Apr 13 07:15:46 2019: Disassociated (MAC: 00:d0:41:e0:1c:1c) in SU/ Remote Device Sat Apr 13 07:15:45 2019: Disassociated (MAC: 00:d0:41:e0:1c:04, Reason: Local Terminated) in OR100 Series User Material AP or BSU Reasons that are displayed in the log are:

Locally terminated: If an AP is a local device and loses SU link or vice versa due to a reboot/soft reset/ a manual disconnect, then the termination reason is said to be locally terminated. Remote terminated if an SU is unable to connect to an AP, due to a reboot/soft reset/ a manual disconnect, then the termination reason is said to be Remote terminated. Power off (Remote Device): If there is a power failure either in a AP or SU. The termination reason is said to be Poweroff. c. Wireless Inactivity: This parameter is configured only in SU, if there is no activity on wireless interface of SU in a specified time interval, reset the wireless interface. The value should be configured in minutes. An event is generated log when wireless inactivity triggers and this is visible in wireless events log. d. Link Inactivity: If there is no activity on Wireless link on SU in a specified time, the wireless reset interface. The value should be configured in minutes. An event log is generated when Link inactivity triggers and this is visible in wireless events log. e. DCS logs:

This feature is available only in AP with 5GHz. Default chosen DCS threshold is 50%, when this percentage limit exceeds, then a log is triggered and the AP activates spectrum analyser and assigns best channel to the desired SU. There are two types of logs generated:

DCS Triggered log DCS best channel selection For example : <time stamp>: DCS triggered

<Time stamp>: DCS selected best channel 60 OR100 Series User Material f. Spectrum analyser has a start log and end log 2. Wireless Events Last Boot Log When a proper reboot of a device takes place. The last saved logs are displayed in the Wireless Events Last Boot Log. 43.1.2 Ethernet To view the Ethernet logs, click Monitor > Logs> Ethernet Current Ethernet events and last reboot Ethernet events are logged in the Ethernet log. It consists of wired connection up, down and Ethernet inactivity. 43.1.3 System To view the System, click Monitor > Logs> System All the system level, kernel level, temperature logs are displayed here. Note: Temperature logs are recorded only after a certain temperature login interval. 61 OR100 Series User Material 43.1.4 Configuration To view the Configuration log, click Monitor > Logs> Configuration Any recent changes in the device configuration are reflected here. 43.1.5 Reboot To view the Reboot log, click Monitor > Logs > Reboot A log is generated when the below condition takes place When a device is manually rebooted through : Web, CLI, SNMP When a device is reset to factory defaults through: Web, CLI, SNMP When a device is upgraded firmware through: HTTP,TFTP When a device is power off 62 44.1 Live Traffic To view the Live Traffic, click Monitor > Statistics > Live Traffic 44.1.1 Live connections Live TCP, UDP are summarized in a graphical representation 44.1.2 Traffic 2.4GHz Radio wireless traffic is graphed 5 GHz Radio wireless traffic is graphed Ethernet Traffic on Ethernet is summarized OR100 Series User Material 63 OR100 Series User Material 45.1 Tools To view the Tools, click Monitor> Statistics > Tools 45.1.1 Diagnostics Few popular network utilities are used to determine the network connections. Ping: The main purpose of using this command is to verify the device can connect over the network to another device or not. Trace route: Trace route determines that the packet has reached the destination by including a port number that is outside the normal range. When it is reached, the Port Unreachable message is sent in return, which defines the time length of the final hop. Trace route provides you with the information hop by hop. Each hop is determined three times. When a website is unreachable or slow, trace route allows you to see where the connection fails or has delays. Nslookup: The Nslookup command is a DNS lookup utility Example: nslookup hostname nameserver (nameserver address or nameserver IP address) - provides you with a DNS record stored in the specified DNS server. 64 OR100 Series User Material 45.1.2 Site Survey: This is available only in SU Site Survey is for SU 5GHz Radio where it can scan and join the AP with the same SSID. Once the Access Point parameters were configured, the subscriber unit will scan and get parameters updated from the AP. This way SUs basic configuration will be updated and further need to be monitored 65 OR100 Series User Material 45.1.3 Spectrum Analyser: This is available only in AP Scans all the frequencies from the configured start frequency to end frequency for a specified scan time. Click Start button and the results will be displayed in a graph:

A1 Vertical shows signal strength received on antenna A1 at each frequency. A2 Horizontal shows signal strength received on antenna A2 at each frequency. Utilization: This shows the max utilization of the medium at each frequency in percentage. 66 OR100 Series User Material 46.1 Technical Specifications Product Models APOR100 Descriptions Part Numbers APOR100-B18 Outdoor AP with 18 dBi 60-degree sector antenna APOR100-X00 Outdoor AP with 2 N-Type connectors APOR100-C18 Outdoor AP with 18 dBi panel antenna APOR100-C23 Outdoor AP with 23 dBi panel antenna Qualcomm IPQ4018, Quad-Core 717 MHz CPU, 4x ARM Cortex A7 DDR 256 MB, Flash 32 MB On board GPS info via I2C,1PPS pulse 20ms (Max) Supported Passive 48V, 0.5A, +50C, 6KV Surge Protection Green colour LEDs Supported with LED indication (2 LEDs on RJ-45) 6 KV Built in for APOR100-X00 only ROHS compliant (non-metallic ) 1 x GbE Port, 6KV Surge Protection 10/100/1000Mbps, Half/Full Duplex, Auto Negotiation 48V 0.5A Max 130 meters Hardware Chip set Memory GPS Dying Gasp Thermal Sensor PoE Injector On Side LEDs Ethernet Connector RF Surge protection Enclosure Material Ethernet Ethernet Speed Power source STP Cat5e Cable length FTP Cat6 Cable length Max 180 meters Wireless MIMO Modulation Scheme Frequency Band Channel Bandwidth Channel Spacing Max Transmit Power Transmit Power Control Max. Throughput Antenna Integrated External Security Encryption Authentication QoS Asymmetric Bandwidth Control Packet Classification Capabilities Scheduling Management Remote 2 X 2 :2 BSPK, QPSK, 16QAM, 64QAM, 256QAM 4.9 GHz 5.1 GHz - 5.925 GHz 2.4 GHz Public Safety Broadband Connectivity Radio Management 20 / 40 / 80 MHz 5 MHz Upto 26 dBm (Combined) 1 - 26 dB, in 1 dB steps. Automatic TPC with configurable EIRP limit Up to 650 Mbps (5 GHz) 18 dBi 60 degree sector | 18 dBi panel antenna | 23 dBi panel antenna 2 N-Type connectors AES 128 / 256 Internal MAC Address Control List, Radius based Authentication Asymmetric UL/DL committed and maximum information rate per SU 802.1p priority, IPTOS, VLAN ID, IP addresses, ports, Ethernet addresses, IP protocol, and Ether Type Best Effort, Real Time Polling Services Telnet, SSH, Web, TFTP 67 SNMP Network Modes IP Stack Gateway Features VLAN Physical Specs Models Dimensions Weight Environmental Maximum Transmit Power (20/40 MHz) Receiver Sensitivity 20/40 MHz Package Contents Certification SNMP v1 / v2c / v3, RFC-1213, Private MIB OR100 Series User Material Bridging, Routing IPv4, IPv6 DHCP Server, NAT, IP sec 802.1Q: Management VLAN, Transparent, Access, Trunk, QinQ APOR100-B18 APOR100-X00 APOR100-C18 APOR100-C23 371.3 x 371.3 x 101.5mm 2.4 kgs/ 5.48 lbs 1 .2Kgs / 2.7 lbs 1.2Kgs / 2.7 lbs 1.68 kgs/ 3.7lbs Operating Temperature Storage Temperature Humidity & IP Rating Wind loading

-20 to +65 C -50 to +70 C 95% maximum 180 kmph

(-58 to 158 F) Non-Condensing, IP67 229.2 x 250 x 80 mm 229.2 x 250 x 80 mm 305.5x305.5x79.5mm 2.4 GHz 5 GHz MCS0: 23 dBm MCS1: 23 dBm MCS2: 23 dBm MCS3: 23 dBm MCS4: 23 dBm MCS5: 22 dBm MCS6: 21 dBm MCS7: 20 dBm MCS8: 23 dBm MCS9: 23 dBm MCS10: 23 dBm MCS11: 23 dBm MCS12: 23 dBm MCS13: 22 dBm MCS14: 20 dBm MCS15: 20 dBm MCS0: 23 dBm MCS1: 23 dBm MCS2: 23 dBm MCS3: 23 dBm MCS4: 23 dBm MCS5: 22 dBm MCS6: 21 dBm MCS7: 20 dBm MCS8: 23 dBm MCS9: 23 dBm MCS10: 23 dBm MCS11: 23 dBm MCS12: 23 dBm MCS13: 20 dBm MCS14: 20 dBm MCS15: 20 dBm 2.4 GHz 5 GHz MCS0: -92 dBm MCS1: -90 dBm MCS2: -87 dBm MCS3: -84 dBm MCS4: -81 dBm MCS5: -78 dBm MCS6: -75 dBm MCS7: -72 dBm MCS8: -90 dBm MCS9: -88 dBm MCS10: -86 dBm MCS11: -83 dBm MCS12: -80 dBm MCS13: -76 dBm MCS14: -73 dBm MCS15: -70 dBm MCS0: -92 dBm MCS1: -90 dBm MCS2: -87 dBm MCS3: -84 dBm MCS4: -81 dBm MCS5: -78 dBm MCS6: -75 dBm MCS7: -72 dBm MCS8: -90 dBm MCS9: -88 dBm MCS10: -86 dBm MCS11: -83 dBm MCS12: -80 dBm MCS13: -76 dBm MCS14: -73 dBm MCS15: -70 dBm 1 Radio 1 PoE Injector with AC Power Cable 1 Ethernet Cable Cat5e 1.5 mts 1 Grounding Cable 1.8 mts AWG10 1 Pole Mounting Kit or Axis Mounting Kit (Based on the radio model) 1 Quick Installation Guide FCC: 47 CFR Part 90, Sections 90.1201 through 90.1217 FCC: 47 CFR Part 15, Subpart C (Section 15.247) FCC: 47 CFR Part 15, Subpart E (Section 15.407) FCC: Part 2(Section 2.1091) 68 OR100 Series User Material MTBF & Warranty Ordering Information Part Number APOR100-B18 APOR100-X00 APOR100-C18 APOR100-C23 IEC 61000-4-2: 2008, IEC 61000-4-4: 2012, IEC 61000-4-6: 2013 CISPR 22: 2008 Class A: Radiated Disturbance IEC 61000-4-3 Class A: Radiated Susceptibility IEC 61000-4-11 Class A: Voltage Dips & Interruption IEC 61000-4-5 +/-6kV Class A: Surge Test on AC-Input and PoE Data lines MTBF over 250 000 hours & 1-year warranty Description Outdoor AP with 18 dBi 60 degree sector antenna Outdoor AP with 2 N-Type connectors Outdoor AP with 18 dBi panel antenna Outdoor AP with 23 dBi panel antenna KeyWest Networks Limited, Corporate Headquarters, San Jose, CA -95135 http://keywestnetworks.com/

E-mail: sales@keywestnetworks.com Tel: +1 408 825 4226 69

KeyWest Networks, Inc 3033 Oliver Dr San Jose, CA USA

+1 408.825.4226 Date: 2020-11-29 FCC ID : 2ANBG-OR100 Declaration for DFS master devices We, KeyWest Networks, Inc. hereby declare that the (1) band from 5600-5650MHz will be disabled by the software during the manufacturing and which cannot be changed by the end-

user (2)this device meets all the other requirements specified in Part 15E Section 15.407. If you should have any question(s) regarding this declaration, please dont hesitate to contact us. Thank you!

Kishore Gandham / CEO KeyWest Networks, Inc. Tel: +1 408.825.4226 E-mail: kishore@keywestnetworks.com sales@keywestnetworks.com

+1 408 825 4226 San Jose, CA - USA

KeyWest Networks, Inc 3033 Oliver Dr San Jose, CA USA

+1 408.825.4226 Date: 2020/11/29 FCC ID : 2ANBG-OR100 To the attention of Federal Communications Commission Authorization and Evaluation Division Permanent Confidentiality Request Pursuant to Sections 0.457 and 0.459 of the Commissions Rules, the Applicant hereby requests confidential treatment of information accompanying this Application as outlined below:

Operational Description Software Operational Description The above materials contain trade secrets and proprietary information not customarily released to the public. The public disclosure of these matters might be harmful to the Applicant and provide unjustified benefits to its competitors. The Applicant understands that pursuant to Rule 0.457, disclosure of this Application and all accompanying documentation will not be made before the date of the Grant for this application. Sincerely yours,

Kishore Gandham / CEO KeyWest Networks, Inc. Tel: +1 408.825.4226 E-mail: kishore@keywestnetworks.com sales@keywestnetworks.com

+1 408 825 4226 San Jose, CA - USA

Description of Permissive Change The application is prepared for FCC class II permissive change according to below 1. Adding frequency band from 5.26 to 5.32GHz and 5.50 to 5.72GHz by software 4. Adding 5GHz band 1, channels by software change. Andrea Hsia / Supervisor Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Tel: 886-3-318 3232 ext. 1628 Fax: 886-3-327 0892 Email: andrea.hsia@bureauveritas.com Data: 2020-11-20 FCC ID: 2ANBG-OR100 change:

change. 2. Adding one PoE. 3. Adding two antennas. Regards,

KeyWest Networks, Inc 3033 Oliver Dr San Jose, CA USA

+1 408.825.4226 Date : 2020/11/29 FCC ID : 2ANBG-OR100 A U T H O R I Z A T I O N L E T T E R To whom it may concern:

We, KeyWest Networks, Inc. hereby authorizes Andrea Hsia / Supervisor of Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch (BV CPS Taoyuan), to act on its behalf in all matters relating to the Federal Communication Commission (FCC) application for equipment authorization in connection with the FCC ID listed above, including signing of all documents relating to these matters. Any and all acts carried out by Andrea Hsia / Supervisor of BV CPS Taoyuan on our behalf, within the scope of the powers granted herein, shall have the same effect as acts of its own. If you have any questions regarding the authorization, please do not hesitate to contact us. Sincerely yours,

Kishore Gandham / CEO KeyWest Networks, Inc. Tel: +1 408.825.4226 E-mail: kishore@keywestnetworks.com sales@keywestnetworks.com

+1 408 825 4226 San Jose, CA - USA