FCC ID: T2KAE102882 LOW POWER ISM BAND TRANSCEIVER

 

Data Links User Guide EDL Nano Product AE301628-001 REV B 3 October 2019 For:

Part No. AE102474 & AE102882 Prepared by:

1775 West Hibiscus Blvd, Suite 200 Melbourne, FL 32901

(321) 984-1671 Aeronix Proprietary Title: Aeronix Data Links EDL Nano Products User Guide Document Authorization Review/Approval Title Originator:

Approved By:

Program Manager Approved By:

Quality Assurance Approved By:

Configuration Management Name S. Baduini L. Clarkson C. Hertzberg D. Franks Document Revision History Ver/Rev Description of Change Initial L1 Release to CM

-001/-

-001/A Release with updates for FCC testing

-001/B Updated with FCC Statements Chgd By Chg/Rel #

LC & SB LC LC SP-2493 SP-2519 Date 7/10/2019 9/11/2019 10/3/2019 Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary Page ii 1. Title: Aeronix Data Links EDL Nano Products User Guide Table of Contents INTRODUCTION .............................................................................................................................................. 1 1.1.1. Purpose .................................................................................................................................................. 1 REFERENCES ............................................................................................................................................... 1 1.2.1. Government Documents ......................................................................................................................... 1 1.2.2. Non-Government Documents ................................................................................................................. 1 OVERVIEW .................................................................................................................................................. 1 NOTES FOR FCC ID ..................................................................................................................................... 1 1.2. 1.3. 1.4. 3. 2.3. 2.2.1. 2.1. 2.2. EDL NANO - ENHANCED DATA LINK (AE102429) AND RUGGED ENHANCED DATA LINK 2.

(AE102882) ................................................................................................................................................................... 3 EDL NANO FEATURES ................................................................................................................................ 3 EDL NANO INSTALLATION AND STARTUP PROCEDURES ............................................................................. 4 Input Power Supply ................................................................................................................................ 4 EDL NANO PHYSICAL I/O ........................................................................................................................... 6 2.3.1. USB OTG ............................................................................................................................................... 9 2.3.2. USB Host ............................................................................................................................................... 9 2.3.3. Ethernet 1 & 2 ....................................................................................................................................... 9 2.3.4. Console RS-232 ..................................................................................................................................... 9 2.3.5. Platform RS-232 .................................................................................................................................. 10 2.3.6. P1 Antenna Interface TxRx 1 ............................................................................................................... 10 2.3.7. P2 Antenna Interface Rx 2 ................................................................................................................... 10 2.3.8. Tx Rx Enable ........................................................................................................................................ 10 2.3.1. Tx Rx Enable 4 State (OFDM only) ..................................................................................................... 11 2.3.2. External GPIO 1 & 3 ........................................................................................................................... 11 2.3.3. Red and Green LED ............................................................................................................................. 11 2.3.4. Tamper ................................................................................................................................................. 11 2.3.5. RF Output Power ................................................................................................................................. 11 SYSTEM CONFIGURATION........................................................................................................................ 11 AERONIX GUI INTERFACE ......................................................................................................................... 11 SNMP INTERFACE ..................................................................................................................................... 12 STARTUP ................................................................................................................................................... 12 RADIO MAINTENANCE LOGIN ................................................................................................................... 12 3.4.1. Using Serial Port A .............................................................................................................................. 12 3.5. ETHERNET ALIAS IP ADDRESS ................................................................................................................... 12 3.6. WEB BASED GUI SYSTEM CONFIGURATION ............................................................................................ 12 3.6.1. Base Station Status Page ..................................................................................................................... 13 3.6.2. Base Station Admin Page ..................................................................................................................... 17 3.6.3. Base Station Network Configuration Page .......................................................................................... 26 3.6.4. Base Station Profile Config Page ........................................................................................................ 45 3.6.5. Base Station Radio Control ................................................................................................................. 50 3.6.6. Base Station Maintenance Page .......................................................................................................... 54 3.6.7. Base Station Video Page ...................................................................................................................... 59 Subscriber Station Status ..................................................................................................................... 61 3.6.8. Subscriber Station Admin Page ........................................................................................................... 63 3.6.9. 3.6.10. Subscriber Network Config Page .................................................................................................... 67 Subscriber Profile Config Page ...................................................................................................... 69 3.6.11. Subscriber Station Radio Control Page .......................................................................................... 70 3.6.12. Subscriber Station Maintenance Page ............................................................................................ 74 3.6.13. Subscriber Station Video Page ........................................................................................................ 77 3.6.14. 3.6.15. BS and SS Common Pages .............................................................................................................. 80 SNMP INTERFACE CONFIGURATION .......................................................................................................... 90 3.1. 3.2. 3.3. 3.4. 3.7. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary Page iii Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide 7.1. 6.1. 4.1. 3.7.1. 3.7.2. 3.7.3. SNMP User Authentication .................................................................................................................. 91 SNMP examples ................................................................................................................................... 91 SNMP Unsupported configurations ................................................................................................... 106 4. DETERMINING NANO RADIO CONFIGURATION .............................................................................. 106 TWO WAYS TO DETERMINE RADIO IP ADDRESS ....................................................................................... 106 4.1.1. Use Console ....................................................................................................................................... 106 4.1.2. Use radios default IP address .......................................................................................................... 107 5. CHANGE RADIO IP ADDRESS VIA WEBGUI ........................................................................................ 107 6. ADDING SUBSCRIBER EXAMPLE USING WEBGUI ........................................................................... 108 CONFIGURING MULTIPLE SERVICE FLOWS .............................................................................................. 112 7. AERONIX SOFTWARE FEATURES ......................................................................................................... 117 NANO OUTPUT POWER ........................................................................................................................... 117 7.1.1. View NANO output power calibration ............................................................................................... 117 ARP TABLE FEATURE .............................................................................................................................. 122 7.2.1. Enable Aeronix ARP feature .............................................................................................................. 122 AERONIX SERIAL FLOW CONTROL FEATURE ........................................................................................... 123 8. RADIO PERFORMANCE ............................................................................................................................ 125 GMSK NANO RF INTERFERENCE PERFORMANCE ................................................................................. 125 NANO GMSK RECEIVER SENSITIVITY ................................................................................................... 125 OFDM NANO RF INTERFERENCE PERFORMANCE ................................................................................. 125 NANO OFDM RECEIVER SENSITIVITY ................................................................................................... 125 DATA RATES ........................................................................................................................................... 126 8.5.1. OFDM Max Data Rates ..................................................................................................................... 126 8.5.2. GMSK Data Rates .............................................................................................................................. 127 9. MECHANICALS ........................................................................................................................................... 129 PART NUMBER AE102429 ...................................................................................................................... 130 APPENDIX A: SNMP MIB .................................................................................................................................... 131 8.1. 8.2. 8.3. 8.4. 8.5. 7.2. 7.3. 9.1. APPENDIX C: DEFINITIONS, ACRONYMS, AND ABBREVIATIONS ........................................................ 182 Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary Page iv Title: Aeronix Data Links EDL Nano Products User Guide Table of Figures Figure 2-1 NANO .................................................................................................................................. 3 Figure 2-2 NANO RF Input/Output ....................................................................................................... 6 Figure 2-3 Nano Physical I/O ................................................................................................................ 7 Figure 2-4 TR SW Timing ................................................................................................................... 10 Figure 3-1 BS GMSK Status ................................................................................................................ 14 Figure 3-2 BS Status GMSK RX Dual mode ...................................................................................... 16 Figure 3-3 BS Admin Page .................................................................................................................. 17 Figure 3-4 BS Admin Station Names .................................................................................................. 18 Figure 3-5 BS Admin Transec Key Mgmt ........................................................................................... 19 Figure 3-6 BS Bridging Script and S/W Update .................................................................................. 20 Figure 3-7 Example Adding a SS entry ............................................................................................... 22 Figure 3-8 Example Modify Transec Key ........................................................................................... 22 Figure 3-9 Example Modify Transec Key Result ................................................................................ 22 Figure 3-10 Example Generate Start Script ......................................................................................... 23 Figure 3-11 Example Software Update ................................................................................................ 24 Figure 3-12 Example Software Update Progress ................................................................................. 25 Figure 3-13 Software Update Result .................................................................................................... 25 Figure 3-14 BS Network Config .......................................................................................................... 26 Figure 3-15 BS Network Config Network Options ............................................................................. 26 Figure 3-16 BS Network Config Service Classes ................................................................................ 27 Figure 3-17 BS Example Add Service Class ....................................................................................... 29 Figure 3-18 BS Example Modify Service Class .................................................................................. 30 Figure 3-19 BS Provisioned SFs .......................................................................................................... 30 Figure 3-20 BS Example Add Provisioned SFs ................................................................................... 32 Figure 3-21 BS Example Modify Service Flow................................................................................... 32 Figure 3-22 BS Network Config Class Rules ...................................................................................... 33 Figure 3-23 BS Network Config Auto Populate .................................................................................. 35 Figure 3-24 Example Auto Populate Network Layout ........................................................................ 36 Figure 3-25 BS Example Auto Populate .............................................................................................. 37 Figure 3-26 BS Example Auto Populate Result................................................................................... 37 Figure 3-27 BS Example Auto Populate Additional Class Rules ........................................................ 38 Figure 3-28 BS Example Additional Class Rules Result ..................................................................... 39 Figure 3-29 BS Example Auto Populate IP with Forwarders .............................................................. 40 Figure 3-30 BS Example Auto Populate IP with Forwarders Result ................................................... 40 Figure 3-31 BS Example Auto Populate with MAC Address ............................................................. 41 Figure 3-32 BS Example Auto Populate with MAC Address Result .................................................. 42 Figure 3-33 BS Example Class Rules ADD ENTRY .......................................................................... 43 Figure 3-34 BS Example MODIFY ENTRY selection ....................................................................... 44 Figure 3-35 BS Example MODIFY ENTRY ....................................................................................... 44 Figure 3-36 OFDM BS Profile Config Page ........................................................................................ 45 Figure 3-37 GMSK BS Profile Config Page ........................................................................................ 46 Figure 3-38 BS 802.16 Example Add Burst Profile ............................................................................ 48 Figure 3-39 BS 802.16 Example Modify Burst Profile ....................................................................... 49 Figure 3-40 OFDM BS Radio Control Page ........................................................................................ 50 Figure 3-41 GMSK BS Radio Control ................................................................................................. 51 Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary Page v Title: Aeronix Data Links EDL Nano Products User Guide Figure 3-42 BS GMSK Maintenance Page .......................................................................................... 55 Figure 3-43 BS Maintenance Registered SS Page ............................................................................... 58 Figure 3-44 BS Video Page ................................................................................................................. 59 Figure 3-45 SS OFDM Status Page ..................................................................................................... 61 Figure 3-46 SS OFDM Status Rx Dual ................................................................................................ 63 Figure 3-47 SS Admin Page................................................................................................................. 64 Figure 3-48 SS Admin Station Name and Transec Key ...................................................................... 64 Figure 3-49 SS Admin Start Script and SW Update ............................................................................ 66 Figure 3-50 SS Network Config Page.................................................................................................. 68 Figure 3-51 SS OFDM Profile Config Page ........................................................................................ 69 Figure 3-52 SS OFDM Radio Control Page ........................................................................................ 71 Figure 3-53 SS GMSK Radio Control ................................................................................................. 72 Figure 3-54 SS OFDM Maintenance Page .......................................................................................... 74 Figure 3-55 SS Video Page .................................................................................................................. 78 Figure 3-56 Save Settings Selection .................................................................................................... 81 Figure 3-57 Version Page .................................................................................................................... 82 Figure 3-58 Maintenance Reboot Selection ......................................................................................... 83 Figure 3-59 Maintenance Use Default DB Selection ........................................................................... 84 Figure 3-60 OFDM Maintenance System Tests Page .......................................................................... 85 Figure 3-61 Maintenance Debug Page ................................................................................................. 88 Figure 6-1 Example Adding Subscriber Layout ................................................................................ 108 Figure 6-2 Example Adding a Subscriber station name .................................................................... 109 Figure 6-3 Example Adding a Subscriber Provisioned SF ................................................................ 109 Figure 6-4 Example Adding a Subscriber Class Rules ...................................................................... 111 Figure 6-5 Example Adding a Subscriber Result ............................................................................... 112 Figure 6-6 Example Multiple SF Layout ........................................................................................... 113 Figure 6-7 Example Multiple SF Add SF .......................................................................................... 113 Figure 6-8 Example Multiple SF Add Class Rules ............................................................................ 114 Figure 6-9 Example Multiple SF Result ............................................................................................ 116 Figure 6-10 Example Multiple SF BS Status Page ............................................................................ 117 Figure 6-11 SS Example Multiple SF SS Status Page ....................................................................... 117 Figure 7-1 802.16 phyEeprom interface ............................................................................................ 120 Figure 7-2 OFDM phyEeprom interace ............................................................................................. 120 Figure 7-3 GMSK powerSettings interface ....................................................................................... 121 Figure 7-4 Serial B to Serial B Exp ................................................................................................... 124 Figure 7-5 BS serial config exp ......................................................................................................... 124 Figure 7-6 SS serial config exp .......................................................................................................... 125 Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary Page vi Title: Aeronix Data Links EDL Nano Products User Guide Table of Tables Table 2-1. GMSK Typical Peak Current and Power 1800 Mhz ............................................................ 4 Table 2-2. GMSK Typical Peak Current and Power 2300 MHz ........................................................... 4 Table 2-3. OFDM Typical Current and Power 1800 MHz .................................................................... 4 Table 2-4. OFDM Typical Current and Power 2300 MHz .................................................................... 5 Table 2-5. OFDM Typical Current and Power 2427 MHz .................................................................... 5 Table 2-6. Nano Hardware Interface...................................................................................................... 6 Table 2-7. Nano Hardware Interface...................................................................................................... 7 Table 2-8. J1: Main IF Pin Definitions ................................................................................................. 7 Table 2-9. J2: Camera IF Pin Definitions .............................................................................................. 9 Table 2-10 GMSK 14 MHz T/R SW Timing ...................................................................................... 10 Table 2-11 OFDM T/R SW Timing ..................................................................................................... 11 Table 3-1. Base Station Status Page .................................................................................................... 14 Table 3-2. Base Station Status Page RX Dual Mode ........................................................................... 16 Table 3-3. BS Admin Page Station Names .......................................................................................... 18 Table 3-4. BS Admin Transec Key Mgmt ........................................................................................... 19 Table 3-5. BS Admin Start Script and S/W Update ............................................................................. 20 Table 3-6. Base Station Network Config Network Options ................................................................ 27 Table 3-7. Base Station Network Config Service Class ...................................................................... 28 Table 3-8. Base Station Network Config Service Class ...................................................................... 30 Table 3-9. Base Station Network Config Service Class ...................................................................... 33 Table 3-10. Base Station Network Config Auto Populate ................................................................... 35 Table 3-11. Base Station Profile Config Page ..................................................................................... 46 Table 3-12. Base Station Radio Control .............................................................................................. 51 Table 3-13. Base Station Maintenance Page ....................................................................................... 55 Table 3-14. Base Station Video Page................................................................................................... 59 Table 3-15. Subscriber Station Status Page ......................................................................................... 62 Table 3-16. Subscriber Station Admin Page Transec Key ................................................................... 65 Table 3-17. Subscriber Station Admin Page Transec Key ................................................................... 66 Table 3-18. Subscriber Station Network Config .................................................................................. 68 Table 3-19. Subscriber Profile Config Page ....................................................................................... 69 Table 3-20. Subscriber Station Radio Control ..................................................................................... 72 Table 3-21. Subscriber Station Maintenance Page ............................................................................. 75 Table 3-22. Subscriber Station Video Page ......................................................................................... 78 Table 3-23. Version Page ..................................................................................................................... 82 Table 3-24. Maintenance System Tests Page....................................................................................... 85 Table 3-25. Maintenance Debug Page ................................................................................................. 88 Table 6-1. Adding Multiple Service Flow Class Rule ....................................................................... 114 Table 7-1. Transmit Calibration interface .......................................................................................... 122 Table 8-1. GMSK Receiver SNR Assumptions ................................................................................. 125 Table 8-2 OFDM. 14MHz Receiver SNR Assumptions .................................................................... 126 Table 8-3 OFDM. 7MHz Receiver SNR Assumptions ...................................................................... 126 Table 8-4 OFDM. 3.5 MHz Receiver SNR Assumptions .................................................................. 126 Table 8-5. 3.5 MHz BW Max Data Rates .......................................................................................... 127 Table 8-6. 7 MHz BW Max Data Rates ............................................................................................. 127 Table 8-7. 14 MHz BW Max Data Rates ........................................................................................... 127 Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary Page vii Title: Aeronix Data Links EDL Nano Products User Guide Table 8-8. 14 MHz BW GMSK Max Data Rates .............................................................................. 128 Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary Page ii Title: Aeronix Data Links EDL Nano Products User Guide 1. Introduction 1.1.1. Purpose User guide for Aeronix EDL Nano based family of data links. This user guide has information based on the NANO GMSK and OFDM software release. 1.2. References The following documents are referenced in or were used in the preparation of this document:

Government Documents 1.2.1. None. 1.2.2. Non-Government Documents

[1] IEEE STD 802 2004 Part 16d: Air Interface for Fixed Broadband Wireless Access Systems Revision 2004. June 24,2004

[2] IEEE STD 802 2005 Part16e: Air Interface for Fixed and Mobile Broadband Wireless Access System Amendment for Physical and Medium Access Control Layers for Combined Fixed and Mobile Operation in Licensed Bands Revision 2005.

[3] AE301432-001 : Report RF Statistics Via Ethernet Interface Description 1.3. Overview This user guide provides information deemed necessary to bring up the following radio products from point of delivery:

Part No. AE102429 EDL Nano Digital Data Link Part No. AE102882 EDL Nano Digital Data Link Rugged

(WARNING: DO NOT POWER UP WITHOUT A LOAD ON THE ANTENNA PORT) 1.4. Notes for FCC ID FCC testing was completed using GMSK low power mode (30 dBm) and frequencies within the ISM Band (2400 2483.4 MHz). Exposure Statement:

RF Exposure WARNING: This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance 20 cm between the radiator and your body. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 1 Title: Aeronix Data Links EDL Nano Products User Guide At 1000 mW Power (1W) and Antenna Gain of 4 (6 dB), and a minimum distance of 20cm (min separation distance for Mobile Devices). S = 0.8 mW/cm2, which is less than the Uncontrolled Exposure Maximum Permissible Exposure (MPE) limit. For radios labeled with FCC ID T2KAE102882 the following applies:

FCC Part 15.19 Warning Statement- (Required for all Part 15 devices) 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. FCC Part 15.21 Warning Statement-

NOTE: THE GRANTEE IS NOT RESPONSIBLE FOR ANY CHANGES OR MODIFICATIONS NOT EXPRESSLY APPROVED BY THE PARTY RESPONSIBLE FOR COMPLIANCE. SUCH MODIFICATIONS COULD VOID THE USERS AUTHORITY TO OPERATE THE EQUIPMENT. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 2 Title: Aeronix Data Links EDL Nano Products User Guide 2. EDL Nano - Enhanced Data Link (AE102429) and Rugged Enhanced Data Link

(AE102882) This unit is a software reprogrammable data link. This unit supports both Aeronix LAW functionality, GMSK waveform and video compression capabilities. The EDL Nano operates over the frequency band of 1.8 to 2.5 GHz with the appropriate antenna systems. (WARNING:

DO NOT POWER UP WITHOUT A LOAD ON THE ANTENNA PORT). Note: The pictures in this section are from AE102429. But, AE102882 operates the same and is just in a different housing. Figure 2-1 NANO 2.1. EDL Nano Features Software Reprogrammable Radio Simple yet powerful GUI for radio configuration. Option to use SNMP for radio configuration Frequency Range 1.8-2.4 GHz in 1 MHz steps Linux OS on Quad Core Processor Xilinx Artix 200 FPGA Diversity Receive Less than 4 cubic inches Aeronix provided OFDM and GMSK Waveforms available Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 3 Title: Aeronix Data Links EDL Nano Products User Guide 2.2. EDL Nano Installation and Startup Procedures 2.2.1. Input Power Supply The EDL unit requires a voltage be provided between 8 18V. Application of power to the data link turns on the system. NANO GMSK current and power measurements 2.2.1.1. Below is a measurement of the maximum current draw from a NANO GMSK radio over a period of time. Table 2-1. GMSK Typical Peak Current and Power 1800 Mhz Description BS Tx 50% ,50% Rx, data, Hi Power BS Tx 50% ,50% Rx, data, Low Power BS Tx 70% , 30% Rx, data, Hi Power BS Tx 70% , 30% Rx, data, Low Power BS Tx/Rx Off Voltage

(VDC) 12 12 12 12 12 Current

(mA) 1496 1425 1794 1600 411 Power

(W) 18.900 17.100 21.528 19.200 4.932 Table 2-2. GMSK Typical Peak Current and Power 2300 MHz Description BS Tx 50% ,50% Rx, data, Hi Power BS Tx 50% ,50% Rx, data, Low Power BS Tx 70% , 30% Rx, data, Hi Power BS Tx 70% , 30% Rx, data, Low Power BS Tx/Rx Off Voltage

(VDC) 12 12 12 12 12 Current

(mA) 1275 996 1419 1235 408 Power

(W) 15.300 11.952 17.028 14.820 4.896 Tx power dBm 35 33 35 33 N/A Tx power dBm 35 33 35 33 N/A NANO OFDM current and power measurements 2.2.1.2. Measurements were taken at room temperature (25 C). Table 2-3. OFDM Typical Current and Power 1800 MHz Description BS Tx 50% data, no video, Hi data rate BS Tx 50% data, no video, Hi power BS Tx 70% data, no video, Hi data rate BS Tx 70% data, no video, Hi power Document Number: AE301628-001 Revision: B Date: 3 October 2019 Voltage

(VDC) 12 12 12 12 Current

(mA) 920 965 945 995 Power

(W) 11.0 11.6 11.3 11.9 TX power

(dBm) 31 33 31 33 Form #: OP_01_TM Aeronix Proprietary 4 Title: Aeronix Data Links EDL Nano Products User Guide Table 2-3. OFDM Typical Current and Power 1800 MHz Description BS Tx/Rx Off Voltage

(VDC) 12 Current

(mA) 600 Power

(W) 7.2 TX power

(dBm) N/A Table 2-4. OFDM Typical Current and Power 2300 MHz Description BS Tx 50% data, no video, Hi data rate BS Tx 50% data, no video, Hi power BS Tx 70% data, no video, Hi data rate BS Tx 70% data, no video, Hi power BS Tx/Rx Off Voltage

(VDC) 12 12 12 12 12 Current

(mA) 845 870 850 880 600 Power

(W) 10.1 10.4 10.2 10.6 7.2 TX power

(dBm) 29 32 29 32 N/A Table 2-5. OFDM Typical Current and Power 2427 MHz Description BS Tx 50% data, no video, Hi data rate BS Tx 50% data, no video, Hi power BS Tx 70% data, no video, Hi data rate BS Tx 70% data, no video, Hi power BS Tx/Rx Off Voltage

(VDC) 12 12 12 12 12 Current

(mA) 910 930 915 940 600 Power

(W) 10.9 11.2 11.0 11.3 7.2 TX power

(dBm) 30 33 30 33 N/A Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 5 Title: Aeronix Data Links EDL Nano Products User Guide 2.3. EDL Nano Physical I/O The front panel of an EDL Nano is shown in the following figure. Indicated ports are described below. P2: RF 2, Rx Only P1: RF 1, Tx/Rx Mating Connector Female SMA Female SMA Figure 2-2 NANO RF Input/Output Table 2-6. Nano Hardware Interface EDL Connector P1 Connector Description The back panel of an EDL Nano is shown in the following figure. Indicated connectors are described below. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Tx/Rx1: Female SMA connector connects to the desired antenna Rx2: Female SMA connector connects to the desired antenna P2 Male SMA Male SMA Aeronix Proprietary 6 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide J1: Main IF J2:

Camera IF Figure 2-3 Nano Physical I/O Table 2-7. Nano Hardware Interface EDL Connector Connector J1 J2 Description Main IF: Header 2x20 Camera IF: Header 2x10 Mating Connector Molex 501571-4007 Molex 501189-4010 Molex 501571-2007 Molex 501189-2010 Table 2-8. J1: Main IF Pin Definitions Description 8-18 VDC Ground Pin 1 2 Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 7 Title: Aeronix Data Links EDL Nano Products User Guide 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 Ext GPIO 0 External Tx Enable (1.8V) Ext GPIO 2 External Rx Enable (1.8V) 8-18 VDC Ground 8-18 VDC Ground Platform RS-232 Rx USB OTG VBUS Platform RS-232 Tx USB OTG DP USB OTG DN Ground Ext GPIO 1 Console RS-232 Tx Ext GPIO 3 Console RS-232 Rx Green LED Ground Red LED Ground RX TX Enable Ground TAMPER Ground VBUS 5V USB Host DN Ground USB Host DP Ether2 Tx+

Ether1 Tx+

Ether2 Tx-

Ether1 Tx-

Ground Ground Ether2 Rx+

Ether1 Rx+

Ether2 Rx-

Ether1 Rx-

Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 8 Title: Aeronix Data Links EDL Nano Products User Guide Table 2-9. J2: Camera IF Pin Definitions Pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Description 3 VDC Ground CAM SDA CAM CLK CAM SCL CSI D3P CAM EN CSI D3M CAM RST#

Ground CSI D0P CSI D2P CSI D0M CSI D2M Ground Ground CSI D1P CSI CLKDP CSI D1M CSI CLKDM 2.3.1. USB OTG USB OTG port is currently only used to download initial firmware. Software to use the USG OTG to recognize other applications has not been implemented. 2.3.2. USB Host Software has not been formally tested. 2.3.3. Ethernet 1 & 2 Ethernet ports are both IEEE802.3 compliant 10/100 Mbps connection. Ethernet 1 is the primary Ethernet for the radio. Ethernet 2 currently is not configurable and usable on the radio. 2.3.4. Console RS-232 The Serial interface allows direct communication with the radios control processor. This interface is a RS-232 standard interface. Port is configured as 8-N-1, 115200 BAUD. This port provides the radios login console. You can login with administrative privileges by entering root at the login prompt and password 1234. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 9 Title: Aeronix Data Links EDL Nano Products User Guide 2.3.5. Platform RS-232 Serial interface is for serial to serial communication. This interface is a RS-232 standard interface. The debug port is configured as 8-N-1, the BAUD rate is configurable via the webgui or SNMP. This interface is used to pass serial data from a BS serial port to one of its SS serial port. 2.3.6. P1 Antenna Interface TxRx 1 The antenna interface is an SMA connector that provides both input and output RF signalling. 2.3.7. P2 Antenna Interface Rx 2 The antenna interface is an SMA connector that provides input RF signalling. 2.3.8. Tx Rx Enable The Tx/Rx Enable is a three state condition. It requires an external pull-up resistor of 4.7 kilo ohms to supply voltage V (customer determined with a max of 5V), see diagram below. Figure 2-4 TR SW Timing Table 2-10 GMSK 14 MHz T/R SW Timing Marker Time (us) Description t1 t2 t3 t4 TBD TBD TBD TBD t5 TBD Minimum time from Tx Enable Active to start of Transmit Out Minimum time from Transmit Out Complete to Tx Enable Inactive Minimum Time from Rx Enable Active to Receive energy Minimum time from Receive Energy Complete to Rx Enable Inactive Minimum switching time, ie minimum amount of Idle time before a radio will switch between Rx and Tx state or Rx and Rx state Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 10 TxRxt1t3t40V (Tx)V/2 (Rx)V (Idle)Rx Tx EnableTx OutRx Opent2t5 Title: Aeronix Data Links EDL Nano Products User Guide Table 2-11 OFDM T/R SW Timing Marker Time (us) Description t1 t2 t3 t4 12 us 0 80 us 11 us t5 10.5 us Minimum time from Tx Enable Active to start of Transmit Out Minimum time from Transmit Out Complete to Tx Enable Inactive Minimum Time from Rx Enable Active to Receive energy Minimum time from Receive Energy Complete to Rx Enable Inactive Minimum switching time, ie minimum amount of Idle time before a radio will switch between Rx and Tx state or Rx and Rx state 2.3.1. Tx Rx Enable 4 State (OFDM only) External Tx and Rx control lines with 1.8V logic. 2.3.2. Not Used External GPIO 1 & 3 2.3.3. Red and Green LED The external Red and Green LEDs will give the user some basic status of the radios current state. Green only LED on -> The NANO is in sync with another radio Red only LED on -> The Nanos RF is turned off via the software Tx/Rx enable/disable Green and Red LED on (Yellow) -> The NANO RF is on, but NOT in sync with another setting. radio. Tamper 2.3.4. Not Used 2.3.5. RF Output Power The NANO output power will remain unchanged regardless of the RF environment. The NANO output power is based on frequency and is calibrated per Radio Card. Each radio will have its own calibration programmed and available for the user to view. Each NANO may vary from 1-2 dB of output power. See section 7.1 NANO output power for more information on determining the output power measured on a particular frequency. 3. System Configuration 3.1. Aeronix GUI interface This simple yet powerful GUI uses uncomplicated intuitive screens to allow the average user the ability to:

Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 11 Title: Aeronix Data Links EDL Nano Products User Guide Configure the system for their network Make the system operational Perform maintenance The GUI screens and all their respective elements are described in the following subsections. To get to the main page, type the following URL: http://<ip address of the radio>/

The recommended browsers to use are Internet Explorer Version 7 or newer and Mozilla Firefox. 3.2. SNMP interface The NANO can be configured to run the Aeronix SNMP agent, and process SNMP (Simple Network Management Protocol) requests using the radios IP. This allows the user to configure and monitor the radio over an IP network. 3.3. Startup Each unit is configured with an IP address. Using the IP address, one can access the GUI which can be used for configuring the radio to the users specifications. The typical factory default IP address that is set from the factory is 192.168.1.1 and the units default configuration is that of subscriber 1, unless specified otherwise. To browse the GUI type in the IP address of the unit in an internet browser. More information about the GUI screens and how to configure the unit can be found in this section. 3.4. Radio Maintenance Login 3.4.1. Using Serial Port A 1) Make sure antenna port has a load on it. 2) Apply appropriate power to unit. 3) Connect to Serial A port with terminal emulator. (Baud = 115200, 8-N-1 no flow control) 4) Login by typing root 5) Enter password 1234. 6) $ cd /mnt/jffs2 3.5. Ethernet alias IP address The user can always access the radio over its Ethernet alias IP address of 169.254.1.1. This IP is consistent so if the user needs to access the GUI or SNMP and has forgotten the configured IP address for the radios Ethernet, then the user can access 169.254.1.1. 3.6. WEB Based GUI System Configuration This simple yet powerful GUI uses uncomplicated intuitive screens to allow the average EDL user:

Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 12 Title: Aeronix Data Links EDL Nano Products User Guide Configure the system for their network Take the system operational Perform maintenance The GUI screens and all their respective elements are described in the following subsections. To get to the main page, types the following URL: http://<ip address of the radio>/

The recommended browsers to use are Internet Explorer Version 8 or newer and Mozilla Firefox. The sections below show screen shots using either OFDM or GMSK mode. If there is a difference in the GMSK versus OFDM screen captures then both captures will be displayed. 3.6.1. Base Station Status Page The base station status page is the default page displayed when the radios IP address is entered. The status page lists the current active subscribers received by the BS. It also lists the current configuration of the base station. There are attributes each web page share, these are highlighted by items A and B in the image below. A B This section displays the current mode radio is in and the HTML links to the all of the pages available. The radios configured name and IP address, located on the web page tab. Form #: OP_01_TM Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 13 Title: Aeronix Data Links EDL Nano Products User Guide Figure 3-1 BS GMSK Status Table 3-1. Base Station Status Page Field/Control 1 Status 2 Board Details 3 Front Panel Description Status displays a subset of current settings. MAC Address The IEEE 802.16 MAC address of the base station Current Channelization Displays the channelization of the base station. The channelization may be changed on the Radio Control Screen. Current Channel The current 802.16 specified channel that the base station uses for transmit and receive. The channel may be changed on the Radio Control screen. BS Estimated EIRP Displays the estimated EIRP of the base station based upon user configured gain a loss values. (Est Tx Pwr +

Antenna Gain External Tx Cable Loss Antennal Cable Loss Internal Tx Loss ) Tx - Provides the status of the transmit portion of the unit. (On/Off) The status may be changed on the Radio Control screen. Rx - Provides the status of the receive portion of the unit. (On/Off) The status may be changed on the Radio Control screen. Transec Status Displays the status of Transec

(on or off). The Transec status can be changed on the Admin Screen. Display Temperature CPU Temperature Displays the temperature reported by the processor in Celsius and Fahrenheit RF Temperature Displays the temperature reported by the AD9361 chip on the RF card in Celsius and Fahrenheit Displays PHY status on an interval basis. Base is a constant green light if the radio is configured as a Base Station Sync is off on the base station when no subscribers are registered and is illuminated continuously when subscribers are registered. Recv is green when the radio is receiving messages Xmit is green when the radio is transmitting data Alarm Aeronix Proprietary 14 Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide Table 3-1. Base Station Status Page Field/Control 4 Tx/Rx Over the Air Status Description The first part of the Tx/Rx Status Table Displays the receive status of each subscriber connection. The second part of the table is the amount of data the BS is transmitting to each active SS. Subscriber Name - Configured Subscribers name. Current Modulation Type Contains the current modulation/FEC type for the subscriber connection. The display show the modulation of the receive frame at the time sampled. Rx Signal Strength: Contains an assessment of the receive signal strength. RSSI (dBm) Display the RSSI value measured at the P1 antenna port.See Figure 3-2 BS Status GMSK RX Dual mode for RX Dual mode display Service Flow Identifies the service class of the service flow for the connection. State Displays the state of the connection. The valid values are provisioned and active. Est User B/W (Mbits/sec) Displays the estimated bandwidth in megabits per second being used by the connection in the transmit direction. Est Allocated B/W (Mbits/sec) Displays the estimated bandwidth in megabits per second being allocated to the connection in the transmit direction. Service Flow Oversubscribed Displays the number of Ethernet packets dropped because the number of packets for that specific service flow has reached its limit and is full. Base Station Status Page in Receive Dual 3.6.1.1. When the user enables RX Dual on the Radio control page the second receive RSSI will be reported on the RSSI1 column on the Tx/Rx Over the Air Status section. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 15 Title: Aeronix Data Links EDL Nano Products User Guide Figure 3-2 BS Status GMSK RX Dual mode Table 3-2. Base Station Status Page RX Dual Mode Field/Control Tx/Rx Over the Air Status Description The first part of the Tx/Rx Status Table Displays the receive status of each subscriber connection. The second part of the table is the amount of data the BS is transmitting to each active SS. Subscriber Name - Configured Subscribers name. Current Modulation Type Contains the current modulation/FEC type for the subscriber connection. The display show the modulation of the receive frame at the time sampled. Rx Signal Strength: Contains an assessment of the receive signal strength. RSSI0 (dBm) Display the RSSI value measured at the P1 antenna RSSI1 (dBm) Display the RSSI value measured at the P2 antenna Service Flow Identifies the service class of the service flow for the connection. State Displays the state of the connection. The valid values are provisioned and active. Est User B/W (Mbits/sec) Displays the estimated bandwidth in megabits per second being used by the connection in the transmit direction. Est Allocated B/W (Mbits/sec) Displays the estimated bandwidth in megabits per second being allocated to the connection in the transmit direction. Service Flow Oversubscribed Displays the number of Ethernet packets dropped because the number of packets for that specific service flow has reached its limit and is full. If the OFDM base station is no longer receiving valid receive information for a connection, the row for that connection will be displayed in red, which could mean the data is stale. If the base Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 16 Title: Aeronix Data Links EDL Nano Products User Guide station is a GMSK base station the row will be displayed in red. For both modes, if the reception loss continues for a period of time the base station deregisters the subscriber and the row disappears from the display. 3.6.2. Base Station Admin Page The admin page allows administration of station names for the base station and subscribers. It also provides the capability to enable and disable TRANSEC and the selection of the TRANSEC key. Start script generation and software download are also supported on the admin page. Figure 3-3 BS Admin Page Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 17 Title: Aeronix Data Links EDL Nano Products User Guide Figure 3-4 BS Admin Station Names Table 3-3. BS Admin Page Station Names Field/Control 1 My Name 2 My Name 3 Subscribers Description Displays the current name of the base station. Provides the capability to change or set the name of the base station. Type in the desired name and click the set button. The new name will automatically be distributed throughout the system Relates a Subscribers MAC Address with a user friendly name. Number : Auto incrementing number. Subscriber-Name: A unique name for the Subscriber, this is an alphanumeric string that will identify the SS. MAC Address: MAC the IEEE 802.16 MAC address of the subscriber station. The MAC address should be of the format 00-61-65-6E-

64-XX where XX is the subscriber number in the system. The subscriber number is configured in the start script as part of the start script generation which is described later in this section of the document. The user can configure up to 32 subscribers for the network. Add Entry Button Add Subscriber to network Modify Entry Modify Subscriber Station entry Remove Entry Remove Subscriber Station Note: A subscribers information must be added here first before moving on to adding a Provisioned Service Flow for it. Note: The BS will only allow a max of 10 Subscribers to be configured. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 18 3.6.2.1. Title: Aeronix Data Links EDL Nano Products User Guide BS Admin Transec Key Management Figure 3-5 BS Admin Transec Key Mgmt Table 3-4. BS Admin Transec Key Mgmt Field/Control Transec Key Management Description Displays the settings for Transec capability. Transec - Displays current Transec state Transec Enable/Disable buttons - Ability to

(ON/OFF). enable or disable. Key Length drop down menu Allows user to specify the number of bits for the Transec Key Load Key Allows the ability to change the Transec Key in hexadecimal based on Key length. Current Key Displays the current key. BS Admin Bridging Start Script and Software Update 3.6.2.2. Bridging is the default mode for operating the units. The Generate Bridging Start Script section of the admin page allows for configuration of the start script. Once the configuration is set by selecting the Generate Script button the unit must be rebooted or power cycled for the configuration to take effect. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 19 Title: Aeronix Data Links EDL Nano Products User Guide 1 2 Figure 3-6 BS Bridging Script and S/W Update Table 3-5. BS Admin Start Script and S/W Update 3 1 Field/Control Current Start Script 2 Generate Script Description The current start script parameters. User can change the mode the radio boots in or the IP address,etc. The unit should not be powered cycled while script generation is in process. Type radio buttons: Select BS or SS for type Id: If setting up start script as SS enter its Subscriber Number. User Interface radio buttons: NANO can be statistics and configuration can be monitored using either the webgui interface or the SNMP interface o Click on the radio button for the desired interface Quagga radio buttons: Option to enable additional network routing software suite providing implementations of Open Shortest Path First (OSPF). Note there is user configuration necessary to implement Quagga, this information is not covered in this document. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 20 Title: Aeronix Data Links EDL Nano Products User Guide Table 3-5. BS Admin Start Script and S/W Update Field/Control Description IPv4 Address: Provides the capability to set a new IPv4 address for the unit. IPv4 Netmask: Provides the capability to set a new IPv4 netmask address for the unit IPv4 Default Gate (Opt) : Optional ability to configure an IPv4 default gateway. Vlan ID (Optional) : Allows user to add a VLAN ID to IP packets coming from radio. The radio will pass VLAN tagged packets unmodified, so this does not need to be set to allow VLAN packets to flow through the radio. Only if communication to the radio needs to have a VLAN ID. IPv6 Default Gate (Opt) : Optional ability to configure an IPv6 default gateway. IPv6 Address (Optional) : Optional IPv6 address for the Ethernet (Note : current release of EDL does not support IPv6) IPv6 Netmask (Optional) : Optional IPv6 netmask for IPv6 address (Note: current release of EDL does not support IPv6) Generate Script Button : Generates a new start script for the unit with the values input in the Generate Bridging Start Script section of the Admin page. Once the script has been generated, the unit must be rebooted or power cycled for the new values to take effect. The unit should not be power cycled while script generation is in process. Allows user to select a signed package file provided by the manufacturer to update the software on the unit. File Path Allows users to browse to location where the package file resides. Start Update - Selection of the start update button starts the software update using the factory signed package file specified in the File Path. Once the update process begins, any interruption can render the box unusable and require its return to the factory. 3 Software Update Example Adding a SS Entry 3.6.2.3. A subscriber must be added here in order to continue configuring that subscriber in network. Enter a name for the subscriber and then a IEEE 802.16 MAC address for the subscriber station. The MAC address should be of the format 00-61-65-6E-64-XX where XX is the subscriber number in the system. The subscriber number is configured in the start script as part of the subscriber start script generation which is described later in this section of the document. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 21 Title: Aeronix Data Links EDL Nano Products User Guide The system will allow the user to configure 10 Subscribers. Figure 3-7 Example Adding a SS entry Example Modify Transec Key 3.6.2.4. The following screen shows and example for updating a Transec key in the base station. The key is a 256 bit hexadecimal value. User must enter a new value in the Load Key entry box. Then the user must click on the Load Now Button. Once the user click on the Load Now button the Transec key will be updated. Figure 3-8 Example Modify Transec Key Figure 3-9 Example Modify Transec Key Result In order for the Transec Key to be saved to the database for future use, the user must select the Save Settings Button on the left menu (not shown in picture above, refer to 3.6.15.1 Save Settings Button). Generate Bridging Start Script Example 3.6.2.5. Bridging is the default mode for operating the units. The Generate Bridging Start Script section of the admin page allows for configuration of the start script. Once the configuration is set by selecting the Generate Script button the unit must be rebooted or power cycled for the configuration to take effect. In this example below depicts new BS start script with an IPv4 address of 10.1.100.1. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 22 Title: Aeronix Data Links EDL Nano Products User Guide Figure 3-10 Example Generate Start Script The left section of the Generate Bridging Start Script will display the current start script settings. The right section displays the changes the user desires to make to the start script. Once the Generate Script button is selected, the old start script will be overwritten with the new start script changes. Once a reboot or power cycle occurs the new changes will take effect. Software Update Example 3.6.2.6. The following screens show an example of the software update process. When the user selects the Browse button a window will pop up allowing the user to locate the package file. A user browses to the location of the manufacturer signed package file and selects the Start Update button. After a few seconds the update process begins. This process should not be interrupted. When the process completes, the unit reboots and the new software executes. If problems occur during software update the error can be viewed via the webgui after reboot or via the serial console. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 23 Title: Aeronix Data Links EDL Nano Products User Guide Figure 3-11 Example Software Update The picture below displays the results when the Start Update button is selected. The software update process begins and the GUI displays the software update page. This process should not be interrupted. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 24 Title: Aeronix Data Links EDL Nano Products User Guide Figure 3-12 Example Software Update Progress When the software update is complete the radio will reboots. When the radio completes startup, the Webgui will default back to the SW Update page and display the results of the software update. Figure 3-13 Software Update Result Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 25 Title: Aeronix Data Links EDL Nano Products User Guide 3.6.3. Base Station Network Configuration Page The base station network configuration screen allows the administrator to configure the 802.16d quality of service parameters and the traffic flow through network. Figure 3-14 BS Network Config 3.6.3.1. Base Station Network Options Figure 3-15 BS Network Config Network Options Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 26 Title: Aeronix Data Links EDL Nano Products User Guide Table 3-6. Base Station Network Config Network Options Field/Control Description 1 Network Options Forward Multicast Status : This allows the BS to re-direct Multicast messages from one Subscriber to remaining Subscribers through the BS RF interface. If this is disabled Multicast messages will not be forwarded from one SS to another. Classifier Status : Disables or Enables using the Classifier Rules Table. See 3.6.3.7 Base Station Network Config Class Rules ARP Table Status: Disables or Enables the ARP Table Feature. See 7.2 ARP Table feature ARP Forwarding Status : Disables or Enables the ability for Subscribers to pass data between each other. This is only an option on the BS. Base Station Network Config Service Classes 3.6.3.2. Service classes define the parameters for the 802.16d quality of services that are used to schedule the traffic throughout the network. A total of 12 service classes can be configured on the base station. Service classes define the 802.16d scheduling type parameters used for scheduling the traffic throughout the network. Figure 3-16 BS Network Config Service Classes 1 2 Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 27 Title: Aeronix Data Links EDL Nano Products User Guide Table 3-7. Base Station Network Config Service Class Field/Control Description 1 Service Classes 2 Control Buttons Index the index into the service class table for the entry. This field is not entered by the user. Name the user defined name for the service class. The name can be up to 31 valid characters in length. Schedule Type Defines the 802.16d scheduling type for the service class. The entries are defined in a drop down by the system. Max Rate The maximum data rate for the service class in Kbps as defined by the 802.16d schedule type. Min Rate The minimum data rate for the service class in Kbps as defined by the 802.16d schedule type. Priority - Defines the priority of the service class as defined by the 802.16d schedule type. The higher number defines a higher priority (7 is the highest priority). The priority field is valid for schedule types of non real-time and real-time. Add Entry Button allows for adding a new service class entry. Click on the button and enter the fields. When the fields are complete click on the add button to the right of the entry fields. Modify Entry Button allows for modifying a service class entry in the table. Click on the button and then select the entry to modify by clicking on the modify button to the right of the entry line. When modifications are complete click the save button to the right of the entry line. Remove Entry Button allows for removing a service class entry from the table. Click on the button and then click on the remove button to the right of the entry line to remove. Cancel Button allows for canceling the current add or modify request. Multicast Note:

A service class for downlink multicast data is automatically configured that defines the possible bandwidth for multicast messages. The maximum and minimum rate can be modified according to the expected multicast traffic of your system. The multicast service class cannot be deleted as multicast support is always on in the bridging configuration. Multicast is not currently supported in the non-bridging configuration. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 28 Title: Aeronix Data Links EDL Nano Products User Guide Adding an Entry for a Service Class:

Service classes define the parameters for the 802.16d quality of services that are used to schedule the traffic through the network. A total of 12 service classes can be configured on the base station. The following screen displays an example for adding a service class. Once the ADD ENTRY button is selected the administrator can type in a name for the new service class and can select the schedule type from a pull down menu. The max and min data rates should be entered and a priority selected if valid for the chosen scheduling type. Once all of the information is input the administrator selects the ADD button to enter the information input. Figure 3-17 BS Example Add Service Class The above example adds a Real-Time service class named ExpRealTime with a maximum rate of 1000Kbps and a minimum rate of 500 kbps, at a priory of 0. Modifying a Service Class 3.6.3.3. The following screen displays an example for modifying an existing service class entry. Once the administrator selects the MODIFY ENTRY button the max and min data rate fields and the priority fields can be modified. Once the new values are entered the administrator selects the SAVE button to the right of the entry to save the changes. To change the schedule type and service class name, the administrator adds another service class entry with the new parameters or deletes a current entry and adds a service class entry with the new parameters. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 29 Title: Aeronix Data Links EDL Nano Products User Guide Figure 3-18 BS Example Modify Service Class Base Station Network Config Provisioned SFs 3.6.3.4. The service flows define the subscriber connections that are allowable within the network. They also define the service class of the subscriber connection which is used to determine the data traffic and rate of data flow for that connection. A total of 32 pairs of service flows can be defined in the network. It is allowable to define multiple pairs of service flows per subscriber when there are service flow entries available. 1 2 Figure 3-19 BS Provisioned SFs Table 3-8. Base Station Network Config Service Class Field/Control Description 1 Provisioned Service Flows Document Number: AE301628-001 Revision: B Date: 3 October 2019 Subscriber Name A drop down selection box with the alphanumeric names for all of the configured Subscribers on the Admin page. Downstream SF Id - Defines the identification number for the downstream service flow (base station to subscriber). The values of 1,2,3 are reserved. Upstream SF Id Defines the identification number for the upstream service flow (subscriber to base station). Form #: OP_01_TM Aeronix Proprietary 30 Title: Aeronix Data Links EDL Nano Products User Guide Table 3-8. Base Station Network Config Service Class Description Field/Control 2 Control Buttons Not a user entry, this value will be Downstream SF Id + 1 Service Class A drop down selection for the service class used for scheduling traffic for the service flow pair. UL Multicast Select Defines the service flow from which the uplink data will be sent on. This is only critical if the user has configured multiple Service Flows for a subscriber station. Otherwise the only service flow defined for the Subscriber will be used. Add Entry Button allows for adding a new provisioned service flow entry. Click on the button and enter the fields. When the fields are complete click on the add button to the right of the entry fields. Modify Entry Button allows for modifying a provisioned service flow entry in the table. Click on the button and then select the entry to modify by clicking on the modify button to the right of the entry line. When modifications are complete click the save button to the right of the entry line. Remove Entry Button allows for removing a provisioned service flow entry from the table. Click on the button and then click on the remove button to the right of the entry line to remove. Cancel Button allows for canceling the current add or modify request Note: The GUI adds both downlink and uplink SFs at the same time. Generating Service Flows 3.6.3.5. Service flow pairs can be added for a subscriber in the Network Config page. Only subscribersconfigured to the network in the station name portion of the Admin Page appear in the drop drown list for the subscriber name selection of the service flow. The subscriber that the service flow pair represents is selected. The administrator provides a service flow identification number for the downstream service flow which should be a number greater than 4 and not be used for any other service flow id. The upstream identification number is generated automatically. The service identification numbers are only used for reference. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 31 Title: Aeronix Data Links EDL Nano Products User Guide The service class drop down list contains all service classes defined in the service class section of the Network Config page. The administrator selects the desired service class. The UL Multicast Select box, when checked, indicates to the system which service flow will have the uplink data sent on. Each subscriber can have a maximum of one UL Multicast selected to it. The UL Multicast is optional; however, if there are multiple service flows defined for a subscriber and there is no UL Multicast selected, the system will automatically pick one at random. Once all the fields are complete, the administrator selects the ADD button to the right of the new entry, adding the new service flow pair to the network. Figure 3-20 BS Example Add Provisioned SFs Modifying a Service Flow Pair 3.6.3.6. Existing service flow pair entries can be modified using the MODIFY ENTRY button. The administrator can only modify the service class for the service flow pair to a service class of the same schedule type. Changing any of the other service flow parameters requires adding a new service flow pair with the desired parameters. If a subscriber station already has a UL Multicast checked for one of its service flows, none of its other service flows will be allowed to have their Multicast also selected. To select the status of the UL Multicast for a specific subscribers service flow, any service flow already set to use the UL Multicast must be unchecked first. Any undesired service flow pairs should be removed. Figure 3-21 BS Example Modify Service Flow Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 32 Title: Aeronix Data Links EDL Nano Products User Guide Base Station Network Config Class Rules 3.6.3.7. If user is not using the ARP Table feature, then they will need to configure classifiers for IP data to pass between the radios. The Classifier Status must be enabled in the Network Options section of the Network Config page. The class rules define the paths that are valid for data transmission within the network. It is valid to define class rules by using IP addresses or MAC addresses. All class rules must be defined using the same address type. Class Rules are configured on the base station and transferred to the subscribers when they connect to the base station. A valid class rule must exist for each downstream service flow and for each upstream service flow for data to pass in the define direction. 2 1 3 4 5 6 Figure 3-22 BS Network Config Class Rules Table 3-9. Base Station Network Config Service Class Field/Control Description Address Mode - Displays the current address mode for the class rules. The valid values are IP and MAC Forwarders Enabled - If selected, the GUI will populate forwarders for each configured SS. Auto populate does not account for multiple service flows per subscriber. The additional class rules need to be entered manually. Non-Forwarder Count - Indicates the number of class rules not using forwarders. Form #: OP_01_TM 3 Current Class Rules Mode Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 33 Title: Aeronix Data Links EDL Nano Products User Guide Table 3-9. Base Station Network Config Service Class Field/Control Description 2 IP/MAC Buttons 3 Auto Populate 4 Prev/Next Page 5 Classifier Table 6 Control Buttons Forwarder count - Indicates the number of class rules using forwarders. Provides the capability to change the address mode of the class rules. Changing the mode will delete the current class rules. The administrator receives a warning prior to rule deletion. Provides the capability to automate the class rule entry process such that each address gets entered once. Auto populate creates a class rule for the downstream service flow and a class rule for the upstream service flow. Allows for paging through the class rules if the information on the Network Config is larger than one page. IP addresses in this section are just examples. Index Internal index used for class rules. The index is automatically generated. pertains to the class rule. SF Identifies the service flow that Src IP/MAC The source address for the class rule. The address presented to the unit when initiating traffic through it. Src Mask The address mask for the source address. Masking portions of the IP address is only valid when the addresses of the units are configured on different subnets. Currently only the last subnet byte is allowed to be masked Dest IP/MAC - The destination address for the class rule. The destination address for the traffic through the unit. Dest Mask - The address mask for the destination address. Masking portions of the IP address is only valid when the addresses of the units are configured on different subnets. Currently only the last subnet byte is allowed to be masked The control buttons allow the administrator to add, modify and remove class rules and to cancel the current add, modify or remove transaction. Base Station Network Configuration Auto Populate GUI 3.6.3.8. Class rules can be auto populated. The Aeronix S/W will look at either the IP Layer or the Ethernet layer of the Ethernet packet, depending if the classifiers are configured in IP mode or MAC mode. The addresses inputted should be those presented to the unit in bridging mode. They are typically the address of the peripherals generating the data for the source address and the peripheral receiving the data for the destination address Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 34 Title: Aeronix Data Links EDL Nano Products User Guide The screen below appears when the user clicks on the Auto Populate Button on the Base Station Network Configuration Screen. Figure 3-23 BS Network Config Auto Populate Table 3-10. Base Station Network Config Auto Populate Field/Control 1 Auto Populate User Interface Description Automatically generates classifiers based on the list of Subscribers that are configured. User must enter the IP/MAC address of the data from each Station. Station A list of all the stations (including BS) that are configured, not a user entry. SF Indices The SF index that is associated with a configured SS, not a user entry (note: BS does not have SF Id so it is ---). Station IP - The source external network stations Ethernet IP address. This is the source of data packets. Station Mask - Mask to be applied to Source IP fields, allows you to open up a range of IP addresses. Currently only the last subnet byte is allowed to be masked off. Enable Forwarders check box - If selected, the GUI will populate forwarders for each configured SS. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 35 Title: Aeronix Data Links EDL Nano Products User Guide Table 3-10. Base Station Network Config Auto Populate Field/Control Description BS Number of extra classifiers that will be added to the base station. SS Total number of extra classifiers that will be added to the subscriber stations. Extra Count Button Allows a user to add additional classifiers to a radio. Generate Classifiers This button triggers the GUI to generate the classifiers. It will create BS SS classifiers, and forwarders if enabled. 192.168.100.1 192.168.10.1 192.168.20.1 BS Ethernet TX/RX TX/RX SS 1 Ethernet TX/RX Ethernet SS 2 192.168.100.10 F0-E0-D0-C0-B0-A0 192.168.1.10 F1-E1-D1-C1-B1-A1 192.168.2.10 F2-E2-D2-C2-B2-A2 192.168.2.15 F3-E3-D3-C3-B3-A3 Figure 3-24 Example Auto Populate Network Layout Base Station Network Configuration Auto Populate Example 3.6.3.9. The following screens provide an example of auto populating the class rules when the address type is set to IP. The user must select the Auto Populate button on the Network Config page to get to the auto populate screen. The IP addresses input should be those presented to the unit in bridging mode. They are typically the address of the peripherals generating the data for the source address and the peripheral receiving the data for the destination address. In the case of the example network configuration above, the BS Station IP would be 192.168.100.0 with a mask of 255.255.255.0, SS-1 Station IP would be 192.168.10.0 with a mask of 255.255.255.0 and SS-2 Station IP would be 192.168.20.0 with a mask of 255.255.255.0. Since the networks are on different subnets the user can mask the last byte. When possible, masking the addresses reduce the amount of class rules generated and allow for the use of numerous peripherals on the units subnet. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 36 Title: Aeronix Data Links EDL Nano Products User Guide Figure 3-25 BS Example Auto Populate The administrator selects the Generate Classifiers button after the IP addresses and masks are entered. The class rule generation process begins and should not be interrupted until complete. Figure 3-26 BS Example Auto Populate Result shows the rules after generation is complete without forwarders. Figure 3-26 BS Example Auto Populate Result Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 37 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide Adding Additional Class Rules to Stations using Auto Populate 3.6.3.10. Additional classifiers can be added for each station. It is best to determine how many entries will be required before populating the table. Once the Auto Populate button is selected, the number of additional base station and subscriber station classifiers should be entered in the BS and SS text fields respectively. The Extra Count button is then selected to confirm the additional classifiers and the table will expand. Once the desired number of classifiers is added to the table, the station, SF indices, station IP and station masks can be selected/entered. The station and the service flow index per entry must match one of the entries in the Provisioned SFs table. Once the table is filled out, the Generate Classifiers button is selected to create the class rules. This process should not be interrupted until complete. Figure 3-27 BS Example Auto Populate Additional Class Rules Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 38 Title: Aeronix Data Links EDL Nano Products User Guide

. Figure 3-28 BS Example Additional Class Rules Result Auto Populating Class rules of Type IP while Enabling Forwarders 3.6.3.11. Forwarders provide the capability for subscribers to talk to each other via the base station. They define data traffic from a subscriber that should be forwarded to another subscriber and used in the downlink direction only. It requires additional configuration of class rules and if data transmission occurs from subscriber to subscriber it will consume bandwidth allocated for those subscribers. Forwarding classifiers must be consistent with non-forwarding classifiers. For example, if using IP masks with the non-forwarders, one must also use the same mask with the Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 39 Title: Aeronix Data Links EDL Nano Products User Guide forwarders. Forwarders can be enabled or disabled when selecting the auto populate. They are generated and applied to the entire Class Rules table. Figure 3-29 BS Example Auto Populate IP with Forwarders Below is what is displayed after user hits the Generate Classifiers button. The forwarder class rules are not displayed, but the Forwarder Count has incremented for each forwarder created. Figure 3-30 BS Example Auto Populate IP with Forwarders Result Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 40 Title: Aeronix Data Links EDL Nano Products User Guide Auto Populating Class Rules of Type MAC 3.6.3.12. Auto populating the class rules can also be done when the address type is set to MAC. The MAC addresses input should be those presented to the unit in bridging mode. They are typically the address of the peripherals generating the data for the source address and the peripheral receiving the data for the destination address. In the case of the example network configuration in Error! Reference source not found. the BS Station MAC would be F0-E0-D0-C0-B0-A0, S-1 Station MAC would be F1-E1-D1-C1-B1-A1. SS-2 Station has 2 laptops connected to it so the user needs to add an Extra Count of 1 for SS2. SS MACs would be F2-E2-D2-C2-B2-A2 and F3-E3-D3-C3-B3-A3. The administrator selects the Generate Classifiers button after the MAC addresses and masks are entered. The class rule generation process begins and should not be interrupted until complete. Figure 3-31 BS Example Auto Populate with MAC Address Below is the result of the user selecting the Generate Classifiers button. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 41 Title: Aeronix Data Links EDL Nano Products User Guide Figure 3-32 BS Example Auto Populate with MAC Address Result Adding Class Rule using ADD ENTRY 3.6.3.13. The following screen provides an example of the ADD ENTRY functionality for a class rule. The user can add a class rule entry by selecting the ADD ENTRY button within the Class Rule section of the Network Config page (Figure 3-22 BS Network Config Class Rules). Once that occurs a similar screen to Figure 3-33 BS Example Class Rules ADD ENTRY appears. The administrator selects the service flow for which the rule pertains from the pull down menu. The administrator then inputs the valid IP/MAC source address and mask and the valid destination address and mask. Select the ADD button to the right of the entry to input the new class rule. The rule distributes through the network as needed. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 42 Title: Aeronix Data Links EDL Nano Products User Guide Figure 3-33 BS Example Class Rules ADD ENTRY Modifying a Class Rule Using MODIFY Entry 3.6.3.14. The user can modify a class rule entry by selecting the MODIFY ENTRY button within the Class Rule section of the Network Config page (Figure 3-22 BS Network Config Class Rules). The MODIFY button to the right of the entry is selected to modify that entry (Figure 3-34 BS Example MODIFY ENTRY selection). The user may change the source and destination address for that class rule (Error! Reference source not found.). The SAVE button to the right of the ntry is selected to input the new class rule data. The Forwarder Enabled status of the table can be changed by selecting the Auto Populate button and then checking or unchecking the Enable Forwarders box. The rule distributes throughout the network as needed. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 43 Title: Aeronix Data Links EDL Nano Products User Guide Figure 3-34 BS Example MODIFY ENTRY selection Figure 3-35 BS Example MODIFY ENTRY Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 44 Title: Aeronix Data Links EDL Nano Products User Guide 3.6.4. Base Station Profile Config Page The Profile Config page allows the administrator to configure the parameters which control the automatic change modulation (ACM) capability within the network. 1 2 3 4 5 Figure 3-36 OFDM BS Profile Config Page Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 45 Title: Aeronix Data Links EDL Nano Products User Guide Figure 3-37 GMSK BS Profile Config Page Table 3-11. Base Station Profile Config Page Field 1 Current ACM Parameters 2 Change ACM Parameters Description OFDM ACM decisions are based on the received CINR and FEC corrected bits. GMSK ACM decisions are based on the received SNR and FEC corrected bits. Cur Exit Steps Current number of steps to lower the FEC Code type if need be. Cur Frame Accum Current number of frames to Accumulate before making the decision to move between FEC Codes. FEC Exit Steps Provides the capability for the administrator to configure the number of steps in the burst profile table to take when ACM determines it is time to exit the current FEC. Valid of values are 0-2. A value of 0 means to jump to most robust FEC configured and enabled. FEC Entry Frame Accumulation Provides the capability for the administrator to configure the number of frames that must be accumulated in Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 46 Title: Aeronix Data Links EDL Nano Products User Guide Table 3-11. Base Station Profile Config Page Field Description succession that meet the change FEC criteria before moving to another FEC. Valid values are provided in the pull down menu. Displays the downstream burst profiles which define the FEC types that the base station uses for transmissions. Index - Value used internally to index the bust profiles. The value gets automatically generated. DIUC Downlink interval usage code defined by 802.16d. The values get generated automatically and are for viewing and debug purposes. DCD FEC Code Defines the forward error correction and coding for the burst profile entry. CINR/SNR Mandatory Exit Defines the CINR/SNR value in dBm used by ACM. If current average CINR/SNR is less than this value then ACM will exit current FEC code type. CINR/SNR Minimum Entry Defines the CINR/SNR value in dBm at which ACM allows entry into the FEC code type. The CINR/SNR average must be greater than the current FEC code types CINR/SNR minimum entry and equal to or greater than the next FEC code types CINR/SNR minimum entry. FEC Mandatory Exit Defines the largest number of FEC bits of one symbol in a frame averaged over the number of frames specified in FEC Entry Frame Accumulation that can occur before the decision is made to move out of the current FEC code type and into a lower more robust FEC code type. The FECs averaged over FEC Entry Frame Accumulation must be greater than the FEC Mandatory Exit before the move will occur. FEC Minimum Entry Defines the largest number of FEC bits of one symbol in a frame averaged over the FEC Entry Frame Accumulation can have before ACM attempts to move to a higher FEC code type. The FECs averaged over FEC Entry Frame Accumulation must be equal to or less than the FEC Mandatory Entry of the current FEC code type before the move will occur. Available Enable/Disable drop down menu. This option allows user to disable a certain FEC Code without deleting it from the database. Enabled profiles are used in the ACM scheme and disabled profiles are not used. 3 Downstream Burst Profiles 4 Control Buttons The control buttons allow the administrator to add, modify and remove burst profiles and to cancel the current add, modify or remove transaction. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 47 Title: Aeronix Data Links EDL Nano Products User Guide Table 3-11. Base Station Profile Config Page Field 5 Upstream Burst Profiles Description The upstream burst profiles are displayed for informational and debug purposes. The upstream burst profiles use the same FEC code types and entry and exit thresholds defined for the downstream burst profiles. ACM Note:

The OFDM and GMSK ACM methodology uses two criteria for changing modulations. It is uses the average CINR/SNR value for the connection and the number of FECs. The number of FECs represents the largest number of FECs in any symbol in the given burst. ACM requires that only one threshold is met to cause the modulation to switch to a more robust modulation and it requires that both CINR and FEC thresholds be met to move to a less robust modulation. ADD ENTRY Downstream Burst Profile Example 3.6.4.1. The user can add a burst profile entry by selecting the ADD ENTRY button within the Downstream Burst Profile section of the Profile Config page. The user selects the FEC code from the pull down menu and selects the ADD button to the right of the entry. The new burst profile distributes through the network as needed. Each burst profile added gets populated with the default CINR and FEC thresholds. The user can change those values by modifying the burst profile. Figure 3-38 BS 802.16 Example Add Burst Profile Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 48 Title: Aeronix Data Links EDL Nano Products User Guide MODIFY ENTRY Downstream Burst Profile Example 3.6.4.2. The user can modify a burst profile entry by selecting the MODIFY ENTRY button within the Downstream Burst Profile section of the Profile Config page. The user can modify the CINR entry and exit thresholds as well as the FEC entry and exit thresholds. The user can change the available status of the profile by using the pull down menu in the Available field. Modifications are saved and distributed through the network by selecting the SAVE button to the right of the burst profile. If the user modifies the CINR entry and exit thresholds or the FEC entry and exit thresholds to values outside of the recommend range, the values appear as red on the screen to provide a warning even though they are used in the network. Figure 3-39 BS 802.16 Example Modify Burst Profile Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 49 Title: Aeronix Data Links EDL Nano Products User Guide 3.6.5. Base Station Radio Control 1 2 3 4 5 6 6A 7 8 9 Figure 3-40 OFDM BS Radio Control Page Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 50 Title: Aeronix Data Links EDL Nano Products User Guide Figure 3-41 GMSK BS Radio Control Table 3-12. Base Station Radio Control Field/Control Description 1 2 Rx Mode Rx Data Swap 3 Tx/Rx Receive Dual Both receivers are enabled SISO Only one Receive path is enabled If enabled, the receive paths will be switched in the firmware. Tx/Rx Status Displays the current status of transmit and receive of the unit. Tx/Rx On and Off Buttons - Provides the capability to turn on or turn off the transmit/receive capability of the unit. When the selection is off the unit does not transmit or receive. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 51 Title: Aeronix Data Links EDL Nano Products User Guide Table 3-12. Base Station Radio Control Field/Control 4 User Bandwidth Allocation 5 Channel /

Channelization Description The current link bandwidth allocation is shown in percentage of upstream and downstream allocation. This value only gets set on the base station and gets distributed to the subscribers. Currently the limits for the allocation are 80% and 20% in either direction Up % and Down % - Displays the current allocation of the network. Link Bandwidth Allocation Slide Bar Provides a method to adjust the allocation. The Down and Up percentages on each side of the slide bar displays the adjusted value. The user can also type in the percentages in the Down and Up boxes instead of sliding the bar. Set Allocation Button Changes the current allocation to the new settings displayed in the Down and Up boxes adjacent to the slide bar. Once selected the Up % and Down % on the left updates and the new values distribute through the network. Displays channel information for the base station. Current Channel Displays the current channel and frequency of the base station. Channel (Freq) Drop down list to choose a different channel/frequency for the base station. The base station and subscriber stations need to be configured for the same channelization for proper operation. Set Button Changes the current channel/frequency of the base station to the channel selected by the channel (freq) pull down or the custom frequency. Custom Freq (1800 2500) Allows the administrator to type in a frequency instead of selecting one from the channel

(freq) drop down list. The frequency must be a valid operating frequency for the unit. The base station and subscriber stations need to be configured for the same channelization for proper operation. Set Button Changes the current channel of the base station to the custom frequency Current Channelization Displays the current channelization of the radio. The base station and subscriber stations need Aeronix Proprietary 52 Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide Table 3-12. Base Station Radio Control Field/Control 6 Power Values 6A Power output mode Description to be configured for the same channelization. Channelization Selection Allows the selection of the channelization. Current choices are 3.5 MHz, 7 MHz, and 14 MHz for OFDM s/w and 14Mhz for GMSK s/w Set Button Changes the current channelization of the base station to the new value selected. Note: Selecting a frequency outside of the ISM band (2400 2483.5MHz) voids the FCC Part 15.247 Certification. Allows the user to adjust the transmit power of the radio. BS Estimated EIRP - Displays the estimated EIRP of the base station based upon user configured gains and loss values. PA Gain + Antenna Gain External Tx Cable Loss Antennal Cable Loss Internal Tx Loss. OFDM High Power radios TX power is calibrated to a higher power that still has a good enough EVM to maintain the QAM16 modulations. The QAM64 modulations will be disabled, if user re-enables them there is no guarantee the signal quality level will sustain QAM64 High Data radios TX power will be set to a power level whos EVM will sustain the QAM64 modulations. This power may be lower to maintain the higher EVMs required by QAM64 modulations. GMSK High Power radios TX power is calibrated to an output power of 35 dBm while still remaining within our GMSK mask. High Data radios TX power will be set to a power level of 30 dBm while remaining within our GMSK mask. Note: Selecting the high power mode voids the FCC Part 15.247 Certification. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 53 Title: Aeronix Data Links EDL Nano Products User Guide Table 3-12. Base Station Radio Control Field/Control 7 Network Layout Description See 7.1 NANO output power for details on how to view transmit power values. Displays and allows configuration of the network layout as a point to point or point to multi-point network. These items appear only on the base station and are distributed through the network. Current Layout Displays the current setting of the network layout. PTP/PTMP radio buttons o PTP button Point to Point. Allows user to switch to a point-to-

point solution (only one SS allowed in system). This option maximizes the distance one SS can be from the BS. o PTMP radio button Point to MultiPoint. Allows multiple Subscribers to enter the system. Set button Changes to the selected layout option Current Max Distance Display the current Max Distance value Max Distance for SS Acquisition Allows the administrator to set the maximum distance that any subscriber in the network can be and still acquire connectivity with the base station. The value can be entered in miles or kilometers as defined by the two entry boxes. One only needs to enter a valid value in one of the boxes. This entry is only valid for the PTMP network layout and can be set to a value of up to 250 miles for OFDM radios and 210 miles for GMSK radios. Distances set for 25 miles or less default to 25 miles internally in PTMP Set button Sets the max distance 3.6.6. Base Station Maintenance Page The Maintenance page provides more detailed information about the operational status of the unit than the Status page. It provides debug information as well as test capabilities. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 54 Title: Aeronix Data Links EDL Nano Products User Guide Figure 3-42 BS GMSK Maintenance Page Table 3-13. Base Station Maintenance Page Field/Control Description 1 More Options 2 Tx/Rx Over the Air Status Document Number: AE301628-001 Revision: B Date: 3 October 2019 Reboot - Provides the capability to reboot the unit remotely. Confirmation for reboot is required via a pop up window. Use Default DB - Provides the capability to revert to the factory default database. All changes made to configuration are lost by confirming the default database option via the pop up window. Registered SSs - Provides a table of subscribers that have successfully registered with the base station. Station Tests - Provides some test mechanisms for debug purposes. Debug - Provides some additional debug capabilities for trouble shooting purposes. Provides the transmit and receive frame counts as well as error counts for debugging. Rx Frames Provides the number of frames received by the unit. Invalid Frames Provides the number of frames received that were invalid. 55 Aeronix Proprietary Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide Table 3-13. Base Station Maintenance Page Field/Control Description CRCs Rx Provides the number of CRCs received. The packet within the frame where the CRC error was received is dropped. Reset Rx Provides the number of times the receive path is reset. Tx Frames Provides the number of frames transmitted by the unit. Tx Drop Provides the number of transmit packets that were dropped because there is no valid class rule for that packet. Display Temperature CPU Temperature Displays the temperature reported by the processor in Celsius and Fahrenheit RF Temperature Displays the temperature reported by the AD9361 chip on the RF card in Celsius and Fahrenheit Displays the number of transmitted and received frames on the network side of the unit. This reflects the eth0 interface in a non-bridging configuration and the mybridge interface in a bridging configuration. Tx Oversubscribed displays the number of network Ethernet packets that were dropped due to oversubscribing the unit. Provides some additional values on a connection basis for debugging and antenna pointing purposes. Station Displays the name of the subscriber the entry represents.

--------

OFDM only Current CINR Displays the instantaneous CINR for the connection. Average CINR Displays the average CINR of the connection over a period of received frames. GMSK Only Current SNR Displays the instantaneous estimated SNR for the connection. Average SNR Displays the average estimated SNR of the connection over a period of received frames. 3 Board Details 4 Ethernet Network status 5 Network 6 Channel Status

-------

Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 56 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide Table 3-13. Base Station Maintenance Page Field/Control Description Current RSSI Displays the instantaneous RSSI at the preamble for the connection. Average RSSI Displays the average RSSI at the preamble of the connection over a period of received frames. Current Mod Type Displays the current modulation type received by the BS. This represents the modulation of the SS transmissions. Curr Freq Offset (Hz) Displays the frequency offset at the time of the display update. Avg Frequency Offset (Hz) Displays the average frequency offset of the connection over a period of received frames. FEC Corrected Bits Displays the instantaneous forward error correction corrected bits. Average FEC Corrected Bits Displays the average forward error correction corrected bits over a period of received frames. Reed-Solomon Symbol Errors Cur Displays the instantaneous number of Reed-Solomon errors. Reed-Solomon Symbol Errors Avg Displays the average Reed-Solomon errors over a period of received frames. Time of Arrive Difference Displays the offset in time of when the BS expected to receive a burst and when it actually received a burst. CP Offset Cur Displays the instantaneous cyclic prefix offset. This offset refers to where the FFT is positioned in the symbol. CP Offset Avg Displays the average CP offset over a period of received frames. Temperature Protect Provides a count of how many times the RF Temperature reached 83 C. When the he RF temperature reaches 83 C, the software will disable the RF Transmit and Receive. When RF temperature lowers to 65C, the Form #: OP_01_TM 7 Alarm Interrupts Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 57 Title: Aeronix Data Links EDL Nano Products User Guide Table 3-13. Base Station Maintenance Page Field/Control Description software will re-enable the RF Transmit and Receive. Base Station Maintenance Registered Subscriber Page 3.6.6.1. The Registered SSs page shows all subscribers that have completed the 802.16d registration process with the base station. Figure 3-43 BS Maintenance Registered SS Page Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 58 Title: Aeronix Data Links EDL Nano Products User Guide 3.6.7. Base Station Video Page Figure 3-44 BS Video Page Table 3-14. Base Station Video Page Field/Control Description 1 Video Control Current Settings 2 Serial Flow Control Type Allow Bad Frames Enabling Bad Frames will allow UDP packets received over the RF link that have bit errors in them to continue to be pushed up to the radios Ethernet stack. This check is only made on UDP packets with destination port addresses between 1232-1247 Currently the camera interface on the NANO radio has not been implemented. The serial flow feature wraps the serial data in a UDP IP Packet. Serial B to Serial B This allows bidirectional serial data to flow from Serial B of one radio to Serial B of another radio. Serial B To Ethernet Transfer data between serial B and Ethernet port Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 59 Title: Aeronix Data Links EDL Nano Products User Guide Table 3-14. Base Station Video Page Field/Control 3 Serial Flow Control Configuration Description o Rx Only Receive data from designated receive port and push the data out to serial B o Tx Only Transmit data from serial B to designated destination IP address and IP port o Both (Rx and Tx) Radio will push data from its Serial B to an external node with the destination IP address and IP Port configured at GUI. The radio will also receive data from receive port and send that data to its Serial B. Serial Baud Rate A drop down menu with a selection of baud rates available. Serial Raw Mode Enable Enables Raw mode and serial B will process serial input in non-canonical mode. Disable Serial B will be set in canonical mode. This will enable line processing mode and each line designated by a new line. The entire line will be wrapped into a UDP packet and then sent across the RF link. Destination Port Ability to set the port that the BS serial data is being transmitted on. Receive Port Ability to set the port that the BS is receiving serial data on. Destination IP Addr Ability to set the Radios IP address that the serial data is being transmitted to and received from. Raw Serial mode processing configurations Raw Buffer in bytes, the maximum is 255 bytes. Raw Timeout ( deci seconds) - in tenths of seconds, maximum is 255 deci seconds. When in Raw mode the user can configure the serial to buffer bytes and to be more efficient than sending just one character, below are the valid configurations. Raw Buffer > 0 Raw and Timeout > 0 The serial will buffer the bytes until the first condition is met and then the data will be packaged into a UDP packet and sent. The timer will be started when the first byte is received. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 60 Title: Aeronix Data Links EDL Nano Products User Guide Table 3-14. Base Station Video Page Field/Control Description Raw Buffer > 0, and Raw Timeout = 0 The serial will buffer bytes until the number of bytes on the serial match the Raw Buffer bytes and then the data will be packaged into a UDP packet and sent. Raw Buffer = 0 and Raw Timeout > 0 The serial will buffer the amount of bytes in the amount of time specified by the Raw Timeout. The timer is started at each interval, ie not when the first byte is received. Raw Buffer = 0, and Raw Timeout = 0 This will package up a byte as it is received from the serial. Disable/Enable Flow Radio Buttons Allows user to disable or enable the serial flow control Submit Button Once submitted all of the above changes will take effect 3.6.8. Subscriber Station Status When the GUI is accessed using an approved browser, the unauthenticated status page is displayed. 1 2 3 4 Figure 3-45 SS OFDM Status Page Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 61 Title: Aeronix Data Links EDL Nano Products User Guide Table 3-15. Subscriber Station Status Page Field/Control 1 Status 2 Board Details 3 Front Panel 4 Tx/Rx Over the Air Status Description Status displays a subset of current settings. MAC Address The IEEE 802.16 MAC address of the base station Current Channelization Displays the channelization of the subscriber station. Current Channel The current 802.16 specified channel that the subscriber station uses for transmit and receive. BS Estimated EIRP Displays the estimated EIRP of the base station that the subscriber received from the base station. A value of N/A No Sync displays when the subscriber is not connected to the base station. Tx - Provides the status of the transmit portion of the unit. (On/Off) The status may be changed on the Radio Control screen. Rx - Provides the status of the receive portion of the unit. (On/Off). Transec Status Displays the status of Transec

(on or off). Display Temperature CPU Temperature Displays the temperature reported by the processor in Celsius and Fahrenheit Displays PHY status on an interval basis. Base is a constant green light if the radio is configured as a Base Station Sync is off on the base station when no subscribers are registered and is illuminated continuously when subscribers are registered. Recv is green when the radio is receiving messages Xmit is green when the radio is transmitting data The first part of the Tx/Rx Status Table Displays the receive status of each subscriber connection. The second part of the table is the amount of data the BS is transmitting to each active SS. Base Station Name - Contains the name of the base station for which the information pertains to. Current Modulation Type Contains the current modulation/FEC type for the subscriber connection. The display show the modulation of the receive frame at the time sampled. Rx Signal Strength: Contains an assessment of the receive signal strength. Aeronix Proprietary 62 Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide Table 3-15. Subscriber Station Status Page Field/Control Description RSSI at LNA Displays the average RSSI value for the subscriber connection at the LNA. The value is determined using the RSSI value seen at the PHY card at the preamble and the values entered in the GUI for the receive gain and loss from the PHY card to the LNA. Values included:

Avg Rssi, Internal Rx Loss, Rx Cable Loss, LNA Service Flow Identifies the service class of the service flow for the connection. State Displays the state of the connection. The valid values are provisioned and active. Est User B/W (Mbits/sec) Displays the estimated bandwidth in megabits per second being used by the connection in the transmit direction. Est Allocated B/W (Mbits/sec) Displays the estimated bandwidth in megabits per second being allocated to the connection in the transmit direction. Service Flow Oversubscribed Displays the number of Ethernet packets dropped for that specific service flow. Subscriber Station Status Page in Receive Dual 3.6.8.1. When the user enables RX Dual on the Radio control page the second receive RSSI will be reported on the RSSI1 column on the Tx/Rx Over the Air Status section. Figure 3-46 SS OFDM Status Rx Dual 3.6.9. Subscriber Station Admin Page The admin page for the subscriber station provides the capability to enable and disable Transec and the selection of the Transec key. Account management, start script generation and software download are also supported on the admin page. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 63 Title: Aeronix Data Links EDL Nano Products User Guide Figure 3-47 SS Admin Page SS Admin Station Name and Transec Key Management 3.6.9.1. Figure 3-48 SS Admin Station Name and Transec Key 1 2 Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 64 Title: Aeronix Data Links EDL Nano Products User Guide Table 3-16. Subscriber Station Admin Page Transec Key 1 Station Names 2 Transec Key Management My Name - Displays the current name of the subscriber. The base station provides the subscriber name over the network. Configuration of subscriber names occurs on the base station Admin page. Displays the settings for Transec capability. Transec - Displays whether Transec is on or off Transec Enable/Disable buttons - Turn Transec on the base station. on or off. Key Length drop down menu Allows user to specify the number of bits for the Transec Key Load Key Allows the ability to change the Transec Key in hexadecimal based on Key length. Current Key Displays the current key. SS Admin Bridging Start Script and Software Update 3.6.9.2. Bridging is the default mode for operating the units. The Generate Bridging Start Script section of the admin page allows for configuration of the start script. Once the configuration is set by selecting the Generate Script button, the unit must be rebooted or power cycled for the configuration to take effect. For account management and software update examples, refer to the 3.6.2.2 Base Station BS Admin Bridging Start Script and Software Update. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 65 Title: Aeronix Data Links EDL Nano Products User Guide 1 2 Figure 3-49 SS Admin Start Script and SW Update Table 3-17. Subscriber Station Admin Page Transec Key 3 1 Current Start Script 2 Generate Script The current start script parameters. User can change the mode the radio boots in or the IP address,etc. The unit should not be powered cycled while script generation is in process. Type radio buttons: Select BS or SS for type Id: If setting up start script as SS enter its Subscriber Number. User Interface: Only valid interface for EDL is the Webgui Quagga: Option to enable additional network routing software suite providing implementations of Open Shortest Path First (OSPF). Note there is user configuration necessary to implement Quagga. IPv4 Address: Provides the capability to set a new IPv4 address for the unit. IPv4 Netmask: Provides the capability to set a new IPv4 netmask address for the unit Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 66 Title: Aeronix Data Links EDL Nano Products User Guide Table 3-17. Subscriber Station Admin Page Transec Key Vlan ID: Allows user to add a VLAN ID to IP packets coming from radio. The radio will pass VLAN tagged packets unmodified, so this does not need to be set to allow VLAN packets to flow through the radio. Only if communication to the radio needs to have a VLAN ID. IPv6 Address (Optional) : Optional IPv6 address for the Ethernet (Note : current release of EDL does not support IPv6) IPv4 Default Gate (Opt) : Optional ability to configure an IPv4 default gateway. IPv6 Default Gate (Opt) : Optional ability to configure an IPv6 default gateway IPv6 Netmask (Optional) : Optional IPv6 netmask for IPv6 address (Note: current release of EDL does not support IPv6) Enable/Disable Video Support Radio Buttons: If the start script is being configured for a SS then user has the option of enabling the video software to run at start up. Currently not a valid selection if the start script is being configured as a BS Generate Script Button : Generates a new start script for the unit with the values input in the Generate Bridging Start Script section of the Admin page. Once the script has been generated, the unit must be rebooted or power cycled for the new values to take effect. The unit should not be power cycled while script generation is in process. Allows user to select a signed package file provided by the manufacturer to update the software on the unit. File Path Allows users to browse to location where the package file resides. Start Update - Selection of the start update button starts the software update using the factory signed package file specified in the File Path. Once the update process begins, any interruption can render the box unusable and require its return to the factory. 3 Software Update 3.6.10. Subscriber Network Config Page The Network Config page on the subscriber contains the class rule information received from the base station. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 67 Title: Aeronix Data Links EDL Nano Products User Guide 1 2 Form #: OP_01_TM Figure 3-50 SS Network Config Page Table 3-18. Subscriber Station Network Config Field/Control Description 1 Network Options 2 Class Rules Classifier Status : Disables or Enables using the Classifier Rules Table ARP Table Status: Disables or Enables the ARP Table Feature. See 7.1 Contains the following:

SF - Identifies the service flow that Index - Internal index used for class rules. pertains to the class rule. SRC IP/MAC - The source address for the class rule. The address presented to the unit when initiating traffic through it. Src Mask - The address mask for the source address. Masking portions of the IP address is only valid when the addresses of the units are configured on different subnets. Currently only the last subnet byte is allowed to be masked. Dest IP/MAC The destination address for the class rule. The destination address for the traffic through the unit. Dest Mask - The address mask for the destination address. Masking portions of the IP address is only valid when the addresses of the units are configured on different subnets. Currently only the last subnet byte is allowed to be masked. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 68 Title: Aeronix Data Links EDL Nano Products User Guide 3.6.11. Subscriber Profile Config Page The subscriber station Profile Config page contains the DCD and UCD information for the unit received from the base station. This page is not modifiable from the subscriber. The information can only be modified on the base station. 1 2 Figure 3-51 SS OFDM Profile Config Page Table 3-19. Subscriber Profile Config Page Field Description 1 Downstream Burst Profiles Index Value used internally to index the bust profiles. The value gets automatically generated. DIUC - Downlink interval usage code defined by 802.16d. The values get generated automatically and are for viewing and debug purposes. DCD FEC Code - Defines the forward error correction and coding for the burst profile entry. CINR/SNR Mandatory Exit - Defines the CINR/SNR value in dBm at which ACM exits the FEC code type. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 69 Title: Aeronix Data Links EDL Nano Products User Guide Table 3-19. Subscriber Profile Config Page Field Description CINR/SNR Minimum Entry - Defines the CINR/SNR value in dBm at which ACM allows entry into to the FEC code type. FEC Mandatory Exit - Defines the largest number of FEC bits one symbol can have before the decision is made to move out of the current FEC code type. FEC Minimum Entry - Defines the largest number of FEC bits one symbol can have before ACM attempts to move to a higher data per symbol FEC Code type. Available - symbol FEC Code type. Available Displays the availability of the burst profile. Enabled profiles are used in the ACM scheme and disabled profiles are not used. The upstream burst profiles are displayed for informational and debug purposes. The upstream burst profiles use the same FEC code types and entry and exit thresholds defined for the downstream burst profiles. 2 Upstream Burst Profiles 3.6.12. Subscriber Station Radio Control Page The subscriber station radio control page allows for configuring the 802.16d radio settings. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 70 Title: Aeronix Data Links EDL Nano Products User Guide 1 2 3 4 5 5A 6 7 Figure 3-52 SS OFDM Radio Control Page Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 71 Title: Aeronix Data Links EDL Nano Products User Guide Figure 3-53 SS GMSK Radio Control Table 3-20. Subscriber Station Radio Control Field/Control Description 1 2 Rx Mode Rx Data Swap 3 Tx/Rx 4 Channel /

Channelization Receive Dual Both receivers are enabled SISO Only one Receive path is enabled If enabled, the receive paths will be switched in the firmware. Tx/Rx Status - Shows the current status of the transmit and receive of the unit. Tx/Rx On and Off Buttons - Provides the capability to turn on or turn off the transmit/receive capability of the unit. When the selection is off the unit does not transmit or receive. Displays channel information for the base station. Scan Channels Displays the current setting for scan channels (OFF/ON). Scan Channels button Allows the user to turn scan channels on or off. If on, the subscriber scans through the available channels per the channelization selected and tries to connect to a base station at each frequency. The subscriber remains Aeronix Proprietary 72 Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide Table 3-20. Subscriber Station Radio Control Description Field/Control 5 Power Values 5A Power output mode connected to the first base station a successful connection is made Current Channel Displays the current channel and frequency of the base station. Channel (Freq) Pull down menu to choose a different channel/frequency for the base station. The base station and subscriber stations need to be configured for the same channelization for proper operation. Set Button Changes the current channel of the base station to the channel selected by the channel (freq) drop down. Custom Freq (2412 2462) Allows user to create a frequency outside of the drop down frequency list. The frequency must be a valid operating frequency for the unit. Set Button Changes the current channel of the base station to the custom frequency Current Channelization Displays the current channelization of the radio. The base station and subscriber stations need to be configured for the same channelization. Channelization Selection Allows the selection of the channelization. Current choices are 3.5 MHz, 7 MHz, and 14 MHz Set Button Changes the current channelization selected by the user. Note: Selecting a frequency outside of the ISM band (2400 2483.5MHz) voids the FCC Part 15.247 Certification. BS Estimated EIRP - Displays the estimated EIRP of the base station based upon user configured gain and loss values. High Power radios TX power is calibrated to a higher power that still has a good enough EVM to maintain the QAM16 modulations. The QAM64 modulations will be disabled, if user re-enables them there is no guarantee the signal quality level will sustain QAM64 High Data radios will TX power will be set to a power level whose EVM will OFDM only Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 73 Title: Aeronix Data Links EDL Nano Products User Guide Table 3-20. Subscriber Station Radio Control Field/Control Description sustain the QAM64 modulations. this power may be lower to maintain the higher EVMs required by QAM64 modulations. GMSK High Power radios TX power is calibrated to an output power of 35-36 dB while still remaining within our GMSK mask. High Data radios TX power will be set to a power level of 30 dBm while remaining within our GMSK mask. Note: Selecting the high power mode voids the FCC Part 15.247 Certification. See 7.1 NANO output power for details on how to view transmit power values. 3.6.13. Subscriber Station Maintenance Page The Maintenance page provides more detailed information about the operational status of the unit than does the Status page. It provides debug information and capabilities as well as test capabilities. Figure 3-54 SS OFDM Maintenance Page Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 74 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide Table 3-21. Subscriber Station Maintenance Page Field/Control Description 1 More Options 2 Tx/Rx Over the Air Status 3 Board Details 4 Ethernet Network status Document Number: AE301628-001 Revision: B Date: 3 October 2019 Reboot - Provides the capability to reboot the unit remotely. Confirmation for reboot is required via a pop up window. Use Default DB - Provides the capability to revert to the factory default database. All changes made to configuration are lost by confirming the default database option via the pop up window. Registered SSs - Provides a table of subscribers that have successfully registered with the base station. Rx/Tx Loss - Provides a method to configure receive and transmit loss values that are internal to the unit. Station Tests - Provides some test mechanisms for debug purposes. Debug - Provides some additional debug capabilities for trouble shooting purposes. Provides the transmit and receive frame counts as well as error counts for debugging. Rx Frames Provides the number of frames received by the unit. Invalid Frames Provides the number of frames received that were invalid. CRCs Rx Provides the number of CRCs received. The packet within the frame where the CRC error was received is dropped. Reset Rx Provides the number of times the receive path is reset. Rx Timeouts Number of bursts the Subscriber has missed. Tx Frames Provides the number of frames transmitted by the unit. Tx Drop Provides the number of transmit packets that were dropped because there is no valid class rule for that packet. Display Temperature CPU Temperature Displays the temperature reported by the processor in Celsius and Fahrenheit RF Temperature Displays the temperature reported by the AD9361 chip on the RF card in Celsius and Fahrenheit Displays the number of transmitted and received frames on the network side of the unit. This Form #: OP_01_TM Aeronix Proprietary 75 Title: Aeronix Data Links EDL Nano Products User Guide Table 3-21. Subscriber Station Maintenance Page Field/Control 5 Network 6 Channel Status Description reflects the eth0 interface in a non-bridging configuration and the mybridge interface in a bridging configuration. Tx Oversubscribed displays the number of network Ethernet packets that were dropped due to oversubscribing the unit. Provides some additional values on a connection basis for debugging and antenna pointing purposes. Station Displays the name of the subscriber the entry represents.

-------

OFDM only Current CINR Displays the instantaneous CINR for the connection. Average CINR Displays the average CINR of the connection over a period of received frames. GMSK Only Quality Cur Displays a number that quantifies the link reliability, with 26 being the best link value Quality Avg Average quality value

---------

Current RSSI Displays the instantaneous RSSI at the preamble for the connection. Average RSSI Displays the average RSSI at the preamble of the connection over a period of received frames. Current Mod Type Displays the current modulation type received by the BS. This represents the modulation of the SS transmissions. Curr Freq Offset (Hz) Displays the frequency offset at the time of the display update. Avg Frequency Offset (Hz) Displays the average frequency offset of the connection over a period of received frames. FEC Corrected Bits Displays the instantaneous forward error correction corrected bits. Average FEC Corrected Bits Displays the average forward error correction corrected bits over a period of received frames. Form #: OP_01_TM Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 76 Title: Aeronix Data Links EDL Nano Products User Guide Table 3-21. Subscriber Station Maintenance Page Field/Control Description Reed-Solomon Symbol Errors Cur Displays the instantaneous number of Reed-Solomon errors. Reed-Solomon Symbol Errors Avg Displays the average Reed-Solomon errors over a period of received frames. Time of Arrive Difference Displays the offset in time of when the BS expected to receive a burst and when it actually received a burst. CP Offset Cur Displays the instantaneous cyclic prefix offset. This offset refers to where the FFT is positioned in the symbol. CP Offset Avg Displays the average CP offset over a period of received frames. Temperature Protect Provides a count of how many times the RF Temperature reached 85C. When the he RF temperature reaches 85C, the software will disable the RF Transmit and Receive. When RF temperature lowers to 65C, the software will re-enable the RF Transmit and Receive. 7 Alarm Interrupts 3.6.14. Subscriber Station Video Page Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 77 Title: Aeronix Data Links EDL Nano Products User Guide Figure 3-55 SS Video Page Table 3-22. Subscriber Station Video Page Field/Control Description 1 Video Control Current Settings 2 Serial Flow Control Type Allow Bad Frames Enabling Bad Frames will allow UDP packets received over the RF link that have bit errors in them to continue to be pushed up to the radios Ethernet stack. This check is only made on UDP packets with destination port addresses between 1232-1247. Currently the camera interface on the NANO radio has not been implemented. The serial flow feature wraps the serial data in a UDP IP Packet. Serial B to Serial B This allows bidirectional serial data to flow from Serial B of one node to Serial B of another node. Serial B To Ethernet Transfer data between serial B and Ethernet port o Rx Only Receive data from designated receive port and push the data out to serial B Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 78 Title: Aeronix Data Links EDL Nano Products User Guide Table 3-22. Subscriber Station Video Page Field/Control 3 Serial Flow Control Configuration Description o Tx Only Transmit data from serial B to designated destination IP address and IP port o Both (Rx and Tx) Radio will push data from its Serial B to an external node with the destination IP address and IP Port configured at GUI. The radio will also receive data from receive port and send that data to its Serial B. Serial Baud Rate A drop down menu with a selection of baud rates available. Serial Raw Mode Enable Enables Raw mode and serial B will process serial input in non-canonical mode. Disable Serial B will be set in canonical mode. This will enable line processing mode and each line designated by a new line. The entire line will be wrapped into a UDP packet and then sent across the RF link. Destination Port Ability to set the port that the BS serial data is being transmitted on. Receive Port Ability to set the port that the BS is receiving serial data on. Destination IP Addr Ability to set the Radios IP address that the serial data is being transmitted to and received from. Raw Serial mode processing configurations Raw Buffer in bytes, the maximum is 255 bytes. Raw Timeout ( deciseconds) - in tenths of seconds, maximum is 255 deciseconds. When in Raw mode the user can configure the serial to buffer bytes and to be more efficient than sending just one character, below are the valid configurations. Raw Buffer > 0 Raw and Timeout > 0 The serial will buffer the bytes until the first condition is met and then the data will be packaged into a UDP Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 79 Title: Aeronix Data Links EDL Nano Products User Guide Table 3-22. Subscriber Station Video Page Field/Control Description packet and sent. The timer will be started when the first byte is received. Raw Buffer > 0, and Raw Timeout = 0 The serial will buffer bytes until the number of bytes on the serial match the Raw Buffer bytes and then the data will be packaged into a UDP packet and sent. Raw Buffer = 0 and Raw Timeout > 0 The serial will buffer the amount of bytes in the amount of time specified by the Raw Timeout. The timer is started at each interval, ie not when the first byte is received. Raw Buffer = 0, and Raw Timeout = 0 This will package up a byte as it is received from the serial. Disable/Enable Flow Radio Buttons Allows user to disable or enable the serial flow control Submit Button Once submitted all of the above changes will take effect 3.6.15. BS and SS Common Pages Save Settings Button 3.6.15.1. The Save Settings button works the same for both the base station and subscriber. The Save Settings button saves any changes that have been made on the GUI to the database with the exception of the items mentioned in default database section that do not go back to default. All modifications made and set take effect automatically at the time they are set with the exception of generating start scripts. But, the changes do not get saved to the database unless the Save Settings button is selected and confirmed. Changes made and not saved to the database will be lost on a reboot or a power cycle. The save settings occurs for all screens simultaneously and not just for the screen currently being browsed. A confirmation popup appears when the Save Settings button gets selected. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 80 Title: Aeronix Data Links EDL Nano Products User Guide Figure 3-56 Save Settings Selection Version Page 3.6.15.2. The Version page may be viewed by an authenticated or unauthenticated viewer by selecting the Version button. The base station and subscriber station Version page contains the same content. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 81 Title: Aeronix Data Links EDL Nano Products User Guide Figure 3-57 Version Page Field/Control 1 GUI Software Information Table 3-23. Version Page Description Version, date and time of the GUI build on the unit. OFDM software releases will have 80216 string in the version. The GMSK software releases will have the GMSK string in the version. 2 Network Addresses Document Number: AE301628-001 Revision: B Date: 3 October 2019 My IP Address - Ethernet IP Address of the unit. Internal IP Address - MAC S/W network interface IP Address. There is no internal IP address in the bridging mode Form #: OP_01_TM Aeronix Proprietary 82 Title: Aeronix Data Links EDL Nano Products User Guide Field/Control Description Table 3-23. Version Page My MAC Address - MAC H/W Address of unit. Internal MAC Address - Internal MAC address of the unit used by the MAC S/W. 3 MAC BS/SS Version Information 4 Phy Versions Version, date and time of the MAC S/W build on the unit. OFDM software releases will have 80216 string in the MAC CVS tag. The GMSK software releases will have the GMSK string in the MAC CVS tag. Firmware versions for PHY and Serial Number of PHY hardware Maintenance Page Reboot Button 3.6.15.3. The reboot button in the More Options section allows the administrator to reboot the unit remotely. The administrator must confirm the reboot. Figure 3-58 Maintenance Reboot Selection Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 83 Title: Aeronix Data Links EDL Nano Products User Guide Maintenance Page Use Default DB 3.6.15.4. The Use Default DB button allows the user to revert to the factory default settings. Most saved configuration settings are lost once the user confirms the selection. A warning message pops up after selecting the Use Default DB button (Figure 3-59 Maintenance Use Default DB Selection). The node will reboot once the user confirms their selection. Note: Settings that do not go back to default:

Start script information Transec keys Figure 3-59 Maintenance Use Default DB Selection Maintenance System Tests Page 3.6.15.5. Station tests can be configured by selecting the Station Tests button on the More Options section of the Maintenance page. The Station Tests page provides the capability to execute a continuous sine wave test or a bit error rate test. When either of the tests are executing, the normal operation of the unit is not functional. Upon test completion the unit should return to normal operation. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 84 Title: Aeronix Data Links EDL Nano Products User Guide 3 Figure 3-60 OFDM Maintenance System Tests Page Table 3-24. Maintenance System Tests Page Field/Control Description 1 2 4 5 6 1 System Information 2 CW Test Current Channel Displays the current channel and frequency of the unit. This defines the channel where test execution occurs. Continuous Sine Wave Test CW Status Displays the state of the test o Not Running o Transmitting o Receiving(RSSI x ) if actually receiving a CW then the RSSI level is displayed Start Transmit button Starts the CW transmission Start Receive button Puts the unit in receive mode to capture the CW transmission from another unit. Stop All Tests Stop the test from running and returns the unit to normal operation. Current Mod Type - Displays the current modulation setting for test execution. Form #: OP_01_TM 3 BER Test Current settings Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 85 Title: Aeronix Data Links EDL Nano Products User Guide Table 3-24. Maintenance System Tests Page Field/Control Description Current Bit Pattern Bit pattern to use in BER test Current Test Length The current length of time the test executes. Current Num Of Symbols Displays the current number of symbols in a frame to use for test execution. BER Status Status of test o Not Running o Running as Master o Running as Slave Time left Displays a countdown for the length of the test, if the length is Until Stopped this field displays a symbol Bit Error Rate Test requires a unit configured as the master and a unit configured as the slave for proper execution and results. Mod Type Allows the administrator to change the modulation for test execution. The drop down list provides the selections. Set button Changes the modulation to the value chosen from the Mod Type drop down list. Bit Pattern Allows the administrator to select a new bit pattern for test execution. The drop down list provides the selections. Set button Changes the bit pattern to the value chosen from the Bit Pattern drop down list. Test Length Allows the administrator to select a new test length. The drop down list provides the selections. Set button - Changes the test execution length to the value chosen from the Test Length drop down list. Symbols (0 122) Allows the administrator to provide a new number of symbols for test execution. The configured numbers of symbols much match on the master and slave. BER Status Displays the current state of the test. o Not Running o Running as Master o Running as Slave Form #: OP_01_TM Aeronix Proprietary 86 4 BER Test Document Number: AE301628-001 Revision: B Date: 3 October 2019 Title: Aeronix Data Links EDL Nano Products User Guide Table 3-24. Maintenance System Tests Page Field/Control 4 BER Test Results (Rx) Description Time left Displays a countdown for the test execution time left. If the Test Length selected is Until Stopped this field displays a symbol. If the number of symbols to receive by the unit is not 0, the BER Test Results table contains the results after test execution completes. Test execution comprises of the master unit transmitting for the number of symbols selected and the slave listening for those symbols and the slave transmitting for the same number of symbols and the master listening for those symbols. This occurs for the value selected in the Test Length field. Reset Button Resets the test result fields in the table. Rx Sync light Appears green if the unit receives sync from the transmitter. Latched Loss of Sync Appears green if unit loses sync. Total Bits Displays the total bits received by the unit during test execution. Correct Bits Displays the number of correct bits during test execution. Error Bits Displays the number of bits with errors during test execution. Bit Error Rate Displays ratio of non-

correct bits versus correct bits Mbits/sec Displays the number of bits received divided by the number of seconds the test executed. RSSI Provides the received signal Freq Offset Provides the frequency strength. offset. master mode. mode Run as Master button Starts the test in Run as Slave button start test in Slave Stop All Tests button Stops the BER test execution and returns the unit to normal operation. 5 BER Mode Buttons Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 87 Title: Aeronix Data Links EDL Nano Products User Guide 3.6.15.6. The Debug page can be accessed by selecting the Debug button in the More Options section of the Maintenance page. It provides additional debug capabilities that can be used for lab testing and in the field Maintenance Debug Page Figure 3-61 Maintenance Debug Page Table 3-25. Maintenance Debug Page Field/Control 1 PCI Tests Description Writing values to FPGA registers can render the unit nonoperational and could leave the unit in a condition where a reboot or power cycle is requires. Values must be preceded by a 0x. Read - Provides the capability to input an offset to an FPGA register and to read the value by selecting the Run button to the right of the row. Write - Provides the capability to change the value of an FPGA register by supplying the offset of the register and the value in the appropriate locations. Selecting the Run button to the right of the row updates the value. 2 Proc Interface The proc interface provides supplies debug information for the different interfaces in the unit. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 88 Title: Aeronix Data Links EDL Nano Products User Guide Table 3-25. Maintenance Debug Page Field/Control Description The proc interface is for detailed debugging usually handled by the unit developers. Therefore each parameter will not be described in detail in this document. Proc List Provides a pull down list of available proc interfaces for viewing. Display Button Displays the debug information for the interface chosen in the Proc List drop down and displays it in display box below Auto Refresh o On Enable auto refresh which will update the debug interface every second o Off Disable auto refresh, the display will only be updated when user clicks on the Display button 3.6.15.7. The contact page provides contact information for the 802.16 product. Contact Page Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 89 Title: Aeronix Data Links EDL Nano Products User Guide 3.7. SNMP Interface configuration The user can use SNMP to set most the radios configuration. Aeronix SNMP agent is compatible with SNMPv3. Aeronix has used the following third party applications to interact with our SNMP agent. net-snmp suite of applications to implement SNMP SNMPc GUI application for SNMP iReasoning MIB browser Aeronix is listed under the enterprise OID, The Aeronix OID is 1.3.6.1.4.17701.10.1.x.x, where x.x is the object identifier that is defined in the Aeronix MIB, see Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 90 Title: Aeronix Data Links EDL Nano Products User Guide Appendix A: SNMP MIB. Click the advanced button next to the Address field. Enter user for USM User, SHA for Authentication and DES for privacy. Then enter AERONIX1% for the SHA and DES passwords. 3.7.1. SNMP User Authentication The Aeronix User-based Security name is user. The Aeronix authentication protocol is SHA. The privacy type is DES. The privacy key or pass phrase to use is AERONIX1%. 3.7.2. SNMP examples Below are some examples on how to query and modify Aeronix tables. The examples are using the net-snmp library of commands. Basic SNMP get request 3.7.2.1. snmpget -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m <mib> <ip> <item>

Example:

snmpget -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m /home/general/SNMP/AERONIX-802.16-MIB.mib.txt 192.168.100.1 txrxEnable.1 Basic SNMP set request 3.7.2.2. snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m <mib> <ip> <item> <item type> <value>

Example:

snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m /home/general/SNMP/AERONIX-802.16-MIB.mib.txt 192.168.100.1 txrxEnable.1 i 0 Basic SNMP Table request 3.7.2.3. snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m <mib> <ip> <table name>

Example:

snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m /home/general/SNMP/AERONIX-802.16-

MIB.mib.txt 192.168.100.1 wmanIfBsSsNameTable Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 91 Title: Aeronix Data Links EDL Nano Products User Guide 3.7.2.4. snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m $PWD/AERONIX-802.16-MIB.mib.txt 192.168.8.1 savedatabase.1 u 1 SNMP Save Database SNMP start script 3.7.2.5. If a data object is not referenced in the snmpset command then it will default to what it was previously set to. This could be what the system default is, or if the value has been changed by the user then the value will remain what the user has set since boot. Configure Start Script:

snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m AERONIX-802.16-MIB.mib.txt 192.168.2.1 basestation.1 unsigned 0 ssId.1 unsigned 2 webgui.1 unsigned 0 udhcpc.1 unsigned 0 bridging.1 unsigned 1 sysIP4Address.1 string 192.168.2.1 sysIP4Netmask.1 string 255.255.0.0 Create start script snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m AERONIX-802.16-MIB.mib.txt 192.168.2.1 makeStartScript.1 u 1 SNMP frequency 3.7.2.6. Frequency is in Hertz units. Display Frequency snmpget -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m AERONIX-802.16-MIB.mib.txt 192.168.100.1 customFreq.1 Configure Frequency snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m AERONIX-802.16-MIB.mib.txt 192.168.100.1 customFreq.1 s 1800000000 Note Frequency is entered in Hertz SNMP Bandwidth 3.7.2.7. Display Bandwidth snmpget -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m AERONIX-802.16-MIB.mib.txt 192.168.100.1 freqBandwidth.1 Configure Bandwidth Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 92 Title: Aeronix Data Links EDL Nano Products User Guide snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m AERONIX-802.16-MIB.mib.txt 192.168.100.1 freqBandwidth.1 u 14000000 3.7.2.8. This is only done on the BS. SNMP add service class Poll service class table (wmanIfBsServiceClassTable):

snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m <mib> <ip> <table name>

Example:

snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m /home/general/SNMP/AERONIX-802.16-

MIB.mib.txt 192.168.100.1 wmanIfBsServiceClassTable Expected Output:

wmanIfBsQoSProfileIndex wmanIfBsQosServiceClassName bitArray wmanIfBsQoSTrafficPriority wmanIfBsQoSMaxSustainedRate wmanIfBsQoSMinReservedRate wmanIfBsQosScSchedulingType wmanIfBsQoSServiceClassRowStatus 1 DL_MULTICAST.................... ? 1 6096000 b/s 3657600 b/s bestEffort active 2 initial......................... ? 1 5885696 b/s 1000 b/s bestEffort active 3 little.......................... ? 1 100000 b/s 1000 b/s bestEffort active 4 middle.......................... ? 1 2500000 b/s 1000 b/s bestEffort active 5 BE_MAX.......................... ? 1 50000000 b/s 1000000 b/s bestEffort active Add row to basestation service class:

snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m <mib> <ip> wmanIfBsQoSServiceClassRowStatus.<row index> i <row status (4 = create, 6 = destroy>

Since there are five entries in the service class table, to create a new table we reference the sixth. Example:

snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m /home/general/SNMP/AERONIX-802.16-MIB.mib.txt 192.168.100.1 wmanIfBsQoSServiceClassRowStatus.6 i 4 Expected output:

AERONIX-80216-MIB::wmanIfBsQoSServiceClassRowStatus.6 = INTEGER:

createAndGo(4) Fill in row:

snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m <mib> <ip> wmanIfBsQosServiceClassName.<row index> s

<custom service name> wmanIfBsQoSTrafficPriority.<row index> i

<priority [0-7]> wmanIfBsQoSMaxSustainedRate.<row index> u Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 93 Title: Aeronix Data Links EDL Nano Products User Guide

<value in bits> wmanIfBsQoSMinReservedRate.<row index> u <value in bits> wmanIfBsQosScSchedulingType.<row index> i <scheduling type [2-5]>

Example:

snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m /home/general/SNMP/AERONIX-802.16-MIB.mib.txt 192.168.100.1 wmanIfBsQosServiceClassName.6 s "data"

wmanIfBsQoSTrafficPriority.6 i 1 wmanIfBsQoSMaxSustainedRate.6 u 2500005 wmanIfBsQoSMinReservedRate.6 u 1000005 wmanIfBsQosScSchedulingType.6 i 2 Expected output:

AERONIX-80216-MIB::wmanIfBsQosServiceClassName.6 = STRING: data AERONIX-80216-MIB::wmanIfBsQoSTrafficPriority.6 = INTEGER: 1 AERONIX-80216-MIB::wmanIfBsQoSMaxSustainedRate.6 = Gauge32:

2500005 b/s AERONIX-80216-MIB::wmanIfBsQoSMinReservedRate.6 = Gauge32:

1000005 b/s AERONIX-80216-MIB::wmanIfBsQosScSchedulingType.6 = INTEGER:

bestEffort(2) Verify new row added and active:

If new row is added but NOT active, verify all values were set correctly. snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m <mib> <ip> wmanIfBsServiceClassTable Example:

snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m /home/general/SNMP/AERONIX-802.16-

MIB.mib.txt 192.168.100.1 wmanIfBsServiceClassTable Expected output:

SNMP table: AERONIX-80216-MIB::wmanIfBsServiceClassTable wmanIfBsQoSProfileIndex wmanIfBsQosServiceClassName bitArray wmanIfBsQoSTrafficPriority wmanIfBsQoSMaxSustainedRate wmanIfBsQoSMinReservedRate wmanIfBsQosScSchedulingType wmanIfBsQoSServiceClassRowStatus 1 DL_MULTICAST.................... ? 1 6096000 b/s 3657600 b/s bestEffort active 2 initial......................... ? 1 5885696 b/s 1000 b/s bestEffort active 3 little.......................... ? 1 100000 b/s 1000 b/s bestEffort active 4 middle.......................... ? 1 2500000 b/s 1000 b/s bestEffort active 5 BE_MAX.......................... ? 1 50000000 b/s 1000000 b/s bestEffort active 6 data............................ ? 1 2500005 b/s 1000005 b/s bestEffort active Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 94 3.7.2.9. Title: Aeronix Data Links EDL Nano Products User Guide Remove service class:

Poll service class table (wmanIfBsServiceClassTable):

snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m <mib> <ip> <table name>

Example:

snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m /home/general/SNMP/AERONIX-802.16-

MIB.mib.txt 192.168.100.1 wmanIfBsServiceClassTable Expected Output:

SNMP table: AERONIX-80216-MIB::wmanIfBsServiceClassTable wmanIfBsQoSProfileIndex wmanIfBsQosServiceClassName bitArray wmanIfBsQoSTrafficPriority wmanIfBsQoSMaxSustainedRate wmanIfBsQoSMinReservedRate wmanIfBsQosScSchedulingType wmanIfBsQoSServiceClassRowStatus 1 DL_MULTICAST.................... ? 1 6096000 b/s 3657600 b/s bestEffort active 2 initial......................... ? 1 5885696 b/s 1000 b/s bestEffort active 3 little.......................... ? 1 100000 b/s 1000 b/s bestEffort active 4 middle.......................... ? 1 2500000 b/s 1000 b/s bestEffort active 5 BE_MAX.......................... ? 1 50000000 b/s 1000000 b/s bestEffort active 6 data............................ ? 1 2500005 b/s 1000005 b/s bestEffort active Remove row from basestation service class:

snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m <mib> <ip> wmanIfBsQoSServiceClassRowStatus.<row index> i <row status (4 = create, 6 = destroy>

Example:

snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m /home/general/SNMP/AERONIX-802.16-MIB.mib.txt 192.168.100.1 wmanIfBsQoSServiceClassRowStatus.6 i 6 Expected output:

AERONIX-80216-MIB::wmanIfBsQoSServiceClassRowStatus.6 = INTEGER:

destroy(6) Verify row deletion:

snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m <mib> <ip> <table name>

Example:

snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m /home/general/SNMP/AERONIX-802.16-

MIB.mib.txt 192.168.100.1 wmanIfBsServiceClassTable Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 95 Title: Aeronix Data Links EDL Nano Products User Guide Expected Output:

wmanIfBsQoSProfileIndex wmanIfBsQosServiceClassName bitArray wmanIfBsQoSTrafficPriority wmanIfBsQoSMaxSustainedRate wmanIfBsQoSMinReservedRate wmanIfBsQosScSchedulingType wmanIfBsQoSServiceClassRowStatus wmanIfBsQoSProfileIndex wmanIfBsQosServiceClassName bitArray wmanIfBsQoSTrafficPriority wmanIfBsQoSMaxSustainedRate wmanIfBsQoSMinReservedRate wmanIfBsQosScSchedulingType wmanIfBsQoSServiceClassRowStatus 1 DL_MULTICAST.................... ? 1 6096000 b/s 3657600 b/s bestEffort active 2 initial......................... ? 1 5885696 b/s 1000 b/s bestEffort active 3 little.......................... ? 1 100000 b/s 1000 b/s bestEffort active 4 middle.......................... ? 1 2500000 b/s 1000 b/s bestEffort active 5 BE_MAX.......................... ? 1 50000000 b/s 1000000 b/s bestEffort active 3.7.2.10. This is only done on the BS. Viewing/Adding Subscribers Viewing Subscriber Table snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m ./AERONIX-802.16-MIB.mib.txt 192.168.100.1 wmanIfBsSsNameTable Create new Subscriber Entry Assuming we already have two entries we must first create a new row. After running the below command it will create a placeholder entry with Default as the name with a mac address of 00:00:00:00:00:00 snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m ./AERONIX-802.16-MIB.mib.txt 192.168.100.1 wmanIfBsSsNameRowStatus.3 i 4 Then we fill in the MAC address and name separately. snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m ./AERONIX-802.16-MIB.mib.txt 192.168.100.1 wmanIfBsSsNameSubscriberName.3 s SS-3 snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m ./AERONIX-802.16-MIB.mib.txt 192.168.100.1 wmanIfBsSsNameMACAddress.3 s 112233445566 Removing a Subscriber Entry Remove first entry in table, .1 after wmanIfBsSsNameRowStatus is the row index. snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m ./AERONIX-802.16-MIB.mib.txt 192.168.100.1 wmanIfBsSsNameRowStatus.1 i 6 3.7.2.11. This is only done on the BS. Add new provisioned SFs Poll provisioned SFs table (wmanIfBsProvisionedSfTable):

Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 96 Title: Aeronix Data Links EDL Nano Products User Guide snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m <mib> <ip> <table name>

Example:

snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m /home/general/SNMP/AERONIX-802.16-

MIB.mib.txt 192.168.100.1 wmanIfBsProvisionedSfTable Expected output:

SNMP table: AERONIX-80216-MIB::wmanIfBsProvisionedSfTable wmanIfBsSfId wmanIfBsSsProvmacAddress wmanIfBsSfDirection wmanIfBsServiceClassName wmanIfBsSfState wmanIfBsSfUlMulticast wmanIfBsProvisionedSfRowStatus 4 00:61:65:6E:64:01. downstream BE_MAX authorized off active 5 00:61:65:6E:64:01. upstream BE_MAX authorized off active 6 00:61:65:6E:64:02. downstream BE_MAX authorized off active 7 00:61:65:6E:64:02. upstream BE_MAX authorized off active Add row to provisioned SFs:

snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m <mib> <ip> wmanIfBsProvisionedSfRowStatus.<row index>

i <row status (4 = create, 6 = destroy>

Example:

snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m /home/general/SNMP/AERONIX-802.16-MIB.mib.txt 192.168.100.1 wmanIfBsProvisionedSfRowStatus.5 i 4 Expect output:

AERONIX-80216-MIB::wmanIfBsProvisionedSfRowStatus.5 = INTEGER:

createAndGo(4) Verify new row created in provisioned SFs table:

snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m <mib> <ip> <table name>

Example:

snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m /home/general/SNMP/AERONIX-802.16-

MIB.mib.txt 192.168.100.1 wmanIfBsProvisionedSfTable Expected output:

SNMP table: AERONIX-80216-MIB::wmanIfBsProvisionedSfTable wmanIfBsSfId wmanIfBsSsProvmacAddress wmanIfBsSfDirection wmanIfBsServiceClassName wmanIfBsSfState wmanIfBsSfUlMulticast wmanIfBsProvisionedSfRowStatus 4 00:61:65:6E:64:01. downstream BE_MAX authorized off active Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 97 Title: Aeronix Data Links EDL Nano Products User Guide 5 00:61:65:6E:64:01. upstream BE_MAX authorized off active 6 00:61:65:6E:64:02. downstream BE_MAX authorized off active 7 00:61:65:6E:64:02. upstream BE_MAX authorized off active 8 FF:FF:FF:FF:FF:FF. downstream 255 off notReady Fill in row:

snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m <mib> <ip> wmanIfBsSsProvmacAddress.<row index> s <ss mac address> wmanIfBsServiceClassName.<row index> s <name of service class>

Example:

snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m /home/general/SNMP/AERONIX-802.16-MIB.mib.txt 192.168.100.1 wmanIfBsSsProvmacAddress.5 s 0061656E6401 wmanIfBsServiceClassName.5 s middle Expected output:

AERONIX-80216-MIB::wmanIfBsSsProvmacAddress.5 = STRING:

0061656E6401 AERONIX-80216-MIB::wmanIfBsServiceClassName.5 = STRING: middle Verify row has been added to provisioned SFs:

snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m <mib> <ip> <table name>

Example:

snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m /home/general/SNMP/AERONIX-802.16-

MIB.mib.txt 192.168.100.1 wmanIfBsProvisionedSfTable Expected output:

SNMP table: AERONIX-80216-MIB::wmanIfBsProvisionedSfTable wmanIfBsSfId wmanIfBsSsProvmacAddress wmanIfBsSfDirection wmanIfBsServiceClassName wmanIfBsSfState wmanIfBsSfUlMulticast wmanIfBsProvisionedSfRowStatus 4 00:61:65:6E:64:01. downstream BE_MAX authorized off active 5 00:61:65:6E:64:01. upstream BE_MAX authorized off active 6 00:61:65:6E:64:02. downstream BE_MAX authorized off active 7 00:61:65:6E:64:02. upstream BE_MAX authorized off active 8 00:61:65:6E:64:01. downstream middle authorized off active 9 00:61:65:6E:64:01. upstream middle authorized off active 3.7.2.12. Remove provisioned SF:

Poll provisioned SF table (wmanIfBsProvisionedSfTable):

Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 98 Title: Aeronix Data Links EDL Nano Products User Guide snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m <mib> <ip> <table name>

When removing a provisioned SF row, you need only remove the downstream row. The corresponding upstream row will automatically be deleted as well. Example:

snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m /home/general/SNMP/AERONIX-802.16-

MIB.mib.txt 192.168.100.1 wmanIfBsProvisionedSfTable Expected output:

SNMP table: AERONIX-80216-MIB::wmanIfBsProvisionedSfTable wmanIfBsSfId wmanIfBsSsProvmacAddress wmanIfBsSfDirection wmanIfBsServiceClassName wmanIfBsSfState wmanIfBsSfUlMulticast wmanIfBsProvisionedSfRowStatus 4 00:61:65:6E:64:01. downstream BE_MAX authorized off active 5 00:61:65:6E:64:01. upstream BE_MAX authorized off active 6 00:61:65:6E:64:02. downstream BE_MAX authorized off active 7 00:61:65:6E:64:02. upstream BE_MAX authorized off active 8 00:61:65:6E:64:01. downstream middle authorized off active 9 00:61:65:6E:64:01. upstream middle authorized off active Remove provisioned SF row:

snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m <mib> <ip> wmanIfBsProvisionedSfRowStatus.<row index>

i <row status (4 = create, 6 = destroy>

Example:

snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m /home/mbersing/projects/nano/nano/mac/SNMP/AERONIX-

802.16-MIB.mib.txt 192.168.100.1 wmanIfBsProvisionedSfRowStatus.5 i 6 Expected output:

AERONIX-80216-MIB::wmanIfBsProvisionedSfRowStatus.5 = INTEGER:

destroy(6) Verify provisioned SF row removed:

snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m <mib> <ip> <table name>

Example:

snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m /home/general/SNMP/AERONIX-802.16-

MIB.mib.txt 192.168.100.1 wmanIfBsProvisionedSfTable Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 99 Title: Aeronix Data Links EDL Nano Products User Guide Expected output:

SNMP table: AERONIX-80216-MIB::wmanIfBsProvisionedSfTable wmanIfBsSfId wmanIfBsSsProvmacAddress wmanIfBsSfDirection wmanIfBsServiceClassName wmanIfBsSfState wmanIfBsSfUlMulticast wmanIfBsProvisionedSfRowStatus 4 00:61:65:6E:64:01. downstream BE_MAX authorized off active 5 00:61:65:6E:64:01. upstream BE_MAX authorized off active 6 00:61:65:6E:64:02. downstream BE_MAX authorized off active 7 00:61:65:6E:64:02. upstream BE_MAX authorized off active 3.7.2.13. Add new downstream burst profile:

Poll downstream burst profile table (wmanIfBsOfdmDcdBurstProfileTable):

snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m <mib> <ip> <table name>

Example:

snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m /home/general/SNMP/AERONIX-802.16-

MIB.mib.txt 192.168.100.1 wmanIfBsOfdmDcdBurstProfileTable Expected output:

SNMP table: AERONIX-80216-MIB::wmanIfBsOfdmDcdBurstProfileTable wmanIfCmnOfdmDcdBurstProfIndex wmanIfCmnOfdmDiucValue wmanIfCmnOfdmDcdFecCodeType wmanIfCmnOfdmDiucCinrMandatoryExitThresh wmanIfCmnOfdmDiucCinrMinEntryThresh wmanIfCmnOfdmDiucFecMandatoryExitThresh wmanIfCmnOfdmDiucFecMinEntryThresh wmanIfCmnOfdmAvailableType wmanIfCmnOfdmDcdBurstProfilerowStatus 1 1 fecBPSK-12 0 7 0 3 2 active 2 2 fecQPSK-12 8 10 15 4 2 active 3 3 fecQPSK-34 9 12 4 1 2 active 4 4 fecQAM-1612 12 16 28 7 2 active 5 5 fecQAM-1634 16 18 8 2 2 active 6 6 fecQAM-6423 20 23 25 6 2 active Add row to downstream burst profile:

snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m <mib> <ip> wmanIfCmnOfdmDcdBurstProfilerowStatus.<row index> i <row status (4 = create, 6 = destroy>

Example:

snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m /home/general/SNMP/AERONIX-802.16-MIB.mib.txt 192.168.100.1 wmanIfCmnOfdmDcdBurstProfilerowStatus.7 i 4 Expect output:

AERONIX-80216-MIB::wmanIfCmnOfdmDcdBurstProfilerowStatus.7 =

INTEGER: createAndGo(4) Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 100 Title: Aeronix Data Links EDL Nano Products User Guide Verify new row created in provisioned SFs table:

snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m <mib> <ip> <table name>

Example:

snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m /home/general/SNMP/AERONIX-802.16-

MIB.mib.txt 192.168.100.1 wmanIfBsOfdmDcdBurstProfileTable Expected output:

SNMP table: AERONIX-80216-MIB::wmanIfBsOfdmDcdBurstProfileTable wmanIfCmnOfdmDcdBurstProfIndex wmanIfCmnOfdmDiucValue wmanIfCmnOfdmDcdFecCodeType wmanIfCmnOfdmDiucCinrMandatoryExitThresh wmanIfCmnOfdmDiucCinrMinEntryThresh wmanIfCmnOfdmDiucFecMandatoryExitThresh wmanIfCmnOfdmDiucFecMinEntryThresh wmanIfCmnOfdmAvailableType wmanIfCmnOfdmDcdBurstProfilerowStatus 1 1 fecBPSK-12 0 7 0 3 2 active 2 2 fecQPSK-12 8 10 15 4 2 active 3 3 fecQPSK-34 9 12 4 1 2 active 4 4 fecQAM-1612 12 16 28 7 2 active 5 5 fecQAM-1634 16 18 8 2 2 active 6 6 fecQAM-6423 20 23 25 6 2 active invalid 0 0 0 0 0 notReady Fill in row:

snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m <mib> <ip> wmanIfCmnOfdmDcdFecCodeType.<row index> i

<fec code [0-9]> wmanIfCmnOfdmDiucCinrMandatoryExitThresh.<row index> i <cinr exit threshold>

wmanIfCmnOfdmDiucFecMandatoryExitThresh.<row index> i <fec exit threshold> wmanIfCmnOf dmAvailableType.<row index> i <enable=2, disable=3>

wmanIfCmnOfdmDiucCinrMinEntryThresh.<row index> i <cinr entry threshold> wmanIfCmnOfdmDiucFecMinEntryThresh.<row index> i <fec entry threshold>

Example:

snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m /home/general/SNMP/AERONIX-802.16-MIB.mib.txt 192.168.100.1 wmanIfCmnOfdmDcdFecCodeType.7 i 6 wmanIfCmnOfdmDiucCinrMandatoryExitThresh.7 i 8 wmanIfCmnOfdmDiucFecMandatoryExitThresh.7 i 10 wmanIfCmnOf dmAvailableType.7 i 2 wmanIfCmnOfdmDiucCinrMinEntryThresh.7 i 0 wmanIfCmnOfdmDiucFecMinEntryThresh.7 i 9 Expected output:

AERONIX-80216-MIB::wmanIfCmnOfdmDcdFecCodeType.7 = INTEGER:

fecQAM-6434(6) Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 101 Title: Aeronix Data Links EDL Nano Products User Guide AERONIX-80216-MIB::wmanIfCmnOfdmDiucCinrMandatoryExitThresh.7 =

INTEGER: 8 AERONIX-80216-MIB::wmanIfCmnOfdmDiucFecMandatoryExitThresh.7 =

INTEGER: 10 AERONIX-80216-MIB::wmanIfCmnOfdmAvailableType.7 = INTEGER: 2 AERONIX-80216-MIB::wmanIfCmnOfdmDiucCinrMinEntryThresh.7 =

INTEGER: 0 AERONIX-80216-MIB::wmanIfCmnOfdmDiucFecMinEntryThresh.7 =

INTEGER: 9 Verify row has been added to downstream burst profile:

snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m <mib> <ip> <table name>

Example:

snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m /home/general/SNMP/AERONIX-802.16-

MIB.mib.txt 192.168.100.1 wmanIfBsOfdmDcdBurstProfileTable Expected output:

SNMP table: AERONIX-80216-MIB::wmanIfBsOfdmDcdBurstProfileTable wmanIfCmnOfdmDcdBurstProfIndex wmanIfCmnOfdmDiucValue wmanIfCmnOfdmDcdFecCodeType wmanIfCmnOfdmDiucCinrMandatoryExitThresh wmanIfCmnOfdmDiucCinrMinEntryThresh wmanIfCmnOfdmDiucFecMandatoryExitThresh wmanIfCmnOfdmDiucFecMinEntryThresh wmanIfCmnOfdmAvailableType wmanIfCmnOfdmDcdBurstProfilerowStatus 1 1 fecBPSK-12 0 7 0 3 2 active 2 2 fecQPSK-12 8 10 15 4 2 active 3 3 fecQPSK-34 9 12 4 1 2 active 4 4 fecQAM-1612 12 16 28 7 2 active 5 5 fecQAM-1634 16 18 8 2 2 active 6 6 fecQAM-6423 20 23 25 6 2 active 7 7 fecQAM-6434 21 24 15 0 2 active 3.7.2.14. Remove downstream burst profile:

Poll downstream burst profile table (wmanIfBsOfdmDcdBurstProfileTable):

snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m <mib> <ip> <table name>

Example:

snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m /home/general/SNMP/AERONIX-802.16-

MIB.mib.txt 192.168.100.1 wmanIfBsOfdmDcdBurstProfileTable Expected output:

SNMP table: AERONIX-80216-MIB::wmanIfBsOfdmDcdBurstProfileTable Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 102 Title: Aeronix Data Links EDL Nano Products User Guide wmanIfCmnOfdmDcdBurstProfIndex wmanIfCmnOfdmDiucValue wmanIfCmnOfdmDcdFecCodeType wmanIfCmnOfdmDiucCinrMandatoryExitThresh wmanIfCmnOfdmDiucCinrMinEntryThresh wmanIfCmnOfdmDiucFecMandatoryExitThresh wmanIfCmnOfdmDiucFecMinEntryThresh wmanIfCmnOfdmAvailableType wmanIfCmnOfdmDcdBurstProfilerowStatus 1 1 fecBPSK-12 0 7 0 3 2 active 2 2 fecQPSK-12 8 10 15 4 2 active 3 3 fecQPSK-34 9 12 4 1 2 active 4 4 fecQAM-1612 12 16 28 7 2 active 5 5 fecQAM-1634 16 18 8 2 2 active 6 6 fecQAM-6423 20 23 25 6 2 active 7 7 fecQAM-6434 21 24 15 0 2 active Remove downstream burst profile row:

snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m <mib> <ip> wmanIfCmnOfdmDcdBurstProfilerowStatus.<row index> i <row status (4 = create, 6 = destroy>

Example:

snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m /home/general/SNMP/AERONIX-802.16-MIB.mib.txt 192.168.100.1 wmanIfCmnOfdmDcdBurstProfilerowStatus.7 i 6 Expected output:

AERONIX-80216-MIB::wmanIfCmnOfdmDcdBurstProfilerowStatus.7 =

INTEGER: destroy(6) Verify downstream burst profile row removed:

snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m <mib> <ip> <table name>

Exampled:

snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m /home/general/SNMP/AERONIX-802.16-

MIB.mib.txt 192.168.100.1 wmanIfBsOfdmDcdBurstProfileTable Expected output:

SNMP table: AERONIX-80216-MIB::wmanIfBsOfdmDcdBurstProfileTable wmanIfCmnOfdmDcdBurstProfIndex wmanIfCmnOfdmDiucValue wmanIfCmnOfdmDcdFecCodeType wmanIfCmnOfdmDiucCinrMandatoryExitThresh wmanIfCmnOfdmDiucCinrMinEntryThresh wmanIfCmnOfdmDiucFecMandatoryExitThresh wmanIfCmnOfdmDiucFecMinEntryThresh wmanIfCmnOfdmAvailableType wmanIfCmnOfdmDcdBurstProfilerowStatus 1 1 fecBPSK-12 0 7 0 3 2 active 2 2 fecQPSK-12 8 10 15 4 2 active 3 3 fecQPSK-34 9 12 4 1 2 active 4 4 fecQAM-1612 12 16 28 7 2 active 5 5 fecQAM-1634 16 18 8 2 2 active 6 6 fecQAM-6423 20 23 25 6 2 active Viewing/Creating/Deleting Classifiers 3.7.2.15. This is only done on the BS. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 103 Title: Aeronix Data Links EDL Nano Products User Guide Viewing classifier rule table snmptable -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1% -u user -m ./AERONIX-802.16-MIB.mib.txt 192.168.100.1 wmanIfBsClassifierRuleTable Creating classifier MAC rule entry 1) Verify SNMP is classifier mod is set to mac, if not set classifierMacAddrMode.1 to 1. classifierMacAddrMode :

0 = IP Mode 1 = MAC Mode snmpget -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m ./AERONIX-802.16-MIB.mib.txt 192.168.100.1 classifierMacAddrMode.1 2) Create entry row Assuming an empty classifier table first index will start at 1. snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m ./AERONIX-802.16-MIB.mib.txt 192.168.100.1 wmanIfBsClassifierRuleRowStatus.1 i 4 3) Fill in new entry row snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m ./AERONIX-802.16-MIB.mib.txt 192.168.100.1 wmanIfBsSfIndex.1 i 4 wmanIfBsClassifierRuleDestMacAddr.1 s <xxxxxxxxxxxx>

wmanIfBsClassifierRuleSourceMacMask.1 s <xxxxxxxxxxxx>

wmanIfBsClassifierRuleSourceMacAddr.1 s <xxxxxxxxxxxx>

wmanIfBsClassifierRuleDestMacMask.1 s <xxxxxxxxxxxx>

4) Create entry row snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m ./AERONIX-802.16-MIB.mib.txt 192.168.100.1 wmanIfBsClassifierRuleRowStatus.2 i 4 5) Fill in new entry row snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m ./AERONIX-802.16-MIB.mib.txt 192.168.100.1 wmanIfBsSfIndex.2 i 5 wmanIfBsClassifierRuleDestMacAddr.2 s <xxxxxxxxxxxx>

wmanIfBsClassifierRuleSourceMacMask.2 s <xxxxxxxxxxxx>

wmanIfBsClassifierRuleSourceMacAddr.2 s <xxxxxxxxxxxx>

wmanIfBsClassifierRuleDestMacMask.2 s <xxxxxxxxxxxx>

Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 104 Title: Aeronix Data Links EDL Nano Products User Guide Creating classifier IP rule entry 1) Verify SNMP is classifier mod is set to IP, if not set classifierMacAddrMode.1 to 0 snmpget -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m ./AERONIX-802.16-MIB.mib.txt 192.168.100.1 classifierMacAddrMode.1 classifierMacAddrMode:

0 = IP Mode 1 = MAC Mode 2) Create entry row Assuming an empty classifier table first index will start at 1. snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m ./AERONIX-802.16-MIB.mib.txt 192.168.100.1 wmanIfBsClassifierRuleRowStatus.1 i 4 3) Fill in new entry row snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m ./AERONIX-802.16-MIB.mib.txt 192.168.100.1 wmanIfBsSfIndex.1 i 4 wmanIfBsClassifierRuleIpSourceAddr.1 s 192.168.100.2 wmanIfBsClassifierRuleIpSourceMask.1 s 255.255.0.0 wmanIfBsClassifierRuleIpDestAddr.1 s 192.168.1.2 wmanIfBsClassifierRuleIpDestMask.1 s 255.255.0.0 4) Create entry row snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m ./AERONIX-802.16-MIB.mib.txt 192.168.100.1 wmanIfBsClassifierRuleRowStatus.2 i 4 5) Fill in new entry row snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m ./AERONIX-802.16-MIB.mib.txt 192.168.100.1 wmanIfBsSfIndex.2 i 5 wmanIfBsClassifierRuleIpSourceAddr.2 s 192.168.1.2 wmanIfBsClassifierRuleIpSourceMask.2 s 255.255.0.0 wmanIfBsClassifierRuleIpDestAddr.2 s 192.168.100.2 wmanIfBsClassifierRuleIpDestMask.2 s 255.255.0.0 Removing classifier rule entry Remove first entry in table, .1 after wmanIfBsClassifierRuleRowStatus is the row index snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m ./AERONIX-802.16-MIB.mib.txt 192.168.100.1 wmanIfBsClassifierRuleRowStatus.1 i 6 SNMP configure Serial Flow 3.7.2.16. Serial Flow Types enumerations (unsigned) :

Serial B to Serial B = 0 Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 105 Title: Aeronix Data Links EDL Nano Products User Guide Serial B To Ethernet Rx Only = 1 Serial B To Ethernet Tx Only = 2 Serial B To Ethernet Both Rx and Tx = 3 Serial Baud Rates (unsigned) : 4800, 9600, 19200, 38400, 57600, 115200 Raw Mode enumeration (integer):

Raw Mode = 1 Normal = 0 snmpset -v 3 -l AUTHPRIV -a SHA -A Aeronix1% -x DES -X Aeronix1%

-u user -m $PWD/AERONIX-802.16-MIB.mib.txt 192.168.8.1 serialDirection.1 u 0 serialBaudRate.1 u 4800 enaSerialTransfer.1 i 1 serialTxPort.1 u 3000 serialRxPort.1 u 3001 serialTxIP.1 s "192.168.2.10" serialRawMode.1 i 0 Response:

AERONIX-80216-MIB::serialDirection.1 = Gauge32: 0 AERONIX-80216-MIB::serialBaudRate.1 = Gauge32: 4800 AERONIX-80216-MIB::enaSerialTransfer.1 = INTEGER: enable(1) AERONIX-80216-MIB::serialTxPort.1 = Gauge32: 3000 AERONIX-80216-MIB::serialRxPort.1 = Gauge32: 3001 AERONIX-80216-MIB::serialTxIP.1 = STRING: 192.168.2.10 AERONIX-80216-MIB::serialRawMode.1 = INTEGER: 0 3.7.3. SNMP Unsupported configurations BERT and CW test 3.7.3.1. SNMP does not allow the user to run BERT and CW test. 4. Determining NANO Radio configuration If the user is not aware of the Radio IP or the radio mode, below are some methods by which they can learn the current configuration the NANO radio. 4.1. Two ways to determine radio IP address 4.1.1. Use Console 1) Attach USB to Serial to a Laptop and use Console to get IP address 2) Connect to Serial A port with terminal emulator. (Baud = 115200, 8-N-1 no flow control) 3) Login by typing root 4) Enter password 1234. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 106 Title: Aeronix Data Links EDL Nano Products User Guide 5) Enter ifconfig 6) Take note of the mybridge interface IP address and netmask 4.1.2. Use radios default IP address The user can always access the radio over its Ethernet alias IP address of 169.254.1.1. This IP is consistent so if the user needs to access the GUI or SNMP. 1) Configure laptop/computer with an IP address on the same subnet as radio default IP address for example:

a. laptop IP : 169.254.1.10 b. laptop mask : 255.255.255.0 2) Connect radios Ethernet to laptop/computer 3) Bring up a web browser (IE or firefox) 4) Type in radios default IP address at web browser a. 169.254.1.1 5) The Status page should be displayed of the radio. 6) Multiple ways to view IP address a. Version page i. Go to the Version page of the webgui ii. The IP address will be displayed under network Addresses b. Maintenance page i. Go to Maintenance page ii. Click on Debug button iii. Go to Proc Interface section iv. From scroll down menu select ifconfig v. Hit Display Button vi. The IP address and mask will be listed under the mybridge interface c. Admin Page i. Go to the Admin Page ii. Look at the left side of the Generate Bridging Start script section iii. This is the current radio IP address, netmask, mode and ID 5. Change Radio IP address via webgui The start script controls the IP address, IP masks, user interface (webgui or SNMP), and which mode the radio will boot in (BS or SS). 1) Bring up radios webgui by typing in current radios IP address on a Web Browser 2) Go to Admin page 3) Scroll down to the Generate Bridging Script 4) Select Base Station or Subscriber radio button 5) Enter Radio ID if desired 6) Enter new IPv4 IP address 7) Enter new IPv4 netmask 8) Click Generate Script button Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 107 Title: Aeronix Data Links EDL Nano Products User Guide 9) Once the Generate Script button is selected, the old start script will be overwritten with the new start script changes. Once a reboot or power cycle occurs the new changes will take effect. 6. Adding Subscriber example using webgui This example shows the method for adding a third subscriber to the base station configuration. This example assumes that the radios are configured in bridging mode with IP classifiers and no forwarding classifiers configured. It also assumes the use of preexisting service classes. The picture below shows the physical configuration. Figure 6-1 Example Adding Subscriber Layout Adding a subscriber to the Station Names table:

1. Browse to the Admin page of the base station. 2. Click on the ADD ENTRY button in the Station Names section. 3. Add a name for the subscriber and the appropriate MAC address for subscriber number 3 which is 00-61-65-6E-64-03. o Note: The MAC Address needed on the Admin for a Subscriber is the Aeronix MAC address for that subscriber (00-61-65-64-XX where XX is the Subscriber number). 4. Click on the ADD button to the right of the subscriber entry. 5. The subscriber appears in the station names table as show below. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 108 Title: Aeronix Data Links EDL Nano Products User Guide Figure 6-2 Example Adding a Subscriber station name Add the service flows for the subscriber:

1. Browse to the Network Config page of the base station. 2. Click on the ADD ENTRY button in the Provisioned SFs section. 3. Select the subscriber name for subscriber 3 from the pull down menu. 4. Type the downstream SF Id to be used in the box. 5. Select the service class for the service flow from the pull down menu. 6. Click the ADD button to the right of the service flow entry. 7. The service flow entries appear in the provisioned service flow table as shown below. Figure 6-3 Example Adding a Subscriber Provisioned SF Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 109 Title: Aeronix Data Links EDL Nano Products User Guide At this point the subscriber should register with the base station if it is powered on, on the same channel (frequency), has the same TRANSEC state and key, Tx/Rx is on and has the same channelization. Add the classifiers for the new service flows so that data can pass to and from the subscriber:

1. Browse to the Network Config page of the base station. 2. Click on the Auto Populate button in the Class Rules section. 3. Provide the proper Station IP and Station Mask for each entry in the table. a. Station IP BS 192.168.100.1 Station Mask 255.255.255.0 b. Station IP SS1 192.168.1.1 Station Mask 255.255.255.0 c. Station IP SS2 192.168.2.1 Station Mask 255.255.255.0 d. Station IP SS3 192.168.3.1 Station Mask 255.255.255.0 4. Click the Generate Classifiers button at the bottom of the class rules table. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 110 Title: Aeronix Data Links EDL Nano Products User Guide Figure 6-4 Example Adding a Subscriber Class Rules 5. Acknowledge the pop-up that the classifier regeneration takes some time. 6. The classifiers appear in the class rule table upon completion of the auto populate as shown below. These class rules and masks allow for multiple peripherals to connect in a units network and be able to pass data without modifying the class rule configuration. 7. Click on the Save Settings button and confirm the selection to save the subscriber 3 information to the database. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 111 Title: Aeronix Data Links EDL Nano Products User Guide Figure 6-5 Example Adding a Subscriber Result 6.1. Configuring Multiple Service Flows Multiple Service Flows can be assigned to a single Subscriber. This allows data from different IP address or MAC Address flowing from one radio to be assigned different Service Classes, which will give them different priorities. To configure a Subscriber to have Multiple Service flows, user must assign two different sets of Service Flows for the Subscriber. Then configure the classifiers using the different Service Flows. The user must disable the ARP Table feature on the Network Config screen. If the user wanted to differentiate the data coming from different IP address from SS1, then multiple service flows can be used to prioritize the data. For example, the data coming from IP 192.168.1.10 to be treated as Real Time and data from IP 192.168.1.15 to be treated as Best Effort, then the configuration would look similar to below. The user must setup and enable classifiers. The user cannot rely on the ARP Table feature to discover the correct Service flow to use for incoming IP traffic with different priorities. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 112 Title: Aeronix Data Links EDL Nano Products User Guide Figure 6-6 Example Multiple SF Layout 1. On the Base Station configure the Provisioned SF for the second service flow for SS1

(192.168.1.x network), using a Real Time Service Class (ExpRealTime). 2. We also selected the Real Time Service Flow (10,11) to be our UL Multicast Select, which means any multicast data will use this service flow and priority to transfer data. Figure 6-7 Example Multiple SF Add SF 3. On the BS configure the classifiers for the new Service Flows, from our previous example our class rules for SS1 were masked off, the user will have to change this since the IPs are on the same subnet that we want to differentiate. 4. Use Auto Populate to redo the class rules table, SS1 IP address can no longer use the subnet masks. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 113 Title: Aeronix Data Links EDL Nano Products User Guide 1 2 3 Figure 6-8 Example Multiple SF Add Class Rules Table 6-1. Adding Multiple Service Flow Class Rule 1 Field/Control Radio Class Rule Description This Class Rule is needed if the user wants to log into the SS1 Aeronix Webgui from any of the BS Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 114 Title: Aeronix Data Links EDL Nano Products User Guide Table 6-1. Adding Multiple Service Flow Class Rule Field/Control 2 3 Best Effort Class Rule Real Time Class Rule Description peripherals. Need a rule for IP packets flowing between 192.168.100.x <-> 192.168.1.1 This Class Rule specifies that data with IP address 192.168.1.10 will be classified as Best Effort and transferred based on that priority. This Class Rule specifies that data with IP address 192.168.1.15 will be classified as Best Effort and transferred based on that priority. 5. Below is the Class Rules after Clicking on the Generate Classifiers button. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 115 Title: Aeronix Data Links EDL Nano Products User Guide Figure 6-9 Example Multiple SF Result 6. Below are screen shots of how the multiple Service Flows are displayed on the BS

(Figure 6-10 Example Multiple SF BS Status Page) Status page and the SS (Error!

Reference source not found.) Status page. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 116 Title: Aeronix Data Links EDL Nano Products User Guide Figure 6-10 Example Multiple SF BS Status Page Figure 6-11 SS Example Multiple SF SS Status Page 7. Aeronix Software Features 7.1. NANO output power 7.1.1. View NANO output power calibration To view NANO transmit output power use the webgui to navigate to the Maintenance Page, then click on the Debug Button on the Maintenance Page. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 117 Title: Aeronix Data Links EDL Nano Products User Guide 1) Go to Maintenance page, Select Debug button 2) In the Proc Interface Section, use drop down menu to select powerSettings for GMSK radios. For OFDM radios select phyEeprom. 3) Click Display and the calibration table will be displayed. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 118 Title: Aeronix Data Links EDL Nano Products User Guide OFDM Calibration tables 7.1.1.1. The OFDM NANO is calibrated to have two power schemes, High Power and High Data. The High power is calibrated to the highest power the radio achieve while maintaining an EVM that will satisfy QAM16 modulation. High Data is calibrated to a power that will maintain a modulation of QAM64 . Each power schemes calibrates the power based on the output power of the OFDM preambles. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 119 Title: Aeronix Data Links EDL Nano Products User Guide 1 2 3 Figure 7-2 OFDM phyEeprom interace Figure 7-1 802.16 phyEeprom interface Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 120 Title: Aeronix Data Links EDL Nano Products User Guide GMSK Calibration tables 7.1.1.2. GMSK transmit power is calibrated to a High power and a Low power . The High power calibration is a target preamble output power 35 dBM. The GMSK Low power has a target preamble output power of 33 dBM. Figure 7-3 GMSK powerSettings interface Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 121 Title: Aeronix Data Links EDL Nano Products User Guide Table 7-1. Transmit Calibration interface Field/Control 1 2 3 High Data OFDM Low Power - GMSK High Power OFDM High Power - GMSK Current Transmitter setting Description The transmit calibration results for the listed frequencies for High Data if radio is OFDM and Low Power if radio is GMSK The transmit calibration results for the listed frequencies for High Power. The radio will select the table entry whose frequency is closest to the user configured frequency. 7.2. ARP Table feature The ARP Table feature does not require the user to enter classifiers for IP traffic to flow through the Aeronix radio network. The Aeronix ARP software relies on the radio and peripherals connected to the radios, to send out IP address resolution protocol (ARP) requests when the IP traffic starts. From the ARP request and replies the Aeronix software deduces the path for each IP source and destination. If for some reason the network surrounding the radios do not send out ARPs, for instance they may have static ARPs configured, then the user will have to create Classifier Rules for their IP traffic to flow through the Aeronix network. If the ARP Forwarding feature is enabled, then the ARP table allows Subscribers to pass data between each other. This feature is similar to the Classifier Forwarders, where all Subscriber data flows to the BS and the BS will determine if the data is destined for the BS or to be forwarded to another Subscriber. Since the ARP feature relies on ARPs, IPv6 is not compatible with this feature, so user will have to use the Classifier Rules for IPv6 traffic. 7.2.1. Enable Aeronix ARP feature The ARP feature has to be enabled on both the Base station and the Subscribers. 1. Browse to the Network Config page 2. Click on the ARP Table Status Enable button Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 122 Title: Aeronix Data Links EDL Nano Products User Guide Note: If the Classifier Status and ARP Table Status are both enabled, the software will search the ARP table first for a match, if no match is found then the classifier table will be searched. 7.3. Aeronix Serial Flow Control Feature The Aeronix serial flow control feature allows serial data to pass through the NANOs Platform RS-232 interface (See Table 2-8. J1: Main IF Pin Definitions ). This section will go into further detail on how to setup the Serial B to Serial B Flow Control. The transmitted serial data is wrapped in a UDP packet and configured with the Destination IP address for the radio the serial data is intended for and a user configured destination port ID. The example below show the BS connected to a GPS serial receiver via the radios platform serial interface. SS1 has a laptop connected to its platform serial interface with a console display. The BS will packetize all data from its RS-232 serial interface and send it over the RF destined for SS1. SS1 will push any data it receives containing destination IP address of its radio and a destination port address matching the Receive port of the serial flow control, to its serial device. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 123 Title: Aeronix Data Links EDL Nano Products User Guide Figure 7-4 Serial B to Serial B Exp 7.3.1.1. Below is the BS radio configuration for example in Figure 7-4 Serial B to Serial B Exp. BS Example Radio setting Figure 7-5 BS serial config exp 7.3.1.2. Below is the SS radio configuration for example in Figure 7-4 Serial B to Serial B Exp. SS Example Radio setting Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 124 Title: Aeronix Data Links EDL Nano Products User Guide Figure 7-6 SS serial config exp 8. Radio Performance 8.1. GMSK NANO RF Interference Performance Insert GMSK Interference info TBD 8.2. NANO GMSK Receiver Sensitivity The sensitivity of the NANO receiver conforms to Section 8.3.11.1 of the IEEE 802.16D5-2004 specification. The GMSK sensitivity evaluations were performed at 2395 MHz. The sensitivity limit is a bit error rate of 1E-06. Table 8-1. GMSK Receiver SNR Assumptions Modulation Coding Rate Receiver Sensitivity

(4dB NF) Sensitivity Bit Error Rate 1PPS 2PPS 4PPS 8PPS 1/2 1/2 3/4 1/2 3/4 1/2 3/4

-94

-93

-92

-92

-90

-89

-88 1.6E-07 0 6.0E-08 0 7.0E-07 0 0 8.3. OFDM NANO RF Interference Performance TBD 8.4. NANO OFDM Receiver Sensitivity The sensitivity of the NANO receiver conforms to Section 8.3.11.1 of the IEEE 802.16D5-2004 specification. The OFDM sensitivity evaluations were performed at 2395 MHz The sensitivity limit is a bit error rate of 1E-06. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 125 Title: Aeronix Data Links EDL Nano Products User Guide Table 8-2 OFDM. 14MHz Receiver SNR Assumptions Receiver SNR Receiver Sensitivity

(4dB NF) Sensitivity Bit Error Rate

-88

-86

-84

-81

-78

-74

-72 1.1E-06 1.0E-06 8.0E-07 9.0E-07 5.0E-07 6.0E-07 7.0E-07 Table 8-3 OFDM. 7MHz Receiver SNR Assumptions Receiver SNR Receiver Sensitivity

(4dB NF) Sensitivity Bit Error Rate Modulation Coding Rate BPSK QPSK 16 QAM 64 QAM 1/2 1/2 3/4 1/2 3/4 2/3 3/4 Modulation Coding Rate BPSK QPSK 16 QAM 64 QAM 1/2 1/2 3/4 1/2 3/4 2/3 3/4 Modulation Coding Rate BPSK QPSK 16 QAM 64 QAM 1/2 1/2 3/4 1/2 3/4 2/3 3/4 8.5. Data Rates

(dB) 6 8 10 14 16 21 22

(dB) 6 8 10 14 16 21 22

(dB) 6 8 10 14 16 20 22 Table 8-4 OFDM. 3.5 MHz Receiver SNR Assumptions Receiver SNR Receiver Sensitivity

(4dB NF) Sensitivity Bit Error Rate

-91

-89

-87

-84

-81

-77

-75 8.0E-07 9.0E-07 1.6E-06 1.3E-06 1.2E-06 8.0E-07 1.1E-06

-93

-91

-89

-86

-84

-80

-77 1.1E-06 7.0E-07 7.0E-07 5.0E-07 1.2E-06 1.1E-06 1.7E-06 8.5.1. OFDM Max Data Rates The NANO PHY modulates and de-modulates the data packets as specified in Table 8-5. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 126 Title: Aeronix Data Links EDL Nano Products User Guide Table 8-5. 3.5 MHz BW Max Data Rates Modulation Cyclic prefix BPSK QPSK QPSK 16-QAM 16-QAM 64-QAM 64-QAM 1/4 1/4 1/4 1/4 1/4 1/4 1/8 Uncoded block size

(bytes/

symbol) 12 24 36 48 72 96 108 Coded block size

(bytes) 24 48 48 96 96 144 144 Overall coding rate 1/2 1/2 3/4 1/2 3/4 2/3 3/4 RS code None

(32,24,4)

(40,36,3)

(64,48,8)

(80,72,4)

(108,96,6)

(120,108,6) Table 8-6. 7 MHz BW Max Data Rates Modulation Cyclic prefix BPSK QPSK QPSK 16-QAM 16-QAM 64-QAM 64-QAM 1/4 1/4 1/4 1/4 1/4 1/4 1/8 Uncoded block size

(bytes/

symbol) 12 24 36 48 72 96 108 Coded block size

(bytes) 24 48 48 96 96 144 144 Overall coding rate 1/2 1/2 3/4 1/2 3/4 2/3 3/4 RS code None

(32,24,4)

(40,36,3)

(64,48,8)

(80,72,4)

(108,96,6)

(120,108,6) Table 8-7. 14 MHz BW Max Data Rates Modulation Cyclic prefix BPSK QPSK QPSK 16-QAM 16-QAM 64-QAM 64-QAM 1/4 1/4 1/4 1/4 1/4 1/4 1/8 Uncoded block size

(bytes/

symbol) 12 24 36 48 72 96 108 Coded block size

(bytes) 24 48 48 96 96 144 144 Overall coding rate 1/2 1/2 3/4 1/2 3/4 2/3 3/4 RS code None

(32,24,4)

(40,36,3)

(64,48,8)

(80,72,4)

(108,96,6)

(120,108,6) CC code rate 1/2 2/3 5/6 2/3 5/6 3/4 5/6 CC code rate 1/2 2/3 5/6 2/3 5/6 3/4 5/6 CC code rate 1/2 2/3 5/6 2/3 5/6 3/4 5/6 Data rate

(Mbs) 1.2 2.4 3.6 4.8 7.2 9.5 11.9 Data rate

(Mbs) 2.4 4.8 7.2 9.6 14.4 19.0 23.9 Data rate

(Mbs) 4.8 9.6 14.4 19.2 28.8 38.0 47.8 SNR Eb/No 6.4 9.4 11.2 16.4 18.2 22.7 24.4 SNR Eb/No 6.4 9.4 11.2 16.4 18.2 22.7 24.4 SNR Eb/No 6.4 9.4 11.2 16.4 18.2 22.7 24.4 8.5.2. GMSK Data Rates The User Data rate below is an estimation of data rate available to the user in point to point mode with minimum distance between the radios. Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 127 Title: Aeronix Data Links EDL Nano Products User Guide Modulation Cyclic prefix 1PPS 2PPS 4PPS 8PPS 1/2 1/2 3/4 1/2 3/4 1/2 3/4 Table 8-8. 14 MHz BW GMSK Max Data Rates Uncoded block size

(bytes/

symbol) 12 24 36 48 72 96 144 Coded block size

(bytes) 24 48 48 96 96 192 192 Overall coding rate RS code CC code rate 1/2 1/2 3/4 1/2 3/4 1/2 3/4 None

(32,24,4)

(40,36,3) Data rate

(Kbs) 796.8 1593.6 2390.4 3187.2 4780.8 6374.4 9561.6 User Data Rate

(Kbs) 62.40 124.80 187.20 249.60 374.40 499.20 748.80 Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 128 Title: Aeronix Data Links EDL Nano Products User Guide 9. Mechanicals Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 129 Title: Aeronix Data Links EDL Nano Products User Guide 9.1. Part Number AE102429 Form #: OP_01_TM Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 130 Title: Aeronix Data Links EDL Nano Products User Guide Appendix A: SNMP MIB AERONIX-80216-MIB DEFINITIONS ::= BEGIN IMPORTS MODULE-IDENTITY, OBJECT-TYPE, NOTIFICATION-TYPE, Unsigned32, Integer32, Counter32, Counter64, transmission FROM SNMPv2-SMI SnmpAdminString FROM SNMP-FRAMEWORK-MIB TEXTUAL-CONVENTION, MacAddress, RowStatus, TruthValue, TimeStamp, DateAndTime, DisplayString FROM SNMPv2-TC InetAddressType, InetAddress, InetAddressIPv4 FROM INET-ADDRESS-MIB OBJECT-GROUP, MODULE-COMPLIANCE, NOTIFICATION-GROUP FROM SNMPv2-CONF ifIndex FROM IF-MIB;

wmanIfMib MODULE-IDENTITY LAST-UPDATED "200508020000Z" -- August 02, 2005 ORGANIZATION "IEEE 802.16"

CONTACT-INFO

"WG E-mail: stds-802-16@ieee.org WG Chair: Roger B. Marks Postal: (U.S.) National Institute of Standards and Technology E-mail: r.b.marks@ieee.org TGf Chair: Phillip Barber Postal: Huawei Technologies Co., Ltd E-mail: pbarber@futurewei.com provi Editor: Joey Chou Postal: Intel Corporation 5000 W. Chandler Blvd, Chandler, AZ 85227, USA E-mail: joey.chou@intel.com"

DESCRIPTION

"This material is from IEEE Std 802.16f Copyright (c) 2005 IEEE. This MIB Module defines managed objects for IEEE 802.16-2004 based Subscriber Station and Base Station."

REVISION

"200508020000Z"

DESCRIPTION

"The first approved version of WMAN-IF-MIB module."

Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 131 Title: Aeronix Data Links EDL Nano Products User Guide

::= { aeronix 1 }

--

private OBJECT IDENTIFIER ::= { iso org(3) dod(6) internet(1) 4 }

enterprises OBJECT IDENTIFIER ::= { private 1 }

bae OBJECT IDENTIFIER ::= { enterprises 17701 }

aeronix OBJECT IDENTIFIER ::= { bae 10 }

--

wmanIfBsObjects OBJECT IDENTIFIER ::= { wmanIfMib 1 }

wmanIfCommonObjects OBJECT IDENTIFIER ::= { wmanIfMib 2 }

-- Textual Conventions WmanIfSfSchedulingType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION

"The scheduling service provided by a SC for an upstream service flow. If the parameter is omitted from an upstream QOS Parameter Set, this object takes the value of bestEffort (2). This parameter must be reported as undefined (1) for downstream QOS Parameter Sets."

SYNTAX INTEGER

{

undefined(1), bestEffort(2), nonRealTimePollingService(3), realTimePollingService(4), reserved(5), unsolicitedGrantService(6)

}

WmanIfSfState ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION

"WmanIfSfState defines the state of a service flow."

SYNTAX INTEGER

{

authorized(1), admitted(2), active(3)

}

WmanIfCidType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION

"Type of CID."

SYNTAX INTEGER (0 .. 65535) WmanIfOfdmFecCodeType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION

"FEC code type and modulation type"

REFERENCE Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 132 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide

"Table 356 and Table 362 in IEEE Std 802.16-2004"

SYNTAX INTEGER

{

fecBPSK-12(0), fecQPSK-12(1), fecQPSK-34(2), fecQAM-1612(3), fecQAM-1634(4), fecQAM-6423(5), fecQAM-6434(6), fec8PSK-12(7), fec16PSK-12(8), fec16PSK-34(9), invalid(255)

}

WmanIfOnOffToggleType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION

"On Off Toggle Type"

SYNTAX INTEGER

{

off (0), on (1)

}

WmanIfDownStreamUpStreamType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION

"Downstream Upstream Type"

SYNTAX INTEGER

{

downstream (1), upstream (2)

}

WmanIfMisoModeType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION

"Miso Type"

SYNTAX INTEGER

{

miso (0), siso (1)

}

WmanIfDiversityType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION

"Diversity Type"

SYNTAX INTEGER

{

Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 133 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide unknown (0), auto (1), a (2), b (3)

}

WmanIfOperatingBwType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION

"Operating BW Type"

SYNTAX INTEGER

{

bw2400MHz (24), bw4600or5800MHz (58)

}

WmanIfBandwidthType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION

""

SYNTAX INTEGER

{

tenMhz (10000000), twentyMHz(17500000)

}

WmanIfChannelType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION

""

SYNTAX INTEGER

{

rfc01 (1), rfc02 (2), rfc03 (3), rfc04 (4), rfc05 (5), rfc06 (6), rfc07 (7), rfc08 (8), rfc09 (9), rfc10 (10), rfc11 (11), rfc21 (21), rfc22 (22), rfc23 (23), rfc24 (24), rfc25 (25), rfc26 (26), rfc27 (27), rfc28 (28), rfc29 (29), rfc30 (30), rfc31 (31), Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 134 Title: Aeronix Data Links EDL Nano Products User Guide rfc32 (32), rfc33 (33), rfc34 (34), rfc35 (35), rfc36 (36), rfc37 (37), rfc38 (38), rfc39 (39), rfc40 (40), rfc41 (41), rfc42 (42), rfc43 (43), rfc44 (44), rfc45 (45), rfc46 (46), rfc47 (47), rfc48 (48), rfc49 (49), rfc50 (50), rfc51 (51), rfc52 (52), rfc53 (53), rfc54 (54), rfc55 (55), rfc56 (56), rfc57 (57), rfc58 (58), rfc59 (59)

}

WmanIfEnableType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION

"Enable Type"

SYNTAX INTEGER

{

disable (0), enable (1)

}

--

-- BS object group containing tables and objects to be implemented in

-- the Base station

--

--

wmanIfBsProvisionedSfTable OBJECT-TYPE SYNTAX SEQUENCE OF WmanIfBsProvisionedSfEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

"This table contains service flow profiles provisioned by NMS. The service flow should be created with SS(s) Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 135 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide following instruction given by wmanIfBsSfState object. 1. The QoS parameters of the service flow are provisioned in wmanIfBsServiceClassTable and referenced by wmanIfBsServiceClassIndex. 2. The classifier rules of the service flow are provisioned in wmanIfBsClassifierRuleTable, where they refer to SF via wmanIfBsSfId. The MAC addresses of SSs the service flow is created with are provisioned in wmanIfBsSsProvisionedForSfTable, where they refer to SF via wmanIfBsSfId."

REFERENCE

"Subclause 6.3.13 and 6.3.14 in IEEE Std 802.16-2004"

::= { wmanIfBsObjects 1 }

wmanIfBsProvisionedSfEntry OBJECT-TYPE SYNTAX WmanIfBsProvisionedSfEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

"This table provides one row for each service flow provisioned by NMS. The table is indexed by ifIndex and wmanIfBsSfId. ifIndex is associated with the BS sector."

INDEX { snmpRowIndex }

::= { wmanIfBsProvisionedSfTable 1 }

WmanIfBsProvisionedSfEntry ::= SEQUENCE

{

snmpRowIndex INTEGER, wmanIfBsSfId Unsigned32, wmanIfBsSsProvmacAddress DisplayString, wmanIfBsSfDirection WmanIfDownStreamUpStreamType, wmanIfBsServiceClassName DisplayString, wmanIfBsSfState WmanIfSfState, wmanIfBsSfUlMulticast WmanIfOnOffToggleType, wmanIfBsProvisionedSfRowStatus RowStatus

}

wmanIfBsSfId OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

"A 32 bit quantity that uniquely identifies a service flow to both the subscriber station and base station (BS)."

::= { wmanIfBsProvisionedSfEntry 1 }

wmanIfBsSsProvmacAddress OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION

"The MAC address of the SS, the service flow is created with."

::= { wmanIfBsProvisionedSfEntry 3 }

Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 136 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide wmanIfBsSfDirection OBJECT-TYPE SYNTAX WmanIfDownStreamUpStreamType MAX-ACCESS read-write STATUS current DESCRIPTION

"An attribute indicating the service flow is downstream or upstream."

::= { wmanIfBsProvisionedSfEntry 4 }

wmanIfBsServiceClassName OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION

"Refers to the Service Class Name"

REFERENCE

"Subclause 11.13.3 in IEEE Std 802.16-2004"

::= { wmanIfBsProvisionedSfEntry 5 }

wmanIfBsSfState OBJECT-TYPE SYNTAX WmanIfSfState MAX-ACCESS read-only STATUS current DESCRIPTION

"wmanIfBsSfState determines the requested state of a service flow.

- authorized state: A service flow is provisioned but not resource is reserved yet

- admitted state: service flow has resources reserved.

- active state: has resources committed by the BS (e.g., is actively sending maps containing unsolicited grants for a UGS-based service flow),"

REFERENCE

"Subclause 6.3.14.6, in IEEE Std 802.16-2004"

::= { wmanIfBsProvisionedSfEntry 6 }

wmanIfBsSfUlMulticast OBJECT-TYPE SYNTAX WmanIfOnOffToggleType MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { wmanIfBsProvisionedSfEntry 7 }

wmanIfBsProvisionedSfRowStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION

"This object is used to create a new row or modify or delete an existing row in this table. If the implementator of this MIB has choosen not Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 137 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide to implement 'dynamic assignment' of profiles, this object is not useful and should return noSuchName upon SNMP request."

::= { wmanIfBsProvisionedSfEntry 8 }

snmpRowIndex OBJECT-TYPE SYNTAX INTEGER (1..1000) MAX-ACCESS not-accessible STATUS current DESCRIPTION

"SNMP Row Index"

::= { wmanIfBsProvisionedSfEntry 999 }

--

--

--

--

wmanIfBsSsNameTable OBJECT-TYPE SYNTAX SEQUENCE OF WmanIfBsSsNameEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

""

REFERENCE

"Subclause 6.3.13 and 6.3.14 in IEEE Std 802.16-2004"

::= { wmanIfBsObjects 4 }

wmanIfBsSsNameEntry OBJECT-TYPE SYNTAX WmanIfBsSsNameEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

""

INDEX { snmpRowIndex }

::= { wmanIfBsSsNameTable 1 }

WmanIfBsSsNameEntry ::= SEQUENCE

{

wmanIfBsSsNameNum Unsigned32, wmanIfBsSsNameSubscriberName DisplayString, wmanIfBsSsNameMACAddress DisplayString

}

wmanIfBsSsNameNum OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { wmanIfBsSsNameEntry 1 }

wmanIfBsSsNameSubscriberName OBJECT-TYPE SYNTAX DisplayString Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 138 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { wmanIfBsSsNameEntry 2 }

wmanIfBsSsNameMACAddress OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { wmanIfBsSsNameEntry 3 }

--

--

--

--

wmanIfBsServiceClassTable OBJECT-TYPE SYNTAX SEQUENCE OF WmanIfBsServiceClassEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

"This table is provisioned and is indexed by wmanIfBsQoSProfileIndex. Each entry of the table contains corresponding service flow characteristic attributes

(e.g. QoS parameter set). The value of wmanIfBsQoSProfileIndex is obtained from wmanIfBsServiceClassIndex in wmanIfBsProvisionedSfTable"

REFERENCE

"Subclause 6.3.14.4 in IEEE Std 802.16-2004"

::= { wmanIfBsObjects 2 }

wmanIfBsServiceClassEntry OBJECT-TYPE SYNTAX WmanIfBsServiceClassEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

"This table provides one row for each service class"

INDEX { snmpRowIndex }

::= { wmanIfBsServiceClassTable 1 }

WmanIfBsServiceClassEntry ::= SEQUENCE

{

wmanIfBsQoSProfileIndex INTEGER, wmanIfBsQosServiceClassName DisplayString, bitArray DisplayString, wmanIfBsQoSTrafficPriority INTEGER, wmanIfBsQoSMaxSustainedRate Unsigned32, wmanIfBsQoSMinReservedRate Unsigned32, wmanIfBsQosScSchedulingType WmanIfSfSchedulingType, wmanIfBsQoSServiceClassRowStatus RowStatus

}

Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 139 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide wmanIfBsQoSProfileIndex OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

"The index value which uniquely identifies an entry in the wmanIfBsServiceClassTable"

::= { wmanIfBsServiceClassEntry 1 }

wmanIfBsQosServiceClassName OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION

"Refers to the Service Class Name"

REFERENCE

"Subclause 11.13.3 in IEEE Std 802.16-2004"

::= { wmanIfBsServiceClassEntry 2 }

bitArray OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION

"Refers to the Service Class Name"

REFERENCE

"Subclause 11.13.3 in IEEE Std 802.16-2004"

::= { wmanIfBsServiceClassEntry 3 }

wmanIfBsQoSTrafficPriority OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-write STATUS current DESCRIPTION

"The value of this parameter specifies the priority assigned to a service flow. For uplink service flows, the BS should use this parameter when determining precedence in request service and grant generation, and the SS shall preferentially select contention Request opportunities for Priority Request CIDs based on this priority. Higher numbers indicate higher priority"

REFERENCE

"Subclause 11.13.5 in IEEE Std 802.16-2004"

::= { wmanIfBsServiceClassEntry 4 }

wmanIfBsQoSMaxSustainedRate OBJECT-TYPE SYNTAX Unsigned32 UNITS "b/s"

MAX-ACCESS read-write STATUS current DESCRIPTION

"This parameter defines the peak information rate Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 140 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide of the service. The rate is expressed in bits per second and pertains to the SDUs at the input to the system."

REFERENCE

"Subclause 11.13.6 in IEEE Std 802.16-2004"

::= { wmanIfBsServiceClassEntry 5 }

wmanIfBsQoSMinReservedRate OBJECT-TYPE SYNTAX Unsigned32 UNITS "b/s"

MAX-ACCESS read-write STATUS current DESCRIPTION

"This parameter specifies the minimum rate reserved for this service flow."

REFERENCE

"Subclause 11.13.8 in IEEE Std 802.16-2004"

::= { wmanIfBsServiceClassEntry 6 }

wmanIfBsQosScSchedulingType OBJECT-TYPE SYNTAX WmanIfSfSchedulingType MAX-ACCESS read-write STATUS current DESCRIPTION

"Specifies the upstream scheduling service used for upstream service flow. If the referenced parameter is not present in the corresponding 802.16 QOS Parameter Set of an upstream service flow, the default value of this object is bestEffort(2)."

REFERENCE

"Subclause 11.13.11 in IEEE Std 802.16-2004"

DEFVAL { bestEffort }

::= { wmanIfBsServiceClassEntry 7 }

wmanIfBsQoSServiceClassRowStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION

"This object is used to create a new row or modify or delete an existing row in this table. If the implementator of this MIB has choosen not to implement 'dynamic assignment' of profiles, this object is not useful and should return noSuchName upon SNMP request."

::= { wmanIfBsServiceClassEntry 8 }

--

--

--

--

Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 141 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide wmanIfBsRegisteredSsTable OBJECT-TYPE SYNTAX SEQUENCE OF WmanIfBsRegisteredSsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

"This table contains the basic capability information of SSs that have been negotiated and agreed between BS and SS via REG-REQ and REG-RSP messages. An entry in this table indicates the SS has entered and registered into the BS."

REFERENCE

"Subclause 6.3.2.3.7 in IEEE Std 802.16-2004"

::= { wmanIfBsObjects 3 }

wmanIfBsRegisteredSsEntry OBJECT-TYPE SYNTAX WmanIfBsRegisteredSsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

"This table provides one row for each SS that has been registered in the BS, and is indexed by wmanIfBsSsMacAddress. The primary index is the ifIndex with an ifType of propBWAp2Mp, indicating the BS sector with which the SS is associated. wmanIfBsSsMacAddress identifies the SS being registered."

INDEX { snmpRowIndex }

::= { wmanIfBsRegisteredSsTable 1 }

WmanIfBsRegisteredSsEntry ::= SEQUENCE

{

wmanIfBsSsIdIndex Unsigned32, wmanIfBsSsMacAddress DisplayString, wmanIfBsSsBasicCid WmanIfCidType, wmanIfBsSsPrimaryCid WmanIfCidType, wmanIfBsSsMacCrcSupport WmanIfOnOffToggleType, snmpRowIndex Unsigned32

}

wmanIfBsSsIdIndex OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION

""

REFERENCE

"Subclause 6.3.2.3.6 in IEEE Std 802.16-2004"

::= { wmanIfBsRegisteredSsEntry 1 }

wmanIfBsSsMacAddress OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION

"The MAC address of SS is received from the RNG-REQ Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 142 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide message. When SS registers, this MAC address is entered into the table, and used as the identifier to the SS."

REFERENCE

"Subclause 6.3.2.3.5 in IEEE Std 802.16-2004"

::= { wmanIfBsRegisteredSsEntry 2 }

wmanIfBsSsBasicCid OBJECT-TYPE SYNTAX WmanIfCidType MAX-ACCESS read-only STATUS current DESCRIPTION

"The value of this object indicates the SS's basic CID that was sent in the RNG-RSP message."

REFERENCE

"Subclause 6.3.2.3.6 in IEEE Std 802.16-2004"

::= { wmanIfBsRegisteredSsEntry 3 }

wmanIfBsSsPrimaryCid OBJECT-TYPE SYNTAX WmanIfCidType MAX-ACCESS read-only STATUS current DESCRIPTION

""

REFERENCE

"Subclause 6.3.2.3.6 in IEEE Std 802.16-2004"

::= { wmanIfBsRegisteredSsEntry 4 }

wmanIfBsSsMacCrcSupport OBJECT-TYPE SYNTAX WmanIfOnOffToggleType MAX-ACCESS read-only STATUS current DESCRIPTION

""

REFERENCE

"Subclause 11.13.18.3 in IEEE Std 802.16-2004"

::= { wmanIfBsRegisteredSsEntry 5 }

snmpRowIndex OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION

""

REFERENCE

""

::= { wmanIfBsRegisteredSsEntry 6 }

--

-- Common object group containing tables and objects to be implemented in

-- both the Base station and the Subscriber station

--

--

aeronixSystemStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF AeronixSystemStatusEntry Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 143 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide MAX-ACCESS not-accessible STATUS current DESCRIPTION

"This table contains system status values "

::= { wmanIfCommonObjects 1 }

aeronixSystemStatusEntry OBJECT-TYPE SYNTAX AeronixSystemStatusEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

"This Table is a unique aeronix strucutre, Used to view the status of the radio. It was ported from the wmanIfMib.h header file"

INDEX { snmpRowIndex }

::= { aeronixSystemStatusTable 1 }

AeronixSystemStatusEntry ::= SEQUENCE

{

statusBaseLight Unsigned32, statusSyncState Unsigned32, statusSyncLight INTEGER, statusTx Unsigned32, statusRx Unsigned32, isBsorSs INTEGER

}

statusBaseLight OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixSystemStatusEntry 1 }

statusSyncState OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixSystemStatusEntry 2 }

statusSyncLight OBJECT-TYPE SYNTAX INTEGER

{

nosync(0), sync(1)

}

MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixSystemStatusEntry 3 }

Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 144 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide statusTx OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixSystemStatusEntry 4 }

statusRx OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixSystemStatusEntry 5 }

isBsorSs OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixSystemStatusEntry 6 }

--

--

--

--

aeronixSystemControlTable OBJECT-TYPE SYNTAX SEQUENCE OF AeronixSystemControlEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

"This table contains packet classifier rules associated with service flows."

::= { wmanIfCommonObjects 2 }

aeronixSystemControlEntry OBJECT-TYPE SYNTAX AeronixSystemControlEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

"This Table is a unique aeronix strucutre, Used to conotrol the radio. It was ported from the wmanIfMib.h header file"

INDEX { snmpRowIndex }

::= { aeronixSystemControlTable 1 }

AeronixSystemControlEntry ::= SEQUENCE

{

txrxEnable WmanIfEnableType, transecEnable WmanIfEnableType, freqBandwidth Unsigned32, freqChannel INTEGER, downlinkPercentage INTEGER, Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 145 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide uplinkPercentage INTEGER, frameTimeMSec INTEGER, ssScanChannel WmanIfEnableType, acmUpHysteresis INTEGER, acmDownJump INTEGER, effectiveKey DisplayString, misoMode WmanIfMisoModeType, rxDataSwap WmanIfEnableType, radioTypeConfig INTEGER, enaSerialTransfer WmanIfEnableType, serialTxPort Unsigned32, serialRxPort Unsigned32, serialTxIP DisplayString, usingClassifiers WmanIfEnableType, usingARPTable WmanIfEnableType, customFreq INTEGER

}

txrxEnable OBJECT-TYPE SYNTAX WmanIfEnableType MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSystemControlEntry 1 }

transecEnable OBJECT-TYPE SYNTAX WmanIfEnableType MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSystemControlEntry 2 }

freqBandwidth OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSystemControlEntry 3 }

freqChannel OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSystemControlEntry 4 }

downlinkPercentage OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-write STATUS current Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 146 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide DESCRIPTION

""

::= { aeronixSystemControlEntry 5 }

uplinkPercentage OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSystemControlEntry 6 }

frameTimeMSec OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixSystemControlEntry 7 }

ssScanChannel OBJECT-TYPE SYNTAX WmanIfEnableType MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSystemControlEntry 8 }

acmUpHysteresis OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSystemControlEntry 9 }

acmDownJump OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSystemControlEntry 10 }

effectiveKey OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSystemControlEntry 11 }

misoMode OBJECT-TYPE SYNTAX WmanIfMisoModeType Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 147 Title: Aeronix Data Links EDL Nano Products User Guide MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSystemControlEntry 12 }

rxDataSwap OBJECT-TYPE SYNTAX WmanIfEnableType MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSystemControlEntry 13 }

radioTypeConfig OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSystemControlEntry 14 }

enaSerialTransfer OBJECT-TYPE SYNTAX WmanIfEnableType MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSystemControlEntry 15 }

serialTxPort OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSystemControlEntry 16 }

serialRxPort OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSystemControlEntry 17 }

serialTxIP OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSystemControlEntry 18 }

Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 148 Title: Aeronix Data Links EDL Nano Products User Guide usingClassifiers OBJECT-TYPE SYNTAX WmanIfEnableType MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSystemControlEntry 19 }

usingARPTable OBJECT-TYPE SYNTAX WmanIfEnableType MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSystemControlEntry 20 }

customFreq OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSystemControlEntry 21 }

--

--

--

--

aeronixSnmpControlTable OBJECT-TYPE SYNTAX SEQUENCE OF AeronixSnmpControlEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

"This table contains packet classifier rules associated with service flows."

::= { wmanIfCommonObjects 4 }

aeronixSnmpControlEntry OBJECT-TYPE SYNTAX AeronixSnmpControlEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

"This table controls the snmp server and aeronix interface"

INDEX { snmpRowIndex }

::= { aeronixSnmpControlTable 1 }

AeronixSnmpControlEntry ::= SEQUENCE

{

repopulate Unsigned32, savedatabase Unsigned32, usedefaultdb Unsigned32, rebootSys Unsigned32, debugmode Unsigned32, classifierMacAddrMode Unsigned32, Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 149 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide basestation Unsigned32, dbStationId Unsigned32, ssId Unsigned32, webgui Unsigned32, udhcpc Unsigned32, bridging Unsigned32, sysIP4Address DisplayString, sysIP4Netmask DisplayString, sysIP4Gateway DisplayString, sysIP4VLan Unsigned32, sysIP6Address DisplayString, sysIP6Netmask DisplayString, sysIP6Gateway DisplayString, sysIP6DestNetwork DisplayString, sysIP6DestNetmask DisplayString, makeStartScript Unsigned32

}

repopulate OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSnmpControlEntry 1 }

savedatabase OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSnmpControlEntry 2 }

usedefaultdb OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSnmpControlEntry 3 }

rebootSys OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSnmpControlEntry 4 }

debugmode OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 150 Title: Aeronix Data Links EDL Nano Products User Guide DESCRIPTION

""

::= { aeronixSnmpControlEntry 5 }

classifierMacAddrMode OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSnmpControlEntry 6 }

basestation OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSnmpControlEntry 7 }

dbStationId OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

"Refers to BS Id that can only be set while running as a BS. Reboot needed after setting this value to cause it to take effect."

::= { aeronixSnmpControlEntry 8 }

ssId OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSnmpControlEntry 9 }

webgui OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSnmpControlEntry 10 }

udhcpc OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSnmpControlEntry 11 }

bridging OBJECT-TYPE Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 151 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSnmpControlEntry 12 }

sysIP4Address OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION

"Refers to the Radios Eth IPv4 Address"

::= { aeronixSnmpControlEntry 13 }

sysIP4Netmask OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION

"Refers to the Radios Eth IPv4 netmask"

::= { aeronixSnmpControlEntry 14 }

sysIP4Gateway OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION

"Refers to the Radios Eth IPv4 gateway"

::= { aeronixSnmpControlEntry 15 }

sysIP4VLan OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

"Refers to the Radios Eth IPv4 gateway"

::= { aeronixSnmpControlEntry 16 }

sysIP6Address OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION

"Refers to the Radios Eth IPv6 Address"

::= { aeronixSnmpControlEntry 17 }

sysIP6Netmask OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION

"Refers to the Radios Eth IPv6 netmask"

::= { aeronixSnmpControlEntry 18 }

Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 152 Title: Aeronix Data Links EDL Nano Products User Guide sysIP6Gateway OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION

"Refers to the Radios Eth IPv6 gateway"

::= { aeronixSnmpControlEntry 19 }

sysIP6DestNetwork OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION

"Refers to the Radios Eth IPv6 Dest Network"

::= { aeronixSnmpControlEntry 20 }

sysIP6DestNetmask OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION

"Refers to the Radios Eth IPv6 Dest Netmask"

::= { aeronixSnmpControlEntry 21 }

makeStartScript OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixSnmpControlEntry 22 }

--

--

--

aeronixRangingParamsTable OBJECT-TYPE SYNTAX SEQUENCE OF AeronixRangingParamsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

"This table contains ranging parameters."

::= { wmanIfCommonObjects 5 }

aeronixRangingParamsEntry OBJECT-TYPE SYNTAX AeronixRangingParamsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

"This Table is a unique aeronix structure, used to store ranging parameters. It was ported from the wmanIfMib.h header file"

INDEX { snmpRowIndex }

::= { aeronixRangingParamsTable 1 }

Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 153 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide AeronixRangingParamsEntry ::= SEQUENCE

{

lnaRxGain Unsigned32, paTxGain Unsigned32, antennaGain Unsigned32, internalRxCableLoss Unsigned32, internalTxCableLoss Unsigned32, externalRxCableLoss Unsigned32, externalTxCableLoss Unsigned32, antennaLoss Unsigned32, txPwrControl INTEGER, powerOutputMode INTEGER, externalRxCableList1Length Unsigned32, externalRxCableList1Value Unsigned32, externalRxCableList1Comment DisplayString, externalRxCableList2Length Unsigned32, externalRxCableList2Value Unsigned32, externalRxCableList2Comment DisplayString, externalRxCableList3Length Unsigned32, externalRxCableList3Value Unsigned32, externalRxCableList3Comment DisplayString, externalRxCableListIndex Unsigned32, externalTxCableList1Length Unsigned32, externalTxCableList1Value Unsigned32, externalTxCableList1Comment DisplayString, externalTxCableList2Length Unsigned32, externalTxCableList2Value Unsigned32, externalTxCableList2Comment DisplayString, externalTxCableList3Length Unsigned32, externalTxCableList3Value Unsigned32, externalTxCableList3Comment DisplayString, externalTxCableListIndex Unsigned32, antennaCableList1Length Unsigned32, antennaCableList1Value Unsigned32, antennaCableList1Comment DisplayString, antennaCableList2Length Unsigned32, antennaCableList2Value Unsigned32, antennaCableList2Comment DisplayString, antennaCableList3Length Unsigned32, antennaCableList3Value Unsigned32, antennaCableList3Comment DisplayString, antennaCableListIndex Unsigned32

}

lnaRxGain OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 1 }

paTxGain OBJECT-TYPE Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 154 Title: Aeronix Data Links EDL Nano Products User Guide SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 2 }

antennaGain OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 3 }

internalRxCableLoss OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 4 }

internalTxCableLoss OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 5 }

externalRxCableLoss OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 6 }

externalTxCableLoss OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 7 }

antennaLoss OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 8 }

Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 155 Title: Aeronix Data Links EDL Nano Products User Guide txPwrControl OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 9 }

powerOutputMode OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 10 }

externalRxCableList1Length OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 11 }

externalRxCableList1Value OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 12 }

externalRxCableList1Comment OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 13 }

externalRxCableList2Length OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 14 }

externalRxCableList2Value OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 156 Title: Aeronix Data Links EDL Nano Products User Guide

""

::= { aeronixRangingParamsEntry 15 }

externalRxCableList2Comment OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 16 }

externalRxCableList3Length OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 17 }

externalRxCableList3Value OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 18 }

externalRxCableList3Comment OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 19 }

externalRxCableListIndex OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 20 }

externalTxCableList1Length OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 21 }

externalTxCableList1Value OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 157 Title: Aeronix Data Links EDL Nano Products User Guide STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 22 }

externalTxCableList1Comment OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 23 }

externalTxCableList2Length OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 24 }

externalTxCableList2Value OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 25 }

externalTxCableList2Comment OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 26 }

externalTxCableList3Length OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 27 }

externalTxCableList3Value OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 28 }

externalTxCableList3Comment OBJECT-TYPE Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 158 Title: Aeronix Data Links EDL Nano Products User Guide SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 29 }

externalTxCableListIndex OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 30 }

antennaCableList1Length OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 31 }

antennaCableList1Value OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 32 }

antennaCableList1Comment OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 33 }

antennaCableList2Length OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 34 }

antennaCableList2Value OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 35 }

Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 159 Title: Aeronix Data Links EDL Nano Products User Guide antennaCableList2Comment OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 36 }

antennaCableList3Length OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 37 }

antennaCableList3Value OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 38 }

antennaCableList3Comment OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 39 }

antennaCableListIndex OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixRangingParamsEntry 40 }

--

--

--

--

aeronixMaintStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF AeronixMaintStatusEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

"This table contains maintanence parameters."

::= { wmanIfCommonObjects 6 }

Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 160 Title: Aeronix Data Links EDL Nano Products User Guide aeronixMaintStatusEntry OBJECT-TYPE SYNTAX AeronixMaintStatusEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

"This Table is a unique aeronix structure, used to store maintenance parameters. It was ported from the wmanIfMib.h header file"

INDEX { snmpRowIndex }

::= { aeronixMaintStatusTable 1 }

AeronixMaintStatusEntry ::= SEQUENCE

{

curChannel INTEGER, curChannelCenterFreq INTEGER, failedResetPhyClock Unsigned32, macAddress DisplayString, phyTemp INTEGER, cpuTemp INTEGER

}

curChannel OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixMaintStatusEntry 1 }

curChannelCenterFreq OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixMaintStatusEntry 2 }

failedResetPhyClock OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixMaintStatusEntry 3 }

macAddress OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixMaintStatusEntry 4 }

phyTemp OBJECT-TYPE SYNTAX INTEGER Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 161 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixMaintStatusEntry 5 }

cpuTemp OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixMaintStatusEntry 6 }

--

--

--

--

wmanIfBsOfdmDcdBurstProfileTable OBJECT-TYPE SYNTAX SEQUENCE OF WmanIfBsOfdmDcdBurstProfileEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

"This table provides one row for each DCD burst profile. This table is double indexed. The primary index is an ifIndex with an ifType of propBWAp2Mp. The secondary index is wmanIfCmnOfdmDcdBurstProfIndex."

REFERENCE

"Table 362, in IEEE Std 802.16-2004"

::= { wmanIfCommonObjects 8 }

wmanIfBsOfdmDcdBurstProfileEntry OBJECT-TYPE SYNTAX WmanIfBsOfdmDcdBurstProfileEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

"This table provides one row for each DCD burst profile. This table is double indexed. The secondary index is wmanIfCmnOfdmDcdFecCodeType."

INDEX { snmpRowIndex }

::= { wmanIfBsOfdmDcdBurstProfileTable 1 }

WmanIfBsOfdmDcdBurstProfileEntry ::= SEQUENCE

{

wmanIfCmnOfdmDcdBurstProfIndex INTEGER, wmanIfCmnOfdmDiucValue INTEGER, wmanIfCmnOfdmDcdFecCodeType WmanIfOfdmFecCodeType, wmanIfCmnOfdmDiucCinrMandatoryExitThresh INTEGER, wmanIfCmnOfdmDiucCinrMinEntryThresh INTEGER, wmanIfCmnOfdmDiucFecMandatoryExitThresh INTEGER, wmanIfCmnOfdmDiucFecMinEntryThresh INTEGER, wmanIfCmnOfdmAvailableType INTEGER, wmanIfCmnOfdmDcdBurstProfilerowStatus RowStatus Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 162 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide

}

wmanIfCmnOfdmDcdBurstProfIndex OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

"The Downlink Interval Usage Code indicates the downlink burst profile in the DCD message, and is used along with ifIndex to identify an entry in the wmanIfCmnOfdmDcdBurstProfileTable."

REFERENCE

"Subclause 8.3.6.3.1, in IEEE Std 802.16-2004"

::= { wmanIfBsOfdmDcdBurstProfileEntry 1 }

wmanIfCmnOfdmDiucValue OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { wmanIfBsOfdmDcdBurstProfileEntry 2 }

wmanIfCmnOfdmDcdFecCodeType OBJECT-TYPE SYNTAX WmanIfOfdmFecCodeType MAX-ACCESS read-write STATUS current DESCRIPTION

"Downlink FEC code type and modulation type"

REFERENCE

"Table 362, in IEEE Std 802.16-2004"

::= { wmanIfBsOfdmDcdBurstProfileEntry 3 }

wmanIfCmnOfdmDiucCinrMandatoryExitThresh OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-write STATUS current DESCRIPTION

"DIUC mandatory exit threshold: 0 - 63.75 dB CINR at or below where this DIUC can no longer be used and where this change to a more robust DIUC is required in 0.25 dB units."

REFERENCE

"Table 362, in IEEE Std 802.16-2004"

::= { wmanIfBsOfdmDcdBurstProfileEntry 4 }

wmanIfCmnOfdmDiucCinrMinEntryThresh OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-write STATUS current DESCRIPTION

"DIUC minimum entry threshold: 0 - 63.75 dB The minimum CINR required to start using this DIUC when changing from a more robust DIUC is required, in 0.25 dB units."

REFERENCE Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 163 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide

"Table 362, in IEEE Std 802.16-2004"

::= { wmanIfBsOfdmDcdBurstProfileEntry 5 }

wmanIfCmnOfdmDiucFecMandatoryExitThresh OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-write STATUS current DESCRIPTION

"DIUC mandatory exit threshold: 0 - 63.75 dB CINR at or below where this DIUC can no longer be used and where this change to a more robust DIUC is required in 0.25 dB units."

REFERENCE

"Table 362, in IEEE Std 802.16-2004"

::= { wmanIfBsOfdmDcdBurstProfileEntry 6 }

wmanIfCmnOfdmDiucFecMinEntryThresh OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-write STATUS current DESCRIPTION

"DIUC minimum entry threshold: 0 - 63.75 dB The minimum CINR required to start using this DIUC when changing from a more robust DIUC is required, in 0.25 dB units."

REFERENCE

"Table 362, in IEEE Std 802.16-2004"

::= { wmanIfBsOfdmDcdBurstProfileEntry 7 }

wmanIfCmnOfdmAvailableType OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { wmanIfBsOfdmDcdBurstProfileEntry 8 }

wmanIfCmnOfdmDcdBurstProfilerowStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION

"This object is used to create a new row or modify or delete an existing row in this table. If the implementator of this MIB has choosen not to implement 'dynamic assignment' of profiles, this object is not useful and should return noSuchName upon SNMP request."

::= { wmanIfBsOfdmDcdBurstProfileEntry 9 }

--

--

--

--

Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 164 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide wmanIfBsOfdmUcdBurstProfileTable OBJECT-TYPE SYNTAX SEQUENCE OF WmanIfBsOfdmUcdBurstProfileEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

"This table contains UCD burst profiles for each uplink channel"

REFERENCE

"Table 356, in IEEE Std 802.16-2004"

::= { wmanIfCommonObjects 9 }

wmanIfBsOfdmUcdBurstProfileEntry OBJECT-TYPE SYNTAX WmanIfBsOfdmUcdBurstProfileEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

"This table provides one row for each UCD burst profile. This table is double indexed. The primary index is an ifIndex with an ifType of propBWAp2Mp. The secondary index is wmanIfCmnOfdmUcdBurstProfIndex."

INDEX { snmpRowIndex }

::= { wmanIfBsOfdmUcdBurstProfileTable 1 }

WmanIfBsOfdmUcdBurstProfileEntry ::= SEQUENCE

{

wmanIfCmnOfdmUcdBurstProfIndex INTEGER, wmanIfCmnOfdmUiucValue INTEGER, wmanIfCmnOfdmUcdFecCodeType WmanIfOfdmFecCodeType

}

wmanIfCmnOfdmUcdBurstProfIndex OBJECT-TYPE SYNTAX INTEGER (1..11) MAX-ACCESS read-only STATUS current DESCRIPTION

"The Uplink Interval Usage Code indicates the uplink burst profile in the UCD message, and is used along with ifIndex to identify an entry in the wmanIfBsOfdmUcdBurstProfileTable."

REFERENCE

"Subclause 8.3.6.3.1, in IEEE Std 802.16-2004"

::= { wmanIfBsOfdmUcdBurstProfileEntry 1 }

wmanIfCmnOfdmUiucValue OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { wmanIfBsOfdmUcdBurstProfileEntry 2 }

wmanIfCmnOfdmUcdFecCodeType OBJECT-TYPE SYNTAX WmanIfOfdmFecCodeType MAX-ACCESS read-only Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 165 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide STATUS current DESCRIPTION

"Uplink FEC code type and modulation type"

REFERENCE

"Table 356, in IEEE Std 802.16-2004"

::= { wmanIfBsOfdmUcdBurstProfileEntry 3 }

--

--

--

--

aeronixNetworkStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF AeronixNetworkStatusEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

""

::= { wmanIfCommonObjects 11 }

aeronixNetworkStatusEntry OBJECT-TYPE SYNTAX AeronixNetworkStatusEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

""

INDEX { snmpRowIndex }

::= { aeronixNetworkStatusTable 1 }

AeronixNetworkStatusEntry ::= SEQUENCE

{

rxpackets Unsigned32, rxerrors Unsigned32, rxdropped Unsigned32, rxoverruns Unsigned32, rxframes Unsigned32, txpackets Unsigned32, txerrors Unsigned32, txdropped INTEGER, txoverruns INTEGER, txcarrier INTEGER, ipaddress DisplayString

}

rxpackets OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixNetworkStatusEntry 1 }

rxerrors OBJECT-TYPE SYNTAX Unsigned32 Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 166 Title: Aeronix Data Links EDL Nano Products User Guide MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixNetworkStatusEntry 2 }

rxdropped OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixNetworkStatusEntry 3 }

rxoverruns OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixNetworkStatusEntry 4 }

rxframes OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixNetworkStatusEntry 5 }

txpackets OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixNetworkStatusEntry 6 }

txerrors OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixNetworkStatusEntry 7 }

txdropped OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixNetworkStatusEntry 8 }

Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 167 Title: Aeronix Data Links EDL Nano Products User Guide txoverruns OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixNetworkStatusEntry 9 }

txcarrier OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixNetworkStatusEntry 10 }

ipaddress OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixNetworkStatusEntry 11 }

--

--

--

--

aeronixTxRxMaintTable OBJECT-TYPE SYNTAX SEQUENCE OF AeronixTxRxMaintEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

""

::= { wmanIfCommonObjects 12 }

aeronixTxRxMaintEntry OBJECT-TYPE SYNTAX AeronixTxRxMaintEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

""

INDEX { snmpRowIndex }

::= { aeronixTxRxMaintTable 1 }

AeronixTxRxMaintEntry ::= SEQUENCE

{

rxFrames Unsigned32, invalidFrames Unsigned32, rxCRCs Unsigned32, resetRxCnt Unsigned32, rxTimeouts Unsigned32, txFrames Unsigned32, Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 168 Title: Aeronix Data Links EDL Nano Products User Guide txDrops Unsigned32

}

rxFrames OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixTxRxMaintEntry 1 }

invalidFrames OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixTxRxMaintEntry 2 }

rxCRCs OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixTxRxMaintEntry 3 }

resetRxCnt OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixTxRxMaintEntry 4 }

rxTimeouts OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixTxRxMaintEntry 5 }

txFrames OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixTxRxMaintEntry 6 }

txDrops OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 169 Title: Aeronix Data Links EDL Nano Products User Guide STATUS current DESCRIPTION

""

::= { aeronixTxRxMaintEntry 7 }

--

--

--

--

aeronixVersionsTable OBJECT-TYPE SYNTAX SEQUENCE OF AeronixVersionsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

""

::= { wmanIfCommonObjects 13 }

aeronixVersionsEntry OBJECT-TYPE SYNTAX AeronixVersionsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

""

INDEX { snmpRowIndex }

::= { aeronixVersionsTable 1 }

AeronixVersionsEntry ::= SEQUENCE

{

serverIp DisplayString, internalIp DisplayString, macAddr DisplayString, macCVSTag DisplayString, macCreatedOn DisplayString, aecdDriverCreatedOn DisplayString, modemId DisplayString, modemVersion DisplayString, modemSVersion DisplayString, filterFpgaVersion DisplayString, agcVersion DisplayString, phySerialNum DisplayString, filterFpgaVersionRF1 DisplayString, agcVersionRF1 DisplayString, phySerialNumRF1 DisplayString

}

serverIp OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixVersionsEntry 1 }

Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 170 Title: Aeronix Data Links EDL Nano Products User Guide internalIp OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixVersionsEntry 2 }

macAddr OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixVersionsEntry 3 }

macCVSTag OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixVersionsEntry 4 }

macCreatedOn OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixVersionsEntry 5 }

aecdDriverCreatedOn OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixVersionsEntry 6 }

modemId OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixVersionsEntry 7 }

modemVersion OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION

""

Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 171 Title: Aeronix Data Links EDL Nano Products User Guide

::= { aeronixVersionsEntry 8 }

modemSVersion OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixVersionsEntry 9 }

filterFpgaVersion OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixVersionsEntry 10 }

agcVersion OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixVersionsEntry 11 }

phySerialNum OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixVersionsEntry 12 }

filterFpgaVersionRF1 OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixVersionsEntry 13 }

agcVersionRF1 OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixVersionsEntry 14 }

phySerialNumRF1 OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 172 Title: Aeronix Data Links EDL Nano Products User Guide DESCRIPTION

""

::= { aeronixVersionsEntry 15 }

--

--

--

--

aeronixStationTestsTable OBJECT-TYPE SYNTAX SEQUENCE OF AeronixStationTestsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

""

::= { wmanIfCommonObjects 17 }

aeronixStationTestsEntry OBJECT-TYPE SYNTAX AeronixStationTestsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

""

INDEX { snmpRowIndex }

::= { aeronixStationTestsTable 1 }

AeronixStationTestsEntry ::= SEQUENCE

{

transmitOutputPower Unsigned32, startTransmit Unsigned32, startReceive Unsigned32, rSSI DisplayString, modType Unsigned32, bitPattern Unsigned32, symbols Unsigned32, runMaster Unsigned32, runSlave Unsigned32, shutdownAllTests Unsigned32, resetBerResults Unsigned32, testLengthInSec DisplayString, totalBits Unsigned32, correctBits Unsigned32, errorBits Unsigned32, bitErrorRate DisplayString, mbitsPerSec DisplayString

}

transmitOutputPower OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixStationTestsEntry 1 }

Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 173 Title: Aeronix Data Links EDL Nano Products User Guide startTransmit OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixStationTestsEntry 2 }

startReceive OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixStationTestsEntry 3 }

rSSI OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixStationTestsEntry 4 }

modType OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixStationTestsEntry 5 }

bitPattern OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixStationTestsEntry 6 }

symbols OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixStationTestsEntry 7 }

runMaster OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 174 Title: Aeronix Data Links EDL Nano Products User Guide

""

::= { aeronixStationTestsEntry 8 }

runSlave OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixStationTestsEntry 9 }

shutdownAllTests OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixStationTestsEntry 10 }

resetBerResults OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION

""

::= { aeronixStationTestsEntry 11 }

testLengthInSec OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixStationTestsEntry 12 }

totalBits OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixStationTestsEntry 13 }

correctBits OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixStationTestsEntry 14 }

errorBits OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 175 Title: Aeronix Data Links EDL Nano Products User Guide STATUS current DESCRIPTION

""

::= { aeronixStationTestsEntry 15 }

bitErrorRate OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixStationTestsEntry 16 }

mbitsPerSec OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixStationTestsEntry 17 }

--

--

--

--

aeronixBandwidthTable OBJECT-TYPE SYNTAX SEQUENCE OF AeronixBandwidthEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

"This table contains bandwidth data."

::= { wmanIfCommonObjects 19 }

aeronixBandwidthEntry OBJECT-TYPE SYNTAX AeronixBandwidthEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

""

INDEX { snmpRowIndex }

::= { aeronixBandwidthTable 1 }

AeronixBandwidthEntry ::= SEQUENCE

{

bandwidthIndex INTEGER, transportCid INTEGER, txUserBandwidthKbps Unsigned32, txAllocBandwidthKbps Unsigned32, serviceClass DisplayString, txUserBandwidthMbps DisplayString, txAllocBandwidthMbps DisplayString, serviceFlowId INTEGER, numSFPacketsDropped Unsigned32, Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 176 Title: Aeronix Data Links EDL Nano Products User Guide bwPrimaryCid INTEGER

}

bandwidthIndex OBJECT-TYPE SYNTAX INTEGER (1..1000) MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixBandwidthEntry 1 }

transportCid OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixBandwidthEntry 2 }

txUserBandwidthKbps OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixBandwidthEntry 3 }

txAllocBandwidthKbps OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixBandwidthEntry 4 }

serviceClass OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixBandwidthEntry 5 }

txUserBandwidthMbps OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixBandwidthEntry 6 }

txAllocBandwidthMbps OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 177 Title: Aeronix Data Links EDL Nano Products User Guide STATUS current DESCRIPTION

""

::= { aeronixBandwidthEntry 7 }

serviceFlowId OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixBandwidthEntry 8 }

numSFPacketsDropped OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixBandwidthEntry 9 }

bwPrimaryCid OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixBandwidthEntry 10 }

--

--

--

--

aeronixRFStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF AeronixRFStatusEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

"This table contains RF status reports"

::= { wmanIfCommonObjects 20 }

aeronixRFStatusEntry OBJECT-TYPE SYNTAX AeronixRFStatusEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION

"This Table is a unique aeronix structure, Used to view the RF Status"

INDEX { snmpRowIndex }

::= { aeronixRFStatusTable 1 }

AeronixRFStatusEntry ::= SEQUENCE

{

primaryCid INTEGER, Document Number: AE301628-001 Revision: B Date: 3 October 2019 Aeronix Proprietary 178 Form #: OP_01_TM Title: Aeronix Data Links EDL Nano Products User Guide cinr INTEGER, cinrMu INTEGER, rssi INTEGER, rssiMu INTEGER, rssiCurLeveled INTEGER, rssiAvgLeveled INTEGER, fecCorrected INTEGER, fecCorrectedMu INTEGER, freqOffsetMu INTEGER, startTime INTEGER, currentModType INTEGER, rssiRF1 INTEGER, rssiMuRF1 INTEGER, cpOffset INTEGER, cpOffsetRF1 INTEGER

}

primaryCid OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixRFStatusEntry 1 }

cinr OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixRFStatusEntry 2 }

cinrMu OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixRFStatusEntry 3 }

rssi OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixRFStatusEntry 4 }

rssiMu OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 179 Title: Aeronix Data Links EDL Nano Products User Guide

""

::= { aeronixRFStatusEntry 5 }

rssiCurLeveled OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixRFStatusEntry 6 }

rssiAvgLeveled OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixRFStatusEntry 7 }

fecCorrected OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixRFStatusEntry 8 }

fecCorrectedMu OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixRFStatusEntry 9 }

freqOffsetMu OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixRFStatusEntry 10 }

startTime OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixRFStatusEntry 11 }

currentModType OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 180 Title: Aeronix Data Links EDL Nano Products User Guide STATUS current DESCRIPTION

""

::= { aeronixRFStatusEntry 12 }

rssiRF1 OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixRFStatusEntry 13 }

rssiMuRF1 OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixRFStatusEntry 14 }

cpOffset OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixRFStatusEntry 15 }

cpOffsetRF1 OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION

""

::= { aeronixRFStatusEntry 16 }

--

--

--

--

END Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 181 Title: Aeronix Data Links EDL Nano Products User Guide Appendix C: Definitions, Acronyms, and Abbreviations The section provides the necessary definitions, acronyms, and abbreviations relevant to this document and necessary in order to understand this document. ACID ARQ Channel ID ARP Address Resolution Protocol ARQ Automatic Repeat Request ATM Asynchronous Transfer Mode Authentication Verification of the source of information BS Base Station CCD Charge-Coupled Device CCV Clock Comparison Value CDMA Code Division Multiple Access CID Connection Identifier CINR Carrier to Interference and Noise Ratio CS Convergence Sub-layer DCD Downlink Channel Descriptor DFS Dynamic Frequency Selection DIUC Downlink Interval Usage Code DL Downlink EDL micro Enhanced Data Link EIRP Effective Isotropic Radiated Power GMSK - Gaussian Minimum Shift Keying GPS Global Positioning System H-ARQ Hybrid Automatic Repeat Request Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 182 Title: Aeronix Data Links EDL Nano Products User Guide HMAC Hashed Message Authentication Code HW Hardware Instantiate Create an entity from an abstraction. Integrity Verification that the information has not been altered. I/O Input/Output IP Internet Protocol JTRS Joint Tactical Radio System MAC Media Access Control MSB Most Significant Bit OFDM Orthogonal Frequency Division Multiplexing OFDMA Orthogonal Frequency Division Multiple Access OID Object Identifiers OS Operating System PDU Payload Data Unit PHS Payload Header Suppression PHY Physical Layer PKM Privacy Key Management PTP Point To Point PTMP Point To Multipoint QoS Quality of Service RSSI Received Signal Strength Indicator RTG Receive/Transmit Transition Gap SDU Service Data Unit SFID Service Flow ID Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 183 Title: Aeronix Data Links EDL Nano Products User Guide SNMP Simple Network Management Protocol SPB Samples Per Bit SS Subscriber Station SW Software TCP Transmission Control Protocol TLV Type Length Value TRANSEC Transmission Security TTG Transmit/Receive Transition Gap UCD Uplink Channel Descriptor UDP User Datagram Protocol UIUC Uplink Interval Usage Code UL Uplink EDL - micro EDL USM User-based Security VLAN Virtual Local Area Network Document Number: AE301628-001 Revision: B Date: 3 October 2019 Form #: OP_01_TM Aeronix Proprietary 184

 

 

APPLICANT: AERONIX INC. FCC ID: T2KAE102882 EXTERNAL PHOTOS TOP VIEW BOTTOM VIEW LEFT SIDE VIEW RIGHT SIDE VIEW REAR VIEW FRONT VIEW

 

 

APPLICANT: AERONIX INC. FCC ID: T2KAE102882 INTERNAL PHOTOS