Related Manuals for Trango Systems TrangoLINK APEX 18
Summary of Contents for Trango Systems TrangoLINK APEX 18
-
Page 1: User Manual
TrangoLINK APEX 18GHz Point-to-Point Microwave Wireless Ethernet Bridge High-Capacity Backhaul Network User Manual September 2008 Revision 1.0... -
Page 3: Table Of Contents
Table of Contents Figures ....................5 Tables..................... 7 Preface ....................8 Emission Designators ...................8 Warranty Information ....................8 Chapter 1 - Overview ................10 About this Chapter ....................10 Introduction ......................11 Contents ......................11 Location of Serial Number ................12 Apex Unit Ports ....................13 Chapter 2 - Getting Started .............. - Page 4 System Configuration ..................34 Ethernet Configuration...................35 Statistics Page....................35 System Status ....................36 Link Status.....................36 Ethernet Status....................37 RF Status ......................37 Password Web Page ..................38 Essentials to Establish a Wireless Link...............39 Evaluate Link Quality ..................39 Link Test ......................39 Chapter 4 - Deployment & Installation ..........42 About this Chapter ....................42 Installation......................43 Mounting Hardware ..................43...
- Page 5 Key Functions....................71 Different Mode Levels ..................72 View Mode.....................72 Config Mode ....................73 Debug Mode ....................77 CLI Command Description..................78 acm ........................78 alignment_mode ....................80 atpc ........................80 atpc_max_power....................81 atpc_step ......................82 ber........................82 bootimage ......................83 cos ........................84 config ........................85 date........................86 debug........................87 default_opmode ....................87 exit ........................88 failover ........................88 freq........................89 help / ? ......................90...
- Page 6 snmptrap......................105 speed ........................105 status ........................106 sysinfo.......................107 sync ........................109 sync_state......................109 syslog........................110 targetrssi ......................110 temp........................111 telnetd .......................111 tftpd........................112 threshold ......................112 trapip.........................113 uptime .......................113 utype .........................114 version ......................114 Appendix B - Specifications............. 116 Data Sheet ......................116 Interface Specifications..................118 T/I Curves ......................119 80 MHz channel (46 Symbol Rate)..............119 40 MHz channel (35.42 Symbol Rate)............120 30 MHz channel (24.6 Symbol Rate)............121 20 MHz channel (17.42 Symbol Rate)............122...
-
Page 7: Figures
Figures Figure 1: Components of a TrangoLINK APEX 18 System ........11 Figure 2: Side of Radio (Shows where MAC address can be found) ......12 Figure 3: Apex unit ....................13 Figure 4: Wiring Diagram ..................15 Figure 5: Power Connections .................15 Figure 6: HTTP Login .....................21 Figure 7: Web Browser Login.................21... - Page 8 Figure 26: Ethernet Cap Installation ...............52 Figure 27: Complete Ethernet Cap Installation............52 Figure 28: Fiber Plate Installation................53 Figure 29: Complete Fiber Plate Installation (conduit not pictured)......53 Figure 30: Windows Start & Telnet.................55 Figure 31: Verify Firmware Upgrade ..............58 Figure 32: Serial Number Location.................66 Figure 33: Bench Test Setup..................68 Figure 34: Waveguide Attenuator................69 Figure 35: EIA/TIA 586 A &...
-
Page 9: Tables
Tables Table 1: TrangoLINK APEX 18 Part numbers ............8 Table 2: MSE Values ....................17 Table 3: Max Power Input..................18 Table 4: ACM Threshold Table ................19 Table 5: Default Login Passwords ................20 Table 6: Torque .......................43 TrangoLINK Apex™ 18 User Manual Rev. 1.0... -
Page 10: Preface
Preface This manual covers the basic configuration and installation of the TrangoLINK APEX 18 Wireless Broadband System, and applies to the following part numbers: Part Number Description TLINK-APEX18-1 TrangoLINK APEX™ point to point system, 18GHz, Rev 1 APEX18-ODU-1A TrangoLINK APEX™ Outdoor Unit, 18GHz, Band 1, ANSI APEX18-ODU-1B TrangoLINK APEX™... - Page 11 TrangoLINK Apex™ 18 User Manual Rev. 1.0 Section: Preface Page 9...
-
Page 12: Chapter 1 - Overview
Chapter 1 - Overview About this Chapter This chapter introduces the TrangoLINK APEX™ system, features, and its components TrangoLINK Apex™ 18 User Manual Rev. 1.0 Section: Chapter 1 - Overview Page 10... -
Page 13: Introduction
Contents Each TrangoLINK APEX 18 kit comes equipped with (1) APEX18-ODU1A, (1) APEX18- ODU-2A, and (2) wave guide transitions. POE devices, Fiber kits, Data cables, and power cables are not included with your system. -
Page 14: Location Of Serial Number
Location of Serial Number Apex Apex Figure 2: Side of Radio (Shows where MAC address can be found) TrangoLINK Apex™ 18 User Manual Rev. 1.0 Section: Chapter 1 - Overview Page 12... -
Page 15: Apex Unit Ports
Apex Unit Ports Figure 3: Apex unit Fiber Kit cover: Under this cover is the MOLEX™ power connector and SFP fiber port. Ethernet 10/100/1000: The RJ-45 connector allows for 10/100/1000 data negotiation rates. POE can also be connected through this port. Management Port: 10/100 Out of Band Management port allows for PoE as well as management. -
Page 16: Chapter 2 - Getting Started
It is recommended that you first provision and test the radios on the bench before deploying them in the field. This is a particularly useful exercise for the novice user. Additional accessories are required for complete installation of the TrangoLINK APEX 18 such as power supplies, SFP modules, and antennas. -
Page 17: Connections And Power
Connections and Power Figure 4: Wiring Diagram • Connect Ethernet cable between the Apex unit and the POE unit. (Power over Ethernet can be through either the data or management ports.) Alternately, there is a 2 pin MOLEX™ connector under the fiber cover for direct -48 DC power. Please note that when the pins are facing up, the + (Red/Ground) is on the left. -
Page 18: Basic - Concepts
Settings and connection steps are found later in this chapter. Basic - Concepts The TrangoLINK APEX 18 can be configured using either the Command Line Interface (CLI), or the Web Browser (HTTP) interface. Although both methods are comprehensive and powerful, the CLI method provides more functionality. -
Page 19: Mean Square Error Concept
Why is Opmode Important? Opmode is important since if Opmode is not configured correctly the radio will not transmit to establish a link. There are also certain functions that can only be performed while the radio is in Opmode “Off.” The following commands can only be performed with Opmode “Off”... -
Page 20: Acm - Adaptive Code Modulation
The maximum power input, measured by RSSI, is as depicted in Table 3. If your RSSI value is higher than listed for the modulation that you are running, you may incur bit error rates as well as possible damage to the system. 256 QAM: -34 dBm 128 QAM:... -
Page 21: Atpc & Targetrssi
Profile # Modulation Improve Next Degrade Next QAM32 -26.3 - 21.3 QAM16 -23.3 -18.5 QPSK -20.3 17.1 Speed Setting QAM16 Profile # Modulation Improve Next Degrade Next QAM16 -23.3 -18.5 QPSK -20.3 17.1 Table 4: ACM Threshold Table THE ACM FEATURE WILL AUTOMATICALLY SHIFT THE MODULATION UP AND DOWN BASED ON THE MSE VALUE AND THE ABOVE SPECIFIED THRESHOLDS. -
Page 22: Port Mapping (802.1Q) & Port Priority (802.1P)
Port Mapping (802.1q) & Port Priority (802.1p) The Port Mapping feature of the TrangoLINK APEX™ is a fixed setting and provides an additional amount of data security since traffic on the Ethernet port is segmented and isolated from traffic on the fiber port.. The Port Priority feature allows for an individual data port to have priority over the remaining data port. -
Page 23: Browser Interface
ALL TRANGO RADIOS ARE PRE-CONFIGURED AT THE FACTORY WITH A DEFAULT IP ADDRESS OF 192.168.100.100. Browser Interface To access the Browser interface simply open your web browser and enter the IP address of the radio (Figure 6). Figure 6: HTTP Login A login window will pop up, requiring the user to enter username and password (Figure Enter the assigned user name and password, followed by pressing OK. -
Page 24: Figure 8: Browser Interface
Figure 8: Browser Interface The following describes the primary features and pages of the HTTP Browser interface: Navigation Bar: The navigation bar is a blue bar on the top of all pages. The navigation bar contains all of the hotlinks to the following pages: System Information Page: (Sysinfo) Shows most of the basic configuration parameters of the radio. -
Page 25: Command Line Interface
Command Line Interface All typical radio functions can be managed via the browser interface, but the Command Line Interface (CLI) has functionality that facilitates installation. The Command Line Interface has 3 modes View, Config, and Debug. Logging into the radio via Command Line Interface is covered here briefly, and a complete listing of all CLI commands is provided in Appendix A - Command Line Interface. -
Page 26: Changing Password
ALL CONFIGURATION CHANGES HAVE TO BE SAVED IN ORDER TO BE PERSISTENT ACROSS REBOOT. A SINGLE “SAVE” COMMAND IN THE CLI WILL SAVE ALL CONFIGURATION CHANGES. Users can go back to the “view” Mode by typing in the command “exit” Example: trango login: admin Password:... - Page 27 If the password is lost and you have been locked out of the unit contact Trango Broadband Technical Support for assistance. TrangoLINK Apex™ 18 User Manual Rev. 1.0 Section: Chapter 2 - Getting Started Page 25...
-
Page 28: Chapter 3 - Configuration
Chapter 3 - Configuration About this Chapter This section describes how to establish a wireless link with the TrangoLINK APEX™18, using the Browser (HTTP) Interface. This section addresses the basic steps in establishing a link in the lab environment. Trango strongly recommends that that you read this manual to gain an understanding and mastery of all important configuration parameters and procedures prior to deploying any wireless equipment. -
Page 29: Basic Configuration Screens And Parameters
Basic Configuration Screens and Parameters System Information The TrangoLINK APEX™18 has 4 main web pages. The “Sysinfo” page is a read-only page where the current configuration of the unit can been seen. The “Sysinfo” page consists of 4 sections the Radio Configuration, System Configuration, IP Configuration &... -
Page 30: Radio Configuration
Radio Configuration ATPC Max Power: This is the maximum output power (in dBm) that the ODU will deliver. This is controlled by the FCC License ATPC output power allowed. ATPC Step Size: This is the amount (in dBm) that the Transmitter will alter the output power per command from the far end radio. - Page 31 o Enabled (“On”) – The RSSI LED on the ODU is updated 5 times every second and the following settings are disabled ATPC and ODU Rx AGC ATPC – Controls whether ATPC is o Disabled (“Off”) - the ODU delivers the maximum transmit power as configured.
- Page 32 RPS – Rapid Port Shutdown is o Disabled (“Off”) – The unit will not shut down the GigE/SFP when the wireless link is lost. o Enabled (“On”) – The unit will shut down the GigE/SFP port when the wireless link is lost. The remote end will also be notified of the port shutdown.
-
Page 33: Ip Configuration And Model
IP Configuration and Model The following information is displayed in the IP configuration and model section of the “Sysinfo page”. These settings affect the OUT OF BAND MANAGEMENT port only. IP Address – Displays the current configured Internet Protocol Address of the unit. -
Page 34: Settings Page
Settings Page Configuration of the unit is performed under the “Settings” page. The “Settings” page is composed of the Radio Configuration, Ethernet Configuration, IP Configuration, and System Configuration. Figure 10: Settings Web Page Radio Configuration System Model: Displays the current system model of the unit. TX Frequency: Set the Center Frequency in accordance with the FCC License grant (MHz). - Page 35 Power: Transmit power (dBm). Transmit power is controlled by two settings. First, the TrangoLINK APEX™ has equipment specifications (described in the Specification Appendix) that are a function of the channel bandwidth and signal modulation. At no time should the transmit power be set for a value greater than specified since this will degrade the link availability (BER will increase).
-
Page 36: Ip Configuration
IP Configuration IP Address: The IP address assigned to the Unit. Subnet Mask: The subnet mask assigned to the Unit. Gateway: The gateway assigned to the Unit. SNMP Trap IP 1: The IP address of the device that will receive SNMP traps. SNMP Trap IP 2: The IP address of the device that will receive SNMP traps. -
Page 37: Ethernet Configuration
Httpd: Enable or disable the HTML daemon. This must be enabled to have web access to the unit. Opmode: Opmode is short for operation mode. When opmode is enabled the unit will be transmit RF. If opmode is disabled the unit can still be managed but the RF portion of the device will be disabled. -
Page 38: System Status
Figure 11: Statistics Web Page System Status The System status section of the statistic page will show which GigE and Fiber ports are active. The section will also provides the RSSI, MSE, BER, Radio Temp, Modulation, ACM Profile, and if the link has lock. Link Status The Link status section provides modem lock and pll information. -
Page 39: Ethernet Status
Modem Lock • Timing – The RF signal from the far end has been detected and the symbol timing loop is locked • Preamble – Must be locked to pass traffic. • LDPC – Low Density Parity Check – An efficient form of forward error correction coding. -
Page 40: Password Web Page
• Total Data Packets- The Total number of Data packets received and transmitted • Ethernet packets- The Total number of Ethernet packets received and transmitted • Ethernet Drop packets- The Total number of received Ethernet packets that were dropped • Total Drop Packets – The total number of packets that were dropped. •... -
Page 41: Essentials To Establish A Wireless Link
Essentials to Establish a Wireless Link In order to establish a wireless link there are a few essential parameters that must be configured properly. These setting must be configured correctly on both sides of the link. • Transmit Frequency o The transmit frequency in MHz is expected. The receive frequency is automatically set based on the transmit frequency. - Page 42 LOCK: Once lock is achieved, the radio can pass traffic. If the lock is not “1”, there are problems with the link setup that need to be evaluated. RSSI: The receive signal level in dBm. This value should be compared to the expected signal level determined during the design phase of the project.
- Page 43 3> -42.00 dBm -33.05 dBm 0.00E+00 QAM256 QAM256 4> -42.00 dBm -32.86 dBm 0.00E+00 QAM256 QAM256 5> -42.00 dBm -33.00 dBm 0.00E+00 QAM256 QAM256 (trango-view)# TrangoLINK Apex™ 18 User Manual Rev. 1.0 Section: Chapter 3 - Configuration Page 41...
-
Page 44: Chapter 4 - Deployment & Installation
Chapter 4 - Deployment & Installation About this Chapter Once you are familiar with the basic operation of the radios you are ready for deployment in the field. The deployment process consists of the following steps: • Mounting Hardware • Grounding •... -
Page 45: Installation
Installation Mounting Hardware ® The TrangoLINK Apex has a unique slip-mount adapter design which allows for the waveguide output to be coupled into antenna input with a minimum of loss and ease of installation. The Apex unit is secured to the antenna assembly using 4 easy, slip-mount latches. -
Page 46: Waveguide Adapter Installation
When installing the Apex unit there are 2 keys factors in determining the polarity of radio. 1. The installation of the waveguide 2. The mounting the Apex Unit to the antenna. IT IS IMPORTANT THAT THE WAVEGUIDE AND APEX ARE INSTALLED CORRECTLY. THE RESULTS OF IMPROPER INSTALLATION WILL RESULT IN TRANSMITTING AN INCORRECT POLARITY IN VIOLATION OF THE FCC LICENSE AND LINK FAILURE. -
Page 47: Sfp Installation
SFP Installation Installation of the SFP module is easily accomplished by removing the Fiber plate using a Philips screwdriver. Remove the silicone seal located directly under the Fiber plate. Using the SFP module purchased from Trango, simply slide the module into the SFP receptacle until it locks into place. -
Page 48: Polarization
Polarization Apex mounting determines if the transmit signal polarity as vertical or horizontal. Changing polarity from vertical to horizontal is easy. Simply unlatch the Apex Unit from the antenna and rotate counter-clockwise and reattach the Apex Unit to the antenna. Figure 17 shows a unit mounted, with vertical polarization as well as one mounted with horizontal polarization. -
Page 49: 1+1 Coupler Installation
1+1 Coupler Installation The 1 +1 coupler is needed to install two Apex Units to a single antenna. The mount has a single couple centered on one side (Figure 19) while there are 2 evenly spaced on the second side. Figure 19: 1+1 Coupler To install the mount simply attach the single sided coupler to the antenna mount and secure the latches as shown in Figure 20. -
Page 50: Figure 20: 1+1 Coupler And Latches
Figure 20: 1+1 Coupler and Latches Once the 1+1 coupler has been installed (Figure 21) the radios can be mounted to the 1+1 coupler. The polarization for the 1+1 mount is determined by the transition between the mount and the antenna. The Apex radios needs to be mounted in the H-Pol position on the 1+1 mount as the coupler determines polarity. -
Page 51: Figure 22: 1+1 Apex Mounting
Figure 22: 1+1 Apex Mounting THE APEX UNITS NEED TO BE MOUNTED IN THE SAME POSITIONS TO THE 1+1 MOUNT POLARAZATION IS DETERMINED BY THE COUPLER BETWEEN THE 1+1 MOUNT AND THE ANTENNA TrangoLINK Apex™ 18 User Manual Rev. 1.0 Section: Chapter 4 - Deployment &... -
Page 52: Polarization Of 1+1 Coupler
Polarization of 1+1 Coupler The 1+1 mount ships with a vertical polarized coupler. In order to change the polarization to horizontal the vertical couple must be replaced with a horizontal coupler. (Figure 23) This coupler has a “twist” transition so it will look slightly different than the coupler that connects to the Apex. -
Page 53: Grounding
Grounding Apex Grounding Recommendations The Apex unit doesn’t require any additional grounding since the Apex is attached directly to the antenna and thus shares the antenna’s ground. Please note that if the antenna is attached to a metal pole that is earth-grounded, no other grounding is necessary. -
Page 54: Figure 26: Ethernet Cap Installation
Figure 26: Ethernet Cap Installation Secondly, Terminate the Cat5/6 cable to a RJ-45 connector. Finally, connect the RJ-45 connector into the Apex radio and properly orientate the Ethernet cap over the RJ-45 connector as shown in Figure 27. Figure 27: Complete Ethernet Cap Installation IT IS IMPORTANT THAT THE ORIENTATION IS CORRECTTO PREVENT WATER INTRUSION To properly weatherize the Fiber cable and direct DC power first remove the fiber plate... -
Page 55: Figure 28: Fiber Plate Installation
Figure 28: Fiber Plate Installation Secondly, connect the fiber to the SFP module. Also terminate and connect the DC wires to the MOLEX connector. Finally, re-seat the silicone seal into the Apex unit and screw the Fiber plate back to the unit as shown in Figure 29. -
Page 56: Antenna Alignment
Antenna Alignment Aligning narrow beam width (< 2º) over long distances can be a difficult process without the proper equipment, patience, and a careful process. Using a GPS compass and the Path Analysis to establish a crude azimuth and elevation the installation crew can mount the Antenna Assembly (Antenna and Mounting Kit) on the supporting structures at each end of the link. -
Page 57: Upgrading Firmware
Upgrading Firmware The firmware on the TrangoLINK APEX can be upgraded through the management Ethernet port. A firmware release can consist of up to 5 files: System FPGA Image Firmware File <idu_fpga_xxyy> System OS Image Firmware File idu_os_xxyy> < System Firmware File <idu_fw_xxyy>... - Page 58 1. At the login enter your username and password. The username is “admin “and default password is “trango” 2. Enter Config mode by typing “config” and entering you write access password. The default config mode password is “trango” 3. Enable the tftp daemon using the TFTPD command as shown below. trango login: admin Password: Trango Broadband Wireless:...
- Page 59 (trango-config)# (trango-config)# bootimage upgrade 0 Please note the following options for the “bootimage” command: (trango-config)# bootimage upgrade <0-5> 0 upgrades the System’s FPGA 1 upgrades the System’s OS 2 upgrades the System’s Firmware 3 upgrades the System’s PIC 4 upgrades the System’s Modem 7.
-
Page 60: Figure 31: Verify Firmware Upgrade
FPGA version: 01270608 OS version: 2p6r14b3D07230801 FW version: 1p0r0D072308 PIC version: RFM version: Figure 31: Verify Firmware Upgrade TrangoLINK Apex™ 18 User Manual Rev. 1.0 Section: Chapter 4 - Deployment & Installation Page 58... -
Page 61: Chapter 5 - Management
Chapter 5 - Management About this Chapter The TrangoLINK APEX 18 systems can be managed though a number of methods. Network management can be performed by three methods • Browser Interface (HTTP, HTTPS) - Chapter 3 Configuration • CLI (Console, Telnet, SSH) - Command Set Reference Appendix A •... -
Page 62: Objects For Monitoring And Control
SNMP TrangoLINK APEX 18 supports Simple Network Management Protocol (SNMP) for network management. Network management consists of the following 4 categories: configuration, accounting, alarm, and monitoring and control. These capabilities allow the network operator to provide superior services through higher network accessibility and integrated accounting system. - Page 63 Link Status Traps Various traps are defined as follows: • trapReboot– trap is triggered when the unit is rebooted • trapStartUp – trap is triggered when the unit boots up. • trapBackupLink – trap triggered when the backup status changes. •...
-
Page 64: Chapter 6 - Troubleshooting
Chapter 6 - Troubleshooting About this Chapter In this chapter we will cover some of the more common steps to take when encountering difficulties with the TrangoLINK APEX 18. • No Link • High BER • Ethernet Port • Fiber Port •... -
Page 65: No Link
No LINK • Ensure that Opmode is turned enabled for both sides of the link • Verify the Transmit frequency is configured correctly for each side of the link. • Ensure the Apex units for the link are paired correctly. The pair must be 1A and 1B for a link to be established. -
Page 66: Gige Port
GigE Port No traffic is passing • Ensure cables are connected into correct ports. Port 1 traffic passes through the link so only Port 1 on the other side can see the traffic. Data will not pass through the management port through the Apex system. •... -
Page 67: Management
Not showing link status • Verify the SFP module is approved by Trango • Ensure the SFP module is properly installed • Ensure the port is enabled • Check cable for damage and proper termination of connectors. Management If you can not telnet into the radio or open an HTTP browser session, •... -
Page 68: Figure 32: Serial Number Location
Apex Apex Figure 32: Serial Number Location TrangoLINK Apex™ 18 User Manual Rev. 1.0 Section: Chapter 6 - Troubleshooting Page 66... -
Page 69: Chapter 7 - Bench Testing
Chapter 7 – Bench Testing About this Chapter In this chapter we will cover the basic tips in setting up the equipment for bench testing the before deployment. TrangoLINK Apex™ 18 User Manual Rev. 1.0 Section: Chapter 7 – Bench Testing Page 67... -
Page 70: Bench Test Setup
Bench test setup Bench testing equipment before installation is a common practice for installers to perform before deploying the equipment. Bench testing provides the user with a baseline of results and helps ensures that the equipment operates according to specification before deployment. It is a preventive measure that saves time since equipment can be preconfigured before deployment. -
Page 71: Figure 34: Waveguide Attenuator
The following are tips to ensure your bench test setup is done properly. 1. Ensure DC power is connected properly to the POE injector 2. Have at least 45db of attenuation between Apex Units. 3. Connect the attenuator directly to the Apex Unit without waveguide adapter. (Figure 34) Figure 34: Waveguide Attenuator 4. - Page 72 If you experience any problems during the setup or testing process, please contact Trango Technical Support at (858) 391-0010 for further assistance. TrangoLINK Apex™ 18 User Manual Rev. 1.0 Section: Chapter 7 – Bench Testing Page 70...
-
Page 73: Appendix A - Command Set Summary
Appendix A - Command Set Summary System Command Keying Key Functions Completes a partial command name entry. When you enter a unique set of characters and press the Tab key, the system completes the command name. If you enter a set of characters that could indicate more than one command, the system beeps to indicate an error. -
Page 74: Different Mode Levels
Return to more recent commands in the history buffer after recalling commands with the Up Arrow or Ctrl-P. Repeat the key sequence to recall successively more recent commands. Different Mode Levels View Mode This is the default node the users log in. This is strictly configuration and stats view only. No configuration changes can be made at this level Command List in View Mode Display ACM feature status... -
Page 75: Config Mode
status Display status for different device and ports sync_state Display current synchronization state sysinfo Display system information syslog Display system event log targetrssi Display target rssi value telnetd Display telnet daemon (telnetd) status temp Display current system temperature tftpd Display tftp server (tftpd) status trapip Display SNMP Trap IP configuration uptime... - Page 76 duration <1-99> <0-5> bootimage < export | import | remove | view > config <0,1,2,4,5,6,7> <0, 0, 1, 1, <pri> <queue> 2, 2, 3, 3> <0-99><1-12><1-31><0-23><0-60> Linux System Date (TBD) date debug on/off default_opmode exit 0 (this is exception to the <17705-19695>...
- Page 77 No defaults, read directly from the system model Default 1 (if duration not duration <1-99> entered by user) <on/off> opmode <passwd> <confirm_passwd> (8char) trango passwd both ports configured in the port <eth > <port#> <autonegotiate | Auto-Neg Mode duplex | enable | pause | | maxrate | priority | speed >...
- Page 78 Web Interface: trango snmp trap: trapstr <on | off> smart_mode <on | off > snmpd <on | off > snmptrap <channel_bw> <modulation> <5> <qpsk> speed channel_bw 0-5 (10,20,30,40,50) modulation qpsk, qam16, qam64,qam128,qam256 Qpsk <modem | fifo | pll | port | all | clear> status 0 (if command executed <0-6>...
-
Page 79: Debug Mode
Debug Mode This node is additional management port related settings and users enter the debug mode, by typing in the “Exit” command from the view mode. Users can reenter the view node by entering the command “cli” Debug and View mode share the same password and the password can be changed from the debug node only. -
Page 80: Cli Command Description
CLI Command Description acm enable <on | off> SYNTAX acm mod <modulation> enable <on | off> acm mod <modulation> mse_de <value> acm mod <modulation> mse_im <value> acm enable: Off DEFAULT VALUE acm mod <modulation> enable: on acm_mod <modulation> mse_de: see table below acm_mod <modulation>... - Page 81 Default ACM Threshold Values QAM256 Profile # Modulation Improve Next Degrade Next QAM256 -32.1 -27.2 QAM64 -29.2 -24.3 QAM16 -26.3 -21.3 QPSK -23.3 -18.5 QAM128 Profile # Modulation Improve Next Degrade Next QAM128 -32.1 -27.2 QAM64 -29.2 -24.3 QAM32 -26.3 -21.3 QAM16 -23.3...
-
Page 82: Alignment_Mode
alignment_mode alignment_mode < on | off > SYNTAX DEFAULT VALUE Alignment mode is used during initial antenna alignment. DESCRIPTION When enabled it display the RSSI on the Apex Unit Led at a higher rate (5/sec) than during normal operation. ATPC is disabled during alignment_mode. RSSILED should be ON for alignment_mode It is recommended to disable alignment_mode during normal operation. -
Page 83: Atpc_Max_Power
the “maxatpcpower” and “atpc_step_size”. When ATPC is turned off, user entered power setting is restored back. Turn on ATPC EXAMPLE (trango-config)# atpc on ATPC: on Check current ATPC configuration (trango-config)# atpc ATPC: on atpc_max_power, atpc_step_size, targetrssi, power RELATED atpc_max_power atpc_max_power <0-20> SYNTAX DEFAULT VALUE Default 17... -
Page 84: Atpc_Step
atpc_step atpc_step <range> SYNTAX where range = 1-5dB DEFAULT VALUE atpc step size controls the Apex power change size during DESCRIPTION ATPC operation. The transmit power is changed in step size on the Apex, unless the maxatcpower or 0 is reached. -
Page 85: Bootimage
Rx profile: The current Rx modulation bootimage bootimage <upgrade | toggle> SYNTAX bootimage upgrade <0-4> 0: fpga 1: linux 2: rootfs 3. pic 4. aduc bootimage <toggle > DEFAULT VALUE Bootimage is used to upgrade the required software DESCRIPTION images on the radio, after the image is transferred on the radio via tftp. -
Page 86: Cos
0: fpga sys_fpga_xxx 1: linux sys_os_xxx 2: rootfs sys_fw_xxx 3. pic sys_pic_xxx 4. aduc sys_rfm.bin Upgrade FPGA image EXAMPLE Enable tftpd on the radio (trango-config)#tftpd on Transfer the image from PC(windows/linux) C:\>tftp –I <IP Address of Radio> PUT sys_fpga_xxxx Issue the upgrade command on the radio (trango-config)# bootimage upgrade 0 Wait for the completion and the reboot (trango-config)# reboot... -
Page 87: Config
COS map priority=6, queue=1 Check current CoS settings (trango-config)# cos COS scheduling: strict Priority 0: COS Queue = 0 Priority 1: COS Queue = 0 Priority 2: COS Queue = 1 Priority 3: COS Queue = 1 Priority 4: COS Queue = 2 Priority 5: COS Queue = 2 Priority 6:... -
Page 88: Date
View: The option displays the current system configuration in ASCII format on the console. To view the current system config (CHANGE THIS) EXAMPLE (trango-config)# config view CONFIG_VER TX_FREQ 17920 RX_FREQ 19480 RX_FREQUENCY CABLELOSS_140 0.0 CABLELOSS_315 0.0 CABLELOSS_915 0.0 POWER 6.0 Tftpd, reboot, save RELATED date... -
Page 89: Debug
debug debug SYNTAX DEFAULT VALUE debug command is used to logout from the current node DESCRIPTION to the debug prompt. This is only allowed in the configuration node, not view node To switch from “trango-config” to debug prompt EXAMPLE (trango-config)# debug debug>... -
Page 90: Exit
exit exit SYNTAX DEFAULT VALUE Exit command is used to logout from the current node to DESCRIPTION the lower node. Typing exit from the debug> node will close the current session. To Switch back to “trango-view” node from trango-config EXAMPLE (trango-config)# exit (trango-view)# To Switch to debug>... -
Page 91: Freq
All set commands on the Active unit are also executed on the Standby unit to keep the states synchronized. The 2 units have separate IP Settings/Mgmt Channel and can be upgraded independent of each other. In the event of system failure or link loss the Active transfers control to the Standby, only if the Standby is healthy. -
Page 92: Help
The Apex needs to be powered ON for setting the freq. To set tx frequency: EXAMPLE (trango-config)# freq 19480 TX freq: 19480 RX freq: 17920 SUCCESS To view current frequency setting: (trango-config)# freq TX freq: 19480 RX freq: 17920 opmode RELATED help SYNTAX... -
Page 93: Ibm
To turn off httpd: EXAMPLE (trango-config)# httpd off httpd: off SUCCESS To view current httpd status: (trango-config)# httpd httpd: off Ipconfig RELATED Ibm <enable | id | ip > SYNTAX Ibm enable <on | off> Ibm id <1-4090> Ibm ip <valid ip address> Ibm port <0:copper | 1: fiber>... -
Page 94: Ipconfig
To disable ibm EXAMPLE (trango-config)# ibm enable off IBM enable: off Check current IBM configuration (trango-config)# ibm IBM IP address: 10.10.10.1 Inband management: on IBM vlan ID: Ipconfig, RELATED ipconfig Ipconfig <IP address> <Subnet mask> <Gateway IP> SYNTAX IP address: 192.168.100.100 DEFAULT VALUE Subnet Mask:... -
Page 95: Datapattern
datapattern datapattern <external | internal> SYNTAX external DEFAULT VALUE Sets datasource for the modem. DESCRIPTION datapattern can be generated from external source or the internal data The datapattern should be set to “external” during normal mode of operation, otherwise no user data from GigE or the T1 ports will be transmitted. -
Page 96: Linktest
for using higher speed (> 100Mbps, > 200Mbps) on the radio. The license key is specific to each unit (management port Ethernet mac address) and is not transferable. Set the license key for speed > 107Mbps EXAMPLE (trango-config)# license1 XXXXX SUCCESS Speed, ipconfig RELATED... -
Page 97: Loglevel
Mse,rssi RELATED loglevel loglevel <0-2> SYNTAX where 0: Setting 1: Event 2: Status/Statistics DEFAULT VALUE Default 0 1 This command is used to set required log levels for DESCRIPTION system logging. The log level needs to be set for each activity to be monitored. -
Page 98: Model
In remote loopback configuration one radio of the link needs to be set as “rf_gen” and the other radio has to be “rf_refl”. Set loopback mode to if EXAMPLE (trango-config)# loopback if Loopback Mode: if SUCCESS To view current loopback setting: (trango-config)# loopback Loopback Mode: if opmode, datapattern... -
Page 99: Opmode
To monitor the MSE for 2sec EXAMPLE (trango-view)# mse 2 1> -33.81 2> -33.86 Linktest, rssi RELATED opmode opmode <on | off> SYNTAX DEFAULT VALUE Opmode command is used to enable the transmitter on DESCRIPTION the system Opmode settings are not persistent across reboot. -
Page 100: Port (Ge1 = Copper / Ge2 = Fiber)
SUCCESS Show passwords, config RELATED Port (ge1 = Copper / ge2 = Fiber) port <eth > <port#> <settings> <value> SYNTAX For Ethernet Port the following commands are valid port eth <ge1|ge2> <autonegotiate> <on|off> port eth <ge1|ge2> <duplex> <on|off> port eth <ge1|ge2> <enable> <on|off> port eth <ge1|ge2>... -
Page 101: Power
SUCCESS sysinfo 4 RELATED power Power <value> SYNTAX Value = 0-20dBm 10dBm DEFAULT VALUE Power command is used to set the transmit power level. DESCRIPTION The max value is dependent upon the modulation. See datasheet. When the user sets the power to 20 for QAM256, it is internally adjusted to 17 (Max for QAM256). -
Page 102: Remark
To reboot he radio EXAMPLE (trango-config)# reboot (trango-config)# Restarting System Reset, speed, bootimage RELATED remark Remark <string> SYNTAX String = 0-100 Trango Broadband Wireless DEFAULT VALUE Remark command is used to set any required name/info DESCRIPTION related with the Radio. Set remark to “TranoLINK Apex”... -
Page 103: Reset
SUCESS Reset RELATED reset reset SYNTAX DEFAULT VALUE Reset is used to restore factory default settings. DESCRIPTION All currently configured settings will be lost. Reboot of the radio is required for the new settings to take effect. The command doesn’t ask for any confirmation. User caution is required before reboot. -
Page 104: Rssi
To enabled rps EXAMPLE (trango-config)# rps_enable on Rapid port shutdown: on sysinfo, failover RELATED rssi rssi <duration> SYNTAX Duration = 1-99sec Duration = 1sec DEFAULT VALUE rssi command is used to monitor the received signal level. DESCRIPTION It is used to monitor the link, based on the specified duration. -
Page 105: Save
To view rssiled status: (trango-config)# rssiled Rssiled: on Rssi, alignment_mode RELATED save save SYNTAX DEFAULT VALUE Save command is used to save the current system DESCRIPTION configuration to the flash, so that system settings are persistent across reboot/power cycles. Save command should be used after system setting change. -
Page 106: Show
SUCCESS RELATED show show <passwords> SYNTAX DEFAULT VALUE Show passwords command is used to view the currently DESCRIPTION configured passwords for different applications/nodes. To display the currently configured passwords on the EXAMPLE system (trango-config)# show passwords CLI View node: trango CLI Config node: trango SNMP Read community:... -
Page 107: Snmptrap
snmptrap Snmptrap <on | off> SYNTAX DEFAULT VALUE Snmptrap command is used to enable/disable sending of DESCRIPTION the traps from the radio. Snmpd must be ON for snmptrap to be ON and trapip should be configured correctly. Set snmptrap ON EXAMPLE (trango-config)# snmptrap on snmptrap: on... -
Page 108: Status
Freq needs to be set before speed can be configured A one time license key is required to be set for speed > 100Mbps *After entering the speed settings, save the config by “save” command and reboot the systems Set speed channel_bw = 80, modulation = qam256 EXAMPLE (trango-config)# speed 5 qam256 symrate:... -
Page 109: Sysinfo
RFM IF PLL: Transmit PLL: Receive PLL: <-------------- Ethernet Port Status ------------------> Port: Status: In Octets: 3072 In Ucast Pkt: In NUcast Pkt: Out Octets: 2834 Out Ucast Pkt: Out NUcast Pkt: CRC Errors: Collision: <------------------ RF Status ---------------------> Total Data Octets: Total Data Pkt: Total Drop Pkt: Port Rate(Mbps):... - Page 110 Trap IP Address 2: 0.0.0.0 ETH0 MAC: 00:01:DE:00:00:02 SYS FPGA version: 01050508 SYS OS version: 2p6r14b3D05150801 SYS FW version: 1p0r0D05150801 SYS PIC version: SYS Modem version: SYS RFM version: SYS Model: Apex18-1B SYS serial ID: <-----------2. Radio Configuration----------> Freq (TX): 19480.00 (Mhz) Freq (RX): 17920.00 (Mhz)
-
Page 111: Sync
IN Port util: 100.0 none OUT Port util: 100.0 none <------------------- 6. ACM Status ---------------------> ACM mod MSE(improve) MSE(degrade) Enable QPSK -20.00 -1.00 enabled 16QAM -21.00 -17.00 enabled 32QAM -22.30 -20.00 enabled 64QAM -28.20 -23.30 enabled 128QAM -31.10 -27.20 enabled Status RELATED sync... -
Page 112: Syslog
in the failover (1+1) setup and N/A for 1+0 setup On detecting the Standby unit the Active unit synchronized the current system setting with the Standby unit. To display the current synchronization state EXAMPLE (trango-config)# sync_state Sync State: Synchronized Failover, sync RELATED syslog Syslog <clear>... -
Page 113: Temp
-40dBm DEFAULT VALUE Targetrssi command is used to set the target signal level DESCRIPTION expected during the normal operation of the link. ATPC tracks the tragetrssi. Set the targetrssi at –45dBm EXAMPLE (trango-config)# targetrssi -45 target rssi: -45.00 dBm SUCCESS atpc, rssi RELATED temp... -
Page 114: Tftpd
(trango-config)# telnetd on Telnetd: on SUCCESS RELATED tftpd tftpd <on | off> SYNTAX DEFAULT VALUE Turn on tftp server. Used to transfer software images DESCRIPTION during upgrades Enable tftp server EXAMPLE (trango-config)# tftpd on tftpd: on SUCCESS Bootimage RELATED threshold Threshold <param>... -
Page 115: Trapip
Threshold command is used to set rules for monitoring the DESCRIPTION system. Whenever the threshold exceeds the programmed values the desired action is set. Set RSSI min threshold to –80 and action to send a EXAMPLE snmptrap. (trango-config)# threshold 0 min -80 3 min = -80 SUCCESS Snmptrap, snmpd, trapip,... -
Page 116: Utype
Uptime is used to display how long the system has been DESCRIPTION running, since the last reboot/power cycle. It shows the current time and uptime. To display current uptime EXAMPLE (trango-config)# uptime 20:45:58 up 1:49, load average Date RELATED utype Utype <standby>... - Page 117 Version command is used to display the current /previous DESCRIPTION software images on the radio. The system is capable of have multiple images. To display the current/previous software version EXAMPLE FPGA version: 02150708 OS version: 2p6r14b3D07250801 FW version: 1p0r0D072508 PIC version: Modem version: RFM version: Previous Image Version:...
-
Page 118: Appendix B - Specifications
Appendix B - Specifications Data Sheet RADIO PARAMETERS Band 1A Apex: 17.700 to 18.140 GHz Band 1B Apex: 19.265 to Frequency of Operation 19.700 GHz 10 MHz / 20 MHz / 30 MHz / 40 MHz / 50 MHz / 80 Mhz Channel Size RF Power Output (max per QPSK... - Page 119 DATA Data Throughput/ RSSI Speeds are uni-directional. For aggregate full duplex speeds, multiply numbers below by 2. (1E10 BER) Channel QPSK / 16QAM / 32QAM / 64QAM / 128QAM / 256QAM / Size RSSI RSSI RSSI RSSI RSSI RSSI Legend 15 Mbps / 30 Mbps / 37 Mbps /...
-
Page 120: Interface Specifications
MECHANICAL & ENVIRONMENTAL Cast Aluminum with RSSI window Enclosure 2-digit LED “in dBm” RSSI indicator for alignment Indicators 12 × 12 × 6.8 inches (height × width × length) Dimensions 18 lbs Weight -40° to 122° F (-40° to +50° C) Temperature Range 100% condensing Humidity... -
Page 121: T/I Curves
T/I Curves The Interference test measures the performance of the receiver under co-channel and adjacent channel interferers. 80 MHz channel (46 Symbol Rate) 46 QPSK Like Interference T/I T/I [dB] Carrier Separation [MHz] TrangoLINK Apex™ 18 User Manual Rev. 1.0 Section: Appendix B - Specifications Page 119... -
Page 122: 40 Mhz Channel (35.42 Symbol Rate)
40 MHz channel (35.42 Symbol Rate) 35.42 QAM 256 Like Interference T/I T/I [dB] Carrier Separation [MHz] 35.42 QPSK Like Interference T/I T/I [dB] Carrier Seperation [MHz] TrangoLINK Apex™ 18 User Manual Rev. 1.0 Section: Appendix B - Specifications Page 120... -
Page 123: 30 Mhz Channel (24.6 Symbol Rate)
30 MHz channel (24.6 Symbol Rate) 24.6 QAM 256 Like Interference T/I T/I [dB] Carrier Separation[MHz] 24.6 QPSK Like Interference T/I T/I [dB] Carrier Separation [MHz] TrangoLINK Apex™ 18 User Manual Rev. 1.0 Section: Appendix B - Specifications Page 121... -
Page 124: 20 Mhz Channel (17.42 Symbol Rate)
20 MHz channel (17.42 Symbol Rate) 17.42 QAM 128 Like Interference T/I T/I [dB] Carrier Separation [MHz] 17.42 QPSK Like Interference T/I T/I [dB] Carrier Separation [MHz] TrangoLINK Apex™ 18 User Manual Rev. 1.0 Section: Appendix B - Specifications Page 122... -
Page 125: 10 Mhz Channel (8.32 Symbol Rate)
10 MHz channel (8.32 Symbol Rate) 8.32 QAM 64 Like Interference T/I T/I [dB] Carrier Separation [MHz] 8.32 QPSK Like Interference T/I T/I [dB] Carrier Separation [MHz] TrangoLINK Apex™ 18 User Manual Rev. 1.0 Section: Appendix B - Specifications Page 123... -
Page 126: Fcc Requirement Of Frequency Spacing
FCC Requirement of Frequency Spacing 10 MHz maximum authorized bandwidth channels: Transmit (receive) (MHz) Receive (transmit) (MHz) 1560 MHz Separation 17705.0 .............. 19265.0 17715.0 .............. 19275.0 17725.0 .............. 19285.0 17735.0 .............. 19295.0 17745.0 .............. 19305.0 17755.0 .............. 19315.0 17765.0 .............. 19325.0 17775.0 .............. - Page 127 17905.0 .............. 19465.0 17915.0 .............. 19475.0 17925.0 .............. 19485.0 17935.0 .............. 19495.0 17945.0 .............. 19505.0 17955.0 .............. 19515.0 17965.0 .............. 19525.0 17975.0 .............. 19535.0 17985.0 .............. 19545.0 17995.0 .............. 19555.0 18005.0 .............. 18565.0 18015.0 .............. 19575.0 18025.0 .............. 19585.0 18035.0 .............. 19595.0 18045.0 ..............
-
Page 128: 20 Mhz Maximum Authorized Bandwidth Channels
20 MHz maximum authorized bandwidth channels: Transmit (receive) (MHz) Receive (transmit) (MHz) 1560 MHz Separation 17710.0 .............. 19270.0 17730.0 .............. 19290.0 17750.0 .............. 19310.0 17770.0 .............. 19330.0 17790.0 .............. 19350.0 17810.0 .............. 19370.0 17830.0 .............. 19390.0 17850.0 .............. 19410.0 17870.0 .............. 19430.0 17890.0 .............. -
Page 129: 40 Mhz Maximum Authorized Bandwidth Channels
40 MHz maximum authorized bandwidth channels: Transmit (receive) (MHz) Receive (transmit) (MHz) 1560 MHz Separation 17720.0 .............. 19280.0 17760.0 .............. 19320.0 17800.0 .............. 19360.0 17840.0 .............. 19400.0 17880.0 .............. 19440.0 17920.0 .............. 19480.0 17960.0 .............. 19520.0 18000.0 .............. 19560.0 18040.0 .............. 19600.0 18080.0 .............. -
Page 130: Appendix C - Cable Pin Outs
Appendix C – Cable Pin outs Industry Standard CAT-5 Pin-outs Below are pictures depicting the cable pin-outs for straight-through and cross-over cables. The images below conform to EIA/TIA industry standard for 568 A and B. IF the first and second pin are orange, the cable is 568B. -
Page 131: Apex Serial Cable Pin-Out
Apex Serial Cable Pin-out Below are the images depicting the cable pin out for the TrangoLINK-Apex serial cable. Please note that Trango recommends purchasing this cable directly from Trango to ensure proper pin out and performance of the cable. Figure 36: Apex Serial Cable Pin-Out TrangoLINK Apex™... -
Page 132: Appendix D - Mib
Appendix D – MIB The MIB appendix is broken down into the following sections: System, Modem, RF, GigE, T1, and Traps. Trango System OID’s Acce Object ID Name Type Range Limit Default Value 0(NO_TYPE), .1.3.6.1.4.1.5454.1. 1(MAIN), 60.1.1 sysUnitType DisplayString 2(STANDBY) 1 (MAIN) .1.3.6.1.4.1.5454.1. - Page 133 60.1.9 .1.3.6.1.4.1.5454.1. 60.1.10 sysReboot INTEGER 1(Reboot) .1.3.6.1.4.1.5454.1. 60.1.11 sysResetFactoryDefault INTEGER 1(Reset) .1.3.6.1.4.1.5454.1. 192.168.100.10 60.1.12.1 sysIPAddress IpAddr .1.3.6.1.4.1.5454.1. 60.1.12.2 sysSubnetMask IpAddr 255.255.255.0 .1.3.6.1.4.1.5454.1. 192.168.100.10 60.1.12.3 sysDefaultGateway IpAddr .1.3.6.1.4.1.5454.1. 60.1.13 sysRemarks DisplayString 0..100 TrangoLink Giga .1.3.6.1.4.1.5454.1. Disable(0), 60.1.14.1 sysTFTPD INTEGER Enable(1) Disable(0) .1.3.6.1.4.1.5454.1.
- Page 134 .1.3.6.1.4.1.5454.1. FPGA(0), 60.2.2 modemDataPattern INTEGER MODEM(1) 0(FPGA) .1.3.6.1.4.1.5454.1. 60.2.3 modemBER DisplayString .1.3.6.1.4.1.5454.1. 60.2.4 modemMSE INTEGER .1.3.6.1.4.1.5454.1. 60.2.5 modemFER DisplayString 0(NOACQUIR 1(INPROGRE .1.3.6.1.4.1.5454.1. SS), 60.2.6.1 modemLockStatus INTEGER 2(LOCKED) .1.3.6.1.4.1.5454.1. 0(NORMAL), 60.2.6.2 modemTimingLock INTEGER 1(LOCKED) .1.3.6.1.4.1.5454.1. 0(NORMAL), 60.2.6.3 modemPreambleLock INTEGER 1(LOCKED) .1.3.6.1.4.1.5454.1. 0(NORMAL), 60.2.6.4 modemLDPCLock...
- Page 135 .1.3.6.1.4.1.5454.1. 60.2.7.4.3 sysACMQAM42MSEDegrade Opaque(Float) .1.3.6.1.4.1.5454.1. 60.2.7.4.4 sysACMQAM64MSEDegrade Opaque(Float) .1.3.6.1.4.1.5454.1. 60.2.7.4.5 sysACMQAM128MSEDegrade Opaque(Float) .1.3.6.1.4.1.5454.1. 60.2.7.4.6 sysACMQAM256MSEDegrade Opaque(Float) Trango RF OID’s Object ID Name Access Range Limit Default Value 0 (OFF), .1.3.6.1.4.1.5454.1.60.3.1.1 rfATPCEnable INTEGER 1(ON) 0(OFF) .1.3.6.1.4.1.5454.1.60.3.1.2 rfATPCMaxPower INTEGER 0-17 .1.3.6.1.4.1.5454.1.60.3.1.3 rfATPCStepSize INTEGER .1.3.6.1.4.1.5454.1.60.3.2 rfTxFrequency...
- Page 136 .1.3.6.1.4.1.5454.1.60.3.11.2 rfInDataPackets Counter32 4294967296 .1.3.6.1.4.1.5454.1.60.3.11.3 rfInDropPackets Counter32 4294967296 .1.3.6.1.4.1.5454.1.60.3.11.5 rfInPortUtil Counter32 0-100 .1.3.6.1.4.1.5454.1.60.3.12.1 rfOutDataPackets Counter32 4294967296 .1.3.6.1.4.1.5454.1.60.3.12.2 rfOutDataOctet Counter32 4294967296 .1.3.6.1.4.1.5454.1.60.3.12.3 rfOutPortUtil Counter32 0-100 Trango Gig-E OID’s Range Object ID Name Access Limit Default Value 0(OFF), .1.3.6.1.4.1.5454.1.60.4.1.1 gigeIBMEnable INTEGER 1(ON) 1(OFF) .1.3.6.1.4.1.5454.1.60.4.1.2 gigeIBMIp...
- Page 137 .1.3.6.1.4.1.5454.1.60.4.11.1 gigeEth1InNUcastPackets Counter32 4294967296 .1.3.6.1.4.1.5454.1.60.4.11.2 gigeEth2InNUcastPackets Counter32 4294967296 .1.3.6.1.4.1.5454.1.60.4.12.1 gigeEth1InTotalPackets Counter32 4294967296 .1.3.6.1.4.1.5454.1.60.4.12.2 gigeEth2InTotalPackets Counter32 4294967296 .1.3.6.1.4.1.5454.1.60.4.13.1 gigeEth1OutOctets Counter32 4294967296 .1.3.6.1.4.1.5454.1.60.4.13.2 gigeEth2OutOctets Counter32 4294967296 .1.3.6.1.4.1.5454.1.60.4.14.1 gigeEth1OutUcastPackets Counter32 4294967296 .1.3.6.1.4.1.5454.1.60.4.14.2 gigeEth2OutUcastPackets Counter32 4294967296 .1.3.6.1.4.1.5454.1.60.4.15.1 gigeEth1OutNUcastPackets Counter32 4294967296 .1.3.6.1.4.1.5454.1.60.4.15.2 gigeEth2OutNUcastPackets Counter32 4294967296 .1.3.6.1.4.1.5454.1.60.4.16.1 gigeEth1OutTotalPackets Counter32...
- Page 138 0(OFF), .1.3.6.1.4.1.5454.1.60.4.20.2 gigeEth2AutoNegotiate INTEGER 1(ON) 1(ON) Trango Trap OID’s Object ID Name Access Range Limit Default Value .1.3.6.1.4.1.5454.1.60.6.1 trapReboot .1.3.6.1.4.1.5454.1.60.6.2 trapStartUp 0(NORMAL), .1.3.6.1.4.1.5454.1.60.6.3 trapModemLock 1(LOCKED) Current MSE .1.3.6.1.4.1.5454.1.60.6.4.1.1 trapMSEMinThreshold value Current MSE value .1.3.6.1.4.1.5454.1.60.6.4.1.2 trapMSEMaxThreshold Current BER .1.3.6.1.4.1.5454.1.60.6.4.2.1 trapBERMinThreshold value Current BER .1.3.6.1.4.1.5454.1.60.6.4.2.2 trapBERMaxThreshold...
- Page 139 .1.3.6.1.4.1.5454.1.60.6.8 trapDownShift .1.3.6.1.4.1.5454.1.60.6.9 trapRapidPortShutdown TrangoLINK Apex™ 18 User Manual Rev. 1.0 Section: Appendix D – MIB Page 137...
-
Page 140: Appendix E - Part Numbers
-48 VCD Universal Desktop Power Supply, 1.5 A POE-APEX-48 Power Over Ethernet Box, 48v, Rev A APEX18-PRT 1+1 Protection Kit, Data Cable, Vertical Polarized, for TrangoLINK APEX 18 APEX18-VCMB 1+1 RF Combiner for TrangoLINK APEX™18 ODU, Vertical Polarized APEX18-HCPL Horizontal polarization Transition for APEX18-PRT & APEX18-CPL CBLDAT-RIU2 Data Cable for 1+ 1 Redundant TrangoLINK APEX™... -
Page 141: Glossary - Acronyms
Glossary - Acronyms Automatic Gain Control ATPC Automatic Transmit Power Control Bit Error Rate Band Pass Filter Cat5 Category 5 Cable Class Of Service Decibel Federal Communication Commission Forward Error Correction FPGA Field Programmable Gate-Array File Transfer Protocol GigE Gigabit Ethernet HTTP HyperText Transfer Protocol HTTPD... - Page 142 Quality of Service QPSK Quadrature Phase Shift Keying Radio Frequency RJ-45 Registered Jack - 45 RS-232 Recommended Standard 232 RSSI Receive Signal Strength Indicator Receive SNMP Simple Network Management Protocol Secure Shell Sysinfo System Information Threshold to Interference TFTP Trivial File Transfer Protocol TFTPD Trivial File Transfer Protocol Daemon Transmit...