Tsunami™ GX800 Installation and Management Guide Software Version: FW0209_03 Documentation Version: 1.
Table of Contents Chapter 1 - Introduction.............................................................................4 About Tsunami™ GX800..........................................................................................4 Device Features........................................................................................................4 Chapter 2 – Hardware Overview..................................................................5 Product(s) Covered in this Guide ............................
General Screen.......................................................................................................24 IP Address Setup....................................................................................................25 Interconnection of LAN A-B Ethernet Switches..................................................27 Dual License - Design Type Setup..........................................................................28 Frequency, Modulation and ATPC Setup...............................
Chapter 1 - Introduction About Tsunami™ GX800 TsunamiTM GX800 is a licensed microwave Point-to-Point link with up to 600Mbps aggregate throughput with ultra low latency of 100μs offering unparalleled capacity and reliability for Carriers, Service Providers and Enterprise Markets. It supports a wide frequency bands from 638 GHz with range of user configurable channel bandwidths from 7-56 MHz to match licensing regulations.
Chapter 2 Hardware Overview Product(s) Covered in this Guide Model Product Description GX800-6U/L Tsunami GX800, 6U/6L GHz Microwave Link Series GX800-07 Tsunami GX800, 7 GHz Microwave Link Series GX800-08 Tsunami GX800, 8 GHz Microwave Link Series GX800-10/11 Tsunami GX800, 10/11 GHz Microwave Link Series GX800-13 Tsunami GX800, 13 GHz Microwave Link Series GX800-15 Tsunami GX800, 15 GHz Microwave Link Series GX800-18 Tsunami GX800, 18 GHz Microwave Link Series GX800-23 Tsunami GX800, 23
Grounding Kit for IDU (2 Qty) Quick Installation Guide Please verify that you have received all the parts in the shipment, prior to the installation. Tsunami™ GX800 Wireless Radio System The Tsunami™ GX800 product has an extremely small foot print and comes in a split-mount design, which includes a Compact Indoor Unit (IDU) and an Outdoor Unit (ODU). Indoor Unit (IDU) The Indoor Unit (IDU) act as a Data Multiplexer and at the same time as the Digital Modem (DSP) of the whole system.
10/100 Fast Ethernet Port Management/user traffic interface with fast Ethernet port for data and/or Network Management System (NMS) RS232 RJ45 to RS232 Serial port (ASCII console) for local management USB A USB memory management port USB B Craft port. This port is used for production only and not by the end user.
The ODU consists of the following components: Components Description IF Connection to the IDU Connector to connect ODU to the IDU RSSI (BNC) Connector RSSI (BNC) connector to obtain RSSI readings Grounding Screw A provision to ground the ODU Direct Mount Slip Fit / Waveguide Port Direct Mount: A provision to directly mount the ODU to the antenna Remote Mount: Depending on the frequency, a provision to connect the ODU to the antenna through Waveguide or Coaxial N-Type SMA Connector.
device is known as DC-Passing. It is also important that the IF frequencies of 140MHz and 350MHz be supported by the device. Proxim offers a suitable model in the price list. Grounding Kit To ensure good lightning protection for the radio units, install grounding kits on every 50m cable (each 50 m for long cables) at the building entrance. We recommend to ground the IDU to the rack cabinet and the ODU to the place, where these units are mounted such as mast mount, pole and so on.
Chapter 3 Installation and Initialization Introduction The device must be installed either by a trained professional familiar with radio frequency planning and the regulatory limits. The equipment must be installed in accordance with the country national electrical codes. Required Installation tools Listed below are the installation tools necessary for installation of the GX800 link.
1. Fix the small L-shaped clamps (supplied with the product package) to any one side of the IDUs with the provided screws and washers. 2. Connect both the IDUs with the Dual IDU Mount kit (not supplied with the product package) 3. Next, fix the connected IDUs to the rack. Figure 4: Dual IDUs Mounting !! CAUTION !! Do not forget to ground the IDU to the rack cabinet with the help of Grounding kit (supplied with the product package).
Polarization ODU Position Vertical Polarization Horizontal Polarization !! ATTENTION !! During installation, please ensure that the ODU waveguide slot matches with the Antenna ODU Interface slot. Remote Mount Follow these steps for remote mount: 1. Fix the ODU remote mounting kit (not supplied with the product package) to the pole 2. On the ODU side of the Flange Adapter, fix the ODU. 3. On the flex side of the Flange Adapter, connect one end of the Waveguide.
!! ATTENTION !! • Do not plug in ODU while IDU is powered on as this may damage the ODU. • Before connecting the coaxial cable to the ODU and IDU, please measure the cable impedance or measure the cable adjustment. Figure 7: IDU - ODU Cabling Connect to the Gigabit Ethernet Port To manage the entire system (link), plug in the Ethernet cable into the 10/100/1000 Gigabit Ethernet Port of the IDU. The connector wiring is shown below.
1 8 Figure 9: Pin Assignments for 10/100 Fast Ethernet Port Pin 1 - TX+, Pin 2 - TXPin 3 - RX+, Pin 6 RX- Connect to RJ45 to RS232 Port For local management, plug in the console cable into RJ45 to RS232 port. The connector wiring is shown below.
Basic Configuration For the initial configuration, use a Personal Computer (PC) with an Ethernet interface, and current Web Browser (Mozilla, Internet Explorer, Chrome and so on). The operator should have administrative rights on the PC, with the ability to change the adapters IP address and other interface settings. Follow the following steps to perform basic configuration of the device: 1. First set your computer's IP address to the range which corresponds to the default IDU factory setup.
modes and their passwords refer to Access Rights. Upon successful logon, you are directed to the device home page. Figure 13: Home Screen 4. Navigate to the IP tab and change the Primary IP address. When complete, click Apply.
5. You are now prompted to Write and Reload the device. Click Write_and_Reload for the IP change to take effect. Figure 15: Save IP Configuration 6. Log back into the device by using either the Primary or Secondary IP address. 7. Navigate to the Radio tab and perform the following: • Under ODU Configuration, verify if Tx and Rx center frequencies match your license. • Under Modem Configuration, select the Modulation and Channel Bandwidth in accordance with the link design and licensed operation.
screen. To logout, click LOGOUT and repeat the same steps on the remote side of the link. !! ATTENTION !! Do not forget to save the configured parameters by performing a “COMMIT” operation. Aligning the Antennas Align the antenna (not supplied) only when both the terminals are operating in normal weather conditions. Antenna alignment can be done in both horizontal and vertical directions by using a DC voltmeter. The higher the measured voltage is, the highest is the received signal level.
the value of the measured signal varies significantly, and so the measurement risks becomes inaccurate. !! ATTENTION !! When aligning the antennas watch out for the possibility of "false" alignment on the side lobes of remote antenna. It is important to identify main lobe antenna, by rotating the antenna to have the maximum RSL voltage. The value of RSL should always correspond to expected calculated value of input signal strength.
Five Minute Link Quality Measurement (Optional) The next step is a five minute BER measurement test of the link. Note that to perform this test, data interface connection is not required. To perform this test, do the following: 1. Click Clear in the General tab to clear all counters and validate all alarms on local and remote side of the link. 2. Wait for 5 minutes and then navigate to Count tab and select sub-menu MUX.
Connecting IDU to External Equipments Connecting External Equipments through HSI port Depending on the configuration (customer´s order) the IDU is equipped with specific HSI module. To extend the functionality of GX800 system with 1-2 E1/T1 ports, use IDU configuration with inserted HSI-2E1/T1 module. You can directly connect to a maximum of two E1/T1 lines or devices through RJ48 connector. Figure 20: HSI 2xE1/T1 Module To extend the functionality of GX800 system with 1 E3/DS3 (G.
Chapter 4 - Commissioning Introduction After the installation of the link, it is necessary to carry out the complete setup of all the required link parameters including IP management. It is recommended to save the parameters such as IP addresses, Tx Frequency, Tx Power as these parameters can be restored easily in case of the device replacement. This section covers the method to set up GX800 link by using Web Interface. The link setup by using text commands is covered in Appendix A – Command Set.
The following alert message is displayed, when a user is already logged in and an Administrator tries to login. Figure 22: Admin Login – Alert Window Restore Defaults To restore the default access names and passwords (admin/secret, user/test, guest/-) including the secondary IP address, follow any one of the below methods: • Restore using RS232 Console: • Establish a serial connection • Enter Login name as default • Enter Password as restore.
The device has an automatic time-out option, which automatically logs out a user if no configuration/operation is performed in the past 10 minutes. A “User” can logout another logged in “User” but not an “Admin”. However, an “Admin” can logout any user. !! ATTENTION !! During the setup or to view the previous screens, do not use the browser functions “back“ and “refresh“! Use only the tabbed menu of the device, always with a single click for a particular operation.
• • • • • usually in the range of -12dB to -40dB. For QPSK modulation, the limit value is -10.5dB; for QAM128 modulation, the limit value is -26dB. (Well designed and installed link has usually MSE value of -32dB and lower, so the link runs without the errors in QAM 128 modulation). Note that MSE parameter might display unpredictable values, if Modem sync is not set to OK status,.
Figure 25: IP Address For example, a device in the network has IP 192.168.3.0/24, gateway 192.168.3.1. The management data can be transmitted together with the user data through the common cable connected from the same switch into single Gigabit Ethernet port (port for user data). Figure 26: IP setup for device A (left) and device B (right) After configuring the IP settings, click Apply.
Click Write_and_Reload to save the new configuration parameters onto Write_W0 startup memory. !! NOTE !! Proxyarp feature is accessible in ADMIN mode only. !! ATTENTION !! Any change or modification in the IP setting takes effect only after saving the configuration to “Write_W0” memory followed by device restart.
Dual License - Design Type Setup For all the modulations schemes and bandwidths, Proxim provides one unified firmware (from version 0207 and higher). The firmware support two design types: • Design type 301, which permits to switch between bandwidths in the range 7 – 30MHz • Design type 303, which permits to switch between bandwidths in the range 28 – 56MHz The firmware adapts automatically to uploaded license file in the device.
of modulation with a lower data rate there is better self-correcting security and thus a better sensitivity (revision _01 or _02). Depending on the type of supplied license (limit for maximum data rate) the modulation type can be changed (type of modulation can be set / changed up to a maximum transmission capacity). Microwave link can be ordered in the different licenses in accordance with actual price list and business policy.
Figure 30: Modulation Setup without ACM Adaptive Modulation Setup ACM can be set by using the following three options: • Adaptive Modulation 0 (ACM0) is for the highest throughput and the lowest security • Adaptive Modulation 1 (ACM1) and 2 (ACM2) for the lower data throughput and better security. The desired ACM steps should be set at least in two fields ACM0 – ACM1 (see the following figure). A user is allowed to set the ACM only when the Enable ACM box is unchecked.
Figure 31: Modulation with ACM After setting the ACM parameters, check the Enable ACM parameter and click Apply. On doing so, all the ACM parameters turn Grey. The currently modulation (Actual Modulation) is compared with the ACM options (ACM0-2).
Ethernet Advanced Configuration To configure advanced Ethernet configuration, navigate to main menu “Ports” and sub-menu “Advanced”. Figure 32: Ethernet Advanced Configuration You can configure Gigabit Ethernet in the following modes: • • • CRC Mode: Recalculates wrong CRC in Ethernet packets that are received on WAN A. When set to standard, the error packets are discarded. When set to force, the CRC calculation is done on the received packets.
Example 1 For Ethernet transmission, with a modulation scheme 128QAM and bandwidth 28MHz, the real user data rate is 156.99Mbps and the real data throughput is 163.24Mbps. In the Web Browser, navigate to main menu “Ports” and sub-menu “Parameters” and set the LAN SPEED as 200 Mbps (the overall capacity is allocated to Ethernet data, which is 156.99Mbps; no other interface is detected). Figure 33: Data Rate In the similar way, set the same values on the other side of the link.
Figure 34: Setting Connection Data Channels Check the box T1_1 to map available T1_1 channel onto T1 port. The T1 signal then takes 1.55Mbps from overall available user data rate. Remaining 155.44Mbps is allocated to Ethernet data. (Make sure “rfi” option is selected.) Set Ethernet LAN SPEED to 200 Mbps (the remaining capacity (155.44Mbps) will be allocated to Ethernet data) In the similar way, set the same values on the other side of the link. Click “Apply” to commit the configured values.
Save Configured Parameters The configured parameters must be saved, so that they are valid even after the device restarts. The IDU contains four memories. The first memory, referred to as W0, is the boot memory. During the device startup, the link parameters are uploaded from this memory. The remaining memories, referred to as W1, W2 and W3, can be used for configuration backup, testing configuration and so on. IP configuration is saved independently into W0 reboot memory only.
BER Test – GX800 Link and User Lines Verification Bit Error Rate (BER) test is used to test and verify the quality of GX800 link and the connected user lines by using internal BER tester. GX800 BER Test: A) We recommend to allocate the full transmission capacity of GX800 to BER test for a limited period of time. This way, even accidental and momentary errors can be detected.
!! Note !! For BER test, configure the parameters on both the terminals equally. After configuring the parameters, click Apply. User Line BER Test: For the user line BER test, the full capacity of the line is devoted to BER tester. The BER signal is directed to the selected channel and sent in the direction of HSI module of the IDU. Use loop on the line to bring the signal back and verify the line quality.
Figure 38: BER Tester Information The STATISTICS screen is displayed which contains the following information: • • • • • • • • • • • • Status: Indicates the sync status and the received BER pattern Conf. Speed: Capacity set for BER tester Act.
Analysis of Interference in GX800 link Integrated Spectral Analyzer is a suitable tool for finding free channels in a given frequency band, eventually for link interference. For licensed bands, you can use the Analyzer for the free frequency verification. Spectrum Analyzer is available in ADMIN and USER mode. Frequency Analysis at Local Side: Before finding if the given frequency spectrum is free or occupied, you have to mute the transmitter on one side (ideally remote side).
Figure 39: Spectrum Analyzer Setup and Output Next, click Analyze to start the spectrum analysis at the local terminal. In licensed bands, the Analyze over whole band option causes analysis through the whole spectrum with a wider frequency spacing (14MHz), otherwise the analysis is made in 56MHz range only around the RX frequency with spacing 3.5MHz. Frequency Analysis at Remote Side: It is also possible to set a pause before scanning the spectrum. This is suitable for analyzing the remote device.
Before the pause at remote side elapses, click Mute ODU on local side for a specified period of time (example 150 seconds) and wait for the analyze to finish. After that, the units should interconnect again and the management of remote unit will be possible again. Finally, check the frequency analyze at remote side. !! Note !! Spectrum analysis for licensed bands last approximately for 150 seconds. During this time, no data passes through the link.
Figure 40: Alert Window for Firmware Upload 4. Alternatively, navigate to main menu “Maintenance” and sub-menu “FW Upgrade”, and select the file patch001.afw (if it is required) and increase the maximum limit size for the file upload. 5. Navigate to main menu “Maintenance” and sub-menu “FW Upgrade” and choose one of the following steps: • Select the file fw_all.afw from the provided software package.
Upgrading the License The license key comprises the list of available modulation schemes and bandwidths. Each license key is unique for each IDU with respect to SN number of the IDU. To find the SN of the IDU where the license key will be uploaded, navigate to main menu “General” and sub-menu “License”.
Compare the SN of IDU with license key which appear as: licxxxxxxxxxxxxxxxx.afw The string of “x” is the serial number of device for which the license key is generated. The license upgrade is performed the same way as firmware upgrade described above. Restart the IDU after the license upgrade. To restart, navigate to main menu “Maintenance” and sub-menu “Miscellaneous” and click REBOOT. Alarms GX800 generates the error messages (events) indicating its status and events.
Number Title Description 600 g703 p1 link No valid E1 signal on p1 port 601 g703 p1 ais Detecting sequence “1” (according to the ITU G.755 norm for E1) on p1 port 602 g703 p2 link No valid E1 signal on p2 port 603 g703 p2 ais Detecting sequence “1” (according to the ITU G.
Figure 43: SNMP The SNMP configurable parameters are, • Enable SNMP: Indicates the access rights of an SNMP agent • SNMP Port: Port number for IP-SNMP access • RO Community: Community string for read-only access • RO Net/Mask1-3: Accessible address/net for read access • RW Community: Community string for write access • RW Net/Mask1-3: Accessible address/net for write access • Trap Address1-3: IP address for SNMP traps distributions • Trap Port: Port number for IP-SNMP Trap messages After configuring the pa
brought via the common Gigabit cable from the external Ethernet switch to IDU (see IDU1 and IDU2 in Figure 44 below). Given below is an example which illustrates the connection of individual management ports in the IDUs along with the method to configure IP settings of both the IDUs.
Figure 45: Out-of-band management over Fast ETHERNET port – Access from one side By modifying this configuration, we can get limited access also from the second side of the link. For example, by setting the mask on the B-side to 30, the IP of the management PC on B-side will be 10.11.12.4/30 and it will have the gateway set to 10.11.12.3. Then set the static route of the device for the management PC on the A-side: via IP/dev rfi1: dev rfi1 Routed IP/MASK: 10.11.12.
Figure 46: Out-of-Band Management over Fast Ethernet Port The figure below indicates the IP settings for both the IDUs. The device A is in the subnet 10.11.12.xx/24 and the device B is in the subnet 10.11.13.xx/24. Figure 47: IP setup for device A (left) and device B (right) The example of adding NAT and route rules is shown in the following figure.
Figure 48: Static Routes and NAT Setup for device A (left) and device B (right) In-band and Out-of-band Management – NAT The simplest and the most recommended solution is a combination of in-band and out-of-band management. This solution permits access from one or both sides of the link via Gigabit ETHERNET port and also from Fast ETHERNET port (beware of and avoid possible loop on Ethernet). The remote device can be managed via In-band management and Out-of-Band management.
Figure 49: In-band and Out-of-band Management – NAT Tsunami™ GX800 Installation and Management Guide 51
Chapter 5 Troubleshooting User Login Problems A user logs out from the application without LOGOUT only when another user logs in and kill the current user. Please note that an Administrator user can kill USER/GUEST but vice-versa is not applicable. To avoid login problems, do not use browser's “back“, “forward” or “refresh” buttons but only the links and buttons of the web interface. A user might log out also when the link takes longer time to respond.
Problems with MSE Check the received power at ODU. If it is OK, switch off the opposite ODU and scan the band (Radio / analyzer). By this, you will find the background noise in a given band. If the problem is not caused by noise, check the RF cable (connectors, shielding and so on). Problems with Failing Link Check the counters on RFI (Count / rfi/hsi), erase (button Clear) and check the counters on RFI again.
Chapter 6 - Technical Parameters General Item Parameter Frequency Operating Frequency Range 6 to 38 GHz Modulation Data Transmission Value Frequency Plans According to CEPT/ITU-R recommendations T/R Spacing According to CEPT/ITU-R recommendations Modulation Schemes QPSK, 16QAM, 32QAM, 64QAM, 128QAM, 256QAM ACM Three step adaptive modulation (user-defined) CEPT/ETSI Bandwidths 7/14(13.75)/28(27.
6740 6800 160 60 6620 6680 160 60 6780 6840 160 60 6660 6710 160 50 6820 6870 160 50 6540 6590 170 50 6710 6760 170 50 6580 6630 170 50 6750 6800 170 50 6620 6670 170 50 6790 6840 170 50 6660 6700 170 40 6830 6870 170 40 6425 6509 340 84 6765 6849 340 84 6481 6564 340 83 6821 6904 340 83 6536 6619 340 83 6876 6959 340 83 6591 6674 340 83 6931 7014 340 83 6646 6729 340 83 6986 7069 340 83 6701 6785 340 84 7041 71
7177 7233 196 56 7373 7429 196 56 7205 7261 196 56 7401 7457 196 56 7114 7177 161 63 7275 7338 161 63 7149 7212 161 63 7310 7373 161 63 7184 7247 161 63 7345 7408 161 63 7219 7282 161 63 7380 7443 161 63 7239 7302 161 63 7400 7463 161 63 7274 7337 161 63 7435 7498 161 63 7309 7372 161 63 7470 7533 161 63 7344 7407 161 63 7505 7568 161 63 7414 7477 161 63 7575 7638 161 63 7449 7512 161 63 7610 7673 161 63 7484 75
7478.5 7541.5 160 63 7638.5 7701.
8146 8282 311.
14893 15012 490 119 14515 14634 490 119 15005 15124 490 119 14627 14746 490 119 15117 15236 490 119 14739 14858 490 119 15229 15348 490 119 14500 14668 475 168 14975 15143 475 168 14660 14828 475 168 15135 15303 475 168 14715 14883 475 168 15190 15358 475 168 14500 14610 640 110 15140 15250 640 110 14605 14715 640 110 15245 15355 640 110 14400 14512 644 112 15044 15156 644 112 14498 14610 644 112 15142 15254 644 112 14596 1
23294 23608 1008 314 21200 21600 1200 400 22400 22800 1200 400 21600 22000 1200 400 22800 23200 1200 400 22000 22400 1200 400 23200 23600 1200 400 21200 21500 1232 300 22432 22732 1232 300 21472 21786 1232 314 22704 23018 1232 314 21779 22093 1232 314 23011 23325 1232 314 22086 22386 1232 300 23318 23618 1232 300 26 GHz 25050 25250 800 200 24549 24871 1008 322 25557 25879 1008 322 24843 25151 1008 308 25851 26159 1008 308 25123
QAM16_14e6_01 16QAM 14 -83.7 40.05 14M0D1D QAM16_14e6_02 16QAM 14 -82.6 42.98 14M0D1D QAM32_14e6_01 32QAM 14 -80.6 50.1 14M0D1D QAM32_14e6_02 32QAM 14 -79.3 53.75 14M0D1D QAM64_14e6_01 64QAM 14 -77.2 60.14 14M0D1D QAM64_14e6_02 64QAM 14 -75.9 64.52 14M0D1D QAM128_14e6_01 128QAM 14 -72.1 75.3 14M0D1D QAM128_14e6_02 128QAM 14 -71.8 76.57 14M0D1D QPSK_28e6_01 QPSK 28 -86.3 38.88 28M0D1D QPSK_28e6_02 QPSK 28 -85.1 44.
ANSI Modulations QPSK_10e6_01 QPSK 10 -91.2 14.28 10M0D1D QPSK_10e6_02 QPSK 10 -90.2 15.33 10M0D1D QAM16_10e6_01 16QAM 10 -85 28.94 10M0D1D QAM16_10e6_02 16QAM 10 -84 30.77 10M0D1D QAM32_10e6_01 32QAM 10 -81.8 36.2 10M0D1D QAM32_10e6_02 32QAM 10 -80.8 38.49 10M0D1D QAM64_10e6_01 64QAM 10 -78.5 43.46 10M0D1D QAM64_10e6_02 64QAM 10 -77.5 46.21 10M0D1D QPSK_20e6_01 QPSK 20 -87.8 29.51 20M0D1D QPSK_20e6_02 QPSK 20 -86.8 31.
QAM256_40e6_01 256QAM 40 -66.5 225.4 40M0D1D QAM256_40e6_02 256QAM 40 -65.2 239.62 40M0D1D QPSK_50e6_01 QPSK 50 -83.4 73.7 50M0D1D QPSK_50e6_02 QPSK 50 -82.4 79.07 50M0D1D QAM16_50e6_01 16QAM 50 -77.9 147.51 50M0D1D QAM16_50e6_02 16QAM 50 -76.9 158.25 50M0D1D QAM32_50e6_01 32QAM 50 -74.9 184.42 50M0D1D QAM32_50e6_02 32QAM 50 -73.6 197.84 50M0D1D QAM64_50e6_01 64QAM 50 -71.7 221.32 50M0D1D QAM64_50e6_02 64QAM 50 -70.7 237.
QoS 802.
Power Consumption Environmental Operational Conditions IDU only Less than 20 Watts ODU only Less than 35 Watts IDU+ODU Less than < 55 Watts Maximum ODU current up to 1.8 A DC IDU Temperature ETS 300 019 Class 3.
Chapter 7 - Appendix Appendix A – Command Set Description of Command Line Interface When you logon to the device through CLI, the following command prompt (telnet, hyper terminal) appears. Name_NM\# Name N M \ # - name of device N/E – current status of device N/E – historically was/ was not error “\” saved / “I” unsaved changes “>” classical / “#” enable mod Brief Description of the Commands The command “sh system” displays the general status of the device.
649 mod_los : on err 650 rfi_los : off err 651 rfi_fer : off ok 652 idu_temp : on ok 653 odu_temp : on err 654 odu_RxL : on err 655 odu_comm : on err 656 odu_alarm : on ok 657 license : on ok 660 idu_hwerr : on ok 661 idu_swerr : on ok 600 g703_p1_link : off ok 601 g703_p1_ais : off ok 602 g703_p2_link : off ok 603 g703_p2_ais : off ok 632 lana1_link : off err 636 lanb1_link : off ok 640 hsi_los : off err 641 hsi_fer : off ok 649 mod_los : on ok 650 rfi_los : on ok 651 rfi_fer : on ok 652 idu_temp : on ok 6
xxx|#sh alarm dump IDC_119.226.223.36_NN\#sh alarm dump N 644 119.226.223.36 mse_low Mon Dec 6 11:22:14 2010 E 644 119.226.223.36 mse_low Mon Dec 6 11:22:15 2010 E 654 119.226.223.36 odu_RxL(-90) Mon Dec 6 11:22:18 2010 E 656 119.226.223.36 odu_alarm(0x20) Mon Dec 6 11:22:18 2010 N 644 119.226.223.36 mse_low Mon Dec 6 11:22:25 2010 N 654 119.226.223.36 odu_RxL(-36) Mon Dec 6 11:22:25 2010 N 656 119.226.223.36 odu_alarm(0x0) Mon Dec 6 11:22:25 2010 E 644 119.226.223.
LANB1 frm tx : 366 frm rx : 953 frm err : 0 LANB2 frm tx : 0 frm rx : 0 frm err : 0 WANB1 frm tx : 953 frm rx : 366 frm err : 0 xxx\#sh ber status : sync random conf speed:100Mbps act. speed: 34.6Mbps tx pattern: random bit count : 1.
link : ok aneg : off duplex : full speed : 100m xxx\#sh st system SYSTEM status : ok design : user temp. : 49.2C date : Wed, 01.10. 2008 08:15:44 +0200 METDST uptime : 0d 19:25:45 fans : auto-on 11370, 11160 rpm RADIO rxlevel: -52dBm temp. : 37.
RADIO-Status Alarms(00) : 00 Temp : 50.0C RX_PWR(dBm): -46 Subband : A MW band : 11.00 GHz Band level : L SDH/PDH : T Side-r : L T/R value : 490.00MHz Tx f band : 10700-10890MHz Ok xxx\#sh rad atpc atpc : off off) cur. txp.: 5dBm max txp. : 5dBm cur. rxl.: -55dBm min rxl.
Temp : 43.0C RX_PWR(dBm): -55 T/R value : -1010.000 Tx f band : 1918419687 RSSI (dBm) : -54.8 ok ok xxx\#run fd xxx\#run w0 xxx\#run w1 xxx\#run auto xxx\#write w0 xxx\#write w1 Tsunami™ GX800 Installation and Management Guide - status of command sh rad st - status of command sh hsi delayed - records factory default configuration (does not change settings) - records saved configuration of device after reset - records saved configuration of device from w1(-3) position - automatic update of configuration (
Appendix B – Using “Help” in Text Terminal xxx\>? - ? : print help... - clear : clear counters (?) - delayed : [x] [cmd] run cmd after x seconds, result in "show hist del" - enable : enable setting - ping : [xx.xx.xx.xx] ping to ip - quit : quit & logout - show : system status & config & counters (?) - telnet : [xx.xx.xx.xx] telnet to ip ok xxx\>enable ok xxx\#? - ? : print help...
Appendix C - IDU Functionality The following figure illustrates the functionality of an IDU. Figure 50: Block Diagram of the IDU The circuits of the Ethernet interface and the HSI module together with Digital Multiplexer (DATA MUX), Digital Modem (DSP block), Central Processing Unit (CPU) and the Analog signal processing block are the essential functional blocks of the IDU. Data is first processed by the Ethernet physical layer, followed by the HSI interface.
Figure 51: Block Diagram of Data MUX The priorities for data transmission are assigned in the following order: 1. Service monitoring channel signal for management - 115 kbps (the highest priority) 2. Signal E3/T3 from the Internal Bus – 34.368 / 44.736 Mbps 3. Signals E2 from the Internal Bus (channels 2 to 4) – 3 x 8.448 Mbps 4. Signals E1/T1 from the Internal Bus (channels 1 to 4 / 2) – 4 x 2,048 Mbps / 2 x 1,544 Mbps 5. Signal from Ethernet block – 0 up to 400 Mbps (400 for 56MHz) 6.
Appendix D – Abbreviation List AGC Automatic Gain Control AIS Alarm Indication Signal ANEG Auto Negotiation ATPC Automatic Power Control ATU Table of MAC addresses BER Bit Error Rate BNC Bayonet Neill-Concelman CPU Central Processing Unit CRC Cyclic Redundancy Check DC Direct Current FEC Forward Error Correction FER Frame Error Rate HSI High Speed interface IDU Indoor Unit IF Intermediate Frequency LAN Local Area Network MSE Mean Square Error NAT Network Address Translatio
IMPORTANT NOTE: FCC Radiation Exposure Statement: This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance 530cm between the radiator & your body.
