MDR5800 User Manual MDR5800 Digital Radio User Manual Document Number: 862-01881 862-01881 Issue 6 Page 1
MDR5800 User Manual Issue Status Issue 1 2 3 4 5 6 Revised Pages/Amendments 1 31 2 General – terminology definition PER used instead of BER to remove interpretation ambiguity between Block Error Rate and Bit Error Rate. Note Block (equivalent to packet) concept is still maintained within sections describing G.826 parameters to maintain consistency with G.826 terminology.
MDR5800 User Manual Publication Number: 862-01881 Issue 6 April 2001 © 1999 Tellumat (Pty) Limited The information contained herein is the property of Tellumat (Pty) Limited and is supplied without liability for errors or omissions. No part may be reproduced, used or disclosed except as authorised by contract or other written permission.
MDR5800 User Manual Table of Contents Page 1 INTRODUCTION 9 1.1 MDR5800 Description 9 2 TECHNICAL DESCRIPTION 11 2.1 System Overview 11 2.2 Outdoor Unit 11 2.2.1 Frequency plans 12 2.2.2 RF Power Output Options 13 2.2.3 MDR5800 Outdoor Unit 13 2.3 Indoor Unit 14 2.3.1 Payload Interface Options 14 2.3.2 Service (Wayside) Serial Data Channel 16 2.3.3 Element Manager Port 16 2.3.4 10BaseT Ethernet RJ45 Port 16 2.3.5 IU/OU Link LED 17 2.3.
MDR5800 User Manual 3.5.2 Frequency Multiplexing 23 3.5.3 Antenna Isolation 23 4 INSTALLATION 25 4.1 Customer Furnished Tools and Equipment 26 4.2 Indoor Unit 27 4.2.1 Introduction 27 4.2.2 Installing the Indoor Unit in a Rack 27 4.2.3 Connecting a DC Power Supply 28 4.2.4 Balanced Payload Data 29 4.2.5 Connecting Auxiliary In/Out (Optional) 30 4.2.6 Connecting the Service (Wayside) Serial Channel (Optional) 31 4.2.7 Connecting the Element Manager Port 31 4.3 4.3.1 4.4 4.
MDR5800 User Manual 6.3 6.3.1 6.4 Main Screen Link Elements Areas NMS Menus 45 46 47 6.4.1 Main Screen Menus 47 6.4.2 Main Screen Short-cut Buttons 49 6.5 Indoor Unit Configuration 49 6.5.1 Controls 49 6.5.2 Menu Items 52 6.6 Outdoor Unit Configuration 56 6.6.1 Controls 56 6.6.2 Menu Items 56 6.6.3 OU Station Info 57 6.6.4 Outdoor Unit Status 57 6.7 RF Link Error Status Monitoring 58 6.7.1 RF Link Status 58 6.7.2 Packet Error Rate Thresholds 58 6.7.
MDR5800 User Manual 8.5.7 Wayside channel interface 67 8.5.8 Element Manager Port Interface 67 8.5.9 Indoor/Outdoor Unit Interface 67 8.6 Ordering Information 9 APPENDIX A: ELEMENT MANAGER PORT POINT-TO-POINT SERIAL COMMUNICATIONS SETUP72 9.1 Adding a Modem : Windows NT 73 9.2 Adding Dial-up Networking : Windows NT 77 9.2.1 To add dial-up networking 69 77 9.3 Adding a Modem : Windows 95/98 82 9.
MDR5800 User Manual List of Abbreviations BIT Built-in-Test AIS Alarm Indication Signal PER Packet (or Block) Error Rate DC Direct Current DCE Data Communications Equipment DRL Digital Radio Link DRS Digital Radio Station DTE Data Terminal Equipment IU Indoor Unit ISM Industrial, Scientific and Medical LED Light Emitting Diode LOS Loss of signal Mbps Megabits per second N.C Normally-closed N.
MDR5800 User Manual 1 INTRODUCTION 1.1 MDR5800 Description The MDR5800 is a 5.8 GHz digital radio system that provides short to medium range, point-to-point digital communication with high data security at rates of E1, 2E1 or 4E1. Alternatively, the radio can be software configured to convey T1, 2T1 or 4T1. The radio can also be configured to bridge or route IP via a 10BaseT Ethernet port.
MDR5800 User Manual Table 1 lists the MDR5800 model variants. Table 1. MDR5800 model variants Model Number Interfaces Antenna Coupling Antenna Type MDR5800-ET1 E1/T1 N-type Female Customer supplied N-type Female Customer supplied N-type Female Customer supplied 10BaseT Ethernet MDR5800-ET2 2 x E1 / 2 x T1 10BaseT Ethernet MDR5800-ET4 4 x E1 / 4 x T1 10BaseT Ethernet Refer to section 8 for Ordering details. The Network Management System provides control and management of the product.
MDR5800 User Manual 2 TECHNICAL DESCRIPTION 2.1 System Overview A MDR5800 digital radio link (DRL) consists of a pair of MDR5800 radio stations. MDR5800 ODU MDR5800 IDU User Data MDR5800 ODU MDR5800 IDU User Data The MDR5800 radio station consists of two main parts: • An Outdoor Unit operating in the 5.8 GHz ISM frequency band. The Outdoor Unit provides the radio transceiver functionality by accepting radio link data from the Indoor Unit and converting it to the 5.
MDR5800 User Manual 2.2.1 Frequency plans The MDR5800 Outdoor Units operate in the 5.725 GHz to 5.850 GHz ISM frequency band. The MDR5800 has predefined frequency channel plans (termed A, B, C and D). 2.2.1.1 Frequency Channel Plan A, B and C Transmit-to-receive channel spacing for frequency channel plans A, B and C is 69 MHz. The channel spacing is based on the bandwidth occupied by the spread spectrum signal (approximately 17 MHz) and is used to optimise link performance.
MDR5800 User Manual Frequency Channel Plan D Frequency plan D allows independent control of transmit and receive frequencies. This enables a very flexible frequency plan and can be used to overcome interference in the 5.8 GHz ISM band. The frequencies that can be used in the lower or upper sub-bands can be selected in 1 MHz increments. Performance degradation can be expected when operating using channel plan D mode and the chosen frequencies are close to the sub-band edges i.e.
MDR5800 User Manual 2.3 Indoor Unit The Indoor Unit is designed for mounting in a 19” rack, occupying a 1U slot, or can be table-top standing. The Indoor Unit accepts user nE1/nT1 and combines it with Wayside Service Serial Data and IP data to be transmitted across the radio link. The Indoor Unit is fitted with a DC power supply. 2.3.1 Payload Interface Options The Indoor Unit can be configured for nE1 or nT1 operation. • 1, 2 or 4 x E1 (2.048 Mbps) • 1, 2 or 4 x E1 (1.
MDR5800 User Manual In ALL cases flashing red and orange LEDs imply historic alarm conditions (The alarm can be cleared using the front panel button ‘position 1’ : see next section). Reset/Configuration Button The Front Panel Button has the following functionality used to setup a radio (as determined by different LEDs lighting up.
MDR5800 User Manual NOTE POSITIONS 4, 5, 6, 7 and 8 RESET THE INDOOR UNIT TO FACTORY DEFAULTS –THESE RESETS ARE TYPICALLY ONLY USED ONCE (THESE CHOICES RESET CERTAIN ADJUSTABLE PARAMETERS IN NON-VOLATILE MEMORY IN THE INDOOR UNITS). IF CHANGES ARE MADE TO THE CONFIGURATION PARAMETERS AND THE USER DOES NOT WANT THESE TO CHANGE WHEN A UNIT IS RESET, THE INDOOR UNIT CAN BE POWERCYCLED OR POSITION ‘3’ MUST BE USED E.G.
MDR5800 User Manual IU/OU Power Interconnect DC In IU/OU Data Interconnect RJ45 IU/OU Link LED Auxiliary IO ON/OFF Switch Fuse Holder Ground Terminal Figure 3. Indoor Unit Rear Panel 2.3.5 IU/OU Link LED This LED indicates if there is a suitable electrical connection between the Indoor and Outdoor Units1. 2.3.6 IU/OU Data Interconnect RJ45 This receptacle accepts an RJ45 plug that connects to UV-protected STP (Screened twisted pair) cable used between the IU and the OU. 2.3.
MDR5800 User Manual and controlled. The outputs are used to indicate alarm or other states selected by the operator via the NMS or a SNMP Management Station. 2.3.9 DC Power Input This connector (socket) is used for power input to the IU. The connection is made using 2-core cable. The cable is connected to a GREY connector, a plug. The polarity-sense (labelled) must be observed and implemented. 2.3.10 Fuse Holder This holder is used to hold a fuse (5A). 2.3.
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MDR5800 User Manual 3 PLANNING This chapter is aimed at management and planning staff to enable them to assess the requirements for installing an MDR5800 digital radio link. 3.1 System Type Selection The MDR5800 system uses an Outdoor Unit with a type-N RF output for connection to a range of antennas. The MDR5800 is aimed at FCC regulated markets. Antenna polarisation can used to co-locate multiple MDR5800 systems. Antenna polarisation can be used to overcome interference. 3.1.
MDR5800 User Manual 3.2 Site Evaluation When planning a site for a digital radio link, it is of the utmost importance that you take the operational environment of the proposed site into account. The combined effect of atmospheric environmental factors such as rain and lightning, atmospheric attenuation, signal path obstruction, propagation fading, air temperature gradients, ice build-up, wind and solar radiation can contribute towards reducing the level of performance of the system.
MDR5800 User Manual 3.4 Interference Considerations The ISM frequency bands are used by devices that can cause interference to the MDR5800 radio system. Interference can be avoided by careful planning of the system installation. The available methods for providing isolation from interfering radiators are the following: • Frequency diversity • Antenna polarisation It is recommended to scan the proposed installation areas (spectrum analyzer) to establish the presence of interference.
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MDR5800 User Manual 4 INSTALLATION This chapter describes a recommended installation procedure for the MDR5800. Recommended installation procedure: 1. Install the Indoor Unit. 2. Prepare and connect the cables to the Indoor Unit. 3. Install the Outdoor Unit and antenna. 4. Install the Indoor-to-Outdoor Unit interconnection cables (the power and data cables). 5. Turn the Indoor Unit power on. 6. Perform the initial software setup using the supplied NMS application 7.
MDR5800 User Manual 4.1 Customer Furnished Tools and Equipment The following table lists tools and equipment required to install the MDR5800 system. General, IU-to-OU Interconnect • Cable cutting and stripping tools. • Earth lug crimp tools. • 3 mm flat screwdriver - IU to OU power cable. • RJ45 crimp tool - IU to OU data cable. • Earth cable or strap rated at 45A with 5 mm earth lug for earthing the Indoor and Outdoor Units. • Cable ties, used to secure the cables to the mast at regular intervals.
MDR5800 User Manual 4.2 4.2.1 Indoor Unit Introduction This section describes the recommended installation procedure for the Indoor Unit. The Indoor Unit is designed for mounting in the DIN 41494 (19") racking standard and occupies a 1U high slot. Desktop mounting is also possible. The Indoor Unit’s payload (nE1, nT1 and 10BaseT Ethernet) and Service Channel (‘Wayside serial’) data interfaces and Element Management interface are located on the front panel.
MDR5800 User Manual 4.2.3 Connecting a DC Power Supply WARNING –See section 8.4 for specification of the power supply. 1. Observing the polarity of the supply, wire up the supplied power connector cable plug and connect it to the DC supply (21 to 56 V) through a minimum 5 A circuit breaker. 2. Check the supply voltage using a multimeter. 3. Secure the connector screws to the unit.
MDR5800 User Manual 4.2.4 Balanced Payload Data 1. Assemble the (nE1) / (nT1) payload data input and output cable. See the table below for Indoor Unit connector pin assignments. 2. Connect the payload data cable to the DB25 connector on the front panel of the Indoor Unit.
MDR5800 User Manual 4.2.5 Connecting Auxiliary In/Out (Optional) The auxiliary in/out port is used to: • Monitor switch-closure events using two isolated inputs. • Control line connections using normally-open and normally-closed relay outputs. Connect the port: 1. Assemble an auxiliary in/out cable using a High density 15 way D-type male connector according to connector pin assignments shown in Table 4. 2. Connect to the cable Indoor Unit auxiliary in/out connector. 3.
MDR5800 User Manual 4.2.6 Connecting the Service (Wayside) Serial Channel (Optional) This ‘clear’ serial channel can transport up to 115,200 bps across the radio link. This channel does not interfere with the payload data channels. The port is configured as DCE. 1. Connect the serial data interface cable to the Service channel connector on the Indoor Unit rear panel. The supplied serial data cable can be used to connect to this port after the software setup is completed. 2.
MDR5800 User Manual 4.3 Outdoor Unit Before installing the MDR5800 Outdoor Unit, ensure that a suitable mast is used for the antenna and that the Outdoor Unit installation is firmly in position. The pole diameter must be between 50 and 102 mm. CAUTION –ENSURE THAT THE POLE IS EARTHED FOR LIGHTNING PROTECTION. 4.3.1 MDR5800 Outdoor Unit Follow these steps to install the MDR5800 Outdoor Unit: 4.3.1.1 1. Install the system antenna. 2.
MDR5800 User Manual 4.4 Interconnection Cable Installation Follow these steps to install the Indoor Unit to Outdoor Unit interconnection cables. CAUTION - DO NOT OVER TIGHTEN THE CABLE STRAPS ON THE CABLES AND DO NOT FASTEN THE STRAP LOCKING MECHANISM OF THE CABLE STRAP ONTO THE CABLES. 1. On the OU side, connect an RJ45 plug to the data cable. Place the RJ45 plug into the RJ45 socket in the Outdoor Unit connection box. 2.
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MDR5800 User Manual NOTE † VERSION 1 AND 2 RELEASES OF THE HARDWARE (INDOOR AND OUTDOOR UNITS) CANNOT BE USED INTERCHANGEABLY. FOR VERSION 2 IU & OU HARDWARE, USE OF TxC+, TxC-, RxC+, RxC- FALLS AWAY AND ONLY TWO (2) TWISTED PAIRS ARE REQUIRED.
MDR5800 User Manual 5 ANTENNA ALIGNMENT AND SOFTWARE SETUP This chapter describes the procedure for software setup and antenna alignment. The setup is done with a PC running the supplied NMS software. See chapter 6 for details on using the NMS software. 5.1 Installation Equipment Required The following tools and instruments are required for software setup and aligning the antenna: 5.
MDR5800 User Manual 5.3.2 Alignment Procedure 1. Locate the far site and point the antenna to the antenna at the far site, as accurately as possible using binoculars or a compass. 2. Connect the multimeter to the RSSI connector on the Outdoor Unit using the supplied RSSI test cable and set the multimeter to measure volts. 3. Check the RSSI level and refer to the figure below for received power level. 4. Align the antenna until the maximum RSSI is attained. 5. Secure the antenna. 6.
MDR5800 User Manual 5.4 Software Setup Refer to chapter 6, for setting up the following: 5.5 • Payload interface. • Service Channel (Wayside) serial port. • Auxiliary in/out port. • General link parameters. Functional Test After completing the physical installation of the Indoor Units, antennas, Outdoor Units and the interconnection cables, you need to commission the system. This procedure describes how to set up the minimum requirements for successful MDR5800 system operation. 5.5.
MDR5800 User Manual Record all results on a test record. See MDR5800 Test Record, section 5.7 for an example.
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MDR5800 User Manual 6 NMS SOFTWARE 6.
MDR5800 User Manual 4. 6.2.1 A general help facility is available by clicking on the Help button on the Main screen. This opens the help file for the Network Management System. From here, you can search for a particular topic using the Index facility or you can use the Find facility to search for key words connected to the specific information required.
MDR5800 User Manual 6.3 Main Screen This screen displays the names of the stations/sites, their IP addresses and allows you to view or edit the parameters and status for the entire station. Indoor Unit and Outdoor Unit details are accessed by using the mouse to select the Indoor Unit and Outdoor Units of the local or remote sites. Note that if the local Indoor Unit is offline, all controls for both station IUs and OUs are 'greyed out' and thus unavailable.
MDR5800 User Manual 6.3.1 Link Elements Areas The Link Elements Areas on the Main Screen show an abbreviated status of the Indoor and Outdoor Unit interfaces. Move your mouse pointer to each block until a hand appears and click the right mouse button (right click) to see more information on each element. If both Stations are online, the status bar at the bottom of the screen shows that the stations are being polled. If there is no communication with the remote side, the remote station will be greyed.
MDR5800 User Manual 6.4 6.4.1 NMS Menus Main Screen Menus The following pull-down menus are available from the Main menu: Menu Sub-item Result File Exit Exit from NMS. Options Communications Allows setup of which communications port is used on the PC or Laptop for communication with the Indoor Unit via the front panel Element Manager Serial Port. It is possible to purchase upgrades for E1/T1 Indoor Units (upgrades to 2E1/T1 or 4E1/T1).
MDR5800 User Manual 6.4.1.1 Exiting from the NMS : File/Exit You can exit from the NMS as follows: Click on the Exit option from the File pull-down menu on the Main screen. You are prompted for confirmation of the shutdown – answer OK or Cancel to this prompt. 6.4.1.
MDR5800 User Manual 6.4.1.4 Remote User Configuration As above, but controls access to the remote station’s MIB. 6.4.2 Main Screen Short-cut Buttons Short-cut buttons are provided to allow quick access to the above menu items. 6.
MDR5800 User Manual 6.5.1.1.2 T1 Port Line Code Default setting is B8ZS. However, it can be set to either B8ZS or AMI. 6.5.1.2 6.5.1.3 Payload Error Monitoring Term Name Description AIS Alarm Indication Signal This is an all 1’s detection, incoming to the equipment on the payload tributaries. Note that there is independent monitoring for AIS on each of the 4 tributaries. LOS Loss of Signal This is a loss of signal detected on the input to the payload data port tributaries.
MDR5800 User Manual 6.5.1.4 Relay Scripting (NA for Version 1, 2 releases) Configure the various alarms that will switch on Indoor Unit relays as required. There are two relays on each Indoor Unit. Each relay can be programmed to switch on based on the occurrence of Payload or RF Link errors detected in the LOCAL/NEAR and/or REMOTE/FAR Indoor Units. The user can visually select those errors that will trigger the respective relays.
MDR5800 User Manual 6.5.2 6.5.2.1 Menu Items Date/Time Entry In his menu, the user has the option of entering the: • Date (change date using the calendar display) • Time (change time using the spin button on the right-hand side of the control or enter manually). • The user had the option of ‘fetching’ the date and time from the PC or Laptop and using this information. • Use the Apply Changes button once the update in the Indoor Unit is to be made. 6.5.2.2 Station Status 6.5.2.
MDR5800 User Manual configuration or data corruption) or break detected (line shorted causing permanent break or corruption). Overhead Link Comms Error • Overhead PPP link error: the buffering system of the overhead link cannot process data fast enough and received messages have been discarded (the software cannot process the data fast enough).
MDR5800 User Manual Use the Clear button to clear alarm indicators. 6.5.2.4 Station Properties In this menu, the user has the option of entering the: • Indoor Unit Station name • IP address of the Indoor Unit • Netmask Use the Apply Changes button once the update in the Indoor Unit is to be made. 6.5.2.5 Station Info This information allows you to view the build state details of the primary hardware and software components of the selected Indoor Unit.
MDR5800 User Manual 6.5.2.7 Maintenance This screen provides the ability to upgrade the Indoor Unit firmware on the local/near Indoor Unit only. The user selects the file to be uploaded using the ‘Select File’ button. A file selection dialogue is presented which provides a means to retrieve the file from any directory on any drive.
MDR5800 User Manual 6.6 Outdoor Unit Configuration 6.6.1 6.6.1.1 Controls Loopback Controls These controls allow you to set the loopbacks on the payload data. • OU Baseband Loopback - Used to loopback the data at baseband processor level in the Outdoor Unit so that incoming user payload data is sent back to the user via the IU/OU interconnection data cable.
MDR5800 User Manual 6.6.2.1.1 Frequency Channel Plan The MDR Radios operate in the 5.725 GHz to 5.850 GHz ISM frequency band. The MDR5800 has predefined frequency channel plans (termed A, B, C and D). 6.6.2.1.2 Transmit Power The Transmit power ranges from 2 to 24 dBm. There is also a mute setting. 6.6.2.1.3 Autorecovery This feature is used if the user is installing a link from one side and there is no technical staff assistance on the opposite side of the link.
MDR5800 User Manual 6.7 RF Link Error Status Monitoring Selected by right-clicking the relevant antenna and choosing the Diagnostics/Error option. 6.7.1 RF Link Status Link Unavailable The RF Link is considered not available (see Link Availability definition on next page). Frame Unlock RF link only. It looks at data received from the link. If the link is quality is poor, i.e. high PER at the RF level, ‘Frame Unlock’ is the result.
MDR5800 User Manual 6.7.2.1 G.826 Thresholds Three G.826 thresholds are provided for each monitored link. Each of these ratios is calculated once every second and will trigger a fault condition if the ratios exceed the programmed thresholds that are: • • • 6.7.2.2 Errored Second Ratio Threshold – this threshold which defaults to 4 X 10-2 triggers an alarm if the calculated ESR exceeds this value over the measurement period (Report Time).
MDR5800 User Manual 6.7.3.2 6.7.3.3 • Severely Errored Seconds Counter - a counter containing the number of seconds containing more than 30% errored blocks since the counters were last cleared. • Background Block Errors Counter - a counter containing the number of blocks received in error excluding those contributing to severely errored seconds since the counters were last cleared.
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MDR5800 User Manual 7 MAINTENANCE INFORMATION 1. The user is advised to refer to the Technical Data section for details on IU/OU interconnection cables (customer-furnished). 2. The “Ordering Information” paragraph in the Technical Data section provides details on part numbers for items that can be ordered. 3. Section 4 of this manual lists customer furnished equipment that should be used for installing the MDR product. 4. There are two options to control the MDR5800 product via SNMP. a.
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MDR5800 User Manual 8 TECHNICAL DATA 8.1 8.1.1 8.1.2 8.2 8.2.1 8.3 8.4 8.5 Environmental Requirements Outdoor Equipment Operating temperature: -30°C to +60°C Relative humidity: 8-100% Atmospheric pressure: 0.7 to 1.06 kPa Lightning protection ITU-T K.20 Indoor Equipment Operating temperature: 0°C to +50°C Relative humidity: 5-90% Lightning protection: ITU-T K.20 Mechanical Information for Outdoor Equipment MDR5800 Outdoor Unit Dimensions (HxWxD): 335mm x 231mm x 124mm Weight: 5.
MDR5800 User Manual 8.5.1 General Characteristics Frequency Range: 5725 to 5850 MHz Data Capacity: E1 (2048 Mbps), T1 (1544 Mbps/s) 2E1 : 2T1 4E1 : 4T1 8.5.2 8.5.2.1 8.5.2.2 RF Channel Bandwidth: 17 MHz Go/Return spacing: Can be adjusted as fixed go-return spacing is NOT mandatory in the ISM licence-free bands.
MDR5800 User Manual 8.5.3 8.5.4 8.5.4.1 8.5.4.2 RF Interface Transmitted Power +2 to +24 dBm, software adjustable (incl. mute) Receiver Sensitivity: 4E1/4T1 : -87dBm for PER = 10-6 Maximum Receive Level: -30dBm Payload Data Interfaces 1, 2 or 4 (i.e. nE1) Interface Data Rate: Full duplex E1 (2.048Mbit/s), 2E1 or 4E1 Digital Interface: ITU-T G.703 Connectors: Balanced 110 ohm on DB25 Line code: HDB3 or AMI selectable Jitter and Wander: ITU-T G.823 1, 2 or 4 (i.e.
MDR5800 User Manual 8.5.5 8.5.6 Auxiliary Input Interface (CONTACT CLOSURE) Number of Inputs: 2 Maximum voltage: 12V Logical zero: Short from input to return pin Logical one: Open input to return pin Auxiliary Output Interface Number of outputs: 2 States: Normally-open and normally-closed Contact rating: DC: 220 V, 1 A, 60 W AC: 250 V, 1 A, 125 VA 8.5.7 8.5.8 8.5.
MDR5800 User Manual Interconnecting cable Data South Africa STP (FTP) 4 Pairs Solid Cat 5, PVC FR UV protected Polifin H2/J263/904 Outer Black. Outer diameter of cable : 7.3mm ± 0.5mm. (this is an “upjacketed” STP 4 Pair cable). This is a standard FTP Cat 5 cable that is ‘upjacketed’ with suitable plastic for FR/UV (Flame retardant/Ultra Violet) protection. Other cables: 1. 2. 3. 4. Superior Essex BBDN CAT 5 cable P/N 04-0010-34 (7.8mm) Superior Essex CAT 5 P/N 18-241-31 18-241-11 (5.
MDR5800 User Manual 8.6 Ordering Information Part No Model Number Description 651-03853ET1HB or 651-03853ET1LB MDR5800-ET1 MDR5800 Radio: Indoor Unit and High or Low Band Outdoor Unit, Type-N RF output, high power output for FCC and unregulated, Full E1/T1, 2Mbps or 1.5Mbps data interface 651-03853ET2HB or 651-03853ET2LB MDR5800-ET2 MDR5800 Radio: Indoor Unit and High or Low band Outdoor Unit, Type-N RF output, high power output for FCC and unregulated, Full 2xE1/2xT1, 2x2Mbps or 2x1.
MDR5800 User Manual Microwave Digital Radio System Spare Parts for MDR5800 Part Number Description 651-03810ET1 MDR5800 Indoor Unit 1xE1/T1 - Spare Part 651-03810ET2 MDR5800 Indoor Unit 2xE1/T1 - Spare Part 651-03810ET4 MDR5800 Indoor Unit 4xE1/T1 - Spare Part 651-03806LB MDR5800 Low Band Outdoor Unit - Spare Part 651-03806HB MDR5800 High Band Outdoor Unit - Spare Part 651-03868 MDR5800 NMS Software Disk - Spare Part 651-03809 MDR5800 ODU Pole Mounting Kit - Spare Part 862-01881 MDR5800 Di
MDR5800 User Manual MDR5800 Ordering Information: Part no’s: 1E1/T1 Radio: 651-03853ET1HB or 651-03853ET1LB 2E1/T1 Radio: 651-03853ET2HB or 651-03853ET2LB 4E1/T1 Radio: 651-03853ET4HB or 651-03853ET4LB Each MDR5800 radio includes the following: Part No 651-03810ET1 or Description QTY MDR5800 Indoor Unit: 1xE1/T1or 2xE1/T1 or 4xE1/T1 1 MDR5800 Outdoor unit 1 651-03809 MDR 5800 ODU Pole Mounting Kit 1 862-01881 MDR5800 Digital Radio System User Manual 1 651-03868 NMS Software Disks 1 660-034
MDR5800 User Manual 9 APPENDIX A: ELEMENT MANAGER PORT POINT-TO-POINT SERIAL COMMUNICATIONS SETUP This appendix summarises how to set up a network connection (using PPP) between a computer and the MDR5800 Indoor Unit’s Element Manager port. It lists how the connection can be setup and configured to allow data transfer and SNMP-based control of the MDR5800 Indoor Unit. Note : For both NT and Win 95 or 98 machines, check that a Network Adapter is installed.
MDR5800 User Manual 9.1 Adding a Modem : Windows NT 1. When working with a PC running a Windows NT, add a modem using the following screen as a guideline.
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MDR5800 User Manual 2. Select the COM port to use – push the Next when the COM port has been selected.
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MDR5800 User Manual 9.2 Adding Dial-up Networking : Windows NT 9.2.1 To add dial-up networking 1. From the desktop, open the My Computer icon and double-click the Dial-up Networking icon. 2.
MDR5800 User Manual 3. Whether COM1 or COM2 is selected, setup the connection using the following screens as a guideline. This allows establishment of a PPP connection between the computer and the MDR5800 Indoor Unit’s Element Manager port.
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MDR5800 User Manual 9.3 Adding a Modem : Windows 95/98 1. When working with a PC running a Windows 95/98, add a modem using the following screen as a guideline.
MDR5800 User Manual 3. Use the mdmnull.inf to add a serial cable modem connection capability to the PC or laptop. 4. Once setup, use the following screens to set up the COM port’s parameters.
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MDR5800 User Manual 9.4 Adding Dial-up Networking : Windows 95/98 1. After adding the modem, set up the connection properties using the following screens as a guideline. This will allow establishment of a PPP connection between the computer and the MDR5800 Indoor Unit’s Element Manager port. A Null_Modem connection option as shown below will be created.
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MDR5800 User Manual 10 APPENDIX B: MANAGEMENT OF THE MDR5800 All management of the MDR product is implemented using SNMP (Simple Network Management Protocol), an open standard. The MDR5800 product can be managed by: 1. Standard SNMP managers such as HP OpenView or SNMPc i.e. there is Open Network Management compatibility. 2.
MDR5800 User Manual There are three principle requirements to use SNMP with the MDR5800 Radio Stations. 1. A Management Station that runs a SNMP Management Software package that is installed on a networked or stand-alone PC that can be connected to an Indoor Unit either using a serial connection or an Ethernet connection. From the Management station, the agents within the MDR Indoor Units can be configured or polled for information. 2.
MD 10.2 The MIB Elements – OID (Object ID) DESCRIPTIONS Object ID Group Object Type 1 Iso 1.3 Org 1.3.6 dod 1.3.6.1 internet 1.3.6.1.4 private 1.3.6.1.4.1 enterprises 1.3.6.1.4.1.1316 plessey 1.3.6.1.4.1.1316.1 products 1.3.6.1.4.1.1316.1.1 digitalradio 1.3.6.1.4.1.1316.1.1.1 mdrmte 1.3.6.1.4.1.1316.1.1.1.1 mdrmtePerformance 1.3.6.1.4.1.1316.1.1.1.1.1 mdrmtePayloadPerf 1.3.6.1.4.1.1316.1.1.1.1.1.1 mdrmtePpTable SEQUENCE 1.3.6.1.4.1.1316.1.1.1.1.1.1.
MD Object ID Group Object Type Access Description uncorrectable packets/blocks being detected by the FEC (Forward Error Correction) circuitry within the Indoor Unit (based on the number of errored packets divided by the total number of packets transmitted in a measurement period of 250msec). 1.3.6.1.4.1.1316.1.1.1.1.2.
MD Object ID Group Object Type Access Description packet (uncorrectable by FEC) error rate has been exceeded based on the defined threshold listed in the mdrmteFAULT mdrmtePerfTrapThreshold group. 1.3.6.1.4.1.1316.1.1.1.1.2.13 mdrmteCriticalPERExceeded INTEGER read-only This parameter indicates if the critical packet (uncorrectable by FEC) error rate has been exceeded based on the defined threshold listed in the mdrmteFAULT mdrmtePerfTrapThreshold group. 1.3.6.1.4.1.1316.1.1.1.1.2.
MD Object ID Group Object Type Access Description FEC circuitry. 1.3.6.1.4.1.1316.1.1.1.1.3.8 mdrmteBackgroundBlockErrors Counter read-only An errored block not occurring as part of a SES. mdrmteErroredSecondsRatio DisplayString read-only The ratio of ES to total seconds in available time during a fixed measurement interval. 1.3.6.1.4.1.1316.1.1.1.1.3.
MD Object ID Group Object Type Access 1.3.6.1.4.1.1316.1.1.1.2.2.3 mdrmteTxFrequencyPlanD INTEGER read-write Frequency plan D allows independent control of transmit and receive frequencies. This enables a very flexible frequency plan and can be used to overcome interference in the 5.8 GHz ISM band. The frequencies that can be used in the lower or upper sub-bands can be selected in 1 MHz increments.
MD Object ID Group Object Type Access 1.3.6.1.4.1.1316.1.1.1.2.2.9 mdrmteOURateOverride INTEGER read-write Deprecated 1.3.6.1.4.1.1316.1.1.1.2.2.10 mdrmteOUDataRate INTEGER read-write A settable rate that allows a reduced transfer data rate over the RF Link. 1.3.6.1.4.1.1316.1.1.1.2.2.11 mdrmteTxFrequencyCurrent INTEGER read-only This value [MHz] is read back from the Outdoor Unit and defines the transmit frequency of the Outdoor Unit. 1.3.6.1.4.1.1316.1.1.1.2.2.
MD Object ID Group Object Type Access 1.3.6.1.4.1.1316.1.1.1.2.3.4 MdrmteScStopBits INTEGER read-write The number of stop bits can be set to 1 or 2. 1.3.6.1.4.1.1316.1.1.1.2.3.5 mdrmteScFlowControl INTEGER read-write Either hardware or no flow control is used. 1.3.6.1.4.1.1316.1.1.1.2.3.6 mdrmteScStatusDump INTEGER read-write Allows the wayside service (serial) channel to be used as a diagnostics port [deprecated]. 1.3.6.1.4.1.1316.1.1.1.2.4 MdrmteGeneral 1.3.6.1.4.1.1316.1.1.1.2.4.
MD Object ID Group Object Type Access 1.3.6.1.4.1.1316.1.1.1.2.4.13 mdrmteTribCode DisplayString read-write This is a text entry code (16 characters) used to allow activation of tributaries on the Indoor Units. It is unique to the Indoor Unit based on a hardware-dependent serial number in the IU. 1.3.6.1.4.1.1316.1.1.1.2.4.
MD Object ID Object Type Access Description 1.3.6.1.4.1.1316.1.1.1.3.1.1.1.4 mdrmteLEDColour INTEGER read-only The current colour of the LED - for a detailed description of functionality, see the mdrmteLEDLabel entry. 1.3.6.1.4.1.1316.1.1.1.3.1.2 mdrmteOutdoorUnitComms INTEGER read-only Describes the state of communication with the Outdoor unit in terms of whether it is up or down completely.
MD Object ID Group Object Type Access Description dispatched as traps. 1.3.6.1.4.1.1316.1.1.1.3.3.2 mdrmteNumberTrapManagers INTEGER read-only This entry shows the number of trap managers allowed. 1.3.6.1.4.1.1316.1.1.1.3.3.3 mdrmteTrapManagerTable SEQUENCE 1.3.6.1.4.1.1316.1.1.1.3.3.3.1 mdrmteTrapManagerEntry SYNTAX 1.3.6.1.4.1.1316.1.1.1.3.3.3.1.1 mdrmteTrapManagerIndex INTEGER 1.3.6.1.4.1.1316.1.1.1.3.3.3.1.
MD Object ID Group Object Type Access 1.3.6.1.4.1.1316.1.1.1.4 mdrmteAccess 1.3.6.1.4.1.1316.1.1.1.4.1 mdrmteEthernetIPAddress IpAddress read-write The IP address associated with product's Ethernet port (NOTE : USE A POWER-ON RESET OR RESET BUTTON POSITION ‘3’ TO ALLOW ACCEPTANCE OF THE NEW IP ADDRESS – I.E. IT IS UPDATED IN NON-VOLATILE MEMORY AND GETS ACCEPTED BY THE INDOOR UNIT’S IP STACK AS A VALID ADDRESS). 1.3.6.1.4.1.1316.1.1.1.4.
MD Object ID Group Object Type Access 1.3.6.1.4.1.1316.1.1.1.4.6.1.5 mdrmteUserActive INTEGER read-write Indicates if a user is active or not based on password entry. 1.3.6.1.4.1.1316.1.1.1.4.6.1.6 mdrmteUserAdd INTEGER write-only In security-enabled mode, allows an administrator to add users. 1.3.6.1.4.1.1316.1.1.1.4.6.1.7 mdrmteUserDelete INTEGER write-only In security-enabled mode, allows an administrator to delete users. 1.3.6.1.4.1.1316.1.1.1.4.
MD Object ID Group Object Type Access 1.3.6.1.4.1.1316.1.1.1.5.1.2 mdrmteRelay1OpenStateLabel DisplayString read-write A short, descriptive name indicating the primary function of the relay in the open state, most probably in terms of the equipment connected to it. 1.3.6.1.4.1.1316.1.1.1.5.1.3 mdrmteRelay1ClosedStateLabel DisplayString read-write A short, descriptive name indicating the primary function of the relay in the closed state, most probably in terms of the equipment connected to it. 1.
MD Object ID Group 1.3.6.1.4.1.1316.1.1.1.5.2.6.1.4 mdrmteRelay2ScriptActiveRemote Object Type Access Description local relay activation. INTEGER read-write Defines if the script is active or not for remote relay activation. 1.3.6.1.4.1.1316.1.1.1.6 mdrmteOptoInputs 1.3.6.1.4.1.1316.1.1.1.6.1 mdrmteOptoInput1 1.3.6.1.4.1.1316.1.1.1.6.1.
MD 15 MdrmteTrapFirmwareUpgradePass: Informational Indicates that firmware was uploaded successfully. 16 MdrmteTrapFirmwareUpgradeFail: Informational Indicates that there was a firmware upload failure. 17 MdrmteTrapInterstationCommsTimeOut: Major Indicates an interstation communications timeout. 18 MdrmteTrapInterstationCommsInvalidResponse: Minor Indicates a communications error on the interstation overhead link.
MD 50 MdrmteTrapSetRelayLabel A relay label was changed. 51 MdrmteTrapSetRelayOpenStateLabel A relay open-state label was changed. 52 mdrmteTrapSetRelayClosedStateLabel A relay closed-state label was changed. 53 MdrmteTrapSetRelayDefaultState: NA Deprecated. 54 mdrmteTrapSetRelayCurrentState: Informational Relay's current state has changed. 55 mdrmteTrapRelayScriptEnable Relay scripting is enabled. 56 mdrmteTrapRelayScriptDisable Relay scripting is disabled.
MDR5800 User Manual 11 APPENDIX C: SETUP OF A PC (WIN 95, 98, NT) TO ALLOW PINGING OF A ‘REMOTE’-CONFIGURED INDOOR UNIT The following diagram shows the default (factory) network IP addresses assigned to the various network ports on the MDR System: ROUTING CONFIGURATION 11.1 IP CONFIGURATION OF THE MDR5800 – ROUTING CONFIGURATION MDR 5800 - ROUTING CONFIGURATION PPP WIRELESS Ethernet 10-BaseT 10.2.1.2 10.10.9.9 10.10.9.10 10.11.1.2 10.13.1.1 10.12.1.
MDR5800 User Manual Batch file 2 - delroute.bat route delete 10.11.0.0 If you want a screen printout of the routes the PC is using, use the command line entry: route print NOTE DO NOT ALLOW AN RF LINK TO ESTABLISH BEFORE DOING A PING on the remote IU (with 10.11.1.2 as an IP address) - if the RF link was established before, use the front panel button "position 3" to reset the IU before attempting to ping.
MDR5800 User Manual 11.2 IP CONFIGURATION OF THE MDR5800 – BRIDGING AND ROUTING CONFIGURATION The following diagram shows the default (factory) network IP addresses assigned to the various network ports on the MDR System: BRIDGING AND ROUTING CONFIGURATION. MDR 5800 - BRIDGING OR ROUTING DEFAULT CONFIGURATION PPP WIRELESS Ethernet 10-BaseT 10.2.1.2 R 192.168.1.2 B 192.168.4.2 10.11.1.2 R 192.168.1.3 B 192.168.4.3 192.168.2.2 192.168.3.
MDR5800 User Manual 12 APPENDIX D: MDR5800 HARDWARE VERSION 1, 2.X DIFFERENCES, COMPATIBILITY SUMMARY Version 1 hardware (Indoor and Outdoor Units) is incompatible with Version 2.x hardware. • The Indoor Unit /Outdoor Unit Twisted Pair Data Interconnection for Version 2 hardware uses 2 twisted pair cables to convey payload and Outdoor Unit control signals whereas Version 1 hardware uses 4 twisted pair cables. Notes : Version 2.
M 13 APPENDIX E: FIXED ANTENNAS The table below identifies the distances where the 1mW/cm2 exposure limits may be exceeded during continuous transmission using the proposed fixed antennas. Manufacturer Type Model Gain Numeric (dBi) gain Channel Peak Power Calculated Minimum RF Exposure (mW) Separation Distance Distance (m) (m) Gabriel Dish SSSP2 52B 29.0 794.3 3 239.9 1.2 2 Gabriel Flat panel DFPD1-52 23.9 245.5 3 239.9 0.7 2 MTI Flat panel MT-20004 28.0 631.0 3 239.9 1.