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Siemens UTMC OTU Handbook

Siemens UTMC OTU Handbook

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Siemens Mobility, Traffic Solutions
Sopers Lane, Poole, Dorset, BH17 7ER
United Kingdom
+44 (0)1202 782000
http://www.siemenstraffic.com
UTMC OTU/MOVA Handbook
P
:
Mark Retallack / Jim Ballantine
REPARED
F
:
Senior Firmware Engineer / Lead Engineer
UNCTION
Part Number
667/HB/31601/000
667/HB/31601/000
667/HB/31601/000
667/HB/31601/000
667/HB/31601/000
667/HB/31601/000
THIS DOCUMENT IS ELECTRONICALLY HELD AND APPROVED
© Siemens plc. 2011 All rights reserved.
The information contained herein is the property of Siemens plc and is supplied without liability
for errors or omissions. No part may be reproduced or used except as authorised by contract or
other written permission. The copyright and the foregoing restriction on reproduction and use
extend to all media in which the information may be embodied.
667/HB/31601/000
Issue
Change Ref
1
N/A
2
TS005686
3
Mantis 14440
3
Mantis 17268
4
Mantis
14837
5
Align issue no
Page 1
UTMC OTU/MOVA Handbook
Date
07-Dec-2009
14-Jan-2011
13-Jan-2012
26-Oct-2012
18206,
10-Jan-2013
4-Sep-2013
Issue 5

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Summary of Contents for Siemens UTMC OTU

  • Page 1 THIS DOCUMENT IS ELECTRONICALLY HELD AND APPROVED © Siemens plc. 2011 All rights reserved. The information contained herein is the property of Siemens plc and is supplied without liability for errors or omissions. No part may be reproduced or used except as authorised by contract or other written permission.
  • Page 2 The equipment contains batteries that must be disposed of in a safe manner. If in doubt of the correct procedure, refer to the Siemens instructions. 667/HB/31601/000...

  • Page 3: Table Of Contents

    1.4 ABBREVIATIONS AND DEFINITIONS ..............8 2. PRODUCT DESCRIPTION .................. 11 2.1 INTRODUCTION ....................11 2.2 UTMC OTU SOFTWARE VERSIONS AND COMPATIBILITY ......13 2.2.1 Controller Compatibility................13 2.3 UTMC OTU HARDWARE VERSIONS ............... 14 2.4 SOFTWARE COMPONENTS ................15 2.4.1 The GV Platform ..................
  • Page 4 5.6.2 Interface Cables ..................38 5.6.3 Batteries ....................38 5.6.4 Fuses ......................38 6. UTMC OTU ......................39 6.1 INTRODUCTION ....................39 6.2 ACTIONS TO CONFIGURE A SEMI-INTEGRAL OTU ........39 6.2.1 Putting the OTU onto the Network ............39 6.2.2 Configuring the OSS and IP Gateway ............
  • Page 5 UTMC OTU/MOVA Handbook 6.6.5 Controller Serial Link Screen ..............56 6.6.6 OTU Advanced Config Screen ..............57 6.7 FAULT TABLE SCREEN ..................59 6.8 CONTROLLER LOG SCREEN ................60 6.9 CONTROLLER FILES SCREEN ................ 62 6.10 UTC OVERRIDE SCREEN ................64 6.11 OSE CONFIG SCREENS ................
  • Page 6 Appendix E – UTMC OTU Network Requirements ..........126 E.1 Adjustments to Network requirements when used on a 3G Cellular Network .. 126 E.2 UTMC OTU Use of IP Network Ports and Services ......... 127 Appendix F – Example CSV File................128 Appendix G –...
  • Page 7 UTMC OTU/MOVA Handbook Appendix L Communications Profiles ..............142 APPENDIX M INDEX ..................... 143 Last page of the Handbook ................. 144 TABLE OF FIGURES Figure 2.1 – Typical Outstation ..................11 Figure 2.2 – Hardware Components ................11 Figure 2.3 – Software Components ................15 Figure 4.1 - IO Card(s) ....................

  • Page 8: Introduction

    1. INTRODUCTION 1.1 PURPOSE This document is intended to provide sufficient information to the Engineer to install, configure and maintain the UTMC OTU/MOVA product, which uses the Gemini Generic Versatile Platform (GVP). The unit looks like a normal Gemini OMU with the “/999” variant Processor card with 8MB flash memory which the GVP software makes use of for its Flash file system.
  • Page 9 UTMC OTU/MOVA Handbook Direct Current Data Communication Equipment DDNS Dynamic DNS Domain Name System Digital Subscriber Line Daylight Saving Time Dynamic Application that can be overwritten by new files Electromagnetic Compatibility eCos Embedded Configurable Operating System FLASH Non-volatile memory that may be programmed under software control Full UTC Full UTC MIB v1.0, also known as UTC type 2 or UG405...
  • Page 10 Telnet Telnet Protocol Transport for London TFTP Trivial File Transfer Protocol Traffic Management Act Siemens Traffic Solutions, Mobility Division (formerly Siemens Traffic Controls) User Datagram Protocol UMTS Universal Mobile Telecommunications System type 1 See Simple UTC type 2 See Full UTC...

  • Page 11: Product Description

    2. PRODUCT DESCRIPTION 2.1 INTRODUCTION The UTMC OTU/MOVA Outstation is a 3U rack mounted unit which is normally located in roadside cabinets. The outstation is used to monitor and control a traffic controller and other on-street equipment. – see UTMC Guide Appendix D.
  • Page 12 SCOOT detectors can be connected via the controller (section 6.2.5) Network interface via Ethernet (section 3.7.4) or lease line modem (section 2.8.2) For outstation control/reply bit capacity, see Appendix I. Front of UTMC OTU with 2U modem shelf and detector blanking panels 667/HB/31601/000 Page 12 Issue 5...

  • Page 13: Utmc Otu Software Versions And Compatibility

    CPU cards, issue 8 or earlier, can run this software. This is a reduced version which does not support MOVA or full UTC (UTC type 2). The UTMC OTU software will not run on the Gemini-1 processor card, due to memory constraints.

  • Page 14: Utmc Otu Hardware Versions

    /004 = UTMC OTU FREE STANDING NO RACK /014 = UTMC OTU SEMI INTEGRAL NO RACK /311 = 11" UTMC OTU - 11" RACK - NO MODEM TRAY 3U MTG 0DBP /319 = 19" UTMC OTU - 19" RACK NO MODEM TRAY 3U MTG 0DBP /511 = 11"...

  • Page 15: Software Components

    UTMC OTU/MOVA Handbook 2.4 SOFTWARE COMPONENTS 2.4.1 The GV Platform The Outstation software package comprises a number of distinct layers as shown in Figure 2.3). Redboot takes control at startup and controls the boot-up sequence. eCos is the embedded operating system.

  • Page 16: The Processor Card

    Each BUS/MOVA IO card has the following features: a. 48 x Digital Inputs b. 16 x Digital Outputs (relays) c. Expansion Bus connection d. Card address decode. e. 4 x RS485 serial channels (not used by UTMC OTU). 667/HB/31601/000 Page 16 Issue 5...

  • Page 17: The Modem Unit

    UTMC OTU/MOVA Handbook 2.8 THE MODEM UNIT The options available are: a DSL modem, a lease line modem or UMTS router 2.8.1 The DSL Modem Unit The DSL modem is an OEM unit for DSL communications over a single pair of copper wires.

  • Page 18: The Power Supply Unit (Psu)

    UTMC OTU/MOVA Handbook Due to its size, it is not possible to mount this modem onto the back of the Gemini PSU. Connection of the mobile router will also require installation of an associated pole top antenna. Instructions for the complete setup can be found in the installation procedure 667-CI-45025-000 2.9 THE POWER SUPPLY UNIT (PSU)

  • Page 19: Specifications

    UTMC OTU/MOVA Handbook 3. SPECIFICATIONS 3.1 GENERAL This Unit meets all the Environmental and EMC requirements as specified in TR2500 and BS EN50293:2001 respectively. 3.2 ELECTRICAL 3.2.1 Mains Supply Voltage: 230V AC RMS, +15% to -20% Frequency: 46 - 54 Hz...

  • Page 20: Mechanical

    UTMC OTU/MOVA Handbook be operated in the inverted position (i.e. with the terminals pointing downwards). See section 4.4.1 on page 28. A Lithium coin cell battery is provided on the Processor card and supports the Real Time Clock during power failures for at least 7 months. This battery is plug-able to allow easy replacement.

  • Page 21: Isolated Outputs

    The three RS232 and the single Ethernet communications interfaces are shown on 667/GA/32600/000 in Appendix A and listed in the following sections. The RS485 interfaces on the I/O card are not used by UTMC OTU. 667/HB/31601/000 Page 21...

  • Page 22: Communications Channel 1 (Controller Serial Port)

    UTMC OTU/MOVA Handbook 3.7.1 Communications Channel 1 (Controller Serial Port) The Connector Type is a 25 Way ‘D’ Type on the end of a flying ribbon cable connected to Plug PL4. The serial port is used for communications with the associated controller.

  • Page 23: Installation

    UTMC OTU/MOVA Handbook 4. INSTALLATION WARNING THIS EQUIPMENT MAY ONLY BE INSTALLED IN A RESTRICTED ACCESS LOCATION BY APPROPRIATELY TRAINED PERSONNEL. ENSURE THAT THE UNIT IS NOT CONNECTED TO THE COMMUNICATIONS NETWORK DURING INSTALLATION AND SWITCH OFF ALL MAINS TO THE CABINET PRIOR TO STARTING.

  • Page 24: Set-Up

    UTMC OTU/MOVA Handbook PRE-INSTALLATION CHECKLIST STEP FUNCTION REFERENCE Check unit supplied is as per works order WORKS ORDER WORKS ORDER Check unit contains correct IO cards. Check unit has the correct firmware loaded into the Flash memory. INSTALLATION CHECKLIST STEP...

  • Page 25: Io Card Position Selection

    UTMC OTU/MOVA Handbook 4.2.1 IO Card Position Selection STEP FUNCTION REFERENCE 4.2.1 Set up card address switches Each BUS/MOVA IO Card has two 2-way DIL switches which provide the IO card with its own unique address within the Outstation unit.

  • Page 26: Modem Power Supply Selection

    UTMC OTU/MOVA Handbook 4.2.2 Modem Power Supply Selection STEP FUNCTION REFERENCE Set up modem power selection 4.2.2 The Processor card normally provides the modem power. Two voltage supplies are available on this card: 5V (400mA) and 12V (1000 mA) connector PL3 as follows:-...

  • Page 27: 120/230V Ac Operation

    UTMC OTU/MOVA Handbook Connect the modem serial port to 9-Way ‘D’ Type on ribbon cable connected to Plug PL2 on the CPU card. 4.2.3 120/230V AC Operation STEP FUNCTION REFERENCE 4.2.3 Set up 120/230V AC operation selection If the Outstation is connected to a 110V/120V supply then a wire link is required on the supply input connector (PL1 on supply unit) between pins 4 and 5 to provide the correct mains timing reference for ZXO.

  • Page 28: Installation Introduction

    UTMC OTU/MOVA Handbook a small piece of film inserted between it and the associated holder. This must be pulled out to enable the battery to function. Watchdog link Ensure the watchdog link is installed across pins 1 and 2 of PL6 on the Processor card.

  • Page 29: Cable And Wiring

    UTMC OTU/MOVA Handbook Re-secure the battery using new tie wraps, ensuring that the other set of 4 holes is used (See Appendix A.2 (a) for the drawing) Replace the cover The Outstation is now ready for installation. 4.5 CABLE AND WIRING...

  • Page 30: Processor Card And Io Card Digital Io

    UTMC OTU/MOVA Handbook 4.6.2 Processor Card and IO Card Digital IO STEP FUNCTION REFERENCE 4.6.2 Connect digital IO This section details the digital IO connections on the CPU and digital IO cards. The tables following show the functions associated with the digital IO connectors on the Processor and IO cards.
  • Page 31 UTMC OTU/MOVA Handbook BUS/MOVA IO Card Connector PL1 and PL2 Connector Allocation Wire Colour Card 1 PL1 Card 1 PL2 Card 2 PL1 Card 2 PL2 Blue Buffered I/P 1 Buffered I/P 25 Buffered I/P 49 Buffered I/P 73 Yellow...

  • Page 32: Post Installation Checks

    UTMC OTU/MOVA Handbook Viewed from Rear Pin 50 Pin 1 Pin 50 Pin 1 Card Card CPU card only CPU card + 1 IO card 4.6.3 Post Installation Checks STEP FUNCTION REFERENCE Complete post installation check 4.6.3 (a) Routing of cables...

  • Page 33: Mains Supply Connection

    UTMC OTU/MOVA Handbook All the cables should be connected to the unit at this point. 4.6.5 Mains Supply Connection STEP FUNCTION REFERENCE 4.6.5 Connect the unit to mains outlet Switch on unit supply – IMPORTANT The wires in the mains lead are coloured as follows: BROWN –...

  • Page 34: Maintenance

    MAINTENANCE WORK BEING CARRIED OUT ON THE UNIT. ANY UNAUTHORISED USE OF COMPONENTS OR MODIFICATIONS OR ENHANCEMENTS WITHOUT PRIOR APPROVAL BY SIEMENS COULD RESULT IN INVALIDATION OF THE TYPE APPROVAL OF THIS PRODUCT. THIS EQUIPMENT MAY ONLY BE MAINTAINED BY APPROPRIATELY TRAINED PERSONNEL.

  • Page 35: Fault Finding

    UTMC OTU/MOVA Handbook 5.3 FAULT FINDING The unit is a modular design, which simplifies fault finding to a card or assembly level. Section 6, which starts on page 38, provides guidelines to fault finding and repair to modular level. The status LED indicators on the Processor card provide a visual identification of the fault condition existing on the unit.

  • Page 36: Routine Maintenance

    UTMC OTU/MOVA Handbook LED Name State Indication System LED No power or Processor error (GREEN) Slow Flash (on Normal operation for 1 sec, off for 2 sec) Fast Flash (on A fault has been detected – check the Fault for 1/4 sec, off Table screen on the web interface.

  • Page 37: 5-Yearly Maintenance

    Gemini Battery kit ................... 667/1/30615/000 5.6 SPARES The authorised maintenance agent should hold the following spares. Some of the parts listed in Section 5.5 above are also available as spares. Contact Siemens Poole for details. 5.6.1 General BUS/MOVA IO Card Assembly .............. 667/1/27881/000...

  • Page 38: Interface Cables

    UTMC OTU/MOVA Handbook BUS/MOVA Digital IO Card Assembly (no RS485) ........ 667/1/27881/001 Freestanding MOVA I/O Kit Any Controller ..........667/1/28855/001 Generic IO Card Assembly ..............667/1/31124/001 PSU I/P 85-264V AC O/P 13.65V 3A ............. 667/7/30613/000 5.6.2 Interface Cables CPU IO Cable ..................667/1/30607/000 Ethernet Cable ..................

  • Page 39: Utmc Otu

    6. UTMC OTU 6.1 INTRODUCTION The features of the UTMC OTU are outlined in section 2.1 and the available software and hardware versions are described in sections 2.2 and 2.3 respectively. The OTU uses IP network ports and services as described in Appendix E, section E.2 The information in this section is organised as follows:- How to configure a semi-integral OTU –...
  • Page 40 UTMC OTU/MOVA Handbook Use WIZ command and navigate the menus using keys as follows:- 1,2,3,4 select the menu option <CR> back up one level + more menu options (where more than 4 available) - move back to previous menu options (where more than 4 available) Enter the IP address of the Outstation using: 2>...

  • Page 41: Configuring The Oss And Ip Gateway

    UTMC OTU/MOVA Handbook 6.2.2 Configuring the OSS and IP Gateway 1. Using a PC on the network or via the ppp interface (see Appendix B), point a browser to the outstation IP address or use the “OTU Webpage” link on the instation Data Preparation screen.

  • Page 42: Importing The Csv File

    UTMC OTU/MOVA Handbook 6.2.3 Importing the CSV file The CSV file is generated at the instation and defines the control and reply bits to be used on the OTU. See Appendix G for example CSV file content. 1. Select the OSE...

  • Page 43: Modifying And Saving The I/O Bit Mapping

    UTMC OTU/MOVA Handbook 6.2.4 Modifying and Saving the I/O Bit Mapping 1. Select the Site to edit. NB: UTC offsets start at 1. Values of 0 are used for locally generated signals. 2. Control and reply bits are given a default 3.

  • Page 44: Scoot Detector Mapping Via Controller Serial Link

    UTMC OTU/MOVA Handbook 6.2.5 SCOOT Detector Mapping via Controller Serial Link The controller can be configured to pass SCOOT detectors to the OTU via the serial link. This is configured on the IC4 “serial MOVA/UTC” screen. It is recommended that SCOOT loop 1 is allocated to detector 64, SCOOT loop 2 is allocated to detector 63, etc to avoid clashing with MOVA detectors, which are allocated from 1 upward.

  • Page 45: Scoot Detector Mapping Via Otu I/O Card

    UTMC OTU/MOVA Handbook 6.2.6 SCOOT Detector Mapping via OTU I/O Card Where an existing Gemini OTU is being upgraded, the SCOOT detector wiring would normally be retained i.e. detectors connected directly to the OTU rather than the controller. 1. Select the SCOOT detector site to edit.

  • Page 46: Actions To Configure A Freestanding Otu

    1. Go to the Status Config web page and select the Controller Serial Link Screen (see section 6.6.5 for screenshot). 2. De-select ‘Enable Semi-Integral Link to Siemens Controller’ 3. Select the correct baud rate for the controller from the pull-down list.

  • Page 47: Modifying And Saving The I/O Bit Mapping For Freestanding Otu

    UTMC OTU/MOVA Handbook 6.3.5 Modifying and Saving the I/O Bit Mapping for Freestanding OTU 1. Select the Site to edit. NB: UTC offsets start at 1. Values of 0 are used for locally generated signals. 2. All reply bits, except SCOOT, should be inverted.

  • Page 48: Interfacing With A Peek Instation

    UTMC OTU/MOVA Handbook 6.3.7 Interfacing with a PEEK Instation Scoot data optimisation should be disabled, see ‘Optimise Data Transmission’ in section 6.6.6 OTU Advanced Config Screen 6.4 ACTIONS TO SWITCH TO SIMPLE UTC By default, the OTU configuration is set to run full UTC (UTC type 2). This section describes typical sequence of operations to be carried out in order to switch from full UTC to simple UTC (UTC type 1) operation.
  • Page 49 UTMC OTU/MOVA Handbook 4. Go to the System web page and proceed as follows:- To switch to Type 1 UTC, - Click Type 1 “Start” - Click Type 2 “Stop” When the simple UTC application is started and receiving SNMP messages from the instation then UTC control will be activated and the comms LED will be illuminated, flashing off each time an SNMP message is received.

  • Page 50: Remote Handset To Controller

    UTMC OTU/MOVA Handbook 6.5 REMOTE HANDSET TO CONTROLLER The user can switch from the outstation terminal through to the controller handset by using the xxc command. No parameters are required. Any further characters entered are passed through to the controller handset and the replies displayed on the terminal screen.
  • Page 51 UTMC OTU/MOVA Handbook Type 1 UTC connection status Indicates if the outstation is currently receiving type 1 UTC Set messages. Values are:- IDLE: no messages currently being received. STARTING: first Set message received. ACTIVE: messages being received i.e. on-control from instation.
  • Page 52 UTMC OTU/MOVA Handbook Type 2 UTC Bad Set Messages Number of invalid SNMP UTMC type 2 UTC Set messages received since last restart. Type 2 UTC Good Get Messages Number of valid SNMP UTMC type 2 UTC Get messages received since last restart.

  • Page 53: Mova Config Screen

    UTMC OTU/MOVA Handbook 6.6.2 MOVA Config Screen Licence Number (LIN part 1) This licence number is required to enable MOVA. Enter the first 4 digits of the value supplied by Poole. The value 9999 in each number can be used to temporarily enable facilities while a permanent licence number is obtained.

  • Page 54: Mova Advanced Config Screen

    Set this value to 123 to enable operation with TRL MOVASIM via the Semi- Integral controller serial interface. Any other value will select normal operation. For Siemens engineering use only. MOVA Output Priority Priority of the MOVA force bits, relative to other force bits such as those from UTC.

  • Page 55: Tma Log Auto-Export Config Screen

    UTMC OTU/MOVA Handbook 6.6.4 TMA Log Auto-export Config Screen This screen is not available in MOVA 6. It allows the start time and period at which TMA logs will be exported to the outstation support server to be configured. TMA log export start date-time (UTC) Allows the date and time at which log export starts.

  • Page 56: Controller Serial Link Screen

    6.6.5 Controller Serial Link Screen Enable Semi-Integral Link to Siemens Controller Select to Enable the Semi-Integral Link to Siemens Controller. The semi-integral link carries data for UTC, MOVA, detectors, faults and controller handset. Disable for freestanding OTU. Default Enabled.

  • Page 57: Otu Advanced Config Screen

    UTMC OTU/MOVA Handbook 6.6.6 OTU Advanced Config Screen The settings on this screen should not normally need to be changed. Simple UTC Output Priority Priority of the Simple UTC force bits, relative to other force bits such as those from MOVA. Range 0 to 50, with 50 being the highest priority. The default is 21.
  • Page 58 UTC Type 2 Optimise Data Transmission When enabled the OTU will not transmit successive duplicate SCOOT data. When connected to a Siemens instation this should be enabled. When connected to a PEEK instation it should be disabled. Simple UTC Control Timeout (seconds) Simple UTC control message timeout, in seconds.

  • Page 59: Fault Table Screen

    UTMC OTU/MOVA Handbook 6.7 FAULT TABLE SCREEN This screen displays currently active faults on the outstation and on monitored street equipment. When the outstation is connected to an ST800/900 controller, the active controller faults are displayed (i.e. as provided by the FFS controller command).

  • Page 60: Controller Log Screen

    6.8 CONTROLLER LOG SCREEN This screen allows the user to display historic information transferred from an attached Siemens ST700/750/800/900 family controller. The log is updated periodically (default 10 minutes). The log text is generated with the same format as that used on the controller handset in response to the ‘LOG’...
  • Page 61 UTMC OTU/MOVA Handbook Newer Change to the more recent page of log entries. Newest Change to the most recent page of log entries. Export Log File Press ‘Export Log File’ and then ‘Save’ the file in the desired location on the user PC.

  • Page 62: Controller Files Screen

    6.9 CONTROLLER FILES SCREEN This screen allows the user to save the IC4 configuration file and the current controller data settings as retrieved from the Siemens ST700/750/800/900 family controller via the serial link. The data is retrieved periodically (default 24 hours – see 6.6.5).
  • Page 63 UTMC OTU/MOVA Handbook Last Retrieved This is the date and time when the Controller Data was last transferred from the controller to the outstation. Export Press ‘Export’ and then ‘Save’ the file in the desired location on the user PC.

  • Page 64: Utc Override Screen

    UTMC OTU/MOVA Handbook 6.10 UTC OVERRIDE SCREEN This screen displays the UTC and MOVA control and reply bit values from the controller interface. The control bits can be overridden to test the interface during commissioning. Any overrides are automatically deactivated after a timeout which is 5 minutes.

  • Page 65: Ose Config Screens

    UTMC OTU/MOVA Handbook 6.11 OSE CONFIG SCREENS This section describes the operations available on the OSE Config screens. These screens are used to configure the I/O mapping to the On Street Equipment (OSE). These screens effectively define which UTC control and reply bits exist on the outstation, what function they perform and how they are routed to the controller or other equipment e.g.
  • Page 66 I/O signals or ‘Semi-integral OTU’ – where the control and reply bits are passed across the serial interface to a Siemens controller. Press 'Import' to upload the selected file. Add Uni Directional Loops if required using "Go to UD Options" button Edit each site and update the configuration as required to match the installation.
  • Page 67 UTMC OTU/MOVA Handbook This field can only be changed when the bit is being added using the 'Add Bit Table' The available UTC control functions are:- Item Close Car Park Stage Demand Common demand Bus Extension Permit Signals Flashing Fallback Mode (inhibit CLF)
  • Page 68 UTMC OTU/MOVA Handbook The available UTC Reply functions are:- Item Bus Detected Car Park Occupancy Threshold Exceeded Controller Fault Indication CLF Group Timer Sync Confirm Car Park Closed Cabinet Door Open Queue At Car Park Reservoir Time Synchronisation Confirm Car Park Information...
  • Page 69 UTC (UTC type 1), this field is used to control the position of bits in the control and reply words. The numbering starts at One. Note that on the Siemens instation MONI screen the bit displays are numbered from zero so that for example bit 004 on MONI would be given a UTC offset of 5.
  • Page 70 UTMC OTU/MOVA Handbook ctlr.handset.in.1 Status of the controller handset link:- Bit 1 is set to 1 while XXC command active (available on both semi-integral and freestanding units with firmware 32370 issue 3 and above) cpu.out.1 2 control outputs on CPU card busmova1.out.1...
  • Page 71 UTMC OTU/MOVA Handbook To delete an item, select the tick box in it's delete column, and press the Submit' button. Description This text field is available in the Add Bits Table to enter a short description for the item use. The text is displayed by hovering the mouse over the Function in the table.

  • Page 72: Uni-Direction Loops

    UTMC OTU/MOVA Handbook 6.11.2 Uni-Direction Loops Number of Associated UD Loops Enter the number of Uni-direction units required on the outstation and then press ‘Submit’. The UD units are numbered automatically from 1 upward. UD Facility Each UD unit comprises an A-loop and a U-loop. The A-loop is the main loop and is installed so that traffic travelling in the normal forward direction will activate the A-loop first.

  • Page 73: Count And Occupancy Loops

    UTMC OTU/MOVA Handbook 6.11.3 Count and Occupancy Loops Pressing the ‘?’ next to a field will bring up help text in the right-hand window pane. Counter One Counter function (VC) can be configured for each site. The count bit changes state each time a certain number of vehicles, determined by the Count Weighting Factor, have been detected.

  • Page 74: Queue Loops

    UTMC OTU/MOVA Handbook Weighting Count for Reply Factor Bit Change (default) Occupancy One Occupancy function (VO) can be configured for each site. The reply bit changes state when a certain vehicle occupancy has been accumulated, as determined by the Occupancy Weighting Factor.

  • Page 75: Mova

    UTMC OTU/MOVA Handbook 7. MOVA 7.1 MOVA INTRODUCTION BEFORE LOADING ANY CONFIGURATION DATA, REFER TO SECTION 7.3.8 ON PAGE 84 This section covers the installation and commissioning steps for MOVA. The outstation is capable of running up to four MOVA streams simultaneously, for additional information on this option see section 7.6.
  • Page 76 BUS/MOVA I/O cards (parallel interface), via the controller serial link or a combination of the two. When used with a Siemens controller the serial interface would normally be used. When connecting to another manufacturer’s controller it will be necessary to use the parallel interface.

  • Page 77: Mova Commissioning Checklist

    UTMC OTU/MOVA Handbook 7.2 MOVA COMMISSIONING CHECKLIST The following checklist should be used to commission MOVA. The steps are expanded upon in the sections referenced. Step Section Action to be Performed Check that the outstation has been installed correctly. Switch on the outstation’s mains supply.
  • Page 78 UTMC OTU/MOVA Handbook Step Section Action to be Performed 7.3.9 Use the commissioning screen to check the operation of each detector is correct. MOVAComm uses highlighting to indicate detector active. Also check that vehicles in adjacent lanes do not activate the loop.

  • Page 79: Re-Initialising Mova

    UTMC OTU/MOVA Handbook Siemens MOVA Commissioning Complete 7.2.1 Re-initialising MOVA If it is required to clear the MOVA data sets and working data, then the movaini command can be used: - this will initialise MOVA stream 1 movaini1 “ “...

  • Page 80: Mova Commissioning Detail

    UTMC OTU/MOVA Handbook 7.3 MOVA COMMISSIONING DETAIL This section expands on the steps in the commissioning checklist from the previous section. Step Section Action to be Performed Check that the outstation has been installed correctly. Switch on the outstation’s mains supply.

  • Page 81: I/O Card Or Serial Link Checking

    UTMC OTU/MOVA Handbook 7.3.3 I/O Card or Serial Link Checking 7.3.3 If MOVA is to use a Bus / MOVA (Digital) I/O Board, check that the correct type of I/O boards have been detected, using the ‘cards’ command. If MOVA is to use the serial link to an ST700/750/800/900 family controller check that the link is active –...

  • Page 82: Mova Site Names

    UTMC OTU/MOVA Handbook In cases of emergency when it is not possible to contact Poole for licence codes the following ‘Emergency Code’ can be used LIN part 1 – 9999 LIN part 2 – 9999 This will enable MOVA for a period of 7 days.
  • Page 83 UTMC OTU/MOVA Handbook UTC instation if available. See 6.2.3 and 6.2.4 for an explanation of how to import a configuration file and / or configuring individual bits. For an outstation connected to a UTC intstation the following is the minimum required:-...

  • Page 84: Download New Site Data

    UTMC OTU/MOVA Handbook 7.3.8 Download New Site Data 7.3.8 Download the site data into the MOVA unit from the PC. If the new site data contains a different number of links, lanes or stages, or different time-of-day data then MOVA must be re-initialised – see section 7.2.1.
  • Page 85 UTMC OTU/MOVA Handbook Download finished File name: ..NEWPARLEY.MDS Version: ..M6.0 Creation time & date: 9:45 29/10/ 4 Title: ..NEW PARLEY WITH LANE TEN Stage/links/lanes: .

  • Page 86: Commissioning Screen

    UTMC OTU/MOVA Handbook 7.3.9 Commissioning Screen 7.3.9 Use the commissioning screen to check for following. a) MOVA is currently not enabled (MOVA enabled = 0) b) The Controller is ready* (CRB = 1) c) The Confirm bits are all set to ‘1’, except for the current stage which should be set to ‘0’.
  • Page 87 UTMC OTU/MOVA Handbook flags and the ‘Warm-up’ and ‘Error counts’ are described in more detail in section 7.3.11. For inputs on the Bus MOVA I/O card, black background = input open circuit, red background = input short circuit. For semi-integral MOVA, the input sense can be inverted or not, dependant on the controller configuration.

  • Page 88: The Error Log (De And Ce)

    UTMC OTU/MOVA Handbook Typical MOVA Main Menu Screen SIEMENS MOVA COMMISSIONING SCREEN:J12345 Detectors: 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36...

  • Page 89: Enabling Mova Control

    UTMC OTU/MOVA Handbook 7.3.11 Enabling MOVA Control 7.3.11 Again using the commissioning screen, put the MOVA unit on control: a) Set the ‘MOVA enable’ flag to ‘1’ * b) Close communications (‘FI’ from the menu) c) On the outstation web interface, ‘System’ screen, stop the MOVA application and then start it again.

  • Page 90: Completing Mova Commissioning

    UTMC OTU/MOVA Handbook to be complete. This warm-up cycle allows the MOVA unit to gather information about the junction before it takes control. Following various fault conditions, the MOVA may put itself off control by clearing the ‘On Control’ flag and incrementing its ‘Error Count’. Depending on the nature of the fault, the MOVA unit will increment the ‘Error Count’...

  • Page 91: Tma Logging And Alerts

    UTMC OTU/MOVA Handbook 7.4 TMA LOGGING AND ALERTS MOVA7 provides an extended logging facility to enable traffic managers to monitor the performance of a MOVA site in detail. The following logs are available for each stream:- Lane flow Occupancy Stage count and length...

  • Page 92: Figure 7.1 Tma Log Auto-Export Screen

    UTMC OTU/MOVA Handbook Figure 7.1 TMA Log Auto-Export Screen On enabling the OSS and setting the export times the logs will now be periodically exported and can be viewed on the OSS see Figure 7.2 OSS Screen Shot Figure 7.2 OSS Screen Shot...

  • Page 93: Browser Access

    UTMC OTU/MOVA Handbook 7.4.2 Browser Access The log data held within the OTU can also be accessed directly via the browser – menu item TMA Logs. This will provide a row of buttons for each log for each stream. Selecting a button will present a choice as to whether to view the log immediately or to save it to the local machine.
  • Page 94 UTMC OTU/MOVA Handbook In order to bring the alerts to the attention of the traffic manager they will be transmitted back to a connected UTC instation when they occur. It is a prerequisite that the MOVA outstation be connected to a UTC instation for the alert functionality to work.

  • Page 95: Mova Communications Notes

    UTMC OTU/MOVA Handbook 7.5 MOVA COMMUNICATIONS NOTES This section provides information on setting up communications with MOVA over IP and describes some of the MOVAComm options, which may be useful once MOVA is functioning normally. See the TRL MOVAComm User Guide for full descriptions.
  • Page 96 UTMC OTU/MOVA Handbook The users PC must be set up as follows:- 1. Install the MOVAComm URL Handler distributed with the PCSCOOT software version 29.0 or later. This includes the TRL MOVAComm application. 2. Ensure the PC is connected on the network and has routing access to the outstation.

  • Page 97: Mova Flags (Lf And Sf)

    UTMC OTU/MOVA Handbook 7.5.2 MOVA Flags (LF and SF) The MOVA flags can be viewed, and then changed, using the LF (Look at Flags) option from the main menu: stage force bits 8 HI TO MARK1 MARK2 FLAG(29-32) 1234 error phone watch con- MOVA ready hour stage stage...

  • Page 98: Phone Home Flag

    UTMC OTU/MOVA Handbook The ‘error count’ and the ‘on control’ and ‘VA/MOVA’ flags are more easily modified using the commissioning screen which is described in section 7.3.11. The MOVA messages, hourly flow, assessment and error log flags should not need to be changed as viewing these logs should be performed using the explicit options from the main menu.

  • Page 99: Mova Detector Status Output

    UTMC OTU/MOVA Handbook To exit view messages, press the ‘F4’ key to close down the full screen displays and then press any key to inform the MOVA unit that no more messages are required. 7.5.5 MOVA Detector Status Output The detector status area of the MOVA Commissioning screen is capable of displaying the status of up to 64 detectors.

  • Page 100: Multiple Mova Streams

    UTMC OTU/MOVA Handbook 7.6 MULTIPLE MOVA STREAMS Up to four traffic streams can be controlled, each with its own copy of MOVA and its own MOVA data set loaded separately. The controller interface can be one of the following:- via the serial interface, where a ST800 family controller is available via BUS/MOVA I/O cards, where a free standing installation is required.

  • Page 101: Figure 7.4 - Example 4 Stream Mova: Stage Confirm Bits

    UTMC OTU/MOVA Handbook Figure 7.4 – Example 4 Stream MOVA: Stage Confirm Bits MOVA 1 MOVACRB Controller Ready Bit 1 Bit 2 Bit 3 Bit 4 Bit 5 Bit 6 Bit 7 Bit 8 MOVA 1 (8 Confirms) MOVA 2 (7 Confirms)

  • Page 102: Free Standing Interface

    UTMC OTU/MOVA Handbook Note also when running the IC4 controller simulator, disabling the common TO bit will disable the UTC / MOVA mode on all controller streams. To simulate disabling of a single MOVA stream the individual TO1 to TO4 bit must be deactivated.
  • Page 103 UTMC OTU/MOVA Handbook Enter the OSE Config field information as follows:- Field Value Notes Func MOVAOSATn Selected from pulldown list. Lane number Lane number is from 1 to N where N is the max configured lane number Card/Port csi.cond.out.1 To match the controller conditioning csi.control.out.1...
  • Page 104 UTMC OTU/MOVA Handbook Enter the OSE Config field information as follows:- Field Value Notes MOVAESxLIn Func Selected from pulldown list, depending on the End Saturation conditions to be detected as detailed in the table above. Link number Link number is from 1 to N where N is...

  • Page 105: Configuration Of Mova With Utc

    UTMC OTU/MOVA Handbook 7.7 CONFIGURATION OF MOVA WITH UTC The junction can be operated with either UTC or MOVA as the normal mode of control. This is achieved by the UTC MO control bit which allows MOVA to be brought on- control in preference to UTC –...

  • Page 106: Mo: Mova Override Control Bit

    UTMC OTU/MOVA Handbook 7.7.5 MO: MOVA Override Control Bit Condition '1' will enable MOVA to send force bits to the traffic controller in place of the UTC control bits. Condition '0' will select normal UTC operation i.e. all the UTC control bits will be sent to the traffic controller.

  • Page 107: Utc And Mova To Bit Mapping

    UTMC OTU/MOVA Handbook MOVA activates ML reply bit to UTC MOVA will also take control if the outstation drops off UTC control e.g. because of network failure. 7.7.10 UTC and MOVA TO bit Mapping See section 7.6.1.3. 7.8 EXAMPLE MOVA CONFIGURATION This example is a semi-integral outstation with 4 MOVA streams.
  • Page 108 UTMC OTU/MOVA Handbook MOVA Stream 2:- Each MOVA stream provides MR (MO confirm reply), ML (MOVA on-line) & MF (MOVA fault) reply bits. Map these to “internal” as they are generated directly by the MOVA software within the OTU. 667/HB/31601/000...
  • Page 109 UTMC OTU/MOVA Handbook MOVA Stream 3:- MOVA Stream 4:- 667/HB/31601/000 Page 109 Issue 5...

  • Page 110: Fault Finding And Repair

    UTMC OTU/MOVA Handbook 8. FAULT FINDING AND REPAIR 8.1 INTRODUCTION The following section comprises of battery information and warnings, together with quick reference tables, to aid fault tracing on the unit for first line maintenance purposes: Table 8.3 : Communication Failures Table 8.4 : Equipment Failures...

  • Page 111: Communications Failures

    UTMC OTU/MOVA Handbook 8.3 COMMUNICATIONS FAILURES Symptom Possible Diagnosis Action to Check Diagnosis (a) Unit will not Incorrect IP address Use the ‘WIZ’ command to display the IP address, Netmask and Gateway communicate with the settings and check these are as recommended by the Network Administrator.
  • Page 112 UTMC OTU/MOVA Handbook Symptom Possible Diagnosis Action to Check Diagnosis Network Configuration Check with the Network Administrator that all IP ports required by the Fault application ( e.g. see E.2) are opened and are not blocked by a Network Router or Firewall.
  • Page 113 UTMC OTU/MOVA Handbook 8.4 TABLE FOR EQUIPMENT FAILURES Symptom Possible Diagnosis Action to Check Diagnosis (a) Unit not operating Software watchdog has Check the state of the Watchdog LED (see section 5.3 which starts on page triggered 35), if lit power down and power up the unit to cause a reset. If Watchdog LED lights again, replace the Processor card.
  • Page 114 UTMC OTU/MOVA Handbook 8.5 TABLE FOR POWER FAILURES Symptom Possible Diagnosis Action to Check Diagnosis (a) Unit not operating PSU failed Check the unit has mains power. If yes, replace the PSU. If no, then check the cabinet’s mains fusing and power supply.

  • Page 115: Appendix A - Gemini

    UTMC OTU/MOVA Handbook Appendix A - GEMINI DRAWINGS A.1 INTRODUCTION Section A.2 contains a list of the drawings that are available as separate PDF files. Hyperlinks to each file are available with some distributions of the handbook. The drawings may be included with hard-copy printouts of the handbook.

  • Page 116: Appendix B - Pc Setup For Direct Ip (Ppp) Connection

    UTMC OTU/MOVA Handbook Appendix B – PC setup for Direct IP (ppp) Connection This appendix details how to connect a Gemini-2 running GVP to a Windows XP computer using the PC COM port and the Gemini-2 front handset connector. It also details the additional setup to use MOVACOMM across the serial connection –...

  • Page 117: Configuring The Direct Connection Using Geminiconnect Tool

    B.1Configuring the Direct Connection Using GeminiConnect Tool This section describes how configure the Direct IP connection using the G eminiConnect software package . 1. Unzip the GeminiConnect package, available from the Siemens web site. 2. Double click on the GeminiConnect.exe file 3. Follow the on-screen instructions.

  • Page 118: Handset Serial Cable Pinout

    9. Select Anyone's use, Click Next 10. Click Add a shortcut to this connection to my desktop, Click Finish 11. For the username and password contact Siemens support. 12. Click Save this user name and password for the following users.

  • Page 119: Configuring Direct Movacomm Shortcuts

    UTMC OTU/MOVA Handbook B.5 Configuring Direct MOVAComm shortcuts Use this sequence to configure desktop shortcuts for MOVAComm direct IP communication. MOVA Comm must be installed on the PC first and is available from the TRL web site at http://www.trl.co.uk. Pre-generated shortcuts can also be copied from the GeminiConnect download directory.

  • Page 120: Appendix C - Pc Setup For Bluetooth Ip Connection

    UTMC OTU/MOVA Handbook Appendix C – PC setup for Bluetooth IP Connection This appendix details how to connect a GeminiMK2 running GVP to a Windows XP computer via Bluetooth. The following equipment is needed: 1. PC running Windows XP, with Bluetooth (integral or USB) 2.

  • Page 121: Setting Up The Windows Bluetooth Link (Ivt Blue Soliel / Widcomm)

    UTMC OTU/MOVA Handbook C.3 Setting up the Windows Bluetooth Link (IVT Blue Soliel / Widcomm) 1. Plug in the USB Bluetooth dongle and start the IVT BlueSoleil software from the start menu [Start Progams IVT BlueSoleil BlueSoleil] 2. Perform a device discovery [Main menu...
  • Page 122 UTMC OTU/MOVA Handbook 5. When prompted select the Serial Port Service (SPP) from the list of device services and click “Next” 6. Make a note of the COM port assigned to the Bluetooth link, click “Next” through the remaining screens to finish the wizard 7.

  • Page 123: Appendix D - Utmc Guide

    UTMC OTU/MOVA Handbook Appendix D – UTMC Guide Urban Traffic Management and Control (UTMC) supports an open and modular approach to the design and implementation of Intelligent Transport Systems. The UTMC system seeks to make it possible for local authorities to integrate its existing applications for example UTC with other systems such as VMS and to expand and introduce new applications.
  • Page 124 UTMC OTU/MOVA Handbook A typical UTMC communications model, shown schematically below, illustrates the use of a CORBA interface between UTC instation and Common Database as well as UTMC compliant communications from on-street equipment to common database. All equipment connects directly to the communications network and intermediate software applications called ‘Adapters’...
  • Page 125 UTMC OTU/MOVA Handbook A Typical UTMC SYSTEM Traffic Control Computer Roving Terminal Remote Operator Workstation Access Server Connections to other Systems including CDBAS server, RMS, Siespace, printer and other operator workstations. Data Transmission System Instation Equipment Telephone Exchange IP NETWORK.

  • Page 126: Appendix E - Utmc Otu Network Requirements

    UTMC OTU/MOVA Handbook Appendix E – UTMC OTU Network Requirements 1. IP over Ethernet, with an RJ45 Ethernet 10-BaseT presentation at the outstation. 2. As an alternative to 1, the network can comprise lease-lines with 2-wire presentation at the outstation, with V34 modems and ppp to provide the IP transport.

  • Page 127: Utmc Otu Use Of Ip Network Ports And Services

    These are discussed in the document ‘Site selection Guide’ 667/AY/45025/002. E.2UTMC OTU Use of IP Network Ports and Services The UTMC OTU uses the following IP ports. These ports must not be blocked by Firewalls or Routers. Description...

  • Page 128: Appendix F - Example Csv File

    Mapping CSV file” link from the outstation data preparation screen. The file can be imported as described in section 6.2.3. # UTMC OTU equipment function mapping table for X11990 generated on Mon Dec 7 10:42:56 2009 #SiteID, Function, Instance, Direction, Description, Offset, Param 1, Param 2, Card/Port, Bit J11991, Gn, 1, In, "GA: Green confirm for stage", 1, 0, 0...

  • Page 129: Appendix G - Mova Detector Mapping Csv Files

    UTMC OTU/MOVA Handbook Appendix G – MOVA Detector Mapping CSV Files The MOVA detector mapping file is imported on the OSE Config screen in order to allocate all the MOVA detectors, either on the serial link to the controller or on IO cards.

  • Page 130: Semi-Integral - Per Stream Assignment

    UTMC OTU/MOVA Handbook G.3 Semi-Integral – per Stream Assignment StreamID,MOVADETn,1,In,MOVA detector 1,0,0,0,csi.det.in.1,1 StreamID,MOVADETn,2,In,MOVA detector 2,0,0,0,csi.det.in.1,2 StreamID,MOVADETn,3,In,MOVA detector 3,0,0,0,csi.det.in.1,3 StreamID,MOVADETn,4,In,MOVA detector 4,0,0,0,csi.det.in.1,4 StreamID,MOVADETn,5,In,MOVA detector 5,0,0,0,csi.det.in.1,5 StreamID,MOVADETn,6,In,MOVA detector 6,0,0,0,csi.det.in.1,6 | | | | | | | | | StreamID,MOVADETn,58,In,MOVA detector 58,0,0,0,csi.det.in.1,58 StreamID,MOVADETn,59,In,MOVA detector 59,0,0,0,csi.det.in.1,59 StreamID,MOVADETn,60,In,MOVA detector 60,0,0,0,csi.det.in.1,60...

  • Page 131: Appendix H General Public License

    The text below is the licence for the GNU open software that is embedded in the Outstation firmware. This firmware contains modified GPL code and that source code is available on application to Siemens as per clause 3a or 3b. GNU GENERAL PUBLIC LICENSE Version 2, June 1991 Copyright (C) 1989, 1991 Free Software Foundation, Inc.
  • Page 132 UTMC OTU/MOVA Handbook TERMS AND CONDITIONS FOR COPYING, DISTRIBUTION AND MODIFICATION 0. This License applies to any program or other work which contains a notice placed by the copyright holder saying it may be distributed under the terms of this General Public License.
  • Page 133 UTMC OTU/MOVA Handbook In addition, mere aggregation of another work not based on the Program with the Program (or with a work based on the Program) on a volume of a storage or distribution medium does not bring the other work under the scope of this License.
  • Page 134 UTMC OTU/MOVA Handbook court order, agreement or otherwise) that contradict the conditions of this License, they do not excuse you from the conditions of this License. If you cannot distribute so as to satisfy simultaneously your obligations under this License and any other pertinent obligations, then as a consequence you may not distribute the Program at all.
  • Page 135 UTMC OTU/MOVA Handbook 12. IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MAY MODIFY AND/OR REDISTRIBUTE THE PROGRAM AS PERMITTED ABOVE, BE LIABLE TO YOU FOR DAMAGES,...

  • Page 136: Appendix I Otu Capacity

    In addition, 8 inputs for detectors etc. are available on the CPU card. 2. Instation Control/Reply Capability The Siemens UTC instation V29.0 and later supports the following for each OTU:- 8 control bytes 16 reply bytes, including junction reply bits and SCOOT samples (4 bits per SCOOT loop) NB: Prior to V29.0, the instation supported 3 control and 14 reply bytes...

  • Page 137: Appendix K - Connection Of Mova Via A Parallel Interface

    UTMC OTU/MOVA Handbook Appendix K – Connection of MOVA via a Parallel Interface For a parallel interconnection the I/O connectivity is as follows:- MOVA Connection Connected to… MOVA Detectors Controller detectors (and ped. Outputs) Confirm and Controller Ready Bits Controller UTC terminal blocks (Outputs)

  • Page 138: Detector Inputs And Push-Buttons

    Ensure that the detector inputs have been configured in the correct sense in the MOVA site data. For example, on a Siemens T400 or ST800/700 controller, the detector inputs are normally open circuit, closing when a vehicle is detected.
  • Page 139 UTMC OTU/MOVA Handbook An alternative cableform is available which simplifies connecting the MOVA unit up to a Siemens T400 traffic controller and this is described on page Error! Bookmark not defined.. 667/HB/31601/000 Page 139 Issue 5...

  • Page 140: Mova Typical Digital I/O Connections

    UTMC OTU/MOVA Handbook K.2 MOVA TYPICAL DIGITAL I/O CONNECTIONS Wire Colour Board 1 PL1 Board 1 PL2 Board 2 PL1 Board 2 PL2 Blue Detector 1 Detector 25 Detector 33 Detector 57 Yellow Detector 2 Detector 26 Detector 34 Detector 58...

  • Page 141: Connection To A Siemens T400

    UTMC OTU/MOVA Handbook K.3 CONNECTION TO A SIEMENS T400 To simplify connecting the MOVA unit to a Siemens Type 400 traffic controller, an alternative cableform is available. This cableform connects the first BUS / MOVA (Digital) I/O Board’s connectors PL1 and PL2 directly to the controller’s UTC Expansion I/O Board’s four connectors PLB, PLC,...

  • Page 142: Appendix L Communications Profiles

    UTMC OTU/MOVA Handbook Appendix L Communications Profiles Profile ID: Profile name: 3G OTU Outstation types this profile is applicable to: TC8/TC12: UTMC Type 1: UTMC Type 2: Transmission Faults: No reply: Tolerance for 'no reply' (1-60 seconds): No reply: Clearance time (3-3600 seconds):...

  • Page 143: Appendix M Index

    UTMC OTU/MOVA Handbook APPENDIX M INDEX Address switches ............25 Fault finding ............35, 111 Analogue Inputs ........see Lamp Monitor FI (MOVA Menu – Finish) ........91, 97 Auxiliary Serial Port ............. 22 First line maintenance............ 34 Fuse Part numbers ............38 Batteries Connection of Unit Support Battery ......

  • Page 144: Last Page Of The Handbook

    UTMC OTU/MOVA Handbook Licence Number ..........82, 83 RS232 Handset Interface ..........29 MOVA Enabled and On Control Flags....87, 90 Phone Home ............99 SF (MOVA Menu – Set Flags)........98 Spares ................37 OMCU Handset Commands ... see Handset Command System LED..............

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