TDSI User Manual Version 0.1
Contents
1. The ES3 will also work this way Below is a signal diagram of how the signal toggles NN TELEDYNE Page 9 of 13 ODOM HYDROGRAPHIC A Teledyne Technologies Company 5 27 2009 TDSI User Manual PPS pulse from GPS Conditioned signal from PPS box to pin 8 of ES3 GPS input serial connector PPS pulses are either supplied by a BNC connector or a DB9 connector from the GPS In addition some PPS pulses are Rising edge and some are Falling edge Consult your GPS manual to determine how the signal is supplied before continuing this installation To change whether the TDSI receives the PPS pulse through the BNC or DB9 there is a small cover that is labelled PPS INPUT that covers a configurable dip switch Unscrew the knurled nut to remove this cover 3 1 4 1 BNC connector If the PPS pulse is supplied through a BNC connector then connect the BNC cable to the PPS BNC connector of the GPS and TDSI Determine if the signal from the GPS is Falling edge or Rising edge and then set the configuration dip switch accordingly The different options for configuring the dip switch are labelled next to the dip switch on the front panel 3 1 4 2 DB9 connector The other options for the PPS pulse are through the DB9 connector s pins 8 and 9 Refer to the label on the front panel for changing this configuration ODOM HYDROGRAPHIC A Teledyne Technologies Company 5 27 2009 NN TELEDYNE Page 10 of 13 TDSI User Manual Appendix A CABLE C2. then available in their respective section on the TDSI For each of the sensors there is a RS232 I O port and two RS232 Out ports The I O ports allow two way communication to the sensors and the OUT RS232 DB9 only supply data from the sensor If the operator needs to communicate with one of the sensors to change its settings they should used the connection to the I O RS232 connector Model 3017 2 1 TDSI General Specifications e Input power 24 VDC e MRU Power Output voltage 24 VDC e Input Sensors o GPS o Heading o MBU oooO gt TELEDYNE Page 6 of 13 ODOM HYDROGRAPHIC A Teledyne Technologies Company 5 27 2009 TDSI User Manual o PPS pulse from either BNC or GPS DB9 3 buffered GPS output ports 3 buffered Heading output ports 3 buffered MRU output ports Dimensions Weight 0 90 kg or 2 lbs Propagation delay trough RS232 drivers 750ns 2 2 Scope of Material Included TDSI Power cable BNC connector Product CD with this manual NN TELEDYNE Page 7 of 13 ODOM HYDROGRAPHIC A Teledyne Technologies Company 5 27 2009 TDSI User Manual 3 FRONT PANEL Model 3017 HEADING F l A 4 ry gt POWER INPUT 24 VDC 2 Amps POWER 3 f The TDSI front panel is broken into four sections SENSOR INPUTS POWER INPUT GPS HEADING MRU 3 1 Sensor Inputs The sensor inputs include the GPS MRU and Heading sensor The TDSI will only work with RS232 signals for these sensor
3. TDSI User Manual 1 3 Glossary TDSI Time Data Synchronization Interface DGPS Differential Global Positioning System NMEA National Marine Electronics Association MRU Motion Reference Unit VDC Volts Direct Current UTC Coordinated Universal Time The International Telecommunication Union wanted Coordinated Universal Time to have a single abbreviation for all languages English speakers and French speakers each wanted the initials of their respective language s terms to be used internationally CUT for coordinated universal time and TUC for temps universel coordonn This resulted in the final compromise of using UTC wiikipedia NN TELEDYNE Page 5 of 13 ODOM HYDROGRAPHIC A Teledyne Technologies Company 5 27 2009 TDSI User Manual 2 PRODUCT DESCRIPTION The TDSI is an interface box used to interconnect sensors and buffer data which will be used in several sources Most MRUs require aiding from a GPS and Heading sensor to compensate the internal accelerometers when the vessel is making a turn The TDSI routes the signal from the GPS and Heading to the MRU and also buffers up the data so the signals are not loaded down The Teledyne Odom Hydrographic ES3 multibeam requires the PPS pulse and NMEA ZDA string to appear on the same RS232 connector to embed the UTC time in its telegrams and the TDSI does this internally The GPS Heading and MRU are connected in the Sensor input sections and data from each of these sensors is
4. an MRU is supplied by Teledyne Odom Hydrographic the cable is supplied with a circular connecter that mates up directly with the TDSI This connector supplies power to the MRU interfaces the GPS and Heading data to the MRU and routes the MRU data to the DB9 connectors 3 1 3 2 MRU with Separate DB9 connectors If the MRU cable is supplied by another source generally the cable will have RS232 DB9 connectors If the MRU has 3 RS232 DB9 connectors they will be labelled MRU out GPS in and Heading in Connect the MRU out to the MRU DB39 in the Sensor Inputs section Connect the GPS in to one of the GPS out DB9 connectors and connect the Heading in DB9 connector to one of the Heading out connectors Power to the MRU is supplied by the MRU POWER OUT connection on the green connector Pin 1 is the 24 VDC connections and is on the left side The GND connection is on Pin 2 which is on the right side 3 1 4 PPS Pulse The PPS Pulse Per Second is used to provide an accurate reference of when the UTC time was embedded in the NMEA ZDA string The data acquisition software and multibeam receiving the PPS pulse and UTC time can then adjust their clocks so the data can be synchronized without risk of latencies causing timing errors The TDSI takes the PPS signal from the GPS and toggles pin 8 CTS of all the GPS output connectors Make sure the data acquisition is ready to accept the toggling of pin 8 Hypack is the only software we are aware will work this way
5. B Front Panel lt lt A EE 8 3A Sensor INpuls scada 8 A AGUNG ci aczcscian epee des a an aa iaa aaa aa iiaea aian a aa aN aE aA 8 Bi NAS 9 BUS NN 9 3 1 3 1 MRU with Teledyne Odom Hydrographic circular connector ccceeceeeeeeeeeeeceeeeeeeeaeeeeaeeeneees 9 3 1 3 2 MRU with Separate DB9 connectors ooocinncccncccnnncnnnccconcccnnnnn nr nan rn 9 3d PPS PUSE aieeaii e E E E AE 9 341 BNC CONECO ceiros n E EA 10 8 14 2 DBO connector iii 10 Appendix A CABLE CONNECTIONS cssccssseeeeseeeseeeeesneeeeeeeesaeseaaeeeeneeeesaaesaseeeenseaeseaesasaaesaseeeeneeesseaeeaseenenseaes 11 Appendix B FUSES ua ti 13 NN TELEDYNE Page 3 of 13 ODOM HYDROGRAPHIC A Teledyne Technologies Company 5 27 2009 TDSI User Manual 1 INTRODUCTION The TDSI Time Data Synchronization Interface is an interface box which interconnects and buffers data from different sensors for use in multibeam hydrographic surveys The TDSI also merges the PPS pulse from a GPS with the NMEA ZDA sentence into the connector going to the data acquisition computer or the Teledyne Odom Hydrographic ES3 which can then time stamp the data with the UTC time 1 1 Purpose The purpose of this document is to explain the features and operation of the TDSI 1 2 Scope The scope and content of this document is focused on providing useful information to the end user ODOM HYDROGRAPHIC A Teledyne Technologies Company 5 27 2009 NN TELEDYNE Page 4 of 13
6. ONNECTIONS Power Connector POWER Cable Conn DC only P N MS3114E12 3P Pin Description A 24 VDC Bn No Connection oe aS Ret C eturn o GPS Input Male DB9 Pin Description Dr Data from Sensor to TDSI 3 Data to Sensor from Computer 5 GND 8 PPS input Q PPS input HEADING Input Male DB9 Pin Description 2 Data from Sensor to TDSI 3 Data to Sensor from Computer 5 GND Pin Description 2 Data from Sensor to TDSI 3 Data to Sensor from Computer 5 GND PPS BNC Pin Description Center PPS Signal Barrel GND MRU Circular Connector P N 0400 0029 0000 Pin Description Data from MRU B GND C Data to MRU D NC gt TELEDYNE Page 11 of 13 ODOM HYDROGRAPHIC A Teledyne Technologies Company 5 27 2009 TDSI User Manual E GPS data to MRU F GND G Heading data to MRU H GND J 24 VDC to MRU K GND L NC M GND GPS I O Female DB9 Pin Description 2 Data from Sens
7. TDSI USER MANUAL Version 0 1 Teledyne Odom Hydrographic 1450 Seaboard Avenue Baton Rouge Louisiana USA 70810 6261 Telephone 225 769 3051 Fax 225 766 5122 email odomhydrographic com http www odomhydrographic com Number of pages 13 Date November 14 2008 We TELEDYNE ODOM HYDROGRAPHIC A Teledyne Technologies Company TDSI User Manual Revision Histor Version Author Remarks 03 12 2009 Initial version draft TELEDYNE ODOM HYDROGRAPHIC 2009 All rights are reserved Reproduction in whole or in part is prohibited without the prior written consent of the copy right owner The information presented in this document does not form part of any quotation or contract is believed to be accurate and reliable and may be subject to change without notice The publisher will not accept any liability for any consequence of its use Publication thereof does not convey nor imply any license under patent or other industrial or intellectual property rights NN TELEDYNE Page 2 of 13 ODOM HYDROGRAPHIC A Teledyne Technologies Company 5 27 2009 TDSI User Manual CONTENTS 1 INtrOdUCtION aaaea EA E AAEE cani 4 TE O a T O 4 12 SCOE tii ta E 4 LS Glossa usa a a r oia 5 25 Prod ctaescriptot ssis a aa ai rrea a a aaa a Ea aa aa a aaa aaa aaaea teow she 6 21 TDSI General Specifications src aid ate dae aad aaia 6 2 2 Scope of Material Included iissa hanaan a aai iaaa TA aaea Aa AEAEE 7 S
8. or to Computer 3 Data to Sensor from Computer 5 GND Heading I O Female DB9 Pin Description 2 Data from Sensor to Computer 3 Data to Sensor from Computer 5 GND MRU I O Female DB9 Pin Description 2 Data from Sensor to Computer 3 Data to Sensor from Computer 5 GND Pin Description 2 Data from Sensor to Computer 5 GND Heading Out Female DB9 Pin Description 2 Data from Sensor to Computer 5 GND MRU Out Female DB9 Pin Description 2 Data from Sensor to Computer 5 GND NN TELEDYNE Page 12 of 13 ODOM HYDROGRAPHIC A Teledyne Technologies Company 5 27 2009 TDSI User Manual Appendix B FUSES The TDSI has two internal fuses Both fuses are 250VDC 1Amp The first fuse is a reverse polarity protection fuse The second fuse is protection in case the power terminals for the MRU are short together or draw to much current To access the fuses remove the 10 screws on the front panel and remove the front panel ODOM HYDROGRAPHIC A Teledyne Technologies Company 5 27 2009 NN TELEDYNE Page 13 of 13
9. s The TDSI also accepts the PPS pulse from a GPS The TDSI will work at any baud rate from 4 800 to 33 800 however the data acquisition computer and multibeam need to be configured to accept the sensor input Itis usually best to set up the GPS and Heading sensor to 19 200 baud and the MRU to the fastest rate of 33 800 baud 3 1 1 Heading Connect the output from the heading sensor to this RS232 port When the TDSI is receiving data the LED next to the Heading label will blink The rate at which the LED blinks depends on the rate the Heading sensor is 8 TELEDYNE Page 8 of 13 ODOM HYDROGRAPHIC A Teledyne Technologies Company 5 27 2009 TDSI User Manual outputting data 3 1 2 GPS Connect the output from the GPS to this RS232 port When the TDSI is receiving data the LED next to the GPS label will blink The rate at which the LED blinks depends on the rate the GPS is outputting data and the number of sentences the GPS is outputting 3 1 3 MRU Almost all MRU sensors require aiding from a GPS and heading sensor to aid the heave algorithms One of the conveniences of the TDSI is this is done internally when these sensors are connected to the TDSI When the TDSI is receiving data from the MRU the LED will light up Since the data from most MRU s is continuous the LED will stay lit up rather than blink The MRU can be connected to the TDSI in one of two ways 3 1 3 1 MRU with Teledyne Odom Hydrographic circular connector When
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