User's Manual - SICES Brasil LTDA
Contents
1. 82 28 2 77 TWISTED AND SHIELDED CABLE gt GND 1 77 TWISTED AND SHIELDED CABLE 777 NC1 lt lee 2 BATT 2 1 SCH 1 SCH BATT 1 BATT ie 192 002A SUPPLY 12 32Vde J1 SUPPLY 12 32Vde 3 1 3 Connection to DSTA601 DST4601 PX DST4400 AC3000 with galvanic insulation and remote input vote Only A version The RS485 interface power input of the DITEL device is the same as that of the control device no galvanic separation a screened cable with 4 conductors plus the screen is required This solution can be used for short sections also between several boards Ad note Only B version The RS485 interface requires no external power DITEL ver A DITEL ver B DST4601 DST4601 PX SERIAL DST4601 DST4601 PX RS40S SERIAL SERIAL INTERFACE J2 SERIAL INTERFACE J2 OPTIONAL JP i de OPTIONAL JP MUT 4 A pr JA 2 A4 A4 3 A F SHIELD 3 NCS3 2 B jJ Na M li B2 B2 Ra 77 TWISTED AND SHIELDED CABLE GND 1 7 NC1 5 SCH 5 SCH TWISTED AND SHIELDED CABLE 6 SCH 2 6 SCH pem 2 GND 48 re GND 48 Fhe F Io BATT 1 POLANA SUPPLY 12 32Vde teeta all SUPPLY 12 32Vdc J1 192 003A DITEL ver A DITEL ver B DST4400 AC3000 RSaes SERIAL DST4400 AC3000 RS4es SERIAL SERIAL INTERFACE J2 SERIAL INTERFACE J2 ornona J212 ea J212 M die 3 A A4 3 A A4 SHIELD 3 3 B RB 0 Na 8 2 2 B B 2 1 SCH 477 TWISTED AN2. enne nnn 10 5 3 0 o 11 D IDInSD WITTEN GIO CI 10 12 5 2 Mapper 1 xx commands ccccccccsecccseeeceeeecseeecseeecsueecsusecsueessusesseeessaeessaeessaeeeas 13 Do Mapper Dase INSIUCIIONS a aaa RA aa apa aaa 14 6 List of Ditel board ModBus addresses us 16 li User s Manual SICES 1 General information This document describes the technical functional and operational characteristics of the DITEL board The DITEL TELESIGNAL device when used with SICES genset control boards lets you expand the available digital inputs and outputs on the SICES control board with 16 digital inputs and 16 digital outputs in addition to the standard inputs and outputs of the control board Currently the following boards are compatible with the DITEL system N N Additional Additional Outputs DST4601 DST4400 AC3000 DST4601 PX A Note An RS485 com port is required to connect the DITEL boards The available modules have the following codes 1 E6102093400xx DITEL CPU Module 16 Inputs Ver A 12 24VDC input main module 2 E6102094400xx DITEL CPU Module 16 Inputs Ver B 12 24VDC input main module 3 E6102093500xx DITEL 8 outputs relay module system with 24VDC input 4 E6102093501xx DITEL 8 outputs relay module system with 12VDC input Up to two E61020935XXXX 8 RELAY
3. 16 Input ver A Note Only E6102093400xx Ditel 16 Inputs Ver A This electronic device can be confiqured with a bank 1 of 4 dipswitches 009 SW Description hal Modbus address table of table of addresses addresses Outputs Default mapping Mapping ga from Configuration if a valid ne hasn t been loaded the default 4 Device connected Control board PC PLC etc note If a mapping has been uploaded to the Ditel but the switches select the PC as the connected device dipswitch 4 OFF it will not be considered Set dipswitch 4 control board on device connected Select Modbus address Switch n 2 Switch n 1 Modbus address OF 1 i ON Note the switch variations have immediate effect Important To use the mapping confiqured with the control board the followin dipswitches must be selected sw3zOFF sw4zON 4 1 2 E6102094400XX Ditel 16 Input ver B Note Only E6102094400xx Ditel 16 Inputs Ver B This electronic device can be configured with two banks 1 of 4 dipswitches and a banks 1 of 8 dipswitches C 2 JP DISAB 9600 B RS485 JP ENAB 120R ope DIRECT PC CONFIG Cw Pi 1 CE eom CE O amp N PC MAPPER SPARE SPARE BE So 2g nc o a 192_009b 8 User s Manual SICES SWN Description CON See table of addresses OFF J Jj
4. Description 40001 40001 40002 40003 40002 40010 40357 40358 Digital OUTPUTS 1 16 N U STATES DST4601 DST4601PX Do M Impulse outputs map Impulse duration Modbus connection timeout Map of outputs in case of timeout positive logic Map of outputs in case of timeout negative logic Reads and writes 16 digital Out requires additional outputs board n b the outputs can be timed in other words to power down automatically check the timers for output impulses N B The old Telesignal used output values from 17 to 32 The DITEL board can manage max 16 outputs so this register is no longer used Contains the states of the connected board The connected device DST4601 4601PX constantly sends the value of this register In this way the DITEL board can set the state of the outputs on the basis of the system state using the loaded mapping N B the mapping is only used if C 4 on the DITEL board OFF Indicates which outputs will automatically turn off when activated only active on direct out commands or with mapping but on outputs that are not mapped Indicates the duration of the impulse for all the impulse outputs with a base of 100 ms 1 100ms 2 200ms 5 500 ms The time after which the Modbus communication is considered lost This time is set in tenths of a second ex 1021 sec 30 3 sec 50 5 sec Default timeout 30 3 seconds In
5. Alarms A033 and A034 and prealarms W031 and W032 water temperature 10 User s Manual SICES Overload A015 and A006 short circuit A016 and energy inversion A011 alarms Min or max generator voltage alarms A001 A002 Min or max generator frequency alarms A003 A004 Overspeed alarms A017 A018 A019 No start A022 nominal operating conditions not reached A008 alarms Belt snapped alarm A005 battery anomaly prealarms W037 W038 Fuel alarms and prealarms A025 A026 W027 W028 W029 W030 8 9 Signal from inputs J204 3 W101 A101 Generic anomaly from Oil Pressure input used as digital J204 4 W102 A102 Generic anomaly from W Temp Veglia VDO input used as digital J204 2 W103 A103 Generic anomaly from Fuel Level input used as digital Cumulative malfunction or alarms and prealarms 9 Mapper 1 xx In the case in which the definitions of the relay board outputs are incompatible with the type of plant you can use the mapping configuration to configure the outputs to suit your needs in accordance with the events in the Mapper 1 xx software table If configured properly the control boards send the state via modbus continuously several times a second writing 8 modbus 16 bit registers and keeping the same updated This means a total of 128 status bits of which each bit indicates a condition of the board engine or system example position of the lockable selector
6. jack To select which port has to be used it is necessary to act on the switch 2 of SWP The serial ports J2 and JP cannot be used together To use the serial port on J2 the JP connector must be disconnected A Note use the JP serial port only for the mapping configuration RS232 RS485 192 009c e Dip 3 RS232 RS485 it sets the JP stereo jack serial port alternatively as RS232 or RS485 not insulated e Dip 4 9600 19200 Bd it sets the baud rate of the JP and J2 serial ports SWP Description ON Line impedence RS485 line RS485 line termination only JP impedance 1200 impedance 1200 port inserted not inserted JP serial port selection JP set as RS232 JP set as RS485 JP and J2 serials Baud Rate Baud rate 19200 Baud rate 9600 JP serial port enabling JP RS232 RS485 JP RS232 RS485 serial disabled serial enabled User s Manual 9 SICES 4 2 Default Configurations When the mapping is active the DITEL device checks if the memory contains a valid mapping downloaded using mapper The default mapping is used if no other mapping has been saved 4 2 1 DSTA601 DSTA601 P DST4601 PX 16 relays Table valid if the DITEL is connected to DST4601 or DST4601PX 3 j Engmestated 1 O Engine started Alarms A 41 and A 42 and prealarms W 43 and W 44 oil pressure Water temperature alarms A 33 and A 34 and prealarms W 31 and W 32 ELE Emergency stop A 48 automatic st
7. low fuel alarm low oil pressure belt snapped etc The mapping indicates whether and which outputs to activate for the corresponding state for each of the possible states transmitted If the belt snaps for example one none or several outputs may be activated on the basis of the mapping Therefore the mapping is represented by a table with all the possible states 128 and the outputs that can be controlled 16 for the DITEL board The rows show 128 states the interpretation of which changes on the basis of the board selected and the columns show the 16 outputs Therefore we have a total mapping of 128x16 2048 bits in other words 256 bytes A mapping occupies 256 bytes of memory File Communication Commands D s 9 s Connect ect i Load Print Create hex Output pulse time base 100 ms 50 Timeout base 100 ms 50 dt 02 03 04 05 06 07 08 09 10 Pulse Uutpul O22 Over crank 021 Engine not stopped 005 Belt break engine s battery charger failure lt 01 Over speed from contact 018 Over speed from pick up 019 Over speed from frequency 025 Minimum fuel level from contact 026 Minimum fuel level from analogue sensor 027 Low fuel level from contact 028 Low fuel level from analogue sensor 029 High fuel level from contact 030 High fuel level from analogue sensor 031 High coolant temperature from contact 032 High coolant temperature from analoque lt 033 Maximum coolan
8. p Modbus address Prio NN See table of addresses 56 Notued Outputs Configuration Default mapping Mapping uploaded from PC if a valid mapping hasn t been loaded the default mapping will be 8 Device connected Control board PC PLC etc Note If a mapping has been uploaded to the Ditel but the switches select the PC as the connected device dipswitch 8 OFF it will not be considered Set dipswitch 8 ON control board device connected Select Modbus address SWN MODBUS ADDRESS 14 111213 415 167 89 10 11 12 13 14 15 16 swa JXIX X X X XY XY KX SW3 X X X XJ Sw2 UT KT XT x x 5 1 1 X IX Note the switch variations have immediate effect Important To use the mapping confiqured with the control board the following dipswitches must be selected sw7 z OFF sw8 z ON The switch SWP is a 4 way switch and sets the serial port available on the JP stereo jack and J2 connectors ref Fig 1b e Dip1 120 OHM ON OFF it allows to connect disconnect the 120 ohm impedance termination resistor on the JP RS485 serial port only if necessary and onlt if this port is set as RS485 e Dip 2 Serial port enable disable it enables disables the serial port on the JP stereo jack With the RS485 insulated version E6102094400xx the serial port on the J2 connector is shared with that on the JP
9. D SHIELDED CABLE GNO 1 1 SCH 777 NC 1 TWISTED AND SHIELDED CABLE GND 1 BATT 2 BATI 2 8 32Vdc 2 Ly 1 8 32Vde 2 F le 1 J203 GUPPLY tezave Y1 J203 surda UI 192 004A User s Manual 5 SICES 3 2 16 Inputs module ref fig and 1b The connections are made using removable terminals plus 2 flat cable connectors for the external connection to 2 x 8 relay module boards Internally the device consists of 2 boards CPU module board Modular 16 inputs telesignal board Each input has a signal LED LEGEND 1 dipswitchs 2 Digital inputs 1 16 3 RS485 serial 4 Supply 5 Digital inputs 1 16 6 Warning lights TO J9 RELAIS MODULE DIGITAL INPUT DROED CABLE LEGEND 1 dipswitchs 2 Digital inputs 1 16 3 RS485 serial 4 Supply 5 Digital inputs 1 16 6 Warning lights 7 RS232 RS485 Serial q jack 5 4 la TO a RELAIS MODULE A TO 9 RELAIS MOOULE B Fig 1b CPU 16 inputs E61020944xx ver B PITT COLOUR FUNCTION Indicates the corresponding input 6 is active lit when earthed LL ON Lit 2 the device is powered 6 Off 2 no active communication REMOTE Yellow Lit fixed modbus communication active and stable 6 Note In normal conditions REMOTE led 6 should be lit fixed to indicate the modbus communication is active and stable If the modbus communication is active but REMOTE
10. DC HC HC HC HC HK ox oc oc oc oc xc c xc c oc oc oc S PIP Seah oh er eb ah ab ah ahah eb ab ab ab ab ab ab ab ab ab ab Gb ab ab ab ab gb ab ab ab alt DE DC 2 XIXI 2 2 2 2 2 DC XIX XIX 2 2 2 2 XIXI KC 2 2 2 2 c DC 2c KI CAH KKK X KK KK KK KK xX XX XXXX KX KM x XXX XXXX KK KK x XX XK KX KX XXXX KK KK XX KX XK XXXX XR KR x XXX X xX X x X XXX X XXX KX KK RK KK XIX KKK KM KK KKK KKK KKK KKK KKK KKK KKK KKK 4 COM3 close Example if we want output 12 to be activated when the lockable selector of DST4601 is switched to MAN proceed as follows check the type of board selected is DST4601 find the row with the description Mode MAN the column of digital output n 12 on the column row enter box an X appears After configuring save to file and transmit the configuration to the board 5 2 Mapper 1 xx commands e Open the connection with the DITEL module send continuous requests to check the connection Connect Close the connection with the DITEL module Disconnect Send the current mapping to the DITEL module it must be connected Lu DITEL memorises the new mapping permanently in eeprom Lam Detects the mapping saved in the memory
11. MODULE units can be connected to each inputs module using a flat cable with 10 conductors Note The 8 relay module E61020935XXXX does not require external power The states of all the inputs and outputs managed by the DITEL are available through the RS485 serial port of the Sices control board and the outputs can be controlled manually on the basis of the selected operating mode Alternatively the DITEL lets you activate the outputs on the basis of the states received from the boards connected to the same In this case you can configure the device using the default mapping or by uploading mapping from a PC See the chapter MAPPING for more information The device has 16 opto insulated inputs which are acquired with the relevant filters The input is acquired by earthing the corresponding pin The DITEL can be managed by devices using the same protocol PLC PC the encoding and mapping procedures are covered in this document 2 Basiccharacteristics Input voltage o Base module 7 32 VDC o 12V relay version 9 16 VDC o 24V relay version 18 30 VDC reverse polarity protection max current absorption 220mA VDC 30V Vout 10V Zout 100 ohm current of relays 5 A operating temperature 10 50 C weight cpu module 180 g 8 relay module 150 g User s Manual 3 SICES 3 Connections The DITEL has a RS485 communications bus which is insulated from the input output circuits and the built in logic This
12. SICES Empowering your control User s Manual DITEL Filename EAAMO19216EN docx Rev 06 Date 09 05 2013 ID Document EAAMO 192 Product DITEL SICES 1 General InftormiatiOTEas a aaia aai 3 2 Basic characteristics en ne ee nnn ee eee 3 3 MOT INS M 4 3 1 5485 interface connections and PoWer na 4 3 1 1 CPU module input 4 3 1 2 Connection to DST4601 DST4601PX DST4400 AC3000 without galvanic SUO 4 3 1 3 Connection to DST4601 DST4601 PX DST4400 AC3000 with galvanic Ja revise FERIC 6 MOU ee E o nora 5 3 2 CPU 16 Inputs module ref fig 1a and 1b 6 3 3 8 outputs relay module optional ref fig 2 7 3 4 DITEL Modules Interconnection ref fig 7 4 Configurations atc wae as cst eos ter ete mtn meee 8 0 eee ee ee eee eee 8 4 1 1 E6102093400XX 16 Input ver 8 4 1 2 E6102094400XX Ditel 16 Input ver 8 4 2 Default ConfigurationS ae 10 4 2 1 DST4601 DST4601 P DST4601 PX 16 10 4 2 2 DST4400 AC3000 16 Relays
13. dicates which outputs automatically turn on when the modbus communication is inactive for the set timeout When communication returns the active outputs return to the logic state 0 Default no output configured Indicates which outputs automatically turn off when the modbus communication is inactive for the set timeout When communication returns the active outputs return to the logic state 1 Default no output configured 16 User s Manual SICES Empowering your control This document is owned by SICES s r l All rights reserved SICES s r l reserves the right to modify this document without prior notice SICES has made any effort to ensure that the information herein provide are correct in any case SICES does not assume any liability for the use these information The disclosure by any means of this document to third parties is not allowed S I C E S s r l Via Molinello n 8 B 21040 Jerago con Orago VA Italy T 39 0331 212941 F 39 0331 216102 info sices eu www sices eu
14. gives the transistors high voltage immunity and eliminates problems caused by variations in the input voltages of the devices connected by the bus This is useful in the case of difficult connections in environments with heavy disturbances or where the equipotential connection between earth and the devices cannot be guaranteed for example direct connection to PC Ad note Only E6102094400xx version Ditel CPU 16 Inputs ver B On the board there is a RS232 485 Serial jack stereo interface not galvanically insulated for a quick connection with a PC for the relais output Mapper confiquration The device can be connected directly to DST4601 DST4601 PX boards of any kind with the Double CAN and RS485 E62020271170X or CAN Control motor RS485 E6202027119XX options this solution is suitable in the case of use in the same board because the internal interfaces of the DST4601 DST4601 PX are not insulated if galvanic insulation is required one of the options providing a second RS232 serial port can be used E6202027107XX E6202027113XX E6202027118XX with the insulated converter RS232 RS485 E61020217XXXX The device can be connected to the DST4400 board with the E620207910200 option The AC3000 board comes with this option 3 1 RS485 interface connections and power 3 1 1 CPU module input note Only A version The RS485 interface must be powered externally through pins 5 and 1 of connector J2 these are respectively the
15. ication is considered lost In the mapper the first row is for impulse outputs the second and third for Timeout outputs Also in this case if an output is mapped on one or more outputs it cannot function as an impulse output 9 1 How to map with mapper 1 xx The configuration requires the connection to a PC via RS232 JP connector or RS485 J2 connector and the use of the program Mapper 1 06 or following releases previous releases cannot be used A Note to connect the RS232 JP serial port use the cable E090000000142 E090000000142 1 3 STEREO JACK SOCKETS e m KE 5 GND ca Bs NNON SUB D Or m n NN CONNECTORS j NA 9 POLE FEMALE 5 1 QOUOQOtC b N 3 TX b 355_003 s 2 RX 40000 e Select the correct serial port on the PC Menu Communication gt Select Communication resource e Impostare la porta seriale utilizzata su Dal Menu Comunicazione Seleziona Risorsa di comunicazione e Set the correct communicatoin parameters 9600 8 1 e Set the Modbus address Menu Communication gt Serial address default 1 Connect the DITEL to a PC using the RS485 with the RS485 RS232 converter you can connect to a serial port of the PC and use the programme Mapper Ver 1 06 and later the previous versions cannot be used Select the board to connect the DITEL in the Mapper Programme DST4601 DST4601PX DST4400 or AC3000 A map of the outputs will be shown on the screen the columns corre
16. instructions below to load a mapping in the DITEL board 1 4 User s Manual Connect the DITEL board to a PC A PC doesn t normally have RS485 ports so you should use a RS232 RS485 converter Connect the RS232 of the converter to the PC and the RS485 side to the DITEL module Run the Mapper programme on the PC install the programme if it isn t on the system Check the version is 1 06 or later The version is shown on the title bar of the window Select a communication resource in the Communication menu click on Select communication resource Communication resources Cycom 1 3 come Select the COM port the DITEL module is connected to Click on Configure and Verify the communication parameters 9600 N 8 1 SICES COM1 Properties Port Settings Bits per second 19101 Data bits 8 Parity None Stop bits 1 Flow control on Xoff v Restore Defaults Cancel Apply 6 Check that the address of the peripheral device is set correctly note Only Dltel Ver A In most cases the address is 1 dipswitches 1 2 of the DITEL module must be OFF Dipswitches 3 and 4 do not affect the confiquration with the mapper the mapping can be read and written regardless of the state of these four 2 switches Note Only Ditel Ver A In most cases the address is 1 dipswitches 1 2 3 4 of the DITEL module must be OFF Note Dipswitches 5 6 7 and 8 d
17. ivate the corresponding outputs The outputs that aren t mapped can be controlled directly in other words if there is an output with no reference in the table to a board state it can be controlled by writing the modbus address 40001 The direct writing of outputs already mapped has no effect IMPULSE OUTPUTS The impulse outputs allow automatic deactivation in the case of direct control Every output can be set as an impulse output The impulse duration can be set for all outputs User s Manual 11 SICES gt MODBUS TIMEOUT Modbus communication is considered lost when there is no modbus communication for the set timeout Holding Register 40501 N B the REMOTE led lights when the board receives a valid modbus request If no request is received the REMOTE led turns off after the set timeout If the modbus interrogation frequency is lower than the timeout the REMOTE led will turn off and then light again in this case we recommend increasing the timeout time If the REMOTE led remains off check that the timeout isn t set to zero The outputs enabled in Timeout 1 are activated when the modbus communication is considered lost after the set timeout When the transmission returns the outputs return to the initial deactivated rest condition The outputs enabled in Timeout 0 function as outputs enabled in Timeout 1 but with inverted logic they are normally active and are deactivated when the modbus commun
18. led 6 is off check the communication timeout isn t set to O the default value is 50 which corresponds to 5 sec 6 User s Manual SICES 3 3 8 outputs relay module optional ref fig 2 Note Up to two relay modules can be connected to the 16 inputs CPU main board The max current at each output is 1A CAT III insulation The relay modules are powered directly by the inputs module connection through a flat cable with 10 conductors Each output has a signal LED 3 The leds light when the corresponding output is active in other words when the contact closes between COM and NO LEGEND 1 Digital outputs 1 8 9 16 2 Relais contacts outputs 1 8 9 16 3 Warning lights out Edad faba Wo ek kov Ll k amp lt lt ON 4 OWN 4 UN z z E 2 EE Fig 2 Relay Outputs Board 3 4 DITEL Modules Interconnection ref fig 3 the DITEL CPU module must always be present with its 16 inputs while the connection of one or two 8 relay modules is optional depending on the number of outputs required As shown in the following diagram 2 flat cables come out of the DITEL CPU module to connect 2 x 8 relay modules Fig 3 Board interconnection AA important the modules must be assembled on the same DIN bar the modules of the same group must be as close as possible to each other User s Manual 7 SICES 4 Configurations 4 1 DITEL Versions 4 1 1 E6102093400XX
19. o not affect the configuration with the mapper the mapping can be read and written regardless of the state of these four 4 switches To display and or modify the address select Peripheral device address in the Communication menu 7 Click on the icon Connect em Connetti 8 Check the DITEL module is communicating with the PC AA COMS connected xiz 09 05 2013 15 59 correct answers errors 9 Upload the selected mapping from file Click on Carica 10 Select the path and file to upload then press OK m 11 Execute to send the mapping to the DITEL module Scrivi 12 1 the operation was successful the following will be displayed 13 After mapping you must turn the unit off and on again User s Manual 15 SICES 6 List of Ditel board ModBus addresses The Ditel manages the transmission of up to approximately 47 modbus registers Requests that exceeds the transmission buffer generate an error message exception In reception the commands that exceed the dimension of the buffer will not be processed Input Register From To Description Noe 30001 30001 Digital INPUTS 1 16 DIP SWITCH bit 0 3 4 current low bits bit Displays the current state of the 16 inputs connected to the 16 Inputs Module Read switch on CPU DITEL board Holding Register 8 11 4 high bits with pwr on
20. of the DITEL module it must be connected i Cleans the mapping to save another one oe Reads the mapping saved to file you can select the folder and file to read Load Z Save the current mapping to file Select disk path and destination file Save E Send current mapping to printer connected to PC or in a network Print Create a file for external eeprom programmer Used by the Telesignal board with eeprom iE on base the memory of the DITEL module cannot be programmed with an external Createhex programmer In this way the programmer can save the mapping on more than one eeprom at the same time 4j Exit Mapper programme Exit User s Manual 13 14 SICES S Mapper 1 9 0 C Software DITEL_060517 mpr Write on device File Communication Read from device New mapping DST4601 Compile for old Teleser pen mappa Save mapping Print mapping Create Hex file 022 Over crank v Write Protection Peete ene eh scd ah Lig US 021 Engine not stopped 005 Belt break engine s battery charger failure 017 Over speed from contact If the mapping has a white background it can be modified by clicking in the boxes If the mapping background is grey this means the grid is blocked and no changes can be made To make changes to the mapping loaded go to the Commands menu and decheck Deactivate modifications 5 3 Mapper 1 xx basic instructions Follow the
21. op button A 07 no stop A 21 alarms Overload A 15 and A 06 short circuit A 16 and energy inversion A 11 alarms 8 Min or max generator voltage alarms A 01 A 02 9 or max generator frequency alarms A 03 A 04 Overspeed alarms A 17 A 18 A 19 No start A 22 nominal operating conditions not reached A 08 alarms Belt snapped alarm A 05 battery anomaly prealarms W 37 W 38 Alarm 1 immediate A 46 Alarm 2 delayed A 47 or auxiliary prealarm W 10 Table valid if the DITEL is connected to DST4601 P Alarms A 41 and A 42 and prealarms W 43 and W 44 oil pressure Water temperature alarms A 33 and A 34 and prealarms W 31 and W 32 E Emergency stop A 48 automatic stop button A 07 no stop A 21 alarms Overload A 15 and A 06 short circuit A 16 and energy inversion A 11 alarms 8 _ or max generator voltage alarms A 01 A 02 9 Min ormax generatorfrequency alarms A 03 A 04 No start A 22 nominal operating conditions not reached A 08 alarms Belt snapped alarm A 05 battery anomaly prealarms W 37 W 38 Alarm 1 immediate A 46 Alarm 2 delayed A 47 or auxiliary prealarm W 10 4 2 2 DST4400 AC3000 16 Relays Table valid if the DITEL is connected to DST4400 AC3000 Alarms A041 and A042 and prealarms W043 and W044 oil pressure Emergency stop A048 automatic stop button A007 no stop A021 alarms
22. positive and negative input of the interface the input voltage is between 10 and 32V Note Only B version The RS485 interface requires no external power Depending on the intended use with or without galvanic insulation and the type of control board the power can be supplied in various ways 3 1 2 Connection to DSTA601 DSTA601PX DST4400 AC3000 without galvanic insulation Note Only A version The RS485 interface can be powered with the same input voltage as the device using a screened cable with two conductors plus the screen This solution can be used in a cabinet housing also the control board where the power input has the same potential Only B version The RS485 interface requires no external power DST4601 DST4601 PX RS485 SERIAL DST4601 DST4601 PX RS485 SERIAL INTERFACE INTERFACE SERIAL INTERFACE J2 SERIAL INTERFACE J2 OPTIONAL JP pe OPTIONAL JP wee 4 A A 4 4 4 3A 3A SHIELD 3 NC3 2 B 2 2 82 1 5 1 8 GND 1 77 TWISTED AND SHIELDED CABLE 77 amp 5 SCH BATT 2 5 SCH BATT 2 6 SCH 6 SCH 1 TE 1 192_001 SUPPLY 12 32Vdc J1 SUPPLY 12432Vdc J1 4 User s Manual SICES DITEL ver A DITEL ver B DST4400 AC3000 RS485 SERIAL DST4400 AC3000 RS485 SERIAL INTERFACE INTERFACE SERIAL INTERFACE J2 SERIAL INTERFACE J2 opnonat J2 12 cog OPTIONAL J212 Jee fe O A 4 4e SHIELD 3 NC 3 2 8
23. spond to the digital outputs the mapper can configure up to 32 but only the first 16 are used The 128 rows correspond to the possible states of the board note The description of the states changes on the basis of the board selected X indicates the OUT is activated for the state indicated 12 User s Manual SICES D e s Connect Disconnect Write Read New Load Save Print Create hex psT4601 Output pulse time base 100 ms 50 Compile for old Telesegnali version Timeout base 100 ms 50 01 02 03 04 05 O6 07 08 09 10 11 12 13 14 15 16 17 18 1 e Nm ce Nm pari 198 Can Bus warnings cumulative 199 Can Bus alarms cumulative Warnings Cumulative Alarms Cumulative New Warnings Cumulative New Alarms Cumulative Mode OFF Mode MAN Mode AUTO Mode TEST Test from keyboard Test from input 06 Test from clock Test from serial Test from SMS Generator live Mains live Inhibition input active Engine stopped Engine crank Engine started Engine cooling cycle Engine stop cycle KG Command KR Command KG Status KR STatus Reset Command HK HC HC DC DC HK X KC HC HC DC DC c DCT X 2612 HC 2 DC c oc CT oc 1c HC xc DC oe xc oe SS X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X XIH DE HE 2 HL 2 2 HCY 2 2 2 2 HC XIX XIXI XIXI XIX XIXI XIXI XIXI XIXI XIXI XIXE HE HK
24. t temperature from conta O34 Maximum coolant temperature from analo 041 Minimum oil pressure from contact 042 Minimum oil pressure from analogue senst 043 Low oil pressure from contact 044 Low oil pressure from analogue sensor 049 High power 062 Can Bus link failure 064 Fuel pump failure 065 Low coolant temperature from analogue s 008 Operating conditions failure 001 Minimum generator voltage 003 Minimum generator frequency 002 Maximum generator voltage 004 Maximum generator frequency COM3 close x x x c x Exc xe Exc Ee xc e xe E gt lt gt lt gt lt EG XXX XX X X xXx xx xxx xx xxxxxxxxxxx x xi x x x x x x x x x x x x x x x x x x x x x x x x x x x x M x e x o ox x x x x x x x x x x x x x x x xx x x x x x x x x x x x x x XXX X XXX XXX XXX XXX x x x x x x xxx x x x x X X X X X X X x X X X X X X x X Xxx xxx x xxx XX XXX XX XXX X X X X RMX RMX X X X RRM xxx 5 X X X X X X X xxx x x x x x x x x x x x xx xxx xx xi cen KX KM MM MM KM MM KM KM KM KKM KM KKK KKK KM KM KM KM MK e When mapping is active the DITEL board instantaneously verifies the states received from the boards and scans the mapping to act
Download Pdf Manuals
Related Search