ADP-001 - TR-Electronic GmbH
Contents
1. 26 25 24 23 22 21 20 19 18 17 16 15 14 LED1 2h45 LED3 PRSETE 1 2 3 4 5 6 7 8 9 10 11 12 13 LGU pe Te cee analog output J alarm 1 alarm 2 Pin assignment 1 Power supply DC 14 SSl Signalinput Clock 2 Power supply DC 15 SSI Signalinput Clock 3 Ground connection 16 SSI Signalinput Data 4 Analog output 0 2 10 V 17 SSI Signalinput Data 5 Analog output 0 4 20 mA 18 SSI Signalinput GND 0 V 6 Analog output GND 19 Ground connection 10 11 Alarm relay output 1 24 Digital user input 1 12 13 Alarm relay output 2 25 Digital user input 2 26 Digital GND TR Electronic GmbH 4 Electrical connections 4 4 Connection of absolute encoder Encoder GND Data Data Clock Clock 26 25 24 23 22 21 20 19 18 17 16 15 14 4 5 Connection of digital user inputs 26 25 24 23 22 21 20 19 18 17 16 15 14 Digital input 1 e active gt Connecting Screw Terminal 24 to 26 e Connecting to Ground low active Digital input 2 e active gt Connecting Screw Terminal 25 to 26 e Connecting to Ground low active 4 6 Connection of alarm outputs relay 1 2 3 4 5 6 7 8 9 10 11 12 13 alarm 12. TR Electronic GmbH 22 8 Procedure of programming 8 5 Programming level for analog output P 03 heat Default Param Description Seeting range vale Analog Output data source 0 gt Value of encoder to analog output 3 00 1 gt MAX value to analog output Og 0 2 gt MIN value to analog output 3 gt Hold value to analog output Analog Output configuration 0 gt Oto10V 3 01 1 gt 21010 V 0 3 0 2 gt 01t0 20 mA 3 gt 41020 mA 3 02 Display value for minimal analog 99999 999999 0 output signal 3 03 Display value for maximal analog output 99999 999999 4095 signal 3End Leave programming level P 03 8 5 1 Scaling of the analog output The scaling of the analog output range can be programmed with the parameter 3 02 and 3 03 Any value between 99999 and 999999 can be set to minimal and maximal analog output signal Data sources of the analog output e Value of encoder e Maximum value e Minimum value e Hold value 8 5 2 Analog output at failure Indication Output signa a ee Voltage 0 to 10 V OV Voltage 2 to 10 V 1V current value won t be Current 0 to 20 mA 0 mA changed Current 4 to 20 mA 2 mA 23 TR Electronic GmbH 8 Procedure of programming 8 5 3 Analog output at overflow resp underflow Output signal ee eee Voltage 0 to 10 V 10 V OV Voltage 2to 10 V 10 V 2V Current 0
3. Perform the main reset by Pressing the pushbuttons 2 E and E atthe same time during 10 seconds 10 Error codes 10 1 Encoder not connected Err01 e The display flashs and indicate Err01 e Signalizes that no encoder have been connected to the instrument 10 2 Waiting for data input Err02 e The display flashs and indicate Err02 e Signalizes in slave mode that after the connection of an encoder no data input have been received by the instrument 10 3 External clock frequency too high ERRO3 e The display flashs and indicate Err03 e Signalizes in slave mode that the clock frequency of the external clock is too high gt 125 kHz 31 TR Electronic GmbH 11 Technical Specifications 11 Technical Specifications 11 1 Electrical datas SSI signal input Resolution Code Clock output Clock input Data input Master mode Clock frequency Conversion rate Slave mode Clock frequency Break of clock brushs Conversion rate Digital user inputs Logic Signal level Alarm outputs Signaling Switch voltage Switch current Switch power Analog output Accuracy Voltage Current Isolation voltage Power supply DC Power consumption Isolation voltage 11 2 Mechanical datas Display TR Electronic GmbH singleturn or multiturn 10 25 bit binary or gray driver RS 422 485 receiver RS 422 485 receiver RS 422 485 internal 100 kHz or 200 kHz approximate 28 values seco
4. 0 15 and 0 14 Indication of the displayed minimum and maximum value e LED 3 lights red gt minimum value is displayed e LED 3 lights green gt maximum value is displayed 9 6 Hold function When activating the hold function the value of the data source which is programmed in parameter 0 09 is taken over into the hold memory If the hold function is not active the hold value is the same as the value of the data source which is programmed in parameter 0 09 Activating the hold function by e Digital input 1 parameter 0 11 e Digital input 2 parameter 0 12 Reset the hold value e By leaving the programming routine Display the hold value by e Programming as data source of the display parameter 0 09 e Pressing the pushbutton or o parameter 0 15 and 0 14 The hold value can e Show on display e Watched by alarm output e Set to the analog output 9 7 Display test When activating the display test all segments of the display are light on The display shows 8 8 8 8 8 8 Activating the display test by e Digital input 1 parameter 0 11 e Digital input 2 parameter 0 12 TR Electronic GmbH 30 10 Error codes 9 8 Main reset The main reset is performed by pressing a key combination at the front of the panel meter By doing this all parameters are setting to the default value The value of the parameter 0 00 input range is not changing by the main reset During the main reset the display shows Init
5. alarm 2 9 TR Electronic GmbH 5 Startup procedure 4 7 Connection of analog output 1 2 3 4 5 6 7 8 9 10 11 12 13 AU T lt 4 8 Connection of power supply voltage 4 8 1 Supply voltage 18 36 V DC 1 2 3 4 5 6 7 8 9 10 11 12 13 p 5 Startup procedure Attention must be paid that the power supply voltage applied will agree with the voltage noticed at the name plate Switch the power supply on supply voltage applied to screw terminal 1 and 2 After about 2 seconds the display will indicate the applied input signal When delivered the instrument is programmed with a standard configura tion default values By programming the customer can change the stand ard configuration according to his measuring task wants to change the configuration attention must be paid that no damage n Attention When the instrument is built in a machine and the customer will occur to the machine TR Electronic GmbH 10 6 Pushbuttons and LED functions 6 Pushbuttons and LED functions There are four push buttons in the front These push buttons can have different functions The functions of the push buttons can be used for programming and for service LED1 6 decades display LED1 ee 82 2842S LED3 LED3 GEG Eb programming button unction button button alarm 1 alarm 2 direct input max min or hold value
6. for data input Er02 2 24 ieee ee eda 31 10 3 External clock frequency too high ERRO3 31 11 Technical Specifications 88 0008 eee 32 11 1 Electrical datas 24 sed ako eed RR eRe Rw 32 11 2 Mechanical datas 2 2 00 32 11 3 Environmental conditions 33 Stand 23 05 2000 TR E BA GB 0017 00 DOC Technical subjects to change 3 TR Electronic GmbH 1 Description 1 Description The programmable absolut encoder display ADP 001 is an instrument to convert datas of absolute encoders with Synchronous Serial Interface SSI in an analog output signal Simultaneous it can carried out an alarm point controlling Standard hardware isolated analog output 0 10 V 2 10 V 0 20 mA 4 20 mA two relay alarm outputs two programmable digital input channels three programmable pushbuttons Standard software Programming of encoder datas Scaling factor Zero point adjustment Offset value Display segment test Hold function MAX MIN value detection Auto Reset of MAX MIN value Edit of the alarm value during normal measurement Display of error messages TR Electronic GmbH 4 2 Safety instructions 2 Safety instructions This instrument is produced in accordance with Class II of IEC 348 and VDE 0411 When delivered the instrument has been tested to meet all functions described Before installing the instrument please read the mounting and servicing instructions W
7. points O gt XXXXXX 1 gt XXXXX X 0 08 2 gt XXXX XX Oued 0 3 gt XXX XXX 4 gt XX XXXX 5 gt X XXXXX Data source of the display 0 gt Encoder value 0 09 1 gt MAX value ogee 0 2 gt MIN value 3 gt Hold value Reset time of the MIN MAX value 0 10 0 gt No automatically reset 0 100 0 X gt Reset time in seconds Function of digital user input 1 0 gt No function 1 gt Reset MIN MAX value OG 15 Taring of encoder Os 10 0 3 gt Clear tara value of encoder 4 gt Incremental measurement 17 TR Electronic GmbH 8 Procedure of programming continue of 0 11 Function of digital input 1 5 gt Manual reset of alarms 6 gt Hold function Pi Display test vs 8 gt Display value of encoder 9 gt Display MAX value 10 gt Display MIN value Function of digital user input 2 0 gt No function 1 gt Reset MIN MAX value 2 gt Taring of encoder 3 gt Clear tara value of encoder 4 gt Incremental measurement 012 5 5 Manual reset of alarms pl 6 gt Hold function 7 gt Display test 8 gt Display value of encoder 9 gt Display MAX value 10 gt Display MIN value Function of push button 0 gt No function 1 gt Reset MIN MAX value 0 13 2 gt Taring of encoder 0 5 3 gt Clear tara value of encoder 4 gt Incremental measurement 5 gt Manual reset of alarm Function of pushbutton 0 gt No function 1 gt Display value of encoder 2 gt Display MAX v
8. to 20 mA 20 mA 0 mA Current 4 to 20 mA 20 mA 4 mA TR Electronic GmbH 24 8 Procedure of programming 8 6 Programming quick reference P wrong access code Resolution bits Output code gray or binary Master Slave mode Clock for Master mode Zero adjustment Counting direction Offset value Programmable points 208 Phea 2 098 rman Display multiplier Data source of the display Reset time of max min and hold value Function of digital input 1 Function of digital input 2 Function of key Function of key Function of key access code Fall off time of alarm 2 Put on time of alarm 2 vr ve ye yt yt yt yt yt yt yt yt yt yt vt yr vi vt 25 TR Electronic GmbH 8 Procedure of programming operation level P 9 i PEnd P Data source of analog output Analog output signal Display value for minimal output signal Display value for maximal output signal P gt pressing the button J gt pressing the button gt pressing the button EJ TR Electronic GmbH 9 Software functions 9 Software functions 9 1 Master Slave Mode M r M Parameter 0 02 have to be programmed to 0 For reading
9. value Activating the function a second time will switch off the function and clear the incremtal measurement value of the EEPROM 9 4 Direction of rotation The direction of rotation can be changed by software function The encoder will usually count in increasing direction if the driving shaft turns with clockwise rotation top view at the driving shaft Increasing values with clockwise rotation top view at the driving shaft Parameter 0 05 have to be programmed to 0 Increasing values with anti clockwise rotation top view at the driving shaft Parameter 0 05 have to be programmed to 1 9 5 MIN MAX value detection The panel meter include a MIN MAX value detection The maximum and minimum value can be displayed with the frontal push buttons or the digital user inputs Besides the maximum and minimum value can be controlled of the alarm output or can be used as the data source for the analog output Reset the minimum and maximum values e Automatically by the programmed memory reset time parameter 0 10 e By activating the digital inputs 1 or 2 parameter 0 11 and 0 12 e By pressing the functional pushbutton E parameter 0 13 e By leaving the programming routine 29 TR Electronic GmbH 9 Software functions Display the minimum and maximum value e By programming as data source of the display parameter 0 09 e By activating the digital input 1 or 2 parameter 0 11 and 0 12 e By pressing the pushbutton or og parameter
10. 0 13 E Function of pushbutton By pressing 0 No function 1 Reset the MIN MAX value 2 Taring 3 Clear tara value 4 Incremental measurement 5 Manual reset of alarms Parameter 0 14 Function of pushbutton By pressing Pressing during 3 sec 0 No function Display value of encoder Display MAX value Display MIN value Display hold value Display alarm point 1 Change alarm point 1 Display alarm point 2 Change alarm point 2 OOIAIOINI TR Electronic GmbH 12 7 Modes Parameter 0 15 Function of pushbutton By pressing Pressing during 3 sec 0 No function Display value of encoder Display MAX value Display MIN value Display hold value Display alarm point 1 Change alarm point 1 Display alarm point 2 Change alarm point 2 OOIAIOIN gt 7 2 Access code level The state access code level becomes active by pressing the pushbutton P during the state operation level The display shows c000 During the state access code level the normal functions of the instrument are active pushbutton Function P Confirm of the displayed access code O Increase the access code Decrease the access code Programmed function 13 TR Electronic GmbH 7 Modes 7 3 Programming level The state programm level becomes active by entering the right access
11. Programmable absolute encoder display Manual ADP 001 Art Nr 485 00220 Edition Rev Date 23 05 2000 Document Rev Nr TR E BA GB 0017 00 Firmware version Filename TR E BA GB 0017 DOC Author MUJ TR Electronic GmbH Eglishalde 6 D 78647 Trossingen Telefon 07425 228 0 Telefax 07425 228 33 Absolute Encoder Display ADP 001 FP ELEGTRONIC GmbH TR Electronic GmbH D 78647 Trossingen Eglishalde 6 Tel 0049 07425 228 0 Fax 0049 07425 228 33 O Copyright 1999 TR Electronic Warranty For delivered products our Allgemeine Lieferungs und Zahlungsbedingungen are effective In no event TR Electronic or its suppliers shall be liable for any other damages whatsover including without limitation damages for loss of business profits business interruption or other pecuniary loss arising out of or inability to use this product All products from TR Electronic are warranted against defective material and workmanship for a period of one 1 year from date of delivery If it is necessary to return the product to TR the sender is responsible for shipping charges freight insurance and proper packaging to prevent breakage in transit TR s warranty does not apply to defects resulting from action of the buyer such mishandling improper interfacing operation outside of design limits improper repair or unauthorized modification Trademarks Alltrademarks that are named or portrayed in the text are registered tra
12. alue 0 14 3 gt Display MIN value Dsg 4 gt Display hold value 5 gt Display change alarm point 1 6 gt Display change alarm point 2 Function of pushbutton 0 gt No function 1 gt Display value of encoder 2 gt Display MAX value 015 3 gt Display MIN value v8 4 gt Display hold value 5 gt Display change alarm point 1 6 gt Display change alarm point 2 0 19 Access code 0 999 OEnd Leaving programming level 0 TR Electronic GmbH 8 Procedure of programming 8 3 1 Scaling the display range The scaling of the display range is matched by using a scaling factor and an offset value The calculation of the display value looks like below Display Enc_value Zero_adjustmet x Sca_faktor Offset value The overflow or underflow becomes active if the displayed value is greater than 999999 or smaller than 99999 e When overflow is activ the display shows nnnnnn e When underflow is active the display shows uuuuuu 19 TR Electronic GmbH 8 4 8 Procedure of programming Programming level of alarms P 02 Param Description Setting range Default value 2 00 Alarm output 1 data source 0 gt Alarm 1 off 1 gt Alarm 1 to value of encoder gt Alarm 1 to maximum value gt Alarm 1 to minimum value gt Alarm 1 to hold value 2 01 larm output 1 high or low gt Contact closed by low limit gt Contact closed by high lim
13. b q y TR Electronic GmbH 6 4 Electrical connections 4 Electrical connections 4 1 General instructions It is forbidden to plug or unplug connectors with voltage applied Attach input and output wires to the connectors only without voltages applied Cords must be provided with sleeves Attention must be paid that the power supply voltage applied will agree with voltage noticed at the name plate The instrument has no power on switch so it will be in operation as soon as the power is connected 4 2 Hints against noisy environment All inputs and outputs are protected against noisy environment and high voltage spikes Nevertheless the location should be selected to ensure that no capacitive or inductive interference can have an effect on the instrument or the connection lines It is advisable To use shielded cables The wiring of shields and ground OV should be star shaped The distance to interference sources should be as long as possible If necessary protective screen or metal enclosures must be provi ded Coils of relays must be supplied with filters Parallel wiring of input signals and AC power lines should be avoided TR Electronic GmbH 4 Electrical connections 4 3 Connection and pin assignment All inputs and outputs are connectors designed as plug in screw terminals NT z n c signalinput digital fe Ka SONE DPHE inputs
14. button alarm 1 alarm 2 direct input max min or hold value 6 1 Function of buttons and LEDs LED 1 LED 2 LED 3 Description x xX off encoder or hold value is displayed xX X red MIN value is displayed xX X green MAX value is displayed xX X green flashs programming mode is activated xX off xX alarm 2 is not activated X lights x alarm 2 is activated X flashs off alarm point 2 is displayed x flashs green flashs alarm point 2 is changed off X Xx alarm 1 is not activated lights x X alarm 1 is activated flashs xX off alarm point 1 is displayed flashs X green flashs alarm point 1 is changed x State of the LED is not considered 11 TR Electronic GmbH 7 Modes 7 Modes The operation and the programming of the panel meter is organized in several states e Operation level e Access code level e Programm level 7 1 Operation level In the state operation level the normal functions of the instrument are activated A normal measurement cycle looks like below e Read the value of encoder calculate and display e Evaluate the digital inputs e Alarm outputs e Analog output Dependent on the programming of the parameter 0 14 function of key g 0 15 function of key A and 0 13 function of key following key functions are available in the operation level Parameter
15. code The access code must be confirm by pressing the pushbutton P The programming is organized in following steps e Selection of a programming level e Selection of a parameter e Change of the selected parameter Pushbutton Press Pressing during 3 sec Selection of P Programming level Parameter Decrease of Programming level i Number of parameter Value of parameter Increase of Programming level Number of parameter Value of parameter E Break the programming routine TR Electronic GmbH 14 8 Procedure of programming 8 Procedure of programming The procedure of programming is organized in several different steps Access to the selection of the programming levels e Pressing pushbutton Id gt access code enter is active e The display shows c000 e Changing the access code by pressing the pushbutton oo and confirm the changed access code by pressing the pushbutton P If the entered access code is not correct the instrument will jump back to the state operation level 8 1 Changing or controlling parameters Activating the programming routine e Pressing pushbutton E e LED 3 flashs green e The display shows c000 e Changing the access code by pressing the pushbutton B o e Confirm access code by pressing the pushbutton IB e The display shows P 00 Leaving the programming routine e Pressing the pushbutton Oo until the displa
16. d the number of the parameter For example 0 05 gt parameter number 5 of programming level 0 For example 2 08 gt parameter number 8 of programming level 2 8 2 Overview of the programming levels The parameters of the panel meter are organized in different programming levels P 00 Programming level for configuration of the panel meter The configuration is used to adapt the absolute encoder and the panel meter P 02 Programming level for the alarms This programming level is used to programm all settings for the alarm outputs P 03 Programming level for the analog output This programming level is used to programm all settings of the analog output TR Electronic GmbH 16 8 Procedure of programming 8 3 Programming level for configuration P 00 ads Default Param Description Setting range lie 0 00 Resolution Bits 10 25 12 Output code 0 01 0 gt Gray 0i 1 0 1 gt Binary Master Slave Mode 0 02 0 gt Instrument Master On 0 1 gt Instrument Slave Clock for Master Mode 0 03 0 gt Frequency 200 kHz 0 1 0 1 gt Frequency 100 kHz Zero adjustment 0 04 0 gt Zero adjustment without sign 0 1 0 1 gt Zero adjustment with display Counting direction 0 05 0 gt increasing clockwise rotation On 0 1 gt increasing anticlockwise rotation 0 06 Scalingfactor 0 00001 9 99999 1 00000 0 07 Offset value 99999 999999 0 Programmable decimal
17. demarks ofits owner The trademarks are recognized by TR Electronic TR ELECTRONIC GmbH Unternehmensweites Qualit tsmanagement Eglishalde 6 78647 Trossingen Tel 07425 228 0 Fax 07425 228 33 Datum 23 05 2000 TR E BA GB 0017 00 CONTENTS 1 Description so ecc bese ped res BH ew ee eee we 4 2 Safety instructions 2222 ee ee ee es 5 2 1 Symbol explanation 4es 45 6444 84 2824 54 5 3 Mo ting eosa 20 2 oaa oS es Be Ke S eS 6 3 1 Place ofoperation 0 000000 6 3 2 Mounting of signal converter 6 4 Electrical connections 2208 2855 7 4 1 Generalinstructions 7 4 2 Hints against noisy environment LL arr aks 7 4 3 Connection and pinassignment 8 4 4 Connection of absolute encoder LL aar ras 9 4 5 Connection of digital userinputs 9 4 6 Connection of alarm outputs relay 2 9 4 7 Connection of analog output 10 4 8 Connection of power supply voliage 10 4 8 1 Supply voltage 18 36 VDC 10 5 Startup procedure 1 ee eee ee ee es 10 6 Pushbuttons and LED functions 11 6 1 Function of buttons andLEDs 11 7 Mod s isse 0442468454 Haw Het de 4446 bes ee 12 7 1 Operationlevel 2 22 12 7 2 Access codelevel 2 ra a 18 7 3 Programming level 2 2 2 14 8 Procedur
18. e have no liability or responsibility to customer or any other person or entity with respect to any liability loss or damage caused or alleged to be caused directly or indirectly by equipment or software sold or furnished by us Read the installation instruction carefully No liability will be assumed for any damage caused by improper installation Inspect the instrument module carton for obvious damage Be shure there are no shipping and handing damages on the module before processing Do not apply power to the instrument if it has been damaged TR s warranty does not apply to defects resulting from action of the buyer such as mishandling improper interfacing operation outside of design limits improper repair or unauthorized modifications 2 1 Symbol explanation Caution Attention Instruction Tip Caution Will be used at dangerous for life and health Attention Will cause damage Instruction If not noticed trouble may occur Tip Useful hints for better operation 5 TR Electronic GmbH 3 Mounting 3 Mounting 3 1 Place of operation Attention must be payed to the protection against humidity dust and high tempera tures at the place of operation 3 2 Mounting of signal converter e through simple snap up at 35 mm rail DIN EN 50022 ome TIA Fir LED1 e2208425 LED3 lf m 9 Ne 110 GUS Ex w m 3
19. e of programming 555 15 8 1 Changing or controlling parameters 15 8 2 Overview of the programming levels 16 8 3 Programming level for configuration P 00 17 8 3 1 Scaling the display range 19 8 4 Programming level of alarms P 02 20 8 4 1 Alarm output functions 21 TR Electronic GmbH 8 4 2 Alarm high setpoint 22 8 4 3 Alarmlowsetpoint 22 8 5 Programming level for analog output P 03 23 8 5 1 Scaling of the analog output 23 8 5 2 Analog output at failure Indication 23 8 5 3 Analog output at overflow resp underflow 24 8 6 Programming quick reference 25 9 Software functions 2222 arr kr kr kr kr ees 27 9 1 Master Slave Mode 00 0000s 27 9 2 Zeropointadjustment 27 9 2 1 Zero point adjustment by pressing button 27 9 2 2 Zero point adjustment by offset value 28 9 3 Incremental measurement 22222 vr rar 29 9 4 Direction of rotation 005002 e 29 9 5 MIN MAX value detection 29 9 6 Holdfunction 000220000 30 9 7 Displaytest 1 4 r r daa oe He Oe we Ee 30 9 8 MANIESE 1 54 2 s Hee ee oe eA ee Blew oer 31 10 Error COQS 2 44 2224 seg ae S K OS sak F Sa 31 10 1 Encoder not connected ErrO1 31 10 2 Waiting
20. e without changing of the zero point 3072 1024 2048 2048 Display range with changing of the zero point The pushbutton EJ have been pressed by a display 4024 3072 of 2048 0 9 2 2 Zero point adjustment by offset value The calculation of the programmed offset value parameter 0 07 looks like below Display Enc_value Zero_adjustmet x Sca_faktor Offset value There can be a display as a result of programming an offset value Attention should be paid to _ The charging of the offset value is followed after the charging of the gcaling factor e The Parameter 0 04 have to be programmed to 1 TR Electronic GmbH 28 9 Software functions 9 3 Incremental measurement A relative measurement can be made by using the incremental measurement function Activating the incremental measurement function will happen that a incre mental measurement value will be stored to a non volatile EEPROM even after switching of the instrument Activating the incremental measurement function e The digital input 1 parameter 0 11 e The digital input 2 parameter 0 12 e The functional pushbutton E parameter 0 13 Activating the incremental measurement function by pressing the functional pushbut ton or activating digital input 1 digital input 2 dependent on the programming of the parameter 0 11 0 12 and 0 13 cause that the current encoder value is stored to an EEPROM This value will be substracted from each current encoder
21. it gt Contact open by low limit 3 gt Contact open by high limit N O0O gt IKRON 2 02 Alarm output 1 alarm point 99999 999999 2 03 Alarm output 1 hysteresis 1 1000 2 04 Alarm output 1 release delay time in seconds 2 05 Alarm output 1 operate delay time in seconds 2 06 Alarm output 2 data source 0 gt Alarm 2 off 1 gt Alarm 2 to value of encoder Alarm 2 to maximum value Alarm 2 to minimum value Alarm 2 to hold value RON VVV 2 07 Alarm output 2 high or low 0 gt Contact closed by low limit 1 gt Contact closed by high limit 2 gt Contact open by low limit 3 gt Contact open by high limit 2 08 Alarm output 2 alarm point 99999 999999 2 09 Alarm output 2 hysteresis 1 1000 2 10 Alarm output 2 release delay time in seconds 2 11 Alarm output 2 operate delay time in seconds 2End Leave programming level P 02 TR Electronic GmbH 20 8 Procedure of programming 8 4 1 Alarm output functions Data sources of the alarms e Value of the encoder e Maximum value e Minimum value e Hold value Indication of alarms e Two relay output e LED 1 and LED 2 at the front Programmable functions of the alarms e Alarm value e Hysteresis e Release delay time and operate delay time e High or low alarm Manual alarm reset In dependence of programming the digital inputs and
22. nd external max 125 kHz min 500 us approximate 28 values second 10 KQ to 5 V NPN max 30 V L Pegel lt 0 4 V H Pegel gt 3 5 V 2 relays programmable as opened contact or closed contact 2 LEDs at the front 250 V AC 250 V DC 5AAC 5ADC 750 VA 100 W resolution 16 bit 0 2 of final value 0 2 10 V max 10 mA 0 4 20 mA max 500 Q 3kV 1 min 18 36 V DG approx 200 mA 500 V 1 min 6 decades 8 mm red decimal point programmable preliminary zero suppression Sign at negative values 32 11 Technical Specifications Operation keyboard design Case Dimensions W x H x D Weight Connection 11 3 Environmental conditions Operating temperature Storage temperature Humidity Protection Front protection Field of application CE 33 front membrane with push buttons rail mounting DIN EN 50022 35 mm snap in 67 5x 75x 105 mm approx 300 g plug in screw terminal max o 2 5 mm 10450 C 20 70 C lt 80 not condensing protection class II IP 40 connectors IP 20 Class 2 overvoltage protection II in conform with 89 336 EWG NSR 73 23 EWG TR Electronic GmbH
23. the functional pushbut ton EJ is the alarm output latched or not latched Alarm output latched e If the digital input 1 2 parameter 0 11 and 0 12 or the functional pushbutton parameter 0 13 is programmed to manual alarm reset e Reset the latched alarm output by activate the digital inputs or press the functional pushbutton Alarm output not latched e If the digital inputs and the functional pushbutton are not programmed to manual alarm reset Display and edit the alarm values e Inside the programmig routine which is reached over the enter code During the programming routine no measurement is taken e Outside the programming routine by pressing the pushbutton or B during normal measurement are taken The edition is end when pressing the pushbutton E rherfore the alarm value will be up to date 21 TR Electronic GmbH 8 Procedure of programming 8 4 2 Alarm high setpoint normally closed to high limit normally opened to high limit alarm value alarm value hysteresis alarm watched signal v v y y N a A gt operate delay time release delay time t 8 4 3 Alarm low setpoint normally closed to low limit normally opened to low limit alarm value hysteresis alarm value alarm watched signal v q pr D Y UV ve pg gt operate delay time release delay time t
24. the value of the encoder the clock is generated by the instrument The clock frequency can be programmed to 100 kHz or 200 kHz parameter 0 03 Slave Mode Parameter 0 02 have to be programmed to 1 The clock signal have to be generated by an other instrument The data transmission between the encoder and the instrument dependent on this external clock In slave mode attention should be paid to e External clock may not exceed 125 kHz gt Pause of clock brushs have to be min 500 us e The encoder value will be displayed with 28 values per second 9 2 Zero point adjustment Sometimes an exactly mechanical zero point adjustment isn t possible But it s possible to adjust the zero point by software 9 2 1 Zero point adjustment by pressing button The zero point can be changed by pressing the button Parameter 0 13 have to be programmed to 2 1 Zero point adjustment with sign Parameter 0 04 have to be programmed to 1 Example Absolute Encoder SSI Encoder singeltur n Resolution 4096 steps per rotation 0 Display range without changing of the zero point 3072 1024 2048 27 TR Electronic GmbH 9 Software functions Display range with changing of the zero point 2048 The pushbutton EJ have been pressed by a display of 2048 1024 1024 2 Zero point adjustment without sign Parameter 0 04 have to be programmed to 0 Example Absolute Encoder SSl Encoder singleturn Resolution 4096 steps per rotation 0 Display rang
25. y shows PEnd e Confirm the display PEnd by pressing the pushbutton P e LED 3 is off e The active state of the panel meter is operation level Selection of the programming level e Selecting the programming level by pressing the pushbutton O or e Confirm the programming level by pressing the pushbutton P e The display shows the number of the parameter of the selected programming level For example 0 00 gt parameter 0 of the programming level 0 For example 2 00 gt parameter 0 of the programming level 2 15 TR Electronic GmbH 8 Procedure of programming Leaving the programming level e Pressing the pushbutton o or until the display shows xEnd For example 0End gt leaving programming level 0 For example 2End gt leaving programming level 2 e Confirm the display xEnd by pressing the pushbutton le e The display shows the programming level For example P 00 gt for programming level 0 For example P 02 gt for programming level 2 Selection of the parameter e Selection the parameter by pressing the pushbutton g or e Confirm the parameter by pressing the pushbutton P e The display shows the last programmed value of the selected parameter Change and controll the selected parameter e Change the value of the parameter by pressing the pushbutton g or e Confirm the value of the parameter by pressing the pushbutton P e The display shows the programming level an
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