DIGITAL INDICATOR USER`S MANUAL
Contents
1. RS485 Half duplex asynchronous method oelect one of 2400 4800 9600bps No Parity 8 bit Please set up the device No referring to INDICATOR Manual Can setup from 1 to 32 channel 7 Command Form PC gt INDICATOR CODE BYTE BVIE 4 BYTES asci 1 1 P _ 49H BYTE2 2 BYTE4 SB YES 8 Command Chart ASCII Fixed Charactor 10 Device Number 1 32 Command Order P H R Z HEX 50H 48H och Transmit the current value of order equipment Hold for order equipment Release hold for order equipment Operate the current value of order equipment as ZERO 37 9 Transmission Data Form INDICATOR gt ____ 1 9 HEX 58H 54H 30H 2CH 2BH 30H 1 2 4 5 ir BYTE2 Fixed Charactor ID BYTES 5 Device number 1 32 BYTE6 Fixed Charactor BYTE7 BYTE14 DATA 8byte Including BYTE15 CARRIAGE RETURN BYTE LG LINE FEED 382. 6 Wiring Diagram 1 DN 10W DN 50W SERIALOUT CONTACTINPUT CONTACT OUTPUT 52 SO e lt D lt gt c3 LLI se 2 e O 110V 220V ANALOG OUT LOAD CELL LVDT POWER SUPPLY AC 110V 220V ANALOG OUT 0 10V 4 20mA si 8 DEM E c AC 110V 220V ANALOG OUT DC 0 10V 4 20mA POWER SUPPLY AC 110V 220V ANALOG OUT DC 0 10V 4 20mA DETECTOR 5 External input PLC connection INDICATOR How to use Hold mode Hold mode is largely divided into Peak Hold and Sample Hold Please select Analog Digital or Display Hold as per your purpose of use Hi or Low Speed To input Hold you can use Hold key on the front panel or external input For the operation method please refer to the drawing below DN 10W DN 20W DN 25W 1 Peak Hold Hold the maxium value among the measured values Peak hold mode It is to hold and display the maximum value of direction Absolute peak hold mode is to hold and display the maximum value of the absolute value 2 Sample hold t is to hold and display the value at the time of Hold signal input among the measured values DN 30W 1 Peak hold To Hold the maxium value among the measured values Peak hold mode It is to hold and displa
3. 1 Decision mode Measured Value lt Lower limit setup value RY1 ON HI Measured Value Upper limit setup value gt RY2 ON LO Lower limit setup value lt Measured value lt Upper limit setup value RY3 ON Ok 2 High limit mode Measured Value gt RY1 setup value gt RY1 ON Measured Value gt RY2 setup value RY2 ON Measured Value 2 setup value ON Measured Value gt RY4 setup value RY4 ON Measured Value RY1 setup value Hysteresis value gt RY1 OFF Measured Value RY2 setup value Hysteresis value RY2 OFF Measured Value lt RY3 setup value Hysteresis value gt OFF Measured Value RY4 setup value Hysteresis value gt RYA4OFF 3 Low limit mode Measured Value RY1 setup value RY1 ON Measured Value RY2 setup value RY2 ON Measured Value setup value Measured Value RY4 setup value RY4 ON Measured Value gt RY1 setup value Hysteresis value RY1 OFF Measured Value gt RY2 setup value Hysteresis value RY2 OFF Measured Value gt RY3 setup value Hysteresis value gt RY3 OFF Measured Value gt RY4 setup value Hysteresis value RY4 OFF 4 Low amp High limit mode Measured Value RY1 setup value RY1 Measured Value RY2 setup value RY2 ON Measured Value gt setup value ON Measured Value gt RY4 setup value 4 Measured Value gt RY1 setup value Hysteresis value RY1 OFF Measured Value gt RY2 setup value
4. Peak Hold You can choose peak hold or sample hold 1 3 Comparison Output You can do set up the maxium and lower limit value by the keys on the front panel and output contact point signal of the rear panel 1 4 Data Back up the set up values will be memorized on the flash memory so the inputted data can be saved and no need to do the re setting even in case of the interruption of the electric power or power disconnection 1 5 Watch dog This function is for automatic reset in case the system is stopped due to the external factors such as noise 2 Attention For the efficient and safe use please carefully read and be fully aware of the following details before using this product It is strictly forbidden to use this product for any other purpose of use or to attempt to make any alteration on this product 2 1 Attention for installation e Please keep it out of wet places e Do not set it up near vibration amp impulse high temperature and humidity Keep it out of the direct rays of the sun Set it up where there is less dust and Keep it out of direct air including salt and ion e Do not use when there is inflammable gas or heavy machinery and smog e Ground earth terminal amp e Make wire separately from power system wiring and noise wiring e Make sure the use of 4 line sealed cable as a sensor cable long cable leads to measurement error due to wiring resistance around 10meters 2 2 Attenti
5. then Press After adding the actual load on the sensor press Ens About 1 sec later 5 Calibration end 30 3 DN 25W This is a calibration method by adding actual load on the sensor Standard weight is needed And this can calibrate 1 stages and improve linearity of sensor While 15 O key Display Function mode Display Sensor output value calibration mode Display zero mode press key without any load on the sensor About 1 sec later Display actual load mode first phase 0000 Inout the rated output value by using and key then Press e Key E After adding the actual load on the sensor press key E About 1 sec later End Calibration end 31 8 4 SPAN constant claibration Calibratuib by Shunt CAL Value 1 DN 10W DN 50W It is to calibrate with the S CAL value written down for load calibration You can calibrate without any standard weight Measuring Mode State While e key is pressed press Key Displays Function Mode State Displays Sensor Ouput Value Calibration State Displays Actual Load Calibration State Displays Shunt cal value Calibration state Displays the Rated output value input state Input the rated output value by using and key And then press e key Input 3 0000 if donot know the rated output of sensor Displays Shunt cal value input State Input
6. 15 being pressed press 63 un WaT A 57 un 0000 Lu 70 SPAn 10000 Displays Function Mode State Displays Sensor Ouput Value Calibration State Displays Actual Load Calibration State Displays the Rated output value input state Input the rated output value by using and O key And then press key Input 3 0000 if donot know the rated output of sensor Displays Zero State Press e kev without addina load on the sensor Zero Emission About 1 second later Displays the acual load State Input the actual load standard weight by using and Q Key And then press After adding actual load standard weight on sensor press e Key After about 1 sec for display Displays Shunt CAL Value Please write to S CAL DATE Rated output S CAL tnmen 2 DN 20W This is a calibration method by adding actual load the sensor Standard weight is needed And this can calibrate 1 stages and improve linearity of sensor While 15 2 key Display Function mode Display Sensor output value calibration mode Display Actual load calibration mode Display zero mode press amp key without any load on the Sensor 1 sec later Display actual load mode first phase Input the rated output value by using and key And
7. Hysteresis value RY2 OFF Measured Value lt RY3 setup value Hysteresis value OFF Measured Value lt RY4 setup value Hysteresis value RY4 OFF measurement Hi setting value LO setting value RY1 on RY2 Decision mode 4th setting value 3th setting value 2th setting value 1th setting value RY3 aA on HY4 Low limit mode an ssi value mom DIRE 3th setting value 2th setting value 1th setting value on RY4 resp High limit mode 4th setting value 3th setting value 2th setting value Ith setting value on RY1 RY2 aaae LLL Low amp High limit mode 13 8 Setting Modes 1 DN 10W DN 50W For Setting mode there are 4 different types of mode such as Function mode Digital calibration mode Actual load calibration mode and SPAN constant calibration mode Measuring Mode While e key is being pressed press Key Function mode D Digital calibration 2 Actual load mE calibration mode SPAN constant calibration mode D Function mode Access to each function setup mode Please refer 8 2 Function Mode 2 Digital calibration mode It is to calibrate into the sensor s output value No need to prepare for the actual load standard weight Pl
8. of Rotary body detection sensor DN30W can set up Pulse number from 1 to 360 02 Division Minimum display unit setup Standard setup value 1 Displayed In 1 0 2 E 2 4 6 8 5 Displayed in 5 _ 0 5 10 15 Displayed in 10 0 10 20 30 20 Displayedin 0 0 20 40 60 50 Displayedin 50 0 50 100 150 F 03 Display filter Display speed setup Standard setup value 8 Display data oetting ____ oi Average time 1 8 sec 77271 Average time 1 4 sec Average time 1 2 sec 21 F 04 Hold mode 1 DN 10W DN 20W DN 25W Standard setup value 1 Display data Setting hold the display value at the time of Hold Sample Hold signal input hold the maximum value of display values 1 Peak Hold during Hold signal input hold maximum absolute value of display 2 Absolute Peak Hold values during Hold signal input 2 DN 30W Standard setup value 1 Display data oetting oample Hold To hold the display value at the time of Hold signal input 1 Peak Hold To hold the maximum value of display values during Hold signal input 3 DN 50W data oetting O Display sample Hold hold the display value at the time of Hold signal input Digital sample Hold To hold the A D convertion value at the time of Hold signal input Diplay Peak Hold To hold the maximum value of display valu
9. D Hi or LO LED will be lighted when measured value exceeds the setting value 2 HOLD indication LED This LED will be lighted when the measured value is on Hold 3 Measured value Indication It indicates the measured value and each setting value 4 ZERO SPAN setting up VR It is used when ZERO and SPAN calibration of Analog output DC 0 10V or 4 20mA is carried out Measruing Mode Once this Key is pressed for more than 1 second the current measuring value will be Zero 0 and the Analog output will be OV 4mA as well oEI UP Mode Once this is pressed on the Function Set up Mode you will return to the measuring mode 6 Measuring Mode Once this Key is pressed the lower limit setting value will be displayed and this value also can be changed SET UP Mode he location of row for the number flickering can be moved o0 Measuring Mode Once this Key is pressed the upper limit setting value will be displayed and the value can be changed SET UP Mode he flickering number will be increased by 1 and 1 Measuring Mode Once this Key is pressed HOLD will be selected and once this key is pressed again HOLD will be cancelled SET UP Mode oave each set up value 5 Rear Panel common feature Please check the location of terminal and its use While the projected button is being pressed please insert the cable into the lower hole completely As soon as you release the button the connection will be completed At the poi
10. DIGITAL INDICATOR USER S MANUAL DN 10W VER 5 0 DN 20W VER 5 0 DN 25W VER 1 0 DN 30W VER 1 0 DN 50W 1 5 Address 681 1 Cheoksan Ri Nami Myeon Cheongweon Gun Chung buk TEL 82 43 260 2242 FAX 82 43 260 2245 http www dacell com E Mail info dacell com Contents BETIS u nos 2 isi 2 Ts Oy Ro UU 2 E qM 2 EST LI o LTD Umm 2 __ _ ____________ 2 E TIERE 2 2 1 Attention for installation ieee EC RE MD 3 S OE SN Um UM 2 ou ___6_ _ _ _ 4 2 E ET 6 NB TURIS 2 EM nc a a AT 2 MET ERIT TENER 2 Ies I _ ______ 5 External nde tees T a Saa aaa aaa Hold mode 10 Howto Se output TUR Oi 12 14 TT 14 h U Cu IA M 15 COME IS ANE 18 8 1 Function mode Function Set U p ett entente tenent hd rh ath 17 1 How toset ______
11. S CAL value by using and O key And then press Calibration Completed 32 8 5 Lock Set up You can prevent any accidental operation due to the unnecessary key control by Lock set up After finishing calibration it is recommended to set the Lock At the first stage please start while the power is OFF Related Function when Lock is set Function related to calibration Power is OFF While key is being pressed please turn the power ON Please keep pressing key while this is being displayed Or display Please select lock or release by pressing Q Key ON Lock is selected Off Lock release is selected is completed 33 9 Product Inspection Symptom e Load cell is damaged e Load cell input output Insulation When Display e Load cell insulation e Check resistance resistance trembles resistance e Check load cell s Cable 8 Case gt e Indirect occurrence insulation resistance 1000 Mohm e Check load cell s e Loadcell faulty When weight insulation resistance goesupata e Check the wiring regular ratio or between load cell and the e L oadcell connection is zero returns main device insufficient not made e Check the load cell s calbe s disconnection When weight e Loadcell wiring is e Check load cell s ouput e Output 519 Displayed as e Load cell is damaged e Check the load cell s OVER or e Load cell connection is condition
12. ____________ ee 17 2 HOw TOS ET Ay 18 Funcion mode M Aevi catu dietas 19 8 2 Digital calibration Calibration by sensor output value 26 aS CA RE 26 ____ _ D 8 3 Actual load calibration Calibration by standard weight A 28 E o E A EAE _____ ass 28 0 29 T 30 8 4 SPAN constant calibration 33 si ADD DNE O 31 eu ee ene ee er on re 35 10 OPTION OP 02 OP 03 mom DEC ee eT 34 1 Features We thank you for using our product Please refer to this manual contact our office if you find any problems during using our product This product is an indicator that emplifies the micro voltage signals from each sensor and display in digital It is mainly used to measure physical quantities of the items using strain guage such as loadcell pressure sensor displacement sensor and torque sensor This product has the following special features 1 1 Calibration Method 2 types of calibration systems are adopted Calibration by actual load standard weight and calibration by rated output of sensor 1 2 Hold amp
13. and calbe UNDER bad connection 34 10 02 RS232C Since RS232C Interface is very sensitive of electric noise So please wiring AC Power and electric wires separately Also you must use the shield calbe always INDICATOR HOST PC TX Transmission Data RXD Receive Datea No 2 Pin RX Receive Datea TXD Transmission Data No 3 Pin GN Ground GND Ground 5 Pin Is TYPE gt EIA 232C Method Half duplex asynchronous method 2 Baud rate oelect one of 2400 4800 9600 19200 38400 5 600bps 3 Parity No Parity 4 Data bit 8 bit 5 Stop bit 6 Stream mode Ex Data 1234 5 transmission s T N T e BYTE10 BYTE11 BYTE13 14 BYTE16 2 4 5 cn oF HEX 32H 33H 35H OAH 1 BYTE1 BYTE2 DATA Stable DATA Unstable TEES DATA OVERFLOW DATA UNDERFLOW AL 35 2 3 4 5 BYTES BYTE6 fixed character BYTEZ BYTE14 DATA 8 BYTE including BYTE15 CARRIAGE RETURN BYTE16 LINE FEED 7 Command mode Please setup as RS485 mode and use Refer to OP 03 85485 36 itOption 03 85485 since 5485 Interface is very sensitive of electric noise So please do the wiring from AC Power and electric wires separately Also you must use the shield calbe always Method Baud rate Parity Data bit otop bit E SSE
14. ease refer 8 3 How to calibrate 3 Actual load calibration mode It is to calibrate by adding the actual load Standard weight or the load you know Please refer 8 4 How to calibrate 4 SPAN constant calibration mode is to calibrate with the S CAL value written down for load calibration Please refer 8 5 How to calibrate 2 DN 20W For setting mode there are 3 different types of mode such as Function mode Digital calibration mode Actual load calibration mode while is being Press press key Function mode D Digital calibration 2 mode Actual load 3 calibration mode D Function mode Acess to each function setup mode Please refer 8 2 function mode 2 Digital calibration mode It is to calibrate into the sensor s output value No need to prepare for the actual load stand weight Please refer 8 3 how to calibrate 3 Actual load calibration mode It is to calibrate by adding the actual load standard weight or the load you know Please refer 8 4 how to calibrate 3 DN 25W For setting mode there are 2 different types of mode such as Function mode Actual load calibration mode Measuring mode while is being Press press key Function mode EE Actual load calibration mode D Function mode Acess to each function setup mode Please refer 8 2 function mode 2 Actual load calibration mode It is to calibrate by adding the actual load standard weight or the load you kno
15. es during Hold signal 3 Absolute Peak To hold the maximum absolute value of display values during signal input Analog Peak To hold the maximum value of sensor input during Hold signal input F 05 Comparision mode Comparision output mode setup Standard setup value 0 Display data Decision mode Relay RY1 Lo RY2 Hi Output High limit mode Relay RY1 RY2 4 output Low limit mode Relay RY 1 RY2 RY4 output Low amp High limit mode Relay RY1 RY2 RY4 output 22 F 06 Hysteresis Standard setup value 00 Display qata Setting 00 99 00 Hysteresis not used 01 99 Hysteresis used Decision mode is not applied 07 DAC mode 1 DAC zero Analog output zero set up DN 10W DN 20W DN 25W Standard setup value O Display data 19999 99999 Analog output zero value set up 2 DAC mode Analog Output mode setup DN 50W Standard setup value 0 Display data oetting Display DAC mode Slow x High speed DAC mode Fast F 08 DAC capacity Analog Outupt value setup Display data oetting Standard setup value 10000 19999 setup rated capacity of analog output Example of Setup value and output 99999 Em Current Output 4 oetup Value 20mA Display Display Value Value 10000 10000 E m 10000 10000 10000 10000 F 09 ID Number Communicat
16. ion Device Number setup Display data oetting 00 Device number is not set up Stream mode always transmit data Standard setup value 00 23 00 32 01 32 Device number is set up Command mode Transmit data by command 24 10 8 Print Communication Speed print Setup 1 DN 10W DN 20W DN 25W DN 30W Standard setup value 9 60 2 50 Standard setup value 9 60 0 eats ae j O eoms O0 1 0 1920 1920005 X 3840 X S60 o x PRINT PRNTDATAOUT PI O F 11 Auto zero tracking Auto zero operation range setup Standard setup value 00 data Setting Auto Zero is not used 01 909 Set up the operation range of auto zero F 12 Auto zero tracking time Auto Zero tracking time setup Standard setup value 0 0 md data oetting Auto Zero is not used 0 1 5 0 Set up the auto zero operation time 0 1 5 0 sec 25 13 Force unit Conversion Unit setup Standard setup value 0 x O LR Note m calibration set up the unit you want after calibrating it into Kg F 14 Key disabling Front key Locking setup Standard setup value 0000 0 0 Hold key Lock 1 Release 0 Hi key Lock 1 Release 0 Lo key Lock 1 Release 0 Zero key Lock 1 Release 0 lt example 1001 Zero a
17. mp Hold key Lock Hi and Lo key Release 26 8 2 Digital calibration Calibration by sensor output value 1 DN 10W DN 50W At the time of purchasing sensor the rated capacity R C and rated output R O declared on the calibration sheet can be used for the calibration for easier calibration Measuring Mode State While e key is pressed press Key Displays Function Mode State T d cR Displays Sensor Output Calibration State Displays Rated Output value Input State Input the rated output value by using and O key And then press key Displays the rated capacity value Input State Input the rated capacity value by using and O key And then press e Key End Calibration Completed Zi 2 DN 20W It will be able to calibration with output type and rated capacity setting Measuring mode While 9 key is being Press press i Display Function mode Display Sensor output value calibration mode Display output type select mode Select the sensor output by using and O key And then Press 0 05 5 8 10 0 10 4 20 4 20mA Display R C value input mode Input the rated output value by using and O key And then Press key Calibration end 28 8 3 Actual load calibration 1 DN 10W DN 50W This is a calibration method by adding actual load on the sensor Standard weight is Needed Measuring Mode State While key
18. nt please slightly pull the calbe and check whether the cable is come off or not The most suitable calbe is 0 5 1 Linking cable must be brazing or used with terminal D AC IN 2 OUT 4 5 516 D SIG GNO Main Power Supply Wiring Terminal Ground Terminal as an independent ground connection Analog DC 0 10V DC 4 20mA Output Terminal oensor Supply Voltage Connection Terminal oensor Supply Voltage Connection Terminal oensor Ouput Signal Connection Terminal oensor Output Signal Connection Terminal oHIELD connection terminal of sensor GND TXD RS232C SERIAL INTERFACE 85485 TXD gt TX GND qp INI qp INI 42 N2 43 INA 45 COM External Input Common Terminal External HOLD Input Terminal External HOLD Input Terminal External ZERO Input Terminal External printer signal Input Terminal when PT 100 use No use RELAY Output Common Terminal 6 RY RELAY 1 Lower Limit Output Terminal 2 RY2 RELAY2 Upper Limit Output Terminal RY3 Normal Output Terminal OK RY4 RELAY 4 Output Terminal 60 ANALOG OUT LOW PASS FILTER Selet Switch DN 10W DN 25W DN 30W DN 50W SW 10Hz SW2 100Hz SW3 1 kHz DN 20W Sensor supply voltage amp sensor output select switch oensor supply voltage setting oensor output signal setting 24V Voltage type Current type j
19. on for use During calibration Do not input free load state and real weight load until it becomes stable Pressing Enter Key in unstable condition leads to calibration error Do not press any Key in use at one 5 discretion Please refer to 7 Setting up mode for the function and method of Key 3 opecification Specficaienmodel ON 50W DN 10W DN 20W DN 25W ON 30W 0 10 L 2 0 10V 4 20mA according to customer request Differential PROXIMITY otrain Gauge sensor Available sensor Bridge 1200 3500 7000 resistance trans SENSOR MP displacement displacement 981 meter sensor ENCODER MAX Display AF9999 0 60000 24bit 100times sec NEN 1000times sec 16bit D A Converter 12bit 1000times sec Temperature 0 5 C Characteristic SPAN 50pm Measured value segment LED 14mm display Key Switch Z5 pU S Comparison output Hi Lo OK OUTPUT 4 relay Contact Capacity AC250V 5A Temperature 10 C 60 gt 80 RH No dewing range for use AC 90 240V Power supplay 50 60Hz AC 220V 50 60Hz AC110V DC24V customer request OP 01 BCD OUTPUT OP 02 R5232C 08 5485 OPTION 05 8 step open collector output External dimension 96 x 48 x 128 mm xHxD Panel cutting size 91 5 x 44 5 mm 4 4 Pront Panel common feature 0 HI LO Indication LE
20. w Please refer 8 3 how to calibrate 8 1 Function mode 1 How 0 set function Measuring Mode State While e key is pressed press Key 2 How to set RELAY data 1 Decision mode Decision mode mode 0 2 Limit mode Low amp High limit mode mode 1 3 Measuring Mode press Ly gt B L 3 2 5G pgocci O Function mode table 3 19 Function mode list 01 DN Pulse circle 0 360 30W NP Z z E 1 1 16 03 Display filter 0 4 8 16 32 F 04 mode Sample hold Peak hold Absolute peak hold Peak hold Decision High limit Low limit Comparison mode Decision Low amp High limit F 07 DAC mode Display DAC High speed DAC 50W F 08 I DAC capacity 19999 99999 10000 F 10 Baud rate 8 PRINT 2400 4800 9600 19200 print 9600 il O1 Display DAC Auto zero tracking 0 0 5 0 sec time 13 lt o ko em N 2b bar MPa F 14 Disabling Zero key Lo key Hi key Hold key 0000 d DO F 01 1 Decimal point Decimal point Set up DN 10W DN 20W DN 25W DN 50W Standard setup value samasaa 00000 No decimal point 0000 0 One decimal place 000 00 wo decimal places 00 000 Three decimal places 2 Pulse circle Set up Purse per circle DN 30W Standard setup value 60 Display data oetting O 360 It sets Pulse 1 circle
21. y the maximum value of direction 2 Sample hold It is to hold and display the value at the time of Hold signal input among the measured values DN 50W 1 Peak Hold To Hold the maxium value among the measured values Analog peak hold mode is a high speed Peak hold It is to hold and display the maximum value of direction Display peak hold mode It is a low sped Peak hold It is to hold and display the maximum value of direction Absolute peak hold mode It is a low speed Peak hold is to hold and display the maximum value of the absolute value 2 Sample hold It is to hold and display the value at the time of Hold signal input among the measured values Digital sample hold mode It is operated by high speed sample hold Display sample hold mode It is operated by low speed sample hold D Sensor input value poeJnsee N C D Q lt v c 2 Display value 8 Analog ouput value Time Front Panel HOLD LED External HOLD Input Terminal Front Panel HOLD Key Peak HOLD Sample HOLD 7 3 How to use comparison ouput function For comparison output function there are 3 different modes such as Decision High limit Low limit It displays through the relay of rear panel comparing each setup value On High limit and Low limit mode Hysteresis can be used To set up upper limit High and lower limit Low please use the key on the front panel
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