FD5000 Series Communication Functions User`s Manual
Contents
1. ie y 7 F Note The reading of the main unit changes to LINE the moment it receives 5 1 Establishing and Releasing the Communication Link cominiand 1 0 0 0 CR LF 14 Function 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 char tenon 1 213 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Char Length Sets the input value of linearization data N 01 to 1000 Establishment of communication link Ena 0 1 CR LF 3 ack O 1 CRILF 3 CRI LF i4 Note Set a two digit number as the device ID 00 is void Normal response Note The response time is 40 ms maximum 9 0 0 CR LF 14 ts the output value of linearization data N No response is made if the device ID is wrong CR LF 14 Release of communication link OTCR LF 1 5 0 0 CR LF 14 Note Communication is still possible when another device ID is specified without releasing No response is made for release ts the input value of linearization data N 02 to 500 the communication link Note The response time is 20 ms maximum CR LF 14 6 0 0 CR LF 14 5 2 Available Control Codes ts the output value of linearization data N Control Code Start of Text Marks the starting point of text End of Text Marks the ending point of text E CR LI Y E S CR LF 5 Note If an R command is sent after setting required2. User s Manual FD5000 Series Communication Functions Function 2737 4 Averaging frequency response iT2 3ta stel 7 8T9 io A V G CRILF ing once 5 8 41 12 13 14 15 16 17 18 19 20 21 22 23 char Length 1 2 37475 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Char Length 3 A V G 1 sponse with the status of the averagil via 8 o cRILF 6 sponse with the status of the averagi ing 80 times Averaging frequency setting S CR LF 5 je averaging frequency to once G 8 cr LF s CR LF 5 he main unit switches to the frequency immediately after the setting Moving average calculation frequency response sponse with the status of moving average calculation being set to OFF A v O N 4 CRILF sponse with the status of the moving average calculation frequency being 4 times M A V O N 6 CR LF Response with the status of the moving average calculation freq being 16 times Moving average calculation M A V Y E S CR LF 3 frequency setting Sets the moving average calculation frequency to 4 times M A Vv 16 CRILF ES CR LF 3 Sets the moving average calculation frequency to 16 times M a v 0 CRILF E s CR LF 3 Cancels moving average calculation OFF he main unit switches to the OFF status i after the setting Step width response 6 sponse with the status of the step width being 1 W D 1 0 CRILF 7 sponse with the status of th
3. 6 yY e s cR LF 5 Sets the hold function to OFF Sets the key operation prohibition function to ON yi H on HIeRI pa E SsS CR LF 5 Comparator data response C i ol M CR LF i 3 S HII 1 0 0 0 CR LF 10 Sets the hold function to ON Note The reading of the main unit changes to COM the moment it receives a COM command Response with the Hl side judgment value Trigger input T CR LF 5 o jof 0 H CR 1 N CR LF 1 s L o 5 o o CRILF 10 reading w decimal point Response with the LO side judgment value te The response is the same as that of DSP N CR LF 1 H H 1 0 CR LF 10 i Response with the Hl side hysteresis Hold remote control cancellation E S M CR LF ES CR LF 5 N CR LF 1 H L O 0 CR LF 10 Peak hold remote control response P V H CR LF ViH P H O F F CR LF 10 Response with the LO side hysteresis Response with the status of the peak hold function being set to OFF by R CR LF 1 Y E S CR LF 5 remote control Note The main unit returns to measurement operation upon an R command PIV H VH O F F CR LF 10 or returns to the Hl side judgment value if an N command is sent Response with the status of the valley hold function being set to OFF by remote control Comparator data setting C O M CR LF 3 S JHI 1 0 0 0 CR LF 10 P v H Plv ol el amp Icritr 10 Note This example shows a case Note The reading of the main unit changes to COM the momentit receives a COM command
4. Response with the status of the peak valley hold function being set to OFF by Where S HI is set to 8000 and S LO 8 o o o CR LF 4 s H 1 8 0 0 0 CRILF 10 remote control to 4000 Sets the HI side judgment value to 8000 P v H p Hl ls N CRILE 9 NCR LF 1 S L o 5 0 0 JCR LF 10 Response with the status of the peak hold function being set to ON by remote control 4 0 0 0 cR LF 4 S L o 4 o o 0 CRILF 10 Plv H v H o N ert 9 Sets the LO side judgment value to 4000 Response with the status of the valley hold function being set to ON by R CRILF O 1 YJEJS CR LF 5 remote control Note If an R command is sent after setting required data the main unit saves data provided P v H Plv o NIcRILF 9 up to that moment and then returns to measurement operation E rj rjo r CR LF 6 Response with the status of the peak valley hold function being set t Response when a value that does not meet the setting conditions is input remote control Peak hold terminal response E P A CR LF P v H O F F CR LF Response with the OFF status of the peak hold function P V H O N cRILF 6 Response with the ON status of the peak hold function Peak hold type setting P V H P H CR LF Y E S CR LF 5 Sets to the peak hold P v H V HI CRILF YJE CR LF 5 Sets to the valley hold P v H P V CRILF CRILF 5 Sets to the peak valley hold Peak hold remote control P V H O N CR LF CR LF 5
5. Char engh 1 2 3 4 15 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Char Length 3 3 Example of RS 485 Connection Scaling data response M E T CR gt 3 F S a 9 9 9 9 CR LF 10 a sie 7 Note Th i f thi i it ch MET thi i i MET id Ri ith a full scal ding If the panelmeter is positioned to be an end station as the result of an RS 485 connection set the terminator to ON by using the selector socket in the es eon the main unit changes to MET the moment it receives an MET comman Response wi f gar ne ing ale P f Response with a full scale input value FD5000 output unit N cR LF 1 olFils oler ur 10 Response with an offset reading N CR LF 1 ol tin 1 1 o erjur 10 Response with an offset input value N CR LF 1 DILIH 1 9 919 9 CRILF 10 a aI Response with the HI value of the digital limiter lee oo N CR LF 1 D L LJO 9 9 9 9 cRILF 10 ooo Response with the LO value of the digital limiter FG BS 0 acs ma N CR LF 1 A O H t 9 9 9 9 CRLF 10 RS 485 Response with the HI reading of the analog output wE N CR LF 1 A o L o o cRiLF 10 RS 232C Response with the LO jae 4 the analog output N CR LF 1 D E P 4 CRILF 6 co nverter Response with the position of the decimal point R CR LF 1 YLEIS CR LF 5 Note The main unit returns to measurement operation upon an R command or returns to Wiser the response with the full sca
6. decimal point p R O o N crR CR lt l s o o H 1 CRLF 10 Sets the protection function overrange reading w o decimal point Unit number response 7 10 6 CRILF lt 9 8 o o H 1 CR LF 11 Response with the status of the input unit being strain gauge measurement overrange reading w decimal point and the output unit being a combination of comparison output analog output and P H 5 o o o H 1 JcRILF 10 WET peak hold reading w o decimal point I O 1 O 3 CRILF 8 Response with the status of the input unit being DC voltage measurement 11 Hloldiremote control response Sa T ER CRILE pores with the status of the hold function being 6 ranges and the output unit being RS 232C trol Key operation prohibition response K E Y CA LF 3 ktety totrt tetet t t t t ttt 7 olol lorlLF 5 Response with the status of the key operation prohibition function being set to sponse with the status of the hold function being OFF K E Y O N CRILF 6 Hold terminal response E S A CR LF T A R Hi CR LF 6 Response with the status of the key operation prohibition function being set to sponse with the OFF status of the hold function ON o L gt crltr 5 sponse with the ON status of the hold function Key operation prohibition setting K E Y O F F CR LF 7 Y JE S CR LF 5 Sets the key operation prohibition function to OFF Hold remote control S T H S CR LF E s CR LF 5 KE Y o N cRILF
7. n span calibration is executed correctly ly returns to measurement operation LF 0 leslie ojojmj v 7 O 4 miVvj o lof m v 7 LF O O miV 0 CR LF 0 CR LF n span calibration is executed correctly ly returns to measurement operation LF O O miV g undefined commands ation is executed correctly and a transition is made outside the zero adjustment range is applied n the zero adjustment range 0 3 mV V and re is executed correctly and a transition is itside the zero adjustment range is set zero adjustment range 0 3 mV V 0 2 m V 7 V CRLF tains a gain error or is outside the range is set to span input value setting 8 8 4 5 6 7 8 9 io it 12 43 14 15 16 17118 19 20 21 22 23 cnar Length 273t4 5 e 7 89 ftofii 12 13 14 15146 17 18 19 20 char Length ojojojmj V 7 V CRI 17 LF V CR LF V CR LF V CR LF V CR LF v onl LF or data that do not meet setting condi itions E R R O R A CR LF Response when there is any communication parameter failure Note Under normal conditions this response is made only once Note ERROR B to ERROR F are available as the response commands for acknowledgment Note If a response to the ERROR X command is received execute the same processing once again If the panelmeter still does not recover turn off the panelmeter once and then tur
8. 23 char Length 1 2 314 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Char Lengin R 0 Response with the status of the digital zero function being set to OFF by remote control D z R 1 0 o 0 CRILF Response with the status of the digital zero function being set to ON by remote control Note The main unit responds with the reading when the digital zero function is set to ON D Z R F F CR LI Response with OFF status of the digital zero function D Z R N CR LF Response with ON status of the digital zero function CR CR CR CR Response with status of the comparison output being set to OFF by remote control RIL Y 1 CR LF Response with status of the comparison output being set to ON for HI by remote control RILI Y O CR LF Response with status of the comparison output being set to ON for GO by remote control R L Y O CR LF Response with remote control status of the comparison output being set to ON for LO by N O CR LF Response with the status of every function not being remote controlled s T H CR LF 1 Response with the status of the hold function being remote controlled P V H CR LF Response with the status of the peak hold function being remote controlled D z R cR LF if Response with the status of the digital zero function being remote controlled R L Y CRILF Response with the status of the comparison output function being remote controlled j Note Th
9. Sets the peak hold function to ON Pil v H oO F F cRILF CR LF 5 Sets the peak hold function to OFF Peak hold value response P V D CR LF H 5 0 0 0 CR 12 pi sponse with the peak hold value H l l1lolo o fcr 12 sponse with the valley hold value v I lelolol o cR 12 sponse with the peak valley hold values Peak hold value clear PSE P H CRLF E Ss CR LF 5 Clears the peak hold value P c L Vv H crR LF E CR LF 5 Clears the valley hold value P c L P v criLF CRI LF 5 Clears he pealivaltey Hold allies Peak hold remote control cancellation E P M CRLF CR LF 5 User s Manual Function aT ata ts tet 7 si 9 fioli Digital zero remote control response Digital zero terminal response Digital zero remote control Digital zero remote control cancellation E Z M CR LF Comparison output remote control response Comparison output remote control Comparison output remote control cancellation Remote control response FD5000 Series Communication Functions O N CR Sets the digital zero functio DI ziR O FIF Sets the digital zero functio Dizi Rl 1 o o Sets the digital zero functio H CR Sets to ON for HI RILIY G CR Sets to ON for GO R L Y et CR Sets to ON for LO R L Y O F FICRILF Sets all comparison outputs to OFF LF 14 15 16 17 18 19 20 21 22
10. User s Manual Calibration data response Calibration data setting Calibration with actual load Calibration data setting Equivalent calibration Common response Response in case of data failure in the internal memory Note Under normal conditions this response is made only once CIA LI2 Note The readi command J CR LF N CR LF R CR LF Note The main CR LF ing of the main unit cl unit returns to measurement hanges to CAL2 the moment it receives a CAL2 operation upon an R command or returns to the zero point input value response if an N command is sent CyA L 1 N CR LF Executes zero Note The main 5 0 0 0 CR LF calibration unit moves to th CR LF Sets the span reading to 5000 N CR LF Executes span R CR LF Note If an R command is sent durin moment and then returns to measureme C A L 2 ofjofjoj4 calibration CR LF CR LF Sets the zero input value to 0 01 N CR LF Executes zero 1 5 0 2 Sets the span i N CR LF 5 0 0 0 calibration CR LF CR LF Sets the span reading to 5000 N CR LF Executes span calibration input value to 1 502 mV V 04 mV V e setting of a span reading if a J command is sent FD5000 Series Communication Functions g setting the main unit saves data provided up to thai nt operation span reading is not saved however Response with S P Response w
11. data the main unit saves data provided up to that point and then returns to measurement operation El r rjo r CR LF 6 Response when a value outside the setpoint range is input End of Transmission Marks the end of transmission Denotes an enquiry Acknowledge Denotes an affirmative reply User s Manual FD5000 Series Communication Functions 6 8 User s Manual FD5000 Series Communication Functions 3 8 SC Function 111 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 Char tenth J 1 2737 415 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Char Length Tracking zero response ai O N T 1 W 1 CRLF 5 3 BCC Checksum E erT staus onthe Hi Zoro time being Tand packing zero As a means of error detection a block check character BCC checksum is added to the RS 485 communication function of the FD5000 panelmeter See O N T 21 8 Wiis 98 CRILE the following illustrations for details on the transmission and reception formats which are as illustrated in the table of communication commands in Section Response with the status of the tracking zero time being 99 and tracking width being 99 ie 3 TIRIK El Eleru 6 for the RS 232C communication function Response with status of the tracking zero f
12. delay time response S Response with the status of the power on delay function being set to OFF BCC L Lower order 4 bits among the lower order 8 bits of the ae with Soe the SIMD bieytunltior an L to 1s sum of the hexadecimal values numbered from 1 to i 1 P O N 0 CR LF Hele Far 20H 20H 20H 35H 30H 30H 30H 20H 48H 49H 03H 1 D9H Response with the status of the power on delay function being set to 30 BCC H Higher order 4 bits among the lower order 8 bits of the Power on delay time senig eeu Fea eR sum of the hexadecimal values numbered from 1 to 11 ets the power on delay function to P olN 3 o CRI LF CR 20H 20H 20H 35H 30H 30H 30H 20H 48H 49H 03H 1D9H S aK Wie delay function to P O N 0 CR LF CR Sets the power on delay function to 6 Com mu nication Commands Protection response P R O CR LF F CR LI Function 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 Char Length 1 2 3 i a 8 9 10 11 12 13 14 15 16 17 18 19 20 Char Length Response with status of the protection function being set to OFF Measured value and comparison D S P CR LF 3 5 0 0 0 H CR LF 10 P R O N CR LF LILII results response reading w o decimal point Response with the status of the protection function being set to ON 5 o o o H 1 CR LF 10 A reading w o decimal point Protection setting P R O DFAE CR 5 0 o j 0 H 1 ICRI LF 11 Sets the protection function reading w
13. e main unit responds with the statuses of functions by separating them with delimiters if multiple functions are being remote controlled MAX MIN MAX MIN value response M A X CR LF M AIX stolo otcRjtF Response with a MAX value M I N 1 o fo 0 CR LF Response with a MIN value M M 6 o o 0 CR LF Response with a MAX MIN value Note The main unit responds with these values at one time by separating them with delimiters MAX MIN MAX MIN value clear M C L M A CR LF y els CRI LF Clears the MAX value m c L M 1 cRILF ylels CRI LF Clears the MIN value M c L M M cRILF yYlels CRI LF Clears the MAX MIN value Range response except for R N G CR LF RIAINIG E 1 2 CRILF thermometers Range response thermometers Range setting R N G CR LF R IN G 1 2 CR LF Sets to range 12 RIN G 2 4 CRLF Sets to range 24 RIN G 2 A CRILF Sets to range 2A RIN G K AJCRILF Sets to range KA RIN G T CRILF Sets to range T RIN G J P bICRILF Sets to range JPb Note The command varies depending on the input unit or the range of interest Response with the status of range 12 being selected RJA N GIE 2 4 CRILF Response with the status of range 24 being selected RJA N GIE 2 A CRILF Response with the status of range 2A being selected N o CR LF Response with the status of no range being sel
14. e step width being 10 Step width setting S CR LF 5 S CR LF 5 he main unit switches to the setpoint Communication function parameter 2 CR LF 17 response sponse with the status of the baud rate being 19200 bps data length being 7 parity being even number of stop bits being 2 and delimiter being CR LF 6 olo 8 N 1 c R cRILF 13 sponse with the status of the baud rate being 9600 bps data length being 8 parity being none number of stop bits being 1 and delimiter being CR Communication function parameter R S 2 S CR LF 3 setting Sets the baud rate to 19200 bps data length to arity number of stop bits to 2 and delimiter to CR LF R s 9 le6lolo 7 Je cRILFL s CR LF 3 Sets the baud rate to 9600 bps data length to 8 rity to none number of stop bits to he main unit switches to the setpoints immediately after the setting 1 and delimiter to CR Device ID response 7 sponse with the status of the device 9 CR LF 2 sponse with the status of the device Device ID setting 5 5 Analog output type response LF 9 sponse with the status of the analog output type being OFF 1 CR LF 3 sponse with the status of the analog output type being 0 1 V 1 ofcriLF 4 sponse with the status of the analog output type being 0 10 V 5 CR LF 3 sponse with the status of the analog output type being 1 5 V 2 o criLtF 4 sponse with the status of the analog output type being 0 20 mA 2 o critF 4 sponse w
15. ected Note The response varies depending on the input unit or the status of range selection 8 characters max K A CR LF Response with the status of range KA being selected K b CRLF Response with the status of range KB being selected J CR LF Response with the status of range J being selected T CR LF Response with the status of range T being selected R CR LF III Response with the status of range R being selected S CR LF I 1 t Response with the status of range S being selected B CR LF I 1 I Response with the status of range B being selected P A CR LF II tl Response with the status of range PA being selected P b CR LF Response with the status of range Pb being selected J P A CR LF It tl Response with the status of range JPA being selected J P b CR LF Response with the status of range JPb being selected Y l EJS CR LF Note The main unit switches to the range immediately after the setting y e s CR LF Note The main unit switches to the range immediately after the setting Y eE s CR LF Note The main unit switches to the range immediately after the setting Y eEl s CR LF Note The main unit switches to the range immediately after the setting Y eE s CR LF Note The main unit switches to the range immediately after the setting Y eE s CR LF Note The main unit switches to the range immediately after the setting N O CR LF Response when a nonexistent range is set
16. ith s P Response with Z E S P Response wher calibrati to span E r Response wher A r Note Apply YTE Response wher Note The main ion is execut calibrati Ejr S P Response when an input signal that is outside the zero adjustment range or S F N N fe o N o CR LF LF N zero c jon r n an inpi an input sigi com N o A N mand CR r a zero input a span readi 0 2 a span input val 9 0 LF 9 alibr X CR ut signal nal withi LF unit automatical ted correctly X CRI 9 0 contains a gain error is applied Note The main unit returns to the setting of a span reading Note Check the applied input signal level or span reading and set the calibration S P Response wher input value setting to span Response wher Note Resend a S P YIE Response wher Note The main ion is execut calibrati Ejr S P Response wher Note The main Response to E r r R r l S I res Li o fe o N ponse o CR N Zero Ci r CR r r n a value oui value within the Response to out of ran LF 0 0 2 alibr X CR 0 1 9 5 LF unit automatical ted correctly X CRI 2 n a value that con unit returns LF LF CR LF ge data value ing ation UU 33564a 0 jue 0 LF 0 CR LF
17. ith the status of the analog output type being 4 20 mA o 2 ler 5 sponse with the status of the analog output unit being not installed Analog output type setting P EJS CR LF 5 e analog output type to OFF pl Jol 1 lorie E s CR LF 5 e analog output type to 0 1 V P ol 1 0 cRILF CR LF 5 ie analog output type to 0 10 V P 11 15 cR LF CR LF 5 e analog output type to 1 5 V P o 2 0 cR LF CR LF 5 e analog output type to 0 20 mA P 4 2 0 cRILFI CR LF 5 e analog output type to 4 20 mA 0 CR LF 5 sponse with the status of the analog nit being not installed Digital zero backup status response B D Z CR LF 3 B D Z O N CR LF 6 Response with the status of digital zero backup being ON B D z O F FIcRILF 7 Response with the status of digital zero backup being OFF Digital zero backup control B D Z O N CR LF 6 YVES CR LF 5 Sets digital zero backup to ON B D zZ O F FICRILF y YIE Ss CR LF 5 Sets digital zero backup to OFF Digital zero data save command S A V CR LF 3 Y EJS CR LF 5 N O CR LF 5 Response with the status of digital zero backup being OFF Input selection response 1 S E L CR LF 4 o c ori TFT 3 Response with the status of the input selection option being open collector L o G J cr LF 3 Response with the status of the input selection option being logic M A GI cRILFL 3 Response with the status of the input selection option bei
18. ization function to an ON status Note The figure below identifies the position of the selector Ar Pere teen alee Pane socket for switching between the ON and OFF positions 28 8 pea ts the neaiization funtion to a cleared status Waal Hea EFFE Response with the status of the linearization function being cleared 2 B B Note Since the linearization data are all cleared when the linearization function og is cleared the main unit does not accept either a LIN ON or LIN OFF command Ge Set the linearization function status after setting the linearization data again Side mou nted Response for number of linearization LIN 6 t bl k correction data items Response io rele ha linearization function being cleared ermina oc i L N O 0 2 CR LF 6 Note k If th e pan elmeter Is an Response with the status of the number of linearization correction data items 1 i being 02 end station set the terminator eeepc lelai A to ON Response with the status of the number of linearization correction data items being 16 Selector socket LL Setting for number of linearization N X ES CR LF 5 correction data items ts the number of linearization correction data items to 02 N O 1 e6 cr LF VIEIS CR LF 5 ON OFF ts the number of linearization correction data items to 16 E r rjofr CR LF 6 Response when linearization data is not correctly set Note Set the number of linearization correction data items after setting lineari
19. le reading if an N command is sent POR o B05 Scaling data setting M E T crlLe 3 F s c 9 9 9 9 CRILF 10 i i i Papapa Note This example shows a case Note The reading of the main unit changes to MET the moment it receives an MET command 3 BEE Model SI 30 from Sekisui Chemical Co lt i where FSC is set to 8000 and OFS 8 o o oj critF 4 Fi s c 8 o o 0 CRILF 10 j DHBEN E to 20 Sets the full scale reading to 8000 Ltd or other equivalent converters DEN 22 Sette ge Tell halel del ab i N CR LF 1 O F S 0 CR LF 10 2 0 CR LF 2 O F S 2 0 CR LF 10 Sets the offset re P P i i sae R CR LF 1 Y E S CR LF 5 Note a If these lines are likely to be affected T D H g Note If an R command is sent after setting required data the main unit saves data provided i i i i a i 00N up to that moment and then returns to measurement operation Efjr irjofr CR LF 6 by noise or the like use shielded wire 2g 0 g Response when a value outside the setpoint range is input BMPEN N e Linearization function status response sponse with the status of the linearization function being set to OFF N O NICRILF 6 sponse with the status of the linearization function being set to ON N c L RICRILF 7 sponse with the status of the linearization function being cleared J Linearization function status setting E s CR LF 5 inearization function to an OFF status e JO N cRILFL EIS CR LF 5 j j ifi i i ts the linear
20. n it on again DJA T A LJO S T C O N DIcRILF Response in case of condition data failure Note Set the condition data again DJA T A L ols T c O M CR LF Response in case of comparator data failure Note Set the comparator data again D a T a LJO S Tt M Ef T CRLF Response in case of scaling data failure Note Set the scaling data again EUSI SUSEErieiG PHONE 81 42 585 6201 6202 FAX 81 42 585 6187 Fuji Electric Instruments Co Ltd No 1 Fuji machi Hino city Tokyo 191 8502 Japan UU 33566 2002 09 User s Manual FD5000 Series Communication Functions 1 8 FD5000 Series Communication Functions User s Manual 1 Overview This manual explains the specifications of the communication functions provided by the FD5000 series of digital panelmeters It also explains how to handle the FD5000 series 2 Specifications RS 232C RS 485 Compatible with EIA RS 232C Compatible with EIA RS 485 Synchronization Start stop wo wire half duplex polling selecting 2400 4800 9600 19200 38400 bps Number of start bits Data length 7 bits 8 bits Error detection SSS Block check character BCC checksum ASCII Non procedural TXD RXD SG CRsLFICR 3 Terminal Assignments and Connection Method The communication connector of the FD5000 series is a modular jack connector compatible with the FCC68 standard Use a modular plug connector also compatible with the FCC68 sta
21. ndard when connecting the panelmeter 3 1 Terminal Assignments 21 TXD 22 NC 20 RXD 23 SG Tae ermina nee RXD RS 232C Receive Data terminal RS 485 Non inverting output XD RS 232C Transmit Data terminal 21 RS 485 Inverting output Do not connect Common terminal for the communication RS 232C RS 485 connector 3 2 Example of RS 232C Connection 13 1 20 21 22 23 5 1 20 21 22 23 ooo0oo0oo0oo000000 25 pin D sub 9 pin D sub female male Pin 2 TXD Pin 20 RXD Pin 2 RXD Pin 21 TXD Pin 3 RXD Pin 21 TXD Pin 3 TXD Pin 20 RXD Pin 4 RTS Note Connect at the Pin 7 RTS Note Connect at the Pin 5 CTS communication connector Pin 8 CTS communication connector Pin 7 SG Pin 23 SG Pin 5 SG Pin 23 SG Note The above illustrated connection of the CTS and RTS terminals on the host side is only a typical example for hardware control Consult your system designer for further details on how to cope with the terminals Fuji Electric Instruments Co Ltd User s Manual FD5000 Series Communication Functions 2 8 User s Manual FD5000 Series Communication Functions 7 8 j Function 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23
22. ng magnet N O 21 cRILF 5 Response with the status of the frequency measurement unit not being installed Input selection setting I S EPL O C CR LF 8 Y E S CR LF 5 Sets the input selection option to open collector i s ele leloen 8 YJE s CR LF 5 Sets the input selection option to logic s e L mM a a crfir 8 Y E S CR LF 5 Sets the input selection option to magnet N O CR LF 5 installed Response with the status of the frequency measurement unit not being
23. unction being set to OFF Example of BCC Checksum for Transmission Tracking zero setting T CR LF CR l I l l l l I i l l Sets the tracking zero time to 1 Character STX D S P ETX A E CRLF TIRI TI 9 9 cR oR Hexadecimal 02H 44H 53H 50H 03H 41H 45H ODH OAH Sets the tracking zero ti to 99 I l a KI as GRILE i ea l ly o E C E 4 l ets the tracking zero wii lo igit os p A 7 TIRIK W 9 9 CRILE CR BCC H Higher order 4 bits among the lower order 8 bits of Sets the tracking zero width to 99 digits the sum of the hexadecimal values numbered from 1 to 4 TIRI TT o onjLe cR 44H 53H 50H 03H EAH Sets the tracking zero function to OFF Sensor power supply response 1 0 CR LE BCC L Lower order 4 bits among the lower order 8 bits of ere wih pate or Sonso err le ae hi r A V the sum of the hexadecimal values numbered from 1 to 4 Response with the status of sensor power supply being set to 5 V Example of BCC Checksum for Reception 44H 53H 50H 03H EAH Sensor power supply setting 0 CR LF CR Character STX i i i i 5 0 0 0 i i H i l i ETX i 9 D CR i LF i Sets the sensor power supply to 10 V IN Sia a A R l 02H 20H 20H 20H 35H 30H 30H I 30H 20H 48H 49H 03H 39H 44H ODH I OAH l l l l l l l l l l l l 2 Sets the sensor power supply to 5 V on i n i 2 i 3 i 4 i 5 6 l 17 i 8 9 i 10 i 11 l i i i ower on
24. zation data Linearization data response N 0 14 Note A reading can be made from any of the data items 01 to 16 sponse with the input value of linearization data N 01 Note The reading of the main unit changes to LINE the moment it receives command N CR LF N D o 1 0 14 sponse with the output value of linearization data N 0 N CRI LI N D o 2 il 0 14 sponse with the input value of linearization data N 02 N CRI LI N D o 2 o 0 14 sponse with the output value of linearization data N 0 CR N D 0 3 Ij 0 14 Communication connector Parts mounted side of FD5000 output unit 4 Communication Function Parameters N cR unio Jaleo il 0 14 e sponse with the input value of linearization data N 16 The baud rate data length parity bit stop bit delimiter and device ID RS 485 only are the user selectable parameters of the communication functions N CR L N D llel ol 0 14 g sponse with the output value of linearization data N 16 provided by the FD5000 panelmeter For details on how to set the parameters see the user s manual of the FD5000 main unit R cR L E s CR LF Note The main unit returns to measurement operation upon an R command or returns to the response with the input value of linearization data N 01 if an N command is sent 5 RS 485 Transmission Reception Formats Linearization data setting ulwlol ols lorlurl 14 Note Setting can be made from any of the data items 01 to 16
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