User`s Manual DPharp BRAIN Communication Type
Contents
1. 3 19 21 Adjustment Information and User Memo Fields 3 20 3 3 Displaying Data Using the BT200 eee 3 20 3 3 1 Displaying Measured Data 3 20 3 3 2 Display Transmitter Model and Specifications 3 21 4 pride 4 1 4 1 Checking for Problems II 4 1 4 1 1 Identifying Problems with BT 200 4 1 4 1 2 Checking with Integral Indicator cece eeeeeeeeeeeeneeeeeeneeeeeeneeeaeeees 4 2 4 2 Alarms and Countermeasures eese nennen nnne nnn nns 4 2 5 Parameter SHmmoaty w wwssmmam mwana mwana wanu wa nakaa manana nakaa eta DES nce oct ea ace 5 1 Appendix 1 Safety Instrumented Systems Installation A1 1 A1 1 Scope and Purpose ia A1 1 A1 2 Using the Transmitter for an SIS Application A1 1 A1 2 1 Safety AC aen ete tentent te open e iu Ud TERR CURE A1 1 A1 2 2 Diagnostic Response TMA A1 1 AT23 E A1 1 A1 2 4 Required Parameter Settings ceeeceeceeeeeeeeeeeeneeenteeneeeteeenreeas A1 1 A1 2 5 Proof Testing EN A1 1 A1 2 6 Repair and Replacement sss A1 2 ATA Startup Wl A1 2 A1 2 8 Firmware Update nee cete eed ee rere need A1 2 A1 2 9 Reliability Data A1 2 A1 2 10 Lifetime Limits ee te ted A1 2 A1 2 11 Environmental Elmits ue sage naca Ee DERE as A1 2 A1 2 12 Application Lime A1 2 A1 32. Example Set the status output to output an off signal when the input pressure exceeds 75 kPa with its alert mode of HI AL DETECT SET Use the or key E50 DO SELECT eT to select PRES lt INHIBIT Press the key twice to lt PRES ESC enter the setting VVV Vv lt SP lt TEMP SET Press the Fa OK key E50 D0 SELECT Fa OK key FEED NO OK rn SIG TYPE Use the LAJ or key O RM lt ON WHEN ALARM to select OFF WHEN ALARM lt OFF WHEN ALARM gt Press the key twice to ESC enter the setting Q qu Press the ra OK key OFF WHEN ALARM FEED NO OK F0350 ai Example Status output operation of ON WHEN AL DETECT e Status output for higher alert value Output 5 of hysteresis 5 C for heat Setting value On Time t La e Status output on Off e Status output for lower alert value Output 96 value 5 of hysteresis 5 C for heat i x Setting On Time t Status output On Off F0351 ai 5 of the setting span of differential pressure pressure 20 Capillary Fill Fluid Density Compensation E10 T ZERO CMP E11 TEMP ZERO For transmitters with diaphragm seals this function is used to compensate the zero shift caused by the ambient temperature effect on the capillary tubes The following equation indicates the relationship between the calculated
3. 3 1 3 Calling Up Menu Addresses Using the Operating Keys ON OFF UTILITY SCREEN WELCOME UTILITY The utility screen contains the BRAIN TERMINAL 1 ID RC ID BT200 2 SECURITY CODE following items STARTUP 3 LANGUAGE SELECT 1 BT200 ID settings SCREEN check connection 4 LCD CONTRAST 2 Security code settings push ENTER key 5 PRINTER ADJUST UAE 3 Switching language of messages UTIL FEED esc Japanese or English 4 LCD contrast setting 5 Adjusting printout tone ENTER UTIL F1 UTIL BT200 P00 only PARAM 01 MODEL INITIAL _EJX110A DM FUNCTION SCREEN 02 TAG NO FUNC DATA YOKOGAWA 1 MENU SCREEN 03 SELF CHECK ESC 2 UPLOAD TO HHT GOOD 3 DOWNLOAD TO INST OK 4 PRINT ALL DATA ENTER HOME Im ADJ SET ADJ w HOME MENU SCREEN SET MENU SCREEN ADJ MENU SCREEN MENU MENU MENU A DISPLAY C BASIC SETUP J ADJUST B SENSOR TYPE D AUX SET 1 K TEST MENU C BASIC SETUP E AUX SET 2 M DEVICE INFO SCREEN D AUX SETI G ALARM SET P RECORD E AUX SET2 H AUTO SET T CHARACTERIZR G ALARM SET I DISP SET HOME SET ADJ ESC HOME SET ADJ ESC HOME SET ADJ ESC ENTER ENTER ENTER PARAM PARAM PARAM A60 SELF CHECK C60 SELF CHECK J60 SELF CHECK GOOD GOOD GOOD PARAM PARAM PARAM PARA A16 ENGR OUTPUT C22 PRES URV J12 P SPAN ADJ d 0 0000 mmHg 100 00 kPa 100 000 METER A17 ENGR EXP C23 PRES POINT J15 P ZERO DEV SCRE
4. Hardware write protection switch WR Write Protection Switch Position E I D E I D NO YES Write enabled Write disabled F0327 ai The parameter D25 BURNOUT displays the status of 4 20 mA DC output if a CPU failure occurs In case of a failure communication is disabled Write Protection IM 01C25T03 01E lt 3 Operation gt 3 1 2 Standard specifications The burnout direction switch is set to HIGH If a failure occurs the transmitter outputs a 11096 or higher signal Option code C1 The burnout direction switch is set to LOW If a failure occurs a 596 or lower output is generated Example Standard specifications D25 BURNOUT Slide switch position H HIGH Example Option code C1 D25 BURNOUT Slide switch position L LOW F0328 ai 11 Software Write Protect D55 WRT PROTECT D56 WRT ENABLE D57 NEW PASSWORD Transmitter configured data can be saved by the write protect function Write protect status D55 WRT PROTECT is set from NO to YES when eight alphanumerics are entered in the parameter D57 NEW PASSWORD Accordingly the transmitter does not accept any parameter changes When the eight alohanumeric password is entered in the parameter D56 WRT ENABLE the transmitter accepts parameter changes during a 10 minute period To cancel the transmitter for the software write protection completely
5. User s DPhap EJ Manual DPharp DPharp EJA BRAIN Communication Type EJXOOOA EJADOOE IM 01C25T03 01E vigilantplant Marmo TIC ITOI WORL PT III LIII EIL E n izzy E FOR THE IM 01C25T03 01E 6th Edition YOKOGAWA Yokogawa Electric Corporation DPharp BRAIN Communication Type IM 01C25T03 01E 6th Edition Contents 1 nde s P rio ep cC eres 1 1 B Regarding This Manual nennen nausea uana 1 1 1 1 Safe Use of This Product II 1 1 1 2 Vgl EE 1 2 1 3 ATEX Documentation IA 1 3 2 pls E 2 1 2 1 Connecting the BA II 2 1 2 2 Communication Line Requirements eese 2 1 2 3 Power Supply Voltage and Load Resistance eene 2 2 24 Integral Indicator Display When Powering On eese 2 2 3 popnlo E E 3 1 3 1 BT200 Operating Procedures eene nnns 3 1 3 1 1 Key Layout and Screen Display 3 1 3 1 2 Operating Key Functions wi 3 1 1 Alphanumeric Keys and Shift Keys 3 1 2 F nctlori KG6yS i rar teret teet tie te ces 3 2 3 1 3 Calling Up Menu Addresses Using the Operating Keys 3 3 3 1 4 Printout for BT200 printer option 3 3 1 Printout of All Parameters 3 3 2 Printout by Menu ltem not t t tees 3 3 3 2 Setting Parameters Using the BT200 eene 3 4 3 2 1 Parameter Usage and Sel
6. display value at 4 mA DC LRV and display value at 20 mA DC URV Note LRV and URV can be specified with range value specifications up to 5 digits excluding any decimal point within the range of 32000 to 32000 Static pressure setup gt P 3 11 Sets the parameters concerned with static pressure such as unit calibration range upper and lower range values decimal point position damping time constant Unit setup for displayed temperature gt P 3 11 Sets the unit for temperatures displayed on the BT200 Operation mode normal reverse signal setup gt P 3 11 Reverses the direction for 4 to 20 mA DC output relative to input Reverse mode is used for applications in which safety requires that output be driven toward 20 mA if input is lost Impulse line connection orientation higher pressure on right left side setup gt P 3 11 Used where installation conditions make it imperative to connect high pressure side impulse line to low pressure side of transmitter Reversal of orientation should be dealt with by reversing impulse line wherever possible Use this function only where there is no alternative CPU Failure burnout direction and hardware write protect 9 P 3 11 Displays the status of 4 to 20 mA DC output when a CPU fails The direction is selectable by the hardware switch on the amplifier It also physically prevents parameter access Software write protect gt P 3 12 Output status setu
7. es referentes aos produtos Ex da ATEX est o dispon veis em Ingl s Alem o e Franc s Se necessitar de instru es na sua l ngua relacionadas com produtos Ex dever entrar em contacto com a delega o mais pr xima ou com um representante da Yokogawa Tous les manuels d instruction des produits ATEX Ex sont disponibles en langue anglaise allemande et francaise Si vous n cessitez des instructions relatives aux produits Ex dans votre langue veuillez bien contacter votre repr sentant Yokogawa le plus proche Alle Betriebsanleitungen f r ATEX Ex bezogene Produkte stehen in den Sprachen Englisch Deutsch und Franz sisch zur Verf gung Sollten Sie die Betriebsanleitungen f r Ex Produkte in Ihrer Landessprache ben tigen setzen Sie sich bitte mit Ihrem rtlichen Yokogawa Vertreter in Verbindung Alla instruktionsb cker f r ATEX Ex explosionss kra produkter r tillg ngliga pa engelska tyska och franska Om Ni beh ver instruktioner f r dessa explosionss kra produkter pa annat spr k skall Ni kontakta n rmaste Yokogawakontor eller representant Onda ta eyxerpidia evtovpyias rov TpoidvTwv pe ATEX Ex Suozteuro ota Ay yu Peppavuce kar Tamia Ze nepintwon Tov xpealeote o nyies oxetk pe Ex OTHY TOTLKY YAWTTR TAPAKAAOVILE ETLKOWOV OTE pE TO Thyoveotepo ypagetio THs Yokogawa avrvmp coro TNS G9 0 Q o0 0 0 VSetky n vody na obsluhu pre pr stroje s ATEX Ex su k dispoz cii v jazyku anglic
8. 4 Applicable S No Parameter name Item R W Content Default value model 95 F PL G ALARM SET Alarm setting G10 PALMODE Alert mode W INHIBIT HI AL DETECT LO INHIBIT ololoj AL DETECT or HI LO AL DETECT G11 P HI AL VAL High side alert value 32000 to 32000 unit 100 000 kPa O O O specified in C20 G12 P LO AL VAL Low side alert value 32000 to 32000 unit 100 000 kPa ojoloj specified in C20 G20 SP AL MODE Static pressure alert mode INHIBIT HI AL DETECT LO INHIBIT O O AL DETECT or HI LO AL DETECT G21 SP HI AL VAL High side alert value of SP 2 32000 to 32000 unit O oO specified in D30 G22 SP LO AL VAL Low side alert value of SP 32000 to 32000 unit 0 00000 MPa O specified in D30 G30 TAL MODE Temperature alert mode INHIBIT HI AL DETECT LO INHIBIT ojoloj AL DETECT or HI LO AL DETECT G31 THI AL VAL High side alert value of W 50to 130 120 degC ojoloj temperature G32 T LO AL VAL Low side alert value of W 50 to 130 40 degC ONO O temperature G50 AUTO RECOVER Auto recover from sensor error W OFF or ON ON ol lojoj G60 SELF CHECK Self diagnostics R SeeA60 O O 0 H AUTO SET Automatic setup H10 AUTO P LRV Lower range value auto setup W 32000 to 32000 unit As specified olojoj specified in C20 H11 AUTO P URV Upper range value auto setup W 32000 to 32000 unit As specified olojoj specified in C20 H20 AUTO SP LRV SP lower range va
9. HI LO AL DETECT gt ESC enter the setting B UCPUAT MODE Press the OK key HI AL DETECT AAAA Alarm code is generated when the output goes beyond the value set at G11 P HI AL VAL FEED NO ESC F0348 ai Example Set the higher alert value of 75 for alarm generation SET Set 75 G11 P HI AL VAL coU re Press the genrer key twice to enter the setting CODE CAPS CLR ESC SET Press the EI OK key G11 P HI AL VAL 75 0000 kPa Then the alarm code AL 35 P HI is generated when the input FEED NO OK pressure goes beyond that value F0349 ai 19 Status Output option code AL This feature is used for a transistor output open collector of an on off signal according to the status of high and low alarm limits which are user configurable values as shown in 18 Process Alarm The status output can be assigned as any combination of the high or low limits of the input pressure input static pressure or capsule temperature A CAUTION Execute DO testing by the parameter K40 DO test whenever turning on the transmitter or detecting the short interruption in order to check that the alarm contact output is correctly configured AN NOTE No status output signal has been defined for a CPU failure or hardware error Use a 4 20 mA signal to indicate a transmitter s failure IM 01C25T03 01E lt 3 Operation gt 3 1 9
10. of 30 kPa press key twice Press the ra OK key Check the output becomes 30 kPa Example For the range of 10 to 30 kPa J15 P ZERO DEV 0 04 kPa J16 P SPAN DEV 0 03 kPa Suppose that a standard pressure of 10 kPa is applied and the value of the parameter J10 ADJ PRES is 9 94 kPa Correct for this output error of 0 06 kPa by adding 0 06 to J15 P ZERO DEV 0 04 0 06 40 02 SET Set 0 02 J15 P ZERO DEV Press key twice 0 04000 kPa 50 02 BET cans Any Press the F4 OK key 0 02000 kPa FEED NO OK Suppose that a standard pressure of 30 kPa is applied and the value of the parameter J10 ADJ PRES is 30 15 kPa Firstly obtain the slope error for the span as follows Applied Pres Value Measured Pres Value Applied Pres Value Slope Error URV LRV 30 00 30 15 36 99 80 00 10 00 0 1 Then correct for this slope error of 0 1 by adding 0 1 to J16 P SPAN DEV 0 03 0 1 0 13 F0340 ai SET Set 0 13 J16 P SPAN DEV Press key twice 0 03000 kPa E BS SET sea bev Press the F4 OK key 0 13000 kPa FEED NO OK F0341 ai IM 01C25T03 01E lt 3 Operation gt 3 1 7 c Sensor Trim for Static Pressure J21 SP ZERO ADJ J22 SP SPAN ADJ J25 SP ZERO DEV J26 SP SPAN DEV For the transmitters Except for EJX120A EJA120E zeroing and full sensor trim of
11. use D56 WRT ENABLE to first release the write protect function and then enter eight spaces in the D57 NEW PASSWORD field The software write protection does not affect the function of external zero adjustment screw To disable the external zero adjustment screw set the parameter J15 EXT ZERO ADJ to INHIBIT before activating the software write protection a Setting Password D57 NEW PASSWORD Example Set the password to 1234ABCD SET Enter 1234ABCD D57 NEW PASSWORD JESZRHON Press the key twice to enter the setting Press the F4 OK key Then status of parameter D55 WRT PROTECT becomes YES CODE CAPS CLR ESC SET D57 NEW PASSWORD 1234ABCD FEED NO OK F0329 ai b Entering Password to Enable Parameter Change D56 WRT ENABLE Example Enter the password of 1234ABCD SET Enter the password D56 WRT ENABLE EE Press the key twice to enter the setting Press the F4 OK key Parameter changes are available for 10 minutes CODE CAPS CLR ESC ET D56 WRT ENABLE PASS FEED NO OK F0330 ai c Releasing Password D57 NEW PASSWORD To release the password enter eight spaces at D57 NEW PASSWORD during the period that the parameter change is possible d Software Seal D58 SOFTWR SEAL When you lose the password that has been registered it is possible to release the write protect function by using general password Co
12. 0 kPa URV 10 kPa SR DIRE MODE Use the 9n key OFF lt OFF gt to select ON LoN gt Press the key twice to ESC enter the setting Then press the OK key The measurement range changes to 10 to 0 to 10 kPa output 0 to 50 to 100 Note that C21 PRES LRV and C22 PRES URV are not changed Example If measurement range is 0 to 10 kPa F0332 ai e Output mode LINEAR 20 mA 10096 display LRV HRV C E 4 mA 100 display e Output mode SQUARE ROOT Ya PO e 20 mA 100 display LRV HRV EE 4 mA 100 display F0333 ai 14 Range Change while Applying Actual Inputs H10 AUTO P LRV H11 AUTO P URV This feature allows the lower and upper range values to be set up automatically with the actual input applied If the lower and upper range values are set C21 PRES LRV and C22 PRES URV are changed at the same time Follow the procedure in the figure below The measurement span is determined by the upper and lower range values Changing the lower range value results in the upper range value changing automatically keeping the span constant Example 1 When changing the lower range value to 0 5 kPa for the present setting of 0 to 30 kPa take the following action with input pressure of 0 5 kPa applied SET H10 AUTO P LRV Press the key twice 0 kPa E 0 The lower range value is changed to 0 5 kPa Press the Fa
13. 0000 kPa A15 OUTPUT mA 4 000 mA DIAG DATA PRNT ESC BT200 Screen 3 1 2 Operating Key Functions Messages Menu choices Function commands F0302 ai 1 Alphanumeric Keys and Shift Keys Use the alphanumeric keys in conjunction with the shift Keys to enter numbers symbols and alphabetic characters Shift keys Alphanumeric keys F0303 ai a Entering Numbers Symbols and Spaces Simply press the alphanumeric keys Entry Key in sequence e K 0 3 12 PADE F0304 ai IM 01C25T03 01E lt 3 Operation gt 3 2 b Entering Alphabetic Characters Press either the left or right shift key and then an alphanumeric key to enter the desired alphabetic character The shift key must be pressed each time an alphabetic character is entered Letter on left side of the alphanumeric key Letter on right side of the alphanumeric key Entry Key in seguence w Cour C 7 J B out C s C sert z F0305 ai Use the function key F2 cars to select uppercase 2 Function Keys The function command carried out by each function key is displayed directly above the key MENU A DISPLAY SENSOR TYPE BASIC SETUP AUX SETI AUX SET2 G ALARM SET HOME SET B C D E Function commands E El 8 El rn Function Command List F0308 ai Command Function ADJ Displays the ADJ menu CAPS
14. ACTIVE FEED NO OK F0343 ai AN NOTE Fixed current output and DO Test continue for a given holding time then is released automatically Even if the BT200 power supply is turned off or the communication cable is disconnected the test output will continue for that time The holding time can be selected from 10 min 30 min 60 min 3 hour 6 hour or 12 hour by the parameter K45 TEST TIME Default value Pressthe OK key to release test output immediately 17 Signal Characterizer This function is used to compensate the output for non linear applications The characterized values are applied to the 4 20 mA output For the measured pressure a maximum of nine coordinates can be specified between 0 100956 Perform the coordinate settings while the T10 S C ENABLE parameter is INHIBIT To apply the settings to the output set the T10 S C ENABLE parameter to ENABLE Note that the transmitter rejects the activation of the function by AL 60 with the following transmitter s status When the specified coordinates of x and y are not incremental as the input increases When the output mode of the output signal is set as SQUARE ROOT at the same time the low cut mode is set to LINEAR INPUT Input pressure in 96 gt OUTPUT Characterized value 0 100 x F0344 ai IM 01C25T03 01E lt 3 Operation gt 3 1 8 Example Set the number of coodinates o
15. Change description for SOFTWARE SEAL 3 15 3 2 3 15 a 2 Correct the figure 3 17 3 2 3 16 Correct the NOTE 3 20 3 2 3 20 Add EJA model name 5 1 5 Add EJA to default value of parameter No 01 5 3 5 Add parameter 141 5 4 5 Add parameter K45 5th Jun 2013 3 20 3 2 3 20 Add constant value of fill fluid for high vacuum use diaphragm sealed differential pressure pressure transmitters 6th June 2014 2 1 2 1 Change terminal drawing 2 1 3 1 Add Note for BRAIN communication IM 01C25T03 01E
16. Definitions and Abbreviations eese A1 3 A1 3 1 Detlef ee Seege Ee ep MEE A1 3 A1 3 2 Abbreviations ssssssssseeeeeeeneenen nennen A1 3 Revision Information IM 01C25T03 01E lt 1 Introduction gt 1 1 1 Introduction Thank you for purchasing the DPharp EJX series pressure transmitter EJA series pressure transmitter transmitter The transmitters are precisely calibrated at the factory before shipment To ensure both safety and efficiency please read this manual carefully before operating the instrument This manual describes the BRAIN protocol communication functions of the transmitter and explains how to set the parameters for the transmitters using the BT200 handheld terminal For information on the installation wiring and maintenance of the transmitters please refer to the user s manual of each model A WARNING When using the transmitter in a Safety Instrumented Systems SIS application refer to Appendix 1 in this manual The instructions and procedures in the appendix must be strictly followed in order to maintain the designed safety integrity of the transmitter B Regarding This Manual This manual should be provided on to the end user The contents of this manual are subject to change without prior notice All rights reserved No part of this manual may be reproduced in any form without Yokogawa s written permission Yokogawa makes no warran
17. F For the units of mmH20 mmAq mmWG inH2O and ftH2O the pressure varies according to the standard temperature definition When a standard temperature of 20 C 68 F is required select 20degC 68 0F at the parameter D16 H20 UNIT SEL Available pressure units are shown below mmH2O MPa inHg mmAq mbar ftH20 mmWG bar psi mmHg gf cm2 atm Torr kgf cm2 Pa kPa inH2O hPa IM 01C25T03 01E lt 3 Operation gt 3 7 b Setting Calibration Range Lower Range Value and Upper Range Value C21 PRES LRV C22 PRES URV These range values are set as specified in the order before the instrumentis shipped Follow the procedure below to change the range The measurement span is determined by the upper and lower range limit values In this instrument changing the lower range value also automatically changes the upper range value keeping the span constant Example 1 With present settings of 0 to 30 kPa set the lower range value to 0 5 kPa SET Set 0 5 C21 PRES LRV 0 kPa i Press the key twice to enter the setting S 2 NER Press the F4 OK key 0 5 kPa FEED NO OK PARAM 1 Cop Ep UNE The upper range value is changed kPa eessen while the span remains constant 0 5 kPa C22 PRES URV 30 5 kPa DATA DIAG PRNT ESC Span Upper range value Lower range value F0313 ai Entering the range values as LRV gt URV reverses the direction of the output si
18. The transmitter generates a valid signal within 1 second of power on startup A1 2 8 Firmware Update In case firmware updates are required they will be performed at factory The replacement responsibilities are then in place The user will not be required to perform any firmware updates A1 2 9 Reliability Data A detailed Failure Mode Effects and Diagnostics Analysis FMEDA report is available from Yokogawa with all failure rates and failure modes The transmitter is certified up to SIL2 for use in a simplex 1001 configuration depending on the PFDavg calculation of the entire Safety Instrumented Function The development process of the transmitter is certified up to SIL3 allowing redundant use of the transmitter up to this Safety Integrity Level depending the PFDavg calculation of the entire Safety Instrumented Function When using the transmitter in a redundant configuration the use of a common cause factor B factor of 2 is suggested However if the redundant transmitters share an impulse line or if clogging of the separate impulse lines is likely a common cause factor of 1096 is suggested Note that the failure rates of the impulse lines need to be accounted for in the PFDavg calculation A1 2 10 Lifetime Limits The expected lifetime of the transmitter is 50 years The reliability data listed the FMEDA report is only valid for this period The failure rates of the transmitter may increase sometime after
19. caps Selects uppercase or lowercase CODE Selects symbols and lowercase for alphabetic characters only The CLR Erases input data or deletes all data case toggles between uppercase and lowercase DATA Updates parameter data each time F2 CAPS is pressed DEL Deletes one character DIAG Calls the self check panel Entering uppercase Entering lowercase ESC Returns to the most recent display CODE CAPS CLR ESC CODE caps CLR ESC HOME Displays the menu panel A A NO Quits setup and returns to the previous display Entry Key in sequence OK Proceeds to the next panel 16 lowercase PARM e the parameter number setup mode Boy LE Del SET TEE the SET menu B ee Y SLOT Returns to the slot selection panel de UTIL Calls the utility panel Use the function key F1 cope to enter symbols COPY Prints out parameters on display The following symbols will appear in sequence FEED Paper feed one at a time at the cursor each time F1 CODE is LIST Lists all parameters in the menu pressed PON POFF Automatic printout mode on or off S Ni PRNT Changes to the print mode ECKE GO Starts printing To enter characters next to these symbols press STOP Cancels printing gt to move the cursor Entry Key in Sequence symbol command Um P tter 1 7 F0307 ai Available on BT200 P00 with printer IM 01C25T03 01E lt 3 Operation gt
20. code A span 15 kPa K 3 x0 00745 15x100 0 149 SET Enter 0 149 E11 TEMP ZERO 7 20 000 degc Press the enter key twice to enter the setting CLR ESC ieee Press the Fa OK key 0 149 degC FEED NO OK F0354 ai Note 1 The function is performed using a built in temperature sensor in the transmitter body The temperature deviation between the transmitter body and capillaries should be minimized to achieve optimal performance of the function Note 2 When the span changes reenter the newly obtained value of K to E11 TEMP ZERO Table A Constant value B of fill fluid Fill fluid A C code 1 2 4 mmH20 0 76 0 87 1 45 0 75 a kgf cm 0 000076 0 000087 0 000145 0 000075 S kPa 0 00745 0 00853 0 01422 0 00736 g mBar 0 07453 0 08532 0 14220 0 07355 E atm 0 000074 0 000084 0 000140 0 000073 E inH20 0 02992 0 03425 0 05709 0 02953 8 psi 0 00108 0 00124 0 00206 0 00167 mmHg 0 05592 0 06401 0 10669 0 05518 Note 3 Select the unit of constant value of B from the actual unit used for the transmitter in operation 21 Adjustment Information and User Memo Fields J50 ADJ WHO J51 ADJ DATE J52 ADJ LOC J53 ADJ DESC M17 to M19 MEMO to MEMO3 This feature provides four fields for instrument adjustment information at maintenance inspection date inspector location and description Also three user memo
21. date R aleet M12 EXTRANO Customization number R eelef M15 SOFT REV Software revision R O O O M16 BRAIN REV BRAIN protocol revision R 0 70 M17 MEMO1 Memo W 16 alphanumeric characters olojoj M18 MEMO2 Memo W 16 alphanumeric characters olo loj M19 MEMO3 Memo W 16 alphanumeric characters OH OHO M20 ISOL MATL Capsule material W ojojoj M21 FILL FLUID Fill fluid W O O O0O Il RM R Read only W Read 8 Write 2 The default value shows MWP Maximum working pressure of the capsule Since the working pressure limit varies according to the Model refer to the General Specifications section in each user s manual IM 01C25T03 01E lt 5 Parameter Summary gt 4 Applicable S No Parameter name Item R W Content Default value model 95 F P L M22 GASKET MATL Gasket material Ww Olo Oo M23 PROCONMATL Flange material Ww OjoOoj o M24 D VENT MATL Vent plug material Ww olojoj M25 PRO CON TYPE Process connection type W 0 0 O p M26 RS ISOL MATL Remote seal material Ww Ojoj o M27 PRO CON SIZE Flange size Ww O O O0 M28 NUM RS Number of remote seal Ww O O0 O M29 RS FILL FLUID Fill fluid of remote seal Ww O O0 0 M30 RS TYPE Remote seal type Ww olojoj M50 MS CODE 1 Model and suffix code 1 Ww O O O M51 MS CODE 2 Model and suffix code 2 Ww O OjO M52 MS CODE 3 Model and s
22. fields are provided each holding up to 16 alphanumeric characters Example Save an inspection date of October 21 2003 PARAM Set 10 21 2003 in the order of J50 ADJ WHO J51 ADJ DATE month day and year J52 ADJ LOC Press the key twice to DATA DIAG PRNT ESC enter the setting SET J51 ADJ DATE MM DD YYYY 10 21 2003 CODE CAPS CLR ESC F0355 ai 3 3 Displaying Data Using the BT200 3 3 1 Displaying Measured Data The BT200 can be used to display measured data The measured data is updated automatically every seven seconds In addition the display can be updated to the present data value at any time by pressing the DI DATA key For parameters associated with the display of measured data see chapter 5 Parameter Summary Example Display output MENU A DISPLAY B SENSOR TYPE C BASIC SETUP D AUX SETI E AUX SET2 G ALARM SET HOME SET ADJ ESC PARAM Display A10 OUTPUT A10 0UTPUT 0 0 A11 PRES 0 0000 kPa A15 0UTPUT mA 4 000 ma DATA DIAG PRNT ESC Data is updated automatically at 7 second intervals PARAM communi A10 0UTPUT 0 0 A11 PRES 0 0000 kPa A15 0UTPUT mA 4 000 mA F0356 ai IM 01C25T03 01E lt 3 Operation gt 3 21 3 3 2 Display Transmitter Model and Specifications The BT200 can be used to display the model and specifications of the transmitter Example View transmitter model nam
23. from basic principles cause no error in the DC component of the analog signal Thus monitoring can be performed via the BT200 while the transmitter is on line 2 4 Connecting the BT200 YA IMPORTANT Analog output may change temporally in connecting with BRAIN terminal due to an initial current flowed to it To prevent communication signal affecting the upper system it is recommended to install a low pass filter approximately O 1s Connection to the transmitter with the BT200 can be made by either connecting to the BT200 connection hooks in the transmitter terminal box or by connecting to a relaying terminal or a terminal board Control room F0201 ai Figure 2 1 Connecting the BT200 2 2 Communication Line Requirements Protocol specification Yokogawa original protocol Modulation Burst modulation 0 2400Hz 1 Signal without carrier Baud rate 1200bps Communication signal host to device 0 5V load resistance 2500 device to host 2mA Cable resistance Rc Load Cable resistance R resistance Rc e Loop resistance R 2Rc 250 to 600 9 e Loop capacitance 0 22 uF max BT200 F0202 ai Figure 2 2 Communication Line Requirements IM 01C25T03 01E lt 2 Connection gt 2 2 2 3 Power Supply Voltage and 2 4 Integral Indicator Display Load Resistance When Powering On When configuring the loop make sure that the For models
24. oe key twice to enter the setting Press the F4 OK key DEL CLR ESC SET I34 ENGR URV 50M FEED NO OK PARAM 132 ENGR EXP I33 ENGR LRV 50M 134 ENGR URV M DATA DIAG PRNT ESC F0323 ai IM 01C25T03 01E lt 3 Operation gt 3 1 1 d Setting Static Pressure Unit and Scale D30 SP UNIT D33 SP LRV and D34 SP URV Static pressure can be displayed in measured input static pressure or in Yo independent from the 4 20 mA output signal of measured pressure or differential pressure These parameters allow the entry of the static pressure unit and scale to be displayed Note that the parameter D37 SP SELECT can be used to select either the high or low pressure side of the capsule to monitor the static pressure 7 Unit Setup for Displayed Temperature D40 TEMP UNIT When the instrument is shipped the temperature units are set to degC Follow the procedure below to change this setting Note that changing the unit here changes the unit for A30 CAPSULE TEMP capsule temperature and J45 AMP TEMP amplifier temperature Example Change the unit for the temperature display degC to degF Use the AA jor NY key to select degF Press the key twice to enter the setting Then press the OK key ET D40 TEMP UNIT degC lt degC gt degF gt K F0324 ai 8 Operation Mode Setup D22 REV OUTPUT This parameter al
25. out wiring unless they meet this condition Before connecting the power cables please confirm that there is no current flowing through the cables and that the power supply to the instrument is switched off c Operation Wait 10 min after the power is turned off before opening the covers d Maintenance Please carry out only the maintenance procedures described in this manual If you require further assistance please contact the nearest Yokogawa office Care should be taken to prevent the build up of dust or other materials on the display glass and the name plate To clean these surfaces use a soft dry cloth e Modification Yokogawa will not be liable for malfunctions or damage resulting from any modification made to this instrument by the customer 1 2 Warranty The warranty shall cover the period noted on the quotation presented to the purchaser at the time of purchase Problems occurring during the warranty period shall basically be repaired free of charge If any problems are experienced with this instrument the customer should contact the Yokogawa representative from which this instrument was purchased or the nearest Yokogawa office If a problem arises with this instrument please inform us of the nature of the problem and the circumstances under which it developed including the model specification and serial number Any diagrams data and other information you can include in your communication wi
26. pressure B31 SPURL Upper range limit for static R Unit specified in D30 Oj c o pressure B32 SP MIN SPAN Minimum span for static H Unit specified in D30 O O pressure B60 SELF CHECK Self diagnostics R SeeA60 O O O C BASIC SETUP Setting data C10 TAG NO Tag number W 16 alphanumeric characters As specified ololojo C20 PRES UNIT Measurement range unit W mmH20 mmAq mmWG kPa O O O 0 mmHg Torr kPa MPa mbar bar gf cm kgf cm2 inH20 inHg ftH20 psi atm Pa hPa C21 PRES LRV Lower range value W 32000 to 32000 within As specified GK od O measurement range C22 PRES URV Upper range value W 32000 to 32000 within As specified O OIOJ 0 measurement range C23 PRES POINT Decimal place W 0to4 2 OOO C30 AMP DAMPING Damping time constant at W 10 50 0 00 to 100 00 seconds 2 00 secondsor O O O O amplifier see D50 as specified C40 OUTPUT MODE Output mode W LINEAR or SUQARE ROOT LINEAR or as O OJO O specified C60 SELF CHECK Self diagnostics H SeeA60 o ojoj Il R W R Read only W Read amp Write 2 The default value shows MWP Maximum working pressure of the capsule Since the working pressure limit varies according to the Model refer to the General Specifications section in each user s manual IM 01C25T03 01E lt 5 Parameter Summary gt 4 Applicable S No Parameter name Item R W Content Default v
27. see Table 4 1 Alarm Message Summary Note 1 Press the key twice in the setup panel a to clear all error message P10 to P16 information Note 2 When the error occurs the self diagnostic detects errors and records them in two ways depending on the types of errors The amplifier capsule failures are recorded immediately after the occurrence while the minor errors such as warnings of inappropriate parameter settings are periodically recorded at an interval of minimum five minutes to twenty four hours Note that the interval extends as the number of access counts to EEPROM increases F0403 ai IM 01C25T03 01E 4 1 2 Checking with Integral Indicator A NOTE If an error is detected by running self diagnostics an error number is displayed on the integral indicator If there is more than one error the error number changes at three second intervals See table 4 1 regarding the alarm codes lt 4 Self diagnostics gt F0404 ai Figure 4 1 Integral Indicator 4 2 Alarms and Countermeasures Table 4 1 Alarm Message Summary Indicator BT200 display Cause seh ih operation Countermeasure uring error None GOOD AL 01 01 P SENSOR ERR Sensor problem Outputs the signal Replace capsule when CAP ERR Hi or Low set with error keep appearing parameter D26 error even after restart Status output undefined 01 CT SENSOR ERR Ca
28. specified threshold temperature AL 40 40 CT LOW ALARM TMP LO IM 01C25T03 01E lt 4 Self diagnostics gt 4 3 Indicator BT200 display Cause Be operation Countermeasure uring error AL 50 50 P ILLEG LRV Specified value is outside of Holds output Check settings and P LRV setting range immediately before change them as needed AL 51 51 P ILLEG URV error occurred P URV AL 52 52 P ILLEG SPAN PSPN Il AL 53 53 P SPAN ADJ Continues to operate Adjust settings and P ADJ 53 P ZERO ADJ and output change them as needed AL 54 54 SPILLEGLRV Continues to operate Check settings and SP RNG 54 SP ILLEG URV and output holding change them as needed 54 SP ILLEG SPAN static pressure in AL 55 55 SPSPANADJ Continues to operate Adjust settings and SP ADJ 55 SP ZERO ADJ and output change them as needed AL 60 60 SC CONFIG ERR Specified values or settings do Continues to operate Check settings and SC CFG not meet the conditions and output without change them as needed signal characterizing AL 79 Displayed value exceeds limit Continues to operate OV DISP and output IM 01C25T03 01E lt 5 Parameter Summary gt 5 1 5 P Absolute and gauge pressure transmitters Parameter Summary Instruments to which applicable F Differential pressure transmitters L Flange mounted differential press
29. the inputs to the phase The verification is usually executed by analysis and or testing Validation The demonstration that the safety related system s or the combination of safety related system s and external risk reduction facilities meet in all respects the Safety Requirements Specification The validation is usually executed by testing Safety Assessment The investigation to arrive at a judgment based on evidence of the safety achieved by safety related systems Further definitions of terms used for safety techniques and measures and the description of safety related systems are given in IEC 61508 4 A1 3 2 Abbreviations FMEDA Failure Mode Effects and Diagnostic Analysis SIF Safety Instrumented Function SIL Safety Integrity Level SIS Safety Instrumented System SLC Safety Lifecycle IM 01C25T03 01E Revision Information DPharp BRAIN Communication Type Title Manual No IM 01C25T03 01E Edition Date Page Revised Item 1st Apr 2004 New publication 2nd Oct 2004 3 19 3 2 3 20 Add capillary fill fluid density compensation setting procedure 3rd Aug 2009 3 8 3 2 3 5 Add example for hysteresis 3 14 3 2 3 15 Correct misprint 3 18 3 2 3 19 Add CAUTION Add note for hysteresis 4th Jun 2012 2 2 24 Add integral indicator display when powering on 3 5 3 2 2 Add parameters in the menu tree I41 K45 3 6 3 2 3 1 Correct errors 3 12 3 2 3 11 d
30. the static pressure is performed in the same way as with the primary process variable PV Note that the static pressure sensor trim should be done only after trimming the PV d Reset Trim Adjustment to Factory Setting J56 CLEAR ADJ Use PRES or SP of J56 CLEAR ADJ parameter to reset the trim adjustment to the initial calibrated values that were set When PRES is selected to clear the adjustment the amount of the adjustment by the external zero adjustment screw is returned to the initial setting as well Example Reset the trim adjustment of pressure to factory set characterization curve See ADJ Use the or key rei e to select PRES lt PRES gt lt SP gt Press the key twice to ssc enter the setting Press the F4 OK key lt 4 20mA gt SET J56 CLEAR ADJ FEED NO OK F0342 ai 16 Test Output Setup K10 OUTPUT X This feature can be used to output a fixed current for loop checks The available range for test output depends on the setting at parameters D20 OUT LIMIT L and D21 OUT LIMIT H whose limit is from 3 6 mA 2 5 to 21 6 mA 110 Example Output 12 mA 50 fixed current SAMO OUTPUT X Set 50 00 0 00 050 00 Press the key twice to output a fixed current at 50 CLR ESC ACTIVE is displayed while this is being executed Press the OK key to cancel the fixed current output SET K10 0UTPUT X 50 00
31. this period Reliability calculations based on the data listed in the FMEDA report for the transmitter lifetimes beyond 50 years may yield results that are too optimistic i e the calculated Safety Integrity Level will not be achieved A1 2 11 Environmental Limits The environmental limits of the transmitter are specified in the user s manual IM 01C25 A1 2 12 Application Limits The application limits of the transmitters are specified in the user s manual IM 01C25 If the transmitter is used outside of the application limits the reliability data listed in A1 2 9 becomes invalid IM 01C25T03 01E Appendix 1 Safety Instrumented Systems Installation A1 3 A1 3 Definitions and Abbreviations A1 3 1 Definitions Safety Freedom from unacceptable risk of harm Functional Safety The ability of a system to carry out the actions necessary to achieve or to maintain a defined safe state for the equipment machinery plant apparatus under control of the system Basic Safety The equipment must be designed and manufactured such that it protects against risk of damage to persons by electrical shock and other hazards and against resulting fire and explosion The protection must be effective under all conditions of the nominal operation and under single fault condition Verification The demonstration for each phase of the life cycle that the output deliverables of the phase meet the objectives and requirements specified by
32. using an ammeter that accurately reads output currents When using BT200 the output signal can be adjusted either in Yo or pressure unit The unit can be selected by the parameter J09 ADJ UNIT Output signal can be changed by displaying parameter A10 OUTPUT for 96 or J10 OUTPUT for pressure unit This section discribes the zero adjustment procedure by using the pressure unit a 1 Zeroing Setting the parameter J11 P ZERO ADJ carries out the zero adjustment and automatically sets the applied O input values to the transmitter s output value of zero keeping the span constant Use this setting when the LRV is known to be 0 kPa IM 01C25T03 01E lt 3 Operation gt 3 1 5 SES Transmitter measures pressure of 0 03585 kPa 0 03585 kPa SET i i Dos ZERO ADJ A pressure of 0 kPa is applied 0 00000 kPa e 0 Press the enter key twice after the pressure has become DEL CLR ESC stable SET J11 P ZERO ADJ 0 00000 kPa Zero adjustment is completed Press the F4 OK key FEED NO OK alii bens Transmitter measures pressure of 0 00000 kPa 0 00000 kPa F0336 ai a 2 Level Adjustment The zero adjustment by the parameter J11 P ZERO ADJ calibrates the transmitter output corresponding to the actual tank level To perform this adjustment first use a glass gauge or the like to determine the actual tank level then enter the correct data as shown below DPharp sp
33. with the integral indicator code D the external load resistance is within the range in the display shows all segments in the LCD and then figure below changes to the displays shown below sequentially Note With an intrinsically safe transmitter external load resistance includes safety barrier resistance gtt Dit 50 NR CISCUCUCW wa aa pe innooo n LIA ODDO LIL 250 sete F External E 10 5 92 192 iva JS A000 ule YAYA ten x Se DEIER e n licable ra MR 7 nidi All segments display gt Model name 3 s Eu i d pt r j A JUNI 0 10 5 16 6 25 2 42 JR AIM Power supply voltage E V DC Communication Protocol 3 s gt 3s F0203 ai F0200 ai AN NOTE For output signal code D this function is available for software revision 2 02 or later Software revision can be checked by the parameter M15 SOFT REV Refer to section 3 Operation how to call up the parameter N NOTE LCD display can be setto all segments display only by the parameter 141 POWER ON INF ON Show All segments display Model name and Communication Protocol when powering on Figure 2 3 Relationship between Power Supply Voltage and External Load Resistance OFF Show All segments display when powering on Refer to section 3 Operation how to call up the parameter IM 01C25T03 01E lt 3 Operation gt 3 The transmitter is equipped wit
34. 34 ENGR URV These parameters allow the entry of the engineering units and scale to be displayed The engineering unit can be selected from the parameter 131 EASY EU SET as listed below Alternately up to eight alphanumerics spaces and a slash can be input on keypad at 130 ENGR UNIT only first six are displayed on the integral indicator Select the unit from the list of 131 EASY EU SET kPa ftH20 Nl min MPa gf cm2 Nm3 h mbar kgf cm2 Nm3 min bar kg cm2G ACFH psi kg cm2A ACFM psia atm SCFH mmH20 kg h SCFM mmHg t h GPH mmHgA m3 h GPM mmAq m3 min m mmWG Wh mm Torr l min in inH2O ki h ft inHg kl min kg m3 inHgA Ni h g cm3 Follow the procedure below to change the settings Example Set an engineering unit M SET Set M I30 ENGR UNIT ye Press the key twice to enter the setting Press the ra OK key CODE CAPS CLR ESC SET I30 ENGR UNIT M FEED NO OK F0322 ai Note that following symbols are not available amp 9 4 The transmitter integral indicator shows when these are entered Example Set lower range value LRV to 50 and upper range value URV to 50 Setting LRV SET Set 50 I33 ENGR LRV Press the ewer key twice to enter the setting Press the F4 OK key SET I33 ENGR LRV 50 M FEED NO OK Setting URV SET Set 50 134 ENGR URV Press the
35. EN PARAM PARAM PARAM A10 OUTPUT C10 TAG NO J09 ADJ UNIT 0 0 YOKOGAWA A11 PRES C20 PRES UNIT J10 ADJ PRES 0 0000 kPa kPa 0 02563 A15 0UTPUT mA C21 PRES LRV J11 P ZERO ADJ 4 000 mA 0 00000 kPa 0 04792 DATA DIAG PRNT ESC DATA DIAG PRNT ESC DATA DIAG PRNT ESC ENTER SETUP SCREEN SET C10 TAG NO YOKOGAWA YOKOGAWA CODE CAPS CLR See the BT200 user s manual for details concerning uploading and downloading parameters and printouts BT200 P00 ESC F0309 ai 3 1 4 Printout for BT200 printer option 1 Printout of All Parameters Select 4 PRINT ALL DATA from the function screen to output a list of all parameters It takes about 10 minutes to complete the printout 2 Printout by Menu Item To printout the parameters for a specific screen push the function key corresponding to screen s PRNT IM 01C25T03 01E lt 3 Operation gt 3 2 Setting Parameters Using the BT200 3 2 1 Parameter Usage and Selection Before setting a parameter please see the following table for a summary of how and when each parameter is used Table 3 1 A IMPORTANT After setting and sending data with the BT200 wait 30 seconds before turning off the transmitter If it is turned off too soon the settings will not be stored in the transmitter Parameter Usage and Selection Setup item Tag No setup gt gt P 3 6 Description Sets the Tag No using 16 a
36. N FIC 1AWA rz 3 28 FIC 1aWA SPACE FIC 1a a Set TAG NO and press the C10 TAG NO YOKOGAWA ENTER key FIC la _ CODE caps CLR ESC When you have made an entry mistake return the cursor using the key then reenter SET This is the panel for confirming C10 TAG NO FOKOGAMA z setdata The set data items flash a B When all items have been confirmed press the again To go back to the setting panel press the rs NO key SET The DPharp TAG NO was C10 TAG NO FIC 1a overwritten Press the F4 OK key to return to the parameter panel print off F2 printer on FEED PORE NO FEED NO OK Press the F3 NO key to PARAM C10 TAG NO return to the setting panel FIC la C20 PRES UNIT kPa C21 PRES LRV 0 00000 kPa DATA DIAG PRNT ESC F0311 1 ai F0311 2 ai 2 Calibration Range Setup a Setting Calibration Range Unit C20 PRES UNIT The unit parameter is set at the factory before shipment if specified at the time of order Follow the procedure below to change the unit parameter Example Change the unit from mmH20 to kPa SET C20 PRES UNIT Use the ei or Vv e E gt key to select kPa EE E Press the key twice LkPa gt Esc to enter the setting y T Press the OK key kPa FEED NO OK F0312 ai Note that the Yokogawa default setting for the standard temperature is 4 C 39 2
37. OK key SET H10 AUTO P LRV 0 5000 kPa FEED NO OK PARAM i See Eeer The upper range value is changed 0 5000 kPa H11 AUTO P URV 30 500 kPa H20 AUTO SP LRV 0 0 MPa DATA DIAG PRNT ESC keeping the span constant Parameters C21 and C22 are changed at the same time F0334 ai IM 01C25T03 01E lt 3 Operation gt 3 1 4 Note that changing the upper range value does not cause the lower range value to change but does change the span Example 2 When the upper range value is to be changed to 10 kPa with the present setting of O to 30 kPa take the following action with an input pressure of 10 kPa applied H11 AUTO SOLE Press the key twice kPa E 30 The upper range value is changed to 10 kPa Press the ra OK key SET H11 AUTO URV 10 000 kPa FEED NO OK PARAM The lower range value is not H10 AUTO P LRV 0 kP TSN changed so the span changes 10 000 kp A H20 AUTO SP LRV Parameter C22 is changed at the 0 0 MPa DATA DIAG PRNT ESC same time F0335 ai 15 Sensor Trim Each transmitter is factory characterized Factory characterization is the process of comparing a known pressure input with the output of each transmitter sensor module over the entire pressure and temperature operating range During the characterization process this comparison information is stored in the transmitter EEPROM In operation the transmitter uses thi
38. P ZERO DEV and J16 P SPAN DEV The full sensor trim is a two point adjustment and the lower point adjustment should always be performed before the upper point adjustment in order to maintain the pitch between the zero and 100 points within the calibration range In the manual method the reference pressure should also be applied to the transmitter at both lower and upper point of trim ends Without the reference pressure J15 P ZERO DEV and J16 P SPAN DEV may not represent the correct value of adjustment point for each IM 01C25T03 01E b 1 Auto Sensor Trim 3 16 lt 3 Operation gt b 2 Manual Sensor Trim Example For the range of 10 to 30 kPa Setting a lower point SET J10 ADJ PRES 9 94000 kPa SET J11 P ZERO ADJ 9 94000 kPa B 10 SET J11 P ZERO ADJ 10 0000 kPa FEED NO OK SET J10 ADJ PRES 10 0000 kPa Setting an upper point SET J10 ADJ PRES 30 1500 kPa SET J12 P SPAN ADJ 30 1500 kPa 30 SET J12 P SPAN ADJ 30 0000 kPa FEED NO OK SET J10 ADJ PRES 30 0000 kPa Transmitter indicates 9 94 kPa as its output when applying a standard pressure of 10 kPa Set 10 After obtaining a stable pressure of 10 kPa press key twice Press the OK key Check the output becomes 10 kPa Transmitter indicates 30 15 kPa as its output when applying a standard pressure of 30 kPa Set 30 After obtaining a stable pressure
39. PUT 4mA 4 mA adjustment W 10 000 to 10 000 0 00096 Olo0 J41 OUTPUT 20mA 20 mA adjustment W 10 000 to 10 000 0 00096 Sl O O J45 AMP TEMP Amplifier temperature R Unit specified D40 0 degC olojo J50 ADJ WHO Adjustment information W 8 alphanumeric characters ol lojoj J51 ADJ DATE Adjustment information W 16 alphanumeric characters O O O0 J52 ADJ LOC Adjustment information W 8 alphanumeric characters O O O0 J53 ADJ DESC Adjustment information W 16 alphanumeric characters Ojoj o J55 EXT ZERO ADJ External zeroing permission W INHIBIT or ENABLE ENABLE OOO J56 CLEAR ADJ Clear adjustment W PRES SP 4 20mA or O O O ALL J60 SELF CHECK Self diagnostics R SeeA60 o ojoj K TEST Test parameters K10 OUTPUT X Yo Test output setting W Within a range between D20 0 00 OO POH and D21 K40 DO TEST Test contact output W OFF or ON OFF Ojojo K45 TEST TIME OUTPUT X and DO W 10 min 30 min 60 min 10 min ojoloj TEST duration time selection 3 hour 6 hour 12 hour K50 TEST KEY1 Special maintenance W ol loloj parameter K51 TEST KEY2 Special maintenance W olojoj parameter K52 TEST KEY3 Special maintenance W olojoj parameter K53 TEST KEY4 Special maintenance W O O O parameter K60 SELF CHECK Self diagnostics R SeeA60 o ojoj M DEVICE INFO Device information M10 SERIAL NO Serial number R O OTO M11 MFTR DATE Manufactured
40. R EXP m a n x100 Input static pressure Indicates input static pressure with SP the indication limits 32000 to PL 32000 l 3j 30 Reference pressure is factory set unnn in absolute ALILILI A21 5P MPa 4 000 MPa Yo of static pressure range SP 96 unm 0 Sei m Bd LIL JL H K Indicates input static pressure in 10 to 11096 range depending on the measuring range D33 D34 A20 SP 52 6 F0320 ai 1 Available for differential pressure transmitter See a through d for each setting procedure IM 01C25T03 01E lt 3 Operation gt 3 1 0 a Display Selection 110 DISP OUT1 Select the variable for the parameter 110 DISP OUT to display on the integral indicator Example Change the integral indicator scale from 96 of range to input pressure display Use the or key to select PRES Press the key twice to ESC enter the setting Press the F4 OK key SET I10 DISP OUTI PRES PRES PRES ENGR PRES SP vvvv SET I10 DISP OUT1 PRES FEED NO OK F0321 ai b Cyclic Display 111 DISP OUT2 112 DISP OUT3 and 113 DISP OUTA In addition to the display set at 110 DISP OUT1 displays can be set at 111 DISP OUT2 112 DISP OUT3 and 113 DISP OUTA for cyclic display in the order of the parameter number c User Setting of Engineering Unit and Scale 130 ENGR UNIT 131 EASY EU SET 133 ENGR LRV and 1
41. SELECT E51 DO SIG TYPE E52 D OUTPUT E60 SELF CHECK M DEVICE INFO SERIAL NO MFTR DATE EXTRA NO SOFT REV BRAIN REV MEMO1 MEMO2 MEMO3 ISOL MATL FILL FLUID GASKET MATL PRO CON MATL D VENT MATL PRO CON TYPE RS ISOL MATL PRO CON SIZE NUM RS RS FILL FLID RS TYPE MS CODE 1 MS CODE 2 MS CODE 3 MS CODE 4 M8 CODE 5 M8 CODE 6 SELF CHECK 1 Available for differential pressure transmitter 2 Available for EJX series only 8 Available for software revision 2 02 or later Software revision can be checked by the parameter M15 SOFT REV G ALARM SET P AL MODE P HI AL VAL P LO AL VAL SP AL MODE SP HI AL VAL SP LO AL VAL TAL MODE T HI AL VAL T LO AL VAL AUTO RECOVER SELF CHECK P RECORD ERROR REC 1 ERROR REC 2 ERROR REC 3 ERROR REC 4 REC CLEAR SELF CHECK H AUTO SET H10 AUTO P LRV H11 AUTO P URV H20 AUTO SP LRV H21 AUTO SP URV H60 SELF CHECK I CHARACTERIZR S C ENABLE NUM OF POINT X START FIX Y START FIX X1 r YI X2 t Y2 Wa W i X4 YA X5 Y5 X6 Wi X7 CYT X8 Y8 X9 d X END FIX Y END FIX SELF CHECK I DISP SET DISP OUT1 DISP OUT2 DISP OUT3 DISP OUT4 P DISP MODE PRES RESO ENGR UNIT EASY EU SET ENGR EXP ENGR LRV ENGR URV ENGR POINT BAR INDICATR POWER ON INF 3 SELF CHECK F0310 ai IM 01C25T03 01E
42. T31 Y5 Coordinate 5 of Y W 0 00 to 100 00 50 00 Q QO l T32 X6 Coordinate 6 of X W 0 00 to 100 0096 60 00 O O O0 T33 Y6 Coordinate 6 of Y W 0 00 to 100 0096 60 00 OO 0 T34 X7 Coordinate 7 of X W 0 00 to 100 00 70 00 OQ o VI Jl T35 Y7 Coordinate 7 of Y W 0 00 to 100 0096 70 00 OO 0 T36 X8 Coordinate 8 of K W 0 00 to 100 0096 80 00 O O O0 T37 Y8 Coordinate 8 of Y W 0 00 to 100 00 80 00 Q O Q T38 X9 Coordinate 9 of X W 0 00 to 100 00 90 00 O O pO T39 Y9 Coordinate 9 of Y W 0 00 to 100 00 90 00 Olo0 T40 X END FIX End point of X R 100 00 ojoloj T41 Y END FIX End point of Y R 100 00 ololoj T60 SELF CHECK Self diagnostics R SeeA60 Olo0 Il RM R Read only W Read amp Write 2 The default value shows MWP Maximum working pressure of the capsule Since the working pressure limit varies according to the Model refer to the General Specifications section in each user s manual IM 01C25T03 01E Appendix 1 Safety Instrumented Systems Installation A1 1 Appendix 1 Safety Instrumented Systems Installation A WARNING The contents of this appendix are cited from exida com safety manual on the transmitters specifically observed for the safety transmitter purpose When using the transmitter for Safety Instrumented Systems SIS application the instructions and procedures in this section must be strictly followed in order to preserve the transmitter for t
43. alue model 95 F P L D AUX SET 1 Auxiliary setting data 1 D10 LOW CUT Low cut W 0 00 to 20 00 10 00 ololojlo D11 LOW CUT MODE Low cut mode W LINEAR or ZERO LINEAR O OJO O D15 H L SWAP Impulse piping accessing W NORMAL or REVERSE NORMAL O O O direction D16 H2O UNIT SEL H20 unit select W 4degC or 20degC 4degC WO I O O 68 0F D20 OUT LIMIT L Low side output limiter W 2 50to 110 0096 2 50 Yo OO OO 0 D21 OUT LIMIT H High side output limiter W 2 50to 110 0096 11096 O O O O D22 REV OUTPUT Output reversal W NORMAL or REVERSE NORMAL O O O D25 BURNOUT CPU error R HIGH or LOW Olo0 D26 ERROR OUT Hardware error W BURNOUT DIR or HOLD BURNOUT DIR O O O O D30 SPUNIT Static pressure unit W See C20 MPa Q p pLoqo D31 SP A G SLCT Gauge Abs select for static W GAUGE or ABSOLUTE ABSOLUTE O O 0 pressure D32 ATM PRESS Coefficient for given gauge W Unit specified in D30 0 10133 MPa O O O pressure D33 SPLRV Lower limit of static pressure W 32000 to 32000 within 0 0 MPa O O 0O measurement range D34 SP URV Upper limit of static pressure W 32000 to 32000 within O O 0O measurement range D35 SP POINT Decimal place of static W 0to4 1 O O O pressure D36 SP DAMPING Damping time constant of SP W 0 00 to 100 00 seconds 2 00 seconds O O O D37 SP SELECT H L select for static pressure W HIGH or LOW HIGH O O 0O D40 TEMP UNIT Temperature set
44. an 0 to 25 00 kPa Actual level 13 50 kPa Transmitter output 13 83 kPa H 25 00 kPa Actual level 13 50 kPa 0 00 kPa F0337 ai Transmitter measures present pressure of 13 83 kPa Al11 PRES 13 83 kPa SET Enter the present actual level J11 P ZERO ADJ 0 00000 kPa gem 13 5 kPa Besser Pressthe ENTER key twice A11 PRES The measured pressure is 13 5000 kPa changed to 13 5 kPa F0338 ai a 3 Using External Zero adjustment Screw This method permits zero adjustment without the BT200 Use a slotted screwdriver to turn the zero adjustment screw See the hardware manual for details Note that the parameter J55 EXT ZERO ADJ must be ENABLE to perform this adjustment Follow the procedure below to enable or inhibit zero point adjustment from the zero adjustment screw on the transmitter This is set to ENABLE when the instrument is shipped Example Inhibiting zero adjustment by the external zero adjustment screw KA Usethe Jor N J key ENABLE to select INHIBIT ENABLE Press the key twice to INHIBIT enter the setting Then press the OK key ESC F0339 ai b Full Sensor Trim J11 P ZERO ADJ J12 P SPAN ADJ J15 P ZERO DEV J16 P SPAN DEV Full sensor trim is carried out with a series of the procedure of J11 P ZERO ADJ and J12 P SPAN ADJ Also you can manually perform the trimming procedure by using J15
45. ce to enter the setting Press the F4 OK key F0315 ai Note 1 The damping time constant set here is the time constant for the amplifier assembly The damping time constant for the entire transmitter is the sum of the values for the amplifier assembly and for the capsule assembly Note 2 When the damping time constant is set to less than 0 5 second communication may occasionally be unavailble during the operation especially while output changes dynamically IM 01C25T03 01E lt 3 Operation gt 3 8 4 Output Mode and Integral Indicator Display Mode Setup C40 OUTPUT MODE 120 P DISP MODE The mode setting for the output signal and the integral indicator can be performed independently This mode is set as specified in the order when the instrument is shipped Follow the procedure below to change the mode If the instrument is equipped with an integral indicator and the display mode is SQUARE ROOT 4 is displayed on the integral indicator Output mode for 4 20 mA output Example Set output mode from Linear to Square root Use the A or N7 key STIER gt to select SQUARE ROOT lt SQUARE ROOT gt Press the key twice to ESC enter the setting Press the OK key SET C40 0UTPUT MODE NEAR SET C40 0UTPUT MODE SQUARE ROOT FEED NO OK F0316 ai ntegral indicator display mode Example Set display mode from Linear to Squa
46. dninger for produkter relateret til ATEX Ex er tilg ngelige p engelsk tysk og fransk Skulle De nske yderligere oplysninger om h ndtering af Ex produkter p eget sprog kan De rette henvendelse herom til den n rmeste Yokogawa afdeling eller forhandler Tutti i manuali operativi di prodotti ATEX contrassegnati con Ex sono disponibili in inglese tedesco e francese Se si desidera ricevere i manuali operativi di prodotti Ex in lingua locale mettersi in contatto con l ufficio Yokogawa pi vicino o con un rappresentante Todos los manuales de instrucciones para los productos antiexplosivos de ATEX est n disponibles en ingl s alem n y franc s Si desea solicitar las instrucciones de estos art culos antiexplosivos en su idioma local deber ponerse en contacto con la oficina o el representante de Yokogawa m s cercano Alle handleidingen voor producten die te maken hebben met ATEX explosiebeveiliging Ex zijn verkrijgbaar in het Engels Duits en Frans Neem indien u aanwijzingen op het gebied van explosiebeveiliging nodig hebt in uw eigen taal contact op met de dichtstbijzijnde vestiging van Yokogawa of met een vertegenwoordiger Kaikkien ATEX Ex tyyppisten tuotteiden k ytt hjeet ovat saatavilla englannin saksan ja ranskankielisina Mikali tarvitsette Ex tyyppisten tuotteiden ohjeita omalla paikallisella kielell nnne ottakaa yhteytt l himp n Yokogawa toimistoon tai edustajaan Todos os manuais de instru
47. e MENU Press e A DISPLAY B SENSOR TYPE C BASIC SETUP D E AUX SETI AUX SET2 G ALARM SET HOME SET ADJ ESC PARAM B10 MODEL For the associated EJX110 M parameters see Chapter 5 Se Parameter Summary B20 PRES LRL 98 07 kPa DATA DIAG ENER ESC F0357 ai IM 01C25T03 01E 41 1 4 4 1 Self diagnostics Checking for Problems Identifying Problems with BT200 The following four areas can be checked a Whether connections are good b Whether BT200 was properly operated c Whether settings were properly entered d History of the errors See examples below Example 1 Connection errors WELCOME BRAIN TERMINAL ID BT200 check connection push ENTER key UTIL FEED communication error ESC Press the key When the panel shown on the left appears press the key Since communications will be unsuccessful if there is a problem in the connection to the BT200 the display at the left will appear Recheck the connection Press the Fa OK key F0401 ai Example 2 Setting entry errors PARAM 01 MODEL EJX110 M 02 TAG NO YOKOGAWA 03 SELF CHECK ERROR OK PARAM C20 PRES UNIT kPa C21 PRES LRV 600 kPa C22 PRES URV 600 kPa DATA DIAG PRNT ESC DIAG C60 SELF CHECK ERROR lt ERROR gt lt ILLEGAL LRV gt FEED PRNT ESC The initial data panel shows the
48. ection sess 3 4 3 2 2 iugi E 3 5 3 2 3 Set ng Parameters eessen RE RR ES 3 6 1 Tag No Setup wwa makaka wai kawawa 3 6 2 Calibration Range Setup iwe 3 6 3 Damping Time Constant Setup sees 3 7 4 Output Mode and Integral Indicator Display Mode Setup 3 8 5 Output Signal Low Cut Mode Setup sese 3 8 6 Integral Indicator Scale Setup ssseess 3 9 7 Unit Setup for Displayed Temperature seseeeeeeeeeeeeeeeeeeeee 3 11 8 Operation Mode Setup 5 einer ria 3 11 9 Impulse Line Connection Orientation Setup 3 11 6th Edition June 2014 KP IM 01C25T03 01E All Rights Reserved Copyright 2004 Yokogawa Electric Corporation 10 CPU Failure Burnout Direction and Hardware Write Protect 3 11 11 Software Write Protect oe eniti 3 12 12 Output Status Setup when a Hardware Error Occurs 3 13 13 Bi directional Flow Measurement Setup 3 13 14 Range Change while Applying Actual Inputs 3 13 15 Sensor Tritt oh eoo RR 3 14 16 Test Output Setup x dne ote m este o m oe en oe dep 3 17 17 Signal Characterizer ries t eret eek terere 3 17 18 Process Alarm sssssssseeeeeenen mene 3 18 19 Status Output option code AL 3 18 20 Capillary Fill Fluid Density Compensation
49. edures IM 01C25T03 01E Appendix 1 Safety Instrumented Systems Installation A1 2 TableA1 2 Proof Testing Testing method Tools required Functional test Handheld terminal 1 Follow all Management of Change procedures to bypass logic solvers if necessary 2 Execute HART BRAIN command to send value to high alarm 21 5 mA and verify that current has reached this level 3 Execute HART BRAIN command to send value to low alarm 3 6 mA and verify that current has reached this level 4 Restore logic solvers operation and verify Remarks The output needs to be monitored to assure that the transmitter communicates the correct signal Expected outcome Proof Test Coverage 52 Handheld terminal Calibrated pressure Source Perform three point calibration along with the functional test listed above Proof Test Coverage 99 A1 2 6 Repair and Replacement If repair is to be performed with the process online the transmitter will need to be bypassed during the repair The user should setup appropriate bypass procedures In the unlikely event that the transmitter has a failure the failures that are detected should be reported to Yokogawa When replacing the transmitter the procedure in the installation manual should be followed The personnel performing the repair or replacement of the transmitter should have a sufficient skill level A1 2 7 Startup Time
50. gnal of 4 20 mA to 20 4 mA corresponding to the calibration range of 0 to 100 Calibration range can be specified with range value specifications up to 5 digits excluding any decimal point for lower or upper range limits within the range of 32000 to 32000 Note however that changing the upper range value does not cause the lower range value to change Thus changing the upper range value also changes the span Example 2 With present settings of 0 to 30 kPa set the upper range value to 10 kPa SET C22 PRES URV 30 kPa E 10 DEL CLR ESC SET C22 PRES URV 10 kPa FEED NO OK PARAM C20 PRES UNIT kPa C21 PRES LRV 0 kPa C22 PRES URV 10 kPa DATA DIAG PRNT ESC Set 10 Press the key twice to enter the setting Press the F4 OK key The lower range value is not changed so the span changes F0314 ai 3 Damping Time Constant Setup C30 AMP DAMPING When the instrument is shipped the damping time constant is set at 2 00 seconds unless otherwise specified in the order Follow the procedure below to change the damping time constant Note that setting the quick response parameter D50 QUICK RESP ON enables you to set the damping time constant between 0 00 to 0 49 second SET C30 AMP DAMPING SET C30 AMP DAMPING 4 00 sec FEED NO OK Example Change from 2 00 to 4 00 seconds Enter 4 Press the key twi
51. h BRAIN communications capabilities so that range changes Tag No setup monitoring of self diagnostic results and zero point adjustment can be handled remotely via the BT200 BRAIN TERMINAL the FieldMate Versatile Device Management Wizard or the CENTUM CS console This section describes procedures for setting parameters using the BT200 For further information on the BT200 see the BT200 User s Manual IM 01C00A11 01E YA IMPORTANT Communication signal is superimposed on analog output signal It is recommended to set a low pass filter approximately 0 1s to the receiver in order to reduce the output effect from communication signal Before online communication confirm that communication signal does not give effect on the upper system Operation 3 1 BT200 Operating Procedures 3 1 1 Key Layout and Screen Display Figure 3 1 shows the arrangement of the operating keys on the BT200 keypad and figure 3 2 shows the BT200 screen AN m e BRAIN TERMINAL LCD 21 characters x 8 lines Function keys Movement keys ENTER key Power ON OFF key Alphanumeric keys Shift keys F0301 ai Figure 3 1 BT200 Key Layout Screen title Parameters Figure 3 2 MENU SCREEN MENU A DISPLAY B SENSOR TYPE C BASIC SETUP D AUX SETI E AUX SET2 G ALARM SET HOME SET ADJ ESC BATTERY 7 PARAMETER SCREEN PARAM A10 0UTPUT 0 0 All PRES 0
52. hat safety level A1 1 Scope and Purpose This section provides an overview of the user responsibilities for installation and operation of the transmitter in order to maintain the designed safety level for Safety Instrumented Systems SIS applications Items that will be addressed are proof testing repair and replacement of the transmitter reliability data lifetime environmental and application limits and parameter settings A1 2 Using the Transmitter for an SIS Application A1 2 1 Safety Accuracy The transmitter has a specified safety accuracy of 2 This means that the internal component failures are listed in the device failure rate if they will cause an error of 2 or greater A1 2 2 Diagnostic Response Time The transmitter will report an internal failure within 5 seconds of the fault occurrence A1 2 3 Setup During installation the transmitter must be setup with engineering units parameters This is typically done with a handheld terminal These parameters must be verified during the installation to insure that the correct parameters are in the transmitter Engineering range parameters can be verified by reading these parameters from the optional local display or by checking actual calibration of the transmitter The calibration of the transmitter must be performed after parameters are set A1 2 4 Required Parameter Settings The following parameters need to be set in order to maintain the designed safety
53. he system please be sure to follow this manual s safety instructions when handling this instrument If these instructions are not heeded the protection provided by this instrument may be impaired In this case Yokogawa cannot guarantee that the instrument can be safely operated Please pay special attention to the following points IM 01C25T03 01E 1 2 lt 1 Introduction gt a Installation This instrument may only be installed by an engineer or technician who has an expert knowledge of this device Operators are not allowed to carry out installation unless they meet this condition With high process temperatures care must be taken not to burn yourself by touching the instrument or its casing Never loosen the process connector nuts when the instrument is installed in a process This can lead to a sudden explosive release of process fluids When draining condensate from the pressure detector section take appropriate precautions to prevent the inhalation of harmful vapors and the contact of toxic process fluids with the skin or eyes When removing the instrument from a hazardous process avoid contact with the process fluid and the interior of the meter All installation shall comply with local installation requirements and the local electrical code b Wiring The instrument must be installed by an engineer or technician who has an expert knowledge of this instrument Operators are not permitted to carry
54. integrity Table A1 1 Required Parameter Settings Item Description Burnout To specify if the output should go 21 6 direction switch mA or higher or 3 6 mA or lower upon detection of an internal failure Write protection The write function should be switch disabled A1 2 5 Proof Testing The objective of proof testing is to detect failures within the transmitter that are not detected by the diagnostics of the transmitter Of main concern are undetected failures that prevent the safety instrumented function from performing its intended function See table A1 2 for proof testing method The frequency of the proof tests or the proof test interval is to be determined in the reliability calculations for the safety instrumented functions for which the transmitter is applied The actual proof tests must be performed more frequently or as frequently as specified in the calculation in order to maintain required safety integrity of the safety instrumented function The following tests need to be specifically executed when a proof test is performed The results of the proof test need to be documented and this documentation should be part of a plant safety management system Failures that are detected should be reported to Yokogawa The personnel performing the proof test of the transmitter should be trained in SIS operations including bypass procedures transmitter maintenance and company management of change proc
55. kom nemeckom a franc zskom V pr pade potreby n vodu pre Ex pr stroje vo Va om n rodnom jazyku skontaktujte pros m miestnu kancel riu firmy Yokogawa V echny u ivatelsk p ru ky pro v robky na n se vztahuje nev bu n schv len ATEX Ex jsou dostupn v angli tin n m in a francouz tin Po adujete li pokyny t kaj c se v robk s nev bu n m schv len m ve va em lok ln m jazyku kancel Yokogawa Visos gamini ATEX Ex kategorijos Eksploatavimo instrukcijos teikiami angle vokie ig ir pranc z kalbomis Nor dami gauti prietais Ex dokumentacij kitomis kalbomis susisiekite su artimiausiu bendrov s Yokogawa biuru arba atstovu Visas ATEX Ex kategorijas izstradajumu Lieto anas instrukcijas tiek piegadatas angiu vacu un fran u valodas Ja v laties sa emt Ex ieri u dokument ciju cita valod Jums ir jasazinas ar firmas Jokogava Yokogawa tuv ko ofisu vai p rst vi K ik ATEX Ex toodete kasutamisjuhendid on esitatud inglise saksa ja prantsuse keeles Ex seadmete muukeelse dokumentatsiooni saamiseks p rduge l hima lokagava Yokogawa kontori v i esindaja poole Wszystkie instrukcje obs ugi dla urz dze w wykonaniu przeciwwybuchowym Ex zgodnych z wymaganiami ATEX dost pne s w j zyku angielskim niemieckim i francuskim Je eli wymagana jest instrukcja obstugi w Pa stwa lokalnym je zyku prosimy o kontakt z najbli szym biurem Yokogawy Vsi
56. le Since the working pressure limit varies according to the Model refer to the General Specifications section in each user s manual IM 01C25T03 01E lt 5 Parameter Summary gt 4 Applicable Fe No Parameter name Item R W Content Default value model FIPJL J ADJUST Adjusting data J09 ADJ UNIT Pressure adjusting unit select W or PRES UNIT PRES UNIT olojoj J10 ADJ PRES Adjustment reference pressure R Unit specified in JO9 OjOoj o J11 PZEROADJ Automatic zero adjustment W 32000 to 32000 unit 0 00000 kPa O O O specified in JO9 J12 P SPAN ADJ Automatic span adjustment W 32000 to 32000 unit 100 000 kPa olojoj specified in JO9 J15 P ZERO DEV Manual zero adjustment W 32000 to 32000 unit 100 000 kPa ololoj specified in J09 J16 PSPAN DEV Manual span adjustment W 32000 to 32000 unit 100 000 kPa Ojo o specified in J09 J20 ADJSP Adjustment reference pressure R Unit specified in JO9 Oj c o of SP J21 SP ZERO ADJ Automatic SP zero adjustment W 32000 to 32000 unit 0 00000 MPa O k O specified in JO9 J22 SP SPAN ADJ Automatic SP span W 32000 to 32000 unit O l 0 adjustment 2 specified in JO9 J25 SP ZERO DEV Manual SP zero adjustment W 32000 to 32000 unit 0 00000 MPa O 0 specified in JO9 J26 SP SPAN DEV Manual SP span adjustment W 32000 to 32000 unit 0 00000 MPa O 0O specified in JO9 J40 OUT
57. ll also be helpful The party responsible for the cost of fixing the problem shall be determined by Yokogawa following an investigation conducted by Yokogawa The purchaser shall bear the responsibility for repair costs even during the warranty period if the malfunction is due to Improper and or inadequate maintenance by the purchaser Malfunction or damage due to a failure to handle use or store the instrument in accordance with the design specifications Use of the product in question in a location not conforming to the standards specified by Yokogawa or due to improper maintenance of the installation location Failure or damage due to modification or repair by any party except Yokogawa or an approved representative of Yokogawa Malfunction or damage from improper relocation of the product in question after delivery Reason offorce majeure such as fires earthquakes storms floods thunder lightening or other natural disasters or disturbances riots warfare or radioactive contamination IM 01C25T03 01E lt 1 Introduction gt 1 3 1 3 ATEX Documentation This section is only applicable to the countries in the European Union 0 0 0 00 All instruction manuals for ATEX Ex related products are available in English German and French Should you require Ex related instructions in your local language you are to contact your nearest Yokogawa office or representative Alle brugervejle
58. lows the direction of the 4 20 mA output to be reversed with respect to input Follow the procedure below to make this change Example Change 4 to 20 mA output to 20 to 4 mA output a2 REV OUTPUT Use the or key NORMA US to select REVERSE lt REVERSE Press the key twice to ESC enter the setting Then press the OK key F0325 ai 9 Impulse Line Connection Orientation Setup D15 H L SWAP This function reverses the impulse line orientation Follow the procedure below to make this change Example Assign the high pressure impulse line connection to the L side of the transmitter Use the or key to select REVERSE Press the key twice to ESC enter the setting Then press the OK key SET D15 H L SWAP ORMAL lt NORMAL gt lt REVERSE gt F0326 ai 10 CPU Failure Burnout Direction and Hardware Write Protect D25 BURNOUT There are two slide switches on the CPU assembly board One sets the burnout direction at CPU failure and the other sets a write protection function which disables parameter changes through the use of a handheld terminal or some other communication method CPU assembly Burnout direction switch BO H L WRE D Write protection switch Burnout direction switch BO Burnout Direction H I L H I L Switch Position E D E D Burnout Direction HIGH LOW
59. lphanumeric characters Calibration range setup gt P 3 6 Sets the calibration range for 4 to 20 mA DC Sets the following items range unit input value at 4 mA DC LRV input value at 20 mA DC URV and decimal point position Note LRV and URV can be specified with range value specifications up to 5 digits excluding any decimal point within the range of 32000 to 32000 Damping time constant setup gt P3 7 Adjusts the output response speed for 4 to 20 mA DC at amplifier Can be set from 0 50 to 100 00 s from 0 00 to 100 00 s with quick response mode on Output and integral indicator display mode setup gt gt P 3 8 Sets modes for output signal and integral indicator to Linear mode proportional to input differential pressure or to Square root mode proportional to flow Output signal low cut mode setup gt P 3 8 Integral indicator display function gt P 3 9 Used mainly to stabilize output near 0 if the output signal is square root mode Two modes are available forcing output to 096 for input below a specific value or changing to proportional output for input below a specific value Available from the following 5 types of integral indicator scale ranges and units input pressure 96 of range user set scale input static pressure 96 of static pressure range and alternating among any four of the above Configure the following when using the user set scale user set scale setting unit BT200 only
60. lt 3 Operation gt 3 6 3 2 3 Setting Parameters Set or change the parameters as necessary After completing these do not fail to use the DIAG key to confirm that GOOD is displayed for the self diagnostic result at 60 SELF CHECK 1 Tag No Setup C10 TAG NO Use the procedure below to change the Tag No Up to 16 alphanumeric characters can be entered Example Set a Tag No to FIC 1a Press the key to turn on the BT200 When power is off WELCOME BRAIN TERMINAL ID BT200 Connect the transmitter and BT200 using a communication cable and press the check connection push ENTER key key UTIL FEED PARAM et Displays the model name of EJX connected transmitter TAG NO and EE diagnostics information Press the eee OK key after confirmation OK MENU Press the F2 SET key to B SENSOR TYPE C BASIC SETUP D AUX SETI E AUX SET2 G ALARM SET HOME SET ADJ ESC MENU Select C BASIC SETUP and C BASIC SETUP press the oe key display the SET menu panel D AUX SET 1 E AUX SET 2 G ALARM SET H AUTO SET I DISP SET HOME SET ADJ ESC MENU Select C10 TAG NO and press C10 TAG NO YOKOGAWA the genrer key C20 PRES UNIT kPa C21 PRES LRV 0 00000 kPa DATA DIAG PRNT ESC SC N Set the new TAG NO FIC 1a S M E YOKOGAWA SHIFT M FOKOGAWA Ma FIKOGAWA E CODE CAPS CLR PESE SHIFT FICOGAWA NA FIC GAWA My
61. lue auto W 32000 to 32000 unit 0 00000 MPa Gd Mal sg setup specified in D30 H21 AUTO SP URV SP upper range value auto W 32000 to 32000 unit Ol jo setup 2 specified in D30 H60 SELF CHECK Self diagnostics H SeeA60 o ojoj l DISP SET Display setting 110 DISP OUT1 LCD output 1 W PRES PRES Yo ENGR PRES Yo OIOIOJ 0 PRES SP or SP 111 DISP OUT2 LCD output 2 W PRES PRES 95 ENGR O OJO O PRES SP SP Yo or 112 DISP OUT3 LCD output 3 W Seelf1 O OJO O 13 DISP OUTA LCD output 4 W Seel11 O OJO O 120 P DISP MODE display mode W LINEARor SQUARE ROOT LINEAR oo S9 121 PRES Yo RESO Yo display resolution W NORMAL or HIGH NORMAL O OJO O RESOLUTION I30 ENGR UNIT User set engineering unit W 8alphanumeric characters OjJO O O I31 EASY EU SET Engineering unit select Ww Seefe 132 ENGR EXP Exponents W x10 x100 x1000 ololojlo I33 ENGR LRV User set lower range limit W 32000 to 32000 unit 0 00 O O 0 0 specified in 130 134 ENGR URV User set upper range limit W 32000 to 32000 unit 100 00 O OIO 0 specified in 130 I35 ENGR POINT Decimal place of user set W 0to4 1 O O 0 0 140 BARINDICATR Bar indicator W OFF or ON ON ololojlo 141 POWERONINF Display when powering on W OFF or ON ON O O O l60 SELF CHECK Self diagnostics R SeeA60 o ojoj Il R W R Read only W Read amp Write 2 The default value shows MWP Maximum working pressure of the capsu
62. n the line graph to 5 SET Set 5 T11 NUM OF POINT 3 Press the key twice to enter the setting CLR ESC SET Press the r4 OK key T11 NUM OF POINT 5 FEED NO OK F0345 ai Example Set the first coordinates X1 Y1 as 12 14 in 96 SET Set 12 for X1 T22 X1 10 005 012 00 Press the key twice to enter the setting CLR ESC Press the r4 OK key SET Set 14 for Y1 T23 Y1 10 00 i man Press the ewen key twice to enter the setting CLR ESC Press the OK key 14 00 DATA DIAG PRNT ESC F0346 ai Example Set the signal characterizer ENABLE Seed Use the or key Bee to select ENABLE lt ENABLE gt Press the key twice to ESC activate the function SET T10 S C ENABLE SE Press the OK key FEED NO OK F0347 ai 18 Process Alarm G10 P AL MODE G11 P HI AL VAL G12 P LO AL VAL The function is used to display the alarm codes when the input pressure exceeds the specified value within the calibration range The same is available for the input static pressure and the capsule temperature on the pressure sensor Refer to table 4 1 Alarm Message Summary for the specific alarm code to be generated Example Set alarm mode from OFF to HI AL DETECT SINE AL MODE Use the or key Im to select Hl AL DETECT INHIBIT HI AL DETECT E gt LO AL DETECT gt Press Wel oe key twice to
63. nt temperature effect on the capillary tubes compensation gt P 3 19 User memo fields Allows user to enter up to 3 items each containing any combination of up to 16 alphanumeric gt P 3 20 characters IM 01C25T03 01E lt 3 Operation gt 3 5 3 2 2 Menu Tree HOME A DISPLAY OUTPUT PRES OUTPUT mA ENGR OUTPUT ENGR EXP SP Yo SP CAPSULE TEMP SELF CHECK SET C BASIC SETUP TAG NO PRES UNIT PRES LRV PRES URV PRES POINT AMP DAMPING OUTPUT MODE SELF CHECK ADJ J ADJUST ADJ UNIT ADJ PRES P ZERO ADJ P SPAN ADJ P ZERO DEV P SPAN DEV ADJ SP 1 SP ZERO ADJ SP SPAN ADJ SP ZERO DEV SP SPAN DEV 1 OUTPUT 4mA OUTPUT 20mA AMP TEMP ADJ WHO ADJ DATE ADJ LOC ADJ DESC EXT ZERO ADJ CLEAR ADJ SELF CHECK B SENSOR TYPE MODEL STYLE NO PRES LRL PRES URL P MIN SPAN SP LRL SP URL SP MIN SPAN SELF CHECK D AUX SET 1 LOW CUT LOW CUT MODE H L SWAP H20 UNIT SEL OUT LIMIT L OUT LIMIT H REV OUTPUT BURNOUT ERROR OUT SP UNIT SP A G SLCT ATM PRESS SP LRV SP URV SP POINT SP DAMPING SP SELECT TEMP UNIT QUICK RESP WRT PROTECT WRT ENABLE NEW PASSWORD SOFTWR SEAL SELF CHECK OUTPUT X DO TEST TEST TIME TEST KEY1 TEST KEY2 TEST KEY3 TEST KEY4 SELF CHECK E AUX SET2 E10 T ZERO CMP E11 TEMP ZERO E30 BI DIRE MODE E50 DO
64. ntact Yokogawa about the general password When the password is used the status shown in the parameter D58 SOFTWR SEAL is changed from KEEP to BREAK The status returns to KEEP by entering a newly set password at D56 WRT ENABLE IM 01C25T03 01E lt 3 Operation gt 3 1 3 12 Output Status Setup when a Hardware Error Occurs D26 ERROR OUT This parameter allows the setting of the output status when a hardware error occurs The following selections are available a BURNOUT DIR Outputs the corresponding values of 110 or 5 of output signals according to the setting by burnout direction switch BO on the CPU board b HOLD Outputs the last value held before the error occurred Note A hardware error means CAP ERR of AL 01 or AMP ERR of AL 02 which are shown in table 4 1 Alarm Message Summary Example Set the output status to HOLD when a hardware error occurs Use the or key to select HOLD Press the key twice to enter the setting Then press the OK key SET D26 ERROR OUT BURNOUT DIR lt BURNOUT DIR gt lt HOLD gt F0331 ai 13 Bi directional Flow Measurement Setup E30 BI DIRE MODE a This parameter enables selection of 50 output at an input of 0 kPa Procedure is shown in the figure below b Combining this with C40 OUTPUT MODE provides a square root output computed independently for 0 to 50 output and for 50 to 100 output LRV
65. output value and the compensating constant K C with the measured ambient temperature at the capsule module Compensated output output K x Tamb 1 Temperature Compensation Mode Setup E10 T ZERO CMP When using this function set T ZERO CMP to ON to enable or OFF to disable To set to ON follow the procedure below Example Set the temperature compensation mode to ON o CMP Use the oF key ae to select ON lt OW gt Press the enter key twice to ESC enter the setting Press the F4 OK key SET E10 T Z2ERO CMP ON FEED NO OK F0352 ai 2 Zero Shift Compensation Setup E11 TEMP ZERO Obtain the K compensating value from the equation 1 below hxB eer D osea a where B Constant value of fill fluid See Table A span URV LRV h Distance from high pressure side to low pressure side m EJX118A EJA118E Distance from high side of diaphragm seal to low side of diaphragm seal EJX438A EJA438E Distance from diaphragm seal high side to position of transmitter low side IM 01C25T03 01E lt 3 Operation gt 3 20 e EJX118A EJA118E Transmitter 5 Note When the transmitter is positioned lower than the diaphragm seal part the value of h must have a negative sign F0353 ai Example Enter K value obtained from the equation a A value having up to 3 decimal places may be specified When h 3 m Fill fluid
66. p when a hardware error occurs gt P3 13 Configured data can be protected by setting a password Sets the status of the 4 to 20 mA DC output when an abnormal status is detected with the capsule or the amplifier as the result of self diagnosis Either the last held high limit or low limit values status can be selected Bi directional flow measurement gt P 3 13 Used to measure bi directional flows Output at zero flow is 12 mA DC with output range equally divided between forward and reverse flow Can be used with square root mode Range change while applying actual inputs Range for 4 to 20 mA DC signal is set with actual input applied Sets 20 mA DC output precisely with respect to user s reference instrument output Note that the transmitter is calibrated with high gt P 3 13 accuracy before shipment so span should be set using the normal range setup Sensor trim gt P 3 14 Adjusts zero point and span of the sensor Test output fixed current output Used for loop checks setup gt P 3 17 Output can be set freely from 2 50 to 110 0096 in 0 01 steps Signal characterizer gt P 3 17 Used to compensate the output for the non linear application Process alarm gt P 3 18 Used for alarm generation on the integral indicator Status output gt P 3 18 Outputs an on off digital signal based on the settings of process alarm Capillary fill fluid density Compensates the zero shift by the ambie
67. predpisi in navodila za ATEX Ex sorodni pridelki so pri roki v angliS ini nemS ini ter franco amp ini Ee so Ex sorodna navodila potrebna v va em tukejnjem jeziku kontaktirajte vas najblisi Yokogawa office ili predstaunika Az ATEX Ex m szerek g pk nyveit angol n met s francia nyelven adjuk ki Amennyiben helyi nyelven k rik az Ex eszk z k le r sait k rj k keress k fel a legk zelebbi Yokogawa irod t vagy k pviseletet Bcnykn ynbTBaHna 3a nponykru or cepusra ATEX Ex ce npegnarat Ha aHrTM CKM HEMCKN M dpencku eawk Ako ce HyKAaeTe OT yrreTBaHus 3a nponykrM or cepnaTa Ex Ha poriuusi BU 3K ce cBepxere c Halt Onuakus onc nnn npegncraBurencrBo H pupa Yokogawa Toate manualele de instructiuni pentru produsele ATEX Ex sunt in limba engleza germana si franceza In cazul in care doriti instructiunile in limba locala trebuie sa contactati cel mai apropiat birou sau reprezentant Yokogawa ll manwali kollha ta l istruzzjonijiet g al prodotti marbuta ma ATEX Ex huma disponibbli bl Ingliz bil Germaniz u bil Franciz Jekk tkun tehtieg struzzjonijiet marbuta ma Ex fil lingwa lokali tieghek ghandek tikkuntattja lill eqreb rapprezentan jew ufficeju ta Yokogawa IM 01C25T03 01E lt 2 Connection gt 2 1 2 Connection The BRAIN communication signal is superimposed onto the 4 to 20 mA DC analog signal Since the modulated wave is a communication signal superimposing it on the normal signal will
68. psule temperature sensor Replace capsule problem 01 C EEPROM ERR Capsule EEPROM problem AL 02 02 AT SENSOR ERR Amplifier temperature sensor Replace amplifier AMP ERR problem 02 A EEPROM ERR Amplifier EEPROM problem 02 CPU BOARD ERR Amplifier problem AL 10 10 P OVER SPEC Input is outside measurement Outputs upper range Check input or PRESS range limit of capsule limit URL or lower replace capsule when range limit LRL necessary AL 11 11 SP OVER SPEC Static pressure exceeds limit Continues to operate ST PRSS and output AL 12 12 CTOVER SPEC Capsule temperature is outside Use heat insulation or CAP TMP range 50 to 130 C make lagging to keep AL 13 13 AT OVER SPEC Amplifier temperature is outside temperature within AMP TMP range 50 to 95 C range AL 30 30 P OVER RANGE Outputis outside upper or Outputs upper range Check input and range RANGE lower range limit value value URV or lower setting and change range value LRV them as needed AL 31 31 SP OVER RANGE Static pressure exceeds Continues to operate SP RNG specified range and output AL 35 35 P HIGH ALARM Input pressure exceeds Check input P HI specified threshold AL 36 36 P LOW ALARM P LO AL 37 37 SP HIGH ALARM Input static pressure exceeds SP HI specified threshold AL 38 38 SP LOW ALARM SPLO Ill AL 39 39 CT HIGH ALARM Detected temperature exceeds Check capsule TMP HI
69. re root SET Use the or key I20 P DISP MODE LINEAR to select SQUARE ROOT lt LINEAR gt lt SQUARE ROOT gt Press the key twice to ESC enter the setting Ee MODE Press the OK key SOUARE ROOT FEED NO OK F0317 ai 5 Output Signal Low Cut Mode Setup D10 LOW CUT D11 LOW CUT MODE Low cut mode can be used to stabilize the output signal near the zero point The low cut point can be set in a range from 0 to 20 the direct ratio corresponding to the output signal of 4 to 20 mA Hysteresis 10 of the cut point Either LINEAR or ZERO can be selected as the low cut mode Unless otherwise specified the cut mode is set to LINEAR at the factory Note that when the output modes of the output signal and the integral indicator are selected as SQUARE ROOT and LINEAR accordingly the low cut function is not available for the integral indicator display Example Change the low cut setting range from 10 to 20 and the low cut mode from LINEAR to ZERO in the SQUARE ROOT output mode e Low cut mode LINEAR e Low cut mode ZERO 50 50 204 LOW CUT at 20 50 90 0 9 Input EN Input SES SET Set 20 D10 LOW CUT Z900 j Press the key twice to enter the setting CLR ESC BER REOR Press the OK key iir Next the D11 LOW CUT MODE setting panel is displayed FEED NO OK SCH LOW CUT MODE Use the Ok key lt LINEAR g
70. result of current transmitter diagnostics Press the rz DIAG key in the parameter panel to go to the diagnostics panel C60 SELF CHECK An error message is displayed when an error occurs in the diagnostics panel 4 Self diagnostics gt 4 1 Example 3 Checking the history of the errors MENU Connect the BT200 to the J ADJUST K TEST transmitter and call item P L CALIBRATION M MEMO P RECORD T CHARACTERIZR HOME SET ADJ ESC PARAM P10 ERROR REC 1 ERROR P12 ERROR REC 2 ERROR P14 ERROR REC GOOD DATA DIAG PRNT ESC w F0402 ai P10 ERROR REC 1 displays the last error P12 ERROR REC 2 displays the error one time before the last error occurred P14 ERROR REC 3 displays the error two times before the last error occurred P16 ERROR REC 4 displays the error three times before the last error occurred The history of up to four errors can be stored When the 5th error has occurred it is stored in P10 The error stored in P16 will be deleted and then the error in P14 will be copied to P16 In this sequence the history of the most previously occurred error will be removed from memory GOOD will be displayed if there was no previous error SE Select P10 ERROR REC1 and pestis Press the key to payee EEG Ie gt display the error message ESC lt a SETUP PANEL For the details of the messages
71. s factory stored curve to produce a process variable output PV in engineering units dependent on the pressure input The sensor trim procedure allows you to adjust for local conditions changing how the transmitter calculates process variables There are two ways to trim the sensor a zero trim and a full sensor trim A zero trim is a one point adjustment typically used to compensate for mounting position effects or zero shifts caused by static pressure A full sensor trim is a two point process in which two accurate end point pressures are applied equal to or greater than the range values and all output is linearized between them a Zero Trim J11 P ZERO ADJ J15 P ZERO DEV J55 EXT ZERO ADJ The transmitter supports several adjustment methods Select the method best suited for the conditions of your application Adjustment Method Description Using the BT200 Set the present input to 0 Adjust for 0 output at input level of 096 Adjust output to the reference value obtained using other means If the input level cannot easily be made 0 because of tank level etc adjust output to the reference value obtained using other means such as a sight glass Using the Adjust zero point using the zero external zero adjustment screw on the transmitter adjustment This permits zero adjustment without Screw using the BT200 Accurately adjust the output current to 4 mA DC or other target output value
72. t to select ZERO lt ZERO E Press the key twice to ESC enter the setting pide new CUR MODE Press the OK key ZERO FEED NO OK PARAM D10 LOW CUT D11 LOW CUT MODE ZERO D15 H L SWAP NORMAL DATA DIAG PRNT ESC F0318 ai IM 01C25T03 01E lt 3 Operation gt 3 9 The low cut point has hysteresis so that the output around the point is behaved as below figure Example Output mode Linear Low cut mode Zero Low cut 20 0096 Output Low cut point 3 Setting range 0 to 20 Hysteresis fixed at 10 of the cut point F0319 ai 6 Integral Indicator Scale Setup The following five displays are available for integral indicators input pressure 1 of range user set scale input static pressure and of static pressure range 1 A cycle of up to four displays can be shown by assigning variables to the parameters 110 to 113 DISP OUT1 to DISP OUT4 Available displays Input pressure PRES Description and related parameters Indicates values of input pressure with the indication limits 32000 to 32000 A11 PRES 456 kPa of range PRES PL D E c 100 Re Yo Indicates input pressure in 2 5 to 110 range depending on the measuring range C21 C22 A10 0UTPUT 45 6 User set scale ENGR PRES Indicates values depending on the engineering range 133 134 with umm the unit 130 A16 ENGR OUTPUT dk 20 5 m3 min om o Al7 ENG
73. ting unit W degC degF or K degC SR eg Eege D50 QUICK RESP Quick response W OFF or ON enable 0 00 to OFF O O O O 0 50 seconds at C30 D55 WRT PROTECT Write protect indicator R NOorYES NO olojoj D56 WRT ENABLE Write protect release W 8 alphanumeric characters None olojo D57 NEW PASSWORD User set password for write W 8 alphanumeric characters None O Qu O protect D58 SOFTWR SEAL Software seal R BREAK or KEEP KEEP Olo0 D60 SELF CHECK Self diagnostics R SeeA60 O O O E AUX SET2 Auxiliary setting data 2 E10 T ZERO CMP Temperature compensation W OFForON OFF olojoj mode E11 TEMP ZERO Zero shift compensation W 99 999 to 99 999 degC 0 000 degC ololoj E30 BI DIRE MODE Bidirectional mode W OFForON OFF Olo0 E50 DO SELECT Contact output select W INHIBIT PRES SP TEMP INHIBIT ojoloj PRES SP PRES TEMP SP TEMP or PRES SP TEMP E51 DOSIG TYPE Signal type select W OFF WHEN ALARM or ON ON WHEN ojoloj WHEN ALARM ALARM E52 D OUTPUT Contact output R OFF or ON OFF O O O E60 SELF CHECK Self diagnostics R SeeA60 O O 0 Sib R W R Read only W Read 8 Write 2 The default value shows MWP Maximum working pressure of the capsule Since the working pressure limit varies according to the Model refer to the General Specifications section in each user s manual IM 01C25T03 01E lt 5 Parameter Summary gt
74. ty of any kind with regard to this manual including but not limited to implied warranty of merchantability and fitness for a particular purpose f any question arises or errors are found or if any information is missing from this manual please inform the nearest Yokogawa sales office The specifications covered by this manual are limited to those for the standard type under the specified model number break down and do not cover custom made instruments Please note that changes in the specifications construction or component parts of the instrument may not immediately be reflected in this manual at the time of change provided that postponement of revisions will not cause difficulty to the user from a functional or performance standpoint The following safety symbols are used in this manual A WARNING Indicates a potentially hazardous situation which if not avoided could result in death or serious injury A CAUTION Indicates a potentially hazardous situation which if not avoided may result in minor or moderate injury It may also be used to alert against unsafe practices YA IMPORTANT Indicates that operating the hardware or software in this manner may damage it or lead to system failure AN NOTE Draws attention to information essential for understanding the operation and features 1 4 Safe Use of This Product For the safety of the operator and to protect the instrument and t
75. uffix code 3 Ww O O 0 M53 MS CODE A Model and suffix code 4 Ww O O O M54 MS CODE 5 Model and suffix code 5 Ww O O0 0 M55 MS CODE 6 Model and suffix code 6 W Geen M60 SELF CHECK Self diagnostics R SeeA60 O 0 0 P Record History of errors P10 ERROR REC 1 Last error W SeeA60 GOOD O O 0 P12 ERROR REC 2 Second recent error W SeeA60 GOOD olojoj P14 ERROR REC 3 Third recent error W See A60 GOOD O O 0O P16 ERROR REC 4 Forth recent error W See A60 GOOD O O 0 P60 SELF CHECK Self diagnostics R SeeA60 ojoloj T CHARACTERIZR Signal characterizer setting T10 S C ENABLE Signal characterizer permission W INHIBIT or ENABLE INHIBIT Ojojo T11 NUM OF POINT Number of coordinates W 0to9 0 O 0 T20 X START FIX Start point of X R 0 0096 O Oj O T21 Y START FIX Start point of Y R 0 0096 o ojoj T22 X1 Coordinate 1 of X W 0 00 to 100 00 10 00 O O T23 YA Coordinate 1 of Y W 0 00 to 100 00 10 00 Olo0 T24 X2 Coordinate 2 of X W 0 00 to 100 0096 20 00 O O oO T29 Y2 Coordinate 2 of Y W 0 00 to 100 00 20 00 Gegen E T26 X3 Coordinate 3 of K W 0 00 to 100 0096 30 00 O O O0 T27 Y3 Coordinate 3 of Y W 0 00 to 100 00 30 00 O O O0 T28 X4 Coordinate 4 of X W 0 00 to 100 00 40 00 OO O T29 Y4 Coordinate 4 of Y W 0 00 to 100 00 40 00 O O O0 T30 X5 Coordinate 5 of X W 0 00 to 100 00 50 00 O O 0
76. ure transmitters 4 Applicable S No Parameter name Item R W Content Default value model 5 F P L 2 01 MODEL Model R EJX forEJXseie O O O EJA for EJA series 02 TAG No Tag number R As specified O O O 03 SELF CHECK Self diagnostics R GOOD O O O0 A DISPLAY Measured data display A10 OUTPUT Output in R 2 5 to 110 O O O A11 PRES Measured pressure after zero R Unit specified in C20 ololoj adjustment A15 OUTPUT mA Output current R 3 600 to 21 600 mA O O O A16 ENGR OUTPUT User scaled value R Unit specified in 130 Seefe A17 ENGR EXP Exponents R Unit specified in 132 olojoj A20 SP Static pressure in R 10to 110 O0O 0 A21 SP Static pressure after zero R Unit specified in D30 O OF adjustment A30 CAPSULE TEMP Capsule temperature R Unit specified in D40 olojoj A60 SELF CHECK Self diagnostics R Refer to Table 4 1 Alarm olojoj Message Summary B SENSOR TYPE Sensor type B10 MODEL Model and capsule type R Model and capsule type olojoj B11 STYLE NO Style number R Style number of product Ojojo B20 PRESLRL Lower range limit R Unit specified in C20 O O O B21 PRES URL Upper range limit R Unit specified in C20 OjoOojo B22 PMIN SPAN Minimum span R Unit specified in C20 Ojojo B30 SPLRL Lower range limit for static H Unit specified in D30 Oj o
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