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80                                                                fu-processx-en

www.georgin.com

Instruction manual - ProcessX

  Used for selecting output at occurrence of a fault 

in the detecting unit.

‡ %XUQRXWGLUHFWLRQLVVHOHFWDEOHXQGHUGLVSOD\

d

  

‡ )RUVHOHFWLRQRI81'(56&$/(SUHVV!
‡ )RUVHOHFWLRQRI29(56&$/(SUHVV!
‡ )RUVHOHFWLRQRI81'(5SUHVV!
 )RU1$085VSHFL¿FDWLRQWKHPHDQLQJRIHDFK

condition above is as follows. 

‡ 12786('

  Not used (Output hold)

  Saturation current = current set value
  Note) Output value just before the occurrence of 

trouble is given in the output hold mode.

‡ 29(56&$/(

 Over scale (Output 20.8 

to 21.6mA) 

  Saturation current = current set value

‡ 81'(56&$/(

 Under scale (Output 3.2 

to 3.8 mA) 

  Saturation current = 3.8, 20.8mA
 

 )RU1$085VSHFL¿FDWLRQ
 P$ !%XUQRXW81'(5”P$

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&KDQJHRIEXUQRXWFXUUHQWIRU29(56&$/(
DQG81'(56&$/(

‡ 2QGLVSOD\SUHVV&+$1*(WRVHWWKHEXUQRXW

current. 

‡ 3UHVV'(&RU,1&WRFKDQJHWKHEXUQRXWFXU

-

rent (settable in increments of 0.1 mA) on display 

i

.

‡ 3UHVV (17 WR FRQ¿UP WKH VHWWLQJ RWKHUZLVH

press "CL" to cancel the setting on display 

j

.

‡ 'LVSOD\

k

 with saturate current appears.

Note : 

6SHFL¿FDWLRQRIWKHVDWXUDWLRQFXUUHQWYDOXH8S

-

per limit and Lower limit) is changeable according 
to the Menu "J : Saturation current value"
The ower limit value ofsaturation valuer is set-

WDEOHXSWRP$DW&XVWRPVSHFL¿FDWLRQ

mA to 4.0 mA)
Display symbol of Menu 9 is : "9 : BURNOUT 

(;3DW&XVWRPVVSHFL¿FDWLRQ

0HQX%XUQRXWGLUHFWLRQ

CHNG

3

9-2: BURNOUT 

CHANGE

CHNG OK? < ENT/CL >

4

5

6

2

9:BURNOUT

NOT USED
(HOLD)

< INC > < CHANGE >

1

9-2: BURNOUT

CHANGE

Selection  of
burnout  direction

(ex)

 < ENT > < CL >

CL

CL

CL

CHNG

CHNG

ENT

INC

CL

CL

or

or

2

1

3

3

9-1: BURNOUT

< 1 > NOT USED
< 2 > OVER SCALE
< 3 > UNDER SCALE

UNDER SCALE

9-4: BURNOUT

< CHANGE > < CL >

UNDER SCALE
Y.YmA

9-5: BURNOUT

< CL >

Saturate Current
3.8-20.8mA

9-5: BURNOUT 

CHNG

< DEC > <ENT > < CL >

UNDER SCALE

UNDER SCALE (burnout current)

Y.YmA

UNDER SCALE

ENT

ENT

ENT

INC

7

8

9

10

CL

CL

9-5: BURNOUT 

CHNG

CHNG OK? < ENT/CL >

UNDER SCALE
Y.YmA

9: BURNOUT

< INC >      < CHANGE >

UNDER SCALE
Y.YmA

Upon pressing <DEC> or  <INC>
burnout current can be changed.
(See above.)

9-7: BURNOUT

< CL >

Saturate Current

3.8-20.8mA

INC

DEC

Y.YmA
3.8mA
3.7mA
3.6mA
3.5mA
3.4mA
3.3mA
3.2mA

A : CALIBRATE

A : CALIBRATE

Change of Over scale current

21.6mA
21.5mA
21.4mA
21.3mA
21.2mA
21.1mA
21.0mA
20.9mA
20.8mA

INC

DEC

Summary of Contents for ProcessX Series

Page 1: ...www georgin com INSTRUCTIONS MANUAL SERIES TRANSMITTERS ProcessX ...

Page 2: ...2 fu processx en www georgin com Instruction manual ProcessX ...

Page 3: ...n90 oriftheposition is already amended since the delivery by Georgin it s necessary to remove the electronic unit from the housing and disconnect the flatcable from the electronic measuring cell before turn the housing If necessary amend the flatcable s position connecting electronic unit and measuring cell after fit the different parts Failure to observe this may lead to the deterioration of the ...

Page 4: ...ied separately Our pressure transmitters have been designed to meet international standards and directives It is necessary to read carefully the manual before use these transmitters to familiarize yourself with the installation wiring processes wiring and all operations and maintenance The technical information is detailed in each Technical Specification for each version of the transmitters Carefu...

Page 5: ...at 10 m distance EN 55011 CISPR 11 Group 1 Class A 230 to 1000 47 dB μV m quasi peak measured at 10 m distance Immunity requirements EN 61326 1 Table 2 Phenomenon Test value Basic standard Performance criteria Electrostatic discharge ESD 4 kV Contact 8 kV Air EN 61000 4 2 IEC 61000 4 2 A Electromagnetic field 10 V m 80 MHz to 1 0 GHz 3 V m 1 4 GHz to 2 0 GHz 1 V m 1 V m 2 0 GHz to 2 7 GHz EN 61000...

Page 6: ...ter t 5IF SJTLT SFMBUFE UP B OPO SFTQFDU PG UIF JOTUSVDUJPOT BSF QSJPSJUJ FE BT GPMMPX Risk of death or sever injury if the safety instructions are not followed In case of wrong handling probable injury or physical damage can happen Important instructions to be respected General observations concerning the product product handling and cor rect use of the transmitter DANGER INDICATION ATTENTION PRE...

Page 7: ... site after the delivery please store the transmitter in a dry room at normal temperature and humidity 25 c and 60 RH Keep it on the originally packaging if possible Site at location with minimal vibration dust and corrosive gas Site at location large enough to allow maintenance and checking Mount to a pipe horizontally or vertically Do not apply a pressure outside the specified range Besides the ...

Page 8: ...35 4 2 Power voltage and load resistance 37 4 3 Grounding 37 5 START UP AND SHUTDOWN 38 5 1 Preparation for Start up 38 5 2 Operation 39 5 3 Shutdown 40 6 ADJUSTMENT 41 6 1 Adjustment procedure using the external adjusting screw 41 6 1 1 Zero adjustment by the screw 41 6 1 2 Span adjustment by the screw 42 6 2 Adjustment procedure by local configurator unit with LCD display 44 6 2 1 Menu list 45 6...

Page 9: ...d for flowrate level density measurement and other application using differential pressure measurement The transmitter utilizes a unique micromachined capacitive silicon sensor with state of the art microprocessor technology to provide exceptional performances and functionnalities The transmitter is compact and light provide high accuracy and reliability Transmitter settings such as range and damp...

Page 10: ...g screw Used for adjustment Connection unit Connects an input output line and ground wire Amplifier Unit Part name Description Analog indicator connector Used for connecting an analog indicator LCD unit connector 8VHG WR FRQQHFW WKH GLJLWDO LQGLFDWRU RU WKH ORFDO FRQ JXUDWRU XQLW ZLWK GLVSOD Indicator option 7KH DQDORJ RU GLJLWDO LQGLFDWRU RU WKH ORFDO FRQ JXUDWRU XQLW ZLWK GLVSOD FDQ be mounted Z...

Page 11: ...nal zero adjustment External zero adjustment not possible SPAN Possible external span adjustment External span adjustment not possible DISP Digital indicator display Digital indicator LIN display OUT output LIN output FIX Fixed current mode Measurement mode The transmitter is in operation blinking The transmitter is not in operation abs Absolute pressure Gauge pressure Output value Zero 2XWSXW YDO...

Page 12: ... button key switches Functions of the 3 push button key switches Name Main function Mode key Switches between the normal and setting modes Minus key Changes an item No or item name to the minus decrease direction Plus key Changes an item No or item name to the plus increase direction 5HIHU WR 6HFWLRQ GMXVWPHQW SURFHGXUH E WKH ORFDO FRQ JXUDWRU XQLW ZLWK GLVSOD IRU GHWDLOV FIX OUT DISP ZERO SPAN ab...

Page 13: ...o 80 C 100 bar 100 bar EDSF5 98 ÀXRULQDWHG RLO EDU EDU Absolute 40 to 85 C 40 to 85 C 0 16 bar abs 0 16 bar abs Pressure 1 3 bar abs 1 3 bar abs EDSF5 91 5 bar abs 5 bar abs and 30 bar abs 30 bar abs EDSF5 97 100 bar abs 100 bar abs Level and 40 to 85 C 60 mbar According PN lbs EDSF7 68 remote seal s see note 320 mbar of remote seal EDSF6 05 1300 mbar and 5000 mbar EDSF6 06 30000 mbar 100 bar 200 ...

Page 14: ... Transmitter Bracket Plain washer Spring washer Mounting bolt M8 12 Process flange Bracket Plain washer Spring washer Mounting bolt M8x12 Transmitter DQG PRGHOV DQG 0 PRGHOV Mount the bracket on the transmitter as shown below UDFNHW PRXQWLQJ The transmitter is heavy Be careful when handling it The indicated installation and the wiring conditions of the transmitter must be strictly followed A wrong...

Page 15: ...U bolt Tightening WRUTXH DSSUR LPDWHO 1P NJIP IW OE 2 Use a pipe of outside diameter ø60 3 mm ODQJH PRXQWLQJ Position the remote seal of the transmitter in front RI WKH FRXQWHU ÀDQJH L WKH WUDQVPLWWHU WR WKH ÀDQJH XVLQJ WKH DGDSWHU boltings 3URFHVV PRXQWLQJ 3 DQG PRGHOV DOO PRXQWLQJ Fasten the transmitter to the wall with M8 bolts FKP and FKH models Bracket Plain washer Spring washer Mounting bolt...

Page 16: ...UQHG Û LQ Û LQFUHPHQWV EHFDXVH LW LV FRQQHFWHG ZLWK D SLQ plug 1HYHU WXUQ WKH HOHFWURQLF KRXVLQJ RYHU WKDQ ZLWKRXW GLVFRQQHFW WKH ÀDW FDEOH SRVVLELOLW WR EUHDN WKH ÀDW FDEOH IURP WKH HOHFWURQLF PHDVXULQJ cell If the transmission unit has been turned excessively without removing the elec WURQLFV XQLW VWUDLJKWHQ WKH ÀDW FDEOH which connects the electronics unit in the transmission unit and the detec...

Page 17: ...ver in order to facilitate he maintenance Unscrew slowly grasp the hexagon part of vent drain plug with an allen key Put a new seal tape 4 to 8 rounds and mount the vent drain plugs in the position you want applying the tightening torque 7LJKWHQLQJ WRUTXH 1P NJI P IW OE 500 500 500 KHFN VSDFH KDQJH RI YHQW GUDLQ SOXJ SRVLWLRQ ...

Page 18: ...6 20UNF mounting bolt should be 30 to 40 Nm 3 to 4 kgf m 2 If a manifold is not used the impulse pipes can directly be screwed into the transmitter I WKUHDG VL H GRHV QRW PDWFK EHWZHHQ WKH WUDQVPLWWHU DQG LPSXOVH SLSHV DQ RYDO ÀDQJH VKRXOG EH XVHG 7LJKWHQLQJ WRUTXH RI 81 PRXQWLQJ EROW LQ DQ RYDO ÀDQJH VKRXOG be 30 to 40 Nm 3 to 4 kgf m The piping connection must respect some rules to have an accur...

Page 19: ...ransmitter and the primary element Fill the pipe between the condensers and transmitter with water Installation of a drain is necessary LTXLG ÀRZ PHDVXUHPHQW LQ FDVH RI OLTXLG Place the transmitter below the process pipe Make piping so that gas in the impulse pipe is not delivered to the transmitter and incorporate gas res ervoirs as required 3RVLWLRQ RI SURFHVV FRQQHFWLRQ The position of the proc...

Page 20: ...DFFRPPRGDWLQJ WKH WUDQVPLWWHU DQG DWPR spheric air inlet in a box 3UHVVXUH PHDVXUHPHQW IRU JDV Place the transmitter above the process pipes to pre venting condensation in the impulse pipe and in the measuring HYHO PHDVXUHPHQW 5HIHUHQFH FROXPQ OOHG For measurement connect the highest liquid level of tank with the low pressure side of transmitter and the lowest liquid level of tank with the high pr...

Page 21: ...pipe R QRW DSSO DQ H FHVVLYH IRUFH WR LPSXOVH SLSH GXULQJ WKH FRQQHFWLRQ QVWDOO FRQGHQVDWH FKDPEHUV RU YHQW GUDLQ ZKHQ LPSXOVH SLSHV FDQ QRW EH LQFOLQHG 7KH LPSXOVH SLSHV XVHG VKRXOG EH VXLWDEOH IRU WKH ZRUNLQJ WHPSHUDWXUH SUHVVXUH VWDQGDUGV XULQJ LQVWDOODWLRQ DYRLG PHFKDQLFDO FRQVWUDLQV RI WKH WUDQVPLWWHU FRQQHFWLRQV Q FDVH RI H WHUQDO GHJUDGDWLRQ FRUURVLRQ RYHUÀRZ VKRFN HWF RU LQ FDVH RI UH WKH ...

Page 22: ...GRHV QRW PDWFK EHWZHHQ WKH WUDQVPLWWHU DQG LPSXOVH SLSHV DQ RYDO ÀDQJH VKRXOG EH XVHG 7LJKWHQLQJ WRUTXH RI 81 PRXQWLQJ EROW LQ DQ RYDO ÀDQJH VKRXOG EH WR 1P 3 to 4 kgf m RU DQ DEVROXWH SUHVVXUH PHDVXUHPHQW PDNH VXUH WKDW LVRODWLQJ YDOYHV RU PDQLIROG FDQ EH designed for vacuum service 3RVLWLRQ RI SURFHVV FRQQHFWLRQ The position of the process connection is determined by the relationship between con...

Page 23: ...LTXLG WR DFFXPXODWH LQ WKH impulse pipe R QRW DSSO DQ H FHVVLYH IRUFH WR LPSXOVH SLSH GXULQJ WKH FRQQHFWLRQ QVWDOO FRQGHQVDWH FKDPEHUV RU YHQW GUDLQ ZKHQ LPSXOVH SLSHV FDQ QRW EH LQFOLQHG 7KH LPSXOVH SLSHV XVHG VKRXOG EH VXLWDEOH IRU WKH ZRUNLQJ WHPSHUDWXUH SUHVVXUH VWDQGDUGV XULQJ LQVWDOODWLRQ DYRLG PHFKDQLFDO FRQVWUDLQV RI WKH WUDQVPLWWHU FRQQHFWLRQV Q FDVH RI H WHUQDO GHJUDGDWLRQ FRUURVLRQ RYHU...

Page 24: ...LJKWHQLQJ IRXU RYDO ÀDQJH VHW EROWV 81 DQG WKHQ WKH LPSXOVH SLSH VKRXOG EH FRQQHFWHG WR WKH PDQLIROG valve Tightening torque of 7 16 20UNF mounting bolt should be 30 to 40 Nm 3 to 4 kgf m I PDQLIROG LV QRW XVHG WKH LPSXOVH SLSHV FDQ GLUHFWO VFUHZHG LQWR WKH WUDQVPLWWHU I WKUHDG VL H GRHV QRW PDWFK EHWZHHQ WKH WUDQVPLWWHU DQG LPSXOVH SLSHV DQ RYDO ÀDQJH VKRXOG EH XVHG 7LJKWHQLQJ WRUTXH RI 81 PRXQWL...

Page 25: ... impulse pipe R QRW DSSO DQ H FHVVLYH IRUFH WR LPSXOVH SLSH GXULQJ WKH FRQQHFWLRQ QVWDOO FRQGHQVDWH FKDPEHUV RU YHQW GUDLQ ZKHQ LPSXOVH SLSHV FDQ QRW EH LQFOLQHG 7KH LPSXOVH SLSHV XVHG VKRXOG EH VXLWDEOH IRU WKH ZRUNLQJ WHPSHUDWXUH SUHVVXUH VWDQGDUGV XULQJ LQVWDOODWLRQ DYRLG PHFKDQLFDO FRQVWUDLQV RI WKH WUDQVPLWWHU FRQQHFWLRQV Q FDVH RI H WHUQDO GHJUDGDWLRQ FRUURVLRQ RYHUÀRZ VKRFN HWF RU LQ FDVH R...

Page 26: ...O RQ PRXQWLQJ ÀDQJH IDFH KHQ PRXQWLQJ WKH ÀDQJH RQ WKH KLJK SUHVVXUH VLGH D JDVNHW VKRXOG EH LQVHUWHG EHWZHHQ WKH ÀDQJH RI WKH WUDQVPLWWHU DQG WKH ÀDQJH RI WKH WDQN L H Gasket Transmitter flange Process side flange Standard dimension of the diaphragme seal are Flange size Ø diaphragm seal mm DN80 3 Stainless steel 73 special material 89 DN100 3 Stainless steel 96 special material 89 RU RWKHUV ÀDQJ...

Page 27: ...XU RYDO ÀDQJH VHW EROWV 81 DQG WKHQ WKH LPSXOVH SLSH VKRXOG EH FRQQHFWHG WR WKH manifold valve Tightening torque of 7 16 20UNF mounting bolt should be 30 to 40 Nm 3 to 4 kgf m 2 If a manifold is not used the impulse pipes can directly be screwed into the transmitter I WKUHDG VL H GRHV QRW PDWFK EHWZHHQ WKH WUDQVPLWWHU DQG LPSXOVH SLSHV DQ RYDO ÀDQJH VKRXOG EH XVHG 7LJKWHQLQJ WRUTXH RI 81 PRXQWLQJ ...

Page 28: ...id level change H1 h H2 R0 Drain port Stop valve Max liquid level Min liquid level R DXWLRQV RQ LQVWDOODWLRQ PXVW EH PRUH WKDQ KDOI RI WKH UHPRWH VHDO GLDSKUDJP GLDPHWHU 2WKHUZLVH WKH PHD sure wil not be linear to the level as far as the diaphragm is not totally submerged Q RUGHU WR SUHYHQW YLEUDWLRQ RI WKH WUDQVPLWWHU ERG DQG FDSLOODU IURP LQWHUIHULQJ ZLWK output the transmitter body should be in...

Page 29: ...H RI WKH WUDQVPLWWHU DQG WKH ÀDQJH RI WKH tank Be careful to a potential leak who can effect the measure Flange size Ø diaphragm seal mm DN80 3 SS 73 Special material 89 DN100 4 SS 96 Special material 89 RU RWKHUV ÀDQJHV FRQVXOW HRUJLQ OHFWULF UDQFH 0HWKRG IRU VFUHZLQJ WKH PRXQWLQJ ÀDQJH 7LJKWHQ EROWV RI PRXQWLQJ ÀDQJH DQG SURFHVV ÀDQJH LQ D GLDJRQDO RUGHU DQG DERXW WKUHH cycles using the tighteni...

Page 30: ...of tank to the low pressure side of transmitter and the low liquid level connection of tank to the high pressure side of transmitter Level calculation formula HUR K ȡ ȡ 6SDQ K ȡ ȡ K LRV Low limit of measurement 0 859 LJK OLPLW RI PHDVXUHPHQW ȡ 0HDVXULQJ OLTXLG GHQVLW ȡ 6HDO GLDSKUDJP OLTXLG GHQVLW The transmitter body should be installed below the remote seal unit This is mandatory where process p...

Page 31: ...put the transmitter body should be installed at a vibration free place and the capillary VKRXOG EH HG WR D VWDEOH VXSSRUW DYRLG WR ORFDWH FDSLOODULHV KLJK DQG ORZ SUHVVXUH LQ D SODFH ZKHUH DPELHQW WHPSHUDWXUH DQG VXQOLJKW DUH YHU GLIIHUHQW W FDQ EH LQÀXHQFH WKH PHDVXUHPHQW I LW LV QRW SRVVLEOH please put a warm up system to maintain a constant temperature R QRW VFUDWFK RU VKRFN WKH VHDO GLDSKUDJP ...

Page 32: ...mm DN80 3 SS 73 Special material 89 DN100 4 ISS 96 Special material 89 RU RWKHUV ÀDQJHV FRQVXOW HRUJLQ UDQFH 0HWKRG IRU VFUHZLQJ WKH PRXQWLQJ ÀDQJH 7LJKWHQ EROWV RI PRXQWLQJ ÀDQJH DQG SURFHVV ÀDQJH LQ D GLDJRQDO RUGHU DQG DERXW WKUHH cycles using the tightening torque corresponding to the screw used and according to the ÀDQJH VWDQGDUG 7KH VHDO PXVW EH FKRVHQ DFFRUGLQJ W SH ÀDQJH PRXQWHG RQ WKH WUD...

Page 33: ...erged Isolatingvalve Remote seal Atmospheric air leak valve Process connection Pressure tap Transmitter H 1 h D ρ ρ Max liquid level Min liquid level Isolating valve Remote seal Transmitter Pressure tap Isolating valve Transmitter Process connection Atmospheric air leak valve remote seal It is recommanded to install the transmitter below the remote seal s it becomes necessary if process pressure i...

Page 34: ...ase of explosion proof wiring shall be made in accordance with the UHOHYDQW UHJXODWLRQV WR HQVXUH WKH H SORVLRQ SURR QJ PSURSHU ZLULQJ FDQ FDXVH D ULVN RI H SORVLRQ UH DQG RWKHU VHULRXV DF cidents DXWLRQV RQ ZLULQJ DANGER HIRUH PDNLQJ ZLULQJ ZRUN EH VXUH WR WXUQ 2 WKH PDLQ SRZHU WR SUHYHQW electrical shocks 8VH ZLULQJ PDWHULDOV RI FRUUHFW UDWLQJ WR SUHYHQW DFFLGHQWV 8VH FRUUHFW SRZHU VRXUFH WKDW P...

Page 35: ... nect the and VLGHV RI WKH HOG LQGLFDWRU WR DQG CK of the transmitter as shown below 8VH DQ H WHUQDO HOG LQGLFDWRU ZLWK LQWHUQDO UHVLVWDQFH RI RU OHVV 4 1 Wiring procedure 6HDOLQJ RI FRQGXLW FRQQHFWLRQ To insure air tightness of the connection box use sealing tape with metal pipe screw coupling or rubber gasket fastening gland 1 If the conduit connection is located on the top side of the transmitt...

Page 36: ...l connection and connect it 7KH XQXVHG WHUPLQDO FRQQHFWLRQ LV RI JUHDW LPSRUWDQFH WR ÀDPHSURRI DQG water prevention KHQ SHUIRUPLQJ DQ LQVXODWLRQ FKHFN DIWHU ZLULQJ XVH D PHJRKPPHWHU of 250 V DC or less and avoid applying a high voltage If an arrester is equipped avoid the insulation resistance test and the dielectric strength measurement DANGER 3RZHU YROWDJH DQG ORDG UHVLVWDQFH Make sure the load ...

Page 37: ...box and on the side of conduit connection By any of the methods given below ground the transmitter in compliance with the relevant stipulation in the standard on explosion proof installation for example grounding resist DQFH ȍ RU OHVV E RQH RI WKH PHWKRGV JLYHQ EHORZ Grounding of transmitter casing Grounding from ground terminal D DUGRXV ORFDWLRQ XVH Q FDVH RI LQWULQVLFDOO VDIH DQG ÀDPH SURRI LQVW...

Page 38: ... according to the Terminal block connection diagram shown in 4 1 3 Vent the process covers of the transmitter The compatibility of process with the transmitter has to be checked and ensured by skilled people from customer side 4 Perform zero point adjustment HUR SRLQW FKHFN HUR DGMXVWPHQW The zero adjustment can be done 1 with the external screw Refer to chap 6 1 Adjustment procedure using an exte...

Page 39: ...erating status LIIHUHQWLDO SUHVVXUH WUDQVPLWWHU Set the operating status by manipulating the isolating valve Open Open Close the isolating valve the LP side close isolating valve on the 3 VLGH Equalizing valve Close Make sure the equalizing valve is open and make the zero adjustement 0 2SHQ WKH LVRODWLQJ YDOYH RQ WKH 3 VLGH VORZO Close the equalizing valve Open Open the isolating valve on the LP s...

Page 40: ...asurement stop status EVROXWH DQG JDXJH SUHVVXUH WUDQVPLWWHUV 3 RU KHFN RI RSHUDWLQJ VWDWXV ORZ DQG GLIIHUHQWLDO SUHVVXUH WUDQVPLWWHU Close the stop valve on the high pressure VLGH 3 VLGH VORZO Open the equalizing valve Close the stop valve on the low pressure side LP side slowly Close Open Close HIRUH D ORQJ VKXWGRZQ GLVFKDUJH WKH SURFHVV ÀXLG DQG GUDLQ FRPSOHWHO IURP the transmitter This is to p...

Page 41: ...tch 1 Select ZERO position 2 Apply standard input pressure corresponding to Lower Range Value LRV 3 Adjust zero point 4 mA by turning the external screw ADJUSTMENT AND SETTING 6 Q WKH FDVH RI D ÀDPHSURRI WUDQVPLWWHU GR QRW RSHQ WKH FRYHU IURP DPSOL HU case to make following adjustments with active DC power supply DANGER For zero suppression or elevation ranges DSSO WKH VSHFL HG SUHVVXUH EHIRUH DGM...

Page 42: ...nated according to its type Span is changed by the outside screw with the mode setting VZLWFK LQ WKH KRXVLQJ VHW DW VSDQ SRVLWLRQ 7KH JXUH VKRZQ below is an example of Mode setting switch is attached Note If the transmitter has an indicator remove it to access the setting switch 1 Set the mode setting switch to span position 2 Apply standard input pressure corresponding to Upper Range Value URV 3 ...

Page 43: ...automati cally switched back to the normal mode DXWLRQV IRU VHWWLQJ For a transmitter with a LCD display and if the range is changed please change the range of the LCD too 6HWWLQJ HUURU If a setting error occurs an error display shown on the lower right ap pears in the display Press the key to return to the item name selection screen in the setting mode GMXVWLQJ VFUHZ Do not adjust the transmitter...

Page 44: ...cdUnit LcdUnit LCD Unit Code setting 1 64 G 5 LcdoOpt LcdOpt LCD Option setting 1 64 I Input output range ad justment I 1 LRVAdj Zero adjustment by range LRV change 6 2 65 I 2 URVAdj Span adjustment by range URV change 6 2 66 J Value and specification of saturation current J 1 SAT LO Change of saturation current value lower limit 7 1 67 6 7 Change of saturation current value upper limit 7 1 67 J 3...

Page 45: ...int 7 Change of damping time constant 8 1 Change of output mode 8 2 Setting of low flow rate cut point 8 3 Setting of low flow rate cut mode 9 1 Change of burnout direction 9 2 Chang of output value when burnout direction OVERSCALE 9 3 Chang of output value when burnout direction UNDERSCALE A 1 Zero calibration A 2 Span calibration B 1 4 mA calibration B 2 20 mA calibration B 3 Constant current ou...

Page 46: ...e and are dis played as Initial six characters are displayed The cursor position is displayed by a vertical bar To display the seventh and following characters scroll the characters to the left The cursor posi tion far right is displayed as a number The cursor position is 1 in the example N Num EHU LV LQSXW DV WKH UVW FKDUDFWHU The cursor position is 8 in the example O Num ber 8 is input as the ei...

Page 47: ... numerical characters capital letters of the alphabet space and are displayed as Initial six characters are displayed The cursor posi tion is displayed by a vertical bar To display the seventh and following characters scroll the characters to the left The cursor position far right is displayed as a number The cursor position is 2 in the example N K is in put as the second character The cursor posi...

Page 48: ... Note Characters other than numerical characters capi tal letters of the alphabet space and are dis played as Initial six characters are displayed The cursor position is displayed by a vertical bar To display the seventh and following characters scroll the characters to the left by pressing key The cursor position far right is displayed as a number 9 5 LVSOD RI WUDQVPLWWHU VRIWZDUH YHUVLRQ 7R GLVS...

Page 49: ... on the screen d Available units for ProcessX V5 mmH O 2 cmH O 2 mH O 2 g cm2 Pa inH O 2 psi ftH O 2 Torr kg cm2 atm hPa kPa MPa mbar bar mmAq mmHg cmAq mAq mmWC cmWC mWC inHg cmHg mHg 1RWH 7KH PDUN LV VHWWDEOH IRU DEVROXWH SUHVVXUH WUDQVPLWWHU only 0HQX 5DQJH OLPLW Indicates the maximum measuring range of this trans mitter 7R GLVSOD WKH UDQJH OLPLW YDOXH d press the key on the screen c Note If se...

Page 50: ... 59 lower limit of the measuring range 4 mA 0 point 3UHVV WKH key on the screen c to display the screen for setting the zero point range 0 point d QSXW WKH QXPHULFDO YDOXHV ZLWK WKH and keys on the screen d Functions of the keys key To decrease the value key To increase the value 5DQJH 59 Note If SETTING ERR is displayed as a LRV value the range value is not supported 7R VHW WKH GHFLPDO SRLQW SRVL...

Page 51: ...RLQW SRVLWLRQ SUHVV WKH key on the screen e P is displayed at the left of the unit name f and you can set the decimal point position with the and keys key To move the decimal point position to left key To move the decimal point position to right 6HOHFW ZKHWKHU WKH 859 VHWWLQJ LV VDYHG RQ WKH screen g Press the key to save the 100 point setting Press the or key to cancel the setting The setting ran...

Page 52: ...YLEUDWLRQ I WKH WUDQVPLWWHU LV PRXQWHG WR D SODFH VXEMHFW WR VHYHUH YLEUDWLRQ RXWSXW ÀXFWXDWLRQ RVFLOODWLRQ PD LQ crease Since the transmitter uses oil as internal pressure transmitting medium if acceleration is caused by vibration internal pressure is generated in accordance with the acceleration value thus resulting in the output ÀXFWXDWLRQ 7KH PDJQLWXGH RI RXWSXW RVFLOODWLRQ PD EHFRPH WKH YDOXH...

Page 53: ... PRGH VHWWLQJ LV VDYHG RQ the screen e Press the key to save the output mode setting Press the or key to cancel the setting 87 3W RZ FXW SRLQW VHWWLQJ If you select the square root mode you can set the low cut point Cut point is adjustable within the range of 0 00 to 20 00 Note that if the cut point is set to a small value around 0 even a minute differential pressure FKDQJH FDXVHV D VXGGHQ RXWSXW ...

Page 54: ...ED IN LOW CUT MODE IG 7ITH LINEAR OUTPUT SELECTED IN LOW CUT MODE UTPUT OW CUT POINT IFFERENTIAL INPUT IFFERENTIAL INPUT UTPUT OW CUT POINT 3UHVV WKH key on the screen j to display the screen for changing the outputs below the cut point k 6HOHFW 1 OLQHDU RU 52 RQ WKH VFUHHQ k with the or key and press the key 6HOHFW ZKHWKHU WKH ORZ FXW SRLQW VHWWLQJ LV VDYHG RQ the screen l Press the key to save t...

Page 55: ...H EXUQRXW VHWWLQJ LV VDYHG RQ WKH screen e Press the key to save the burnout setting Press the or key to cancel the setting 29 5 KDQJH RI EXUQRXW FXUUHQW ZKHQ 29 5 29 56 This display appears if you select OVER for the burnout 3UHVV WKH key on the screen f to display the screen for changing the burnout current for OVER SCALE g RX FDQ FKDQJH WKH EXUQRXW FXUUHQW ZLWK WKH and keys on the screen g Sett...

Page 56: ...creen for changing the burnout current for UN DERSCALE k RX FDQ FKDQJH WKH EXUQRXW FXUUHQW ZLWK WKH and keys on the screen k Settable range RU 1 085 VSHFL FDWLRQ P XUQRXW 81 DER 3 6 mA 6HOHFW ZKHWKHU WKH EXUQRXW FXUUHQW VHWWLQJ LV VDYHG on the screen Press the key to save the burnout current setting for UNDERSCALE Press the or key to cancel the setting Note You can change the saturation current va...

Page 57: ... the max span Span calibration within 20 of the set span HUR 59 FDOLEUDWLRQ 3UHVV WKH key on the screen c to select the zero calibration mode The measured value and unit on the screen d are WKH VDPH DV WKRVH LQ WKH QRUPDO PRGH DQG ĸ DQG ZERO light up SSO WKH DFWXDO LQSXW SUHVVXUH RQ WKH VFUHHQ d Af ter checking the measured value press the key 52 EOLQNV RQ WKH VFUHHQ e Press the key on the screen ...

Page 58: ... the key 63 1 EOLQNV RQ WKH VFUHHQ j Press the key on the screen j to perform a span calibration at the in put pressure at the time To perform a span calibration at a point other than 100 input an appropriate set value k with the and keys and press the key 6HOHFW ZKHWKHU WKH VSDQ FDOLEUDWLRQ YDOXH VHWWLQJ LV saved on the screen l Press the key to save the span calibration value setting and return ...

Page 59: ...VV WKH key on the screen e to display the screen for calibrating current mode 20 mA f 3HUIRUP D FDOLEUDWLRQ RI P RQ WKH VFUHHQ f with the and keys IWHU WKH FDOLEUDWLRQ SUHVV WKH key to move to the constant current output screen E FXU RQVWDQW FXUUHQW RXWSXW 3UHVV WKH key on the screen g to display the screen for performing a constant current output h QSXW D FXUUHQW WR EH RXWSXW RQ WKH VFUHHQ h with...

Page 60: ...Lm Cell temperature error OVER Input pressure J 2 saturation cur UHQW L RU KLJKHU Correction of input pressure UNDER Input pressure J 1 saturation cur rent Lo or lower Correction of input pressure 0HQX 6HOI GLDJQRVLV Self diagnosis display shows the internal temperature of the transmitter and the failure description G 03703 QWHUQDO WHPSHUDWXUH RI WKH WUDQVPLW WHU 3UHVV WKH key on the screen c to d...

Page 61: ...ons on the screen d with the and keys Select the locking to lock the adjustment functions of WKH ORFDO FRQ JXUDWRU XQLW ZLWK GLVSOD Select the UnLock to cancel the lock of the adjust PHQW IXQFWLRQV RI WKH ORFDO FRQ JUDWRU XQLW ZLWK display 6HOHFW ZKHWKHU WKH ORFNLQJ XQORFNLQJ RI WKH DGMXVW ment functions are saved on the screen e After selecting the locking unlocking press the key to save the sett...

Page 62: ...orresponding to 0 d QSXW WKH LQGLFDWHG YDOXH FRUUHVSRQGLQJ WR RI WKH actual scale on the screen d with the and keys Functions of the keys key To decrease the value key To increase the value 7R VHW WKH GHFLPDO SRLQW SRVLWLRQ SUHVV WKH key on the screen d P is displayed at the right of the unit name e and you can set the decimal point position with the and keys key To move the decimal point position...

Page 63: ...key To move the decimal point position to left key To move the decimal point position to right 6HOHFW ZKHWKHU WKH LQGLFDWHG YDOXH VHWWLQJ RI LV saved on the screen j Press the key to save the indicated value setting Press the or key to cancel the setting Note The following scale can be set 99999 LDV without decimal point 99999 and 20000 UDV LDV 2000 3 HFLPDO SRLQW VHWWLQJ Set the number of digits ...

Page 64: ...kg min kg h kg d t s t min t h t d The units in parentheses are displayed only when the absolute pressure transmitter is used The flow units in the column c can be set only for the group of differential pressure transmitters FG237 XQLW VHWWLQJ 3UHVV WKH key on the screen to display the screen for setting the LCD option QSXW WKH RSWLRQ 1R RQ WKH VFUHHQ to set the LCD option with the and keys Settin...

Page 65: ...The measured value and unit on the screen d are WKH VDPH DV WKRVH LQ WKH QRUPDO PRGH DQG ĸ DQG ZERO light up SSO WKH UHIHUHQFH SUHVVXUH IRU 59 P RQ WKH screen d After checking the measured value corre sponding to 4 mA press the key 52 EOLQNV RQ WKH VFUHHQ e Press the key on the screen e to perform a zero adjustment at the in put pressure Settable range 59 1RWH 6HOHFW ZKHWKHU WKH 59 DGMXVWPHQW YDOX...

Page 66: ... cancel the setting and return to the screen i KHFN WKDW WKH VSDQ DGMXVWPHQW 859 ZDV SHU formed as intended on the screen i Press the key to perform a span adjustment again 3UHVV WKH or key to move to the next screen for item name selection PRECAUTION If the input output is adjusted the measurement range is changed as shown automatically in the fol lowing page LRV adjustment Ö The measurement rang...

Page 67: ...keys Setting range P XUQRXW FXUUHQW 81 5 P EXW above the saturation current value lower limit 6HOHFW ZKHWKHU WKH ORZHU OLPLW VHWWLQJ RI WKH VDWXUD tion current is saved on the screen f Press the key to save the lower limit setting Press the or key to cancel the setting 6 7 KDQJH RI WKH VDWXUDWLRQ FXUUHQW YDOXH XSSHU OLPLW available only when the expanded VSHFL FDWLRQ LV VHOHFWHG 3UHVV WKH key on t...

Page 68: ... WKH H SDQGHG VSHFL FDWLRQ Normal VSHFL FDWLRQ SDQGHG VSHFL FDWLRQ Saturation current value lower limit 3 8 mA HG 3 2 mA to 4 0 mA Settable in increments of 0 1 mA Saturation current value upper limit 20 8 mA HG 20 0 mA to 21 6 mA Settable in increments of 0 1 mA The table below lists the output current value for burnout OVER UNDER 1RUPDO VSHFL cation SDQGHG VSHFL FDWLRQ B u r n o u t UNDER 3 2 to...

Page 69: ...he screen c to display the screen for setting canceling write protect d 6HOHFW R1 VHWWLQJ R FDQFHOLQJ RQ WKH VFUHHQ d with the and keys To enable write protect select ON To disable write protect select OFF 6HOHFW ZKHWKHU WKH VHOHFWLRQ RI R1 VHWWLQJ R canceling is saved on the screen e After selecting oN oFF press the key to save the setting Press the or key to cancel the setting and return to the ...

Page 70: ...Q YDOXH DW WKH WLPH LV GLVSOD HG 3UHVV WKH key on the screen e to display the span calibration value f 3UHVV WKH key on the screen f to move to Clearing of zero span calibration data LV 5 OHDULQJ RI HUR VSDQ FDOLEUDWLRQ GDWD 7KH HUR VSDQ FDOLEUDWLRQ YDOXH DW WKH WLPH LV FOHDUHG 3UHVV WKH key on the screen g to display the screen IRU FRQ UPLQJ WKH HUR VSDQ FDOLEUDWLRQ YDOXH h 3UHVV WKH key on the s...

Page 71: ... Amax to display the max value of the ampli HU WHPSHUDWXUH KLVWRU 3UHVV WKH key on the screen d to move to Display of min max of cell temperature history information LV LVSOD RI PLQ PD RI FHOO WHPSHUD WXUH KLVWRU LQIRUPDWLRQ 7KH PLQ PD YDOXHV RI WKH FHOO WHPSHUDWXUH KLVWRU are displayed 3UHVV WKH key on the screen e to display the min max values f 6HOHFW DQG GLVSOD WKH PLQ PD YDOXHV RQ WKH GLVSOD ...

Page 72: ...H LQVWUXFWLRQV RI Remarks 7KH PXVW EH RQ 2 SRVLWLRQ GXULQJ WKH FRQQHFWLRQ W FDQ W EH FRQQHFWHG WR WKH MXQFWLRQ WHUPLQDO and of the transmitter 7KH KDV QR SRODULW W LV SRVVLEOH WR FRQQHFW HLWKHU WKH UHG RU EODFN HOHFWULFDO ZLUH WR WKH terminals or of the transmitter or on the wires of the loop RQQHFWLRQ RI 7KH FDQ EH FRQQHFWHG LQ DQ SRLQW RI WKH ORRS 7R FRPPXQLFDWH ZLWK WKH D ORDG UHVLVWRU RI ȍ PLQ...

Page 73: ... you push the clear NH The reasons of a communication problem can be The 4 20 mA output is not powered The 4 20 mA is disconnected 7KH FRQQHFWLRQ EHWZHHQ WKH DPSOL HU XQLW DQG WKH PHDVXULQJ FHOO LV ZURQJ 7KH ORRS UHVLVWDQFH YDOXH GRHVQW FRUUHVSRQG WR WKH UHTXLUHG RQH GHSHQGLQJ RQ WKH SRZHU supply 7KH LV QRW FRQQHFWHG WR WKH FRUUHFW WHUPLQDOV RQ JXUDWLRQ PHQXV RI 7KH FRQ JXUDWLRQ LV EDVHG RQ GLIIHU...

Page 74: ...t functions Indication of digital indicator Programmable linearization function Rerange Set LRV URV calibration INC INC INC INC INC INC INC INC INC INC INC INC INC INC INC INC INC INC 1 TAG No 2 TYPE 3 SERIAL No 4 UNIT 5 RANGE LIMIT 6 RANGE 7 DAMPING 8 OUTPUT MODE 9 BURNOUT A CALIBRATE B OUTPUT ADJ C DATA D SELF CHECK E PRINT F XMTR EXT SW G XMTR DISPLAY H LINEARIZE I RERANGE 75 75 76 76 77 77 78 ...

Page 75: ...odes IWHU 386 0 18 LV GLVSOD HG SUHVV WKH 0 18 NH WR GLVSOD 7 1 7R PDNH FKDQJHV SUHVV WKH 1 NH DQG WKH cursor will be displayed under display c 6HW WKH DOSKDQXPHULF NH V DV QHFHVVDU XQGHU display d 7R VHW WKH DOSKDEHW SUHVV WKH 1 NH UVW Using Y Z NH V FXUVRU SRVLWLRQ FDQ EH moved W WKH FRPSOHWLRQ RI VHWWLQJ SUHVV WKH 17 NH I WKH HQWU LV FRUUHFW SUHVV WKH 17 NH WR LQSXW LW WR WKH HOG GHYLFH XQGHU G...

Page 76: ...ed for con UPLQJ RXU FKDQJH LVSOD f is for registering the engineering unit UNIT CHANG 4 1 UNIT CHANGE kPa INC ENT CL 4 1 UNIT CHANGE CHNG OK ENT CL 4 1 UNIT WRITE INC 4 UNIT To menu 5 RANGE LIMIT kPa CHNG NEXT MPa NEXT MPa kPa kPa 4 1 UNIT WRITE UNIT CL NOT SUITABLE Not suitable unit display Pa Menu 3 SERIAL N CL CL CL INC INC CHNG ENT ENT 1 2 3 4 INC DEC INC mmH O 2 cmH O 2 mH O 2 g cm2 Pa inH O...

Page 77: ... is 99999 The URV may exceed the upper limit depending on the change of the UNIT I WKDW KDSSHQV FKDQJH WKH 859 UVW 0HQX 5DQJH LPLW Indicates the maximum measuring range of this transmitter IWHU VHWWLQJ HQJLQHHULQJ XQLW SUHVV 1 NH to display RANGE LIMIT SUHVVLQJ WKH 1 NH 5 1 VHWWLQJ LPDJH is displayed INC INC INC CL CHNG LRV CL URV CL ENT CL ENT 6 3 RANGE WRITE 6 1 RANGE CHANGE LRV XXX X kPa LRV UR...

Page 78: ... to WKH PRGL FDWLRQ GLVSOD d Selectable time constant value WR VHF WZR VLJQL FDQW JXUH Note 1 In the case of ProcessX series transmit ters with safety function when there are no damping then 0 12 sec is appeared RQ Note 2 The above damping constants are used onlyfortheelectronicsunit Thedetecting unit has its own constants independent of the electronics unit for details refer to the data sheet CHN...

Page 79: ...MTR DP OUT LIN INC CHANGE 8 1 MODE CHANGE XMTR DP OUT LIN INC ENT CL 8 1 MODE CHANGE XMTR GP OUT LIN ENT CL 8 1 MODE CHANGE XMTR DP OUT SQR CHNG OK ENT CL 8 OUTPUT MODE XMTR GP OUT LIN INC CHANGE 8 2 MODE WRITE XMTR DP OUT SQR 8 3 LOW CUT POINT XX XX FLOW MODE CHANGE CL ENT CL 8 5 POINT WRITE XX XX FLOW 8 7 LOW CUT MODE 1 LINEAR 2 ZERO 1 2 CL 8 7 MODE CHANGE LINEAR CHNG OK ENT CL 8 8 MODE WRITE LI...

Page 80: ...ith saturate current appears Note 6SHFL FDWLRQ RI WKH VDWXUDWLRQ FXUUHQW YDOXH 8S perlimitandLowerlimit ischangeableaccording to the Menu J Saturation current value The ower limit value ofsaturation valuer is set WDEOH XS WR P DW XVWRP VSHFL FDWLRQ mA to 4 0 mA Display symbol of Menu 9 is 9 BURNOUT 3 DW XVWRPV VSHFL FDWLRQ 0HQX XUQRXW GLUHFWLRQ CHNG 3 9 2 BURNOUT CHANGE CHNG OK ENT CL 4 5 6 2 9 BU...

Page 81: ...LQ WKH GLVSOD d or g 3UHVV 17 WR PDNH WKH FDOLEUDWLRQ ZKLOH DSSO LQJ D corresponding pressure to the transmitter INC A CALIBRATE INC LRV 1 CL ENT 2 A 1 CALIBRATE LRV XXX XX CHNG OK ENT CL 3 A 2 CALIBRATING LRV XXX XX 4 A 1 CALIBRATE LRV XXX XX ENT CL ENT XXX X kPa XXX X kPa XXX X kPa 5 A 3 CALIBRATE URV XXX XX CHNG OK ENT CL 6 A 4 CALIBRATING URV XXX XX 7 A 3 CALIBRATE URV XXX XX ENT CL XXX X kPa ...

Page 82: ...enerate a constant current 3UHVV 1 RU WR FDQFHO Under display f input digital values measured by digital voltmeter Under display f the output circuit is calibrated ZKHQ SUHVVLQJ 17 The transmitter will calculate automatically the gap between the theoretical and the measured values It will rectify in the D A converter B OUTPUT ADJ C DATA INC CHANGE B 1 OUTPUT SET 0mA LRV URV ENT CL B 2 OUTPUT MODE ...

Page 83: ...ALARM Temperature is displayed in C and F alternately at each press of the INC key 1 CL 1 2 2 CL CL 3 4 5 6 B DATA C 1 DATA XXX XX FLOW XXXXX kPa CHANGE CL CL FLOW is displayed when output mode is square root extraction mode flicker is displayed when the communica tion between transmitter and HHC is normal HHC is not used for 10 minutes CHNG INC CHNG ENT INC ENT Temperature alarm is displayed INC ...

Page 84: ...ME CL E 3 PRINT OUT PRINT OUT END INC PAPER FEED CL CL INC INC CL ENT INC ENT Indicated when the printer unit is active YY MM DD HH MM Paper Feed Printer Without Printer Unit E PRINT INC NO CONNECTION With Printer Unit ENT ENT Time Hour Minute Set Year Month Date F XMTR EXT SW This menu alloys to lock and unlock the adjust PHQW IXQFWLRQ E ORFDO FRQ JXUDWRU XQLW ZLWK and by external screw KHQ SUHVV...

Page 85: ...ISP CHANGE X XX XXX XX FLOW CHNG OK ENT CL 4 ENT 1 2 3 CL G 3 DISP CHANGE Can t proceed XMTR doesn t support CL 4 CL CL G 4 DISP WRITE X XX XXX XX FLOW 0 00 100 00 or 0 0 100 0 or 0 100 H LINEARISE 0HQX 6HWWLQJ RI GLVSOD The LCD display is independant of the trans mitter setting So the LDC display must be set For digital indicator either display or actual scale display is selectable In display on ...

Page 86: ...ady set value of transmitter PRESS LEVEL FLOW 16 11 19 CL ENT CHNG G 3 DISP CHANGE DispUNIT UUUUUUU CHNG ENT CL 18 17 CL ENT INC G 5 DISP CHANGE DispUNIT UUUUUUU NEXT XXXXXXX INC ENT CL 17 16 CL G 4 DISP CHANGE 1 PRESS 3 FLOW 2 LEVEL 1 2 3 CL 14 G 2 DISP CHANGE LRV 4mA YYYYYY URV 20mA ZZZZZZ SET OK ENT CL 11 CL 15 G 2 DISP CHANGE LRV 4mA YYYYYY URV 20mA ZZZZZZ SETTING ERR CL 13 11 12 CL URV ENT G ...

Page 87: ...Z PHDVXUHPHQW IWHU FKRRVLQJ RQ GLVSOD c actual display LI WKH ÀRZ PRGH LV DOUHDG DFWLYLDWHG RU LQ display f Flow mode choosen 3UHVV 1 WR VHW WKH ORZ FXW SRLQW Cut point is adjustable within the range of 0 00 to 20 00 Note If the cut point is set to small value around 0 even a minute differential pressur change causes D VXGGHQ RXWSX ÀXFWXDWLRQ The cut point is used for improving the measure PHQW LQ...

Page 88: ...ding to 15 line segments X1 Y1 X2 Y2 X14 Y14 Each compensation value between Xn Yn and Xn 1 Q LV FRQQHFWHG E UVW RUGHU DSSUR LPDWH IRUPXOD Functions for LINEARIZE are available for FXW Ver sion 6 0 and upward SUHVVLQJ 1 DW GLVSOD RI d the display is shifted to the setting of LINEARIZE POINT e 3UHVV 1 DW GLVSOD RI e and input POINT WR EH FRPSHQVDWHG 7KHQ SUHVV 17 DQG WKH display will be shifted to ...

Page 89: ...3 CV14 INC DEC Change of compensated point for CV When ENT is pressed at display of 0 the following is displayed Requirement of setting 1 LP LP2 LP3 LP8 LP9 LP13 LP14 In the case that LP1 LP14 All Zero it is inhibited to be set enable I 9D 9E WKHQ LW PXVW EH 3D 3E 1RWH 3 If LPa LPb then it must be CVa CVb Note1 Note1 a b show next numeral such as a 1 b 2 or a 2 b 3 or a 13 b 14 or the following is...

Page 90: ...100 01 6 77 1 55 Important 0HQX GMXVWPHQW E 59 859UDQJH The Rerange functionality can be used when zero ad justment suppression or elevation is necessary for example Level measurement Functions of RERANGE can be made with FXW Ver sion 6 0 or upward When the lower range value LRV and upper range value URV need to be adjusted again during mea surement of tank level the measurement levels can be chan...

Page 91: ...NT CL 0HQX 6DWXUDWLRQ FXUUHQW YDOXH DQG VSHFL FDWLRQ Saturation current value Lower limit value SAT LO 8SSHU OLPLW YDOXH 6 72 DQG VSHFL FDWLRQ 63 1250 LVWLQJ VSHFL FDWLRQ 63 3 WHQGHG VSHFL FDWLRQ DUH VHWWDEOH KDQJH RI VDWXUDWLRQ FXUUHQW YDOXH RZHU OLPLW KDQJHDEOH RQO RQ 63 3 3UHVV IRU VHWWLQJ WKH FXUUHQW YDOXH IRU ORZHU OLPLW 3UHVV 1 RU WR FKDQJH WKH FXUUHQW YDOXH 3UHVV 17 WR FRQ UP RWKHUZLVH SUHV...

Page 92: ...ssword then press 17 QVHUW WKH QHZ SDVVZRUG RQ GLVSOD j then press 17 The password can be set for numbers letters 8 characters maxi CL K 1 WRITE PROTCT 1 WRITE PR CHNG 2 PASSWORD SET 1 2 CL 3 ENT 2 K 2 WRITE PROTCT WRITE PROTECT XXX K 3 WRITE PROTCT PASSWORD _ 4 K 3 WRITE PROTCT PASSWORD XXXXXXXX CHNG OK ENT CL 5 K 4 WRITE WRITE PASSWORD XXXXXXXX WRITE ERROR CL 6 1 INC K WRITE PROTCT WRITE PROTECT...

Page 93: ...VHUV W LV FOHDUHG E VHOHFWLQJ RQ WKH GLVSOD d LVSOD RI DPSOL HU DQG FHOO WHPSHUDWXUH 3UHVV RQ GLVSOD f IRU 0 1 0 DPSOL HU temperature 3UHVV RQ GLVSOD f for MIN MAX cell tempera ture CL L HISTORY 1 CALIBRATION 2 TEMPERATURE INC 1 2 2 ENT 1 L 1 HISTORY ZERO XXX XX URL SPAN XXX XX CS L 2 HISTORY ZERO XXX XX URL SPAN XXX XX CS RSET OK ENT CL 3 L 2 HISTORY CL L 1 HISTORY 1 AMP TEMP 2 CELL TEMP 1 2 CL 5...

Page 94: ...ake sure the chemical UHVLVWDQFH RI WKH ZHWWHG SDUWV Q FDVH RI FRUURVLRQ QG RXW WKH UHDVRQV DQG UHSODFH RU adapt the concerned parts Please follow the replacement procedure of the measuring cell described later Visual inspection of the transmitter for damage corrosion etc Protect or replace the transmitter if necessary RYHUV DQG WHUPLDO 2 ULQJ FCX transmitters are designed to be water and dust pro...

Page 95: ...nate the cause of clogging Make arrangement to obtain proper values Check for faulty cable insulation etc and repair as needed Readjust according to chapter 6 5HSODFH WKH DPSOL HU XQLW DFFRUGLQJ WR FKDSWHU No output current The value is less than the lower limit of the saturation current 1 Same as 1 to 4 above 2 Power supply polarity is wrong 3 Power supply voltage is improper 4 Voltage between th...

Page 96: ...crew the electronics housing cover on the transmitter KHQ LQVWDOOLQJ WKH HOHFWURQLFV XQLW PDNH VXUH WKDW WKH HUR DGMXVW VFUHZ HQG LV LQ IURQW RI WKH JURRYH LQ WKH DPSOL HU XQLW 7KH PDLQ SDUWV RI WKH WUDQVPLWWHU DUH WKH DPSOL HU XQLW DQG WKH PHDVXULQJ FHOO 5HSODFH UVW WKH DPSOL HU XQLW WR QG RXW LI WKH IDLOXUH UHDVRQ FRPHV IURP WKH DPSOL HU XQLW RU WKH PHDVXULQJ FHOO 5XQ WKH IXQFWLRQ 6HOI KHFN ZLWK...

Page 97: ...k if the O ring of the cell neck and all the surfaces in contact between the electronics housing and the cell neck not damaged Assemble measuring cell and electronics housing Tighten the 2 screws RQQHFW HDFK FRQQHFWRU RI WKH HOHFWURQLFV XQLW DQG DWWDFK LW WR WKH DPSOL HU XQLW IWHU FRQQHFWLQJ DOO WKH FRQQHFWRUV DVVHPEOH WKH DPSOL HU XQLW LQ WKH HOHFWURQLFV KRXVLQJ 7 After assembly perform zero and ...

Page 98: ...of the concerned transmitter 1 Remove the 4 hexagon socket head bolts 2 The process covers the O ring and the bolts and nuts can now be removed 3 After disassembly replace the faulty part with a new ones 4 Before reassembling clean carefully the O ring groove of the process cover with a soft cloth immersed with water alcohol Freon TF or similar 5 Reassemble the detecting unit by reversing the disa...

Page 99: ...d the test pressure of the different cells please refer to the technical datasheets of the concerned transmitter 1 Remove the 4 hexagon sockets head bolts 2 The process covers the O ring and the bolts and nuts can now be removed 3 After disassembly replace the faulty part with a new one 4 Before reassembly clean carefully the O ring face of casing cover with the soft cloth im mersed in water alcoh...

Page 100: ...taneously during 15 minutes and make sure there is no leakage 1 Remove four hexagon socket head bolts with a torque wrench etc 2 The process covers the O ring and the bolts and nuts can now be removed 3 After disassembly replace the faulty part with a new one 4 Before reassembly clean carefully the O ring face of casing cover with the soft cloth im mersed in water alcohol Freon TF or similar 5 Rea...

Page 101: ...screw the electronics housing cover on indicator side 2 Remove the analog indicator 3 Pull out the connector extending from the analog indicator 4 Connect the connector of a new analog indicator to the electronics section 6HH WKH JXUH EHORZ 5 Mount the analog indicator by reversing the dissembling procedure 6 Assemble the electronics housing cover ...

Page 102: ... not remove the connector pin 4 Connect a new digital indicator following the reverse order of disassembly procedure DVWHQ WKH GLJLWDO LQGLFDWRU WR WKH HOHFWURQLFV VHFWLRQ E WLJKWHQLQJ LQJ VFUHZV Before tightening make sure a small recess on the surface is positioned at the top as shown below 6 Assemble the electronics housing cover Digital indicator Amplifer Transmitter cover 5HSODFHPHQW RI WKH G...

Page 103: ...cement of amp unit 10 Zero span calibration A 1 ZERO A 2 SPAN P58 A CALIBRATE P81 Implement span calibration after zero calibra tion 11 Calibration output circuit b 1 4 mAAdj b 2 20 mAAdj b 3 FIXcur P60 B OUTPUT ADJ P82 Loop check calibrate fixed output current 4mA 20mA 12 M e a s u r e m e n t data Normal mode P61 C DATA P83 Check the measurement data 13 Self diagnosis d1 AMPTMP G 0 P62 6 P83 Che...

Page 104: ...tning rod In case of a transmitter with arrester maximum power supply is 32 V DC 8 SERIES TRANSMITTER ROUNDING TERMINAL XTERNAL GROUNDING TERMINAL INDICATION An arrester is used to protect a transmitter or receiver from an abnormal voltage such as light ning surges induced into signal lines A built in type arrester is mounted in the terminal unit A nameplate marked ZLWK DUUHVWHU is attached to the...

Page 105: ... the arrester is not functioning In the above case the arrester unit terminal unit should be replaced with a new one LPLWDWLRQ RI LQVXODWLRQ UHVLVWDQFH DQG GLHOHFWULF VWUHQJWK WHVW An insulation resistance and dielectric strength test should be avoided as a rule since it may damage the arrester Output measurement at check terminals CK and CK Output measurement on the current loop 4 20 mA Disconnec...

Page 106: ...V KLJK DQ DFFXUDF DV SRVVLEOH PLQL Measurable ranges are listed in the table below 3RZHU VXSSO SRZHU VXSSO 9 RU HRUJLQ VHULHV SRZHU VXSSO XQLW RDG UHVLVWRU 6WDQGDUG UHVLVWRU ZLWKLQ ȍ 0HDVXULQJ GHYLFH LJLWDO YROWPHWHU FDSDEOH RI PHDVXULQJ WUDQVPLWWHU RXWSXW ZLWK DQ DFFX racy better than 0 1 Use meter having a 5 digit display DQG HOG RPPXQLFDWRU W SH LIIHUHQWLDO SUHVVXUH UDQJH FKC 5 model kPa mbar 0...

Page 107: ...UFXLW HUR VSDQ DGMXVWPHQW RFDO FRQ JXUDWRU ZLWK GLVSOD DOLEUDWH ZLWK UHIHUHQFH WR HUR VSDQ FDOLEUDWLRQ LQ GMXVWPHQW LQ KDSWHU DQG DOLEUDWH ZLWK UHIHUHQFH WR HUR VSDQ DGMXVWPHQW FFXUDF WHVW Apply input pressures in the order of 0 25 50 75 100 75 50 25 and 0 and read output at each input pressure Make sure the difference between each output value and input pressure is within the accuracy rating list...

Page 108: ...te 2 Digital indicator scale 9th digit of code symbol Could be set in factory when ordering 4 Cut point square root extraction mode setting 7 07 5 Mode below cut point square root setting Linear 6 Burnout Hold note 3 7 Polygonal line correction Not corrected INVALID 8 Saturation current Normal specification NORMAL 9 Protective function of set value write protect Cancelled OFF Note 1 Use the HHC or...

Page 109: ...Q ZLWK YDULRXV W SH RI 57 HOG GHYLFHV XVHU LQ SRVVHVVLRQ RI 57 master device is ready for communication with the ProcessX 9 WUDQVPLWWHUV RU GHWDLOV UHIHU WR WKH LQVWUXFWLRQ PDQXDO IRU 57 communicator HYLFH HVFULSWLRQ HYLFH HVFULSWLRQ LV D SURJUDP WR SLFN XS IHDWXUHV RI D HOG GHYLFH KDYLQJ 57 FRPPXQLFDWLRQ IXQFWLRQV VDYLQJ LQ WKH PHPRU RI 57 communicator the func WLRQV RI HDFK HOG GHYLFH FDQ EH XVH...

Page 110: ...specification RDG UHVLVWRU ї RU PRUH 2 Connection RQQHFWLRQ RI 57 FRPPXQDFDWRU Q WKH FDVH RI D ÀDPHSURRI WUDQVPLWWHU WKH FDQ RQO EH FRQQHFWHG YLD the junction box located outside the hazardous area KHQ XVLQJ HRUJLQ DQG 57 FRPPXQLFDWRU DOWHUQDWHO WXQ 2 WKH power for the communicator after changing from one to another then restart the communication At this time old data may be left in the communicat...

Page 111: ...06 SENSOR S N INAL SSEMBLY UMBER 2 6 3 5 23 3 3 23 3 4 0ROCESS 6ARIABLE 5NIT 3 3 2 2 4 06 AMP 06 5PPER 2ANGE 6ALUE 06 OWER 2ANGE 6ALUE 4RANSFER UNCTION 06 0ERCENT 2ANGE 54054 24 54054 NALOG UTPUT LARM 4YPE OOP 4EST IGITAL TO NALOG 4RIM 3CALED 4RIM 0OLL DDRESS UMBER OF 2EQUEST 0REAMBLES URST ODE URST PTION 06 OWER 3ENSOR IMIT 06 5PPER 3ENSOR IMIT 06 INIMUM 3PAN 5NIVERSAL 2EVISION IELD EVICE 2EVISIO...

Page 112: ...im 2 Lower sensor trim 3 Upper sensor trim 4 SENSOR TRIM POINTS Online Menu 3 BASIC SETUP 4 DETAILED SETUP 5 REVIEW 1 Upper Disp Value 2 Lower Disp Value 3 Digit DP 4 LCD Unit 5 LCD Opt 1 Amp temp 2 Amp temp unit 1 Pres 2 PV 3 Amp temp 1 Zero trim 2 Lower sensor trim 3 Upper sensor trim 4 SENSOR TRIM POINTS 1 AO ALARM TYPE 2 Overscale Current 3 Underscale Current 1 Pres 2 PV 3 Amp temp 3 OUTPUT CO...

Page 113: ...rocessx en 113 www georgin com Instruction manual ProcessX A5 SPARE PARTS For more details about these parts please contact Georgin France 2 PSOL HU DVVHPEO 1 3 5 5 6 4 5 10 39 40 28 12 4 12A 12 15 4 31A 2 ...

Page 114: ...114 fu processx en www georgin com Instruction manual ProcessX 2 LIIHUHQWLDO SUHVVXUH ÀRZ WUDQVPLWWHU GHWHFWRU DVV 15 9 8 1ࠤ7 8 16 9 13A 14 13A 13 12 12 13 14 9 12A 12A 17 19 18 41 39 37 35 33 31 ...

Page 115: ...fu processx en 115 www georgin com Instruction manual ProcessX 2 3UHVVXUH DQG DXJH WUDQVPLWWHU GHWHFWRU DVV 15 10 1 5 6 16 14 7 13A 13 12 13A 12 13 12A 7 14 12A 17 19 18 41 39 37 35 33 31 ...

Page 116: ...116 fu processx en www georgin com Instruction manual ProcessX 2 3 3 DXJH DQG EVROXWH SUHVVXUH WUDQVPLWWHU GHWHFWRU DVV direct mount type 2 1 5 6 4 3 9 10 8 7 12 11 ...

Page 117: ... due to technical advances www georgin com Régulateurs GEORGIN France 14 16 rue Pierre Sémard BP 107 92323 CHATILLON Cedex France Tel 33 0 1 46 12 60 00 Fax 33 0 1 47 35 93 98 Email regulateurs georgin com Designed developed and manufactured in France ...

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