Differential Pressure (flow) Transmitter - PPT

DIFFERENTIAL PRESSURE (FLOW) DATA TRANSMITTER SHEET

FKC...5

The FCX-AII GiIIHUHQWiDO SUHVVXUH (flRZ) WUDQVPiWWHU DFFXrately measures differential pressure, liquid level, gauge SUHVVXUH RU flRZ UDWH DQG WUDQVPiWV D SURSRUWiRQDO 4 WR 20 mA signal. The transmitter utilizes a unique micro machined capacitance silicon sensor with state-of-the-art microprocessor technology to provide exceptional performance and functionality.

FEATURES 1. High accuracy up to ±0.04% 0.065% DFFXUDF\ DV VWDQGDUG. )Xji¶V PiFUR-FDSDFiWDQFH ViOiFRQ VHQVRU DVVXUHV WKiV DFFXUDF\ IRU DOO HOHYDWHG RU VXSSUHVVHG FDOiEUDWiRQ UDQJHV ZiWKRXW DGGiWiRQDO DGjXVWPHQW. 0.04% DFFXUDF\ DV RSWiRQ. 2. Minimum inventory and design (OHFWURQiFV XQiW, ORFDO iQGiFDWRUV DQG HOHFWURQiFV KRXViQJ DUH iQWHUFKDJHDEOH DPRQJ DOO ) & ; - $ l l WUDQVPiWWHUV. 3. 0iQiPXP HQYiURQPHQWDO iQflXHQFH 7KH ³$GYDQFHG )ORDWiQJ &HOO´ GHViJQ ZKiFK SURWHFWV WKH SUHV- VXUH VHQVRU DJDiQVW FKDQJHV iQ WHPSHUDWXUH, VWDWF i SUHVVXUH, DQG RYHUSUHVVXUH VXEVWDQWiDOO\ UHGXFHV WRWDO PHDVXUHPHQW

SPECIFICATIONS Functional specifications Type : FKC : 6PDUW, 4 WR 20 P $ D& + )Xji / +DUW® GiJiWDO ViJQDO Service : /iTXiG, JDV, RU YDSRXU Static pressure, span, and range limit : 6SDQ OiPiW N3D 7\SH

HUURU iQ DFWXDO fHOG

DSSOiFDWiRQV. 4. Fuji/HART® bilingual communications protocol )&;±$ll VHUiHV WUDQVPiWWHU RIIHUV EiOiQJXDO FRPPXQiFDWiRQV WR VSHDN ERWK )Xji SURSUiHWDU\ SURWRFRO DQG + $ 5 7 ®. $Q\ + $ 5 7 ® FRPSDWiEOH GHYiFHV FDQ FRPPXQiFDWH ZiWK ) &;-$ll 5. $ SSOiFDWiRQ flH[iEiOiW\ 9DUiRXV RSWiRQV WKDW UHQGHU WKH ) & ; - $ l l VXiWDEOH IRU DOPRVW DQ\ SURFHVV DSSOiFDWiRQV iQFOXGH. – $QDORJ iQGiFDWRU DW HiWKHU WKH HOHFWURQiFV ViGH RU WHUPiQDO ViGH – )XOO UDQJH RI KD]DUGRXV DUHD DSSURYDOV – %XiOW-iQ 5 ) l f OWHU DQG OiJKWQiQJ DUUHVWHU – 5 GiJiW / & D PHWHU ZiWK HQJiQHHUiQJ XQiW – 6WDiQOHVV VWHHO HOHFWURQiFV KRXViQJ – :iGH VHOHFWiRQ RI PDWHUiDOV 6. Programmable output Linearization Function 2 XWSXW ViJQDO FDQ EH IUHHO\ SURJUDPPDEOH. (8S WR 14 FRPSHQVDWHG SRiQWV DW DSSUR[iPDWiRQ). 7. %XUQRXW FXUUHQW flH[iEiOiW\ (8QGHU 6FDOH: 3.2 WR 4.0 P$, Over Scale: 20.0 to 22.5 mA) %XUQRXW ViJQDO OHYHO iV DGjXVWDEOH XViQJ 0RGHO ) ; : RU +DQG +HOG &RPPXQiFDWRU (++&) WR FRPSO\ ZiWK 1 $ 0 8 5 1(43.

6WDWiF SUHVVXUH 03D ^EDU`

RI PH-

FKDQiFDO

SDUWV

(6HQVRU

XQiW)

DQG

KiJK

0D[.

-0.1 WR +3.2 0.1 ±1 1 ^-1 WR ^1 ^10 ^ 10` ` +32` ` 6 ±6 ) K & 22 -0.1 WR +10 0.1 ^-1 WR ^1 ^60 ^ 60` +100` ` ` ) K & 33 -0.1 WR +16 0.32 32 ±32 ^-1 WR ^3.2 ^320 ^ 320` +160` ` ` 130 ±130 ) K & 35 -0.1 WR +16 1.3 ^-1 WR ^13 ^1300 ^ 1300` +160` ` ` ) K & 36 -0.1 WR + 16 5 500 ±500 ^-1 WR ^50 ^5000 ^ 5000` +160` ` ` ) K & 38 -0.1 WR +16 30 3000 ±3000 ^-1 WR ^300 ^30000 ^ 30000 +160` ` ` ` 32 ±32 ) K & 43 -0.1 WR +42 0.32 ^-1 WR ^3.2 ^ 320` ^320 +420` ` ` 5HPDUN : 7R PiQiPi]H H Q Y i U R Q P H Q W D O iQflXHQFH, VSDQ V K R X O G EH J U HDWHU ) K & 45 -0.1 WR +42 1.3 130 ±130 WKDQ ^-1 WR ^13 ^ 1300` ^1300 1/40 RI WKH PD[. VSDQ `iQ PRVW DSSOi +420` ` FDWiRQV. *)lPKSR UWD QW :-0.1 )RU WR )K&#49, YHUORDG SUH±500 VVXUH RQ / 3 ViGH +42 PD[ 5 SRVViEOH R 500 & 46 PXVW EHWR 100 EDU. 7KH^50 DFFXUDF\^5000 iV QRW JXDUDQWHHG ZKHQ ^-1 ^ 5000` XVHG DW QHJDWiYH D3 ` +420` ` ) K & 11

Lower ofWR static (YDFXXP ); 3000 OiPiW±3000 -0.1 +30pressure 30 ) K & 48limit ^-1 WR ^300 ^ 30000 6iOiFRQH fOO VHQVRU: 6HH ^30000 )iJ. 1 ` ` )OXRUiQDWHG +300` fOO VHQVRU: ` 20000 +20000,-10000 ) K & 49* -0.1 WR +30 500 66 N3D DEV ^-1 (500 P P + J DEV) DW W HPSHUDWXUH ^+200000,WR ^500 ^20000 EHORZ 60 & +300` 0` 0` 100000`

Fuji Electric France S.A.S. 8. Dry calibration without reference pressure 7KDQNV WR WKH EHVW FRPEiQDWiRQ RI XQiTXH FRQVWUXFWiRQ

5DQJH OiPiW N3D ^P EDU`

^P EDU`

0iQ.

EDSF6-134l Date

October, 2015

FKC...5 Over range limit : 7R PD[iPXP VWDWF i SUHVVXUHOiPiW Output signal : 4 WR 20 P $ D& (OiQHDU RU VTXDUH URRW) ZiWK GiJiWDO ViJQDO VXSHUiPSRVHG RQ WKH DQDORJiF ViJQDO Power supply : 7UDQVPiWWHU RSHUDWHV RQ 10.5 9 WR 45 9 D& DW WUDQVPW i WHU WHUPiQDOV. 10.5 9 WR 32 9 D& IRU WKH XQiWV ZiWK RSWiRQDO DUUHVWHU. Load limitations VHH EHORZ Wh: en thefJXUH upper limit of the saturation

Load resistance

R [] 2000

current (Imax) is 21.6 m A

1533 1500 1000 600

Operating area

Communication range with H H C

$XWKRUiW\ 7\SH Q (DiJiW 10 = 1RQiQFHQGiYH ) ATEX Ex II 3 G ( [ Q$ ll 75 (-40 & 7D +70 &) l366/67 (OHFWUiFDO UDWiQJV (P) 0RGHO :iWKRXW DUUHVWHU: 8i 45 9GF, 4-20 P $ ORRS SRZHUHG, 3i 1.0125 : 0RGHO :iWK DUUHVWHU: 8i 32 9GF, 4-20 P $ ORRS SRZHUHG, 3i 1.0125 : ) & DiR VV lOll$QDORJ lll 2SOW QD iQGiFDWRU iV DFWRU DiY.2 $, %, &,"Q" QRW DYD*URXSV iODEOH IRU W\SH \ D, ) , * 0XWXD 74 (QWModel iW\ 7\SH 4 ; O 9WK 13WK GiJiW codeGiJiW (H $,%,&,D,J <,*,1 ) /,3,0,1,2,3 <,*,1 4,6,1,4,5,6 CSA

250 0 10.6

16.1 2 4

45

Note) The load resistance varies with the upper limit E [V] of the saturation current [I max] Power voltage E [V] -10.5 R [Ω] = (I max [mA]+0.9)x10-3

(J)

1RWH : )RU FRPPXQiFDWiRQ ZiWK ++& ( 1 ) (0RGHO: ) ; : ) , PiQ. RI 250  UHTXiUHG.

Hazardous locations :

IECEx

$XWKRUiW\ lQWUiQViF (DiJiW 10 = VDIHW\ ) ATEX Ex II 1 G ( [ iD ll& 75 (-40 & 7D +50 &) ( [ iD ll& 74 (-40 & 7D (K) +70 &) l366/67 Entity Parameters: 8i 28 9GF, li 94.3 P$ , 3i 0.66 : &i = 36 Q)/26 Q) IRU PRGHOV ZiWK/ZiWKRXW $UUHVWHU ) l llP+/0.6 lll /&iOD =VV 0.7 P + IRU PRGHOV DFWRU\ DiY.1 $, %, lQ &, Zi WK/ZiW*URXSV KRXW $QDORJ GiFD, DWRU (, ), * 0XWXDO 74 (QW iW\ 7\SH 4; 0RGHO FRGH (+ 9WK GiJiW 13WK GiJiW ) $,%,&,D,J < ,*,1 /,3,0,1,2,3

CSA (J)

IECEx (T)

< ,*,1

(Q)

$XWKRUiW\ ATEX (X) 7DPE -40 & WR +85 & -20 & WR +80 & -20 & WR +60 & -40 & WR +60 & -10 & WR +60°C

4,6,1,4,5,6 < ,*,1 Entity Parameters: ( ,) ,* , + ,KlPD[=113P$, < ,*,1 9PD[=42.49, 3 i = 1 : , &i=35.98Q), :,$,D /i=0.694P+ ( [ iD &ODVV l, *URXSV $, %, & DQG D; &ODVV ll, *URXSV ( , ) DQG * ; &ODVV lll 3HU GUDZiQJ 7& 522873 7HPS. FRGH 75 IRU 7DPE PD[ = +50 & 7HPS. FRGH 74 IRU 7DPE PD[ = +70 & Entity Parameters: 9PD[ = 28 9GF, lPD[ = 94.3 P$, 3PD[ = 36 Q)/25 IRU PRGHOV (0.66 [ iD: ll& &i 75=(-40 & 7DQ) +50 WK/Zi HVW(-40 HU & 7D Zi&) (W [ KRXW iD ll&$UU 74 / i = 0.7 P+/0.6 P + IRU PRGHOV ZiWK/ZiWKRXW +70 &) l366/67 $QDORJ Parameters: lQGiFDWRU Entity 8i 28 9GF, li 94.3 P$ , 3i 0.66 : &i = 36 Q)/26 Q) IRU PRGHOV ZiWK/ZiWKRXW $UUHVWHU / i = 0.7 P+/0.6 P + IRU PRGHOV ZiWK/ZiWKRXW $QDORJ lQGiFDWRU

)DFWRU\ 0XWX DO

(D) CSA (E)

IECEx

(R)

2

<,*,1

7DPE -40 & WR +85 & -20 & WR +80 & -20 & WR +60 & -40 & WR +60 & -10 & WR

&ODVV(,l ),* ,+ ,K <,*,1 DiY.2 *URXSV $, %, &, D &ODVV ll:,$,D DiY.2 *URXSV ( , ) , * +60°C &ODVV lll DiY.2 7HPS &RGH 75 7DPE PD[ = +50 & ( [ Q$&RGH ll 7574 (-40 &7DPE 7D PD[ +70= 7HPS l366/67 &) & (QWiW\ 3DUDPHWHUV: +70 (OHFWUiF= DO28 9GF, lPD[ = 94.3 P$, 3PD[ = 9PD[ UDWiQJV 0RGHO UUHV WHU: Q) IRU PRGHOV 0.66 : :iWKRXW &i =D36 Q)/25 8iW K/Zi 45 9GF, 4-20 PH$ Zi WKR XW $ UUHVW U ORRS SRZHUHG, 3i 1.0125 / i = 0 .:7 P+/0.6 P + IRUPRGHOV 0RGHO UHVWHU:lQGiFDWRU ZiWK/ZiW:iWK KRXWDU $QDORJ 8i 32 9GF, 4-20 P $ ORRS SRZHUHG, 3i 1.0125 : 2SWiRQDO $QDORJ iQGiFDWRU iV QRW DYDiODEOH IRU W\SH "Q" )ODPHSURRI Ex II 2 GD ([ G ll& 76 (-40 & 7D +65 &) ([ G ll& 75 (-40 & 7D +85 &) ([ WD $21 l366/67 7 85 & Ex tD A21 IP66/67 T 100°C (OHFWUiFDO UDWiQJV 0RGHO :iWKRXW DUUHVWHU: 8i 45 9GF, 4-20 P $ ORRS SRZHUHG, 3i 1.0125 : 0RGHO :iWK DUUHVWHU: 8i 32 9GF, 4-20 P $ ORRS SRZHUHG, 3i 1.0125 : &ODVV l DiY.1 *URXSV %, &, D 76 7\SH 4 ; &ODVV ll lll DiY.1 *URXSV (, ), * 76 7\SH 4 ; 7DPE PD[ = +60°C &ODVV l, *URXSV & DQG D; &ODVV ll, *URXSV (,) DQG * ; &ODVV lll 0D[iPXP DPEiHQW WHPSHUDWXUH 85 & 0D[iPXP ZRUNiQJ SUHVVXUH 50 0SD (OHFWUiFDO UDWiQJV 0RGHO :iWKRXW DUUHVWHU: 8i 45 9GF, 4-20 P$ 0RGHO :iWK DUUHVWHU: 8i 32 9GF, 4-20 P$ 1RWH: "6HDO QRW UHTXiUHG" ([ G ll& 76 (-40 & 7D +65 &) ([ G ll& 75 (-40 & 7D +85 &) Dl3 $21 l366/67 7 85 & DIP A21 IP66/67 T 100°C (OHFWUiFDO UDWiQJV 0RGHO :iWKRXW DUUHVWHU: 8i 45 9GF, 4-20 P $ ORRS SRZHUHG, 3i 1.0125 :

Zero/span adjustment : =HUR DQG VSDQ DUH DGjXVWDEOH IURP WKH ++&(1). =HUR DQG VSDQ DUH DOVR DGjXVWDEOH H[WHUQDOO\ IURP WKH DGjXVWDEOH VFUHZ. Damping : $GjXVWDEOH IURP ++&(1) RU ORFDO DGjXVWPHQW XQW i ZiWK /&D GiVSOD\. 7KH WiPH FRQVWDQW iV DGjXVWDEOH EHWZHHQ 0.06 WR 32 VHF Zero elevation / suppression : -100% WR+100% RI 8 5 / Normal / reverse action : 6HOHFWDEOH IURP + + & (1) Indication : $QDORJ iQGiFDWRU RU 5 GiJiW / & D PHWHU, DV VSHFifHG. $ SOXJ-iQ DQDORJ iQGiFDWRU FDQ EH PRXQWHG RQ WKH HOHF- WURQ-iFV XQiW RU WKH WHUPiQDO EORFN. Burnout direction : 6HOHFWDEOH IURP ++ & (1) lI VHOI-GiDJQRVWiF GHWHFW WUDQVPiWWHU IDiOXUH, WKH DQDORJ ViJQDO ZiOO EH GUiYHQ WR HiWKHU ³2XWSXW +ROG´, ³2XWSXW 2YHUVFDOH´ RU ³2XWSXW 8QGHUVFDOH´ PRGHV. ³2XWSXW +ROG´ : 2XWSXW ViJQDO iV KROG DV WKH YDOXH jXVW EHIRUH IDiOXUH KDSSHQV. ³2XWSXW 2YHUVFDOH´ : $GjXVWDEOH ZiWKiQ WKH UDQJH 20.0 P $ WR 22.5 P $ IURP Over scale Burnout

++& (1 ) Normal operating range Under ³2XWSscale XW 8QGHUVFDOH´ : Probable under range Burnout

Probable over range

$GjXVWDEOH ZiWKiQ WKH UDQJH 3.2 P $ WR 4.0 P $ IURP 2 XWSXW ( 1 ) OiPiWV FRQIRUPiQJ WR 1 $ 0 8 5 1 ( 4 3 ++& E\ RUG HU. Loop-check output : 4 20 3.2 7UDQV PiWWHU FDQ EH FRQfJXUHG WR SURYiGH FR QVWDQW 22.5 [mA] (1) ViJQDO 3.2 P $ WKURXJK 22.5 P $ E\ + + & . Temperature limit : $PEiHQW : -40 WR +85 & -20 WR+80 & (IRU / &D iQGiFDWRU) -40 WR+60 & (IRU DUUHVWHURSWiRQ) -10 WR +60 & (IRU flXRUiQDWHG RiO f OOHG WUDQVPW i WHUV) )RU H[SORViRQ SURRI XQiWV (flDPHSURRI RU iQWUiQViF VDIHW\), DPEiHQW WHPSHUDWXUH PXVW EH ZiWKiQ WKH OiPiWV VSHFifHG iQ HDFK VWDQGDUG. 3URFHVV : -40 WR +120 & IRU ViOiFRQH f OO VHQVRU -20 WR +80 & IRU flXRUiQDWHG RiO f OO VHQVRU 6WRUDJH : -40 WR +90 & Humidity limit : 0 WR100% 5 + (5HODWiYH +XPiGiW\) Communication : :iWK ++& (1 ) (0RGHO ) ; : , FRQVXOW GDWDVKHHW 1 (D68-47), IROORZiQJ iWHPV FDQ EH UHPR)WH RUIRU FRQf WH: ++&¶V (RU ; O:\ GiVSOD\HG 1- 4), ) &JXUHG. ; - $ l l . 1R IRU VXSSRUW iQJ YHUV iRQ PXVW EH KiJKHU WKDQ W KHVH iWHPV : ³6 DWX UDWH FX UUHQW´7.0 , ³:UiWH SURWHFW´, %\ ORFDO lWHPV³+iVWRU\´. DQG )Xji 3URWRFR O ZiWK );:

7DJ 1R. 0RGHO 1R. 6HUiDO 1R. & 6RIWZDUH 9HUViRQ (QJiQHHUiQJ XQiW 5DQJH OiPiW 0HDVXUiQJ UDQJH DDPSiQJ /iQHDU 2XWS 6TXDUH XW URRW PRGH %XUQRXW GiUHFWiRQ

FRQIiJXUDWRU (ZiWK 3 SXVK EXWWRQ), (/&D iQGiFDWRU) Set DiVSOD\ Set

+DUW® 3URWRFRO

DiVSOD\

Set

DiVSOD\

v v

v v

v v

v v

v v

v v

v

—

v

—

v

—

v v v v v v

v — v v v v

v v v v v v

v — v v v v

v v v v v v

v — v v v v

v

v

v

v

v

v

v v v v &DOiEUDWiRQ v v 2XWSXW DGjXVW — — v v DDWD — — v v 6HOI GiDJQRVHV — — 3UiQWHU (lQ FDVH v — — — RI );: ZiWK SUiQWHU RSWiRQ) v v v v ([WHUQDO VZiWFK ORFN v v v v 7UDQVPiWWHU GiVSOD\ v v /iQHDUi]H* — — v v v v 5HUDQJH v v v v 6DWXUDWH FXUUHQW v v v v :UiWH SURWHFW +iVWRU\ – &DOiEUDWiRQ v v v v KiVWRU\ — — (1RWH) (1)W++&: G &RPPXQiFDWRU –$PEiHQW HPSHUDW+DQG XUH +HO v v */RFDO KiFRQfiJ VWRU\ XUDWRU ZiWK / & D GiVSOD\ (RSWiRQ)

v — v v

v v — —

—

—

v

v

v

v

— v v

— v v

v

v

v

v —

:v /RFDO FRQfJXUDWRU ZiWK 3 SXVK EXWWRQ DQG /&D GiVSOD\ FDQ VXSSRUW DOO iWHPV iQFOXGiQJ PRGHO 1R FKDQJH ()Xji 3URWRFRO OV i W) H[FHSW ³/iQHDUi]H´ IXQFWiRQ. Programmable output linearization function : 2XWSXW ViJQDO FDQ EH FKDUDFWHUi]HG ZiWK ³14 SRiQWV OiQHDU DSSUR[iPDWiRQ IXQFWiRQ´ IURP ++& ( 1 ) .

3HUIRUPDQFH VSHFifiFDWiRQV IRU OiQHDU RXWSXW 5HIHUHQFH FRQGiWiRQV, ViOiFRQH RiO fOO, 6 6 316/ iVRODWiQJ GiD- SKUDJPV, 4 WR 20 P $ DQDORJ RXWSXW iQ OiQHDU PRGH. Accuracy rating : (iQFOXGiQJ OiQHDUiW\, K\VWHUHViV, DQG UHSHDWDEiOiW\) Max span : 32 kPa to 3000 kPa model: )RU VSDQV JUHDWHU WKDQ 1/10 RI 8 5 / : 0.065% RI VSDQ RU 0.04% RI VSDQ (RSWiRQDO) )RU VSDQV EHORZ 1/10 RI 80.1 5 / : 8 5 / % RI 6SDQ 0.015+0.05 VSDQ

( ) span Max

20 MPa )RU VSDQV< 5models 03D : : )RU VSDQV 503D 5 03D : 6SDQ 0.05+0.05 0.1% RI Max span 1 kPa, 6 kPa models : VSDQ )RU VSDQV JU HDWHU WKDQ 1/10 RI

(

RI )%VSDQ

85/: 0.1% RI VSDQ )RU VSDQV EHORZ 1/10 RI 8 5 / :8 5 / 0.1

(

)

0.05+0.05 6SDQ % RI Stability : VSDQ 0.1% RI XSSHU UDQJH OiPiW ( 8 5 / ) IRU 10 \HDUV IRU 6 W K GiJiW FRGH3,5,6, 8 DQG9. Temperature effect : (IIHFWV SHU 28 & FKDQJH EHWZHHQ WKH OiPiWV RI -40 & DQG +85 &

5DQJH FRGH (6WK GiJiW iQ FRGH V\PEROV)

=HUR VKiIW (% RI VSDQ)

³1´/1 N3D ^10 PEDU` ³2´/6 N3D ^60 PEDU` ³3´/32 N3D ^320 PEDU` ³5´/130 N3D ^1300 PEDU` ³6´/500 N3D

7RWDO HIIHFW (% RI VSDQ)

(0.125+0.1 85/

)

6SDQ

% 6SDQ

(0.075+0.0125 %

85/

DRXEOH WKH HIIHFWV IRU PDWHUiDO V\P6SDQ) EROPEDU` V) ³+´, ³0´, ³7´ ^5000 ³8´/3000 N3D ^30000 PEDU`

( 0.15+0.1 85/ ) %

(0.095+0.0125 % FRGH

85/

)

(7WK GiJiW iQ FRGHV 6SDQ

3

FKC...5 Static pressure effect : 6WDWiF SUHVVXUH FRGH (5WK GiJiW iQ &RGH V\PEROV)

=HUR VKiIW (% RI 85/) ³1´ / 1 N3D ^10 PEDU` VHQVRU 0.2% / 3.2 03D ^32 EDU` ³2´ / 6 N3D ^60 PEDU` VHQVRU 0.2% / 10 03D ^100 EDU` 0.035% / 6.9 03D ^69 EDU` 0.2% / 6.9 03D ^69 EDU` )

³3´ ³4´

DRXEOH WKH HIIHFWV IRU PDWHUK& iDO49 FRGH (7WK GiJiW iQ FRGHV V\PEROV) ³+´, ³0´, ³7´ Overrange : 6WDWiF effect SUHVVXUH FRGH =HUR VKiIW (% RI 85/) (5WK GiJiW iQ &RGH V\PEROV)

³1´ / 1 N3D ^10 PEDU` VHQVRU ³2´ / 6 N3D ^60 PEDU` VHQVRU ³3´ ³3´ ³4´ WK³4´ H HIIHFWV

0.2% / 3.2 03D ^32 EDU` 0.2% / 10 03D ^100 EDU`

0.1% / 16 03D ^160 EDU` ) K&35,36,38

DRXEOH IRU P D0.15% WHUiDO/ 16 FRGH WK GiJiW 03D (7 ^160 EDU`iQ )K&33 FRGHV V\P 0.25% / 42 03D ^420 EDU` ) EROV) ³+´, ³0´, ³7´ K&43,45,46,48 0.2% / 10 03D ^100 EDU` )K&49

3HUIRUPDQFH VSHFifiFDWiRQV IRU VTXDUH URRW RXWSXW Accuracy rating:

6SDQ

RYHU 0.1 î 85/

2XWSXW 50 WR 100% 20 WR 50% Max span 10 WR 20%

EHORZ 0.1 î 85/

0.065 %

(0.015+0.05 î 0.1 î 85//6SDQ)%

0.163 %

2.5 î (0.015+0.05 î 0.1 î 85//6SDQ)%

0.325 % 2XWSXW

±5 î (0.015+0.05 î 0.1 î 85//6SDQ) $FFXUDF\ % 0.1 % 0.25% 0.5 %

1kPa, 6kPa model: 50 WR 100% 20 WR 50% 10 WR 20%

Temperature effect: (IIHFWV SHU 28 & FKDQJH EHWZHHQ WKH OiPiWV RI -40 & DQG +85 & 5DQJH FRGH

³1´ DQG ³2´

6KiIW DW 20% RXWSXW SRiQW (0.375+0.25 85/ )

³3´ WKURXJK ³9 %/28 & ´ 6SDQ / R Z flRZ FXW-RII: 7KH RXWSXW ViJQDO iV SURSRUWiRQDO WR ¥85/GiIHUHQWiDO (0.24+0.03125 ) SUHVVXUH EHWZHHQ ORZ flRZ FXW-RII DQG WKH & ]HUR DQG ORZ flRZ PHDVXUiQJ UDQJH. %H- W%/28 ZHHQ 6SDQ FXW-RII, WKH RXWSXW ViJQDO iV SUR- JUDPPDEOH WR ] HUR RU OiQHDU EHWZHHQ 0 DQG 20% RI WKH flRZ.

3HUIRUPDQFH VSHFifiFDWiRQV FRPPRQ IRU ERWK RXWSXW PRGHV Supply voltage effect : /HVV WKDQ 0.05% RI FDOiEUDWHG VSDQ SHU 10 9 Update rate : 60 PVHF RFI effect : < 0,2% RI 8 5 / IRU WKH IUHTXHQFHV RI 20 WR 1000 0 + ] DQG fHOG VWUHQJWK RI 10 9/P ZKHQ HOHFWURQiF KRXViQJ FRYHUV DUH RQ (&ODVVifFDWiRQ : 2-DEF : 0,2% RI VSDQ DFFRUGiQJ 6 $ 0 $ 3 0 & 33.1). Response time : (63,3%7iPH RI RXW ViJQDO ZiWKDHDG RXW 5DQJH FRGH FRS QX VW WD QW (DW WiPH (6WK GiJiW iQ FRGH GDPSiQJ) 23 &) V\PEROV) ³1´ ³2´ ³3´ ³5´ WKURXJK ³8´

4

0.33 VHF. 0.3 VHF. 0.12 VHF. 0.08 VHF.

5HVSRQVH WiPH=WiPH FRQVWDQW+GHDG WiPH

0.12 VHF.

Mounting position effect : =HUR VKiIW, OHVV WKDQ 0.12 N3D ^1.2 P EDU` IRU D 10 W O iW iQ DQ\ SODQH. 7KiV HUURU FDQ EH FRUUHFWHG E\ DGjXVWiQJ =HUR. (DRXEOH WKH HIIHFW IRU flXRUiQDWHG f OO VHQVRU). 1R HIIHFW RQ VSDQ. Vibration effect : < 0,25% OI VSDQ IRU VSDQV JUHDWHU WKDQ 1/10 RI 85/. )UHTXHQF\ 10 WR150 + ] , DFFHOHUDWiRQ 39,2 P/VHF2 . Material fatigue : 3OHDVH FRQVXOW )Xji (OHFWUiF. Dielectric strength : 500 9 $&, 50/60+] 1 PiQ., EHWZHHQ FiUFXiW DQG HDUWK. Insulation resistance : 0RUH WKDQ 100 0  DW 500 9 D&. ,QWHUQDO UHViVWDQFH IRU H[WHUQDO fiHOG iQGiFDWRU : 12  PD[. (FRQQHFWHG WR WHVW WHUPiQDO &K+ DQG &K-) Pressure equipment directive (PED) 97/23/EC DiJiW 5 FRGH 1, 2, 3, 8 DQG 9 DFFRUGiQJ WR $UWiFOH 3K\ViFDO 3.3 VSHFifiFDWiRQV DiJiW 5 FRGH 4 : &DWHJRU\ lll PRGXOH +1 Electrical connections : 1/2´-14 137, 3J 13.5 RU 0 20 î 1.5 Process connections: 1/4´-18 1 3 7 PHHWV Dl1 19213. 2SWiRQ : 1/2´-14 1 3 7 IRU RYDO flDQJHV 9HQW/GUDi DiDSKUDJP 0DWHUiDO 3URFH :HWWHG Q FRGH (7WK partsVV VHQVRU Process-wetted material: GiJiW)

FRYHU

ERG\

V 5DQJHV 1 & 2

S6 316/

66 316/

6 6 318/ 1

6 6 316/

5DQJHV 3 WR 8

6 6 316/

66 316/

66 316/

66 316/

:

6 6 316/

+DVWHOOR\-&

6 6 316/

6 6 316/

6 6 316/

+DVWHOOR\-& +DVWHOOR\-&

6 6 316/

6 6 316/

66 316/ + *ROG FRDWiQJ

6 6 316/

+ J

6 6 316/

316/ M : *DVNHW 0RQHO 6 :69i 316/ 5HPDUN WRQ R-UiQJMonel RU 3 7 ) ( VTXDUH VHFWiRQ 6 JD6 VNHW . $YDiODEiOiW\ RI DERYH PDWHUiDO GHViJQ GHSHQGVOiQiQJ RQ UDQJHV DQG OXP 9, VWDWTF i SUHVVXUH DFFRUGiQJ HD UQ iDW ODFRGHV +, 0 DQG 7.6 6 316/ 7DQWDOXP 6 6 316/ PDW7 OiQiQJ 5HIHU WR³&RGH V\PEROV´.

Non-wetted parts material : (OHFWURQiFV KRXViQJ : /RZ FRSSHU GiH-FDVW DOXPiQXP DOOR\ fQiVKHG ZiWK SRO\HVWHU FRDWiQJ (VWDQGDUG), RU 6 6 316 DV VSHFifHG. %ROWVDQG QXWV: •&U-0R DOOR\ (VWDQGDUG). 2SWiRQV : • 6 6 316 (/) IRU VWDWF i SUHVVXUH iI 160 EDU PD[. • 6 6 660 (010) IRU VWDWF i SUHVVXUH < 160 EDU. • 6 6 660 (012) IRU VWDWF i SUHVVXUH ! 160 EDU )iOO flXiG : 6iOiFRQH RiO (VWDQGDUG) RU flXRUiQDWHG RiO (RSWiRQ) 0RXQWiQJ EUDFNHW : 6 6 304/ RU 316/ (RSWiRQ) Environmental protection: $GG 0,3 NJ IRU iQGiFDWRU l ( & l366/l367 DQG ; 1 ( 0 $ 4 ; 0.5 NJ IRU PRXQWiQJ EUDFNHW 2 NJ IRU VWDiQOHVV VWHHO KRXViQJ Mounting: (RSWiRQ) :iWKRXW PRXQWiQJ EUDFNHW : GiUHFW PRXQWiQJ RQ PDQiIROG (RSWiRQDO)

Optional features

ACCESSORIES

Indicator : $ SOXJ-iQ DQDORJ iQGiFDWRU (2.5% DFFXUDF\) FDQ EH KRXVHG iQ WKH HOHFWURQiFV FRPSDUWPHQW RU iQ WKH WHUPiQDO ER[ RI WKH KRXViQJ. $Q RSWiRQDO 5 GiJiW / & D PHWHU ZiWK HQJiQHHUiQJ XQiW iV DOVR DYDiODEOH. /RFDO FRQfiJXUDWRU ZiWK / & D GiVSOD\ : $Q RSWiRQDO 5 GiJiWV / & D PHWHU ZiWK 3 SXVK EXWWRQV FDQ VXSSRUW iWHPV ZiWKRXW XViQJ FRPPXQiFDWiRQ ZiWK ++& ( 1 ) . Arrester : $ EXiOW-iQ DUUHVWHU SURWHFWV WKH HOHFWURQiFV IURP OiJKWQiQJ VXUJHV. /iJKWQiQJ VXUJH iPPXQiW\: 4 N9 (1.2 î 50 V) Oxygen service : 6SHFiDO FOHDQiQJ SURFHGXUHV DUH IROORZHG WKURXJKRXW WKH SURFHVV WR PDiQWDiQ DOO SURFHVV ZHWWHG SDUWV RiO IUHH. 7KH f OO flXiG iV flXRUiQDWHG RiO. Chlorine service : 7KH f OO flXiG iV flXRUiQDWHG RiO. 6DPH SURFHGXUH DQG VDPH f OO flXiG WKDW DERYH. Degreasing : 3URFHVV-ZHWWHG SDUWV DUH FOHDQHG, EXW WKH IiOO IOXiG iV VWDQGDUG ViOiFRQH RiO. 1RW IRU XVH RQ R[\JHQ RU FKORUiQH PHDVXUHPHQW. 1 $ & ( VSHFifiFDWiRQ : 0HWDOOiF PDWHUiDOV IRU DOO SUHVVXUH ERXQGDU\ SDUWV FRPSO\ ZiWK 1 $ & ( 0 5 0175/l62 15156. 6 6 660 RU 6 6 660/660 EROWV DQG QXWV FRPSO\ ZiWK 1$&( 0 5 0175/l62 15156. Optional tag plate : $Q H[WUD VWDiQOHVV VWHHO WDJ ZiWK FXVWRPHU WDJ GDWD iV ZiUHG WR WKH WUDQVPiWWHU.

2YDO flDQJHV : &RQYHUWV SURFHVV FRQQHFWiRQ WR 1/2´-14 137. Manifolds : $YDiODEOH iQ 66 316 DQG iQ SUHVVXUH UDWiQJ 16 03D RU 42 03D. Hand held communicator : ( ) ; : PRGHO, UHIHU WR GDWDVKHHW 1 (D68-47)

5

FKC...5

CODE SYMBOLS 1

2

3

4

5

6

7

8

F

K

9 5

-

10

11

12

13

14 -

15

16 -

DESCRIPTION Type Smart, 4-20 mAdc + Fuji/Hart® digital signal

C

Connections Process connections

Oval flange connection

Electrical connection

(*9) (*9) (*9) (*8) (*8) (*1) (*1) (*8)

1/4"-18 1/4"-18 1/4"-18 1/4"-18 1/4"-18 1/4"-18 1/4"-18 1/4"-18

M10 M10 M10 7/16"-20 UNF 7/16"-20 UNF M10 or M12 (*1) M10 or M12 (*1) 7/16"-20 UNF

M20 x 1,5 Pg 13,5 1/2"-14 NPT M20 x 1,5 1/2"-14 NPT Pg 13,5 M20 x 1,5 Pg 13,5

(*2)

Range & wetted parts material Spans (*2) Static

M N P R T V W

NPT NPT NPT NPT NPT NPT NPT NPT

X

(*3)

pressure

Process - cover LP side HP - side

Measurin

Wetted

g

cell

diaphrag

body

SS 316L

m SS 316L

SS 318LN

SS

Hastelloy

limits 1

1

1

1

1

1

1

1

-1

V

to

W

10/100 mm WC

32

J H

C Gold

316L

coat

SS 316L

C

SS 318LN Hastelloy C

SS 316L

SS 316L

SS 318LN

SS

Hastelloy

SS

bar

Hastelloy

316L

2

2

2

2

2

2

2

2

V

-1 to

W

10/600 mm WC

C Gold

316L

J

100

SS 316L

H

bar

SS

coat

3

3

3

3

3

W

3

3

H

3

3

V 32 /3200

SS 318LN

C

SS 318LN Hastelloy C

SS 316L

SS 316L

SS 316L

SS

Hastelloy

SS

C

316L

Hastelloy

316L

3

SS 318LN

316L SS 316L

Hastelloy

SS

C Monel

mm WC

Hastelloy C Monel

M

316L

Gold coat

J

SS 316L

Gold/cerami

SS 316L

SS 316L

c Tantalum

Gold/cerami

lining

c Tantalum

SS

lining

316L

(*4) 3

3

3

3

3

5

3

5

3

5

3

5

3

5

C T

-1

V W

to

H M

0,13

J

/13 m WC

SS 316L

SS 316L

SS 316L

SS 316L

Hastelloy

SS 316L

SS 316L SS 316L SS

C

Hastelloy

Hastelloy

C Monel

C Monel

lining SS

Gold coat

316L

316L

(*4)

6

3

3

C

3

5

T

3

6

V

3

6

3

6

W

160 bar (*3)

SS 316L SS 316L

Gold/cerami

Gold/cerami

c

c Tantalum

Tantalum

lining

1

2

3

8 F

K

C

4

5

6

9 10 13

7 5 -

11

12

14

15

-

16 -

DESCRIPTION Indicator & Arrester Indicator

5

-

A

5

-

B

None None

5

-

C

Analog, 0-100% linear scale

5 D

-

5

-

J

5

-

E

5

-

F

5 G

-

5 H

-

5

-

K

5

-

L

5

-

P

5 M

-

5 Q

-

5 S

-

5 N

-

5 1

-

5 2

-

A

5 3

-

X

5 4

-

5 5

-

5 6

-

Arreste r

None

Initial setting

4-20 mA DC

$QDORJ, 0-100% ¥ scale

+

None

Analog, Custom scale None

Hart® / Fuji digital

Analog, double scale None None

Yes

Analog, 0-100% linear scale

Yes

$QDORJ, 0-100% ¥ scale

Yes

Analog, Custom scale

Yes

Analog, double scale

Yes

signal "SMART"

Digital, 0-100%

None Digital, Custom scale

None Digital, 0-100% ࠨscale

None Digital, 0-100% Yes Approvals for hazardous locations (consult FUJI for availability) Digital, Custom scale Yes None (Standard) Digital,- 0-100% ࠨ scale ATEX Flameproof enclosures (digit 4 = Yes "M, P, R, T" & ATEX - Intrinsic Safety (*10) "W" FM -only) Explosion-Proof 4 = "P" & Digital, 0-100% with push(digit button "T" only) CSA - Explosion-Proof (digit 4 = "P" & "T" Digital, Custom Safety scale with push None FM only) - Intrinsic and Nonbutton Incendive None Digital, 0-100% ࠨscale with push button CSA - Intrinsic Safety Digital, 0-100% None- Type ATEX "n" (digit with 9 = push A, E,button 1, 2, 3, Yes 4, 5 & 6 only) Digital, Custom scale with push button Yes IECEx - Type "n" (digit 9 = A, E, 1, 2, 3, 4, 5 & 60-100% only) ࠨ scale with push button Digital, IECEx - Flameproof enclosures (digit 4 = "M, P, R, T" & Yes "W" only) IECEx - Intrinsic Safety CSA - Explosion-Proof & Intrinsic Safety combined approval (digit 4 = "P" & "T" only) Side & mounting bracket ATEXvent/drain - Flameproof enclosures & Intrinsic Safety combined approval (digit 4 = "M, P, R, Side Mountin T" & "W" only) IECEx - Flameproof enclosures & Intrinsic Safety combined approval (digit Vent/dra g "W" only) FM - Explosion-Proof & Intrinsic Safety combined approval 4 = "M, P, R, T" & in bracket Standar None (digit 4 = "P" & "T" only) d Yes, SS Standar 304L Yes, d SS 316L Standar None d Side Yes, SS Sid 304L Yes, SS parts e tag plate SS SS 316L Sid housing e None None Yes None None Yes Yes Yes Special applications & fill fluid Treatment Fill fluid None (std) Silicone oil None (std) Fluorinated Degreasing oil Silicone Oxygen oil service Fluorinated oil (digit 7 = J, Chlorine V, W) Fluorinated oil (digit (*7) NACE Silicone service 7=H,T) oil

K D E H J P Q R T L M

A

N

C

V

K D F L

Y B C E Y W G A D N

-

A C D A U V W (*6 )W

Process cover gasket Viton PTFE square section gasket in SS flange (FEF (*5) design) PTFE square section gasket in PVDF insert Bolts/screws material Carbon steel Cr-Mo (standard) (*3) M10 SS 316(L) / 316(L) (bolt/nuts) M10Carbon steel Cr-Mo M12 (standard) for static pressure > bar (*11) 160 SS 660/660 (bolt/nuts) M10 for static pressure < 160 bar (*11) SS 660/660 (bolt/nuts) M12 for static Special options pressure > 160 bar or * design special, no code available

1RWHV*: 1 7KH WKUHDG iV 012, iI VWDWF i SUHVVXUH 300/420 EDU 2 7XUQ GRZQ RI 100:1 iV SRVViEOH, EXW W i VKRXOG EH XVHG DW D VSDQ JUHDWHU WKDQ 1/40 RI WKH PD[iPXP VSDQ IRU EHWWHU SHUIRUPDQFH. 3 0D[. VWDWiF SUHVVXUH 160 EDU IRU 6 6 316(/) EROWV/QXWV; IRU VWDWF i SUHVVXUH ! 160 EDU, SOHDVH VSHFiI\ 6 6 660 EROWV. 4 *ROG FRDWiQJ RQ ZHWWHG PHDVXUiQJ FHOO SDUWV IRU +\GURJHQ VHUYiFH - +\GURVHDO YHUViRQ - JROG/FHUDPiF FRDWiQJ iV DYDiODEOH XSRQ UHTXHVW. 5 3URFHVV FRYHU ZiWK 3 9 D ) iQVHUW ZiWK 1/2´-14 1 3 7 ViGH SURFHVV FRQQHFWiRQ/QR YHQW GUDiQ, RWKHU XSRQ UHTXHVW - VTXDUH VHFWiRQ 3 7 ) ( JDVNHW 6 :KHQ QR FRGH FDQ EH IRXQG iQ WKH FXUUHQW FRGH V\PEROV, SODFH (*) iQ FRQFHUQHG FRGH GiJiW(V) & DGG(*) iQ 16 WK GiJiW 7 2XU EROWV/QXWV iQ 6 6 660 DUH iQ FRQIRUPiW\ ZiWK WKH 1 $ & ( 0 5 0175/l62 15156 UHTXiUHPHQWV DQG PXVW EH XVHG IRU 1 $ & ( 0 5 0175/l62 15156 VHUYiFH. 8 )RU WKH VWDWiF SUHVVXUH RSWiRQ 420 EDU DQG SURFHVV FRYHU JDVNHW 3 7 ) ( SOHDVH XVH RQO\ FRGH "5","7" RU " ; " 9 3URFHVV FRQQHFWiRQ RQ WKH ERWWRP ViGH. 10 &RGH "D & 9" ) 0 DSSURYDO RQO\ SRVViEOH ZiWK HOHFWUF iDO FRQQHFWiRQ 1/2´-14 137. 11 6 6 660 EROWV/QXWV KDYH WR EH XVHG IRU RiO & JDV DSSOiFDWiRQV

FKC...5

OUTLINE DIAGRAM (unit:

<7th digit code : V, H, M, T>

mm) With analog indicator

Ovale flange screw (see table 1) With digital indicator

A

Low Pressure Connection 1/4 NPT High Pressure Connection 1/4 NPT

Mounting bracket for Pipe Ø60 (2”) (X11 = C) U-bolt M8

DIMENSIONS

ø18.5

ø15

A

B

C

198,5

225,5

38,5

194

194

37

198,5

225,5

38,5

E

8

2. 5

G

Table 1 Code X=4

Electrical connection D

E 16

Oval flange screw

R

M20x1.5

T

1/2-14NPT

16

V

Pg13.5

10,5

M10

W

M20x1.5

16

M10

X

Pg13.5

10,5

Weight : 3,5 kg (without option)

8

ø7

D

7/16-20 UNF 7/16-20 UNF

7/16-20 UNF

Add :

- 0,8 kg for indicator option - 2 kg for stainless steel housing option - 0,5 kg for mounting bracket

Zero/Span adjustment screw

C

B

Electrical connection (see table 1)

Vent / drain

CONNECTION DIAGRAM

9

FKC...5

EMC Directive (2004/108/EC) $OO PRGHOV RI FCX VHUiHV WUDQVPW i WHUV W\SH FCX-AII DUH iQ DFFRUGDQFH ZiWK : • WKH KDUPRQi]HG VWDQGDUGV: - ( 1 61326-1 : 2006 ((OHFWUiFDO HTXiSPHQW IRU PHDVXUHPHQW, FRQWURO DQG ODERUDWRU\ XVH - ( 0 & UHTXiUHPHQWV). - ( 1 61326-2-3 : 2006 (3DUW 2-3 : 3DUWiFXODU UHTXiUHPHQWV - 7HVW FRQfJXUDWiRQ, RSHUDWiRQDO FRQGiWiRQV DQG SHUIRUPDQFH FUiWHUiD IRU WUDQGXFHUV ZiWK iQWHJUDWHG RU UHPRWH ViJQDO FRQGiWiRQiQJ) Emission limits : ( 1 61326-1 : 2006 )UHTXHQF\ UDQJH (0+]) /iPiWV 30 WR 230 40 G% ( 9/P) TXDVi SHDFN, PHDVXUHG DW 10P GiVWDQFH 230 WR 1000

(OHFWURPDJQHWiF fHOG

*URXS 1 &ODVV $

47 G% ( 9/P) TXDVi SHDFN, PHDVXUHG DW 10P GiVWDQFH

Immunity requirements : ( 1 61326-1 : 2006 (7DEOH 2) 3KHQRPHQRQ 7HVW YDOXH (OHFWURVWDWiF GiVFKDUJH ((D6)

%DViF VWDQGDUG ( 1 55011 / &l6 35 11

4 N9 (&RQWDFW) 8 N9 ($iU) 109/P (80 WR 1000 0+])

%DViF VWDQGDUG ( 1 61000-4-2

3HUIRUPDQFH FUiWHUiD B

l ( & 61000-4-2 ( 1 61000-4-3 l ( & 61000-4-3

A

3 9/P (1.4 WR 2.0 *+]) 5DWHG SRZHU IUHTXHQF\ 0DJQHWiF fHOG %XUVW

1 9/P (2.0 WR 2.7 *+]) 30 $/P

( 1 61000-4-8

A

l ( & 61000-4-8 ( 1 61000-4-4

B

1 N9 /iQH WR OiQH

l ( & 61000-4-4 ( 1 61000-4-5

B

2 N9 /iQH WR OiQH 3 9 (150 N+] WR 80 0+])

l(&61000-4-5 ( 1 61000-4-6

A

2 N9 (5/50 16, 5 N+]

6XUJH &RQGXFWHG 5)

l(&61000-4-6

3HUIRUPDQFH FUiWHUiD : A : DXUiQJ WHVWiQJ, QRUPDO SHUIRUPDQFH ZiWKiQ WKH VSHFifFDWiRQ OiPiWV. B : DXUiQJ WHVWiQJ, WHPSRUDU\ GHJUDGDWiRQ RUORVV RI IXQFWiRQ RUSHUIRUPDQFH ZKiFK iV VHOIUHFRYHUiQJ.

Fuji Electric France S.A.S. 46 rue Georges Besse - ZI du brézet - 63039 Clermont ferrand Tél : 04 73 98 26 98 - Fax : 04 73 98 26 99 Mail : sales.dpt@fujielectric.fr - web : www.fujielectric.fr )Xji (OHFWUiF FDQ DFFHSW QR UHVSRQViEiOiW\ IRU SRVViEOH HUURUV iQ FDWDORJXHV, EURFKXUHV DQG RWKHU SUQ i WHG PDWHUiDO. )Xji (OHFWUiF UHVHUYHV WKH UiJKW WR DOWHU W i V SUR- GXFWV ZiWKRXW QRWiFH. 7KiV DOVR DSSOiHV WR SURGXFWV DOUHDG\ RQ RUGHU SURYiGHG WKDW VXFK DOWHUDWR iQV FDQ EH PDGH ZiWKRXW VXEVHTXHQWiDO FKDQJHV EHiQJ QHFHVVDU\ iQ VSHFifFDWiRQV DOUHDG\ DJUHHG. $OO WUDGHPDUNV iQ WKiV PDWHUiDO DUH SURSHUW\ RI WKH UHVSHFWiYH FRPSDQiHV. $OO UiJKWV UHVHYHG.