Fuji Electric FKP pressure transmitter Datasheet

1 35(6685( 75$160,77(5 ',5(&7 02817 7<3( DATA SHEET The FCX- A I I pressure transmitter accurately measures gauge pressure and transmits proportional 4 to 20mA. signal. The transmitter utilizes the unique micromachined capacitive silicon sensor with state-of-the-art microprocessor technology to provide exceptional performance and functionality. FEATURES. 1. High accuracy accuracy is a standard feature. Fuji's micro-capacitance silicon sensor assures this accuracy for all elevated or sup- pressed calibration ranges without additional adjustment.)))))

2 0 LQLPXP HQYLURQPHQWDO LQ XHQFH. The Advance Floating Cell design which protects the pres- SPECIFICATIONS. sure sensor against changes in temperature, and overpres- sure substantially reduces total measurement error in actual )XQFWLRQDO VSHFL FDWLRQV. HOG DSSOLFDWLRQV . 3. Fuji/HART bilingual communications protocol 7\SH . FKP: Smart, 4 to 20mA DC + Fuji/Hart digital signal FCX- A I I series transmitter offers bilingual communications 6 HUYLFH . to speak both Fuji proprietary protocol and HART . Liquid, gas, or vapour Any HART compatible devices can communicate with FCX- 6 SDQ UDQJH DQG RYHUUDQJH OLPLW.

3 AII. Overrange Span limit kPa {bar} Range limit $SSOLFDWLRQ H[LELOLW\ Type limit kPa {bar}. Min. Max. MPa {bar}. Various options that render the FCX- A I I suitable for almost any process applications include: FKP 01 130 -100 to +130 1. { } { } {-1 to + } {10}. Full range of hazardous area approvals FKP 02 500 -100 to +500 %XLOW LQ 5), OWHU DQG OLJKWQLQJ DUUHVWHU { } {5} {-1 to +5} {15}. FKP 03 3000 -100 to +3000 9. 5-digit LCD meter with engineering unit { } {30} {-1 to +30} {90}. FKP 04 10000 -100 to +10000 15. %XUQRXW FXUUHQW H[LELOLW\ 8 QGHU 6 FDOH WR P$ ^ ` {100} {-1 to +100} {150}.]]

4 2 YHU 6 FDOH WR P$ . Lower range limit (vacuum limit) is: Burnout signal level is adjustable using Model FXW or Hand 6 LOLFRQH OO VHQVRU 6HH )LJ . Held Communicator (HHC) to comply with NAMUR NE43. )OXRULQDWHG OO VHQVRU N3D DEV PP+J DEV DW EHORZ . 6. Dry calibration without reference pressure &. Thanks to the best combination of unique construction 2 XWSXW VLJQDO . of mechanical parts (Sensor unit) and high performance 4 to 20mA DC with digital signal superimposed on the electronics circuit (Electronics unit), reliability of dry 4 to 20mA signal.

5 3 RZHU VXSSO\ . calibration without reference pressure is at equal level as transmitter operates on to 45V DC at transmitter wet calibration. terminals. to 32V DC for the units with optional arrester Fuji Electric France EDSF5-98e Date 1 RYHPEHU . /RDG OLPLWDWLRQV VHH JXUH EHORZ. [:]. $XWKRULW\ )ODPHSURRI. 2000. 1533: ATEX Ex II 2 GD. Load resistance ([ G ,,& 7 & 7D & 1500 ([ G ,,& 7 & 7D & (X) ([ W' $ ,3 7 &. Ex tD A21 IP66/67 T 100 C. 1000 (OHFWULFDO UDWLQJV. 600: 0 RGHO :LWKRXW DUUHVWHU . Operating 8L 9GF P$ ORRS SRZHUHG 3L : 500 area 0 RGHO :LWK DUUHVWHU.)))]]]

6 8L 9GF P$ ORRS SRZHUHG 3L : 250 24V 45V. )DFWRU\ &ODVV , 0 XWXDO 'LY *URXSV % & '. 10 50 [V ] 7 7\SH ;. &ODVV ,, ,,, . Power voltage 'LY *URXSV ( ) *. (D) 7 7\SH ;. 7 DPE PD[ C. Note: For communication with HHC(1) (model: FXW), min. of 250 1 CSA &ODVV , *URXSV & DQG ' . required. &ODVV ,, *URXSV ( ) DQG * &ODVV ,,, 0D[LPXP DPELHQW WHPSHUDWXUH &. +D]DUGRXV ORFDWLRQV (E) 0D[LPXP ZRUNLQJ SUHVVXUH 0SD. (OHFWULFDO UDWLQJV. $XWKRULW\ 0 RGHO :LWKRXW DUUHVWHU . ,QWULQVLF VDIHW\. 'LJLW 8L 9GF P$. ATEX Ex II 1 G 0 RGHO :LWK DUUHVWHU . ([ LD ,,& 7 & 7D & 8L 9GF P$.)]]]

7 (K) ([ LD ,,& 7 & 7D & 1 RWH 6 HDO QRW UHTXLUHG . ,3 . IECEx ([ G ,,& 7 & 7D & Entity Parameters: ([ G ,,& 7 & 7D & 8L 9GF ,L P$ 3L : ',3 $ ,3 7 &. &L Q) Q) IRU PRGHOV ZLWK ZLWKRXW $UUHVWHU. DIP A21 IP66/67 T 100 C. /L P+ P+ IRU PRGHOV ZLWK ZLWKRXW $QDORJ ,QGLFDWRU. (R) (OHFWULFDO UDWLQJV. )DFWRU\ &ODVV , ,, ,,, 0 RGHO :LWKRXW DUUHVWHU . 0 XWXDO 'LY *URXSV $ % & ' ( ) * 8L 9GF P$ ORRS SRZHUHG 3L : 7 (QWLW\ 7\SH ; 0 RGHO :LWK DUUHVWHU . 8L 9GF P$ ORRS SRZHUHG 3L : 0 RGHO FRGH. + 7 DPE. WK GLJLW WK GLJLW . $ % & ' - < * 1 -4 & WR &. / 3 0 < * 1 & WR & $XWKRULW\ 7\SH Q.))]]]

8 4 6 1 < * 1 & WR & 'LJLW 1 RQLQFHQGLYH. ( ) * + . < * 1 -4 & WR &. - : $ ' & WR C ATEX Ex II 3 G. ([ Q$ ,, 7 & 7D & Entity Parameters: ,3 . 9PD[ 9 ,PD[ P$ 3L : (OHFWULFDO UDWLQJV. &L Q) /L P+ (P) 0 RGHO :LWKRXW DUUHVWHU . 8L 9GF P$ ORRS SRZHUHG 3L : CSA ([ LD &ODVV , *URXSV $ % & DQG ' 0 RGHO :LWK DUUHVWHU . &ODVV ,, *URXSV ( ) DQG * &ODVV ,,, 8L 9GF P$ ORRS SRZHUHG 3L : 3HU GUDZLQJ 7& 2 SWLRQDO $QDORJ LQGLFDWRU LV QRW DYDLODEOH IRU W\SH Q . (J) 7 HPS FRGH 7 IRU 7 DPE PD[ &. 7 HPS FRGH 7 IRU 7 DPE PD[ & )DFWRU\ &ODVV , ,, ,,, . Entity Parameters: 0 XWXDO 'LY *URXSV $ % & ' ) *.]]]]]]

9 9PD[ 9GF ,PD[ P$ 3PD[ : 7 (QWLW\ 7\SH ;. &L Q) Q) IRU PRGHOV ZLWK ZLWKRXW $UUHVWHU Model code /L P+ P+ IRU PRGHOV ZLWK ZLWKRXW $QDORJ ,QGLFDWRU 7 DPE. WK GLJLW WK GLJLW . (H) $ % & ' - < * 1 -4 & WR &. IECEx ([ LD ,,& 7 & 7D & / 3 0 < * 1 & WR &. ([ LD ,,& 7 & 7D & 4 6 1 < * 1 & WR &. ,3 ( ) * + . < * 1 -4 & WR &. (T) Entity Parameters: - : $ ' & WR C. 8L 9GF ,L P$ 3L : &L Q) Q) IRU PRGHOV ZLWK ZLWKRXW $UUHVWHU CSA &ODVV , /L P+ P+ IRU PRGHOV ZLWK ZLWKRXW $QDORJ ,QGLFDWRU 'LY *URXSV $ % & '. &ODVV ,, 'LY *URXSV ( ) *. (J) &ODVV ,,, 'LY.]]]]]

10 7 HPS &RGH 7 7 DPE PD[ &. 7 HPS &RGH 7 7 DPE PD[ &. (QWLW\ 3 DUDPHWHUV . 9PD[ 9GF ,PD[ P$ 3PD[ : &L Q) Q) IRU PRGHOV ZLWK ZLWKRXW $UUHVWHU. /L P+ P+ IRU PRGHOV ZLWK ZLWKRXW $QDORJ ,QGLFDWRU. IECEx ([ Q$ ,, 7 & 7D & ,3 . (OHFWULFDO UDWLQJV. 0 RGHO :LWKRXW DUUHVWHU . (Q) 8L 9GF P$ ORRS SRZHUHG 3L : 0 RGHO :LWK DUUHVWHU . 8L 9GF P$ ORRS SRZHUHG 3L : 2 SWLRQDO $QDORJ LQGLFDWRU LV QRW DYDLODEOH IRU W\SH Q . 2. Zero/span adjustment: Measuring range v v v v Zero and span are adjustable from the HHC(1). Zero and Damping v v v v span are also adjustable externally from the adjustment Output mode v v.)]]]]]]