EDSX6-135H Datasheet, PDF(1/8 Page) Fuji Electric – DIFFERENTIAL PRESSURE (FLOW) TRANSMITTER Hydroseal® Diaphragm Version

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EDSX6-135H Datasheet, PDF (1/8 Pages) Fuji Electric – DIFFERENTIAL PRESSURE (FLOW) TRANSMITTER Hydroseal® Diaphragm Version

DIFFERENTIAL PRESSURE (FLOW) TRANSMITTER

HydrosealÂ® Diaphragm Version

DATA SHEET

FKC...5

FEATURES

1. Unique hydroseal diaphragm

Permeation of hydrogen into the detecting unit through

seal diaphragm can be suppressed thanks to the unique

seal diaphragm (double coating) which employs coating

of gold and ceramic.

Micro Capacitance

Silicone sensor

Process

cover

Base material

(SUS316L)

Ceramics

coating

Sensor

unit

Sealing diaphragm

coated with gold

and ceramics

Gold

coating

2. High accuracy

Â±0.15% accuracy for all calibrated spans is the stan-

dard feature for differential pressure (ï¬ow) transmitter

covering 0.32 to 130kPa (or 32mm to 13 mH2O). Fujiâs

Micro-capacitance silicon sensor assures this feature.

3. Minimum environment inï¬uence

Fujiâs patented âAdvanced Floating Cellâ design which

protects the pressure sensor against changes in tem-

pera-ture, static pressure, and overpressure substan-

tially re-duces total measurement error in actual ï¬eld

applications.

4. Fuji/HARTÂ® bilingual communications protocol

FCXâAIII series transmitter offers bilingual communica-

tions to speak both Fuji proprietary protocol and HARTÂ®.

Any HARTÂ® compatible devices can communicate with

FCXâAIII.

5. Application ï¬exibility

Various options that render the FCXâAIII series suitable

for almost any process applications include.

â Full range of hazardous location approvals

â 5-digit LCD meter with engineering unit

â Stainless steel electronics housing

â Built-in RFI ï¬lter and lightning arrester

6. Programmable output Linearization Function

In addition to Linear and Square Root, output signal can

be freely programmable.

(Up to 14 compensated points at approximation.)

7. Burnout current flexibility (Under Scale: 3.2 to

4.0mA, Over Scale: 20.0 to 22.5mA)

Burnout signal level is adjustable using Model FXW

Hand Held Communicator (HHC) to comply with

NAMUR NE43.

8. Dry calibration without reference pressure

Thanks to the best combination of unique construction

of mechanical parts (Sensor unit) and high performance

electronics circuit (Electronics unit), reliability of dry cali-

bration without reference pressure is at equal level as

wet calibration.

[ L-Type ]

[ T-Type ]

SPECIFICATIONS

Functional speciï¬cations

Service:

Liquid, gas, or vapour

Static pressure, span, and range limit:

Type

Static pressure

[MPa] {bar}

Span limit [kPa]

{mbar}

Min.

Max.

F KC 33

F KC 35

â0.1 to 16

(â1 to + 160)

â0.1 to 16

(â1 to + 160)

3.2

(32)

(130)

(320)

130)

(1300)

Range limit

[KPa] {m bar}

+/â 32

(+/â 320)

+/â 130

(+/â1300)

â Lower limit of static pressure (vacuum limit) ;

Silicone ï¬ll sensor: See Fig. 1

Fluorinated ï¬ll sensor: 66kPa abs (500mmHg abs)

at temperature below 60Â°C

â The maximum span of each sensor can be converted

to different units using below factors.

1MPa =103KPa=10bar=10.19716kgf/cm2

=145.0377psi

1kpa =10mbar=101.9716mmH2O = 4.01463inH2O

Overrange limit: To maximum static pressure limit

Output signal: 4 to 20mA DC (linear or square root)

with digital signal superimposed on the

4 to 20mA signal

Power supply: Transmitter operates on 10.5V to 45V

DC at transmitter terminals.

10.5V to 32V DC for the units with op-

tional arrester.

EDSX6-135h

Date Aug. 10, 2011

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