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EDSX6-134H Datasheet, PDF (1/12 Pages) Fuji Electric – DIFFERENTIAL PRESSURE (FLOW) TRANSMITTER | |||
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DIFFERENTIAL PRESSURE (FLOW) TRANSMITTER
DATA SHEET
FKC...5
The FCXâAIII differential pressure (ï¬ow) transmitter ac-
curately measures differential pressure, liquid level, gauge
pressure or ï¬ow rate and transmits a proportional 4 to 20mA
signal. The transmitter utilizes a unique micromachined
capacitance silicon sensor with state-of-the-art micropro-
cessor technology to provide exceptional performance and
functionality.
FEATURES
1. High accuracy up to ±0.04%
0.065% accuracy as standard, 0.04% accuracy as op-
tion.
Fujiâs micro-capacitance silicon sensor assures this ac-
curacy for all elevated or suppressed calibration ranges
without additional adjustment.
2. Minimum environmental inï¬uence
The âAdvanced Floating Cellâ design which protects the
pressure sensor against changes in temperature, static
pressure, and overpressure substantially reduces total
measurement error in actual ï¬eld applications.
3. Fuji/HART® bilingual communications protocol
FCXâAIII series transmitter offers bilingual communica-
tions to speak both Fuji proprietary protocol and HART®.
Any HART® compatible devices can communicate with
FCXâAIII.
4. Application ï¬exibility
Various options that render the FCXâAIII suitable for
almost any process applications include.
â Full range of hazardous area approvals
â Built-in RFI ï¬lter and lightning arrester
â 5-digit LCD meter with engineering unit
â Stainless steel electronics housing
â Wide selection of materials
5. Programmable output Linearization Function
In addition to Linear and Square Root, output signal can
be freely programmable.
(Up to 14 compensated points at approximation.)
6. Burnout current ï¬exibility (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.
7. 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
calibration without reference pressure is at equal level
as wet calibration.
[ L-Type ]
SPECIFICATIONS
[ T-Type ]
Functional speciï¬cations
Service:
Liquid, gas, or vapour
Static pressure, span, and range limit:
Type
F KC 11
FKC 22
FKC 33
FKC 35
FKC 36
FKC 38
FKC 43
FKC 45
FKC 46
FKC 48
FKC 49
Static pressure
[MPa] {bar}
Span limit [kPa]
{m bar}
Min.
Max.
â0.1 to + 0.2
{â1 to + 2}
â0.1 to + 10
{â1 to + 100 }
â0.1 to + 16
{â1 to + 160 }
â0.1 to + 16
{â1 to + 160 }
â0.1 to + 16
{â1 to + 160 }
â0.1 to + 16
{â1 to + 160 }
â0.1 to + 42
{â1 to + 420 }
â0.1 to + 42
{â1 to + 420 }
â0.1 to + 42
{â1 to + 420 }
â0.1 to + 30
{â1 to + 300 }
â0.1 to + 30
{â1 to + 300 }
0.1
{1 }
0.1
{1 }
0.32
{ 3.2 }
1.3
{ 13 }
5
{ 50 }
30
{ 300 }
0.32
{ 3.2 }
1.3
{ 13 }
5
{ 50 }
30
{ 300 }
500
{5000 }
1
{ 10 }
6
{ 60 }
32
{ 320 }
130
{ 1300 }
500
{ 5000 }
3000
{ 30000 }
32
{ 320 }
130
{ 1300 }
500
{ 5000 }
3000
{ 30000 }
20000
{200000}
Range limit
[kPa] {m bar}
+/â
1
{ +/â 10 }
+/â
6
{ +/â 60 }
+/â 32
{ +/â 320 }
+/â 130
{ +/â 1300 }
+/â 500
{ +/â 5000 }
+/â 3000
{ +/â 30000 }
+/â
32
{ +/â 320 }
+/â 130
{ +/â 1300 }
+/â 500
{ +/â 5000 }
+/â 3000
{ +/â 30000 }
{+20000,â10000}
{ +200000,â100000}
Remark : To minimize environmental inï¬uence, span should be greater
than 1/40 of the max. span in most applications.
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 60°C
â The maximum span of each sensor can be converted
to different units using factors as below.
1MPa =103KPa=10bar=10.19716kgf/cm2
=145.0377psi
1kpa=10mbar=101.9716mmH2O=4.01463inH2O
EDSX6-134h
Date Aug. 10, 2011
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