Model : 176A05 | CHARGE OUTPUT PRESSURE SENSOR

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$ 5,245.00 USD
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Differential charge output pressure sensor, 65 pc/psi, 968 F, ATEX-CSA approved

When using Model EX682A40 differential charge amplifier, also use 045M21B cable.

  • Measurement Range: 75 psi (5.2 bar)
  • Sensitivity: (±20%)65 pC/psi (942.7 pC/bar)
  • Sensing Element: Ceramic
  • Temperature Range: -94 to 968 °F (-70 to 520 °C)
  • Electrical Connector: 7/16-27 2-Pin
  • Weight: 9.35 oz (265 gm)

RELATED PRODUCTS



EX682A40

Intrinsically-safe, DIN mount, differential charge amplifier, 10 mV/pC



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English: SI:
Performance
Sensitivity (±20 %) 65 pC/psi 942.7 pC/bar
Measurement Range 75 psi 5.2 bar
Maximum Pressure (Total) 1450 psi 100 bar
Resonant Frequency >40 kHz >40 kHz
Transverse Resonance ≥8 kHz ≥8 kHz
Frequency Response (+/-5 %) 8 kHz 8 kHz [2] [3] [2] [3]
Non-Linearity ≤1 % FS ≤1 % FS [1] [1]
Sensitivity (±20 %) 65 pC/psi 942.7 pC/bar
Measurement Range 75 psi 5.2 bar
Maximum Pressure (Total) 1450 psi 100 bar
Resonant Frequency >40 kHz >40 kHz
Transverse Resonance ≥8 kHz ≥8 kHz
Frequency Response (+/-5 %) 8 kHz 8 kHz [2] [3] [2] [3]
Non-Linearity ≤1 % FS ≤1 % FS [1] [1]
Environmental
Acceleration Sensitivity 0.003 psi/g .00021 bar/g [5] [5]
Acceleration Sensitivity 0.01 psi/g .00069 bar/g [4] [4]
Temperature Range (Continuous) -94 to 968 °F -70 to 520 °C
Temperature Range (Receptacle) -76 to 500 °F -60 to 260 °C
Temperature Response See Graph See Graph
Hazardous Area Approval See Manual See Manual
Radiation Exposure Limit (Integrated Gamma Flux) 1E8 rad 1E8 rad
Radiation Exposure Limit (Integrated Neutron Flux) 1E10 N/cm² 1E10 N/cm²
Acceleration Sensitivity 0.003 psi/g .00021 bar/g [5] [5]
Acceleration Sensitivity 0.01 psi/g .00069 bar/g [4] [4]
Temperature Range (Continuous) -94 to 968 °F -70 to 520 °C
Temperature Range (Receptacle) -76 to 500 °F -60 to 260 °C
Temperature Response See Graph See Graph
Hazardous Area Approval See Manual See Manual
Radiation Exposure Limit (Integrated Gamma Flux) 1E8 rad 1E8 rad
Radiation Exposure Limit (Integrated Neutron Flux) 1E10 N/cm² 1E10 N/cm²
Electrical
Output Polarity Differential Differential
Capacitance (with cable pin - pin) 650 pF 650 pF [6] [6]
Internal Resistance (room temp) ≥1000000000 Ohm ≥1000000000 Ohm
Insulation Resistance (Pin-Case ) (room temp) ≥1000000000000 Ohm ≥1000000000000 Ohm
Internal Resistance (968°F/520°C) ≥50000 Ohm ≥50000 Ohm
Insulation Resistance (Pin-Case ) (968°F/520°C) ≥100000 Ohm ≥100000 Ohm
Output Polarity Differential Differential
Capacitance (with cable pin - pin) 650 pF 650 pF [6] [6]
Internal Resistance (room temp) ≥1000000000 Ohm ≥1000000000 Ohm
Insulation Resistance (Pin-Case ) (room temp) ≥1000000000000 Ohm ≥1000000000000 Ohm
Internal Resistance (968°F/520°C) ≥50000 Ohm ≥50000 Ohm
Insulation Resistance (Pin-Case ) (968°F/520°C) ≥100000 Ohm ≥100000 Ohm
Physical
Sensing Element Ceramic Ceramic
Sensing Geometry Compression Compression
Housing Material Nickel Alloy Nickel Alloy
Sealing Welded Hermetic Welded Hermetic
Electrical Connector 7/16-27 2-Pin 7/16-27 2-Pin
Cable Type Overbraided Hardline Overbraided Hardline
Weight (with cable) 9.35 oz 265 gm
Sensing Element Ceramic Ceramic
Sensing Geometry Compression Compression
Housing Material Nickel Alloy Nickel Alloy
Sealing Welded Hermetic Welded Hermetic
Electrical Connector 7/16-27 2-Pin 7/16-27 2-Pin
Cable Type Overbraided Hardline Overbraided Hardline
Weight (with cable) 9.35 oz 265 gm
* All specifications are at room temperature unless otherwise specified
.


Specification Notes


[1] Zero-based, least-squares, straight line method.
[2] Low frequency response is determined by external signal conditioning electronics.
[3] Upper frequency response is calculated from Resonant Frequency.
[4] Maximum.
[5] Nominal.
[6] Typical.
[7] See PCB Declaration of Conformance PS058 for details.
[1] Zero-based, least-squares, straight line method.
[2] Low frequency response is determined by external signal conditioning electronics.
[3] Upper frequency response is calculated from Resonant Frequency.
[4] Maximum.
[5] Nominal.
[6] Typical.
[7] See PCB Declaration of Conformance PS058 for details.