Brand: Vibro-Meter Description: Piezoelectric Pressure Transducer Condition: Brand New Certificate: COO TEST REPORT WARRANTY LETTER Warranty: 1 year Inventory Qty: 4 Payment Term: T/T Shipping Port: Shenzhen CP232 143-232-000-222 uses VC2 single crystal piezoelectric material and operates in compression mode, providing stable and reliable pressure measurement over an extremely wide temperature range.
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Manufacture |
Vibro-Meter |
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Model Number |
CP232 |
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Ordering Number |
143-232-000-222 |
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Catalog |
Vibration Monitoring |
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Country Of Origin |
Switzerland |
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HS CODE |
8412800090 |
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Dimension |
20*20*8cm |
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Weight |
0.2kg |
Product Features
CP232 143-232-000-222 temperature range is -196°C to +777°C, and it can operate in liquid nitrogen or high-temperature steam environments.
CP232 143-232-000-222 dynamic measurement range is 0.0005 bar to 250 bar, with a peak overload capacity of 350 bar. It can withstand high doses of gamma rays and neutron radiation.
CP232 143-232-000-222 features a bipolar system with shell insulation, sensitivity of 25 pC/bar (typical value), and a frequency response of 2 Hz to 15 kHz. Linearity error is <1%, ensuring accuracy in dynamic pressure measurements.
CP232 143-232-000-222 features a fully welded sealed structure made of NIMONIC alloy 90 material, offering corrosion resistance and vibration resistance.
CP232 143-232-000-222 incorporates an overload protection circuit to prevent sensor damage under abnormal pressure conditions.
Product Using Principle
CP232 143-232-000-222 operates based on the piezoelectric effect: when dynamic pressure acts on the VC2 crystal, the crystal generates a charge signal proportional to the pressure. The signal is output through a bipolar insulation system and requires an external IPC704 signal conditioner to convert the charge into a voltage or current signal for subsequent processing. The transducer has a built-in temperature compensation circuit to ensure stable sensitivity under extreme temperatures.
Product Application
CP232 143-232-000-222 can be used for pressure monitoring in the primary circuit of pressurized water reactors and boiling water reactors.
It can be used for dynamic pressure analysis of nuclear reactor control rod drive mechanisms.
It can be used for gas turbine combustion chamber pressure pulsation monitoring. Combined vibration and pressure diagnosis of steam turbines and compressors.
It can be used for aviation engine combustion stability testing. Real-time dynamic pressure monitoring of rocket propulsion systems.
It can be used for fault prediction in high-pressure hydraulic systems. Condition monitoring of industrial equipment in extreme environments.
