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Wet/Wet Differential Pressure Transmitter, Stainless Steel and Brass Construction

Item# PX157-005DI

Wet/Wet Differential Pressure Transmitter, Stainless Steel and Brass Construction Wet/Wet Differential Pressure Transmitter, Stainless Steel and Brass Construction

Description

The OMEGA PX157 transmitter provides an accurate, reliable, and economical means for monitoring differential pressures in HVAC automation, pneumatic systems, and process control. The output can be easily interfaced with chart recorders, data loggers, and computerized monitoring and control systems. Modern, low- pressure chemical vapor deposition methods provide simple, stable molecular bonds between a proven metal diaphragm and a polysilicone strain gage bridge. The integral metal diaphragm and polysilicone bridge are virtually unaffected by shock, vibration, or mounting.
PX157-005DI
  • bvseo_sdk, java_sdk, bvseo-4.0.0
  • CLOUD, getAggregateRating, 1501ms
  • REVIEWS, PRODUCT
  • bvseo-msg: Execution timed out, exceeded 1,500ms;
  • Liquids Can Be Applied to Both Ports
  • Zero and Span Adjustments for Field Calibration
  • Rugged Steel NEMA-4 Enclosure
  • Bidirectional Ranges Available
Connection Size
Connection Type
Maximum Ambient Temperature
Maximum Pressure
Measurement Type
Minimum Pressure
Output Type
Quantity Price each
1-4 C$760.00
5-10 C$729.60
11-24 C$714.40
25-49 C$684.00
50-99 C$676.40
100+ C$661.20

0 In Stock

Lead Time: 6 weeks

Product Specs

  • Accuracy Value ±0.75% FS
  • Excitation 24 V (2 wire) DC unregulated
  • Maximum Ambient Humidity 5 to 99% RH (non-condensing)
  • Maximum Compensation Temperature -30°C (-22°F)
  • Minimum Compensation Temperature -30°C (-22°F)
  • Pressure Burst Pressure 3x FS
  • Wetted Materials Wet Diaphragm

Description

The OMEGA PX157 transmitter provides an accurate, reliable, and economical means for monitoring differential pressures in HVAC automation, pneumatic systems, and process control. The output can be easily interfaced with chart recorders, data loggers, and computerized monitoring and control systems. Modern, low- pressure chemical vapor deposition methods provide simple, stable molecular bonds between a proven metal diaphragm and a polysilicone strain gage bridge. The integral metal diaphragm and polysilicone bridge are virtually unaffected by shock, vibration, or mounting.

  • bvseo_sdk, java_sdk, bvseo-4.0.0
  • CLOUD, getReviews, 1500ms
  • REVIEWS, PRODUCT
  • bvseo-msg: Execution timed out, exceeded 1,500ms;
  • bvseo_sdk, java_sdk, bvseo-4.0.0
  • CLOUD, getContent, 1501ms
  • QUESTIONS, PRODUCT
  • bvseo-msg: Execution timed out, exceeded 1,500ms;