Modular Universal Differential Pressure Transmitters

Modular Universal Differential Pressure Transmitters

The series MEDS, MKDS, MUDS, MHDS are designed to detect differential pressures in liquid and gaseous media. Typical areas of application are flow, return in heating systems, as well as filters, level, volume and compressors. Beyond facilities equipment application, these transmitters can also be used for chemical industry and process engineering.

Type: MHDS | ID: HD

Tekniske egenskaber:

  • Pressure: differential
  • Ranges from 10 mbar … 100 bar
  • Udgang: 4...20 mA
  • Supply voltage: current loop, 15…30VDC
  • Accuracy: 0,1%, 0,075%, 0,2% of span
  • Degree of protection: IP65
  • Medium contact parts stainless steel 1.4435
  • Process connection 1/4-18NPT
  • Display with programming keys
  • Turn down up to 100:1
  • Link to website

 

Type: MUDS | ID: JR

Tekniske egenskaber:

  • Input: Differential pressure
  • Ranges: 0 … 1 Bar up to 10 Bar
  • Output: 4…20 mA / 0…10 VDC
  • Voltage supply: 9…35 VDC / 12…35 VDC / 12…24 VAC
  • Accuracy: see technical data
  • Process connection: 2x 1/4″ socket connection (VA inserts)
  • Medium: liquids and gases
  • Electrical connection: several plugs / cable
  • Temperature range: -40…+80 °C (operation)
  • Konfiguration: Software
  • Material casing: PBT GF 30 / 1.4571 / Aluminum (anodized)
  • Protection class: at least IP65
  • Link to website

 

Type: MKDS | ID: MP

Tekniske egenskaber:

  • Pressure: differential
  • Ranges from 75 mbar up to 70 bar
  • Udgang: 4...20 mA
  • Supply voltage: current loop, 12…30VDC
  • Accuracy: 0,1%, 0,075%, 0,2% of span
  • Degree of protection: IP65
  • Medium contact parts stainless steel 1.4435
  • Process connection 1/4-18NPT
  • Turn down up to 100:1
  • Link to website

Key Concepts and Applications:

Pressure differential measurement, often referred to as differential pressure measurement, is the process of measuring the difference in pressure between two points in a system. This is commonly used in various applications, including fluid flow measurement, filter monitoring, and level measurement in tanks.

Example Application: Flow Measurement:

In flow measurement, a differential pressure device like an orifice plate is installed in a pipeline. As the fluid flows through the orifice, a pressure drop occurs due to the restriction. The differential pressure sensor measures this drop, and the flow rate (Q) can be calculated using the Bernoulli equation and flow coefficients.

Summary:

Differential pressure measurement is a versatile and widely used method for monitoring and controlling various industrial processes. Understanding the principles, types of sensors, and applications can help in selecting the appropriate technology and ensuring accurate measurements.