EN

Current region and language

Global | English

MH Shop
Technologies and Products
Alle Artikel anzeigen

Use of pyrodetectors for gas analysis

Basic knowledge of infrared measurement technology - NDIR analysis of IR active gases

When are Pyrodetectors the suitable sensors for long-wave gases?

Diesen Beitrag teilen

NDIR gas analysis, an optical measurement method for analyzing the concentrations of IR active gases, is carried out using two infrared components: A radiation source and an infrared detector. Thermal infrared sensors are radiation detectors that experience a temperature change through the absorption of IR radiation. This is then converted into an electrical output signal.

In the class of thermal infrared sensors there are thermoelectric and pyroelectric sensors. Thermopile detectors are often used to measure gas concentrations. Pyroelectric detectors differ in that they have a significantly higher modulation frequency. In addition, unlike thermopile sensors, there is no temperature dependency.

These characteristics make pyroelectric sensors particularly suitable for applications where a fast measurement frequency is required. In the medical field, for example, frequencies >15Hz are required in capnography in order to achieve reliable measurement results and thus reliable indications of a patient's respiratory gases.

The ROHS-compliant MPS pyrodetectors are particularly suitable for use in respiratory gas analysis due to their speed and performance. For measuring frequencies between 5 and 15 Hz, for example in industrial applications, the MPS Lita sensors are the ideal alternative to conventional thermopiles.

Do's and don`ts for the application of IR components

In order not to impair the functionality of the detectors and to ensure optimum performance of the measurement module, we have compiled a few essential recommendations for action:

  • Reduce mechanical influences on pins
  • Avoid contact with windows
  • Observe ESD standards

Electrotechnical notes for the implementation of MPS pyrosensors

 

Please observe:

  • Frequency range according to data sheet
  • Supply voltage according to data sheet
  • Application-specific connection to component housing

Questions on application and implementation

At Micro-Hybrid you will find the entire product range of thermal infrared sensors and the matching IR radiation sources. We will be happy to answer any questions you may have about the application and implementation of detectors.

Dipl. - Ing.

Patrick Sachse

Senior Product Manager

T: +49 36601 592 159

sales@microhybrid.com

Related blog posts

Co2 breathing gas analysis enables safe cycle control

Carbon dioxide in exhaled air - Indicator of medial parameter fertility

Determination of carbon dioxide concentration in respiratory air enables digital monitoring of fertile days in a woman's cycle.

Application Company Technologies and Products
Woman with monthly calendar in hand in front of a white wall

by Margret Hoppert

Behind the Circuits: Dr. Julius Komma - Head of IR & MEMS

Since June 2024, Dr. Julius Komma has been leading the IR & MEMS division at Micro-Hybrid. His team, consisting of engineers in product development and laboratory work, is at the forefront of infrared technology.

Technologies and Products Work-Life

by Fabio Seime

Our Next Generation CO₂ Sensor for Modern Incubators

The new MicroSENS CO₂ 0–20% C 180-HS-PFAS-free builds on the proven 180-HS platform and sets new standards for CO₂ measurement in incubators. With a more compact sensor head, significantly improved repeatability, and a PFAS-free design, it combines precision, ease of integration, and sustainability in a future-ready solution.

EN

This Micro-Hybrid site does not match your location
Based on your IP address, we suggest the following region / language.
There you will find regional information.