Mipex Gas Sensors
MIPEX TECHNOLOGY proudly manufacture a unique range of ultra low power inrfared gas sensors protected by number of patents. The MIPEX NDIR gas sensors utilize patented technology of Light Emitters and Photodiodes based on A2B4-A2B6 solid state alloys which are highly effective for hydrocarbon (HC) and carbon dioxide (CO2) detection. These products are the results of long-term research into sensor technologies and developent of the production solutions.
The advanced design of unique miniature IR gas sensors makes them ideal for solar, battery powered and wireless application.
MIPEX miniature IR gas sensors are applied to all industrial safety segments and have distinctive features including:
- Long-term operation;
- Ergonomics and operability;
- Resistance to corrosion environment influence;
- Resistance to destabilizing temperature factors.
Integrated solution with use of innovation methods in manufacture of materials and electronics together with unique capacity at peak efficiency of power consumption – we see such NDIR technology. And today we create such one for you.
In its modern form NDIR technology is a result of long-term process of development, inspections and the work of many professionals.
Devices based on NDIR (non-dispersive infrared) technology appeared in the second half of the 20thcentury. At that time optical gas analysis sensors were sufficiently bulky, as they required use of mechanical parts – a choppers: a rotating discs with built-in interference filters providing signal modulation from the lamp. But by the nineties the technological progress allowed to take considerable step forward and optical sensors obtained a number of significant improvements.
The first improved variant was developed in mid of 1990s by specialists of E2V company. A modern flashing lamp as IR source allowed disposing of mechanical chopper, on the other hand pyroelectric optical sensors as detectors allowed significantly reducing dimensions and sudden improving reliability. Pyroelectric detectors provided high specification stability at temperature change, as they had the same sensitivity within the whole spectral range. Besides, the high radiate power of the lamp within the measurement band provided possibility to obtain the required sensitivity characteristics of the sensor without use of mirror system; lamp signal power turned out to be sufficient for effective measurement of gas concentration provided by the light reflected from the walls of gas cell and accepted by pyroelectric optical sensor.
This technology of optical IR sensor has been certainly successful, it has proved reliability and was reproduced by several manufacturers with different modifications (in particular, by Dynament, Clair Air, CTL, etc.) and at present it is widely used by many companies in the world.
However, significant disadvantage of gas sensor, which operation is based on this technology, is demand of great power. Its excessively high power consumption (not less than 150...200 mW for methane detection) is a serious barrier for its further adaptation to needs of modern production: manufacturing of independent and unattended gas analyzers with wireless interface.
But the science forges ahead. Alternatively with this technology throughout the years in many countries, and mostly in Russia and UK, another optical technology of hydrocarbon gas analysis was developed. This technology was based on use of semiconductor elements: LEDs and photo diodes operating within spectral range 3000–4000 nm, as it is shown below.
Sensor stability in conditions when characteristics (spectrum position, sensitivity and radiation power) of photo detectors and LEDs are subject to serious changes under the action of temperature, was supported by means of development of new LED types, which have optimized radiation spectrum and use of special signal processing algorithm. It provided high stability for sensor within operating temperature range.
Long-term stability of sensors was achieved by use of photo diodes specially developed for this project based on thin films of solid solutions for PbSe – CdSe system, which are about 10 times more sensitive than pyroelectric photo detectors and have incomparably higher stability both temperature and long-term ones comparing to photonic photo detectors of other types used earlier. We have developed, created and now commercially manufacture gas analyzing sensors by the unique revolutionary technology.
Innovations used in electrooptical components, materials, electronics open up new prospects of for using MIPEX sensors in industry, housing and public utilities, energy sector, coil, oil and gas production, transportation and storage.
Mipex sensors deliver
- Operation within the wide temperature range
- Low humidity influence
- Long term stability
- Industry approved size 16.6x20mm
- Microcontroller inside
- Immunity for harsh environment
- Long life
For further information see the Mipex range of sensors in our product pages