Compared with electrochemical or Catalytic type sensors, what are the advantages of laser type sensors?
Zero Poisoning, No Ageing and No Cross-sensitivity:Electrochemical detectors are always in direct contact with the gas.They are prone to ageing as the measurement principle is based on a chemical reaction depleting the sensor substance.This leads to short life times. This life time decreases when the gas to be measured is present frequently.The response is rarely specific to a single gas,which may lead to costly false alarms.Issues with zero drift for multiple reasons are frequent.Therefore,calibration is necessary in short intervals, which in turn increases the cost-of-ownership for initially low-cost instruments.The sensors are also sensitive to pressure and humidity changes.As the laser gas sensor is an optical detector without direct contact to the gas,it is not at all subject to poisoning or degradation.Humidity and pressure changes around normal atmospheric conditions have no influence.Calibrations are enduring and recovery from high concentrations is instantaneous.
Continuous Sensor Status Monitoring for Functional Safety:The European norm IEC 61508 is regarded as"good practice"for security sensors.It requires functional safety from any device and needs redundancy and constant monitoring of the sensor status.With an optical sensor,this is achieved by monitoring the light source intensity(which is a basic feature of the laser gas detector measurement principle).However,electrochemical gas sensors or pellistors cannot comply with this norm as any testing degrades the sensor performance and due to this operator of security sensitive installations(chemical plants,refineries etc.)will have to replace electrochemical sensors in the future.
High Dynamic Range:Most detection technologies can either measure only low concentrations(e.g. electrochemical detectors below 100 ppm)or high concentrations(catalytic sensors in the % range).The high dynamic range of the laser gas detector makes it very versatile for many applications,without the need to use 2 or 3 different detection technologies in the same instrument to cover the range of interest.
Compared with infrared sensors, what are the advantages of laser sensors?
Both the infrared sensor and the laser detector monitor the absorption of infrared light by the target gas–however,the infrared sensor only achieves rather weak resolution.the infrared sensor detectors select the appropriate wavelength by filtering the light of a thermal emitter through an interference filter.This filter has a spectral resolution which is roughly a factor 1'000 weaker compared to the sharp laser measurement if TDLS.While overlapping gas absorption bands can pose a serious problem to NDIR detectors – particularly with ever-present water absorption bands,the high resolution approach of the laser detectors makes this a non-issue,resulting in Zero Cross-Sensitivity.
Better Long-Term Stability with Single-Channel Systems:the infrared sensor detectors need a second measurement channel as reference in order to monitor the light intensity of the bulb that changes intensity over time due to ageing.As the reference channel has a separate detector and a separate narrow band interference filter,difference in these devices compared with the measurement channel and different ageing can lead to drift.Therefore calibration needs to be relatively frequent. The laser detector uses a special measurement technique connected to proprietary electronics,which extracts the required intensity information from the detector signal.Therefore,there is no need for a reference channel or frequent calibration routines.
Lower Power Consumption:The thermal light bulb of a NDIR detector uses electrical power to generate a broad spectrum of intensities – like a light bulb in a ceiling lamp. The optical filter is tuned to the gas absorption wavelength and therefore uses only a tiny fraction of the emitted light,leaving the main portion of the used electrical power wasted.In contrast to this,the laser diode of the laser detector emits 100% of its light at exactly the wavelength of interest,wasting only a minimal amount due to the conversion efficiency of the laser. Therefore,the laser detector will have lower power consumption in most applications.
Compared with FTIR, what are the advantages of laser type sensors?
FTIR analytical instruments can be used for multiple gas measurements in laboratory and some process applications.However,accurate and fast devices can be expected to be at 10 or 20 times the price point of a laser detector.Standard instruments have susceptible optics(contamination)and measurements in the lower ppm range are difficult.Furthermore they are sensitivity to vibrations and shock and often need expert operators. Bulkiness and relatively high power consumption are not in favor of easy OEM integration,particularly for mechanical in-situ,gas-extractive set-ups.
Compared with solid state sensors, what are the advantages of laser type sensors?
No cross-sensitivity, no influence from environmental parameters:Solid state sensors are sensitive to humidity and generally have poor selectivity for toxic gases. Also,variations in the oxygen content lead to unreliable readings.Exposure to high gas concentrations can lead to irreversible changes to the 0-gas reading,as well as to the sensitivity.On the contrary, cross-sensitivity to other gases,humidity or oxygen is virtually zero for the laser detector if the bands from the absorption fine structure are carefully chosen.There is no direct contact to the gas to be measured.
Low power consumption:A solid state sensor needs to be continuously at high temperature to be operational,which leads to significant power consumption.In applications where this is an issue,e.g. portable instruments,the laser detector could have the advantage of lower power consumption.
What do ACTECH laser type methane sensors have as superiority in comparison with Catalytic type sensors?
1.Intrinsically safe,anti-cross-interference,moisture-proof,dust-proof,shock-proof,calibration free, long service life,fast response,small measurement difference,wide measurement range.
2.Intrinsically safe,no inside highly heat-dissipating element.Catalytic type sensors are based on chemical reactions which may cause high heat in high methane concentration,a hidden danger.
Why ACTECH laser type methane sensors have a better cross interference capacity than Catalytic type sensors?
Catalytic type sensors are essentially combustible gas sensors and principally they could react with every combustible gas (such as gases in the lighter).ACTECH laser type methane sensors adopt single light source which is just selective to methane,as a consequence,they are excellent in anti-cross-interference.
Why laser type methane sensors from ACTECH get better moisture-proof, shake-proof, dust-proof capacities than Catalytic type sensors?
1.The internal components of laser type methane sensors from ACTECH employ the most advance optical communication technology,and are with high reliability and without any movable components,which enable it with very good vibration resistance character.
2.Light source of ACTECH laser type methane sensors do not react to vapor,and just sensitive to methane,thus these kind of sensors are with a strong humidity resistance capacity.
3.ACTECH laser type methane sensors adopt the most advanced TDLS technology,and the detecting accuracy actually will not affect by the light intensity,either by little dust.