Detector - Import export

This 2 channel premium pyrodetector offers an optimal performance for the measurement of carbon compounds (CxHy) through the narrowband infrared filter with a CWL of 3400 ± 20 nm and a HBW of 140 ± 20 nm as well as an additional reference channel (CWL: 3910 ± 28, HBW: 70 ± 10 nm). The particularly high detectivity of up to 4.0*10^8 cm√Hz/W as well as the very high sensitivity of up to 200000 V/W guarantee precise and long-term stable measurement results. The pyroelectric detector allows demanding applications in gas measurement and gas analysis in various industries such as aerospace, medical or industrial process technology. Two detector chips with a ceramic pyroelectric thin film diaphragm form the core of this 2 channel pyroelectric detector. The low microphone effect due to the low membrane mass, the very low temperature dependence and an amplified signal in current modes enhance the measurement signals of the dual IR detector.

In order to ensure that castings, valves, pumps, hoses and other components or groups have been manufactured free of leakage, they are tested in non-destructive leakage tests. Oxygen, air, nitrogen or sulfur hexafluoride (SF6) can be used as the test medium.

"The dual channel IR thermopile for NDIR gas analysis of halothane (C2HBrClF3) with a CWL of 7665 ± 77 nm and a HBW of 242 ± 40 nm. The signal strength is of the high sensitivity IR detector is comparable to that of a pyro detector: high detectivity up to 6.27*10^8 cm√Hz/W and high sensitivity up to 171 V/W. These values can be achieved by filling with krypton. The MTS2SENS200 halothane provides reliable readings in environments between -20 and 85 °C, e.g. for anesthetic gas monitoring. The interference absorber, an integrated thermistor for reference temperature determination and the reference channel (CWL: 5060 ± 25, HBW: 100 ± 15 nm) are further important product features for long-term use in demanding medical applications. Two sensor chips with 200 BiSb/Sb thermocouples each form the basis of this premium detector. The narrow-band optical filter windows are specially adapted to the analysis of target gases in the application.

The MTS2SENS200 sulfur dioxide is tuned by its filter window for the analysis of sulfur dioxide (SO2) with a CWL of 7300 ± 50 nm and a HBW of 180 ± 20 nm. The signal strength of the detector is comparable to that of a pyro detector - high detectivity of up to 6.27*10^8 cm√Hz/W and high sensitivity of up to 171 V/W with krypton as filling gas. The dual-channel IR thermopile for NDIR gas analysis has 2 chips in the core, each with 200 BiSb/Sb thermopairs. The interference absorber, an integrated thermistor for reference temperature determination and the reference channel (CWL: 5060 ± 25, HBW: 100 ± 15 nm) are further important product features for long-term use in demanding applications. The MTS2SENS200 sulfur dioxide provides reliable measurement values in environments between -20 and 85 °C, e.g. for biotechnology or quality assurance. Our sales team will be happy to discuss further scale prices and possible individual customizations with you.

The premium dual channel thermopile has been specifically designed for demanding measurement applications for the analysis of N2O (nitrous oxide) in environments from -20 to 85 °C. It achieves an exceptionally high detectivity of up to 6.27*10^8 cm√Hz/W and a sensitivity of up to 171 V/W. This signal quality is comparable to pyroelectric detectors. The infrared filter with a CWL of 4525 ± 20 nm and a HBW of 83 ± 6 nm is precisely matched to the optical characteristics of the target gas. Medical technology, especially patient and anesthetic gas monitoring, are typical application fields for the MTS2SENS200 nitrous oxide. The integrated thermistor for reference temperature determination and an additional reference channel (CWL: 3910 ± 28, HBW: 70 ± 10 nm) complete the detector. The dual detector MTS2SENS200 nitrous oxide is based in the core on 2 chips with 200 bismuth-antimony/antimony thermocouples each.

The IR Thermopile can be used to measure methanol (CH4O / half structure formula: CH3OH) & ethanol (C2H5OH) at ambient temperatures between -20 and 85 °C. With its very high detectivity of up to 6.27*10^8 cm√Hz/W and a sensitivity of up to 171 V/W, the 2-channel detector is the high end solution for demanding applications in medical technology or industrial production and process applications. The optical filter window with a CWL of 9663 ± 80 nm and a HBW of 240 ± 40 nm is specifically designed for NDIR gas analysis of these typical alcohol compounds. These signal values, which are comparable to pyrodetectors, are achieved by the interaction of chip design, integrated thermistor for reference temperature determination, an interference absorber and backgassing with krypton. The precise measurement results are further secured by the second reference channel (CWL: 5060 ± 25, HBW: 100 ± 15 nm).

The dual-channel thermopile is optimized for the measurement of carbon monoxide (CO) through an optical filter with a CWL of 4650 ± 40 nm and a HBW of 180 ± 20 nm. Medical technology, process or room air analysis are typical application fields for the MTS2SENS200 carbon monoxide. The MTS2SENS200 carbon monoxide dual detector is suitable for demanding applications at ambient temperatures from -20 to 85 °C. It has a particularly high detectivity. It has a particularly high detectivity of up to 6.27*10^8 cm√Hz/W and a sensitivity of up to 171 V/W. This signal quality is comparable to pyro detectors. The integrated thermistor for reference temperature determination and an additional reference channel (CWL: 3910 ± 28, HBW: 70 ± 10 nm) complete the product. The detector has as technological basis 2 chips with 200 bismuth antimony/antimony thermocouples each. Other applications of the detector include metabolic monitoring, spirometry, biotechnology and food technology.

2 channel premium thermopile sensor for the measurement of hydrocarbons (HC). IR filters with a CWL of 3400 ± 20 nm and a HBW of 140 ± 20 nm and a particularly high detectivity of up to 6.27*10^8 cm√Hz/W as well as a very high sensitivity of up to 171 V/W guarantee precise and long-term stable measurement results. The Thermopile is suitable for demanding industrial applications such as industrial gas measurement, coolant monitoring or process analysis. Two detector chips with 200 bismuth antimony/antimony thermopiles each form the core for this 2 channel thermopile. The signal quality is comparable to that of pyroelectric detectors. The integrated thermistor for reference temperature determination, an interference absorber and an additional reference channel (CWL: 3910 ± 28, HBW: 70 ± 10 nm) optimize the measurement results of the dual IR detector. For this product, customer-specific adaptations are possible as well as agreements on graduated prices.

The narrow-band filter of the MTS2SENS200 carbon dioxide with a CWL of 4265 ± 25 nm and an HBW of 120 ± 10 nm is optimized for the measurement of carbon dioxide (CO2) with reference channel (CWL: 3910 ± 28, HBW: 70 ± 10 nm). The detector is characterized by an integrated thermistor for reference temperature determination and an interference absorber. They both ensure that the signal is converted as efficiently as possible from radiant energy to thermal energy. The basis of the IR thermopile MTS2SENS200 carbon dioxide are 2 chips with 200 bismuth-antimony/antimony thermocouples each. Thanks to them and the filling with krypton, the detector convinces with a detectivity of up to 6.27*10^8 cm√Hz/W and sensitivity of up to 171 V/W. The signal quality is comparable to pyroelectric detectors. The detector can be used at ambient temperatures between -20 and 85 °C in numerous industrial, aerospace and medical applications: Exhaust gas measurement, breath gas analysis or patient monitoring.

The high sensitivity 1-channel thermopile detector is based on MEMS technology. The very high detectivity of up to 12.2*10^8 cm√Hz/W, as well as the high sensitivity of up to 501 V/W, are made possible by two factors. The radiation-sensitive thermocouples are aligned to a focal point. A krypton gas filling further increases the detectivity and sensitivity of the thermopile. The filter measures in the transmission range from 8 to 14 µm. This means that there is no absorption in the H2O bandwidth range. Influences due to humidity are excluded. These properties allow the use in demanding applications for non-contact temperature measurement in industry, like temperature monitoring of melting processes in the glass and plastics industry or temperature monitoring of engines and brakes in the automotive sector. The detector can be used at ambient temperatures between -20 and 85 °C. An integrated thermistor for intrinsic temperature monitoring can compensate external temperature influences.

2 sensor chips, each with 200 bismuth-antimony/antimony thermopairs, form the basis of this thermopile detector. Incident IR radiation creates thermal diffusion currents of the two different metals (Seebeck effect). The signal strength of the highly sensitive IR sensor is comparable to that of a pyro detector: high detectivity up to 6.27*10^8 cm√Hz/W and high sensitivity up to 171 V/W (detector with the filling gas Krypton in the TO housing). The infrared filter windows are ideal in their optical characteristics for the analysis of flouranes with a CWL of 8620 ± 45 nm and a HBW of 540 ± 45 nm. The interference absorber, an integrated thermistor for reference temperature determination and the reference channel (CWL: 5060 ± 25, HBW: 100 ± 15 nm) are further important features for reliable measurements in demanding medical applications. The MTS2SENS200 flourane provides reliable measurements in environments between -20 and 85 °C, e.g. for anesthetic gas monitoring.

The MEMS-based MTS1TEMP56 detects infrared radiation for non-contact temperature measurement. The 56 silicon thermopiles absorb the incoming radiated energy. The integrated mass absorber ensures the efficient conversion of the radiated energy into thermal energy. The thermocouples convert this thermal energy into electrical energy, which is output as a measurement signal. The single channel thermopile is the best choice for mass applications with quantities above 50000 pieces per year in medical and life science applications or in building automation. The TO46 package with small dimensions makes this component especially suitable for mobile devices. With a detectivity up to 0.67 *10^8 cm√Hz/W as well as a sensitivity up to 31 V/W, the materials offer reliable measurement results at a very good price/performance ratio. Nitrogen was used as backfill gas and a filter with a transmission cut on 5.5 µm. ATTENTION: 1 piece packaging unit contains 200 detectors each!

The MTS1HIGHTEMP is a high-sensitivity, single-channel thermopile detector for precise, non-contact temperature measurement. Tanks to the housing with a soldered filter the detector is resistant to humidity, aggressive gases and other environmental influences. The high detectivity of up to 12.2*10^8 cm√Hz/W and the high sensitivity of up to 501 V/W are achieved by back gassing with krypton and the special chip design. Influences by humidity in the measuring environment are eliminated by a filter used in the transmission range from 8 to 14 µm. These properties allow the use in applications with high requirements, such as temperature monitoring of thermally indexed process parameters in the metal industry or testing of maintenance-relevant properties in the solar semiconductor industry. The detector can be used at ambient temperatures between -20 and 180 °C. An integrated thermistor for intrinsic temperature monitoring can compensate external temperature influences.

2 channel premium thermopile detector for IR gas analysis of nitric oxide (NO) with a CWL of 5300 ± 30 nm and a HBW of 200 ± 20 nm. Application areas of such measurement applications are mainly in the industrial gas measurement of process gases or exhaust gases. The particularly high detectivity of up to 6.27*10^8 cmHz^1/2/W, as well as the very high sensitivity of up to 171 V/W, provide a signal quality comparable to pyroelectric detectors. The integrated thermistor for reference temperature determination, an interference absorber and an additional reference channel (CWL: 3910 ± 28, HBW: 70 ± 10 nm) optimize the measurement results of the dual IR detector. Storage and operation can be performed between -20 and 85 °C. Two sensor chips with 200 bismuth antimony/antimony thermopiles each form the core for the 2 channel thermopile MTS2SENS200 nitrogen monoxide. Due to its high-end materials, the thermopile is particularly durable and delivers precise measurement results.

The MicroSENS 180-HS is an NDIR sensor for measuring 5 vol.-% CO2 in cell incubators. So our diffusion sensor is indispensable for controlling ideal cell and tissue growth. The sensor head is placed in the incubation chamber to measure the gas concentration in the cell culture environment. Based on IR absorption of the gas molecules the sensor determines the concentration of CO2. Our CO2 gas sensor convinces with a high reliability and a long lifetime thanks to its specifically developed dual-beam IR method without drift and susceptibility to interference. Decontaminate the CO2 diffusion sensor in an easy, effective and reliable way by heat sterilization at typ. 180 °C. Thanks to the digital and analogue interfaces, the sensor is easy to integrate. Find all technical information in our data sheet. Benefit from precise and reliable measurement of CO2, easy handling and minimal maintenance costs.

With its very high detectivity of up to 4.0*10^8 cm√Hz/W and a sensitivity of up to 200000 V/W, the 4-channel detector is the high end solution for demanding test applications. The detector is designed for the following gases: Water Vapor (H2O) (CWL: 6580 ± 40, HBW: ± 35 nm), Carbon Dioxide (CO2) (CWL: 4265 ± 25, HBW: 120 ± 10 nm) and alcoholic compounds (CWL: 9663 ± 80, HBW: 240 ± 40 nm). The precise measurement results are backed up by the reference channel (CWL: 3910 ± 28, HBW: 70 ± 10 nm). The pyrodetector is suitable for test setups and teaching at ambient temperatures between -20 and 85 °C. The pyroelectric detector is characterized by the wide spectral sensitivity 2 - 15 µm (optimized from 3 - 5 µm), the high sensitivity with a modulation frequency up to 100 Hz. The low microphone effect due to the low membrane mass, the very low temperature dependence and amplified signal in current mode make the MPS4SENS TEST less sensitive to external interferences.

The narrow band IR filters of the MPS4SENS 3C-2 carbon dioxide enhance the measurement of carbon monoxide (CO) (CWL: 4650 ± 40, HBW: 180 ± 20 nm), carbon dioxide (CO2) (CWL: 4415 ± 30, HBW: 60 ± 10 nm) and carbon compoundsn (CWL: 3400 ± 20, HBW: 140 ± 20 nm) with reference channel (CWL: 3910 ± 28, HBW: 70 ± 10 nm). The detector covers a wide range of applications in aerospace, medical, industry and environmental technology at ambient temperatures between -20 and 85 °C. Only Micro-Hybrid develops and manufactures 4-channel pyroelectric detectors with a thin film membrane made of ceramic pyroelectric material in a TO39 package. This high performance material gives the detector a very high detectivity of up to 4.0*10^8 cm√Hz/W and a high sensitivity of up to 200000 V/W. The unique detector design of Micro-Hybrid enables the high read-out rate up to 100 Hz as well as the short response time for reliable measurement results in NDIR gas analysis.

The NDIR emitter kit made by Micro-Hybrid is a set of the most frequently used IR-emitters of the JSIR 350 series and a CO2 IR-detector of the MTS 200 series ith this set you get a possibility to order smaller quantities available at short notice and evaluate our products or test different combinations of components in your measurement system. This set may also help you to design your setup. Our bundle can otherwise come into use for educational purposes on colleges and universities for electronic and measurement applications training or single use assemblies for bachelor or master theses. In Addition engineers may use it for testing different set ups and preseries products or prototypes.

Two channel premium pyrodetector detector on TO39 header for measurement of sulfur hexafluoride (SF6). The detector suits applications of industrial gas measurement or monitoring of insulation gases in the field of production and process engineering at ambient temperatures between -20 and 85 °C. With a CWL of 10540 ± 100 nm and a HBW of 690 ± 100 nm, the narrowband optical filter provides ideal values for precise analysis of the target gas. In addition, there comes a reference channel with the CWL: 5060 ± 25 as well as the HBW: 100 ± 15 nm. With a very high detectivity of up to 4.0*10^8 cm√Hz/W and sensitivity of up to 200000 V/W, the signal quality remains unique in this technology range. The detector features a broad spectral sensitivity 2 - 15 µm (optimized from 3 - 5 µm), a high sensitivity with a modulation frequency of up to 100 Hz, a low microphone effect due to the small membrane mass, very low temperature dependence and an amplified signal in current mode.

The premium dual-channel pyrodetector meets the most demanding measurement applications for the analysis of N2O (nitrous oxide) in environments from -20 to 85 °C. It achieves an especially high detectivity of up to 4.0*10^8 cm√Hz/W and sensitivity of up to 200000 V/W. The optical filter with a CWL of 4525 ± 20 nm and a HBW of 83 ± 6 nm as well as an additional reference channel (CWL: 3910 ± 28, HBW: 70 ± 10 nm) match the characteristics of the gas exactly. NDIR gas analysis in aerospace, industrial process and exhaust gas measurement or anesthetic gas monitoring in medical are typical application fields for the MPS2SENS nitrous oxide. The pyroelectric detector shows less sensitivity to external influences through internal signal amplification. Likewise, temperature fluctuations have only a minor influence due to the low thermal mass of the membrane. The special Micro-Hybrid product design allows a higher read-out rate up to 100 Hz and short response times of the dual detector.

2 channel premium thermopile sensor for the measurement of hydrocarbons (HC). IR filters with a CWL of 3400 ± 20 nm and a HBW of 140 ± 20 nm and a particularly high detectivity of up to 6.27*10^8 cm√Hz/W as well as a very high sensitivity of up to 171 V/W guarantee precise and long-term stable measurement results. The Thermopile is suitable for demanding industrial applications such as industrial gas measurement, coolant monitoring or process analysis. Two detector chips with 200 bismuth antimony/antimony thermopiles each form the core for this 2 channel thermopile. The signal quality is comparable to that of pyroelectric detectors. The integrated thermistor for reference temperature determination, an interference absorber and an additional reference channel (CWL: 3910 ± 28, HBW: 70 ± 10 nm) optimize the measurement results of the dual IR detector. For this product, customer-specific adaptations are possible as well as agreements on graduated prices.

This premium pyroelectric quad detector is tailored for measurement applications for the analysis of nitrogen oxides (NOX) in environments from -20 to 85 °C. The filters determine the infrared detection of the following gases: water vapor (H2O) (CWL: 6580 ± 40, HBW: ± 35 nm), nitric oxide (NO) (CWL: 5300 ± 30, HBW: ± 20 nm), sulfur dioxide (SO2) (CWL: 7300 ± 50, HBW: 180 ± 20 nm) and an embedded reference channel (CWL: 5060 ± 25, HBW: 100 ± 15 nm). The four-channel IR pyrodetector achieves a high detectivity of up to 4.0*10^8 cm√Hz/W and sensitivity of up to 200000 V/W. The MPS4SENS NOX provides reliable measurement values in ambient temperatures between -20 and 85 °C, e.g. for industrial gas measurement or process analysis in various industry and manufacturing areas, such as chemical, textile, environmental technology, recycling or exhaust gas technology. Micro-Hybrid is the only manufacturer of pyroelectric 4-channel detectors with a high performance membrane in a TO39 package.

The four-channel pyrodetector is optimized for gas analysis during anesthesia by four optical filters for the following gases: carbon dioxide (CO2) (CWL: 4265 ± 25, HBW: 120 ± 10 nm), nitrous oxide (N2O) (CWL: 4525 ± 20, HBW: 83 ± 6 nm), desflurane (CWL: 8224 ± 40, HBW: 240 ± 24 nm) and isoflurane (CWL: 8550 ± 40, HBW: 180 ± 18 nm). Medical, especially patient and anesthetic gas monitoring, represent typical application fields for the MPS4SENS anesthesia. The pyrodetector is designed for applications in environments ranging from -20 to 85 °C. The very high detectivity of up to 4.0*10^8 cm√Hz/W as well as the very high sensitivity of up to 200000 V/W provide an extraordinary signal quality in the field of pyroelectric detectors. The quad detector is based on 4 sensor chips with a thin film CPM membrane. Thanks to the Ceramic Pyroelectrical Material (CPM) and the unique product design the detector convinces with a high read-out rate up to 100 Hz as well as with the short response time.

The pyro-detector measures methanol (CH4O/half structure formula: CH3OH) & ethanol (C2H5OH) at ambient temperatures between -20 and 85 °C. With its high detectivity of up to 4.0*10^8 cm√Hz/W and a sensitivity of up to 200000 V/W, the 2-channel detector represents the high end solution for demanding applications in medical or industrial production and process applications. The optical filter with a CWL of 9663 ± 80 nm and a HBW of 240 ± 40 nm combined with the reference channel are specially designed to analyze typical alcohol compounds. The exceptional signal values result from the combination of a broad spectral sensitivity of 2 - 15 µm (optimized from 3 - 5 µm), a high sensitivity with a modulation frequency of up to 100 Hz, a low microphone effect due to the low membrane mass, very low temperature dependence and an amplified signal in current mode. The reliable measurement results are furthermore secured by a high read-out rate up to 100 Hz as well as by the short response time.

The 2 channel premium pyrodetector is specially designed for the analysis of nitric oxide (NO). The optical filter with a CWL of 5300 ± 30 nm and a HBW of ± 20 nm as well as an additional reference channel (CWL: 3910 ± 28, HBW: 70 ± 10 nm) optimize the measurement results of the dual IR detector. Its main application lies in the measurement of process gases or exhaust gases in industrial production and process engineering. Storage and operation can take place between -20 and 85 °C. The particularly high detectivity of up to 4.0*10^8 cm√Hz/W as well as the very high sensitivity up to 200000 V/W provide an extraordinary signal quality in the sector of pyroelectric detectors. Two sensor chips with a thin film CPM membrane form the core of the dual detector MPS2SENS nitrogen monoxide. Thanks to the Ceramic Pyroelectrical Material (CPM) and the unique product design the detector features a high read-out rate up to 100 Hz as well as a short response time.

The pyroelectric detector with 2 channels is precisely made for measuring halothane (C2HBrClF3). With a CWL of 7665 ± 77 nm and a HBW of 242 ± 40 nm, the narrow-band filter combined with a reference channel (CWL: 5060 ± 25, HBW: 100 ± 15 nm) ensures precise results. Its signal strength is exceptional in the range of pyroelectric detectors: High detectivity up to 4.0*10^8 cm√Hz/W and high sensitivity up to 200000 V/W. The MPS2SENS halothane provides reliable detections in environments between -20 and 85 °C, e.g. for anesthetic gas monitoring. The detector features two chips with a thin film membrane made of ceramic pyroelectric material. The high read-out rate up to 100 Hz as well as the short response time ensure precise and fast measurement results for NDIR gas analysis. The low microphone effect, the low temperature dependence as well as the amplified signal in current mode are further important product features for long-term use in demanding medical applications.

The high detectivity up to 4.0*10^8 cm√Hz/W as well as the high sensitivity up to 200000 V/W characterize the MPS2SENS flourane. The optical characteristics of the infrared filter windows perfectly suit the analysis of flouranes (CWL of 8620 ± 45 nm, HBW of 540 ± 45 nm, reference channel with CWL: 5060 ± 25, HBW: 100 ± 15 nm). The MPS2SENS sulfur dioxide provides reliable readings in environments between -20 and 85 °C for NDIR gas measurement in medical applications, e.g. anesthetic gas monitoring. The pyroelectric detector has 2 chips with a thin film CPM membrane in the core. (CPM: Ceramic Pyroelectrical Material). Other key product features for long-term use in demanding applications: wide spectral sensitivity 2 - 15 µm (optimized from 3 - 5 µm), high sensitivity with a modulation frequency of up to 100 Hz, low microphone effect due to the low membrane mass, very low temperature dependence, amplified signal in current mode.

The dual channel pyrodetector is specially designed for the measurement of carbon monoxide (CO) using an optical filter with a CWL of 4650 ± 40 nm and a HBW of 180 ± 20 nm. Medical, industrial gas analysis and environmental technology are typical fields of application for the MPS2SENS carbon monoxide. The dual detector meets demanding needs at ambient temperatures ranging from -20 to 85 °C. It has a particularly high detectivity of up to 4.0*10^8 cm√Hz/W and sensitivity of up to 200000 V/W. An additional reference channel (CWL: 3910 ± 28, HBW: 70 ± 10 nm) completes the product. The detector is equipped with 2 chips with a thin film membrane made of ceramic-pyroelectric material as technological basis. The unique detector design of Micro-Hybrid enables the high read-out rate up to 100 Hz as well as the short response time and guarantees precise and fast measurement results for NDIR gas analysis.

The narrow band filter of the MPS2SENS carbon dioxide with a CWL of 4265 ± 25 nm and a HBW of 120 ± 10 nm is optimized for the measurement of carbon dioxide (CO2) with reference channel (CWL: 3910 ± 28, HBW: 70 ± 10 nm). The detector suits for demanding applications in medical, industry and environmental technology. With its very high read-out rate of up to 100 Hz and a short response time, it provides precise measurement results reliably and quickly. The pyrodetector MPS2SENS carbon dioxide is based on 2 chips with a thin film CPM membrane. Thanks to the Ceramic Pyroelectrical Material (CPM) the detector features a very high detectivity of up to 4.0*10^8 cm√Hz/W and sensitivity of up to 200000 V/W. The signal quality of our pyroelectric sensors is unchallenged. The detector operates within ambient temperatures ranging from -20 to 85 °C and covers a wide range of applications: NDIR gas analysis, industrial process and exhaust gas measurement, and respiratory gas monitoring.