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Digital Fiber Amplifier with Two Independent Outputs.
High speed 60 micro second response.
APC Function (Auto Power Control):
The APC function ensures precise sensing even when there are changes in the temperature or environmental conditions.
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LumaSense offers the maket quality photoacoustic-based gas monitoring solutions. The Photoacoustic Multi-gas Monitor 1314 is a highly accurate, reliable and stable quantitative gas monitor. Its measurement principle is based on the photoacoustic infra-red detection method. This means that the 1314 can measure almost any gas which absorbs infra-red light.
Selectivity is achieved through the use of optical filters. By installing up to 5 optical filters in the 1314, it can measure the concentration of up to 5 component gases and water vapor in any air sample. Detection limit is gas-dependent, but is typically in the ppb region. The accuracy of measurements is ensured by the 1314's ability to compensate for temperature and pressure fluctuations, water-vapor interference and interference from other gases known to be present (Cross-compensation). Reliability of measurement results is ensured by regular, automatic self-tests.
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Uses :
- Emission monitoring - of exhausts from chemical processes, Ammonia in stacks, scrubber efficiency and filter break-through
- Process quality control measurements - of trace impurities in pure gas production or SF6 leaks from operational transformers
- Occupational health and safety measurements - of possible production or accumulation of toxic/carcinogenic substances in working areas
- Automotive monitoring - of alcohol content in vehicle exhausts and production of Ammonia and N2O in diesel exhausts
Features :
- Selectively measures a wide range of gases/vapors
- Linear response over a wide dynamic range
- High stability (low drift) makes calibration only necessary 1-2 times a year
- Extremely reliable due to self-testing procedures
- User-friendly procedures for calibrating the monitor, presenting and analyzing measurement data via the PC user-interface
- Accurate - compensates for temperature fluctuations, water-vapor interference and interference from other known gases
- Extremely low-volume flushing possible
- Fits in a standard 19 inch rack and collects samples from points up to 50m away
- Presents measurement data both in tabular and graphic formats - up to 5 gas concentrations and water vapor graphs displayed, simultaneously
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The Andros 6500 offers unparalleled accuracy and performance exceeding its
predecessor, the Andros 6602, which has held the reputation as the highest performing system available for many years. Now taking advantage of the latest technology, Andros brings you a product with superior performance and reliability.
The Non-Dispersive InfraRed system (NDIR) measures gases, controls pneumatic components, communicates via RS-232 or USB with the host, and provides user-defined TTL outputs, as well as analog inputs and TTL Pulse Counter which can be integrated into the data output stream for user convenience.
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The LumaSense Accufiber®TR solution provides temperature monitoring with automatic emissivity correction. Emissivity changes are due to changing material properties during certain types of material deposition or processing. For specular (smooth) surfaces, the deposition surface’s emissivity can be calculated from its reflectance. By constantly measuring this reflectance, the AccufiberTR instrument can automatically perform the emissivity correction in-situ and calculate the surface’s true temperature.
AccufiberTR seamlessly integrates ultra precise reflectance measurements with LumaSense’s class leading, lowest signal-to-noise ratio radiation detectors. If the n and k values are known for the materials, then the amplitude and periodicity of the thin film reflectance (often referred to as “fringes”) at specific wavelengths can be used to calculate film thickness. For thin films, it is critical to use both the highest quality measurement systems and shorter wavelengths to offer “resolution” into the film’s fringes to monitor film thickness.
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Thermal Comfort Datalogger with Transducers :
Poor thermal comfort causes discomfort, headaches and even fatigue. As a result, people suffer both in terms of productivity and overall well being.
LumaSense datalogger Innova - 1221 makes it easier to collect and analyze thermal comfort results. It can be connected to a PC and works with the dedicated Application Software 7301. The 1221 either automatically stores the measurement results for later transfer to a computer or online measurements where the results are directly displayed on the computer screen.
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LumaSense Technologies has developed new Thermal Comfort Manager Software (INNOVA 7701) for the Thermal Comfort Data Logger (INNOVA 1221). If you already have an INNOVA 1221 and are interested in our new software, you can order it directly from our web site. Thermal Comfort Manager Software:
The INNOVA 7701 software is a complete redesign and is fully upgraded to the newest Microsoft.Net® technology based on a SQL Server 2005 database structure making it fully compatible with Microsoft Windows XP. This makes the solution both robust and agile, giving the user a much better tool for handling measurements and performing data processing. The demand for more efficient and operative measurements and quicker access to real-time data has increased tremendously. Moreover, to optimize and shorten time consuming processes, the need to after-process present and historical data is of the outmost importance to maintain flexibility – all of which is incorporated into the application.
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The LumaSense Photoacoustic Field Gas-Monitor Innova - 1412 is a highly accurate, reliable and stable quantitative gas monitor. Its measurement principle is based on the photoacoustic infra-red detection method. This means that the 1412 can measure almost any gas that absorbs infra-red light.
Appropriate optical filters (up to 5 + water vapor) are installed in the 1412's filter carousel so that it can selectively measure the concentration of up to 5 component gases and water vapor in any air sample. Further, the instrument can compensate for interference between the measured gases, using the unique Cross-compensation feature. The 1412's detection limit is gas-dependent but typically in the 10-² ppm region.
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LumaSense's SF6 Leak Detector offers an unmatched combination of performance and convenience. Based on the company’s Photoacoustic Spectroscopy (PAS) technology, the system offers highly accurate, reliable and stable quantitative gas analysis and detection. The growing environmental requirements and pressures regarding the use of SF6 make LumaSense’s system a coveted tool designed for everyday use.
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