Innova 1512
Innova 1512
Highly Accurate, Stable, Quantitative, and Remotely Controllable Gas Monitoring System
LumaSense’s Innova 1512 is based on the photoacoustic infrared spectroscopy and delivers superior sensitivity in a very compact form factor. Extremely versatile by design, the 1512 is capable of measuring almost any gas that absorbs infrared light.
- Leverages the unique strengths of the photoacoustic sensor technique
- User-friendly, stable, reliable, and highly accurate
Extremely low-volume flushing possible
Innova 1403
Multipoint Sampler and Doser for Innova Photoacoustic Gas Monitors
The LumaSense Innova 1403 is a reliable, easy-to-use multipoint sampler and doser. It combines with the Innova 1512 photoacoustic gas monitor and a controlling computer featuring the Innova 7650 basic ventilation software to offer numerous monitoring capabilities.
- Increase area monitoring capabilities of the gas monitor by collecting air samples through tubing from up to six sampling points
- Full remote control from a PC with Innova ventilation software
- Factory calibrated dosing system includes automatic calculation of tracer-gas delivered to the dosing location
- Self-test function for verification of the unit’s operation
Description
LumaSense’s Innova 1512 Overview
LumaSense’s Innova 1512 is a highly accurate, reliable, and stable quantitative gas monitoring system. Its measurement system, based on the photoacoustic infrared detection method, is capable of measuring almost any gas that absorbs infrared light.
Gas selectivity is achieved through the use of optical filters. By installing up to five filters, the 1512 can measure the concentration of up to five component gases and water vapor in any air sample. The detection limit is gas-dependent, but is typically in the ppb region. Accuracy of these measurements is ensured by the 1512’s ability to compensate for temperature and pressure fluctuations, water vapor interference, and interference from other gases known to be present.
Benefits
- Selectively measure a wide range of gases / vapors
- Ensure a maximum of only two calibrations a year
- Operate immediately with virtually no warm-up time necessary
- Easily calibrate, configure, and view / analyze data via PC
- Accurately compensate for temperature and pressure fluctuations, water vapor interference, and interference from other known gases
Features
- Linear response over a wide dynamic range
- Remote control capability via TCP/IP network interface protocol
- Expandable up to 24 locations with Innova 1409 Multipoint Sampler; the gas monitor can operate as the system controller for full standalone operation
- Includes BZ7002 calibration software
- Includes BZ7003 offline software to set up the gas monitor without connecting it to a PC and to download data stored in the gas monitor’s internal memories
Innova 1403 Multipoint Sampler and Doser Overview
LumaSense’s Innova 1403 Multipoint Sampler and Doser is designed to provide a flexible, sensitive, and accurate monitoring system. The instrument significantly increases the area monitoring capabilities of an Innova gas monitor by drawing air samples through tubing from up to six sampling points (up to 50 m away) and delivering them to the gas monitor.
Designed for remote control from a PC using a USB interface, the Innova 1403 works with an Innova 1512 or 1412i photoacoustic gas monitor to perform comprehensive air exchange analysis and ventilation efficiency.
Benefits
- Collect air samples from six locations
- Deliver tracer gas to up to three areas
- Reduce wait time with sample collection during prior sample analysis
- Receive errors and warnings on operating status directly in the software
- Ensure accurate results with factory calibration for SF6 and Freon134a
Features
- Pneumatic system constructed of AISI-316 Stainless Steel and PTFE tubing to minimize gas adsorption
- A pressure transducer checks the efficiency of the sampling pump
- Two dosing types available: pulsed injection for decay measurements or constant dose for flow measurements
- Measurement results available in numerical and graphical curve views
