Simple Signal Processing
Two standard integrated operational amplifiers, connected as transimpedance amplifiers, generate the current operation. This results in higher output signals than voltage mode detectors. Thus, not only simpler signal processing is enabled, but also an excellent signal-to-noise ratio – even at frequencies above 10 Hz. In addition, the LRM-292 has been designed to use only one supply voltage, thereby reducing the amount of circuitry required.
High-tech in the Smallest Space
The LRM-292 owes its compact design to the tried-and-tested stacked construction method used in the entire PYROMID® series. The radiation-sensitive elements are arranged in close proximity to keep the irradiated area as compact as possible. A robust central window offers protection against external influences. Alternatively, a hermetically sealed housing with soldered central window is available from InfraTec. In both versions, the channel filters inside the housing are protected from mechanical stress and other environmental loads.
Owing to its unique design, the LRM-292 has a field of view (FOV) of 60°, exposing a very large portion of the radiation to the pyroelectric element. This generates high amplitudes of the output signal, which supports external signal amplification.
The LRM-292 in Use
All of these features qualify this space saver for use in mobile or space-optimized devices that require fast and accurate gas concentration measurements. For example, it can be used in medical devices to determine the CO2 content in exhaled air.
Due to its small size, the LRM-292 is also installed in mobile safety technology and can be used in tasks where gas concentrations change rapidly. The small sensor saves lives in mines by monitoring the methane concentration underground and giving advance warning of explosive methane-air mixtures.
With its ultra-compact design and excellent signal-to-noise ratio, the LRM-292 is a unique component globally. InfraTec also offers a variety of adapted narrow-bandpass filters for different gases to be measured.