1.3 Principle of operation

1.3 Principle of operation

The detection and measurement of carbon monoxide in the Model 300 is based on the absorption of Infra Red (IR) radiation by CO molecules at wave lengths near 4.7 microns. In practice, the Model 300 uses a high energy heated element to generate broad-band IR light. This light is passed through a rotating Gas Filter Wheel which causes the beam to alternately pass through a gas cell filled with Nitrogen, (the Measure Cell) and a cell filled with CO/Nitrogen Mixture (the Reference Cell). This alternation occurs at a rate of 30 cycles/second and causes the beam to be modulated into Reference and Measure pulses. During a Reference pulse, the CO in the gas filter wheel effectively strips the beam of all IR energy at wave lengths where CO can absorb. This results in a beam which is unaffected by any CO in the Sample Cell. During the Measure pulse, the Nitrogen in the filter wheel does not effect the beam which can subsequently be alternated by any CO in the sample cell. The Gas Filter wheel also incorporates an optical chopping mark which superimposes a 360 Cycles/Second Light/Dark modulation on the IR Beam. This high frequency modulation is included to maximize detector signal-to-noise performance.

After the gas filter wheel the IR beam enters the multi-pass sample cell. This sample cell uses folding optics to generate a 16 meter absorption path length in order to achieve maximum sensitivity.

Upon exiting the sample cell, the beam passes through a band-pass interference filter to limit the light to wave length of interest.

Finally, the beam strikes the detector which is a thermoelectricly cooled solid-state photo-conductor.

This detector, along with its pre-amplifier and bias voltage supply convert the light signal into a modulated voltage signal.

The detector output is electronically demodulated to generate two DC voltages, CO MEAS and CO REF. These voltages are proportional to the light intensity striking the detector during the Measure Pulse and Reference Pulse, respectively.

P/N 02163G1 Teledyne API Model 300 CO Analyzer Instruction Manual - Page 3

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Teledyne 300 instruction manual Principle of operation

FAQ

What is the principle of operation of the Teledyne API Model 300 Carbon Monoxide Alarm?

The principle of operation is based on the absorption of Infra Red IR radiation by CO molecules at wave lengths near 4.7 microns.

How does the Gas Filter Wheel work in the Model 300?

The Gas Filter Wheel causes the beam to alternately pass through a gas cell filled with Nitrogen, the Measure Cell, and a cell filled with CO/Nitrogen Mixture, resulting in modulated Reference and Measure pulses.

What are the components used in the detection process of the Model 300?

The detection process includes a multi-pass sample cell, folding optics, a band-pass interference filter, and a thermoelectrically cooled solid-state photo-conductor.