SU579569A1 - Gas detector - Google Patents

Description

This invention relates to a technique for examining materials by measuring their total resistance. It can be used in various areas of the chemical industry in the analysis of gases and vapors of substances in the air, in particular hydrocarbons alcohols, hydrogen, carbon monoxide, etc. A device for measuring and indicating carbon monoxide is known, which contains a resistive bridge circuit with an EMF source and an indicator, the sensor being included in a bridge circuit flj. The closest to the technical essence of the proposed is a gas signaling device / containing a semiconductor sensor with a heater, an operational amplifier & p with an output indicator, a source of EMF, 2j. The disadvantage of the device is low noise immunity, especially when working with a high-resistance semiconductor CR sensor of the order of 10-20 M, since the bridge circuit in this case causes large electromagnetic interference. The purpose of the invention is to improve noise immunity and simplify the design. gas detector. This goal is achieved by the fact that the gas detector introduces a variable resistor, the input of the operational amplifier is connected via a variable resistor and an EMF source to ground, and the sensor is connected between the input and the output of the amplifier. FIG. 1 shows the block diagram of the proposed gas meter. The gas detector includes an operational amplifier 1, to the inverting input of which one output of semiconductor sensor 2 is connected and one output of variable resistance 3, the other output of which is connected to the source terminal 4 of a constant EMF. Another source terminal 4 is grounded. The output of the operational amplifier is connected to the second output of the semiconductor sensor and to the indicator 5. The gas detector also contains a heater 6 of the semiconductor sensor. The device works as follows. When the heater 6 is turned on, the semiconductor sensor 2 is heated to a temperature of 300 ° C. The resistance of the heated sensor 10-20 MW. Since the op amp works in

scale mode, to increase the sensitivity of the detector (increase in the transmission coefficient). Variable resistance 3 is chosen to be 500 com-1 Megohm at the nominal value. When the power is turned on to the operational amplifier 1, the indicator lamp 5 lights up. The lamp goes out after setting the corresponding value on the variable resistance 3 Calibrated in percentage of the test gas. Gas detector ready for operation, i

When a gas of a certain concentration in the region of the semiconductor sensor 2 appears, the electrical resistance of the sensor changes, which leads to a change in the transmission coefficient of the operational amplifier 1. At its output, a mismatch signal appears and the indicator lamp 5 lights up. gas detector works in the same way.

FIG. 2 shows the curves of the sensor resistance versus

vapor concentrations of some substances m in the air, obtained using a gas detector.

The described gas detector is simpler in design and has a high noise immunity.

Claims (2)

1. Patent, England 1105046, cl. Q 1 N, 1968. 2. Patent Cliffi No. 3720093, cl. 73-271, 1973. sh V //// at ttttg Put 1.0 Cftf, f /%