SU696310A1 - Device for measuring thermal inertia factor of temperature sensors - Google Patents

Claims (3)

The invention relates to the field of temperature measurements. Automatic devices are known for measuring the thermal inertia index of thermal sensors, which are based on the principle of the amplitude-time conversion of the output voltage of a thermal sensor that varies according to a law that is close to exponential. The closest in technical essence is a device for measuring the thermal inertia index of thermal sensors, containing a series-connected preamplifier, an active differentiator and a peak detector with a resistive divider, a comparison circuit, the first input of which is connected to the input of the peak detector, and the output - to the trigger input, the other input of which is connected to the input of the peak detector, and the output is connected to the recording unit 3. The drawback of the device is the low measurement accuracy due to active differentiator and peak detector does not provide a sufficiently high steepness of change of the difference in output voltages near the dynamic compensation time point, the occurrence of which is fixed a comparison circuit. The aim of the invention is to improve the measurement accuracy. The goal is achieved by introducing .1 and non-injecting amplifiers with different gains into the device, the outputs of which are connected to the second circuit input through a common load and compared to the inputs and output of the peak detector. The drawing shows the functional diagram of the device. The device for measuring the thermal inertia index of the thermal sensors contains a preamplifier 1, an active differentiator 2, a peak detector 3 with a resistive divider, an injecting amplifier 4 with a gain equal to, a non-ventilation amplifier 5 with gain equal to, a comparison circuit b, trigger 7 and reading unit 8, made in the form of the reference pulse generator 9, the key 10 and the counter 11 pulses. A temperature sensor, such as a thermocouple, is connected to the device input, for which the thermal inertia index must be measured. The device works as follows. Under the influence of temperature jumps, the voltage U (t) at the output of the active differentiator changes according to the law U. | (-t) -KUo where UQ is the steady-state value of the output voltage of the thermal sensor; K is a constant coefficient, depending on the selected body forces and the differentiator; C is an indicator of thermal inertia of a thermal sensor. The voltage Up KU at the output of the peak detector 3 retains its value until the next differentiated signal of the thermal sensor arrives (a peak detector with automatic reset of the result is used) The voltage U from the output of amplifier 5, equal to U2, where K is the divider division factor, is summed on the total load of the amplifiers with the applied voltage U (t). As a result, the second input of the circuit is compared to the voltage and tt) -U, jU (tV-UnU-E Un (2K2-l). Jjv-. -2 Simultaneously with the voltage Oz (t) to the first input of the comparison circuit 6, the voltage and (t) are applied. At the moment of dynamic compensation, the circuit, comparison 6 is triggered, the signal from the output of the comparison circuit translates trigger 7 to the zero position. Trigger 7 starts and switches to the single position at the moment of influence of the leading edge of the thermally differentiated signal to one of its inputs. At the output of trigger 7, a voltage pulse is generated for by the efficiency to strictly proportional to the numerical value of the thermal inertia indicator of the thermal sensor, independent of the temperature effect on the thermal sensor. The output voltage of the trigger controls the readout unit 8. The counter of 11 mplus counts the number of pulses coming from the generator of the reference pulses at its input through the key 10 for the time interval t, during which the key 10 is open. The measurement accuracy of the thermal inertia index of a tsr sensor mainly depends on the error introduced by the circuit compared to 1 when determining time interval t. The introduction of the injecting and noninventing amplifiers into the device doubles the measurement accuracy of the thermal inertia indicator of the thermal sensors. Apparatus of the Invention A device for measuring the thermal inertia indicator of thermal sensors, comprising a series-connected preamplifier, an active differentiator and a peak detector with a resistive divider, a comparison circuit whose first input is connected to the input of the peak detector, and the other input is connected to the input a peak detector, and an output with a recording unit, characterized in that, in order to increase the measurement accuracy, invventing and noninventing amplifiers are introduced into it with different gain factors, output 1 of which, through a common load, are connected to the second input of the comparison circuit, and the inputs of the amplifiers, respectively, to the input and output of the peak detector. Sources of information taken into account at the first expert examination 1. Author's certificate of the USSR No. 300789, cl. G 01 K 7/14, 1969. 2. USSR author's certificate №525862, cl. G 01 K 15/00, 1975. 3. USSR author's certificate for application no. 2450222, cl. G 01 K 15/00, 1977 (prototype).