SU657275A1 - Device for converting temperature into pulse recurrenge frequency - Google Patents

Claims (1)

36 capacitor 5, a divider of resistors G, 7, an integrated chopper 8, a pulse transformer 9, a trigger U, a clock generator And, a pulse-frequency converter 12. The device operates as follows. A semiconductor thermistor 1 having an exponential temperature response, described by the expression .Air B / e,. . (1) where Q is the temperature of the thermistor, A and B are the parameters of the thermistor ,; included in the shoulder bridge 2, who is configured so that its output to the yarn is a linear function of the resistance of the thermistor in the entire temperature range: g Nt t.-- k; -1, (2) where, is the output voltage of the bridge at R О RQ resistance of a thermoresis torus at the lowest temperature range. The unbalance voltage of the bridge is applied to the input of the DC amplifier. The output voltage of the amplifier is also: ,,., Where K is the gain. The turn-on voltage of the single junction transistor is determined by the output voltage of the amplifier (4) on - Uv In the initial state, the integrated chopper 8 is open and the capacitance 5 is charged exponentially from the power supply through a resistive voltage divider (6.7). where Uj, is the voltage across the capacitor; and.E -...- voltage at the middle 7 point of the divider; tr CgCRgl (R) is the time constant behind the straight chain. When the voltage across the bone reaches a value sufficient to turn on a single junction transistor. The latter is open to entry and exit. On the windings of the transformer 9, an output pulse of a switching trigger 10 appears. This closes the integral breaker 8, through which the capacitance 5 discharges from to zero voltage. The interrupter remains closed until the pulse trigger from the clock generator 11 arrives at the second input. The duration of the capacity charging cycle is determined by the expression ((6) If the pulse period of the clock generator 11 is set to 4 g TRi ° tj bM, then the pulse duration at the trigger output 10, determined by the difference between the time intervals t and -t, will be inversely proportional to the measured temperature (indeed). “After substituting expressions (4), (3), (2) and (1) into expression (8), we get. To obtain a directly proportional dependence, the output of the trigger is 10 soy; n; inn with the input of the integrating frequency-pulse converter constant voltage - frequency 12, which has a linear static characteristic. The period of the output pulses of the converter 12 is equal to t t 2, (10) where S is the steepness of the static characteristic of the frequency-pulse converter; input pulse amplitude. After substitution of expression (9) into expression (10), we obtain - (11) T. that is, the period of the output sequence of the frequency-pulse converter 12 is directly proportional to the measured temperature. The proposed device allows temperature to be measured with an O accuracy, 1% in the O-f range. As the range expands to the edge of the working area, the thermistor (+ 300 ° C), the measurement accuracy drops to 0.5%. The invention The device for converting temperature into pulse frequency, containing a semiconductor thermistor included in the bridge arm, amplifies a direct current connected by the input to the measuring diagonal of the bridge, and the output to the baegsh of a single junction transistor, the emitter of which is connected to the midpoint of the divider connected with a time specifying capacity and a recording device, characterized in that, in order to improve the accuracy of measurements, a trigger connected to it is inserted into it