SU613302A1 - Temperature regulator - Google Patents

Description

l, .connected to the shooting gallery “reversal, to the executive element, and the output of the amplifier of the poroiBoro unit is connected to the input of the second thyristor amplifier.

The functional diagram of the device for temperature control is shown in FIG. one; its schematic diagram in fig. 2

The device contains a sensor / temperature, a setpoint 2 of the circuit, a summing amplifier 3, a shaper 4 of the signal, made of two three-step amplifiers 5 and 6, a threshold unit 7 consisting of a storage element 8 and an amplifier 9, a thyristor isolator 10, a heater // and source 12 constant voltage.

The sensor / and temperature setting device 2 is connected to the input of summing amplifier 3, the output of which is connected to the input of the thyristor amplifier 5. The first output of the thyristor amplifier 5 is connected to the input of the storage element 8, and the second output of the thyristor amplifier 5 to the output of the thyristor amplifier 6. to the input of the thyristor actuator 10. The output of the thyristor actuator 10 is connected to the heater I. The output of the storage element 8 is connected to the input of the amplifier 9, the output of which is connected to the inputs of the tee, the output amplifier 6. Exit 12 ISTO chEIka DC voltage is connected to input 2 m setpoint temperature summing amplifier ";, memory element 8 and an amplifier 9. Source Sign DC voltage is connected to the network.

The device for temperature control works as follows.

In the operational amplifier 3 (FIG. 2), the sensor / temperature signal is amplified and compared with the reference signal of temperature setpoint 2, the amplitude of which is selected with a raster meter 13 so that the output signal of the optical amplifier 5 closes through a 14-diode, 15 resistor at a temperature equal to the temperature of the device tracking - the hotel. After switching on the device (at ° C), the resistor 15 is in the open state during the positive half-wave of the mains voltage. The residual voltage of the sprist 15 is compensated by the voltage drop across the zener diode 16. The capacitor 17 is not charged. Through the field-effect transistor 18, a current flows which is amplified by the bipolar transistor 19 and opens the thyristor 20 into the negative half-wave. Thus, the 10-N symmetric thyristor through the control electrode is positive and the currents 15 and 20 flow into the negative half-wave. The maximum power that provides the forced heating up to the temperature of the device tracking.

As soon as the temperature at the sensor location reaches ° calving and the thyristor 75

is closed, the capacitor 17 is charged until the voltage of stabilization of the Zener diode 21 is applied. The field effect transistor / 8 is closed and the thyristor 20 is closed. The heater is disconnected from the mains until the temperature at the sensor is below / ° C1. Then the thyristor 15 opens, but the capacitor 17 is not discharged, since the input resistance of the field-effect transistor is large and constant the time of the discharge circuit is several orders of magnitude longer than the period during which the thyristor 15 can be opened in the temperature monitoring mode. The CniMmetric thyristor is open only during the half-gel half-voltage of the network. Thus, temperature tracking occurs at half power.

To control the thyristor 15, it is necessary to generate a signal only during a positive half-wave of the mains voltage. Therefore, the constant voltage necessary for powering the operadiope amplifier 3 and the setpoint 2 of the temperature is formed only during the positive half-period of the mains voltage with a same-field period rectifier with a parametric stabilizer on the elements. Analogue; to control the thyristor 20, it is necessary to form a signal only during the negative half-wave of the mains voltage. Therefore, the constant voltage required to power the storage element 8 and the amplifier 9 is formed only during the negative half-period of the network voltage with a full-wave rectifier on the elements 28, 29.30.

The proposed technical solution of the problem in comparison with the known one allows to reduce the weight (or approximately 2 times) and the cost (approximately 2.5 times) of the device for temperature control.

Formula 3 and b ip e te ee

A temperature control device comprising a sensor and a temperature setpoint device connected to the input of a summing amplifier, a thyristor actuator connected in series with a heater, a power source, a signal conditioner and a threshold unit, characterized in that, in order to simplify the device, the signal conditioner made in the form of two thyristor amplifiers, and the threshold unit - in the form of serially connected with a ruler | SCH the element and amplifier, and the input of the storage element is connected to thyristor output of the first amplifier having an input connected to the output of the summing amplifier, a second output connected to the output of the second amplifier thyristor connected to iapol1nitelnomu thyristor element, the output of amplifier 56

The threshold unit is connected to the input of the second-1. USSR Copyright Certificate №289262,

thyristor amplifier. G 05 D 23/00, 1969.

Sources of information taken at issue 2. USSR Author's Certificate cNb 196969,

mania during examination: S cl. G 05 D 23/00, 1966.

613302

A – F

rig.1

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