RU2075776C1 - Electronic temperature regulator - Google Patents

Abstract

FIELD: control of home heating appliances. SUBSTANCE: device has voltage stabilization unit, which is connected to converting amplifier which is connected to switching unit, which is designed in gating transistors and has serial circuit of self-balancing bridge, scaling amplifier, threshold gate, unit which tunes to mains phase and buffer generating amplifier. Unit which tunes to mains phase has serial circuit of synchronization pulse generator, tuning flip-flop and generator of igniting pulses. Input of synchronization pulse generator is connected to secondary winding of transformer of voltage stabilization unit. Device provides possibility to keep constant in door temperature. EFFECT: increased stability to noise, increased field of application. 2 dwg

Description

 The invention relates to electrical engineering and can be used to automatically maintain a given air temperature in enclosed spaces when controlling household heating appliances.

 The closest technical solution to the claimed is a temperature controller device containing a voltage stabilization unit, an amplifier-converter and a switching unit.

 The voltage stabilization unit includes a step-down transformer, a stabilizer and capacitors.

 The amplifier-converter consists of a balanced bridge and an unbalance amplifier of the bridge.

 The switching unit is made on the triac.

 The disadvantage of this temperature controller circuit is the absence in the design of the element of binding the moment of switching the triac to the phase of the current supply network. This often leads to an abrupt increase in current to its maximum value in the load. This gives a large electromagnetic radiation, which leads to the formation of impulse noise affecting the surrounding electronic devices, distorting their technical characteristics.

 The basis of the claimed invention is the task of creating an electronic temperature controller with such an electrical circuit, the implementation of which would eliminate an abrupt increase in current in the load at the time of switching.

 This technical solution will eliminate the formation of impulse noise, which will increase the noise immunity of the device.

 Figure 1 presents a block diagram of an electronic temperature controller. Figure 2 shows the implementation of the block binding to the phase of the network.

 Electronic temperature controller / Fig. 1 / contains a voltage stabilization unit I, connected in parallel with all elements of the amplifier-converter 2, the output of which is connected to the switching unit 3. The amplifier-converter 2 includes a self-balancing bridge 4, a scale amplifier 5, a threshold device 6, a block for connecting to the supply phase in series network 7, buffer amplifier driver 8.

 The voltage stabilization unit I may include a step-down transformer, a stabilizer and electric capacitors.

 The phase locking unit of the network 7 contains serially connected clock pulses driver 9 / Fig. 2/, a binding trigger 10 and an ignition pulse generator II.

 The device operates as follows.

 The voltage is supplied to the voltage stabilization unit I / Fig. 1/. Block I provides a stabilized voltage to all elements of the amplifier-converter 2. When the temperature deviates from the set value at the output of the self-balancing bridge 4, an unbalance voltage occurs. The unbalance voltage is supplied to a large-scale amplifier 5, from the output of which the signal is supplied to the threshold device 6. Upon reaching a predetermined threshold, an output signal of temperature is generated at the output of the threshold device 6, which acts on the phase locking unit 7.

 The alternating voltage from the voltage stabilization unit I / Fig. 2/ is fed to the input of the clock pulses driver 9, where short rectangular pulses are formed at the moments of the voltage supply amplitude passing through zero, which are fed to the input of the binding trigger 10. An excess signal arrives at the second input of the binding trigger 10. temperature from the threshold device 6, as a switching enable signal. At the time of receipt of the switching enable signal, the binding trigger 10 switches and enables the operation of the ignition pulse generator II. From the output of the generator II, short ignition pulses are supplied to the buffer amplifier-driver 8 of the amplifier-converter 2. From the output of the buffer amplifier-driver 8, the pulses are fed to the control electrodes of the triacs of the switching unit 3, which control the operation of the heating element / in FIG. not shown. Periodically included in the operation, the heating element maintains a predetermined temperature.

 The improved technical characteristics of the proposed electronic temperature controller expand the scope of its application and increase its competitiveness.

Claims (1)

 An electronic temperature controller containing a voltage stabilization unit connected to an amplifier-converter including a self-balancing bridge, a scale amplifier, a threshold device and a buffer amplifier-shaper connected in series, which is connected via an output to a switching unit made on triacs, characterized in that the amplifier a converter is introduced to the network phase locking unit, comprising a clock generator, a binding trigger and an ignition pulse generator, the input of The sync pulse generator is connected to the secondary winding of the transformer of the voltage stabilization unit and the output is with a binding trigger, the second input of which is connected to a threshold device, and the output is with an ignition pulse generator connected to a buffer amplifier-former.

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