SU928603A1 - Triac converter control device - Google Patents

Description

(5) DEVICE FOR CONTROLLING TRIQUE CONVERTERS

one

i The invention relates to power converter technology and can be used to control DC / AC converter converters, vypolieneni and on triacs.

A device is known for controlling a triac converter, which contains a phase control unit, to the input of which two sources of synchronizing voltages are connected via a switch 11

The disadvantages of this device are reduced performance due to the presence of a delay in the timing of the synchronization switching, as well as the inability to work on a load containing counter-EMF and capacitive filters.

Closest to the proposed technical entity is a device for controlling a triac converter that contains a switching unit whose outputs are connected to the control inputs of the control switches, the outputs of which through the controller are connected to the terminals for connecting the reference voltage and reverse voltage connections, control channels by the number of triacs, each of which contains a pulse-phase control unit and a driver amplifier, the output of which is connected to an output for connecting a control elec- a triac of a triac 2.

The disadvantages of this device are the complexity of the device and, therefore, low reliability, the possibility of emergency mode, limited range of regulation and low speed.

The aim of the invention is to increase reliability and enhance functionality.

The goal is achieved by the fact that the device is equipped with a conductivity sensor of the triacs, polarity sensors of the voltages on the triac, and each control is equipped with two zero-bodies and two elements And, the output of the conductivity sensor of the triacs is connected to the first input of the switching unit, the second of which connected to the controller output, the outputs of the controlled keys are connected to the inputs of the pulse-phase control units in each control channel, in each control channel the outputs of the pulse-phase control unit detecting connected to first inputs of AND gates the second inputs of which are connected to the outputs of a blo-S and switching the third inputs of AND gates through zero-bodies connected to the respective sensor outputs polarity voltage to the triac, and the outputs of AND gates are connected to the input of amplifier -formirovatel.

The drawing is a schematic diagram of a device for controlling a triac converter.

The device contains channels 1-3 of triac control, switching unit 4, controller 5, voltage sensors 6-8 polarizers — on triacs, amplifier-shaper 9, elements 10 and 11, zero organs 12 and 13, unit 1 pulsed -phase control, controllable keys 15 and 16, simistor memory conductivity sensor 17. The inputs of the regulator 5 are supplied with the voltage from the supply of Ur and the feedback C, the regulator 5 forms, the voltage U ,. block control k. The device controls the converter containing the triacs, and protective RC circuits are connected in parallel with the KOTopbiM. In this case, the load of the converter can be, for example, a DC motor, an RC circuit, etc.

The device works as follows.

If there are voltages and a feedback to the output of the controller 5, a control signal Uvj of one or another polarity appears, which: is fed to the input of the block (and through keys 15 or 16 to the inputs of blocks k in each channel 1-3. The sensor 17, which signals the off-state of the analogue triacs, allows switching of signals at the outputs of block 1, which determines the direction of the current of the converter. In the function and ... |, unit 1 determines the phase of the control signal sequence

{for example, the control angle dL), .. Block 1 has two outputs, on which two sequences of signals with a network frequency f, shifted from each other by 180 e.h.

The sensors highlight the voltage sign on the triacs; with a positive voltage on the triacs at the first input, a positive si | -

The signal is zero, and the second output is zero, with a negative voltage on the triac, a zero signal is generated at the first output, and a positive signal at the second output. Null organs

12 and 13 of each channel 1–3 convert the polarity of the output signals of sensors 6–8 into logical signals, for example, when a positive voltage is applied to the triac at the zero-output 12

we have a signal 1, and on the output of the o nulorgan 13 there is a signal O. At the moment of coincidence of the signals at the outputs of blocks i | and 1 and 4 of the zero-organ 12 control pulses with an angle of regulation pass through the element 10 and the driver 9 and arrive at the triac. In this case, they are formed only in the allowed zone, which in this case is determined by the positive voltage on the triac. If, for a given direction of the converter current, under the action of counter-emf, the voltage on the triac will be negative, then the output of pulses to this triac is prohibited (at the output of the zero-organ 12 signal O).

In the reverse direction of the converter current, the signals at the outputs of the block k are reversed. In this case, the triacs operate at a negative voltage. As a result of this, a sequence of pulses with a frequency f0 displaced by 180 el. out of phase with respect to the pulse sequence for the forward direction of the current.

The unit operates as a function of two signals; polar signal from the output of the regulator 5 and the blocking signal from the sensor 17. 6 moment when all the triacs are turned off (current is not conducted) the conductivity sensor allows switching of signals from the block i. The Hai-bus converter can be a DC motor, and the tachogenerator voltage can also be used as a signal.

The use of this device allows to reduce hardware costs, simplify the control device, increase the reliability and accuracy of the control of the triac converter, when working on any kind of load.

Claims (2)

Invention Formula A device for controlling a triac converter, comprising a switching unit, the outputs of which are connected to the control inputs of controlled keys, the outputs of which through a controller are connected to the terminals for connecting a reference signal and a feedback signal, the control channels by the number of triacs, each of which contains a pulse-phase control unit and a driver amplifier, the output of which is connected to the terminals for the connection of triac control electrodes, characterized in that, in order to increase the reliability and operation of enhancement of functionality, it is equipped with a conductivity sensor of simulator, polarity sensors for example / about 89 - / With 28603 6 SRI on triacs, and each control channel is equipped with two zero-bodies and two elements, And, the output of the sensor of conductivity of the triacs is connected to the first input of the switching unit, the second input of which is connected to the output of the regulator, the outputs of the controlled keys 10 controls in each control channel, in each control channel, the outputs of the pulse-phase control unit are connected to the first inputs of the AND elements, the second inputs of which 15 are connected to the outputs of the switching unit, the third inputs of the elements are connected to the output of the corresponding sensor of polarity on the triac through the null-organs, and the outputs of the AND elements are connected to the input of the amplifier. Sources of information taken into account in the examination one . USSR author's certificate №, cl. H 02 M 5/16, 1965. 2. Triacs in reversible reg§nerative DC motor drives.IEEE. Transac7 tions on industry applications, 1373, No. +, p. .