CS241708B1 - Inverter control circuit wiring - Google Patents

Abstract

The output of the current sensor is connected via an amplifier to the first input of the sawtooth voltage generator, to whose second input is connected a regulator and whose output is connected to the input of the monostable circuit. The output of the monostable circuit is connected simultaneously to the input of the flip-flop circuit, in feedback to the third input of the sawtooth voltage generator and to the first input of the first product gate. The first input of this gate is connected in parallel with the first input of the second product gate, to whose second input, as well as to the second input of the first product gate, the outputs of the flip-flop circuit are connected. The outputs of the product gates are connected to the inputs of the ignition circuits. The connection according to the above solution concentrates the function of the sawtooth voltage generator and the first monostable circuit into one circuit.

Description

The output of the current sensor is connected via an amplifier to the first input of the saw voltage generator, to the second input of which the controller is connected and the output of which is connected to the input of the monostable circuit. The output of the single circuit circuit is connected simultaneously to the flip-flop input, feedback to the third input of the saw voltage generator and to the first input of the first product gate. The first input of this gate is connected in parallel with the first input of the second product gate, to which the second input as well as the second input of the first product gate are connected the outputs of the flip-flop. Outputs of product gates are connected to inputs of ignition circuits.

The circuit according to said solution concentrates the function of the saw voltage generator and the first monostable circuit in one circuit.

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The invention relates to the inverter control circuitry comprising a current sensor, an amplifier, a saw voltage generator, a controller, a monostable and flip-flop circuit, gates, and ignition circuits.

The invention is based on a new method of securing the power circuit of an inverter against the closing of its second branch if the first one is not securely closed, thereby preventing a short circuit.

According to the method used up to now, a current sensor is located in the inverter's oscillating circuit, which records the current passages through both branches of the inverter. After passing the sensed current to zero, a monostable circuit is triggered, whose output signal blocks the control saw voltage generator for the time necessary to secure the inverter. After the blocking signal from the monostable circuit is triggered generator control blade voltage and the instant of ignition of the second thyristor, thereby opening the second branch of the inverter is determined by comparison of the saw Steering-voltage DC voltage, whose value ⁷ corresponds to the analogous parameters of the desired output of the inverter. The width of the thyristor ignition pulse is determined by another monostable circuit.

The circuit according to the invention concentrates the function of the saw control voltage generator, and the first monostable circuit, which determines the safety guard time between the end of the passage of current through one inverter branch and the generation of the ignition pulse for the other inverter branch.

The principle of the invention is that the output of the current sensor is connected via an amplifier to the first input of the saw voltage generator, to the second input of which the controller is connected and whose output is connected to the input of the monostable circuit. The output of this circuit is connected simultaneously to the flip-flop input, feedback to the third input of the saw voltage generator and to the first input of the first product gate, which is connected in parallel with the first input of the second product gate. flip-flop circuit outputs are connected. The outputs of the product gates are connected to the inputs of the first and second ignition circuits.

This connection simplifies the control circuits of the inverter and increases the reliability of the device.

An example of the use of the invention is described in the accompanying drawing, in which a control block diagram of a double-acting inverter is shown. The output of the current sensor EP is connected via the amplifier 1 to the first input of the saw voltage generator 2. The controller 3 is connected to its second input and its output is connected to the input of the monostable circuit 4. feedback to the third input of the saw voltage generator 2 and to the first input of the first product gate

6. The first input of this gate 6 is connected in parallel with the first input of the second product gate 7, to which the second input Q as well as to the second input O of the first product gate 6 are connected outputs of flip-flop S. inputs of the first and second ignition circuits A and B respectively.

The current sensor CP detects the current waveform in both inverter strings. Amplifier one sensor signal adjusts flow of the CP signal to rectangular waveform, which is a flow passage for any branch of the inverter function blocked blade voltage generator 2. After termination of the current activity is the generator voltage of the saw blades 2 and unblocked voltage U _R of the third regulator Dosáhne- If the saw voltage u _{p of a} certain value, the monostable circuit 4 gives a pulse u _n , which blocks the further operation of the generator 2, which returns to the initial state.

Further, the pulse at _{the N} transmitted via AND gate 6, 7 respectively to the ignition circuit and B, respectively, depending on whether the signal H at the output Q, Q respectively of flip-flop fifth Trailing edge pulse flips the state _n at the outputs Q and Q of flip-flop 5. This ensures that the next pulse passes to the second ignition circuit. It can be seen from the description that the protective time between the current dissipation in one string of the inverter and the sending of an ignition pulse to the other string of the inverter is given by the time of increase in the saw voltage and hence the value of the control voltage u _r .

The minimum protection time is given by the maximum value of the control voltage u _r . The integration constant of the saw generator 2 is set so that the protection time at the maximum control voltage Uj corresponds to the minimum required. Thyristors are most often used as inverter controls. The current sensor CP may be located in the circuit to record current passages only through these thyristors and determine the protection time according to their trip times.

The use of the subject invention is particularly suitable for resonant inverters with thyristors.

Claims (1)

SUBJECT Connection of inverter control circuits, consisting of current sensor, amplifier, saw voltage generator, controller, monostable and flip-flop, gates and ignition circuits, characterized in that the output of the current sensor (CP) is connected via amplifier (1) to the first input of the saw generator voltage (2), to whose second input is connected the regulator (3) and whose output is connected to the input of monostable circuit (4), whose output is connected simultaneously to the flip-flop input OF THE INVENTION circuit (5), feedback to the third input of the saw voltage generator (2) and at the same time to the first input of the first product gate (6), which is connected in parallel with the first input of the second product gate (7) the outputs of the flip-flop (5) are connected as the second input (Qj of the first product gate (6), the outputs of the product gates (6, 7) are connected to the inputs of the first and second ignition circuits (A, Bj).