SU1324099A1 - Magnetic-transistor switchboard - Google Patents

Abstract

The invention relates to a converter technique and can be used in key current amplifiers, for example, for controlling electric motors. The aim of the invention is to improve efficiency. To achieve this goal, a control voltage source 24, a zener diode 27, a capacitor 28, resistors 29-32, a comparator 33 are added to the device. In addition, the device contains power terminals 1 and 2, an input control bus 3, a power transistor 4, a resistor 5, a source 6 with outputs 7 and 8, control diodes 9 and 10, a transformer 11 with a base winding 12, a control winding 14, a base diode 13, a control transistor 15, a ground bus 16, a winding 17 and 18 bias the second transformer 19, also having a control winding 20, a winding armature AT-link 21 and base winding 22, base diode 23, input and output terminals 34-37. The device provides an economical current control of the power transistor without introducing additional elements into the power circuit of the switch, which allows an increase in the CS. 1 il. (L

Description

The invention relates to a converter technique and can be used in key current amplifiers, for example, for controlling electric motors.

The purpose of the invention is to increase the efficiency

The drawing shows a circuit diagram of the proposed device.

The device contains the first 1 and second 2 power terminals of the load circuit, the input control bus 3, the power transistor 4 with a locking circuit, which can be used for example, a resistor 5 connected between the base and the emitter of the power transistor 4, current source 6 with a positive 7 and a negative 8 terminals, the first 9 and second 10 control diodes, the first transformer 11, having a base winding 12, the end of which through the first base diode 13 is connected to the base of the power transistor 4, the control winding 14, the beginning of which is connected to To the collector of the control transistor 15, the emitter of which is connected to the earth bus 16, an offset winding 17 connected to the beginning of the bias winding 18 of the second transformer 19, which also has a control winding 20, feedback winding 21 and the base winding 22, the beginning of which the second base diode 23 is connected to the base of the power transistor 4, and the end is connected to its emitter. The switch is equipped with a control voltage source 24 with a positive 25 and a negative 26 terminals, a zener diode 27, a capacitor 28, first, second, third and fourth auxiliary resistors 29–32, a comparator 33 with a forward 34 and a comparison inverse 35, the control input -36 and an output 37 connected to the base of the control transistor 15, the collector of which is connected to the anode of the first control diode 9, the cathode of which is connected to the cathode of the zener diode 27, the anode of which is connected to the end of the control winding 14 connected together transformer 11 and the positive terminal 25 of the source 24 of the control voltage, the negative terminal 26 of which is connected to the earth bus 16, to which one terminal of the capacitor 28 is connected, one terminal of the first resistor 29 and

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The control winding 20 of the second transformer 19, the end of which is connected to the second 30 and the third 31 resistors, each connected with one of its outputs, is another, the other free output of the second resistor 30 is connected to the free output of the first resistor 29 and the direct input 34 of the comparator 33 The inverse comparison input 35 is connected to the free terminals of the capacitor 28 and the third resistor 31, as well as to one of the terminals of the fourth resistor 32, the other terminal of which is connected to the anode of the second control diode 10, the cathode This is connected to the combined control input 36 of the comparator 33 and the control bus 3, while the negative terminal 8 of the current source 6 is connected to the end of the bias winding 18 of the second transformer 19, and the positive terminal 7 of the current source 6 is connected to the beginning of the bias winding 17 of the first transformer 11, the beginning of the base winding 12 of which is connected to the beginning of the base winding 22 of the second transformer 19, the end of which is connected to the beginning of its feedback winding 21, the end of which is connected to the first power terminal 11, with the second power terminal and 2 is connected to the collector of the power transistor 4. In the initial position, the current source 6 is turned on, the voltage source 24, the comparator 33 supply voltage (comparator power supply circuit is not shown), the control voltage in the initial state is negative, which corresponds to closed state of the power circuit of the current switch. The control voltage is supplied to the control (gating) input 36 of the comparator 33, which provides a negative signal at its output 37 regardless of the sign of the input voltage of the comparator 33. This ensures the closed state of the control transistor 15. The current source 6 flows through the windings 17 and 18 of the bias of the first 11 and second 19 transformers. The magnetic circuits of the indicated transg formers are thus prepared for magnetization reversal. The voltage across the windings of the first 11 and second 19 transformers is zero. The power transistor 4 is locked. The control voltage through the second control diode 10 and the renit of the first transformer 11 is provided parametrically.

To implement these measures in the open state mode of the switch, periodic switching of the control transistor 15 is organized, which leads to a periodic change of the sign applied to the windings of the first 11 and second 19 transformers

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The resistor 32 is also fed to the inverting input 35 of the comparator 33 and a capacitor 28 connected in parallel to it. Due to this, the voltage on the capacitor 28 is negative, and the input voltage of the comparator 33 is positive, which provides a positive signal at the output of the comparator when applying its control input 36 is a positive voltage signal. Polarity of the voltage from the control bus 3. windings of the first transformer 11:

The opening of the power circuit of the device minus at the beginning, plus at the End, is ensured (terminal 2 - collector-emitter is overwritten when the state is on, the power transistor 4 is running - the control transistor winding is 15 due to 21 feedback) J5 is the voltage of source 24 in the winding 14. by giving to the control bus 3 voltage of positive polarity. Since the voltage on the control input 36 of the comparator 33 also becomes positive, the output voltage of this 20 transistor 4 and the voltage on the base comparator in accordance with sign 22. The polarity of its input voltage becomes positive. The control transistor 15 opens and connects the control winding 14 of the first trans-25 turn-on of the control transistor 15 of the formatter 11 to the control source 24 on the windings of the first 11 and the supply voltage. Accordingly, in turn, the second 19 transformers i vary with the voltage across the base winding to the opposite one. In this case, the p-12 of the first transformer 11 and the plus-ness at the beginning, the minus at the end ensures the flow of the base 30 at the windings of the first transformer 11 of the current in the power transistor 4. The value of the base current at the first moment of time is proportional to the current

The voltage on the base winding 12 at the same time is balanced by the voltage drop on the first base diode 13, the base-emitter junction of the power

on the base winding 22 and other windings of the second transformer 19 - plus at the end, minus at the beginning. With

the displacement flowing through the winding 18

provided by the flow of current transformed from the winding 17 to the winding 14 through the circuit: control winding 14, first diode 9, stabilizer-bias of the second transformer 19. 5 ron 27. Voltage value stabil Stable presence of the base current of the power transformer 27 is chosen greater the magnitude of the resistor 4 leads to its unwinding and flowing through the power circuit, the base current of the power transistor 4 increases the voltage of the source 24, which ensures the restoration of the first transformer 11 in a time less than 40 time of its magnetization.

It is proportional to the current of the power circuit.

The polarity plus at the beginning, minus at the end of the windings of the second transformer 19 is provided by appending to the base winding 22

In the switch circuit, the power transistor 4 is controlled using the first 11 and second 19 trans transducers in a second base of 23 formatters. At the same time, in the open state of the device, the magnetization reversal of their cores on

high frequency. For this purpose, the base-emitter junction of the power transistor 4 with the current flowing through the circuit: base winding 22, base diode 23, base-emitter junction is characterized by the possibility of a periodic field-effect transistor 4. changing the sign of the voltage applied to the windings of these transformers. Periodic switching of control- The elimination of the deep freezing transistor 15 is provided; it performs the saturation of transformers, with which, with the help of the comparator 33, the current would be disrupted in the base of the last proportional

in the second transformer 19, the magnetic state of its magnet line is monitored. Eliminating the suppression of the positive and integrating negative feedbacks. Feedbacks are carried out using the control winding 20. To do this, the piping of the first transformer 11 is provided parametrically.

To implement these measures in the open state mode of the switch, periodic switching of the control transistor 15 is organized, which leads to a periodic change of the sign applied to the windings of the first 11 and second 19 transformers

tension Polarity of the voltage on the windings of the first transformer 11:

minus at the beginning, plus at the end, is provided when the control transistor is turned on 15 due to the voltage of the source 24 in the winding 14. of the transistor 4 and the voltage on the base winding 22. At the same time, the polarity of the control transistor 15, the polarity on the windings of the first 11 and second 19 transformers is reversed. At the same time, the floor is plus at the beginning, minus at the end of the windings of the first transformer 11

The voltage on the base winding 12 at the same time is balanced by the voltage drop on the first base diode 13, the base-emitter junction of the power

Minus at the beginning, plus at the End, is provided when the control transistor 15 is turned on due to the voltage of the source 24 in the winding 14. of the transistor 4 and the voltage on the base winding 22. At the same time, the polarity of the switching transistor 15 The polarity on the windings of the first 11 and second 19 transformers is reversed. At the same time, the floor is plus at the beginning, minus at the end of the windings of the first transformer 11

on the base winding 22 and other windings of the second transformer 19 - plus at the end, minus at the beginning. With

provided by the flow of current transformed from the winding 17 to the winding 14 along the circuit: the control winding 14, the first diode 9, the stabilizer 5. The voltage of the stabilizer voltage 27 is chosen greater than

the voltage of the source 24, which ensures the restoration of the first transformer 11 in a time less than the time of its magnetization.

The polarity plus at the beginning, minus at the end of the windings of the second transformer 19 is provided by appending to the base winding 22

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positive and integrating negative feedbacks. Feedback is carried out using the control winding 20. For this purpose, pr 5 13240996

my comparator input 34 compares. After this, the base current is taught through the voltage divider and flows along the circuit: base winding 22, resistors 30 and 29, part of the voltage of the second base diode 23, base-emitter-control winding 20, and on its in-junction power transistor 4, The junction input 35 of the comparison is the 5D ° voltage of the second transformer of the capacitor 28, the Proportional 19. After it is applied, the voltage to the control integral of the control winding on the base winding 22 disappears, the Base winding 20, and therefore proportional power transistor current 4 -precinal induction and magnitoprovodakraschaets that leads to its-locking the second transformer 19. Phasing Onias through resorption time. Thus, the control winding 20 is selected in such a way that after the supplying moment is locked, so that the voltage sign on it is the same signal to the control bus 3 with the voltage sign at the output 37 up to the moment of locking the power transistor 33. at the same time, the operating mode of the oscillator is 5-5 residual magnetization of the secondary oscillations, due to the operation of the transformer 19 and the time of which you can peremagne-dissolve the power transistor 4. However, the time is small as in very strong cerned 19 transformers. Since it is possible to neglect a number of cases, the voltage on the capacitor 28 corresponds to 20 Thus, the proposed induction of the second transformer is applied economically to the mat 19, then when the generator is in operation, the proportional current control of the oscillations ensures that the induction does not change. specified limits, additional elements in the power defined by the parameters of the scheme. The switch circuit, which allows the inclusion of saturation carried out by comparison with the prototype, increases the expense of reducing the voltage on the control and its efficiency.

Claims (1)

The winding 20 is at the very beginning of the pro-formula of the invention of the saturation process. When this happens correction of the moment of change of sign 30 Magnetic transistor switch, The input voltage of the comparator 33 is an containing power transistor and two due to this, the correction of the moment, the transformer with the base windings, switching control transistor control and bias power base 15, which provides a reverse of the sign transistor through the first voltage across the windings of the second trans- 35 - ° connected to the end of the base the formatter 19 and the output of the operating point of the winding of the first transformer and the induction from the saturation region. ECP from the second displaced diode - with Thus, by induction of the second base of the second winding of the transformer 19, the working zone can only be connected to the initial saturation region with the emitter by induction of the base winding. 40voltage transistor, emitter-colectop Deep saturation is excluded. Pripa chain which is included in the chain help of the second transformer 19 in the load in series with the winding the device circuitry provides for the feedback of the second transformer, Portion-current control The power resistor is locked, -included between 4. The proportional-45base and emitter of the power transistor current control is carried out by the stor, the control transistor, the emitter. Accurate to the no-load current, which is connected to the common busbar, the second-coil when re-magnetized is connected to the beginning of the control winding transformer 19 increases or the first transformer, the winding of the mixture reduces the base current, the effect of which is connected to the end with the effect in practice, as a rule, the second winding of the second transom can be neglected. Turning off the power of the formator, current source, The switch pi is supplied by supplying two commuting diodes and controlling on the control bus 3 negative input bus, distinguishing tension This is due to the fact that, in order to increase efficiency, At the output 37 of the comparator 33, the source is additionally added. voltages regardless of the control voltage, comparator, the sign of its input voltage. A control-zener diode, a capacitor and a four-contact transistor 15 at the same time, a closed-resistor, and the comparator input through a capacitor connected to the emitter of the control transistor, the first output of the control voltage source, the total thickness and the start of the control winding of the second transformer torus, the end of which is connected through the first and second additional resistors in series to the common bus and through the third additional resistor to the inverse of the comparator, the direct input of which is connected to the combined in the first and second additional resistors; the comparator inverse through the fourth additional resistor connected in series and the second com Editor A. Ogar Sost avitel L. Bagn Tehred L. Oli L1Y1s Order 2972/56 Circulation 901 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab, 4/5 Production and printing company, Uzhgorod, Projecto st., 4 5 5 40998. The mutating diode is connected to the control input of the comparator, the output of which is connected to the base of the control transistor whose collector through the first switching diode and the zener diode connected to the second source of the control voltage of the first transformer, beginning of the bias winding which through the bias current source is connected to the end of the bias winding of the second transformer, and the beginning of the base winding of the first transformer is connected to the beginning of the base winding ki second transformer. Proofreader A.T. sko