SU374733A1 - DEVICE OF CONTROL OF THE CURRENT IN THE INDUCTIVE LOAD - Google Patents

Description

This invention relates to the field of radio engineering.

A device is known for directing current in the inductive load, supporting the output transistor with an inductive load, a key transistor, a pulse traformer, and a diode.

The proposed device differs from the known one in that a source of a forced FIR (Female, I, connected to the collector of a key T1 transistor, between the base and emitter of which is connected to the secondary winding of the transformer, the primary winding of which is included in the collector circuit of the output transistor in series with the transformer, is inserted. allows you to speed up the process of setting the current in the load. KpoiMe, in the case of a two-stroke circuit, in a pulse transistor, an additional winding is used, which is fed to sy, coincident with the leading edge -Time IAshulsov input voltage.

FIG. 1 shows a single-cycle scheme of the proposed oprosroiv, in FIG. 2 - two-stroke scheme

The device contains an output transistor 1, a key transistor 2, diodes 3 and 4, a pulse tract armature 5, a forcing voltage source 6, a power source 7, a resistor 8 and an inductive load 9.

With the ladder on the base of the transistor / input voltage of positive polarity

Traizistor goes into saturation mode. At the same time, the entire voltage of the source 7 is applied to a series-connected and inductive load 9 and the primary winding 10 of the pulsed transformer 5. A part of this voltage is transformed into (secondary O, motor // in such polarity, etc. .and which the transistor 2 from the closed state passes into the saturation mode; In this case, the voltage of the source 6 through the collector-emitter junction of the transistor 2 is applied to the primary winding W and the inductive load 9 and the diode 3 in series ruet power source 7 so indukti1vnuyu load through 9 starts increasing exponentially, flowing along the chain:. positive pole of the source 6, the collector-emitter saturated transistor 2, the primary obmo71ka 10

inductive load 9, junction 1 of the collector emitter of transistor 1, which is located in the field, resistor 8, housing.

The parameters of a pulsed transformer 5 are chosen such that the inductance

its primary winding 10 was much less than the load inductance 9. Therefore, the speed and height of the current "and the current will, mostly, be determined by the inductance of load 9, the resistance of the resistor 8 and the source forcing voltage 6. “The dual voltage load 9 on the collector of the transistor / increases, and the voltage removed from the secondary winding 11 named after the pulse of the transformer 5 and applied to the transition, the base of the miter T1rani and CTQpa 2, drops.

At some point in time, through inductive load 9, and, consequently, the current of the collact-ora of the TP-1, reaches the value at which the transistor / Exits saturation mode and goes into active mode. Amount of current n: This determines the input sodium nathenb and gain of the transistor L When the transistor leaves / from the saturation mode, the change in the collector voltage on the receiver and it stops and this leads to the end of the pulse that is connected to the base-to-emitter junction of transistor 2 The potential of the junction point of the emitter of transistor 2, the primary secondary windings 10 and /./, and diode 3 decreases to the initial level, i.e., to the value of "apr of the source 7. napaMeTipbi. impulse transducer 5, are chosen, such then the time on its secondary winding // does not have time to decrease to the level of the switch "and" of transistor 2 before the collector current of the transistor reaches the maximum value. After closing T1ra1nzistor 2, a stationary mode is established in the circuit, in which the current through the inductive1 flainpyBKy 9 flows through the circuit: the positive pole of source 7, diode 3, piping 10 and .M | pulse tractN.format; pa 5, inductive load 1, 9 (transistor.the collector of the transistor /, reistor 8, case. Thus, the circuit is automatically switched source of 1N. 6 and 7.

In the case of a push-pull connection (see Fig. 2), an inductive load 9 | separates the two loads connected in opposite. The current in each of the active currents 9, 9 is controlled by its transistor 1 and G with emitter

resistors 8, 8. In them, a pulse transformer 5 is provided. an additional winding 12, on which impulses are supplied, coinciding in time with the leading edge

input voltage pulses. .

During the operation of the circuit, there may be cases when at one time point such input voltages are applied to the bases of transistors 1, 1, that the current is in one of the inductive ones. loads 9 or 9 should decrease from the maximum level to zero, and in the other - increase from zero to the maximum value. With such a change in currents in inductive loads, the transition to the saturation of transistor 2 occurs with a delay caused by the emf. self-induction arising in the inductive load, the current of which, decreases. In order to compensate for this delay, a pulse is given to the winding 12, which coincides in time with the front of the input voltage, and its amplitude and duration are chosen such that cc1pensi (delays the delay in the reduced case.

Subject invention

1. The control device for the current IB. Inductive current on the load, containing the output of the single transistor with inductive load, klnatoy

Bransistor, an “MP transformer” and a diode, characterized in that, in order to accelerate the process of establishing the current in the load, a forcing voltage source is connected to the device connected to the collector

a key transistor, between the base and the emitter of which the secondary winding of the pulse transformer, the primary winding of which is included, is included in the collector circuit of the output transistor.

load .....

2. Current control device in inductive load according to iii. 1, characterized in that in order to ensure the operation of the key transistor, when two inductively connected loads are turned on, the pulse transformer is equipped with an additional winding for which the pulses are time-matched with the leading front of the input voltage.

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