SU993450A1 - Pulse shaper - Google Patents

Description

The invention relates to a pulse technique and can be used to control thyristor devices for pulsed power supply of electromagnets or relays in cases of increased speed requirements and minimum power consumption.

A pulse shaper is known in which, to provide a steep front and increase the amplitude at the beginning of the generation process, a chain of series-connected capacitors and inductance l is included with the load in series with the load.

However, the voltage and energy of the power source is not efficiently used in this device.

The closest in technical essence to the proposed invention is a pulse shaper comprising a capacitor, a capacitor, two charging diodes, two discharge transistors, a constant voltage source, a source of input pulses, a resistor and an output pulse transformer G23.

This driver provides a doubling of the amplitude at the beginning of the pulse, which, however, is insufficient in a number of cases.

 The purpose of the invention is to improve the formulas

OUTPUT pulses.

To achieve this goal, a pulse shaper containing a capacitor, two charging diodes, two bit transistors, a first resistor, an input pulse source and a first constant voltage source, the first capacitor plate 10 connected to the collector of the first bit transistor and - connected to the first pole of the first source of DC voltage through the first charging diode and the load connected in series, the second capacitor plate is connected to the emitter of the second discharge transistor and the first output of the second charge diode, the connection point of the first 20 diode and the load is connected to the collector of the second bit transistor, the base of which is connected to the first output of the first resistor, and the base-emitter junction of the first time transistor of the input pulse, introduced, the second source of constant voltage and the second resistor,

the first pole of the second constant voltage source is connected to the opposite pole of the first constant voltage source and to the emitter of the first transistor, the discharge transistor, and the second pole of the second constant voltage source is connected to the second output of the first resistor and through the second resistor The second output of the second charge diode

Fig. 1 is a circuit diagram of the device; in fig. .2 - pulse diagram of the output voltage.

The pulse shaper contains a capacitor 1, the first and second charging diodes 2 and 3, the first and second random transistors 4 and 5, the input pulse source, the first and second resistors 7 and 8, and the first and second sources 9 and 10 of constant voltage. The first plate of the capacitor 1 is connected to the collector of transistor 4 and connected to the positive pole of source 9 via diode 2 and load I. The second plate of capacitor 1 is connected to the emitter of transistor 5 and through diode 3 and the resistor 8 is connected to the negative pole of source 10, the positive pole of which is connected with the emitter of transistor 4 and the negative pole of source 9, the junction point of diode 2 and load 11 is connected to the collector of transistor 5, the base of which is connected through resistor 7 to the negative pole of source 10. aza-emitter junction of transistor 4 is connected to the output of the source 6.

Shaper kmpulsov works in the following way.

When connecting the sources 9 and 10 of the voltage and the absence of input pulses, the transistors 4 and 5 remain closed and the capacitor 1 is charged through the load 11, the diodes 2 and 3 and the resistor 8 to a voltage equal to the sum of the voltages of the sources 9 and 10, i.e. . to U + Uiji.

When the input positive pulse arrives, transistor 4 is opened, and diode 3 is blocked by the voltage of capacitor 1. When discharge current of capacitor 1 passes through transistor 4, resistor 7 and base-emitter junction; transistor 5 afterbirth. SRI I opens and the voltage (,.) Of the capacitor 1 and the voltage are applied to the load 11; Ui-f of the source 9, which in total is equal to 2 U1 +, and 2 This instant of time t-j corresponds to: the beginning of the formation of a pulse of increased amplitude (Fig. 2). As the capacitor 1 is discharged, a moment comes when the transistor 5 closes, which leads to a drop in the voltage on the load li to a value of and. This time tg corresponds to the beginning of the formation

parts of a pulse with a reduced amplitude. After the end of the input pulse, the transistor 4 closes (at time t,), after which the output pulse decays, which can be gradually reduced to zero (dotted line in Fig. 2) or, due to inductance of the load, have a negative overshoot (Fig. 2). shown as a solid line).

The technical and economic efficiency of the proposed invention is due to a significant voltage surge at the beginning of the pulse, when the formation of an inductive load is required, and the minimum voltage on the load to keep it running, which reduces power consumption. In addition, a negative surge during pulse decay accelerates the return of the load to its original state.

Claims (2)

1. To produce universities of the USSR. Electromechanics, 1970, № 10 .. 2. Electricity, 1975, 1, p. 86 t -0- ii iz figure 2