SU869001A1 - High-voltage square-wave shaper - Google Patents

Description

t

The invention relates to a pulse. technique, namely, a square pulse shaper, and can be used to control the electron flow in the electron-optical converters and electron-beam tubes for pulsed power of light amplifiers and electro-optical gates.

A device for generating high voltage rectangular pulses, made in the form of a series of series-connected transistors with series power, an input circuit transistor is connected according to a common emitter circuit, and its base is connected to a source of driving pulses, the collector of the output transistor is connected to a power bus and with the output of the device, the a-emitter of each pre-transistor is connected to the base, the subsequent transistor is a serial resistive-capacitive circuit tlj.

Due to the presence of a resistor that shunts the base-emitter junction of each transistor by a value comparable with the input resistance of the transistor, a significant part of the discharge current of the coupling capacitor, which ensures the open state of the transistor at the time of formation of the flat top of the pulse, closes the input transistor. This contributes to an earlier cut-off of the flat top of the pulse, which ultimately leads to a deterioration of the low-frequency properties of the driver. The disadvantage of such a former is also a distortion of the flat tip of the pulse.

The purpose of the invention is to reduce the distortion of the flat top of the impedance and simplify the device.

Claims (1)

This goal is achieved by the fact that in a high voltage rectangular pulse shaper, made in the form of a cascade-connected transistor with a series power supply, the input circuit transistor is connected according to a common emitter circuit, and its base is connected to a source of driving pulses, the collector of the output transistor circuit is connected via a resistor bus and with the output of the device, and the emitter of each previous transistor of the connection with the base of the subsequent transistor is a serial resistive-capacitive circuit, the transition to The output-transistor lector-emitter and each resistive-capacitive circuit are shunted with zener diodes, a resistor is connected between the base and the emitter of the input transistor, and the emitter transitions of the remaining transistors are back-connected. The drawing shows a circuit diagram of a square pulse shaper. The shaper contains m series-connected transistors i-1-lm with a common load chopper 2 junction capacitors 3-l-3- (ml) control circuit, ml resistors 4-1-4- (t -1) circuit iravlei INN, mI zener diodes 5-1-5- (ml) of the control circuit, Zener diode 6 of the output stage, resistor 7 of the base circuit of the input stage and T-1 diodes (ml) of the base circuit of the subsequent transistors. The input of the driver is the base circuit of the transistor 1 output - collector circuit of the transistor Jm The device works as follows. In the initial state, all transistors are closed, through the load resistor 2, the zener diode 6, the zener diodes 5-1-5- (m-l) and the diodes 8-1-8- (m-l) flow the stabilization current. This current ensures, on the one hand, a uniform distribution of the supply voltage between m transistors, and another, reliable closing of the transistors 1-2-1-t due to the voltage drop on the diodes 8-1 - 8- (t-1), allowing this current in the forward direction. The closing of the transistor 1-1 is ensured by the choice of resistor 7. The separation capacitors 3-1-3- (t-1) are charged until the voltage of each zener diode is stabilized. When a positive-polarity start-up rectangular pulse with a sufficient amplitude 14 arrives at the input, transistor 1-1 opens and then goes into a saturated state, the collector potential of this transistor drops, and for the first moment the emitter-transistor 1-2 is applied. equal to the voltage of the stabilization of the Zener diode 5-1. The capacitance of the p –p junction of the zener diode provides a forced reloading of the input capacitance of the transistor l – 2, which ensures the increased steepness of the front. Transistor 1-2 opens the potential of the base of the transistor and drops. Stabilron 5-1 goes out of stabilization mode and then shuts off. The open state of transistor 1-2 is maintained during the formation of the flat top of the input pulse due to the discharge current of the coupling capacitor 3-1 through a circuit consisting of a resistor 4-1, a base-emitter junction of transistor 1-2, a collector-emitter junction 1-1. The described process of arranging two stages of the device extends to the next stage. Thus, a consistent drop in the potentials of the collectors of transistors, starting from the input and. When the output is finished, it ensures the formation of the front of a rectangular pulse and its flat top until the formation of the slice. At the end of the starting pulse, the process of restoring the initial state of the former begins. The current flowing through the base-emitter junction of the output transistor 1-1 is stopped, the transistor is closed. Now the current flowing through the junction of the collector-emitter transistor 1-2 flows through the diode 8-2 and the zener diode 5-1. A voltage drop is formed on the diode to ensure reliable closing of the transistor 1-2, and the zener diode 5-1 returns to stabilization mode. After the transistor 1-1 is closed, capacitor 3-1 is charged to the initial voltage. The considered process of closing the transistor, restoring the stabilization mode of the Zener diode and charging the voltage capacitor spreads to other stages, which leads to a decrease in current through resistor 2, and consequently to the formation of a square impulse medium. A chain of stabilitrons 5-1-5- (ml) 6 and diodes 8-1-8- (ml) connected at one end to the emitter of the input transistor, and the other to the collector of the output transistor, provides a uniform distribution of voltages between stages, the ability to accelerate the formation of the pulse front protects the transistors against possible overvoltage at the time of the formation of the front and cut of the pulse, stabilizing the amplitude of the output pulse when the supply voltage of the driver changes. Together with consecutive resistive-capacitive circuits, the indicated chain of zener diodes makes it possible to create equivalent starting conditions for each transistor by selecting the same resistance values of resistors, capacitors, and diodes of the same type and zener diodes. By using pp-type transistors in the driver, it is possible to provide a high-voltage pulse of positive polarity. In this case, the diodes and zener diodes are turned on in accordance with the changed polarity of the supply voltage driver. The proposed high-voltage rectangular pulse shaper can be effectively used to create small-sized electronic equipment. Formula of the invention High-voltage driver: rectangular pulses, made in the form of a cascade-connected transistors with series power supply, the input transistor of the circuit is connected according to a common emitter circuit, its base is connected to the source of trigger pulses, the collector of the output transistor of the circuit is connected via a resistor to the power bus and to In the device code. CTBA, and an emitter of each predschuschego transistor connected to the base posledukitsego transistor poslzdovatelnoy resistive-capacitive tsetsi about tlichayuschiys in that, in order to reduce distortion planar pulse peak and simplify the device the collector-emitter of the output transistor and each sequence resistive-capacitive circuit shunted by zener between The base and emitter of the input transistor included a resistor, and the emitter to the transitions of the remaining transistors are shunted by diodes in the reverse turn on Info sources mation, the received note in the examination 1, Copyright certificate USSR on application № 2700549L8-21, Cl, H 03 K 4/62, 12.25.78.