SU746886A1 - Current pulse shaper - Google Patents

Description

The invention relates to a pulse technique, it can be used to obtain current pulses in an inductive load. A current pulse shaper in an inductive load is known, which contains two constant-voltage sources Aeni, a non-contact switch, three diodes, a capacitor, and an additional inductance 1 .; The disadvantage of this former is its complexity, due in particular to the need to use two sources, one of which, for producing current pulses with steep fronts, must be high-voltage. The closest to the invention to the invention is a current pulse shaper in inductive load, comprising an OD1Sh power source, tori with control units, a master oscillator, diodes, a controlled switch, capacitors and resistors 2j. However, in this shaper on. the switch dissipates more power when it is turned off. The purpose of the invention is to reduce the power dissipated at the switch. The goal is achieved by the fact that a current pulse shaper containing a constant voltage source, an alternating thyristor, the anode of which is connected to the positive pole of a constant voltage source, and the cathode is connected to the negative pole of a constant voltage source through a series of connected inductive load and controlled switch, | the second thyristor, the anode of which through a capacitor is connected to the negative pole of the source of direct voltage, sets the generator, the output of which is connected the input of the controlled switch and the control inputs of the first and second thyristors, diodes and resistors, a transistor switch, connected according to the scheme with a common emitter between the poles of the constant source, is connected to the cathode second thyristor, the anode of which is connected,. with the cathode of the first diode, connected by the anode to the junction point of inductive N1GruzKy with a control switch, the positive pole of the source. the direct voltage through the first resistor is connected to the anodes of the second and third diodes, the cathode of the second diode is connected to the input of the transistor switch, the cathode of the third diode is connected to the negative pole of the source of the constant voltage through the resistor and to the junction point of the capacitor to the anode of the second thyristor - through the fourth diode, connected according to the third diode, and the output of the transistor switch is connected to the auxiliary input of the front thyristor control unit. The drawing shows the functional diagram of the driver current pulse. The driver contains a constant voltage source 1, a first thyristor 2, a connected sequence & but with inductive load 3 and a control switch 4 between the poles of source 1. The cathode of the thyristor 2 is connected to the cathode of the second thyristor 5, the anode of which is connected to the cathode of the first diode 6 and through the capacitor 7 is connected to the negative pole of source 1. The master oscillator 8 is connected by an output to the input of switch 4 and to the inputs of blocks 9 and 10 of the control of thyristors 2 and 5. The anode of diode 6 is connected to the point of load 3 with switch 4. olozhitelny source terminal 1 through the first resistor 11 is connected to the anode of the second and third diodes 12 and 13, the cathode of the diode 12 is connected to the input tranzis

a key key 14, 1Ш ЮШШнн1бг 1тд ёёме. with a common emitter between the poles of source 1. The cathode of diode 13 is connected to the negative pole of source 1 through the second resistor 15 and to the connection point of the capacitor 7 through the fourth diode 5, connected according to diode 1. The output of the i4 key is connected to the auxiliary input unit 9 control. Blocks 9 and 10 of the control can be performed according to the blocking oscillator circuit, and master oscillator 8 - according to the multivibrator circuit.

746886

4t6, the voltage on it during shutdown is greater than 1.5-2 V, i.e., capacitor 7 is discharged when the leading edge is formed to zero and during switch off time 4 does not have time to charge.

Claims (2)

Invention Formula Current pulse shaper containing a constant voltage source, the first thyristor, the anode of which is connected Consider the operation of the driver in a steady state. In the initial state, the thyristors 2 and 5 and the switch 4 are turned off, the capacitor 7 is charged before the voltage UQ- When a pulse arrives from the output of the generator 8, the switch 4 turns on and the thyristor 5, and the thyristor 2 does not turn on, because the voltage Uo is much higher source of nutrition 1. The capacitor 7 is discharged according to the vibrational law through inductive load 3, forming the leading edge of the current pulse. When the voltage on the capacitor 7 becomes zero, the transistor switch 14 closes. From its output, a pulse is sent to the auxiliary input of block 9, which turns on the thyristor 2. The thyristor 5 is turned off due to the flow of reverse current. As long as the switch 4 is turned on, the current through the inductive load 3- is kept constant from the power source 1 with an accuracy up to a predetermined peak of the pulse. At the end of the pulse at the output of the generator 8, the switch 4 is turned off. The energy stored in the inductive load 3 oscillates into the capacitor 7, and the trailing edge of the current pulse is formed, and the duration of the trailing edge is approximately equal to the duration of the leading edge. When the maximum voltage on the capacitor 7 is reached, the current changes direction, the diode 6 and the thyristor 2 closes. At the same time reactive energy, accumulated. Lena in inductive load 3, with the exception of active losses during the process of energy exchange, is concentrated in the capacitor 7, which is charged up to the voltage U. Then the work cycle of the fork 1: the phone is talked about. The decrease in power dissipated on the switch 4, due to the fact.