SU714624A1 - Pulse shaper - Google Patents

Description

(54) FORMYRSHATELE CURRENT PULSES

I.

The invention relates to radio engineering and can be used in devices with a preliminary accumulation of energy intended for the formation of current pulses.

A current pulse shaper is known that contains a key transistor on a switched inductive storage device. The disadvantage of this driver is that at the moment of disconnection of an inductive storage device there is a redistribution of current in inductive circuits and, as a result, loss of energy stored in an inductive storage device, which in turn affects the amplitude stability of the output pulses.

The closest in technical essence to the present invention is a current pulse shaper, which contains an inductive energy storage device, shunted by a load, two diodes, a transformer with primary and secondary windings, a key pnp transistor connected in a common emitter circuit, power sources of the transistor and load, the power source of the transistor is shunted by a capacitor, and its positive field C is connected to the cathode of the diode, the anode of which is connected to the load, the primary winding of the transformer dsoedinena between the transistor collector and polo} 1shtelnym polnkom w; source of power C2.

A disadvantage of the known form-die is the loss of a part of the energy of the tight-driving accumulator due to the iontirov and its nice co-current of the open diode, which is current flowing through the diode, is closed through the power supply of the load, causing it to discharge. Another disadvantage of the known former is low stability. amplitudes of the generated pulses. This is due to the presence of a component of the source current by load gaps in the output pulses.

The aim of the invention is to increase the stability of the amplitude of the generated pulses.

Claims (2)

The goal is achieved by the fact that in a known current pulse driver containing an inductive energy storage device, a shunt1 {load load, two diodes, a transformer with primary and secondary windings, a key npp transistor connected according to a common emitter circuit, power sources are trans The power supply and the load, the power source of the transistor is shunted by a capacitor, and its positive pole is connected to the cathode of the diode, the anode of which is connected to the load, while the primary winding of the transformer is connected between The transistor of the transistor is connected with the positive pole of the power source, the secondary winding of the transformer is connected to the negative pole of the power supply source by the first terminal, and the second direct current through the second direct-connected diode to the inductive energy storage. The drawing shows an electrical circuit of a current pulse driver. Current pulse shaper contains energy storage J, load power source 2, diode 3, trans1; formator 4 with primary 5 and secondary: 6 windings, key Transstor 7, power supply 8, capacitor 9, load 10 and diode 11. The power source of transistor 7 is bridged by capacitor 9, a. its positive pole is connected to the cathode of the diode 11, the anode of which is connected to the load 10, while the winding 5 of the transformer 4 is connected 1 "between the collector of the key transistor 7 and the positive pole of the power source S. The secondary winding b of the transformer 4 is connected to the HbiM pole by the first output the power supply of the load 2, and the other output through a direct-connected diode 3 with an electrical energy storage device I. The operation of the current pulse driver is as follows. In the absence of control pulses on the basis of the key pn-transistor 7, the diode 3 is open and S is turned on, the current is set to ensure energy accumulation. The control pulse locks the diode 3, fcoTopb disconnects inductive energy storage 1 from power source 2. This causes a drop in the load on the power storage device 1, the polarity 1 cc coincides with the emf of the power supply of the load 2 and the opposite of the emf in the winding of the transformer 4 and the emf of the power supply 8 of the traisistor 7. Provided: EI - EZ Eg "EI where EI, EZ, Eg and EB - EMF of the inductive energy storage 1, the power source 2 loading 44 ki, the secondary winding 6 of the transformer 4 and the power supply 8 of the transistor 7, respectively, diode 3 closed and diode 11 open in the interval of formation of a pulse in the load 10. The discharge current of the inductive energy storage 1 flowing through the diode 11 is closed through the power supply 8 of the transistor 7, and its charging is performed. This increases the efficiency of the generator. The instability of the voltage of the power source 2 does not affect the amplitude of the output pulses, if its value ("meets the above condition. This increases the stability of the amplitude of the generated pulses. The capacitor 9 provides smoothing of the pulsations during the charging process of the reference voltage source 8. Thus, the shaper allows to increase the stability of the amplitude of the generated current pulses, while instead of discharging the power source of the load, the power source of the key transistor is charged Claims A current pulse shaper comprising an inductive energy storage device shunted by a load, two diodes, a transformer with primary and secondary windings, a key p-p-transistor connected according to a common emitter circuit, the power sources of the transistor and the load, the power source of the transistor being clamped a capacitor, and its positive 1LP10C is connected to the cathode of the diode, whose year is connected to the load, while the primary winding of the transformer is connected between the collector of the transistor and the positive A power supply pole, characterized in that, in order to increase the amplitude stability of impulses, the secondary winding of the transformer is connected to the negative pole of the gaggary source by a first terminal and a second direct-connecting diode to an inductive energy storage device via a second terminal. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 504296, cl. And 03 K 3/00, 15.05.74. 2. US Patent N "3588667, cl. 321-5, pub. 28.06.71. s 714624