SU940281A2 - Pulse generator - Google Patents

Description

(54) PULSE GENERATOR

Claims (3)

The invention relates to a pulse technique and can be used in a pulse generator circuit intended to power an RF generator. On the main auth, sv. Mb431625 detected teH of a rectangular pulse generator containing a series-connected drive, a thyratron, a modulator lamp, a load, and a RO-divider stratified parallel to the modulator lamp, whose output resistance is shunted by a thyristor and connected via a coupling capacitor and cathode follower to the grid a modulator lamp circuit However, a known generator does not allow the generation of pulses of a different form, for example, pulses of stepwise increasing voltage. The purpose of the invention is to expand the functional capabilities by forming pulses of stepwise increasing voltage. To achieve this goal, a thyristor is connected with a resistor in the pulse generator, and the RC voltage divider has taps, the taps with the lowest voltage level are connected to the isolation capacitor through a diode, and the remaining taps are connected to the separation capacitor via additional thyristors. The drawing shows the principal electrical circuit of the proposed generator. The generator contains a drive 1 connected in series with the thyratron 2, modulator lamp 3 and load 4. The anode of lamp 3 is connected to its grid circuit via an RC voltage divider with taps consisting of resistors 5-8 and capacitors 9-12, a diode 13, thyristors 14-1 to 14-VI separation capacitor 15 and cathode follower 16, with the tap of the lowest-level output voltage connected to the split capacitor via a diode 13, and the remaining tapes connected to it through gyristher 14-1 14- C and the cathodes of thyristors 14-1 - 14-C and di Ode 13 through a parallel connected resistor 17 and thyristor 18 is connected to the zero bus. The accumulator 1 is charged from Source + E through the charge resistance 10. The rectifier voltage is from EQ - EQ is fed through the load 20 of the cathode repeater 16 to the grid of the modulator lamp 3. The voltage of the overvoltage source + E of the modulator lamp 3 is supplied the anode of the cathode follower 16. In the cathode follower 16, the negative feedback is via the resistor 21 The pulse generator operates as follows. In the initial state of the modulator pa 3, it is locked by the voltage of the rectifier cm - H. The anode current, the voltage on the anode, the excess voltage on the grid of the modulator lamp 3 and the voltage on the load 4 are equal to zero. The voltage of the power source + E, equal to the voltage on the drive 1, is applied to the locked thyratron 2. To the anode of the cathode follower 16 the total voltage of the bias voltage detector is applied - Eg. and an overvoltage source + E of the modulus of the lamp 3. The anode current of rest flows through the cathode follower 16. Thyristors Il-l - and 18 are locked. At the moment of time corresponding to the leading edge of the first stage of the output pulse, an impulse unlocking the thyratron comes from the external generator 2. At the same time, the grid voltage of the modulator lamp 3 through the repeater 16, the capacitor 15 and the diode 13 is supplied with a control voltage taken from the resistor 8 RC-voltage for the voltage. The lamp 3 opens, and at the load 4, the front edge and the flat part of the first stage of the single pulse are formed. At the time point corresponding to the leading edge of the second stage of the output pulse, an external generator receives a pulse that turns on the thyristor 14-1. This further increases the voltage level on the grid of the repeater 16, the grid of the lamp 3, and the front edge is formed on the load 4 and the flat part of the second stage of the output pulse. Then, a trigger pulse is applied to the control electrode of the thyristor 14-U1, and the next pulse stage is formed. The process of forming each next step of the pulse proceeds as described for thyristor 14-1. After the last step of the pulse has been formed, a trigger pulse is applied to the control electrode of the thyristor 18. The thyristor 18 is turned on and through the switched on thyristor 14 and shuns the resistors 6, 7 and 8 of the RC voltage divider, as a result of which the division factor of the RC voltage divider is changed, the level of overvoltage on the grid of the repeater 16 and the motor lamp grid is reduced 3, which is locked by the bias rectifier voltage - E, and the trailing edge of the voltage pulse is formed on the load. Then the thyratron 2 is deionized, and the circuit returns to its original state. The generator also makes it possible to form a sequence of rectangular pulses. in this case, the trigger pulses are simultaneously supplied to the thyratron 2 and one of the thyristors (14-1 to 14-vi, which form the leading edge and flat top of the pulse arriving at the grid of the cathode follower 16 and the grid of the modulator lamp 3. The pulse duration is determined by the turn-on time of the thyristor 18. The use of the R & voltage divider with taps favorably distinguishes the proposed device from the known one, since it allows the formation of both rectangular and stepwise increasing voltage pulses, which expands the area possible use of a pulse generator. Claims Pulse Generator St. No. 431625, characterized in that, in order to extend the functionality by forming pulses of stepwise increasing voltage, the thyristor is bounded by a resistor, and the HC-voltage divider has taps, and the taps with the lowest voltage level are connected to the separation capacitor through a diode, and the others taps connected to the separation capacitor through additional thyristors. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 431625, cl. H 03 K 3/5.: ,, 1972 (prototype)