SU869014A1 - Pulse modulator - Google Patents

Description

(54) PULSE MODULATOR

The invention relates to radio engineering and can be used in pulsed radio transmitting devices. A pulsed modulator containing a tacitron is known, whose control grid is connected to a control pulse generator, a negative bias source and a magnetic thyratron connected between the negative bias source and the tacitron grid l3. The disadvantage of the known pulse modulator lies in the narrow range of the switched current, which is limited by the magnitude of the bias voltage. Closest to the proposed pulse modulator, which contains a Tacitron, the anode of which is connected to a power source through a charging resistor, the cathode to a common bus, and the control grid through a coupling capacitor to a generator of controlled pulses, a source of displacement "series-connected load and a storage a capacitor connected to the anode of the Tacitron G23. The disadvantage of this pulse modulator is also a narrow switching current range. The purpose of the invention is to expand the range of the switched current. The goal is achieved by the fact that in a pulse modulator containing a tesitron, the anode of which is connected via a charging resistor to a power source, the cathode is connected to a common bus, and the control grid is connected to a generator of control pulses, a source of bias, and serially connected the load and the storage capacitor connected to the Tacitron anode, the feedback circuit is designed as a pulse current transformer, the primary winding of which is connected between the load and the common bus, and the secondary winding a delay line connected to the inductive terminal through a terminating resistor to the control grid tasitrona, and capacitive - a bias source. The drawing shows a pulse modulator circuit. A pulse modulator contains a tacitron 1, a generator of 2 control pulses, a storage capacitor 3 connected by one output to the anode of the tacitron 1, and the other to the load 4 connected to the primary winding

a pulse current transformer 5, the secondary winding of which is connected to a delay line b, connected by a capacitive output to bias source 7, and inductively via the matching resistor 8 to the control grid of tacitron 1 and separation capacitor 9, through the charging resistor 10 connected to a power source.

The pulse modulator works in a consistent manner,

In the pauses between pulses, Tacitron 1 is locked by the voltage of the bias source 7. When a trigger pulse is applied to the grid of tacitron 1 from the control pulse generator 2, tacitron 1 opens. The storage capacitor 3 is discharged through tacitron 1, load 4 and pulse current transformer 5. The windings of the pulse current transformer 5 are connected in such a way that a negative pulse is generated in the secondary circuit of the pulse current transformer 5, which is fed to the delay line 6.

From the output of the delay line b, the negative impulse goes through the control grid of the tacitron 1 through the terminating resistor. With the arrival of a negative pulse, the value of which is determined by the wave resistance of the delay line 6 and the transfer coefficient of the current pulse transformer 5, the bias source 7 decreases significantly In this case, the potential of the grid of tacitron 1 sharply decreases, and at a certain value of the discharge quenching occurs.

Since the magnitude of the pulsed negative voltage significantly exceeds the voltage of the source 7 of the bias, the quenching currents increase sharply

As the operating current increases, the magnitude of the negative bias pulse increases, and decreases with decreasing.

Thus, the proposed device automatically provides quenching of tacitron. In a wide range of operating currents.

Claims (2)

1. Authors certificate USSR 337927, cl. K 03 H 7/00, published 05.05.72. 2. Gagin E.T., Gnido V.F., Krestov V.A., Nikolaev A.I. The generator of high-voltage pulses of long duration. PTE, 1974, No. b, p. 102-10 (prototype). jLj-e Ben 7-t