SU552675A1 - Odnovibrator - Google Patents

Description

(54) SINGLE VIBRATOR

The invention relates to the field of radio engineering and is intended for use in pulsed devices for various purposes. A device containing a control circuit, a key stage on one field-effect transistor, and a time setting RC circuit 1 are known. However, such a device does not provide for the formation of time intervals of long duration. The purpose of the invention is to increase the exposure time. This is achieved by the fact that in a single-shot containing a power source, an inverter, the output of which is connected to the emitter follower input, and a key stage on a field-transistor, whose input through the C-circuit is connected to the output of the emitter follower, a load resistor connected to the input of the inverter, additionally A second field-effect transistor is introduced, with the drain of the second field-effect transistor connected to the source of the first field-effect transistor, the source to the load resistor, and the gate to the power supply pole. The drawing shows the electrical circuit of the one-shot. The device contains a power source 1, an inverter on a transistor 2 connected according to a common emitter circuit, a key stage on field-effect transistors 3 and 4 connected so that the drain of transistor 3 is connected to the source of transistor 4 and the gate of transistor 4 is with a positive pole of source 1 power supply, and its drain - with a resistor 5 of the load divider, the time setting on the resistor b and the capacitor 7, the emitter follower on the transistor 8. The device operates as follows. In the initial state, the traisistors 2, 3, 4 are open, and the transistor 8 is closed. The capacitor 7 is charged almost to the voltage of the power source 1. A negative polarity trigger pulse is applied to the base of transistor 2. This triggers the transistor 2 unlocking the transistor 8. A positive differential from the emitter of the transistor 8 flows through the capacitor 7 to the gate of the transistor 3. The field-effect transistors 3 and 4 lock up, keeping the transistor 2 in locked state. Thus, the circuit goes into an unstable raviveskie, in which the trap 2, 3, 4 are locked, and the transistor 8 is open; the capacitor 7 is discharged through resistance; 1E 6 and the transition emitter-collector open

transistor 8. A positive polarity pulse is removed from the emitter of transistor 7, the duration of which is determined by the values of resistor 6 and capacitor 7. At the moment when the gate-source voltage of transistor 3 reaches the release value, the circuit goes to its original state.

The increase in the duration of the time interval is due to the fact that the input resistance of the private key is determined not only by the resistance of the closed transition of the first transistor, but also connected in series with it by the resistance of the closed channel of the second transistor. As a result, the input impedance of the key in shorter time shunts the time specifying the C-circuit, and therefore the size of the resistor 6 can be chosen much more, which allows to increase the duration of the time interval by more than 2 times.

Claims (1)

1. US patent No. 3794860, CL. 307-88.5, 1970 (prototype). - I tlJ VmdLG