SU1022300A2 - Pulse generator - Google Patents

Description

The invention relates to a pulse technique. And can be used to obtain stabilized portions of energy delivered by a storage capacitor to a load with synchronization by an external signal, especially in cases of complex connection of stabilization circuits directly to a storage capacitor.

A pulsed generator containing a source of unstabilized voltage, a charging resistor, a controlled switching element, a storage capacitor, a load, and a device that simulates the charging process and is a time relay with an exponential time dependence on the supply voltage 1 is known.

Known pulse generator has limited functionality. For example, it does not allow synchronizing the discharge of the storage capacitor by an external signal, this is because both switching elements that control the charge of the capacitor are connected directly to the time relay output and the start of the discharge is determined by the time delay depending on the supply voltage. after which the corresponding switching of the switching elements occurs.

The purpose of the invention is to expand the functionality.

The goal is achieved by the fact that a pulse generator containing a source of unstabilized DC voltage, the first and second outputs of which are connected via a time relay to the first input of the first switching element, the second input of which is connected to the third output of the source of a non-stabilized DC voltage, and the output of the first switching element through the charging resistor is connected to the first plate of the storage capacitor and to the first input of the second switching element, the output of which is h Through the load, it is connected to the second plate of the storage capacitor and to the quarter-output of the source is voltage-controlled DC voltage, a switching element and series-connected trigger and are additionally introduced. element I, the output of which is connected to the second input of the second element and the first input trigger, the second input of which is connected to the first input of the first switching element, and the second output trigger is connected via an additional switching element to the control input of the time relay,

The drawing shows a structural diagram of a pulse generator.

The pulse generator contains an unstabilized DC voltage source 1, switching elements 2 and 3, a load 4, a charging resistor 5, a storage capacitor 6, a time switch 7, which

o is a simulator (it simulates the charging process), trigger 8, element 9 and additional switching element 10. In the drawing, the synchronization bus 11 and the start bus 12 are indicated.

Pulse generator works as follows.

In the initial state, the switching element 10 is closed, and commuting elements 2 and 3 are open.

When a trigger signal is received via bus 12 via switching element 10, switching element 2 closes at the triggering input of relay 7.

5 Condenser 6 starts charging from power source 1. After the time delay expires, the switching element 2 opens, the trigger 8 goes into one state. Sigj Nal with inverse trigger output 8

 ceases to arrive at the control of the electrode of the switching element 10, and enters from the direct output of the trigger 8 to the first input of the element AND 9. The switching element 10 opens and breaks the start circuit of the relay 7, excluding its restart before the storage capacitor b is discharged. When the external synchronization signal arrives at the bus 11 to the second input of the element I 9, the signal from its output goes to the control of the commutator electrode of the element 3 and to the zero input of the trigger 8. The switching element 3 closes and 5 the energy stored by the capacitor 6 is transferred to the load 4. Trigger 8 returns to its original state. Kommutirukvd element 10 closes-, p. Pulse generator ready for

, restart.

Thus, the proposed pulse generator has wider functionality J. in comparison with the known, since

 it ensures the synchronization of the charge capacitor from the external signal, which makes it possible to use it when it is necessary to ensure the discharge of the storage capacitor

0 capacitor at a specified time / for example, when working together with other 1 pulse and measuring devices, with a camera in the flash. In addition, it eliminates the possibility of re-charging

3-1022300

storage capacitor before blocking the start of the discharge time relay, for example, when operating in the mode of the delimiter — after manual control, due to a number of capacitors.

Claims (1)

PULSE GENERATOR BY author. St. "627568, from the person a _; and with the fact that, in order to expand the functionality, a switching element is additionally introduced into it and a trigger is connected in series _} and the element And, whose output j is connected to the second input of the second switching element and to the first input of the trigger, the second input which is connected to the first input of the first switching element, and the second trigger output is connected through an additional switching element to the control input of the time relay. ... SU „„ 1022300>