SU847304A2 - High-voltage power supply source - Google Patents

Description

(54) HIGH VOLTAGE POWER SUPPLY The invention relates to electrical engineering and is intended for use as a secondary power supply. According to the main author. cq. No. 699512 high-voltage power supply, containing a regulating transistor included in the diagonal of a bridging bridge connected in series with the primary winding of a high-voltage transformer, a voltage multiplication circuit connected to the output winding of a high-voltage transformer, feedback cascade connected between the output terminals and the base a control transistor circuit, a current sensor connected in series with a control transistor, two FC circuits in series, a single vibrator, a divider Neither has four transistor switches, the input of the first transistor switch connected in series with one of the above-mentioned NS circuits connected to a voltage divider, in parallel with which one of the single vibrator transistors is connected, ripM parallel to the capacitor FC, the transistor is connected, the main circuit of which is connected via a divider to the output of the fourth transistor call, in addition, the input of the second transistor switch is connected via a different PC chain to the block voltage bus, and parallel to the capacitor of the HC-chain connected to the second transistor, the base circuit of which is connected to the output of the third and fourth series-connected transistor switches, the input of which is connected to the output of the one-shot | 1 |. The drawback of the device is the relatively long tripping time of the regulating transistor during current overloads, which is the sum of the tilt time of the one-shot and the turn-on time of three serially connected keys, which reduces its reliability.

The purpose of the invention is to increase the reliability of the source.

This goal is achieved by connecting a series-connected resistor and a diode to the high-voltage power supply, while the second resistor is connected to the second output of the single-oscillator and the second output of the diode to the base of the transistor of the DC amplifier.

The drawing shows a schematic diagram of a high voltage power source.

The high-voltage power supply contains auxiliary voltage block 1, transistor switches 2-5, a capacitor 6, a separator resistor 7, a single-oscillator 8, a pulsed diode 9, a resistor 10, an UFT transistor 11, a re. rumble 12,

High voltage power supply operates as follows.

At the moment the power source is turned on, the capacitor 6 is charged to the AC mains. The transistors of the switch 3 and from the auxiliary voltage unit 1 are unlocked. A blocking voltage is applied to the base circuit of the regulator 12. At the same time, the installation of a single-shot 8 volts. initial state. After the one-shot 8 is installed, the transistor switch 2 is unlocked in the initial state, and a linear-increasing unlocking voltage enters the base circuit of the controller 12, which is added to the blocking voltage present in the circuit I and exceeds its level. After charging the capacitor; 6, the transient switch 3 closes and reduces the blocking voltage from the base circuit of the regulator 12. The regulator opens and a high voltage appears at the output of the power supply.

When controller 12 is overloaded, the amplified signal from the current sensor goes to a one-shot, the transistors of which go into a new state. This will unlock key 5, which in turn unlocks key 4. Transistor key 4 unlocks key 3 Unlocking key 3 .

blocking voltage in the base circuit of the regulator 12. Thus, the shutdown time of the regulating transistor; The sum of the resistor is the sum of the transition time of the one-shot transistors to the new state and the turn-on time of three serially connected keys 5.4 and 3.

In order to increase the speed of protection of the regulator against overcurrent, from one single-side arm in case of overcurrent, an overcurrent of diode 9 and a resistor 10 is applied to the main circuit of transistor 11 of the UFD. a blocking voltage circuit from output 3, which appears after the three keys are turned on and the regulator is securely locked.

A sharp decrease in the base current of the transistor does not cause the regulator to be completely locked, and therefore the base voltage of the regulator is supplied to the base circuit of the regulator. In so doing, the requirements of the technical conditions for the transistors are met, which ensure reliable operation of the high voltage transistors.

The use of the invention allows to increase the response speed of protection in case of overloads and increases the reliability of the high-voltage power supply.

Claims (1)

1. USSR author's certificate No. 699512, cl. G 05 F 1/58, 1978. - EGZf-SET QI  - it is 1.