SU699512A1 - High-voltage power supply source - Google Patents

Description

(54) HIGH VOLTAGE POWER SOURCE

Claims (2)

The invention relates to electrical equipment and is intended for use as a secondary power source. . A high voltage power supply is known which contains a control transistor and a feedback circuit jl. A disadvantage of the known source is the lack of overcurrent protection. Also known is a high-voltage power supply containing a regulating transistor included in a di- rectal rectifying bridge connected successively to the primary winding of a high-voltage transformer, a voltage multiplying circuit connected to the output about a & tray of a high voltage transformer, feedback cascade connected between the output voltages and the base circuit of the regulating transistor 2. The drawback of the known devices But it consists in the fact that when it is switched on into the supply voltage network, the current transient in the regulator has a collective character. The magnitude of the rereg--. can achieve higher values. In this case, the reliability of the power supply is reduced and the construction of a t-mode overvoltage protection circuit of a high-voltage power supply is much more complicated. The aim of the invention is to improve the reliability when switching on the source while ensuring accuracy of protection against overcurrent. To do this, a high-voltage power supply containing a control transistor, included in the diagonal of the current bridge connected in series with the primary winding of the high-voltage transformer, a voltage multiplication circuit connected to the output winding of the high-voltage transformer, a feedback cascade connected between the output voltages and the base a control transistor circuit, a current sensor is inserted, connected in series with. regulating transistor, two consecutive RC chains, one-shot, voltage divider and four-way transistor switch, the input of the first transistor switch connected in series with one of the above-mentioned RC chains connected to the voltage divider parallel to which i one of the one-shot transistors, a feature parallel to the condenser of the same RC-nepochek is a newly introduced transistor, the main circuit of which through the newly introduced divider is connected to the output of the fourth transistor switch, in addition a second transistor switch via another RC-depochku coupled to bus locking voltage and in parallel con | this capacitor R.C-chain podyutyuchen. The second newly introduced 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. The drawing shows the high-voltage power supply. The high-voltage power supply contains a transformer 1, auxiliary voltages 2-4, 5C-chain on capacitor 5 and resistor 6, transistor 7 transistor switches 8-11, capacitor 12 RC-chains, transistor 13, resistors 14-15 divider, time master capacitor 16 one-shot, transistors 17-20, control transistor 21, current sensor 22, high-voltage transformer 23, voltage multiplying circuit 24, feedback coupling 25, overvoltage signal amplifier 26 High-voltage power supply with overload protection but following current shimm way. When the power source is turned on to the AC mains by transformer 1 and consumers 2-4, auxiliary DC voltages are formed. Capacitor 12 starts to charge. The second transistor switch 9 is unlocked by the charging current of this capacitor, which then goes into the main circuit of the composite regulator. A transient locking voltage is applied to the driving transistor 20,21 with high voltage 3. In this case, the regulating transistor is securely closed. Simultaneously with the process of locking the regulating transistor at the moment of switching on the source to the network, the installation of a one-shot, executed on transistors 17, 18, to its initial state, i.e. transistor 17 is locked and transistor 18 is opened. When transistor 17 is closed, the voltage from resistor 15 opens the first transistor switch 8. A positive voltage is applied to the input of the RC chain 5, 6. From capacitor 6, the linearly increasing positive voltage enters the base of the control transistor. After charging the capacitor 12, the second transistor switch 9 is locked and the blocking voltage is removed from the base circuits of the control transistor. Under the action of the voltage from the capacitor 6 of the base circuit of transistors 20-21, the current increases linearly, and the current through the current sensor 22, which is connected in series with the regulating transistor, also increases linearly. When the control transistor 21 is detuned, a voltage appears on the secondary winding of the high-voltage transformer .23 and on the output of the circuit 24 with a voltage multiplication. As the voltage increases or the load current decreases, the voltage at the output of the feedback stage 25 increases. This causes unlocking of the transistor 19 and closing of the transistors 2O, 21, which leads to an increase in the voltage across the load. In the event of an increase in the load current, and above a predetermined level, the voltage on the current sensor 22 increases. This voltage, as part of the overcurrent signal amplifier 26, is compared with the reference voltage, the voltage difference is amplified, and a positive voltage is applied to the input of the one-oscillator (transistor 17). The synovibrator overturns. The transistor 17 is opened, the transistor 18 is closed. Open transistor 17 bypass resistors 14-15. This causes the first transistor switch 8 to be locked. When the first transistor switch 8 is locked, the unlocking positive voltage is removed from the base circuits of the transistors 20-21. At the same time, unlocking the transistor 17 causes the previously closed fourth transistor switch 11 to be unlocked. Unlocking the transistor switch 11 leads to unlocking the transistor 7. The capacitor 6 is discharged through the open transistor 7 so that when the power source is next turned on, the capacitor 6 starts to charge from zero level naproja. Otherwise, the current transient at the output of the high-voltage stabilizer can be oscillatory in nature. Unlocking the transistor switch 11 causes the third transistor switch U and the second transistor switch 9 to be cleared. When the switch 9 is unlocked, the locking direction enters the base pees of the transistors 2O-21, which causes the locking of these transistors. The current through sensor 22 decreases to zero. In the closed state, the regulating element is at the time of the recharging of the capacitor 16. Then the one-shot is restored to the initial state, i.e. transistor 17 closes and transistor 18 opens. This causes the controller to open again and a current begins to flow through sensor 22. The process of turning on and off the high-voltage power supply continues until the cause of overcurrent or short-circuit is removed. Claims of the invention A high voltage power supply comprising a control transistor included in a diagonal rectifier bridge connected in series with the primary winding of the high voltage transformer, a voltage multiplication circuit connected to the output winding of the high voltage transformer, a feedback stage connected between the output terminals and base pepyat regulatory regulator, distinguishing - with the fact that, with a higher reliability when switching on the source while ensuring accuracy overcurrent protection, a current sensor, connected in series with a regulating transistor, two consecutive RC-chains, a single-oscillator, -, a voltage divider and four transistor switches, is inputted to it, and the input of the first transistor switch, connected consistently with one of the 2-chains, connected to divides €; any voltage is one of the five transistors of the one-shot, and the newly inserted transistor is connected parallel to the capacitor of the same HC-chain, through which The entered divider is connected to the output of the fourth transistor switch, in addition, the input of the second transistor switch is connected to the block voltage bus through another RC chain, and a second newly entered transistor is connected in parallel with the conditor of this COP, the base circuit of which is connected to the output of the third and the fourth series-connected transistor switches, the head of which is connected to the output of the one-shot. Sources of information taken into account during the examination 1. Underground V.S. et al. An alternating voltage stabilizer, log. Instruments and control systems, No. 7, 1968, p. 52. 2. Belopolsky I. I. and Tikhonov V. I, Transistor Stabilizers for Higher Vol., M., Energie, 1971, p. 57, fig. 4-4.