SU515097A1 - Controlled High Voltage Stabilizer - Google Patents

Claims (1)

The invention relates to industrial radio technology and can be used in power supply devices for automation units, computing equipment and communication facilities. Controlled high voltage stabilizers are known, including a voltage amplifier, an error amplifier, a regulator and a high voltage rectifier connected to the stabilizer output terminal, and a threshold element, a voltage converter, the output of which is via an opposite polarity rectifier and a zener diode connected in series with an output voltage divider. to the output terminal of the stabilizer. The purpose of the invention is to reduce the switching time of the output voltage levels while increasing the efficiency and simplifying the stabilizer circuit. This is achieved by the fact that the proposed stabilizer is equipped with an additional pore element and a zener diode, and the outputs of both threshold elements are connected to the bases of the transistors of the converter. The primary and secondary zener diodes, one of which is encased by a cowdensato; rum, are connected in series between the switch, the connection point of the zener diodes is connected via a diode to the output of the converter | And through a resistor is grounded. I The drawing shows the basic I electrical circuit of the stabilizer. It contains a high-voltage rectifier 1, | capacitor 2, regulator 3, amplifier ccorw of lasers 4, divider consisting of high voltage resistor 5 and low voltage resistors 6 and 7, voltage source 8, transistor 9 in accordance with external signal i bypass the resistor 7, The main 10 and additional 11 threshold units control, respectively, transistors 12 and an IS converter with an output of 14. 14. The voltage pulses of the transformer 15. through diodes 16, 17, zener diodes 18) 19 and capacitor 20 recharge capacitor 2 for small time The resistor 21 provides the necessary voltage across the capacitor 20. The voltage source 22 feeds the converter 14; When the output voltage changes, the voltage on the resistors 6 and 7 is also changed. This change is amplified by the amplifier 4 and acts on the regulator 3, which changes the input voltage of the detector 1, as a result of which the output voltage of the stabilizer is restored to its original value . When transistor 9 is turned off, a positive polarity pulse appears at the inputs of the threshold elements, which triggers apeite Yu and the transistor saturates l 12. At the output of transformer 15, a high voltage negative polarity appears, which through zener diodes 18, 19 and the diode 1R discharges the capacitor 2 to a lower voltage level, after which the input voltage of the elements 1.O and 11 again becomes close to zero. When turning on the transistor 9 at the inputs of the elements Yu and 11, a pulse of negative polarity is turned on, which will lead to the operation of the element 11 and the transistor i 3. In this case, the positive-polarity pulses through the capacitor 2O and the diode 17 charge the capacitor 2 to the upper voltage level. The voltage of the zener diode 18 must be less than the voltage of the lower level, and the total voltage of the zener diodes 18 and 19 is higher than the voltage of the upper level. At the same time, diodes 16 and 17 are closed in the established mode. A small current through the resistor 21 does not reduce the voltage on the capacitor 20 relative to the voltage of the zener diode 18. The decrease in the switching time of the output voltage levels is achieved by using the transformer 15 in the single-pulse mode. to stabilizer. Claims of Invention A controlled high-voltage stabilizer comprising an output voltage divider connected in series, an error amplifier, a regulator, and a high-voltage rectifier connected. with the output terminal of the stabilizer, as well as the threshold element, voltage converter, the output of which is connected via the opposite polarity rectifier and the zener diode to the output terminal of the stabilizer, characterized in that, in order to reduce the switching time of the output voltage levels when increasing and simplifying the stabilizer circuit, it is equipped with an additional threshold element and a zener diode, and the outputs of both threshold elements are connected to the bases of the transistors of the converter, primary and secondary The tablitrons, one of which is bridged by a capacitor, are connected in series with each other, and the connection point of the zener diodes is connected via diode to the output of the converter and grounded through a resistor.