SU1073762A1 - High-voltage voltage stabilizer - Google Patents

Abstract

- HIGH-VOLTAGE VOLTAGE STABILIZER containing a regulating transistor, consistently and according to which a high-voltage power source is connected to the word bus, a low-voltage power source, one of which is connected to the collector of the regulating transistor, the emitter of which is connected through the diode in the opposite direction to the high voltage terminal power, measuring and amplifying node, output connected to the base of the regulating transistor, and a current protection node, characterized in that to reduce the overload current while simultaneously expanding the input and output voltage ranges, a zener diode and a resistive divider connected between the collector of the regulating transistor and the same-voltage output of the high-voltage power supply are inserted into it, the midpoint of this divider is connected to the input of the protection node via the zener diode current, the output of which is connected to the regulating transistor base, and the current protection node consists of a resistive current sensor, A between the regulating transistor and the high voltage source FF NIKOM, and the transistor, the basic emitter junction of which is shunted by the indicated current sensor, and the collector is the output of the current protection node, s

Description

one

WITH

O) HCHE The invention relates to electrical engineering, namely to secondary sources of direct current power, and can be applied in various technical fields as an economical and unreliable power source. "Sequential high constant voltage regulators are known, consisting of in series and according to the connected rectifier and controlled low-voltage source}. : The disadvantage of them is that they have a complex amplifier circuit. The closest technical solution to the invention is a high voltage voltage regulator containing a regulating transistor, consistently and according to which a high-voltage power source, a low-voltage power source, one of which terminals are connected to a regulating transistor collector, is connected to the bus; through a diode in the opposite direction, connected to a single-name output of a low-voltage power supply, measuring and amplifying unit, the output connected to the base of the transistor and the current protection unit 2. The disadvantage of the stabilizer is low efficiency. The goal is to increase efficiency by limiting the overload current while expanding the range of input and output voltage changes. The goal is achieved by including a high-voltage power source and a low-voltage power source in the high-voltage voltage regulator containing a regulating transistor. , one of the terminals of which is connected to the collector of the regulating transistor, the other of which is connected through the diode in the opposite direction to the terminal of the same name Voltage source, measuring amplifier unit, output connected to the regulating transistor base and current protection node, a Zener diode and a resistive divider connected between the regulator collector and the NIN high-voltage source with the same name entered the Zener diode through the Zener diode connected to the input of the current protection node, the output of which is connected to the regulating transistor base, the current protection node consisting of a resistive current sensor switched on Further, regulation of between -ruyuschim .tranzistorom and high-voltage source, and transistor Bazo-emitter junction of which: untiruet .datchik said current and whose collector is the output node of the protection current. The drawing shows a diagram of a high voltage voltage regulator. The stabilizer contains a high-voltage source 1, a regulating transistor 2, a low-voltage source 3, a decoupling diode 4, a transistor 5 of the measuring and amplifying node 6, a current protection node 7 consisting of a current sensor 8 and a transistor 9, a divider on resistors 10, 11, connected between the collector of the regulating transistor and the positive terminal of the high-voltage source, the middle point of the divider is connected via Zener diode 12 to the emitter of the regulating transistor. In the stabilization mode, the circuit operates as a conventional linear stabilizer, with the current protection node (S, 9) resistive divider 10, 11 and the st1 bilitron 12 not working on the circuit. T, When the load current increases above a certain level, the voltage on the current sensor 8 reaches a value sufficient to open the transistor 9. With this, the regulating transistor 2 begins to close, the voltage at its transition emitter-collector, and hence the resistive divider 10, 11 increases. Zener diode 12 is punched, the current flowing through the zener diode creates an additional voltage across current sensor 8, the voltage drop that forces the complete closing of the regulating transistor. Thus, an overload or short circuit current flows through a resistive divider, a control transistor mine, which effectively limits this current and protects the control transistor. Similarly, the zener diode works with increasing input voltage (decreasing output) voltage. At the same time, the voltage across the regulating transistor 2 increases, which leads to the breakdown of Zener diode 12, the protection transistor 9 opens and the regulating transistor 2 closes. At that, the load current flows through the resistive divider 10, 11, which significantly reduces the power at the regulating transistor. When the emergency mode is eliminated (overload, short tongue, overvoltage at the input), the normal operation of the stabilizer is restored automatically.

Claims (1)

¢ 57) A HIGH VOLTAGE VOLTAGE STABILIZER, comprising a control transistor, sequentially and according to which a high voltage power supply is included in the power bus, a low voltage power supply, one of which is connected to the collector of the control transistor, the emitter of which is connected through the diode in the opposite direction to the same terminal high-voltage power supply, measuring and amplifying unit, connected to the base of the regulating transistor by the output, and current protection unit _w , characterized in that In order to increase the efficiency by limiting the overload current while expanding the input and output voltage range, a zener diode and a resistive divider are inserted into it, connected between the collector ^ of the regulating transistor and the aforementioned terminal of the high-voltage power supply, the midpoint of the indicated divider is connected through the zener diode to the input of the protection node via current, the output of which is connected to the base of the control transistor, and the current protection unit consists of a resistive current sensor§ connected between liruyuschim® transistor and a high voltage source, and transistor Bazo-emitter junction which bypasses said current sensor and whose collector is the output node of the protection current, I