SU957187A1 - High-voltage adjustable dc voltage stabilizer - Google Patents

Description

(5) HIGH-VOLTAGE REGULATED CONSTANT VOLTAGE STABILIZER

Claims (2)

The invention relates to electrical engineering, in particular, to power sources and can be used in power supply systems for electronic devices. Adjustable DC voltage regulators are known, containing a series regulating element, a differential feedback amplifier powered by an additional power source, a reference voltage source, and an output voltage divider 1. The disadvantage of such stabilizers is a relatively low stabilization factor, since it is known that the maximum stabilization coefficient of such stabilizers will be in the case when the reference voltage is approximately equal to the stabilized output have voltage. The closest to the invention to the technical essence is a high voltage adjustable voltage regulator containing a regulating element, an auxiliary power supply connected to one of the power lines, an average output connected to the first output terminal of the stabilizer, and extreme leads to the terminals of the power supply of the differential amplifier, the output of which connected to the control input of the serial regulating element, the first input to the first output terminal of the stabilizer, and the second input through the cut the transducer with the second output terminal of the stabilizer and through the current-stabilizing two-pole device with the first power terminal of the differential amplifier 2. A disadvantage of the known stabilizer is its limited functionality. This is due to the inability to adjust the output voltage with a conventional variable resistor, as well as low temperature stability. The purpose of the invention is to expand the design of the output voltage control and increase the thermal stability of a dc voltage regulator. This goal is achieved by having a high voltage dc voltage regulator containing a regulating element included in one of the power buses an auxiliary power source, the middle output of which is connected with the first output terminal, and the extreme terminals with the power terminals of the differential amplifier, the output of which is connected to the control input of the serial p The first input, with the first output terminal of the stabilizer, and the second input through the resistor, with the second output terminal of the stabilizer, and through the current-stabilizing two-pole device, with the first power terminal of the differential amplifier, is additionally equipped with an adjustable current-stabilizing two-pole device connected between the second terminal of the power supply of the differential amplifier and his second entrance. The drawing shows a schematic diagram of a high voltage stabilizer. The stabilizer contains a series regulating element 1, a differential amplifier 2, a high-voltage power supply 3, an auxiliary power supply k, adjustable current-stabilizing two-terminal circuits 5 and 6, a resistor 7 Average, the output 8 of the auxiliary power supply k is connected to. the first output terminal 9 of the stabilizer and the first input 10 of the differential amplifier 2, the second input 11 of which is connected via a resistor 7- to the second output terminal 12 of the stabilizer, through a two-pole current-stabilizer 6 - to the first terminal 13 of the power supply of the differential amplifier and through an adjustable two-pole two-pole 5 the second terminal k of the power supply of the differential amplifier. High voltage stabilizer works as follows. The operating point of the differential amplifier 2 is determined by summing three currents at its input 11: the current through the resistor 7 and two currents through the two-terminal technetabilizing .5 and 6. By changing the balance of the current-stabilizing two-pole currents, you can change the output voltage from zero to maximum. When the operating point of the differential amplifier 2 is selected, an increase in voltage at the output terminals 9 and 12 will lead to a decrease in the potential of the grid of the regulating element 1 and a corresponding increase in the voltage drop across it, which leads to a decrease in the voltage at the output terminals 9 and 12. An increase in the thermal stability of the stabilizer is a consequence of the differential activation of the current stabilizers 5 and 6, since such an inclusion partially compensates for their thermal drift and instability due to a change in the supply voltage. With relatively low requirements for the stabilization factor of a high-voltage stabilizer, it is possible to use not current stabilizers as current-stabilizing two-terminal 5 and 6, as is shown in the drawing, but respectively adjustable and unregulated resistors. Thus, the application of the proposed stabilizer allows without significant complication of the circuit to achieve a wide range of regulation of the output voltage and increase its thermal stability. provides a significant expansion of the functionality of a high voltage adjustable voltage regulator. Claims of the invention A high-voltage adjustable voltage regulator containing a regulating element, an auxiliary power source connected by an average terminal to the first output terminal of the stabilizer, and the extreme leads to the power terminals of a differential amplifier whose output is connected to the control input of a serial regulating element first input the first output terminal of the stabilizer, and the second input through the resistor - with the second output terminal of the stabilizer and through the current stabilizing vuhpolyusnik with the first power terminal of the differential amplifier, characterized in that, in order to expand functional capabilities of the stabilizer by increasing the range of regulation of its output voltage and higher -;:; its thermal stability, it is equipped with an adjustable current-stabilizing two-pole device connected between the second terminal of the power supply of the differential amplifier and its second input. 571876 Sources of information taken into account in the examination. Author's certificate of the USSR No. 571798, cl. G 05 F 1 / 5b, 1978. S 2. Spukayev A.V. et al. Application of microcircuits in voltage and current stabilizers. - Instruments and systems up1977, If 7, p. H. Fig. one. board