SU1152073A1 - High-voltage bipolar d.c. voltage source - Google Patents

Abstract

1. HIGH-VOLTAGE BIPOLAR POWER SOURCE of a constant voltage, containing an adjustable source of alternating voltage with an output power amplifier, an error signal amplifier, the output of which is connected to the input of a regulating element, a reference voltage unit j, a unit for rectifying and multiplying the voltage, the output of which is connected to a voltage source j, the unit for rectifying and multiplying the voltage, the output of which is connected to a resistive voltage j and the unit for rectifying and multiplying the voltage whose output is connected to a resistive voltage unit j for the rectifying and multiplying voltage whose output is connected to a resistor voltage, switching unit, polarity switch, characterized in that, in order to increase its reliability in operation, a signal inverter is inserted into it, and a switching unit made in the form of two high-voltage relative to the zero potential bus isolation of three-pin connectors with pads, each of which has two terminals connected to the terminals of one of the extreme resistors of the voltage divider, and the third output to the free terminal of the adjacent resistor, and inserts, in the first of which one of the pins is connected to the output potential bus of the source, the second and third pins are interconnected, and in the second one of the pins is connected to the zero potential bus, the second and third pins are connected and Connected directly and through the signal inverter to the input terminals of the polarity switch, connected to the output of the measuring input of the error amplifier, the input of the rectifier and multiplying unit connected to the output of the amplifier of the variable source of alternating voltage, and the output the reference voltage unit is connected to the reference input of the signal amplifier; 2. The source of claim 1, de-ee, in that, in order to be able to measure the output voltage, an additional resistor is connected between the second and third terminals of the second switching unit insert

Description

The invention relates to electrical engineering and is intended for use in the implementation of electrical power supply of mass spectrometers in which, depending on the polarity of the applied voltage, beams of positive or negative ions are formed. A high-voltage bipolar constant-voltage source is known, which contains a network transformer, the secondary winding of which is connected to the input of a capacitor, a regulating element, one of the terminals of which is connected to a zero potential bus and the other output through a ballast resistor with a positive output of a rectifier, the signal amplifier is mismatched nor, the output of which is connected to the control input of the regulating element, resistive voltage divider, one arm of which is connected to the output terminal of the source, the other arm The reference voltage block and the polarity switch are with a zero potential bus, and the output is with the input of the error signal amplifier, a switching unit made in the form of a four-pole two-position switch, the first break contact of which is inserted into the circuit between the negative terminal of the rectifier and the zero bus potential, the second break contact - between the output terminal of the source and the connection point of the ballast resistor with the regulating element, the first closing contact between the output terminal of the source and minus The output terminal is a secondary, second closing contact between the positive output of the rectifier and the connection point of the ballast resistor with the regulating element ij. The disadvantage of this device is low operational reliability due to the complex design of the switching unit and the location of the regulating element at high potential relative to the tires of zero potential. In addition, the transition from parallel to serial stabilization, depending on the required polarity of the output voltage, in the device determines the source characteristics to be identical for two possible modifications. The closest technical solution to the invention is a high-voltage bipolar DC voltage source containing an adjustable AC voltage source with an output power amplifier, an error signal amplifier, the output of which is connected to a control input of a regulating element, a rectifier and a voltage multiplier, the input of which is connected to the output of the power amplifier through a switching unit. implemented as a built-in switch, a resistive voltage divider, one arm of which is It is connected to the output potential output of the rectifier and voltage multiplying unit, the other arm through the reference voltage block and the polarity switch with the zero potential bus, and the output to the input of the error signal amplifier 2j. A disadvantage of the known device is also associated with a low operational reliability due to the use of a structurally complex switching unit. The purpose of the invention is to increase the reliability of the source at work. The goal is achieved by the fact that in a high-voltage bipolar constant-voltage source, containing an adjustable source of alternating voltage with an output power amplifier, an error signal amplifier, the output of which is connected to the input of the regulating element, the reference voltage block, rectifier unit and multiplying the voltage to the output of which a resistive voltage divider is connected, a switching unit, a polarity switch, a signal inverter is introduced, and the switching unit is designed as two high-voltage isolation of the three-pin connectors with pads, each of which has two leads connected to the terminals of one of the extreme resistors of the voltage divider, and a third lead to the free lead of the snow resistor, and inserts, in the first of which one of the leads is connected to the output potential source bus, the second and third pins are interconnected, and the second one of the pins is connected to the zero potential bus, the second and third pins are connected and connected directly and through, The signal torus to the input terminals 3 of the polarity switch connected by the output terminal to the output of the measuring input of the error signal amplifier, wherein the input of the power supply and voltage multiplying unit is connected to the output of the power amplifier of the variable source of temporary voltage, and the output voltage of the reference voltage is connected the reference input of the error signal amplifier. An additional resistor may be included to enable the output voltage to be measured between the second and third pins of the second Insertion of the Switching block. FIG. Figures 1 and 2 are a functional diagram of the proposed high voltage bipolar DC source with two different output voltage fields. The device contains an adjustable AC voltage source consisting of a series-connected mains transformer 1, a rectifier 2, a voltage converter 3 and a power amplifier 4 with a regulating element 5 connected to its control input, an error signal amplifier 6, the output of which is connected with the input of the regulating element 5, and the reference input with the output of the block 7 of the reference voltage, the block 8 of rectifying and multiplying the voltage, the input of which is connected to the output of the power amplifier 4, and the output - to the resistive case a voltage 9, a polarity switch, a signal inverter 11, a switching unit 12, a high-voltage insulator with respect to a zero potential bus, and three-pin connectors with pads 13 (pins 14-16), 17 (pins 18-20) and inserts 21 (pins 22-24) and 25 (pins 26-28 of Vygoda 14,15 and 18,20 pads 13 and 17 are connected to the terminals of the corresponding extreme resistors of the voltage divider 9, and pins 16 and 19 to the free voltages of adjacent resistors, The insert 22 of the insert 21 is connected to the output potential bus of the source and the sinks. 23 and 24 are connected. The terminal 26 of the insert 25 is connected to the zero-potential bus, and the terminals 28 and 27 are connected and under-, 734 are connected directly and through the inverter 11 signals to the input terminals of the polarity switch 10 connected by the output terminal to the output of the measuring input of the error signal amplifier 6. measuring the output voltage of the source between the terminals 27 and 28 of the insert 25 of the switching unit 12 may include an additional resistor 29. The kilovoltmeter 30 is connected to the terminals of the resistor 29 during the measurement. The device works in the following way. Let it be necessary to obtain a positive polarity voltage at the source output. In this case, the insert 21 is installed in the block 13, the insert 25 - in the block 17, and the switch 10 of polarity - in the position indicated in the diagram by the + sign (Fig. 1). After switching on, the network voltage from the secondary winding of the mains transducer 1 is supplied to the rectifier 2 and then through the voltage converter 3 and the power amplifier 4 (with a transformer output) to the block 8 of the rectifier and voltage multiplication. The high voltage from the output of block 8 goes to the voltage divider 9 and through contacts 14 and 22, 18 and 26 to the source output. At the same time, a potential of positive polarity takes place at the output potential source bus. The resistive voltage divider 9 is closed, through contacts 15, 23, 24, 16 and 19, 27, 28, 20. Another output source bus is connected to the zero potential bus via contacts 18 and 26. The feedback voltage is removed from the contacts 26 and 27 and through the polarity switch 10 is supplied to the measuring input of the error signal amplifier 6, where it is compared with the reference voltage from block 7. When the output voltage of the source changes, the signal from the output of amplifier 6 acts on the regulating element 5, resulting in wasp There is a test of changing the output voltage. To obtain a negative polarity at the output of the source, insert 25 is installed in block 13, insert 21 in block 17, 51, and polarity switch 10 in an arrangement indicated in the diagram by sign (Fig. 2). In this case, a negative potential occurs at the output potential bus of the source, the feedback voltage taken from contacts 26 and 27 is inverted by the inverter 11 signal. The development of changes in the output voltage is carried out according to the well-known compensation principle. . The proposed device can be implemented at voltages up to 30-50 kV with the same stabilization factor for both polarities. The simplified implementation of the switching unit predetermines the increased operational reliability of the source.

Claims (2)

1 . A HIGH VOLTAGE BIPOLAR DC VOLTAGE SOURCE, comprising an adjustable AC voltage source with an output power amplifier, an error signal amplifier, the output of which is connected to the input of the regulating element, a reference voltage unit, a voltage rectification and multiplication unit, to the output of which a resistive voltage divider, a switching unit, a polarity switch , characterized in that, in order to increase its reliability in operation, a signal inverter is introduced into it, and the switching unit is made form having two high voltage relative to the zero potential bus isolation pads with three-pin sockets, each of which are connected to two output terminals of ^one! from the extreme resistors of the voltage divider, and the third terminal with the free terminal of the adjacent resistor, and inserts, in the first of which one of the terminals is connected * to the output potential bus of the source, the second and third terminals are interconnected, and in the second one of the terminals is connected to the zero potential bus, the second and third conclusions are connected and connected directly and through a signal inverter to the input terminals of the polarity switch connected to the output terminal with the measurement input terminal of the error signal amplifier moreover, the input of the rectification and voltage multiplication unit is connected to the output of a powerful amplifier of an adjustable source of alternating voltage, and the output of the reference voltage unit is connected to the reference input of the error signal amplifier. 2. Source pop. 1, about t l and -. . ”which, in order to ensure the possibility of measuring the output voltage, an additional resistor is connected between the second and third terminals of the second insert of the switching unit”