SU1599845A1 - Stabilized power source - Google Patents

Abstract

The invention relates to secondary power sources. The purpose of the invention is to increase reliability, expand the control range and increase the voltage stabilization factor with isolated output pins. The goal is achieved by the fact that a constant voltage-to-AC converter 32 is inserted into the source, transformer 33, rectifiers 13 and 14, second voltage divider 31, matching amplifiers 15, 16 and 17, 18, first and second adders 29 and 30 , block 44 control leakage current. Output pins 11 and 36 are isolated from the common bus 12 and connected to the first inputs of dividers 10 and 31. At the outputs of the first and second adders 29 and 30, feedback signals on voltage and current are generated for inputs 6 and 7 of the source control unit 5. Depending on the position of the operating mode switch 12, the source provides at the output terminals 11 and 36 stabilization of the voltage, current or power. The leakage current control unit 44 blocks the operation of the dc-to-ac converter 32 with a leakage current to a common bus 12 greater than the value determined by potentiometer 53. This ensures high reliability of the source, wide control range and high stabilization accuracy. 1 hp f-ly, 1 ill.

Description

The invention relates to electrical engineering, in particular to secondary power supplies designed to stabilize current, voltage or power, the load power, which varies widely, and can be used in various fields of science and technology where stable power supplies are required, for example, applying | q voltage to the division chamber of an isotachophoresis device. <

The purpose of the invention is to increase, reliability, expand the control range and increase the voltage stabilization coefficient with isolated output terminals.

The drawing shows a circuit diagram of the proposed stabilized source of pi-jg thai.

The stabilized power source contains a network rectifier 1 with a filter, an input connected to the input terminals, an output to the input of the regulator 2, which includes a regulating element 3 and a demodulator 4 connected in series, a control unit 5 with voltage and current feedback inputs 6 and 7 , output 8 is connected - jg. connected to the control input of controller 2, a current sensor 9, a first voltage divider 10, a first input connected to one output terminal 11, a common bus 12, two rectifiers 13 and 14, four matching amplifiers 15 - 18, six scale resistors 19 - 24, four compensating resistors 25 28, two adders 29 and 30, a second voltage divider 31 and a dc-to-ac converter 32 with a high-voltage transformer 33 at the output, having two groups of 34 and 35 secondary windings connected to the inputs of rectifiers 13 and 14. First input second share I 31 is connected to another voltage output terminal 36. Some bipolar outputs of rectifiers 13 and 14 are connected to respective output terminals 11 and 36, the other - with the corresponding You are a, a current sensor 9 waters and second inputs of dividers 10 and 31 voltage. The input of the DC / DC converter 32 is connected to the output of the regulator 2. In addition, the second input of the first voltage divider 10 through the first matching. the amplifier 15 is connected to the first and second inputs 37 and 38 of the first adder 29 through the first compensating and first scale resistors 25 and 19, respectively, and to the first input 39 of the second adder 30 through the second scale resistor 20. The second input of the second voltage divider 31 through the second matching amplifier 16 is connected to the first and second inputs 37 and 38 of the first adder 29 through the third scale and second compensating resistors 21 and 26, respectively, and with the second input 40 of the second adder 30 through the fourth scale resistor 22. The output 41 is first the first voltage divider 10 through the third matching amplifier 17 and the fifth scale resistor 23 is connected to the first input 37 of the first adder 29, the output 42 of the second voltage divider 31 through the fourth matching amplifier 18 and the sixth scale resistor 24 is connected to the second input 38 of the first adder 29. The first the input 37 of the first adder 29 and the second input 40 of the second adder 30, respectively, through the third and fourth compensating resistors 27 and 28 are connected to a common bus 12. The outputs of the first and second adders are connected respectively to the inputs 6 and 7 voltage-to-current communication of control unit 5.

In addition, the stabilized power supply is provided with a leakage current sensor 43 and a leakage current monitoring unit 44. The current sensor 9 is made in the form of a chain of two series-connected resistors 45 and 46, the inputs connected to the benefits of the current sensor 9. The leakage current control 44 includes two amplifiers 47 and 48, two diodes 49 and 50, a comparator 51, a resistor 52 and a potentiometer 53. A leakage current sensor 43 is connected between a common bus 12 and a common point in the chain of resistors 45 and 46 of the current sensor 9, which. connected to the input of one amplifier 47, output through the first diode 49, turned on in the forward direction, connected to the first input of the comparator 51, and through the second diode 50, turned on in the opposite direction, to the second input of the comparator 51, the output is through. cut another amplifier 48 connected to the control input 54 blocking the DC / AC converter. The first input of the comparator 51 through the resistor 52, and the second ⁵ 1599845 input through a potentiometer 53 connected to a common bus 12,

The source control unit 5 includes a switch 55, an adder 56, a triangular pulse generator 57, a first comparator 58 and a key element 59 that perform time-pulse voltage modulation, the pulse width of which depends on the value of the voltage feedback signal and the amplitude on the value of the feedback circuit signal current communication. The logic element HE 60 controls the key element 61. The switch 62 operating modes selects the operating mode of the power source. In addition, block 5 contains an active filter 63, which includes a voltage follower 64 and an operational amplifier 65, the output of which receives a voltage proportional to power. Support element 66 is necessary. To set the amount of stabilization of the output parameter of the power source. The second comparator 67 controls the controller 2.

An amplifier 47, to the input of which voltage is supplied from the leakage current sensor (resistor) 43, provides the role of the leakage current. Diodes 49 and 50 are necessary for transmitting a positive or negative voltage of the leakage current signal to the inputs of the comparator 51. The potentiometer 53 sets the response of the comparator 51. The amplifier 48 is necessary for matching the operation of the comparator 51, which is at low potential relative to the housing, with ^t controller 2, located at high potential relative to the housing.

A stabilized power source operates as follows.

When you turn on the source in the network, the alternating voltage is supplied to the rectifier 1. The rectified and filtered voltage is supplied to the regulator 2, the output of which is fed to the DC / DC converter 32. The resulting high-frequency voltage from the secondary windings 34 and 35 of the transformer 33 is supplied to bipolar rectifiers 13 and 14 with isolated outputs. ^ The output voltage of the rectifiers 13 and 14 is supplied to the first 10 and second 31 voltage dividers forming a voltage sensor, and to the current sensor 9. The outputs of the third 17 and fourth 18 matching amplifiers' receive respectively the voltage

Hfi - and _t ; - p ^J + u _T ,

Kg kg

P"

Cd where

- voltage dividers 10 and 31 voltage;

the division ratio of voltage dividers 10 and 31, the resistors of which are selected the same;

voltage drop across resistors 45 and 46, forming a current sensor 9.

The outputs of the first 15 and second 16 matching amplifiers receive the voltage -Uf and + Uf, respectively. To exclude the influence of the signal of the current sensor 9 on the voltage feedback signal, these signals are supplied to the first adder 29, and the signals from the first 15 and second 16 matching amplifiers are fed through the first 25 and second 26 compensating resistors. The resistances of these resistors are equal and are determined by the formula R _K = K ^ R _Wi where Rm ^{is the} resistance value of the scale resistors 19-24. Thus, to the non-inverting first input 37 of the first adder 29, from the output of the third matching Uh, a signal is supplied - m of the first matching - signal + Ut, and from the output of the go amplifier

Ur, from the output of amplifier 15 of the second matching amplifier 16, the signal is -Ut. On the inverting second input 38 of the first adder 29 served

Uh the following signals: - - ~ + and _t - from the output M of the fourth matching amplifier 18, + Ut - from the output of the first matching amplifier 15 and -Uy - s. the output of the second matching amplifier -16. As a result, at the output of the first adder 29, a true voltage feedback signal is obtained, the value of which is equal to:

π ^χ _ / · ^υ * η .тт Ut Uh,. Ut ^u h = (5- -Ut + U _T - - + --- 1J _T - -! +

Kq K <j Kg Kg + Ut) Kij = “^ (Uh-Ut).

The inverting first input 39 and the non-inverting second input 40 of the second adder 30 respectively receive a signal + U _T from the output of the first co. the amplifier 15 and the signal -U _g from the output of the second matching amplifier 1 1599845 8 la 16. At the output of the second adder 30, a signal 211,.., is proportional to the load current. When stabilizing the power, the feedback signal for voltage ₅ from the output of the first adder 29 is fed to the input of the adder 56 of the control unit 5. A switch 55 is connected to the same input, from which a voltage equal to the amplitude value of the triangular voltage of the triangular pulse generator 57 is supplied to the input of the adder 56. The output of the adder 56 is connected to the first input of the first comparator 58, to the second input of which a triangular pulse generator 57 is connected. With a unipolar voltage feedback signal, rectangular pulses are obtained at the output of the first comparator 58, the duration of which does not depend on the amplitude of the triangular voltage of the generator 57. The rectangular pulses obtained at the output of the first comparator 58 control the key element 59 and NOT through a logic element 25 60 with an additional key element 61. When the key element 59 is closed, the additional key element 61 opens. The current feedback signal from the output of the second-30th adder 30 is fed to the input of the first key element 59, the output of which is through the switch .62 operating modes - the signal is fed to the input of the voltage follower 64 of the active gg filter 63. Thus, the pulse-time modulation of the feedback signal current communication. From the output of the voltage follower 64, the signal is fed to the input of the operational amplifier 65, to the other input of which voltage is supplied from the support element 66. The voltage follower 64 is used to provide a condition where the input resistance of the active filter 63 is much greater than the resistance of the closed key element 59 and current feedback resistance. At the moment of opening of the key element 59, an additional 50 key element 61 closes. In this case, a voltage divider between the open key element 59 and the input resistance of the active filter 63 is shunted. Due to this, a signal proportional to the power dissipated by load. When the output voltage is stabilized, the voltage feedback signal from the output of the first adder 29 through the operation mode switch 62 is fed to the input of the active filter 63, the other input of which is supplied with voltage from the reference element 64. A signal proportional to the output voltage is obtained at the output of the active filter 63.

When stabilizing the load current, the current feedback signal from the output of the second adder 30 through the switch 62 of the operating modes is fed to the input of the active filter 63, the output of which is a signal proportional to the load current. The output of the active filter 63 is connected to the first input of the second comparator 67, to the second input of which a triangular pulse generator 57 is connected. At the output of the second comparator 67, rectangular pulses are obtained, the duration of which is proportional to the mode of operation of the power supply dissipated by the load, the output voltage or the load current.

Rectangular pulses from the output of the second comparator 67 are fed to the regulating element 3 of the controller 2, controlling its operation.

In the event of a leakage current from one of the high-voltage terminals of the power supply to the housing, a positive or negative signal appears relative to the housing on the leakage current sensor 43 (resistor), which is fed to the input of amplifier 47. To decouple the positive and negative signals of the leakage current supplied to the comparator inputs 51, use diodes 49 and 50. The signal from the output of the comparator 51 is fed to the input of a matching amplifier 48, which provides galvanic isolation of low-voltage circuits relative to the housing of the control circuit Igna leakage from high voltage power supply circuits. The signal from the output of the matching amplifier 48 is supplied to the Converter 32 DC to AC. If the magnitude of the leakage current exceeds the value specified by the potentiometer 53, then the Converter 32 DC to AC stops working. In this case, the output voltage of the source decreases to zero.

The use of the invention allows to obtain a highly stabilized high voltage power supply with isolated outputs and three stabilization modes of the output parameters — the output voltage, load current, or power dissipated by the load. This provides a wide range of regulation of the output parameters at the load, which varies over a wide range, operator safety and reliability of the source. The use of such sources with high reliability in clinical practice guarantees the safety of staff and patients.

Claims (2)

Claim 1. A stabilized power source containing a network rectifier with a filter, the input connected to the input. Outputs, the output to the input of the controller, including a series-connected control element 10, the main amplifier is connected to the first and second inputs of the first adder through the first compensating and first scale resistors, respectively, and to the first input of the second adder through the second scale resistor, the second input of the second voltage divider is connected to the first and second through the second matching jQ amplifier the inputs of the first adder through the third scale and second compensating resistors, respectively, and with the second input of the second adder through 15 the fourth scale resistor, the output of the first voltage divider through the third matching amplifier and the fifth scale resistor connected to the first input of the first adder, the output of the second voltage healer through the fourth matching amplifier and the sixth scale resistor connected to the second input of the first adder :, the first input of the first adder and the second input of the second demodulator, the control unit with inputs feedback on voltage and current output connected to the control input of the regulator, a current sensor, a first voltage divider, the first input connected to one output output, and a common bus, characterized in that, in order to increase reliability, expand the control range and increase the voltage stabilization coefficient for isolated output terminals, it is equipped with two rectifiers, four matching amplifiers, six scale resistors, four short adders, respectively, connected to the third and fourth compensating resistors to a common bus, and the outputs of the first and second adders are connected respectively to the feedback inputs for voltage and current of the control unit. 2. The power supply according to claim 1, characterized in that it is equipped with a leakage current sensor and a leakage current monitoring unit, the current sensor is made in the form of a chain of two series-connected resistors, inputs connected to the terminals of the current sensor, the leakage current control unit is inclusive resistors, two combiners, a second voltage divider and a DC-to-AC converter with a high-voltage transformer at the output having two groups of secondary windings connected 5 / gen to the inputs of the rectifiers, the first input is second A voltage divider is connected to another output terminal, one of the opposite-polarity outputs of the rectifiers is connected to the corresponding output terminals of 5Q, the other to the corresponding terminals of the current sensor and the second inputs of the voltage dividers, the input of the DC / AC converter is connected to the output of the controller, in addition, the second input of the first voltage divider via a first co- _z chaet two amplifiers, two diodes, a comparator, a resistor and a potentiometer, the leakage current sensor is connected between the common bus and a common point of the resist chains ditch of the current sensor, which is connected to the input of one amplifier, output through the first diode, turned on in the forward direction, connected to the first input of the comparator, and through the second diode, turned on in the opposite direction, to the second input of the comparator, output through another amplifier connected to the control the blocking input of the DC-to-AC converter, the first input of the comparator through a resistor, and the second input through a potentiometer connected to a common bus.