SU1136129A1 - Secondary electric power supply system - Google Patents

Abstract

. SECONDARY POWER SUPPLY SYSTEM, containing a pulse voltage regulator, input buses connected to buses for connecting the primary network, a static constant voltage converter, input buses connected to the output buses of a pulse voltage regulator, output transformer of a static DC voltage converter, containing output winding connected via the first output rectifier with a filter to the output buses, the first and second additional windings, the control unit, containing The DC voltage regulator, whose input buses are connected via a second output rectifier with a filter to the first additional winding of the specified output transformer, the control input of the DC regulator is connected to the output buses, the control transistor, the base circuit of which is connected to the output of the dc voltage regulator, the first rectifier of the control unit, the output buses of which are connected respectively to the collector and emitter of the control transistor, parallel to the output The busbars of the first level of the control unit are connected to a capacitor, an isolation transformer, the primary winding of which is connected. the first output of the first output of the second auxiliary winding of the output transformer, the second outputs of the primary winding of the isolation transformer and the second auxiliary winding of the output transformer are connected to the input busbars of the first rectifier of the control unit, the output winding of the isolation transformer is connected to the input terminals of the second end of the control unit, different to that that, in order to extend the functionality and increase the stability of the output voltage, a block was introduced into it Corrections containing a differential DC amplifier, a resistor circuit, a capacitor, a transistor, a diode, and a zener diode, with the terminals of the first input of the differential DC amplifier shunted by the first resistor and capacitor; connected to the output terminals of the second, the control unit rectifier, the first terminal of the second input of the differential amplifier is connected to the connection point of the first terminals of the second and third resistors, the second terminal of the second resistor is connected via a diode to the second terminal of the second input of the differential amplifier and the first terminal for connecting an additional source power supply, the second conclusion of the third

Description

the resistor is connected to the emitter of the transistor, the collector of which is connected to the first output of the fourth resistor and the second terminal for connecting an additional power source to the second output of the fourth resistor connected to the base of the transistor and

Zener diode - with the first terminal for connecting an additional power source, while the output of the differential amplifier is connected to the control buses of the pulse regulator, voltage.

The invention relates to electrical engineering, in particular, to secondary power supply systems for electronic equipment, mainly some electronic computer devices.

A secondary power supply system is known, comprising a voltage regulator, input busbars connected to the primary network buses, a static voltage converter connected to the output buses of the pulse regulator; a voltage, an output transformer of a static voltage converter, containing an output winding connected via a rectifier to a load, a control unit whose input buses are connected to a load, and the output voltage regulator consisting of a first comparison device output and reference voltages connected via an inertial circuit with a second comparator device, whose input is connected to a sawtooth pulse generator, and the output through switchgear devices is connected to a device galvanic isolation, the second input of the second device is connected to the second rectifier with a filter.

The disadvantages of this secondary power supply system are the low stability of the output voltage in the load, due to the low noise immunity of the control units with the transmission of the main control signal at DC, the instability introduced by parametric changes in the elements of the control unit, located between the output of the second device

comparison and a pulse voltage regulator, low efficiency and inertia of communication with alternating current.

The instability of this secondary power supply system from all factors reaches 4-5%.

one

Closest to the invention is a secondary power supply system comprising a pulse voltage regulator, input buses connected to the primary network buses and consisting of a transistor relay and a demodulator filter, static constant voltage converter, input buses connected to the output buses pulse voltage regulator, static voltage converter output transformer containing an output winding to supply the load, the first and second additional voltages The first output rectifier with a filter whose input buses are connected to the output winding of a static voltage converter transformer, and the output buses are connected to a load, the control unit containing a constant voltage stabilizer whose input buses are connected via a second output rectifier filter to the first additional circuit of the output transformer, and the control input of the stabilizer is connected to the load, the control transistor, the main circuit of which is connected to the output of the stabilizer constant voltage regulator, the first rectifier of the control unit, the output buses of which are connected respectively to the collector and the emitter

the control transistor, parallel to the input buses of the first rectifier of the control unit, is a capacitor, an isolation transformer, the primary winding of which is connected to the first terminal of the second additional winding of the static voltage converter, second terminals of the primary winding of the separating transformer and the second additional winding of the output transformer connected to the input bus rectifier at the control unit the output winding of the separation trans The formatter is connected to the control busbars of the transistor relay of the pulse voltage regulator through the second inverter of the control unit. 2.

The disadvantage of the known system of secondary elution. The instability of the output voltage is related to parametric changes in the circuit from various external influences, such as ambient temperature, which limits its functionality.

The purpose of the invention is to enhance the functionality and increase the stability of the output voltage.

This goal is achieved by the fact that a secondary power system containing a voltage pulse controller, input busbars connects to buses for connecting a primary network and consists of a transistor relay and a filter DC, a static voltage converter connected to the output bus voltage regulator buses, a static voltage converter output transformer containing an output winding connected via the first output terminal filter to the output buses, for powering the loads, the first and second additional windings, the control unit containing the constant voltage regulator, whose input buses are connected through the second output terminal with filter to the first additional winding of the specified output transformer, and the control input of a DC voltage connected to the output buses, the control transistor, the base circuit of which is connected to the output of the DC voltage regulator, the first rectifier of the control unit, the output E buses of which are connected respectively to the collector and emitter of the control transistor, parallel to the output buses of the first supra miter of the control unit, a capacitor, an isolation transformer, the primary winding of which is connected to the first end of the second transformer and the second additional winding of the output transformer, and the second terminals of the primary transformer of the separation transformer and the second auxiliary winding of the output transformer is connected to the output buses of the first superior control unit, the output and an isolation transformer winding is connected to the input terminals of the second control unit of the control unit, a correction unit is inserted containing a differential DC amplifier, four resistors, a capacitor, a transistor, a diode and a zener diode, with the terminals of the first input of the differential DC amplifier shunted by the first resistor and the capacitor connected to the output terminals of the second rectifier of the control unit, the first terminal of the second input of the differential amplifier is connected to the connection point the first terminals of the second and third resistors; the second terminal of the second resistor is connected via a diode to the second terminal of the second input of the differential amplifier and the first terminal to connect an additional power source; the second terminal of the third resistor is connected to the emitter of the transistor, the collector of which is under5 keys to the first resistor of the fourth resistor and the second terminal for connecting an additional power source, the second terminal of the fourth resistor is connected to the base of the transistor and through the zener diode to the first terminal dp Turning the additional power source, the output of the differential amplifier is connected to the control tires nschimi pulsed voltage regulator.

Figure 1 is an electrical circuit diagram of a secondary power supply system; Fig. 2 is an electrical schematic diagram of a correction unit. The system includes a pulse voltage regulator 1, input buses connected to tires 2 of the primary network, a static constant-voltage converter 3 connected to the output buses of voltage pulse controller 1, output static voltage transformer 4, containing output winding 5, connected through the first rectifier with filter 6 to the output buses 7, the first 8 and second 9 additional windings, unit 10 is controlled , the constant voltage regulator 11, the input buses 12 of which are connected via the second output rectifier with filter 13 to the first auxiliary winding 8 of the output transformer 4 of the control input 14 of the constant voltage regulator, is connected to the output buses 7, control transistor 15, the base circuit of which is connected to the output 16 of the constant voltage regulator 11, the first rectifier 17 of the control unit, the output buses 1 of which are connected respectively to the collector and emitter of the control transistor 15, parallel the output buses 18 of the first rectifier 17 of the control unit is connected to a capacitor 19, the separation transformer 20 primary winding 21 of which is connected to the first output of the second additional winding 9 of the output transformer 4 of the static voltage converter through the first output, the second terminals of the primary winding 21 of the isolation transformer 20 and the second additional winding 9 of the output transformer 4 are connected to the input busbars, we are 22 of the first rectifier 17 of the control unit, the output winding 23 of the separation unit the transformer 20 is connected to the input terminals of the second rectifier 24 of the control unit, the correction unit 25 connected by the first input terminals 26 to the output terminals of the second terminal of the control unit 24, the second input terminals 27 connected to the voltage source, and the output terminals

Mami 28 is connected to a control busbar 29 of a pulse voltage regulator containing a differential first output rectifier with filter 6 and is fed to the output bus 7 of the secondary power system. a direct current amplifier 30, the terminals of the first input 26 of which are connected to the upper and second terminals of the control unit, parallel to the terminals 26 of the inverting input of the differential current amplifier 30 includes a resistor 31 and a capacitor 32, the terminals 33 of the second input of a constant differential amplifier 30 constant current is connected to a source of correction voltage containing a zener diode 34, connected by the first output to one of the second input terminals 27 of the correction unit directly, and the second output is 34 through the limiting resistor 35 is connected to another of the second terminals 27:, the correction unit, transistor 36, the base connected to the connection point of the limiting resistor 35 and the zener diode 34, and the collector of the transistor is connected to the same from the second terminals 27 of the correction unit, which is connected with the limiting resistor 35, the emitter of the transistor through two series-connected resistors 37 and 38 and the diode 39 is connected to the same from the second input terminals 27 of the correction unit, to which the zener diode 34 is connected directly, the second input the bottom terminal 27 of the correction unit and the connection point 40 of the resistors 37 and 38 connected to the emitter of the transistor 36 are connected to the terminals 33 of the second input of the differential DC amplifier 30; the output terminals 28 of the differential DC amplifier are connected to the control buses 29 of the pulse regulator torus tension The system works as follows. The voltage of the primary network is fed to the buses 2 of the primary network and through the impulse voltage regulator 1 to the static converter 3 of the constant voltage. The inclusion of the latter leads to the appearance of a rectangular voltage across the windings 5,8 and 9 of the output transformer 4. The alternating voltage of the rectangular shape on the winding 5 above the heater and is filtered at the same time the alternating voltage on the winding 8 straightens out, is filtered the second output It is installed with a filter 13 and is fed to the input buses 12 of the controller 11 of a constant voltage. From the output lines 7, the voltage goes to the control input 14 (feedback input) of the constant voltage regulator 11, and the output voltage of the latter at the output 16 connected to the control base of the transistor 15 is therefore determined by the voltage of output busbars 7 and the reference voltage inside the constant voltage regulator 11. Depending on the magnitude of the voltage on the output buses 7, the resistance of the collector-emitter junction of the control transistor 15 connected according to the regulator circuit in the AC circuit between the second auxiliary winding 9 of the output transformer 4 and the primary winding 21 of the isolation transformer 20 through the output circuit changes first rectifier 17 of control unit 10,. the input buses 22 of which are connected between the second outputs of the additional winding 9 of the output transformer and the isolation transformer 20, the first terminals of which are short-circuited, and the output buses 18 of the first controller 17 of the control unit, parallel to which the capacitor 19 is turned on, are connected respectively to the collector and the emitter of the control transistor 15. From the output terminals 28 of the correction unit, the voltage modulated for the second time in the correction unit is supplied to the control bus 29 of the pulse voltage regulator 1, For example, a trigger that opens the regulating transistor for a time determined by the amplitude of the control voltage ,, and using a demodulator filter, the sequence of pulses of variable duty cycle, forming at the output of the regulating transistor, is transformed into a constant and variable according to the laws control and correction of the voltage on the output buses of the static voltage converter. Automatic correction of the amplitude characteristic of the control kangshi is a distinctive feature of the proposed device. A correction unit based on a differential DC booster operates as follows. From the output terminals of the second rectifier of the control unit, a sequence of pulses goes to the first input terminals 26 of the correction unit 25 and then through a parallel-connected resistor 31 and a capacitor 32 to the buses of the first input of the differential amplifier 30 DC. The presence of parallel-connected resistors 31 and a capacitor 32 is essential, since they provide the mode of operation of the differential amplifier 30 for direct current from a high-frequency rectifier 24,. The terminals 33 of the second input of the differential amplifier 30 DC voltage is supplied from the control source control voltage, made on .. Zener diode 34, the current through which is set by resistor 25. Zener diode 34, resistors 37 and 38, diode 39 and transistor 36 allow, due to various temperature changes in its parameters, to effect the required change in the control voltage and increase the stability due to the influence of temperature. At the output terminals 28 of the differential amplifier 30, a direct current produces a voltage containing a constant and a variable component, the level of which in KaxpftA is determined by the source of control voltage and voltage at the first input 26 of the differential amplifier 30 of a direct current . Thus, a qualitatively new characteristic of the system is achieved - adaptation of the control unit to external influences and increase of stability, as well as expansion of the functional capabilities of the power supply system. The use of a correction unit practically allows to obtain a total instability of less than 3% without the use of an additional stabilizer in the base system of the secondary power supply, which expands the functionality of the secondary power supply system.

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Claims (1)

SECONDARY POWER SUPPLY SYSTEM, comprising a pulse voltage regulator, input buses connected to the buses for connecting the primary network, a static DC voltage converter, input buses connected to the output buses of the pulse voltage regulator, the output transformer of the static DC voltage converter, containing the output winding connected through the first output rectifier with a filter to the output buses, the first and second additional windings * control unit containing p a DC voltage regulator, the input busbars of which are connected through a second output rectifier with a filter to the first additional winding of the specified output transformer, the control input of the DC voltage regulator is connected to the output buses, a control transistor whose base circuit is connected to the output of the DC voltage regulator, the first rectifier of the control unit, the output buses of which are connected respectively to the collector and emitter of an equalizer transistor, parallel to the output buses of the first Rectifier control unit switched capacitor, a transformer, whose primary winding is connected. the first terminal with the first terminal of the second additional winding of the output transformer, the second terminals of the primary winding of the isolation transformer and the second additional winding of the output transformer are connected to the input buses of the first rectifier of the control unit, the output winding of the isolation transformer is connected to the input terminals of the second rectifier of the control unit, characterized in that, in order to expand the functionality and increase the stability of the output voltage, a correction block has been introduced into it and containing a differential direct current amplifier, four resistors, a capacitor, a transistor, a diode and a zener diode, and the terminals of the first input of the differential DC amplifier, shunted by the first resistor and capacitor ^ are connected to the output terminals of the second rectifier of the control unit, the first terminal of the second input of the differential amplifier is connected to the connection point of the first terminals of the second and third resistors, the second terminal of the second resistor through a diode is connected to the second terminal of the second input of the diff entsialnogo amplifier and the first terminal for connecting the additional power source, the second terminal of the third> the resistor is connected to the emitter of the transistor, the collector of which is connected to the first terminal of the fourth resistor and the second terminal for connecting an additional power source ^ the second terminal of the fourth resistor is connected to the base of the transistor and through the zener diode to the first terminal for connecting an additional power source, while the output of the differential amplifier connected to the control buses of the pulse regulator, voltage.