SU1334123A1 - Bipolar stabilized power source - Google Patents

Abstract

The invention relates to electrical engineering and can be used in power supply devices for electronic equipment. The purpose of the invention is to expand the scope, improve the quality and performance indicators while simplifying the circuit implementation. In the device, the switching off of the regulating elements 3, 4 is carried out by a thyristor optocoupler (L co 00

Description

1334123

41, which is controlled by the protection nodes, 30, 31, 32, 33 are provided through a resistor-display unit based on operational diode chains 34, 39 "Indicating amplifier 42. 1 hp, f-ly, 1 silt .

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The invention relates to electrical engineering and is intended for use in power supplies of electronic devices.

The purpose of the invention is to expand the scope and simplify protection against overcurrent without degrading the quality of voltage stabilization, as well as improving the performance of the power supply.

The drawing shows a diagram of a bipolar stabilized power supply.

The device contains two stabilizers 1 and 2 of constant voltage of different polarity, each of which consists of a composite transistor regulating element 3 (4), successively included in the power bus of the power supply, the transistor 5 (6) of which is connected by an emitter to the input the output, and the control transistor 7 (8) of the transistor regulating element 3 (4) is connected to the output of the matching amplifier on resistors 9 (1-0). And transistors 11 (12), the emitter of which is connected to the common bus, and the base through body resistors 13 (14) and 15 (16) to the output of the operational amplifier 17 (18 measuring and amplifying node 19 (20 inverting input of the amplifier 17 (18) through a resistor divider 21 (22) and 23 (24) connected to the output bus of a stabilized power source The middle point of the specified resistor divider is connected via a resistor 25 (26) to the output of a source of reference voltage 27 (28), consisting of a series-connected zener diode and a current-stabilizing two-pole circuit on the field-effect transistor and through the short-circuiting contacts of the button 29, the base and transit emitter 5 (6) is connected to the input of the current protection node, consisting

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From the potentiometer 30 (31) for adjusting the protection current, the middle output of which is connected to the base of the transistor 32 (33) of protection, its emitter is connected to the cathode (anode) via a resistor divider 34 (35) and 36 (37) a semiconductor diode 38 (39), a capacitor 40 output and the anode (cathode) of the optocoupler LED 41, and the photo thyristor of the optocoupler 41 is connected by the anode to the midpoint of the limiting resistors 13 and 15 and the cathode to the midpoint of the limiting resistors 14 and 16. The output of the operational amplifier 42 of the unit alarm indications presses through the limiting resistor 43 is connected to the cathode and anode of the LEDs 44 and 45 of the overload sign indication, the other terminals of which are connected to the common source bus, and through the resistor 46 with the non-inverting input of the operational amplifier 42, the capacitor 47 lead, the other terminal of which is connected to the common bus and the inverting input of the amplifier 42 is connected through a resistor 48 to the output of the amplifier 42 and the collector of the transistor 49 of the alarm indication unit, the emitter of which is connected to the common bus, and the base through the resistor 50 to the output of the operating amplifier 18 furthermore neinvertyruyuschy The output of the operational amplifier 42 through the resistor 51 is connected to a midpoint of the divider resistor 34, 36 and the extreme terminal of the variable resistor 52 of balance of currents through a resistor 53 to a midpoint of the divider resistor 35, 37.

The device works in the following way.

When the power source is turned on, when the load current does not exceed the set value, the transistors 32 and 33 are closed, through the LED

The optocoupler 41 does not leak current, its photo-thyristor is closed, the required two-pole stabilized voltage is set at the output of the stabilizer. As the load current increases in any arm (for example, in the upper drawing), the base current of the transistor 5 increases, which leads to an increase in the collector current of the protection transistor 32 that flows through the circuit: common diode 39, LED of the optocoupler 41, resistors 34, 36, collector - emitter of transistor 32, input power bus

The current flowing through the LED of the optocoupler 41 creates a voltage drop at the connection points of resistors 35, 37 and 34, 36, which is summed across resistors 51 and 53, and charges the capacitor -47, which is connected to the noninverting input of operational amplifier 42, and at its output the voltage is close to zero because it is covered by a deep negative feedback (the resistance of the resistor 48 is two to three orders of magnitude less than the resistance of the resistor 46, and the transistor 49 is closed at this time), then through the LEDs 44 or 45 not leak em.

With a further increase in the load current, the current flowing through the optocoupler LED 41 also increases, and when a certain level is reached, the photo thyristor of the optocoupler opens and shunts the bases of transistors 11 and 12. The stabilizer turns off, the voltage at its outputs becomes zero, and at the outputs of amplifiers 17 and 18 high levels of positive and negative voltages appear, respectively, which leaves the photo thyristor of the optocoupler 41 in the on state and opens the transistor 49. The negative feedback circuit terminates (the resistor 48 and the inverting input of the amplifier 42 are connected to the common bus), the amplifier 42 is covered with positive feedback through the resistor 46, and the output is set to a high voltage level, the sign of which corresponds to the voltage sign on the storage capacitor 47, the LED 45 lights up or 44, indicating in which arm of the stabilizer an overload occurred. Current

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through the LED of the optocoupler-41 stops.

Button 29 is pressed to turn on the stabilizer. At the same time, zero levels are set at the outputs of amplifiers 17 and 18, the current through the photo- and thyristor of the optocoupler 41 stops and it closes. The voltages at the stabilizer outputs remain zero.

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When the button 29 is opened, the modes of the amplifiers 17 and 18 are restored and stabilized voltage across the polarity is set at the outputs of the stabilizer (if the overload is removed). Variable resistors 31 and 30 set the required protection currents in the range from 10 mA to the maximum load current, and the protection currents in the shoulders can differ by 2-3 times (approximately from 10 mA to 20 A), and set the resistor 52 required ratio. Connecting the photothyristor and the button 29 to the midpoints of the resistive dividers at the inputs of the matching transistors and amplifiers of the measuring and amplifying node allows to reduce the number of elements used in the protection device by two times compared with the known analogues and to increase the reliability of the protection device, since the possibility of disabling the protection device when the stabilizer is overloaded is eliminated, as is the case in the analogues. The introduction of the emergency mode indication block allows you to determine in which shoulder of the stabilizer an overload occurred, and this reduces the time required to detect the cause of the overload and eliminate it. In addition, the protection device makes it possible to regulate the protection operation currents in a wide range (from 10 mA to 20-25 A) without changing the values of the circuit elements and allows the voltage regulator to be completely turned off when overloaded in one arm, which prevents the elements from failing loads with their feeding by a two-pole voltage. Such a construction of a two-pole stabilized voltage source with a protection circuit makes it possible to significantly simplify the circuit implementation of the alarm indication device.

operating modes of the source and improve the operating characteristics of the power source, since the actuating element of the display device is made on a single operational amplifier and two LEDs, which allow determining in which source arm the emergency mode occurred, and saves this information until the next launch of the stabilized source

Claims (1)

1. A two-pole stabilized power source containing two constant voltage regulators of different polarity, each of which includes a transistor control element and a current protection node connected in series to the power bus, measuring and amplifying node, voltage divider, the first limiting resistor and a diode, the input of the measuring-amplifier unit being connected to the output terminal, and the output of the current protection node to the first terminal of the voltage divider, characterized in that, in order to expand Application areas and simplification of overcurrent protection without degrading voltage stabilization, a thyristor optocoupler and a variable resistor were inserted into it, and a second limiting resistor and a matching amplifier were inserted into each of the stabilizers, each output terminal of the thyristor optocoupler LED being connected via a corresponding diode shared bus and to the second conclusions of dividers eg Compiled by V. Baranov Editor M.Tovtin Tehred M.Didyk Proofreader A.T. Order 3961/44 Circulation 863 Subscription VNII1Sh State Committee of the USSR for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 five 0 five 0 five 0 The corresponding outputs of the photo-thyristor of the optocoupler are connected to the corresponding outputs of the measuring and amplifying nodes through the second limiting resistors, and their amplifiers, the outputs of which are connected to the inputs of the regulating elements, through the first limiting resistors. 2, the power source according to claim 1, characterized in that, in order to improve the performance characteristics of the power source, an emergency mode indication unit is inserted in it, made on a transistor, a storage capacitor, six resistors, two LEDs and an operational amplifier, the non-inverting input of which the storage capacitor is connected to the common power supply bus and through the first and second resistors, respectively, to the middle points of the voltage dividers of each stabilizer, and the inverting input of the amplifier is connected To the collector of the transistor, the emitter of which is connected to the common bus, and the base through the third resistor is connected to the output of the measuring and amplifying node of the second stabilizer, the output of the operational amplifier of the display unit is connected to its inputs through the fourth and fifth, respectively, resistors the cathode of one and the anode of the other LEDs of the display unit, the other. whose outputs are connected to a common bus,