SU1198488A2 - Versions of bipolar stabilized power source - Google Patents

Abstract

1. Bipolar stabilized power supply according to auth.St. No. 1086417, characterized in that, in order to expand functionality and increase reliability, an output voltage control unit is introduced in it, the input terminals of which are connected to opposite output terminals of positive and negative voltage regulators, and an output terminal connected to the base of the unit transistor protection against current overloads and short circuits of the stabilizer of the corresponding polarity. (L with & 00 4 00 00

Description

2. The power supply according to claim 1, characterized in that the output voltage control unit is made on a transistor, the base of which is connected to the anode of the tunnel diode, the cathode of which together with the emitter of the transistor and the anode of the zener diode forms one of the output terminals of the control unit, and to a resistive to the divider, the opposite terminal of which is connected to the positive output of the source, and the middle point to the cathode of the zener diode.

3. A bipolar stabilized power source according to auth.St. # 1086417 characterized in that,

in order to extend the functionality and increase reliability, an output voltage monitoring unit has been introduced into it, the input outputs of which are connected to the output pins of the stabilizer 48488

congestion of positive and negative voltages, and the output pins to the bases of the transistors of the protection blocks against current overloads and short circuits of the stabilizers of the corresponding polarity.

4. The power supply according to claim 3, characterized in that one of the output voltage divider arms is connected to the output circuit of the source through a zener diode.

5. Food source according to claims. 3 and 4, characterized in that one of the arms of the divider is adjustable.

6. Food source according to claims. 3, 4, and 5, characterized in that {THAT the resistor connected between the output of the operational amplifier and its inverting input is made rechargeable.

The invention relates to electrical engineering, and can be used in power supply devices for electronic equipment and is an improvement to the auth. No. 1086417.

The purpose of the invention is to enhance functionality and increase reliability.

FIG. 1 shows a circuit diagram of a two-pole stabilized source with an output voltage control unit providing overvoltage protection both at the output of each of the stabilizers and as a whole in FIG. 2 is a source circuit with an output voltage monitoring unit that protects against both overvoltage and undervoltage of any stabilizer or source as a whole.

The bipolar stabilized power supply (Fig. 1) contains stabilizers of positive 1 and negative 2 voltages, each of which consists of a control transistor 3 (4), a measuring and amplifying node 5 (6), an input connected to the output and common terminals

output - with the base of the regulating transistor 3 (4) directly and with its collector through the current-stabilizing two-port 7 (8), block

9 (10) protection against current overloads and short circuits, consisting of a current sensor 11 (12) connected between the collector of the control transistor 3 (4) and the input terminal

transistor 13 (14), resistive divider 15 (16), consisting of first 17 (18), second 19 (20) and third 21 (22) resistors connected between the collector of control transistor 3 (4) and the collector of transistor 14 (13 ) block 10 (9) protection of the opposite stabilizer. At the same time, the junction point of the first 17 (18) and second 19 (20)

resistive divider resistors

15 (61) is connected to the base of the transistor 13 (14), and the connection point of the second 19 (20) and third 21 (22) resistors is connected through a diode

23 (24) to the base of the control transistor 3 (4). To the output circuit of one of the stabilizers, for example 1, the first output of the resistive divider 25 is connected, the second output of which

connected to the anode of the tunnel diode 26 and the base of the transistor 27 of the output voltage control unit 28, the collector of which is through a resistor; 29 is connected to the base of the transistor 13, and the emitter together with the cathode of the tunnel diode 26 and the anode of the stabilizer 30, whose cathode is connected to the midpoint of the resistive the divider 25 is connected to the output circuit of the opposite stabilizer 2. The control unit 31 for the two-pole stabilized source (figure 2 contains the operational amplifier 32, the inverting devices whose input through the register 33 is connected to the midpoint The output divider 34, the extreme terminals of which, together with the power supply terminals of the operational amplifier 32, are connected to different source terminals, the output of the operational amplifier 32 is connected to the bases of transistors 35 and 36 of different types of conductivity, the emitter of each of which is connected through the corresponding diode 37 and 38 to the common bus. The non-rotating input of the operational amplifier is also connected to the common bus. The collectors of transistors 35 and 36 are connected via resistors 39 and 40 to the bases of transistors 13 and 14. One of the output pins is divided by 34 It is connected to the corresponding output terminal through the Zener diode 41. For the EXACT setting of the output voltage mismatch setting, one arm of the output divider 34 is made on the trimming resistor 42. The resistor 43, connected by the output and inverting input of the operational amplifier 32, serves to set the threshold. protection. The device works as follows. At nominal voltage at the output of the stabilizer (Fig. 1), due to resistive divider 25, creates a minimum voltage on the tunnel diode 26, the transistor 27 is closed and does not affect the source protection device. As the output voltage of any of the stabilizers 1 and 2 or two simultaneously increases, the voltage drop across the tunnel diode 26 increases dramatically, which causes the transistor 27 to open, the voltage across the resistor 18 increases, the transistor 14 opens, which means that the hacks increase the voltage drop across the resistor 12 leads to an increase in the current through the transistor 14, an increase in the voltage drop across the resistor 17, and the damping of the transistor 13, as a result of which both control transistors 3 and 4 are turned on and, respectively, different polarity 1 and congestion 2.Stabilitron 30 restricts at zhenii surge current through the tunnel diode 26. The apparatus, shown in FIG. 2, works as follows. When the voltage across the bipolar pins corresponding to the set HbiNf tolerances on the inverting input of the operational amplifier 32, the potential of the common bus, i.e. 0, respectively, the output voltage of the op amp 32 is negligible, the transistors 35 and 36 are locked and the protection device does not affect the operation of the source. When the output voltage of one of the stabilizers 1 or 2 of the permissible level is exceeded (or decreased), an error signal arises at the inverting input of the operational amplifier 32, a voltage of a certain polarity appears at the output of the operational amplitude .. 32, which, when a certain level is reached, unlocks one from transistors 35 or 36, an increase in the current through which leads to the switching on of transistors 13 and 14, the locking of regulating transistors 3 and 4 of different polarity stabilizers, thereby turning off the power supply. With a simultaneous and proportional change in the output voltages of both stabilizers in the direction of increasing or decreasing due to switching the output voltage 34 of the zener diode 41 in series with one of the arms, the error signal appears in the inverting input of the operational amplifier 32, which, as in the previous case, turns off a different source of food. Resistor 43, which changes the gain of the op amp, sets the threshold for the protection to be triggered. The invention allows to extend the functionality of the protection of

power point: protection makes the use of operational amplification against under or over output also allows you to increase the sensing voltage as one of the source source stability and accuracy

congestion and source in general. setting the threshold of protection.

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Claims (6)

1. Bipolar stabilized power source according to ed. No. 1086417, characterized in that, in order to expand the functional capabilities and increase reliability, a copter block of the output voltage is introduced into it, the input terminals of which are connected to the bipolar output terminals of the positive and negative voltage stabilizers, and the output terminal is connected to the base of the transistor block of protection against current overloads and short circuits of the stabilizer of the corresponding polarity. Fie. / 2. The power supply according to claim 1, characterized in that the output voltage control unit is made on a transistor, the base of which is connected to the anode of the tunneling diode, the cathode of which together with the emitter of the transistor and the zener diode anode forms one of the output terminals of the control unit, and resistive divider, the opposite terminal of which is connected to the positive terminal of the source, and the middle point is to the cathode of the zener diode. 3. Bipolar stabilized power source according to ed. No. 1086417, characterized in that, in order to expand the functionality and improve reliability, an output voltage control unit is introduced into it, the input outputs of which are connected to the output terminals put congestion of positive and negative voltage, and the output conclusions to the bases of transistors of protection against current overloads and short circuits of stabilizers of the corresponding polarity. 4. The power supply according to claim 3, characterized in that one of the arms of the output voltage divider is connected to the output circuit of the source through a zener diode. 5. The power source according to paragraphs. 3 and 4, characterized in that one of the arms of the divider is made adjustable. 6. The power source according to paragraphs. 3, 4. And 5, characterized in that '| that the resistor connected between the output of the operational amplifier and its inverting input is made regurable.