SU1053083A1 - Reference voltage source - Google Patents

Description

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The invention relates to electrical engineering and can be used in various electrical power devices of radio and electronic equipment.

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A source of reference voltage is known, comprising a zener diode, an inertial supporting element, which is driven through a current stabilizer; transistor ,, voltage at base

which is stabilized by means of a 10 diode, the current through the stabilizer connected to the collector circuit of the transistor is determined by the voltage in another resistor, which is in the circuit of an emitter3i fpa: -. :, -::. -15 disadvantage of this; devices .I; VL T; SYa non-exponential coefficient of a hundred, biliation, because a change in the current through a diode changes as a result of changes in the power supply voltage. ". on the basis of the transistor and, cafe. with: edstYae ;, to; change in current -: pea. Stabilization rbn ,, -,;, ::;: - :::,; ,

. . Nai, 6LOE close to the image of the tenito, :: | tech) nc with; k; ym p4 solution is the source: YikLgor; noto; voltages l c: the cores of the transistor are given to the conductance, the emittance is the one with which:: a single connection with a single pinworm: you can use a resistor, - a count: a lecturer with a bazr. other; transistor 30 iHenjOcpeflCTBeHHo-, .a with I correspond; 1 to VxQdnsiIM; the conclusion is. through the state; STABY, LITRON; ;; KRMPENSIR-1 / UNI-RES; In this case, the friendship ... vevo: from the current-supplying resistors; dkL: Yache- 35 v1 to the corresponding: bhondn1: Conclusion; . I will give, and the emitters of the so-called transistors are connected to the corresponding input; pins and connected to each other. Other: Home through a 2J resistor. ; 40

A disadvantage of the known device is the low stabilization factor, due to the fact that the battery resistance resistor does not provide full compensation in the whole range of variation of the oscillator. ,. wife:.::,;:. V-. ;;., -. .

The purpose of the invention is pova-; Stability of stabilization factor from -j reference voltage.: j. ". ; The goal is achieved by the fact that the source opornrR for example -. Female, containing two transistors of different-type conductivity, the emitter of each of which is connected to the output side of the corresponding current-carrying resistor, the collector - With the base of the other transistor, and with the corresponding input voltage; through the corresponding p-tablithron compensating resistor, 60 two additional transistors of different conductivity types and two additional resistors are introduced, the first terminals of which are connected to the corresponding, SchN1M input terminals, the second with

the corresponding pins of the compensating resistor, the emitter of each of the additional transistors is connected to another output of the current resistor of the main transistor of the opposite conductivity type, the base is connected to the corresponding junction point of the additional and compensating resistors, and the collector of additional transistors is connected to the corresponding input terminals.

The drawing shows, in principle, an electrical circuit of the reference voltage host.

. The source of the reference voltage contains a transistor 1 npn type and tra 1sistor 2 pn type, the collector of each of which is connected to the base of the other transistor, two zener diodes 3 and 4 connected to the collectors of transistors 1 and 2, and two current-setting resistors 5 and 6, connected - to the emitter, the first transistor circuits - 1 and 2. In addition, to the resistor 5. connected to the emitter of the additional transistor 7 pp p type-, and to resistor b - the emitter of the additional transistor 8 np-ii type. The vases of the transistors 7 and 8 are connected to the additional resistors 9 and 10, which together with the compensating 1m resistor 11 form a voltage divider, the extreme terminals of which, together with the transistor collectors, are connected to the corresponding outputs 12 and 13 of the power supply.

The source of the reference voltage works as follows. . -, -. . - ;:

The transistor 1 together with the resistor 5 forms a current stabilizer, the load of which is; stabilized; itron 3, and the input signal is the stabilization voltage stabilization; throne 4. Transistor 2. together with the resistor b form a current stabilizer, the load of which is Zener diode 4, and the stabilization voltage of the Stabilron 3 serves as a voltage signal 3 is determined by the voltage drop, and resistor. 5, which is equal to the voltage difference across the emitter of the transistor

1 and 7. The current of the Zener diode 4 is determined by the voltage drop across the resistor 6, which is equal to the voltage difference across the emitters of the transistors

2 and 8. When the power supply voltage changes from 5pot in phase with it, the emitter potential of transistors 1 and 2 (due to a change in the base currents and emitter-base voltages of these transistors). At the same time, the potentials of the emitters of the transistors change.

7 and B, the bases of which are connected to the resistor dividers taps 9-11. The divider coefficients are chosen so that when the supply voltage changes, the potentials of the bases and, accordingly, the potentials of the emitters of the transistors 7 and 8 compensate for the changes in the potentials of the emitters of the transistors 1 and 2 The voltages on the resistors. 5 and b do not change and, therefore, the currents of the stabilizers 3 and 4 do not change. The effect of the change in the supply voltage on the value of the output of it is significantly reduced. .

Thus, as a result of the introduction of two transistors of different conductivity type, the emitter of each of which is connected to another output of the current-setting resistor of the main transistor of the opposite type of voltage, the base .- to the corresponding tap of the resistive divider The SIST015OV transg is connected to the input pins, the effect of varying the supply voltage on the magnitude of the output voltage is drastically reduced, because when the supply voltage changes in wide The currents of the zener diodes do not change — the stabilization factor of the voltage source rises.

The application of the proposed kaolSpeni allows you to create sources

{SUPPORT VOLTAGE for powering electronic equipment with high stability in wide-.

Litter interval of changes in nutrition

1.Directions. :

Claims (1)

(54) SOURCE OF THE REFERENCE VOLTAGE], containing two transistors of different types of conductivity j emitter each. dogoiz which is connected to one. ⁷ with the output of the corresponding current-setting resistor, the collector with the base of another transistor directly, and with the corresponding input output through the corresponding zener diode, compensating resistor so that, in order to increase the stabilization coefficient, two additional transistors of different types of conductivity and two additional resistors are introduced into it, the first terminals of which are connected to the corresponding input terminals, the second - with the corresponding terminals of the compensating resistor, the emitter of each of auxiliary transistors is connected to the other terminal of the current-causing resistor of the main transistor of the opposite type of conductivity, the base is § to the corresponding connection point of the additional and compensating resistors, and the collectors are additional. transistors are connected to the corresponding input terminals.