SU900272A1 - Dc voltage stabilizer - Google Patents

Description

(54) CONSTANT VOLTAGE STABILIZER

CURRENT

Claims (2)

The invention relates to electrical engineering and is intended for use in secondary power sources of radio engineering and electronic devices of general use. A voltage regulator is known with a comparison cascade performed on a transistor in saturation 1. The closest in essence to the present invention is a DC voltage regulator containing a control transistor with a bias circuit whose collector-emitter junction is connected between the input and output the output pins of the stabilizer, and the base-emitter junction is connected in parallel to the collector-base junction of the amplifying transistor, the source of the reference voltage, one output of which is a stabilizer connected to the common terminal and the node Cf. Neny transistor, the control input coupled to the output terminal of the stabilizer. and the output through the variable resistor is with the emitter of the amplifying travustor 2. However, large currents flow through the emitter-base junction of the reference node transistor, which limits the choice of transistors for use in this node, as well as a choice of reference voltage wives In addition, the noted circumstance reduces the possibilities of regulating the output voltage on the part of the control cascade. Since the differential resistance of the emitter-base junction of the transistor of the reference node, which is in saturation, is small enough, part of the amplitude of the output voltage fluctuation is lost on it, which limits the sensitivity of the reference node. The temperature instability of the output voltage is determined in the proposed stabilizer, temperature coefficients, ICs, stability stability (TKN) of the emitter-base of the reference node transistor and the Zener voltage source; who nothing pskeny skim. The purpose of the invention is to expand the range of adjustment of the output voltage, increase the sensitivity to fluctuations of the sudden voltage and temperature stability of the voltage regulator. The goal is achieved by the fact that, in a DC voltage regulator, the comparison node is made on a composite transistor, with the output node of the comparison node being collectors of transistors included in the composite transistor, and the control input is the base of the input transistor included in the composite, the tractors, which are included in the compound, have the same type of conductivity, and the second output of the specified source of voltage is connected to the emitter of the output transistor, which is included in the component, parallel to the input transistor, It is connected to a newly introduced analogous transistor, or tras 1 resistors Included in the composite, have the opposite type of conductivity, and the second output of the specified source of the reference voltage is connected to the emitter of the input transistor included in the composite. Fig. 1 1-: 2 shows two variants of the DC voltage regulator circuitry. The stabilizer contains a regulating transistor 1, the collector-emitter junction of which is connected between the input and output pins of the stabilizer is an amplified transistor 2, the collector-base junction of which is connected parallel to the Bazo-e ushtnernogo junction of the regulating transistor 1 a stabilizer, a comparison node on transistors 4 and 5, whose control input is connected to the output of the stabilizer, and the output through a variable resistor 6 connected to the emitter of the amplifying transistor 2, the transistor 7 connected in parallel with the transistor 5 of the comparison node. The voltage regulator operates as follows. In the initial state (with a fully inserted variable resistor engine b), the emitter – base junction of the amplifying transistor 2 shunts the collector – base junction of transistor 5, ensuring its saturation. Accordingly, transistor 4 is also in saturation with a voltage at the collector-base junction lower by the voltage drop across the emitter-base junction of transistor 5. The total current in the circuit (base of transistor 5, emitter of transistor 4 is zener diode 5) from the differential resistances of the transitions of the transistors in the saturation region and decreases with an increase in the number of included transistors. Thus, the inclusion in series of a number of transistors in the comparison node as one type, as well as different types (differing in gain-by-current and power coefficients) allows varying the initial current in wide limits and, therefore, choosing the desired control range of the output voltage. l eni In order to increase the sensitivity of the circuit to the fluctuations of the output voltage, it is advisable to include parallel to the transistors of the reference node (Fig. 1, transistors S and t). In this case, the total differential resistance of the emitter-base transitions of the comparison node transistors decreases by about two times, but the current in the reference voltage source circuit accordingly increases. The current flowing through the collector-base junction of the transistor (transistors) of the comparison node is much less than the current through the base-emitter junction, since its value is determined by the current of the two-pole current-stabilizing device. Therefore, the parallel connection of transistors of various types of conductivities provides a fairly good mutual temperature compensation of the voltages at the emitter-base transitions of transistors in saturation. When using as a source of reference voltage of a low voltage Zener diode having a negative temperature coefficient of voltage, it is advisable to include a single junction transistor having a TKN similar in magnitude but opposite in sign to the TKN of a low voltage zener diode as transistor 4 (Fig. 2). The dynamics of the voltage regulator are the same for all the options for the inclusion of transistors in the comparison node. As the resistance in the circuit between the comparison node and the amplifying transistor increases, the voltage at the transitions of the comparison node transistor increases while the base-emitter current of these transistors flowing through the Zener diode increases simultaneously. The voltage drop across the transitions of transistor 2 simultaneously decreases, which in turn leads to an increase in the voltage on the basis of the regulating transistor 1 and, accordingly, to an increase in the output voltage. Claim 1, DC voltage regulator, containing a regulating transistor with an bias circuit, whose emitter junction collector is connected between the stabilizer and output terminals of the stabilizer, and the base-emitter junction is connected in parallel, the base-to-base junction of the amplifier transistor, the reference voltage source, one output of which connected to the common output of the stabilizer, and the transistor comparison node, the control input kotot oro is connected to the output output of the stabilizer, and the output through the variable; a resistor with an emitter of an amplifying transistor, characterized in that, in order to expand the range of adjustment of the output voltage, the comparison node is made on a composite transistor, and the output of the node compared to 726 are collectors of transistors included in the composite and control input. base transistor input. Included in the composite. 2. The stabilizer of claim 1, wherein the transistors included in the composite have the same conductivity, the second terminal of the indicated reference voltage source is connected to the emitter of the output transistor included in the composite. 3. Stabilizer pop. Claims 1 and 2 characterized in that, in order to increase the sensitivity, a newly introduced analogous transistor is connected to the fluctuations of the output voltage, parallel to the input transistor included in the composite one. 4. The stabilizer of claim 1, in order to increase the temperature stability of the output voltage, the transistors included in the composite voltage have a opposite conductivity type, while the second output of the specified reference source is connected to the emitter input transistor included in the composite. Sources of information taken into account in the examination 1. Authors svdetestvo USSR 463955, cl. G. 05 R 1/56, 1975. 2. Authors of the USSR on application No. 2451342/07, l. G 05 F 1/56, 1977.