SU1677702A1 - Constant voltage regulator - Google Patents

Abstract

The invention relates to electrical engineering and can be used for electrical power supply of radio equipment. The purpose of the invention is to increase reliability by increasing the stability of parameters with changing climatic conditions and simplifying tuning. The device contains a regulating transistor 1, a differential amplifier on transistors 2.3, an output amplifier transistor 7, an output voltage divider on resistor 4, a reference voltage source on resistor 5 and zener diode 6, and also a starting circuit on transistors 8.9 and resistor 10 This construction of the starting circuit ensures that under no climatic conditions the voltage drops from the collector-emitter circuit of transistor 8 will not exceed the voltage drop on the switch. de-emitter-ba for the transistor 7 in the DIRT with this starting circuit does not adversely affect the operation of ycip-va in dynamics. 1 il.

Description

The invention relates to electrical engineering and can be used to power electronic equipment,

The purpose of the invention is to increase reliability by increasing the stability of parameters with changing climatic conditions and simplifying tuning.

The principal electrical circuit of the constant voltage regulator is shown in the drawing.

The stabilizer contains a control transistor 1 connected to the power bus, a differential DC amplifier for transistors 2.3, a resistive divider of the output voltage on resistor 4, the output of which is connected to the base of transistor 2, a reference voltage source on resistor 5 and zener diode 6, output which is connected to the base of the transistor 3, the input amplifying transistor 7 through a resistor connected to the base of the transistor 1, and a starting circuit consisting of transistors 8.9, the conductivity of which is opposite to that of the transistor 1, 2, 3 and resistor 10, turn the collector of the transistor 9 through a resistor connected to the input terminal, and the collector of the transistor 7 through another resistor connected to the base of the transistor 1,

The stabilizer works as follows.

When the current is turned on through the starting transistor 9, the transistor opens, and then the transistor 1. This causes a rise in the output voltage of the stabilizer. While it is less than the nominal,

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the entire current of the differential amplifier, topic i, is through transistor 2, while transistor 3 is locked. When the input voltage reaches its nominal value, transistor 3 opens. Its collector current opens a transistor 8, which closes the transistor 9. The current flowing through transistor 3 causes the blocking of transistor 2, the collector current of which is now controlled by transistor 7 and, therefore, control transistor 1. Thus, in the described device, output stability is increased parameters in varying climatic conditions, since under no circumstances will the voltage drop in the collector-emitter circuit of transistor 8 be greater than the transition voltage of the zmitter-base transistor and 7, as it occurs in the prior art when the ambient temperature changes. In the prototype, the anode of the starting circuit diode is positive with respect to its cathode and the diode opens and introduces an error in the output parameters of the stabilizer. In addition, the adjustment and repair is simplified, since the output parameters of the stabilizer, unlike the prototype, do not depend on the scatter of elements, i.e. their selection is not required.

It should be noted that in the device being described the passage of the variable component of the input voltage into the base circuit of transistor 7 is almost completely excluded, and in the prototype the variable component of the input voltage can pass through the starting diode into the base circuit of the output amplifying transistor, thereby increasing the ripple output voltage is approximately two times.

Claims (1)

Claims of the invention A constant-voltage stabilizer containing a control transistor connected to the input bus to the power bus connected to the input terminal by a DC differential amplifier. current on two transistors, the emitters of which through the first resistor are connected to the output terminal, a resistive divider of the output voltage and a voltage source on the resistor and the zener diode connected between the output terminal and the common grounded bus and outputs connected to the bases of the corresponding transistors of the differential DC amplifier , the output of the amplifying transistor with a conductivity opposite to the conductivity of the regulating transistor and the transistors of the differential amplifier of a constant current and, the collector of which is connected through the second resistor to the regulating transistor base, the base through the third resistor is connected to a common grounded bus, to which the emitter of this transistor is also connected, a starting circuit including a resistor and a transistor of the same conductivity as the output amplifier transistor, and the collector of the first transistor of the constant-frequency differential amplifier the base of which is connected to the output of the output voltage divider is connected to the base of the output amplifying transistor, and the collector of the second transistor of the differential dc amplifier to the The base of the starting transistor, the emitter of which is connected to a common grounded busbar, and the collector, via the starting resistor, is connected to an input terminal characterized in that. which, in order to increase reliability by increasing the stability of parameters when changing climatic conditions and simplifying tuning, an additional resistor and transistor of the same type of conductivity with the main transistor of the starting circuit are introduced into the starting circuit, the emitter of the additional transistor is connected to the base of the output amplifying transistor, the collector is through an additional resistor output, and the base is connected to the junction point of the main resistor and the collector of the main transistor of the starting circuit. oh