RU146819U1 - DC VOLTAGE STABILIZER - Google Patents

Abstract

A DC voltage stabilizer containing a control transistor connected by an emitter to the input terminal, and a collector to the output terminal, a DC amplifier on a transistor of the opposite type of conductivity, the collector of which is connected to the base of the control transistor, while the base of the transistor is connected to the output of the divider output voltage performed on the fourth and fifth resistors connected to the output terminal and the common terminal, respectively, and the emitter is connected to the cathode of the zener diode and through the first resistor - with a common output, an RC starting circuit consisting of a series-connected capacitor and a third resistor and connected in parallel with a regulating transistor, in addition, the emitter of the protection transistor is connected to the connection point of the capacitor and the third resistor of the RC circuit, the collector - with a common input output , base - with one terminal of the second resistor, the other terminal of which is connected to the cathode of the diode, the anode of which is connected to the output terminal, characterized in that a second zener diode is introduced into the device, the same type as the first, p By the way, the second zener diode is turned on counter to the first zener diode, the anode to the anode of the first zener diode, and the cathode to the collector of the regulating transistor.

Description

The technical field to which the utility model relates.

The utility model relates to electrical engineering and can be used in sources of secondary power supply of radio equipment.

State of the art

Known DC voltage stabilizer containing: a common conclusion; output pin; input auxiliary output; regulating transistor; input main output; first, second and third resistors; resistors (fourth and fifth) of the output voltage divider; zener diode; DC amplifier transistor; diode; capacitor; protection transistor (ed. certificate SU 1343403, MKI: G05F 1/569).

The disadvantages of this device are the inability to start independently after eliminating a short circuit at the output (to bring the stabilizer into operation, it is necessary to remove voltage from its input and then turn it on again), the mandatory presence of an additional power source, as well as limited functionality due to:

low temperature stability of the output voltage (narrow range of operating temperatures) in the case of a wide range of output voltages;

a narrow range of output voltages at high temperature stability (a wide range of operating temperatures).

The closest analogue is the prototype of the claimed technical solution is a constant voltage stabilizer (patent RU No. 2480809, IPC: G05F 1/569).

The stabilizer contains a regulating transistor connected by an emitter to the input terminal, and a collector to the output terminal, a DC amplifier on a transistor of the opposite type of conductivity, the collector of which is connected to the base of the regulating transistor, while the base of the second transistor is connected to the output of the output voltage divider to fourth and fifth resistors, and the emitter through a zener diode - with an output terminal and through the first resistor - with a common terminal, an RC starting circuit consisting of series-connected con the capacitor and the third resistor, and connected in parallel with the regulating transistor, in addition, the emitter of the protection transistor is connected to the connection point of the capacitor and the third resistor of the KS circuit, the collector with a common input terminal, the base with one terminal of the second resistor, the other terminal of which is connected to the cathode a diode whose anode is connected to the output terminal.

The disadvantage of this device is the limited functionality due to:

low temperature stability of the output voltage (narrow range of operating temperatures) in the case of a wide range of output voltages;

a narrow range of output voltages at high temperature stability (a wide range of operating temperatures).

Utility Model Disclosure

The technical result that can be achieved using the proposed utility model is to expand the functionality due to the high temperature stability of the output voltage (wide range of operating temperatures) while expanding the range of output voltages.

The technical result is achieved by the fact that in a DC voltage stabilizer containing a control transistor connected by an emitter to the input terminal, and by a collector to the output terminal, a direct current amplifier (CTD) on a transistor of the opposite type of conductivity, the collector of which is connected to the base of the control transistor, while the base of the UPT transistor is connected to the output of the output voltage divider made on the fourth and fifth resistors connected to the output terminal and the common terminal, respectively, and the emitter EPER is connected to the zener diode cathode and through the first resistor - with a common terminal, an RC start-up circuit consisting of a series-connected capacitor and a third resistor and connected in parallel to a regulating transistor, in addition, the emitter of the protection transistor is connected to the connection point of the capacitor and the third resistor of the KS-circuit, the collector - with a common input terminal, the base - with one terminal of the second resistor, the other terminal of which is connected to the cathode of the diode, the anode of which is connected to the output terminal, the second Zener diode of the same type is introduced the first, and the second zener diode is turned on counter to the first zener diode, the anode to the anode of the first zener diode, and the cathode to the collector of the regulating transistor.

Brief Description of the Drawing

In FIG. Functional diagram of a DC voltage stabilizer is presented.

Utility Model Implementation

The DC voltage stabilizer contains a common terminal 1, output terminal 2, the first and second zener diodes 3 and 9, a control transistor 4, input terminal 5, resistors 6 and 7 of the output voltage divider (fourth and fifth resistors), the first, second and third resistors 8, 12 and 13, a direct current amplifier (DC) on a transistor 10 having the opposite type of conductivity, a diode 11, a capacitor 14, a protection transistor 15.

The regulating transistor 4 is connected by an emitter to the input terminal 5, and the collector to the output terminal 2, the collector of the transistor 10 is connected to the base of the regulating transistor 4, while the base of the transistor 10 is connected to the output of the output voltage divider made on the fourth and fifth resistors 6 and 7, connected to the output terminal 2 and the common terminal 1, respectively, and the emitter is connected to the cathode of the zener diode 9 and through the first resistor 8 to the common terminal 1, the RC starting circuit consists of a series-connected capacitor 14 and a third resistor RA 13 and is connected in parallel with the regulating transistor 4, the emitter of the protection transistor 15 is connected to the connection point of the capacitor 14 and the third resistor 13 of the RC circuit, the collector is connected to a common input terminal 1, the base is connected to one terminal of the second 12 resistor, the other terminal of which is connected to the cathode diode 11, the anode of which is connected to the output terminal 2, the anode of the first zener diode 9 is connected to the anode of the second zener diode 3, the cathode of which is connected to the collector of the control transistor 4.

The DC voltage stabilizer operates as follows.

When voltage is applied to the input of the stabilizer, the current passing through the capacitor 14 and the resistor 13 creates a trigger voltage at the base of the transistor 10, which leads to the opening of the transistors 4 and 10. After the output voltage reaches its nominal value, the stabilizer enters the operating mode.

In operating mode, the collector current of the transistor 10 flows through the base of the control transistor 4, providing the necessary load current. With a short circuit at the output, the bias voltage is applied to the base of the transistor 10, the emitter current of the transistor 10 increases and the current of the reference zener diode 9 decreases. When the current of the zener diode 9 decreases to zero, the zener diode 9 closes and an increase in the emitter current becomes impossible, transistors 4 and 10 close, and the output voltage decreases to zero.

At the same time, the anode of the diode 11 is connected to the common terminal 1, as a result of which the transistor 15 opens, and the capacitor 14 is bypassed by the emitter-collector junction and discharged to a voltage equal to the voltage drop across the junction. This provides a quick discharge of the capacitor 14, and it is ready to restart. After eliminating the short circuit, the stabilizer automatically starts up in the operating mode. The process of starting the stabilizer proceeds in the same way as when applying the input voltage.

The open state of the transistor 15 eliminates the possibility of turning on the stabilizer with a short-circuited load.

Thus, there is no need for an additional power source, and it also ensures the automatic return of the stabilizer to operating mode after eliminating a short circuit at the output, which allows the proposed stabilizer to be used to power devices that are operated at peripheral facilities without maintenance personnel.

In the case of the prototype, acceptable temperature stability of the output voltage is ensured when using a zener diode 9, a zener diode with a stabilization voltage close to 6 V. Since only in this case the zener diodes have a temperature coefficient of stabilization voltage tending to zero (see P. Horowitz, U. Hill. "The Art of Circuit Engineering", Moscow: Mir, 1998, p. 350). Accordingly, due to the criticality of the choice of the resistance value of the resistor 8, the output voltage of the stabilizer can take a value slightly greater than 6 V. With other stabilization voltages, a significant temperature coefficient of the stabilization voltage limits the range of operating temperatures of the device.

The use as a zener diode 9 of an avalanche zener diode, that is, a zener diode with a stabilization voltage of more than 6 V, characterized by a positive coefficient of stabilization voltage (see P. Horowitz, W. Hill. "The Art of Circuit Engineering", Moscow: Mir, 1998, p. 351), and Zener diode 3, of the same type as Zener diode 9, but turned on in the opposite direction (in the forward direction), and therefore characterized by a negative stabilization voltage coefficient (see Kitaev V.E., Bokunyaev A.A., Kolkanov M.F. “Power supply communication devices ", M .: Communication, 1975, S. 184), providing Mutual compensation of the stabilization voltage coefficients of the Zener diodes 3, 9, and hence the expansion of the operating temperature range of the device, which significantly expands the functionality of the proposed DC voltage stabilizer.

Claims (1)

A DC voltage stabilizer containing a control transistor connected by an emitter to the input terminal, and a collector to the output terminal, a DC amplifier on a transistor of the opposite type of conductivity, the collector of which is connected to the base of the control transistor, while the base of the transistor is connected to the output of the divider output voltage performed on the fourth and fifth resistors connected to the output terminal and the common terminal, respectively, and the emitter is connected to the cathode of the zener diode and through the first resistor - with a common output, an RC starting circuit consisting of a series-connected capacitor and a third resistor and connected in parallel with a regulating transistor, in addition, the emitter of the protection transistor is connected to the connection point of the capacitor and the third resistor of the RC circuit, the collector - with a common input terminal , base - with one terminal of the second resistor, the other terminal of which is connected to the cathode of the diode, the anode of which is connected to the output terminal, characterized in that a second zener diode is introduced into the device, the same type as the first, p By the way, the second zener diode is turned on counter to the first zener diode, the anode to the anode of the first zener diode, and the cathode to the collector of the regulating transistor.

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