SU1297026A1 - Power source - Google Patents

Abstract

The invention relates to secondary power sources of radio equipment. The aim of the invention is to enhance the functionality by expanding the range of power supply control. From the output of the master oscillator 3, a switch-off signal is applied to the transistor switch 1. The input of the threshold element 5 from another output of the generator 3 receives a signal supporting it in the locked state. Transistor 2 is closed, and key 1 is saturated and transmits the energy of the input source to the load. In this case, the voltage on the capacitor 10 decreases, the element 5 is triggered, the optocoupler 6 opens, the transistor 2 is saturated, and the key 1 is locked. After changing the polarity at the outputs of the generator 3, the voltage to the indicated elements is applied so that, as a result, the optocoupler 6 turns off before arrival. the next trigger pulse to the base of key 1 and its inertia does not lead to a reduction in the range of control of the power source. 1 il. SL

Description

This invention relates to electrical engineering and can be used to power a device with stabilized voltage.

The purpose of the invention is to enhance the functionality of the power source by increasing the range of adjustment of the transistor switch., 0

The drawing shows a power supply circuit diagram.

The power source includes a one-turn converter with a transistor switch 1, the closing transistor 15, the master oscillator 3, the comparison circuit 4, the threshold element 5, the optron 6, and the synchronizing voltage driver 7. The closing transistor 2 is connected to the collector terminal 20 to the base of the transistor switch 1 and through the resistor 8 to the second output of the first output of the master oscillator 3, the second output of which is connected to the emitters of the transistor switch 25 and the closing transistor 2. The base of the closing transistor 2 through the second resistor 9 connected to its emitter, and through the photodiode of the optocoupler 6 is connected to the second output of the first, 30 output of the master oscillator 3. The first output of the second output of the master oscillator 3 is connected through a series-connected capacitor 10, the first diode 11 and the third resistor 12 is connected to the first input output of the threshold element 5, which the output is connected to the LED of the optocoupler 6. The second output of the second output of the master oscillator 3 is connected to a common point 0 series of connected second 13 and third 14 diodes, and the free output of the second diode 13 is It is connected to the first terminal of the fourth diode 15 and the second input terminal of the threshold 45 element 5. Comparison circuit 4 is connected to the output terminals of a single-stage converter, and output is connected to the input of the threshold element 5. The common point of the capacitor Q pa 10 and the first diode 11 and common point the second 13 and third 14 diodes of the synchronization voltage generator 7 are connected via the fourth resistor 16. The free output j of the third diode 14 of the synchronization voltage generator 7 via the fifth resistor 17 is connected to the first input voltage the output of the threshold element 5, and the second output of the fourth diode 15 is connected to the first output of the second output of the master oscillator 3. The locking transistor can be executed on a composite of any of the known switching circuits.

The power source works as follows

At the interval when the polarity of the voltage at the output of the master oscillator 3 corresponds to that indicated in the drawing without brackets, a unlocking bias is applied from the first output of the master oscillator to the control transition of the transistor switch 1 through the resistor 8. At the same time, the input of the threshold element 5 from the second master output The generator 3 is supplied with a voltage sufficient to keep it in the locked state. The photodiode of the optocoupler 6 does not conduct a current, the closing transistor 2 is locked.

Transistor switch 1 is saturated and the one-way converter transmits the energy of the input source to the load. Since the output voltage of the second output of the master oscillator 3 is connected to the input of the threshold element 5 through a capacitor 10, a decreasing voltage is generated at the input of the latter. When this voltage becomes less than the output voltage of the comparison circuit 4, threshold element 5 is turned on. In the circuit of the photodiode of the optocoupler 6 begins to flow current, saturating the closing transistor 2, which leads to the locking of transistor switch 1.

After the polarity change at the outputs of the master oscillator 3, the control voltage of the transistor switch 1 is applied to the voltage of the master oscillator in the blocking polarity and it will be locked. Simultaneously from the second input of the master oscillator 3, through the register 17, a voltage higher than the output voltage of the comparison circuit 4 is applied to the input of the threshold element 5. The threshold element 4 is locked. In this case, the optocoupler 6 is turned off before the arrival of the following unlocking I1outulse at the base of transistor switch 1 and its inertia does not reduce the range of control of the power source After changing the voltage at the output of the master oscillator, transistor switch 1 immediately opens until

next power up element 5.

When the output voltage changes, the voltage at the output of the comparison circuit 4 changes, which leads to a change in the duration of the saturated state of the transistor switch 1.

Claims (1)

Invention Formula A power source containing an ojaktny converter with a transistor switch, the input connected to the input terminals, and an output to the output terminals, the closing transistor, the collector and emitter outputs of which are connected to the base and the emitter of the transistor switch of the single-ended converter, and between the terminals of the base and emitter is turned on the first resistor, the master oscillator, the first output of the first output of which is connected to the emitter of the transistor switch, the second output of the first output through the second resistor is connected to the transistor base Lyucha and opt- Rhone photodiode connected between the first output of the oscillator and the closure base of the transistor, a first output terminal of the second oscillator che Compiled by Yu.Opadchy Editor I. Kasarda Tehred M. Khodanich Proofreader I. Muska Order 780/51 Circulation 864 Subscription VNIIPI USSR State Committee for Inventions and Discoveries, 113035, Moscow, Zh-35, 4/5 Raushsk nab. Production and printing company, Uzhgorod, st. Project, 4 cutting a capacitor in series, the first diode and the third resistor are connected to the first input terminal of the threshold element, the output of the optocoupler connected to the LED, the second output of the second oscillator connected to the common point of the second and third diodes connected in series, the second output of the second diode and the second input terminal of the threshold element, the comparison circuit, the input connected to the output terminals, and the output connected to the input terminals of the threshold el In order to extend the functionality by expanding the control range, the fourth and fifth resistors are inserted, the fourth resistor being connected between the common point of the capacitor and the first diode and the common point of the second and third diodes, the fifth a resistor is connected between the second output of the third diode and the first input terminal of the threshold element; the second output of the fourth diode is connected to the first output of the second output of the master oscillator.