SU828186A1 - Stabilized voltage source - Google Patents

Description

The invention relates to electrical engineering and can be used in power supplies for automation, telemechanics and computer equipment.

A known source of stabilized 5 voltage, which contains several voltage stabilization channels, the launch of each of which depends on the mode of operation of other channels [1].

A disadvantage of the known source is that when working on a static and dynamic load, a situation is possible in which, at the moment of switching on the source, the channel working on the dynamic load will be under a prolonged unprogrammed load. The load and the channel are calculated for a short-term action, therefore, failure of one or another device is possible.

Also known is a source of stabilized _2-frequency voltage, which comprises two channel pulse regulation, each of which includes a LCD-filter, the power transistor, control units and feedback, and LCD-inputs of the filters 25 through the power transistors connected to the input terminals, a control unit the first channel is equipped with an output and three inputs, and the second channel with an output and two inputs, the outputs of the control units 30 connected to the control transitions of the power transistors, the first inputs through, the feedback blocks with the output terminals, and the second input of the control unit of the first channel through the first starting circuit, consisting of a series-connected resistor and capacitor, is connected to the corresponding input terminal, the choke of the LCD filter of the second channel is equipped with an additional winding, through the rectifier connected to the first capacitor, the capacitors of the LCD filters connected to the corresponding output terminals [2].

The inclusion of channels does not depend on the presence or absence of a load in the channels, but depends only on the input of the channels to the pulse mode, which is a drawback when one of the source channels operates on a dynamic load.

The aim of the invention is to increase the reliability of the power source during failures of the load program at the time of switching on the device.

This goal is achieved by the fact that a current limiting block, a thyristor, a diode, a limiting resistor, a second starting circuit, consisting of a series-connected resistor, a capacitor and a zener diode, and a second capacitor are added to the stabilized voltage source, and the throttle of the first channel LCD filter is equipped with an auxiliary winding, which is connected through a diode to a second capacitor connected through a second start-up circuit to the second input of the control unit of the second channel, between the inductor and the condensate The rum of the LCD filter of the first channel includes a parallel connected thyristor and a current limiting unit, and the thyristor control transition through the limiting resistor is connected to the first capacitor, and the output of the current limiting unit is connected to the third input of the first channel control unit.

The drawing shows a diagram of a stabilized voltage source.

The device contains two channels, each of which includes inductors 1, 2, closing diodes 3, 4 and output capacitors 5, 6, forming an LCD filter, connected via input to power transistors 7, 8 to input terminals, and output to output terminals . The control block 9 of the first channel is equipped with an output and three inputs, and the control unit 10 of the second channel has an output and two inputs. The outputs of blocks 9, 10 are connected to the control transitions of transistors 7, 8, and the first inputs through feedback blocks 11 and 12 are connected to output terminals. The second input of the control unit of the first channel 9 through the first starting circuit, including a resistor 13 and a capacitor 14, is connected to the corresponding input terminal. The auxiliary winding of the inductor 1 through the diode 15 is connected to the capacitor 16, which is connected to the second input of the control channel of the second channel 10 through the second start-up circuit containing the zener diode 1 /, the capacitor 18 and the resistor 19. The inductor 1 is connected through the thyristor 20 and the restriction unit 21 current is connected to the capacitor 5 with an LCD filter of the first channel. An additional winding of the inductor 2 through a diode 22 is connected to a capacitor 23, which is connected through a limiting resistor 24 to the control transition of the thyristor 20. The output of block 21 is connected to the third input of block 9.

The source of stabilized voltage works as follows.

When the voltage is turned on through the capacitor 14, the transistor 7 opens, and energy is accumulated on the inductor

1. Since there is no load on the potoeigel at the time of starting the channel, when the specified voltage level is reached at the output of the channel, the OLC circuit will close the transistor 7. When the voltage at the channel output decreases, the circuit 11 allows the opening current pulse to form block 9 transistor 7. A voltage will appear on the secondary side of the inductor 1. As the capacitor 16 is charged, it is more voltage.

The rise increases and reaches the breakdown level of the Zener diode 17.

Through a capacitor 18 and a resistor 19, a current pulse is supplied to a block 10 of the channel operating on a static load, and generates a current pulse, which opens the transistor 8.

As you enter the operating mode on the secondary winding of the inductor 1, a voltage appears that opens the thyristor 20, and thereby allows the first channel to take the load.

The described process corresponds to the normal operation of both the source itself and the load. In case of malfunctions in the load circuit, i.e., the inclusion of the dynamic load not according to the specified program or short circuit in the circuits of both one and the other channel of the power source for the duration of the start-up circuit, consisting of a resistor 13 and a capacitor 14.

A stabilized power source operates as follows.

At the moment of switching on, the channel working on dynamic load becomes under load, in this case, when the transistor is opened / through the block 21, a current will flow that will close the block 9. There is no voltage on the additional winding of the inductor 1 and the channel working on the static load will not be turned on , and since there will be no voltage on the additional winding of inductor 2, the thyristor 2b will not turn on.

but as the capacitor 14 charges, the starting voltage disappears from the socket 9, and there will be no voltage at the channel output.

in case of any malfunctions, there are no voltages on the additional coils of the reactors, which makes it impossible to turn on the power source under load.

Claims (2)

1. USSR author's certificate number 449424, cl. H 02M, 3/155, 1972. 2. Authors certificate of USSR L 653696, cl. H 02M 3/335, 1979. 13sh