SU896605A1 - Stabilized dc voltage source - Google Patents

Description

the node and through the protection resistor to the output of the corresponding parametric voltage regulator, and the actuator 2J,

However, this voltage source is characterized by insufficient speed of the protection circuit associated with the ring connection of electronic switches, which leads to the fact that the total time required for the disappearance of all stabilized voltages is equal to the sum of the times required to disconnect each of them; the impossibility of using it to solve the problem of simultaneously disconnecting a series of weighted microelectronic voltage stabilizers when the output voltage level drops below a certain value or the input voltage level increases above a certain value in at least one of them.

The purpose of the invention is to enhance functionality and increase reliability.

The goal is achieved by introducing a RS-trigger, an inverter and optoelectronic switches-inverters to a stabilized source of constant voltage in an amount equal to the number of compensatory voltage regulators, and the protection switches of the protection inverter are equipped with an optoelectronic input, and the inputs of the inserted optoelectronic switches-inverters are connected to the output terminal with a single input and the other through the threshold element to the input terminal of the corresponding compensating voltage regulator and their outputs S-key to inputs RS-trigger whose output is inverted by the inverter connected to the input of optoelectronic protection pereklyuchateleyinvertorov ,, and non-inverting output pszdklyuchen to the actuator element.

The drawing shows a circuit diagram of a stabilized constant voltage source.

The device contains at least two weighted compensatory voltage stabilizers, each of which consists of a control transistor 2 connected in series to the busbar of the sensor 1, a microelectronic stabilizing node 3 and output resistive dividers.4 voltage, protection resistors 5, parametric voltage regulators , threshold elements consisting of series-connected resistors 7 and tablitrons 8, and optoelectronic switches-inverters 9 of protection according to the number of voltage regulators The output of each electronic switch of the protection inverter 9 is connected to the control input of the corresponding microelectronic unit 3 and through the protection resistor 5 to the output of the corresponding parametric voltage regulator 6, one of the inputs of which is connected to one of the terminals of the threshold element (Zener diode 8) and the positive input terminal of the corresponding power supply, the second input of which is connected to the negative terminal of the same power supply, RS flip-flop 10, inverter 11 and optoelectronic switches -inverters 12 according to the number of voltage regulators, the inputs of which are connected to other terminals of the threshold elements and to the positive output terminals of the corresponding voltage regulators, and the outputs of the latter are connected to the S inputs RS of the trigger 10, the inverted output of which through the inverter 11 is connected to the inputs of the optoelectronic switches of the inverters 9 protection. The actuating element 13 is connected to the non-inverse output of the RS flip-flop.,

The device works as follows.

When input voltages are applied, RS-flip-flop 10 is set to the zero state, while the output voltage of the inverter 11 is set to low, the LEDs of the optocoupler-inverters 9 are turned on, and at the outputs of the latter, the low voltage level does not allow protection of microelectronic stabilizing units; 3 compensatory voltage stabilizers. Then the latter are turned on and stabilized voltages appear at their outputs. In this case, the LEDs of the optocoupler-inverters 12 are in the off state, and high levels of output voltages are set at their outputs.

In the event of a short circuit or overcurrent on one of the voltage regulators, the current protection of the stabilizer is triggered and at its output a low level of the output voltage is set. On the control transistor 2, the voltage drop increases and reaches the trigger level of the threshold element. The Zener diode 8 and the corresponding LED of the optocoupler of the inverter 12 are turned on. This leads to the appearance at its output of a low output voltage level (logical zero), which acts on the trigger 10 and sets the latter to a single state. The inverting output of the trigger 10 produces a low voltage level, and a high voltage level is established at the output of the inverter 11, which simultaneously turns off

LEDs of optocoupler-inverters 9 protection. At the outputs of the latter, a high voltage level is established, and consequently, at the inputs of the internal electronic protection keys of microelectronic stabilizing units 3 compensatory voltage regulators. The latter are turned on at the same time and switch off the compensating voltage regulators.

As the input voltage level increases above a certain value, the voltage on the control transistor 2 increases and the threshold element is turned on. In the future, the process of switching off the compensatory stabilizers occurs as described above.

To disconnect the stabilized DC voltage source from the primary network, the non-inverted output of the RS flip-flop 10 is connected to the input of the final element 13.

Thus, the proposed device improves the speed of the protection circuit in connection with the absence of a ring connection of optoelectronic switches; it provides simultaneous disconnection of the weighted compensatory voltage regulators during a short hitch or overcurrent, leading to a decrease in the level of the output voltage of the stabilizer; a simultaneous shutdown of the weighted compensatory voltage stabilizers occurs with an increase in the input voltage level of one of the boostHHcjx compensatory voltage regulators.

Claims (2)

1. Author's certificate of the USSR 501397, cl. G 05 F 1/56, 1976. 2. USSR author's certificate for application number 2682339 / 24-07, 0 cl. G 05 F 1/56, 1978.