SU826316A1 - Dc voltage stabilizer - Google Patents

Description

(54) CONSTANT VOLTAGE STABILIZER

Claims (3)

CURRENT is connected parallel to the output of the second stabilizing parametric circuit. The drawing shows a circuit diagram of a DC voltage regulator. The voltage regulator contains a regulating transistor, a comparison node 2 connected between the stabilizer output buses, an amplifier 3, the inputs of which are connected to the comparison node 2, and an output to the base of the regulating transistor 1, two different polarity power sources 4 and 5, the outputs of which include stabilizing parametric circuits 6 and 7, with circuit 7 connected to the power input of amplifier 3, the key on transistor 8 between stabilizing parametric circuit 6 and amplifier 3, with the base of transistor 8 connected to the midpoint of a resistive divider 9 and 10 connected between sources 4 and 5, a power capacitor 11 in parallel with output stabilizing circuit 6. The parametric steady mode, the device operates as a classic Autocompensation voltage regulator. If, when the stabilizer is turned on, the first voltage on the power supply 5 is positive voltage, it will go through the circuit 7 and the amplifier 3 to the base of transistor 1 and close it. The voltage at the output of the stabilizer is zero. At the same time, the positive voltage across the resistor 10 opens the switching transistor 8, which does not interfere with the transmission of the voltage signal from the power source 4 through the stabilizing parametric circuit 6 to the power input of the amplifier 3. When the negative voltage reaches the level required for operation the amplifier 3 in the linear mode, the regulating transistor 1 will open and the voltage set by the comparison node 2 will be set at the output of the stabilizer. If, when the stabilizer is turned on, the first voltage on the power supply 4 is negative, then it will go through the resistor 9 to the base of transistor 8 and through the stabilizing parametric circuit 6 to its emitter. At the same time, the negative voltage at the base of the transistor 8 is larger than that at the emitter, the transistor is closed and the negative supply voltage does not flow to the amplifier 3, and accordingly from its output to the base of the regulating transistor 1. The transistor 1 is closed and the output voltage of the stabilizer is zero . When a positive voltage appears on the power source 5, it goes through the resistor 10 to the base of the transistor 8 and compensates for the negative voltage present there. The transistor 8 opens and supplies a negative voltage to the amplifier 3 at the same time as a positive one, and the voltage set by the node 2 of the comparison is set at the output of the stabilizer. For additional delay of the opening potential (according to the negative circuit), an integrating capacitor 11 is installed in parallel with the stabilizing parametric circuit 6. Similarly, the circuit protects the load from overvoltage and loss (expiration) of one of the power supplies . Thus, the stabilizer is switched on only when two voltages are simultaneously present at the power supply terminals of the amplifier, which provides a voltage at the output without emissions, thereby reliably protecting the load. The use of the proposed scheme makes it possible to apply an unlimited number of stabilizer amplifiers to only one pair of power sources, rather than making individual power sources to each stabilizer amplifier, while simultaneously protecting the load from overvoltages when the devices are turned on and off. Claims An DC voltage regulator containing a series regulating element, a reference node connected between output voltages, an amplifier whose inputs are connected to a comparison node and an output to a control; it has an input of a regulating element, two alternating power sources of the amplifier with stabilizing parametric circuits connected at their outputs, the first of which is directly connected to the power supply of the amplifier, characterized in that, in order to protect the load from overvoltages, When the stabilizer is turned on and off, a key, divider and capacitor are inserted into it, the key being connected between the second stabilizing parametric circuit and the supply terminal of the amplifier with a polarity corresponding to the unlocking of the regulating element, the control input of which is connected to the midpoint of the divider, connected between the outputs of different sources of power supply of the amplifier, and the capacitor is connected parallel to the output of the second stabilizing parametric circuit. Sources of information taken into account during the examination 1. USSR author's certificate No. 547755, cl. G 05 F 1/58, 1975. 2. Authors certificate of the USSR 534751, cl. G 05 F 1/58, 1974. 3. “Radio, 1978, No. 12, p. 56.