SU853562A1 - Voltage transducer for protecting power sources from overloads - Google Patents

Description

The invention relates to a technique for measuring DC voltage, and more specifically to sensors for reducing a predetermined DC voltage level, and is intended for use in protection of overvoltage power sources. Voltage sensors for protection of lithium sources against overloads containing resistors connected in parallel with a load of 1 are known. The closest to the proposed sensor is a voltage sensor for protecting overload power sources containing series-connected resistor and zener diode 2. The disadvantage of this sensor, which has good sensitivity to overloads of the monitored power source, is the insignificant power of the control signal, and its amplification requires comparing circuit complexity. In addition, the sensor does not operate in the steady short circuit mode. The aim of the invention is to provide the possibility of obtaining a powerful output signal at overloads directly from the sensor. This is achieved by the fact that in the voltage sensor to protect the power sources from jjZ overloads between the zener diode and the bus common to the power supply bus, an additional resistor is connected, in parallel with which a capacitor and a diode are connected in series, the connection point of the capacitor and the diode is the output of the sensor zheniy. The drawing shows a voltage sensor circuit. Voltage U0T4KK contains a resistor 1 at the input, connected in series with the Zener diode 2, an additional resistor 3 and in parallel with it a series-connected capacitor 4 and a diode 5, the junction point of which is the sensor output, as well as the bus 6 common with the source bus P1 {tani. And an additional resistor

3 is connected between bus 6 and zener diode 2.

 To use a voltage sensor in the overload protection circuit of the power source, the sensor input is connected to the output of the power source 7 in parallel with the load 8, and the sensor output is connected to the overload protection actuator 9.

The sensor operates under normal load of the power source as follows. After switching on the power source 7 and reaching the predetermined voltage at its output, the zener diode 2 is switched to the conducting state

and the current passes through the circuit from the source through the resistor 1, the Zener diode 2 and the resistor 3 to the bus 6. In addition, the current flowing from the power source 7 through the resistor 1, the Zener diode 2, the capacitor 4 and the diode 5 to the bus 6, charges the capacitor 4 to a potential approximately equal to the voltage drop across the resistor 3. At the same time, the voltage at the sensor output,) / has a small level of positive polarity, which is established in dynamic equilibrium with the consumption of the actuator connected to the sensor output 9 transition time and 5,

At the moment of overload, the current through resistor 1 decreases sharply, Zener diode 2 is locked and terminated by tokstabiltron 2 through resistor 3. This results in a capacitor 4 lining on the plate,

connected to the diode 5, a negative potential relative to the bus 6, the polarity of the capacitor 4 is reversed, and from this moment begins

 of the resistor 3 and the output resistance of the actuator 9. The capacitor 4 becomes a source of a powerful control signal, the internal resistance of which is practically limited only by the resistor 3.

Thus, the proposed voltage sensor circuit will allow you to get a powerful output signal directly from the sensor, as well as to Increase the effectiveness of the sensor output signal on the actuator due to a change in polarity. Thus, increasing the power of the control signal directly from the sensor does not require complication of the comparison circuit or preamplification of the signal.

The form of the invention, a voltage sensor for protecting power supply sources against overloads, containing series-connected resistors and a zener diode, characterized in that, in order to ensure the possibility of obtaining a powerful output signal during overloads directly from the sensor, between the zener diodes and the bus, With the power supply bus, an additional relay is connected, in parallel with which a capacitor diode is connected in series, the connection point of the condoso- er to the diode being the output of a voltage sensor.

Sources of information taken into account in the examination

1. US patent number 3876910, class. H 02 H 3/20, 1975.

2.Kitaev V.E., et al. Electric protection of semiconductor power sources. - M., Svy, 1977, p. 64

Claims (1)

The formula of the invention .. A voltage sensor to protect power supplies from overload, containing a resistor and a zener diode connected in series, characterized in that, in order to provide a powerful output signal during overloads directly from the sensor, between the zener diode and the bus, the common with the power supply bus, an additional resistor is connected, in parallel with which a capacitor and a diode are connected in series, the connection point of the capacitor and the diode being the output of the voltage sensor.