RU1786479C - Electric circuit protection device - Google Patents

Abstract

Field of use: as a device for protecting electrical circuits against short-circuit and overcurrents. SUMMARY OF THE INVENTION: the device comprises a key actuating element with on and off blocks, a threshold element, a loading unit. A diode and a zener diode are introduced into the device. This made it possible to ensure a safe limitation of the charge of the input capacitance of the transistor of the actuating element during surges of the mains voltage. The power consumed by the device in control mode is reduced. 1 ill.

Description

The invention relates to electrical engineering and can be used in power supply as a device for protecting electrical circuits from short circuits and overloads.

A device is known that contains a key actuator connected in series with a current sensor, a threshold element, an enabler and an actuator shutdown unit, an output connected in parallel to the control inputs of the actuator, and a loading unit, the control input of the transistor of the enabler through an isolation capacitor connected to a resistor voltage divider connected in parallel with the input terminals, as well as to a resistor connected in series, the output transistor Ora and the control inputs of the actuating element, while

the point of the resistor and said transistor is connected through the limiting resistor to the output of the threshold element, through which the input of the transistor of the trip unit is connected to the current sensor, in addition, the control input of the actuator through the resistor is connected to the auxiliary voltage source, and parallel to the power circuit of the actuator of the element, the input circuit of the load transistor of the loading unit is connected, the output circuit connected to the input terminals through a limiting resistor, parallel to which the input circuit a second transistor included drink podgruzki unit, the output circuit is connected through a ballast resistor to the output terminals.

The disadvantages of the device are reduced efficiency and reliability.

Reduced reliability manifests itself during sudden drops in mains voltage.

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within the tolerance, the possibility of spontaneous shutdown of the device due to overcharging from the isolation capacitor of the input capacitance of the transistor of the actuator, as well as its charge to dangerous voltages with an increased range of variation of the mains voltage.

The reduced efficiency is determined by directly connecting the input of the transistor of the trip unit through the limiting resistors to the positive input terminal. At the same time, the limiting resistors are under the potential of the mains voltage and the current necessary for unlocking the transistor flows through them. At higher mains voltages, the power dissipated in the resistors reaches large values.

The purpose of the invention is to increase reliability and efficiency.

This goal is achieved by the fact that a diode and a zener diode are inserted into the device for protecting electrical circuits, the diode anode connected through the first voltage divider resistor to the positive input terminal, and the cathode connected to the common point of the second voltage divider resistor and isolation capacitor between the other terminals of which the zener diode is turned on, in addition, the input of the transistor of the shutdown unit is connected through a limiting resistor to a common point of the output circuit of the transistor of the loading unit and the ballast resistor.

 Unlike the prototype, the introduction of a diode in the proposed connection with the other elements of the circuit, when the voltage drops, prevents the discharge of the isolation capacitor in the circuit: the first voltage divider resistor, the voltage source, the input capacitance of the transistor of the actuator and a resistor connected in parallel with the input circuit of the transistor of the switching unit. This prevents overcharging of the small input capacitance of the transistor of the actuator from the isolation capacitor of a larger capacitance and prevents false alarms of the device.

A dangerous rise in voltage at the input capacitance of the actuating transistor during possible surges of the mains voltage is blocked by the introduced zener diode.

Given the above rationale, we can conclude that the device has increased reliability.

Connecting the input of the shutdown block transistor through a limiting resistor to a common point of the output circuit of the loading block transistor and the ballast resistor provides, in case of an emergency (as in the prototype), the transistor of the shutdown block saturates and the actuator opens. However, in the absence of an emergency in the monitoring mode, the communication of the input of the transistor of the trip unit with the positive input terminal is interrupted

by the transistor of the loading unit and, substantially, substantial losses are eliminated

in the limiting resistor increases

Device efficiency.

5 Comparison with the prototype shows that the claimed device is distinguished by the presence of new elements. Thus, this device meets the criterion of novelty.

0 Introduction to the inventive communication device of the disconnecting unit with the load unit, as well as the diode and the zener diode in this connection, increases its efficiency and reliability.

5 This allows us to conclude that the technical solution meets the criterion of significant differences.

The drawing shows a diagram of a device for protecting electrical circuits.

0 The device contains a key actuating element 1, a current sensor 2, connected in series to the input terminals 3, output terminals 4 for connecting the load, the threshold element 5, shutdown units 6 and on 7, Olok

. load 8 with ballast 9,

a first voltage divider resistor 10,

a second voltage divider resistor 11,

isolation capacitor 12, limiting resistor 13, resistor 14 connected in parallel to the input circuit of the switching unit transistor, additional diode 15 and zener diode 16.

The device operates as follows.

Connecting the voltage source to the input terminals 3 causes the charge current of the capacitor 12 to flow along the phase circuit of the transistor of the switching unit 7, which opens and turns on the transistor of the actuator 1 ..

Dangerous increase in voltage at the input capacitance of the actuating element 1 in case of an increased value

5, the mains voltage is limited to the 16-bitron 16. |

The duration of the pulse switching signal at the input of the actuating element 1 is determined by the constant charge time of the capacitor 12 and is set

longer turn-on time of the protected load. The closure of the key of the actuator 1 causes a voltage to appear at the output terminals 4 and the load, the threshold element 5 is energized by auxiliary voltages + E and -E.

After the load is turned on, maintaining the transistor of the actuator 1 in the on state is ensured by connecting its input by means of a resistor with auxiliary voltage + E. A negative polarity signal is generated at the output of the threshold element 5, which locks the transistor of the trip unit 6, the trip unit 6 is in a ready state and does not affect the normal operation of the circuit. In the event of sharp drops in the mains voltage within the tolerance, the diode 15 prevents the discharge of the capacitor 12 through the first resistor 10 of the voltage divider, the mains voltage source, the input capacitance of the transistor of the actuator 1 and the resistor 14. This prevents false tripping of the protection device by interruption of the current of the input capacitance of the transistor 1 from the isolation capacitor 12 through the lowest resistance circuit (taking into account that the value of the resistor 10 is selected from the need to saturate the transistor unit and 6 and less than the value of the resistor 11).

The appearance of a short circuit or an increase in the current consumed by the load leads to an increase in the amplitude of the information signal received by the current detector 2 at the input of the threshold element 5.

An increase in the signal above the level of the reference voltage (connected to the second input of the threshold element 5) causes a positive polarity pulse to appear at the output of the threshold element 5, which unlocks the shutdown transistor 6 and opens the actuator 1. The load is disconnected from the mains voltage source the threshold element 5 is de-energized. However, any operation of the protection device causes an increase in the voltage at the power terminals of the actuating element 1 and the transistor s block 8 podgruzki. In this case, the transistor of the current-disconnecting unit 6 is turned on through the limiting resistor 13 and the output circuit of the transistor of the loading unit 8 from the positive input terminal. The control terminals of the actuating element 1 are kept in a closed state in the absence of a signal from the output of the threshold element 5. Energy

The leakage passed by the actuator 1 in the off state is dissipated by the ballast 9. This prevents the buildup of voltage at the input terminals 4 and unauthorized periodic starts (converters) of the load.

In the event of a different emergency, for example, the presence of an overload and the absence of auxiliary voltages + E and -E, an increase in the voltage starts at the power terminals of the actuator 1 and the load unit 8 is turned on.

5 A current starts flowing through the limiting resistor 13, the transistor of the trip unit 6 is turned on, which provides (after the transistor of the turn-on unit 7 is turned off) a safe abrupt mode

0 turn off the transistor of the actuator 1.

The device is again turned on by interrupting the supply of the mains voltage to the input terminals 3.

5 The shutdown, in order to analyze the causes of failure, causes the capacitor 12 to discharge and restore the initial state (readiness) of the protection device for restarting,

0 Serially connected diode 15 and resistor 10 can be mutually interchanged without changing the nature of the functioning of the circuit.

The invention increases the efficiency and reliability of the device, reduces the requirements for the quality of the mains voltage and the permissible range of its variation, and provides increased safety of the protected load.

Claims (1)

0 Claims A device for protecting electrical circuits containing a key actuator connected in series with a current sensor, a threshold element, a unit 5 includes an actuator shutdown unit and an output element connected in parallel to the control inputs of the actuator, as well as a loading unit, the transistor control input 0 of the switching unit through a separation capacitor is connected to a resistor voltage divider connected in parallel to the input terminals, as well as to a resistor connected in series 5 of the output circuit of the transistor and the control inputs of the actuating element, while the common point of the resistor and said transistor is connected through the limiting resistor to the output of the threshold element, through which the input the trip unit transistor is connected to a current sensor, in addition, the control input of the actuator through a resistor is connected to the auxiliary voltage source, and in parallel with the power circuit of the actuator is the input circuit of the first transistor of the load unit, the output circuit connected to the input terminals through a limiting resistor, parallel to which the input circuit includes a second transistor of the loading unit, the output circuit connected via a ballast resistor to the output terminals, characterized in that, with the aim to increase reliability and efficiency, a diode and a zener diode are inserted into it, the anode being connected via the first voltage divider resistor to a positive input terminal, and the cathode to a common connection point of the terminals of the second voltage divider resistor and an isolation capacitor, between the other terminals of which the zener diode is turned on, in addition, the input of the transistor of the shutdown unit is connected through a limiting resistor to a common point of connection of the output circuit of the transistor of the loading unit and the ballast resistor.