RU2257654C1 - Voltage surge protective device (alternatives) - Google Patents

Abstract

FIELD: electrical engineering and power electronics.

SUBSTANCE: fuse serviceability is indicated by light-emitting diode. Voltage regulator diode functions to limit voltage surges across load. Novelty is introduction of diode and second light-emitting diode indicating probable breakdown OF voltage regulator diode.

EFFECT: enlarged functional capabilities and enhanced reliability.

2 cl, 2 dwg

Description

The invention relates to electrical engineering and can be used in power electronics.

The well-known device / 1 / for this purpose contains a fuse and voltage limiter. The disadvantage of this device is that it does not provide visual monitoring of health.

The closest in technical essence and the achieved results to the first embodiment of the invention is a device / 2 / for overvoltage protection of a direct current circuit, comprising a fuse shunted by a circuit of a resistor and an LED connected in series, and the LED connected to the terminals of the same polarity to the terminals of the device intended to be connected to the network and the load, and the zener diode, with one pin connected to the output of a common point of the network and load.

The closest in technical essence and the achieved results to the second embodiment of the invention is a device / 2 / for overvoltage protection of a direct current circuit, comprising a fuse shunted by a circuit of a resistor and an LED connected in series, and an LED connected to the terminals of the same polarity to the terminals of the device intended to be connected to network and load, and the output of the LED is connected to the load terminal of the fuse, and a zener diode connected to the output of the common point ty and load.

The disadvantage of all device options is their limited functionality and reliability. This disadvantage manifests itself in the fact that only the fuse failure is controlled, the breakdown of the zener diode is not controlled.

The aim of the invention is to expand the functionality and increase reliability.

The goal is achieved in the first embodiment of the device due to the fact that it is equipped with a diode connected in opposite to the zener diode of the same name, and the second output of the diode is connected to the fuse terminal, designed to connect to the load, and a second circuit, consisting of a second resistor and LED connected in series , is connected between the mains output of the fuse and the common point of the diode and the zener diode.

This goal is achieved in the second version of the device due to the fact that it is equipped with a diode connected in opposite to the zener diode of the same name, and the second output of the diode is connected to the fuse terminal, designed to connect to the load, and the second LED connected between the common point of the first LED with a resistor and the common point of connection of the diode and the zener diode.

Figures 1 and 2 show diagrams of devices. It is indicated here: 1 - fuse, 2 - resistor, 3 - LED, 4 - Zener diode, 5 - second LED, 6 - diode, 7 - second resistor.

The device operates as follows. During normal operation, the voltage from the terminals to the left of the network through the fuse 1 is supplied to the terminals to the right, to which the load is connected. When overvoltages occur in the network that exceed the stabilization voltage of the Zener diode 4, the latter opens and, passing a current through itself, limits the voltage at the load (at the output of the device). In both modes, LEDs 3 and 5 do not light. In case of short circuits in the load or breakdown of the zener diode 4, due to the large current, fuse 1 blows. In this case, the load is disconnected from the network. LED 3 lights up to indicate damage. When the zener diode 4 is broken, the LED 5 also lights up. In FIG. 2, one common resistor 2 is used for two LEDs. Thus, the device allows you to display both possible types of faults. The control circuit is connected to the midpoint of two zener diodes in / 3, 4, 5 /, but in / 3, 4, 5 / the control circuit is connected directly parallel to the zener diode and when the fuse blows, it does not work. Meanwhile, it is very important to have information about the state of the zener diode when the fuse is triggered, since this allows you to more quickly identify malfunctions. Thus, the proposed scheme has wider functionality.

Sources of information:

1. Kolosov V.A. Power supply stationary REA. M .: Radio and communications, 1992, p. 111.

2. Cherepanov V.P., Khrulev A.K., Bludov I.P. Electronic devices to protect electronic equipment from electrical overloads. “Radio and communication”, 1994, p. 42, fig. 101.

3. RF patent No. 2145758 (H 02 H 9/04).

4. RF patent No. 2161357 (H 02 H 9/04).

5. RF patent No. 2133540 (H 02 H 9/04).

Claims (2)

1. Device for overvoltage protection of a direct current circuit, containing a fuse, shunted by a circuit of a resistor and an LED connected in series and connected by leads of the same polarity of the LED to the terminals of the device intended for connection to the network and the load, a zener diode connected to the output of a common network point and load, characterized in that it is equipped with a diode connected counterclockwise with the zener diode of the same name, and the second output of the diode is connected to the output of the fuse, The values for the load connection, and a second circuit consisting of series-connected second resistor and LED, is connected between the network terminal and fuse common point of the diode and the zener diode. 2. Device for overvoltage protection of a direct current circuit, containing a fuse, shunted by a circuit of a resistor and an LED connected in series and connected by leads of the same polarity of the LED to the device terminals for connecting to the network and the load, the LED output being connected to the load terminal of the zener diode fuse, one the output connected to the output of the common point of the network and the load, characterized in that it is equipped with a diode connected in opposite to the zener diode of the same name outputs, and the second output of the diode is connected to a fuse terminal intended for connection to the load, and a second LED connected between a common point of the first LED with a resistor and a common connection point of the diode and the zener diode.

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