KR20060084985A - Electric circuit apparatus performing regular operation with open-circuit - Google Patents

Abstract

The present invention discloses an electric circuit device that operates normally even when a short circuit occurs.

According to the present invention, in an electric circuit operating by using a power supplied from a power supply, a predetermined operating voltage is applied in parallel to the normal operating portion and the normal operating portion that operates when a voltage below the operating voltage of the normal operating portion In this case, when the current does not flow in the forward direction and a voltage higher than the operating voltage is applied, the protection circuit may cause the current to flow in the forward direction. In order to allow current to flow through the protection operation, one or some of several light emitting diodes are used in series and parallel circuit connection in an electric circuit equipped with several small components such as light emitting diodes. Due to the defective light emitting diode, the whole is not turned on and the whole becomes bad. Has solved the problem, and the economic effect and the eco-environmental aspect of the electric circuit products are increased, resulting in efficient maintenance of electrical and electronic products.

Description

Electric circuit apparatus performing regular operation with open-circuit

1 is a circuit diagram showing an example of a connected state when a plurality of light emitting diodes are conventionally used.

2 is a block diagram showing the configuration of an electric circuit device that operates normally even when a short circuit occurs according to the present invention.

3 illustrates an example of a detailed configuration of an electric circuit device that operates normally even when a short circuit occurs in accordance with the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an electric circuit configuration and relates to an electric circuit device that operates normally even when a short circuit occurs.

In the electronic and electrical fields, light emitting diodes that emit light under certain conditions are frequently used. In many cases, only one or two light emitting diodes are used, but in many cases, several dozen or more diodes are used simultaneously. In such a case, when the connected part of the light emitting unit using the light emitting diode and the light emitting diode connected to the product employing the device is short-circuited, not only the shorted light emitting diode but also the other unshorted light emitting diodes may not be turned on. Often occurs.

1 is a circuit diagram showing an example of a connected state when a plurality of light emitting diodes are conventionally used.

In the circuit of FIG. 1, for example, when the D4 110 is shorted, the circuit including the D4 110 in series becomes a circuit in which the entire circuit is shorted even when other light emitting diodes are normal, thereby preventing normal operation. . In other words, all other light emitting diodes having no abnormality from D1 to D10 connected in series when D4 is shorted are not lit as if all are shorted.

In other words, when the light emitting diodes are connected in series in a product that uses several light emitting diodes for signal or lighting, even if only one diode is short-circuited, the whole signal light and the light will not be turned on, and the whole product will be defective. Even if a device such as a light emitting diode is connected in parallel with other parts in the product, there is a problem that the entire product becomes defective due to a short circuit of only one light emitting diode device or a part of the device.

The technical problem to be solved by the present invention is to solve the above problems, even if any one or more of the light emitting diodes are short-circuited when devices such as light emitting diodes are connected in series, other light emitting diodes are irrelevant to the shorted light emitting diodes. The present invention provides an electrical circuit device that operates normally even when a short circuit occurs so that it can operate normally.

According to the present invention for solving the above technical problem, the electric circuit device that operates normally even when a short circuit occurs, in the electric circuit that operates using the power supplied from the power supply unit, a predetermined operating voltage is applied. A normal operating part operating; And a protection operation unit connected in parallel to the normal operation unit such that current does not flow in a forward direction at a voltage below the operating voltage of the normal operation unit, and a current flows in a forward direction when a voltage higher than the operating voltage is applied. Characterized in that.

The normal operation part includes a plurality of light emitting diodes, the light emitting diodes are connected in series with each other, the light emitting diodes connected in series are also connected in series with the power supply part, and the protection operation part corresponds to the plurality of light emitting diodes. Including a plurality of zener diodes, the breakdown voltage of the zener diode is higher than the operating voltage of the light emitting diode, the plurality of zener diodes are connected in series with each other, the plurality of zener diodes in series with the power supply Also connected in series, it is preferable that each of the plurality of zener diodes is connected in parallel with each corresponding light emitting diode.

The normal operation part includes a plurality of light emitting diodes, and a predetermined number of light emitting diodes are connected to each other in series, and sets of a plurality of light emitting diodes connected in series are connected to each other in parallel and connected to the power supply unit. The protection operation unit may include a plurality of zener diodes corresponding to the plurality of light emitting diodes, wherein the breakdown voltage of the zener diode is higher than an operating voltage of the light emitting diode, and each of the plurality of zener diodes is configured to correspond to each of the corresponding light emitting diodes. Is preferably connected in parallel.

The controller may further include an operation control unit connected to the normal operation unit and the power supply unit and configured to determine an operation ratio of the normal operation unit by controlling the amount of current transmitted to the normal operation unit. Including, it is preferable to control the amount of current delivered to the normal operation unit according to the magnitude of the resistance value.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram showing the configuration of an electric circuit device that operates normally even when a short circuit occurs according to the present invention.

The electric circuit that operates by using the power supplied from the power supply unit 200 is connected in parallel to the normal operation unit 210 and the normal operation unit 210 which operate when a predetermined operating voltage is applied, and the normal operation unit ( At a voltage below the operating voltage of 210, the current does not flow in the forward direction, and when a voltage higher than the operating voltage is applied, the protection operation unit 220, the normal operation unit 220, and the power supply unit (2) which allow the current to flow in the forward direction ( It is connected to the 200, and includes an operation control unit 230 for controlling the amount of current delivered to the normal operation unit 220 to determine the operation ratio of the normal operation unit 220.

3 illustrates an example of a detailed configuration of an electric circuit device that operates normally even when a short circuit occurs in accordance with the present invention.

For convenience of description, the normal operation part 310, the protective operation part 320, and the operation control part 330 will be described as having the minimum number of elements, and thus, the elements of D11 to Dn and ZD11 to ZDn in FIG. It is assumed that there is no resistance between and R2 to Rn.

The normal operation unit 310 includes a plurality of light emitting diodes D1 to D10. The light emitting diodes are connected in series with each other, and the light emitting diodes connected in series are also connected in series with the power supply 300.

The protection operation unit 320 includes a plurality of Zener diodes of ZD1 to ZD10 corresponding to the plurality of light emitting diodes of D1 to D10. The breakdown voltage of the zener diode is higher than the operating voltage of the light emitting diode, and the plurality of zener diodes are connected in series with each other, and the plurality of zener diodes connected in series are also connected in series with the power supply unit 300. Each of the plurality of zener diodes of ZD1 to ZD10 is connected in parallel with respective light emitting diodes of the corresponding D1 to D10.

For example, the light emitting diodes of D1 to D10 are devices that operate normally when the voltage across them is, for example, 3 volts, and each Zener diode of ZD1 to ZD10 connected in parallel with each corresponding light emitting diode has a breakdown voltage of 3 volts. In the case of a device having a value higher than volts, for example, 3.5 volts, under normal operation, current flows to the light emitting diode because the voltage across the light emitting diode is lower than that of the Zener diode connected in parallel thereto. Therefore, each light emitting diode emits light. This is the normal state in which the normal operating unit 310 operates.

However, when any one of the light emitting diodes included in the normal operation unit 310 is short-circuited, the short-circuit light-emitting diode does not apply voltage because no current flows, and is 3.5 V as a zener diode connected in parallel with the light emitting diode. Is applied.

If a voltage of 3.5 volts or less is applied to the zener diode, no more current will flow through the circuit, which results in a short circuit as in the conventional case. However, in consideration of such a case in advance, when the voltage supplied from the power supply unit is pre-adjusted and the voltage applied to the zener diode becomes more than 3.5 volts, the voltage of 3.5 volts is applied to the light emitting diode, and the voltage exceeds 3.5 volts. Is passed to the next stage.

For example, when the light emitting diode D4 is shorted in FIG. 3, a voltage of 3.5 volts, which is the breakdown voltage of the Zener diode, is applied to the zener diode ZD4 connected in parallel with the D4, and the remaining voltages are supplied to the next stages D5 and ZD5. In this case, since D5 operates normally, current flows only through D5, and as a result, the LEDs of the subsequent stages of D5 to D10 are turned on. As a result, the remaining light emitting diodes of D1 to D10 except for the short-circuited, non-normal D4 light emitting diodes are turned on to operate normally. As a result, except for the abnormal operation of the light emitting diode of D4, the electric device to which the present invention is applied operates normally, and as a conventional case, the whole of the light emitting diode is not in a state of failure.

As described above, the magnitude of the voltage transmitted through the power supply unit 300 or from the power supply unit is adjusted in advance in consideration of the above-mentioned emergency. Instead, the magnitude of the resistance R1 of the operation controller 330 is adjusted. By controlling the amount of current flowing through the normal operation unit 210, the voltage applied to the shorted zener diode may be greater than 3.5 volts, which is the breakdown voltage, so that the current passes through the next short circuit.

If necessary, the resistor R1 included in the operation controller 330 may adjust its resistance using a variable resistor element. This is known to those of ordinary skill in the art of the present invention by adjusting the resistance value R1 of the operation control unit 330 according to this specification because the specification of the light emitting diode and the zener diode in advance in the present invention. The above description is omitted.

The above description only describes the case where the plurality of light emitting diodes and the zener diodes are connected in series, respectively. Typical electrical circuits are not so simple constructed and include more complex configurations.

In such a complex configuration, the normal operation part includes a plurality of light emitting diodes, wherein the light emitting diodes are connected in series with a predetermined number of light emitting diodes, and the sets of the plurality of light emitting diodes connected in series are connected in parallel with each other. It is connected to the power supply unit 300, the protection operation unit includes a plurality of zener diodes corresponding to the plurality of light emitting diodes, the breakdown voltage of the zener diode is higher than the operating voltage of the light emitting diode, each of the plurality of zener diodes Is a case where the respective light emitting diodes are connected in parallel.

In FIG. 3, D11 to D20 constitute another normal operation unit, and D21 to D30 also constitute another normal operation unit, and are connected in parallel between each normal operation unit. In addition, the protection operation portions of ZD11 to ZD20 and the protection operation portions of ZD21 to ZD30 corresponding to the respective light emitting diodes are also connected in series with the respective zener diodes in series, and each of the light emitting diodes and the corresponding zener diodes is connected to a power supply unit. Connected in parallel. In addition, the resistors included in the operation controller 330 are connected in series with the corresponding normal operation units.

The description of the operating voltage of each light emitting diode and the breakdown voltage of the zener diode is substantially the same as that described above. In addition, when the LED is short-circuited and an abnormal state occurs, the current is transferred through the corresponding Zener diode. In addition, adjusting the magnitude of the current by adjusting the magnitude of the current supplied from the power supply 300 or the resistance value of the resistor included in the operation controller is substantially the same as the above description.

Eventually, even if some of the light emitting diodes in the LED array are short-circuited, only the shorted light emitting diodes cannot be turned on due to the zener diodes included in the protection operation part. Be sure to As a result, even if some LEDs have a problem, only the LEDs are short-circuited and cannot be turned on, and all other LEDs are turned on except for the shorted LEDs.

Those skilled in the art will appreciate that the present invention can be implemented in a modified form without departing from the essential features of the present invention. Therefore, the disclosed embodiments should be considered in descriptive sense only and not for purposes of limitation. Examples included in the above description are introduced for the understanding of the present invention, and these examples do not limit the spirit and scope of the present invention. It will be apparent to those skilled in the art that various embodiments in accordance with the present invention in addition to the above examples are possible. The scope of the present invention is shown not in the above description but in the claims, and all differences within the scope will be construed as being included in the present invention.

According to the present invention, in an electric circuit operating by using a power supplied from a power supply, a predetermined operating voltage is applied in parallel to the normal operating portion and the normal operating portion that operates when a voltage below the operating voltage of the normal operating portion In this case, when the current does not flow in the forward direction and a voltage higher than the operating voltage is applied, the protection circuit may cause the current to flow in the forward direction. In order to allow current to flow through the protection operation, one or some of several light emitting diodes are used in series and parallel circuit connection in an electric circuit equipped with several small components such as light emitting diodes. Due to the defective light emitting diode, the whole is not lit and the whole is not good. It has solved the problem, and provide economic effects and environmental friendly nature of the surface increases the effect of the electrical circuit products, as a result, electric and electronic products and in enabling the efficient maintenance.

Claims (5)

In the electrical circuit which operates using the power supplied from the power supply, A normal operation unit operating when a predetermined operating voltage is applied; And And a protection operation unit connected in parallel to the normal operation unit to prevent current from flowing in a forward direction at a voltage below the operating voltage of the normal operation unit, and allowing a current to flow in a forward direction when a voltage higher than the operating voltage is applied. An electrical circuit device that operates normally even when a short circuit occurs. The method of claim 1, The normal operation unit includes a plurality of light emitting diodes, the light emitting diodes are connected in series with each other, and the light emitting diodes connected in series are also connected in series with the power supply unit. The protection operation unit includes a plurality of zener diodes corresponding to the plurality of light emitting diodes, the breakdown voltage of the zener diode is higher than the operating voltage of the light emitting diode, and the plurality of zener diodes are connected to each other in series and in series The plurality of zener diodes connected to each other are also connected in series with the power supply unit, and each of the plurality of zener diodes is connected to each of the corresponding light emitting diodes in parallel. Device. The method of claim 1, The normal operation part includes a plurality of light emitting diodes, wherein a predetermined number of light emitting diodes are connected in series with each other, and sets of the plurality of light emitting diodes connected in series are connected with each other in parallel and connected to the power supply unit. The protection operation unit includes a plurality of zener diodes corresponding to the plurality of light emitting diodes, the breakdown voltage of the zener diode is higher than the operating voltage of the light emitting diode, and each of the plurality of zener diodes is different from each of the corresponding light emitting diodes. An electrical circuit device that operates normally even when a short circuit occurs in parallel. The method according to claim 2 or 3, An operation control unit connected to the normal operation unit and the power supply unit and configured to control an amount of current transmitted to the normal operation unit to determine an operation ratio of the normal operation unit; Electrical circuit device in normal operation. The method of claim 4, wherein The operation control unit includes a resistor, the electric circuit device to operate normally even if a short circuit occurs, characterized in that for controlling the amount of current delivered to the normal operation unit according to the magnitude of the resistance value.

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