KR101062600B1 - Open or short detection circuit with high voltage limit - Google Patents

Abstract

An open or short detection circuit having a high voltage limiting function of the present invention includes: a light emitting diode (LED) connection unit 240 having a plurality of light emitting diodes (LEDs); An external voltage measuring unit 230 measuring an external sensing voltage Vsen to control a current flowing in the light emitting diode LED; An internal voltage measuring unit 210 configured to sense an internal voltage Vsen_int applied to the inside of a chip; And an internal voltage Vsen_int connected between the internal voltage measuring unit 210 and the external voltage measuring unit 230 as the minimum voltage that may damage the internal circuit of the chip. It is a technical feature to provide a limit voltage control circuit 220 to control not to exceed the value of the limit voltage (Vsen_lim).

The open or short detection circuit having the high voltage limit function of the present invention does not allow the internal voltage Vsen_int to exceed the limit voltage Vsen_lim even if the external voltage Vsen becomes high due to a short. ) Has the advantage of preventing the internal circuit from being destroyed or damaged.

Open, short circuit, detection circuit, high voltage limit

Description

OPEN OR SHORT DETECTION CIRCUIT WITH HIGH VOLTAGE LIMITING FUNCTION}

The present invention relates to an open or short detection circuit of an LED driving driver, and more particularly, even when the external sensing voltage Vsen is increased to a high voltage due to a short, the internal voltage Vsen_int of the chip is limited by the voltage Vsen_lim. An open or short detection circuit having a high voltage limiting function having a limiting voltage control circuit portion for controlling not to exceed the limit.

In recent years, as the display industry is activated, devices having high brightness, long life, and high color reproducibility characteristics, such as LEDs, are being used instead of the FL (flat lamps) type backlight source. RGB LED is capable of more than 100% color reproducibility, which has the advantage of being capable of higher quality than conventional cold cathode fluorescent lamps (CCFL). Unlike cold cathode fluorescent lamps (CCFL), there are no harmful substances and the response speed is fast, which can solve the problem of image retention.

As such, in the LCD backlight unit using the LED, an LED driving circuit capable of maintaining a constant current flowing in the LED is required. For this purpose, a boost converter of a PWM method is generally used.

1 illustrates an open or short detection circuit of a conventional LED driving circuit.

Referring to FIG. 1, an open or short detection circuit 100 of a conventional LED driver IC may include an internal voltage measuring unit configured to sense an internal voltage Vsen_int applied to an inside a2 of a chip. 110, a light emitting diode (LED) connection unit 140 including a plurality of light emitting diodes (LEDs), and an external voltage measuring unit measuring an external sensing voltage (Vsen) for controlling a current flowing through the light emitting diodes (LEDs) 230 is provided at an external point a1 of the chip.

However, in the conventional LED driving circuit open or short detection circuit 100, when a short occurs in the light emitting diode, the external voltage Vsen applied to an external point a1 of the chip may be It has a high voltage having the same magnitude as the power supply voltage Vh. If the power supply voltage Vh is greater than the internal voltage Vsen_int that the chip can withstand, the internal circuitry of the chip may be destroyed or damaged.

The technical problem to be solved by the present invention is a limiting voltage control circuit for controlling the internal voltage (Vsen_int) of the chip not to exceed the limit voltage (Vsen_lim) even if the external sensing voltage (Vsen) is increased to a high voltage due to a short (short) The present invention provides a circuit for detecting whether an open or short circuit is provided.

According to an aspect of the present invention, there is provided an open or short detection circuit having a high voltage limit function, including: a light emitting diode (LED) connection part 240 having a plurality of light emitting diodes (LEDs); An external voltage measuring unit 230 measuring an external sensing voltage Vsen to control a current flowing in the light emitting diode LED; An internal voltage measuring unit 210 configured to sense an internal voltage Vsen_int applied to the inside of a chip; And an internal voltage Vsen_int connected between the internal voltage measuring unit 210 and the external voltage measuring unit 230 as the minimum voltage that may damage the internal circuit of the chip. Provided is a limit voltage control circuit 220 to control not to exceed the value of the limit voltage Vsen_lim.

According to the present invention, the chip internal circuit (Vsen_int) does not exceed the limit voltage (Vsen_lim) even if the external voltage (Vsen) is increased to a high voltage (Vh) due to a short circuit of the light emitting diode damage of the chip (chip) circuit There is an advantage that can prevent (damage).

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

Figure 2 illustrates an open or short detection circuit with the high voltage limit function of the present invention.

Referring to FIG. 2, the open or short detection circuit 200 having the high voltage limiting function of the present invention includes an internal voltage measuring unit 210, a limiting voltage control circuit unit 220, and an external voltage measuring unit. And a light emitting diode (LED) connection part 240 having a light emitting diode (LED) installed outside the chip 230 and the chip.

The external sensing voltage Vsen is a voltage which is changed by the opening / shorting of the light emitting diode LED, and refers to a voltage applied to a drain terminal of a transistor (not shown) installed outside the chip. The external voltage measuring unit 230 transmits the measured external sensing voltage Vsen to the limit voltage control circuit 220.

The limit voltage control circuit 220 is connected between the internal voltage measuring unit 210 and the external voltage measuring unit 230, the constant current source 221, the first diode 223 and the second diode having the same characteristics. 225 and resistor 227.

The internal voltage measuring unit 210 senses the internal voltage Vsen_int that is transmitted to the inside of the chip through the limit voltage control circuit 220.

If one or a plurality of light emitting diodes (LEDs) of the light emitting diodes (LED) connection unit 240 is opened or shorted, the external sensing voltage VSEN is sensed inside the chip. Detect whether the circuit is open or shorted.

Hereinafter, the circuit connection configuration of the limit voltage control circuit unit 220 will be described in detail.

The first diode 223 and the second diode 225 are installed in opposite directions, and when a forward voltage is applied, the first diode current Id1 of the first diode 223 may be an external voltage measuring unit ( 230, the second diode 225 energizes the second diode current Id2 to the internal voltage measuring unit 210.

 The constant current I of the constant current source 221 is generated by applying the driving voltage VDD, and the first diode current Id1 of the first diode 223 and the second diode 225 of the second diode 225 are branched from the node n. When the two diode currents Id2 flow, respectively, I = Id1 + Id2 according to the charge conservation law. Depending on the process, the constant current (I) can be selected from 5uA to 20uA.

The first diode 223 and the second diode 225 constitute a circuit using a high voltage protection diode supported in the process. Preferably, a Schottky diode is formed during the IC process.

The first terminal of the resistors R and 227 is connected to the node n2 positioned between the internal voltage measuring unit 210 and the second diode 225, and the second terminal of the resistors R and 227 is grounded GND. Connected with The resistor (R) selects and uses a resistor of appropriate size according to the constant current (I) and the voltage allowed in the process.

Hereinafter, the operation of the limit voltage control circuit 220 will be described in detail.

First, when the external voltage Vsen is smaller than the set limit voltage Vsen_lim, Vsen <Vsen_lim will be described below.

 The first diode 223 and the second diode 225 have a forward voltage (Vf) when the forward voltage (Vf) is applied to each of the potentials of the external voltage Vsen and the internal voltage Vsen_int. Accordingly, the first diode current Id1 and the second diode current Id2 vary.

Here, the limit voltage (Vsen_lim) is defined as the minimum voltage that can damage the internal circuit of the chip, is determined by the constant current (I) and resistance (R) constituting the limit voltage control circuit 220, Ohm's law According to Ohm's law, Vsen_lim = I ㅧ R.

Hereinafter, three states according to the degree of variation of the first diode current Id1 and the second diode current Id2 will be summarized.

1) If Vsen> Vsen_int

Since the second forward voltage Vfd2 of the second diodes D2 and 225 is greater than the first forward voltage Vfd1 of the first diodes D1 and 223, the second diode current Id2 is the first diode current Id1. ), The internal voltage (Vsen_int) increases.

2) If Vsen <Vsen_int

Since the first forward voltage Vfd1 of the first diodes D1 and 223 is greater than the second forward voltage Vfd2 of the second diodes D2 and 225, the second diode current Id2 is the first diode current Id1. It becomes smaller than) and the internal voltage Vsen_int decreases.

3) If Vsen = Vsen_int

The first diode current Id1 and the second diode because the first forward voltage Vfd1 of the first diodes D1 and 223 and the second forward voltage Vfd2 of the second diodes D2 and 225 have the same value. The current Id2 has a stable state.

Second, when the external voltage Vsen is greater than the set limiting voltage Vsen_lim (Vsen> Vsen_lim), it will be described below.

 In this case, since the second forward voltage Vfd2 of the second diodes D2 and 225 is greater than the first forward voltage Vfd1 of the first diodes D1 and 223, the second diode current Id2 increases. Since the relationship of I = Id1 + Id2 is established by the charge conservation law, the second diode current Id2 always has a smaller value than the value of the constant current I.

Therefore, even if a short occurs in the circuit and the external voltage Vsen increases to a high voltage having the same magnitude as the power supply voltage Vh, the internal voltage Vsen_int is a constant current I constituting the limit voltage control circuit 220. It is limited to the size of Vsen_lim = I ㅧ R, which is determined by and R.

Thus, due to the conventional short, the external voltage Vsen is increased to a high voltage having the same magnitude as the power supply voltage Vh, and thus, the internal voltage Vsen_int is also applied with a corresponding high voltage, which eventually damages the chip. The problem of giving damage is solved.

In the above description, the technical idea of the present invention has been described with the accompanying drawings. However, the present invention has been described by way of example only, and is not intended to limit the present invention. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the scope of the present invention.

1 illustrates an open or short detection circuit of a conventional LED driving circuit.

Figure 2 illustrates an open or short detection circuit with the high voltage limit function of the present invention.

Claims (10)

A light emitting diode (LED) connection having a plurality of light emitting diodes (LEDs); An external voltage measuring unit measuring an external sensing voltage Vsen to control a current flowing through the light emitting diode LED; An internal voltage measuring unit configured to sense an internal voltage Vsen_int applied to the inside of a chip; And A value of the limit voltage Vsen_lim which is defined as the minimum voltage size at which the internal voltage Vsen_int connected between the internal voltage measuring unit and the external voltage measuring unit may damage an internal circuit of the chip. Limit voltage control circuit for controlling not exceeding, The limit voltage control circuit unit, A constant current source for generating a constant current I; A first diode for flowing a first diode current Id1 to the external voltage measuring unit;  A second diode flowing a second diode current Id2 to the internal voltage measuring unit; And An open or short detection circuit with a high voltage limit function, characterized in that it comprises a resistor (R). delete The high voltage limiting function of claim 1, wherein each of the first diode and the second diode is connected to each other in a direction opposite to each other so that current flows to the external voltage measuring unit and the internal voltage measuring unit when a forward voltage is applied. An open or short detection circuit with. The method of claim 1, The first terminal of the resistor R is connected to the node n2 positioned between the internal voltage measuring unit and the second diode, The second terminal of the resistor (R) is connected to ground (GND), characterized in that the open or short detection circuit having a high voltage limit function. 4. The open or short detection circuit of claim 1 or 3, wherein the first diode and the second diode use a Schottky diode. . According to claim 1, wherein the value of the constant current (I), The sum of the first diode current (Id1) and the second diode current (Id2) sum (sum), characterized in that the open or short detection circuit having a high voltage limit function. The method of claim 1, wherein the limit voltage Vsen_lim is An open or short detection circuit having a high voltage limit function, characterized in that the product of the constant current (I) and the resistance (R) constituting the limit voltage control circuit portion. 8. The open or short detection circuit according to claim 7, wherein the constant current (I) uses 5uA to 20uA. The method of claim 1, wherein the internal voltage Vsen_int is When the external voltage Vsen is greater than the limit voltage Vsen_lim and the external voltage Vsen is greater than the internal voltage Vsen_int. And an open or short detection circuit having a high voltage limit function, characterized in that it has a value of said limit voltage (Vsen_lim). The method of claim 1, wherein the LED connection portion, An open or short detection circuit having a high voltage limiting function, characterized in that a plurality of light emitting diodes (LED) are connected in series.

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