KR20140094048A - LED Driver for Preventing Short Detecting Error of LED channel - Google Patents

Abstract

The present invention relates to an LED driver for preventing errors of detecting a short circuit of an LED channel, and more specifically, to a technique for preventing the errors of detecting the short circuit of the LED channel by controlling a feedback responding speed when the drastic variation of an analog dimming signal for an LED dimming operation exists. The present invention provides the LED driver comprising: an analog dimming signal delay part for controlling the responding speed of the analog dimming signal (ADIM) before outputting; a voltage comparing part which primarily receives the output of the analog dimming signal delay part and secondarily receives feedback voltage (VFB) for comparing the voltage levels thereof and outputting the voltage levels; a short circuit determining part for determining the short circuit to be generated in the LED channel when the output of the voltage comparing part is measured to be a value equal to or less than a particular short detect level; an LED channel voltage generation part for increasing LED channel voltage (VLED) supplied to the LED channel before supplying when the output of the voltage comparing part is (+) and decreasing the LED channel voltage before supplying when the output of the voltage comparing part is (-); a PWM dimming control part for turning on and off current flowing in the LED channel; and a feedback voltage detection part for secondarily inputting the feedback voltage (VFB) corresponding to the current flowing in the LED channel to the voltage comparing part.

Description

[0001] The present invention relates to an LED driver for preventing a short circuit detection error of an LED channel,

The present invention relates to an LED driver for preventing a short circuit detection error of an LED channel, and more particularly, to an LED driver for preventing an LED channel short detection error by adjusting a feedback response speed even if there is a sudden change of an analog dimming signal for an LED dimming operation Lt; / RTI >

A light emitting diode (hereinafter referred to as "LED") is environmentally friendly, capable of high-speed response, capable of impulsive driving, has a color reproducibility of 100% or more, and a light amount of red, It is applicable as a light source of various devices such as a backlight of an LCD panel and the like because it has advantages such as brightness and color temperature arbitrarily adjusted and is suitable for thinning and shortening of an LCD panel.

When a plurality of LEDs are connected in series in an electronic device using LEDs, a driving circuit capable of providing a constant constant current to the LEDs is required. The user can arbitrarily adjust brightness and color temperature, or perform temperature compensation Adjusting the brightness of the LED is called dimming.

This type of dimming can be broadly divided into PWM dimming, which adjusts the pulse width of a pulse signal that turns on and off LED channels on which a plurality of LEDs are arranged, and analog dimming that adjusts the current magnitude of the current flowing through the LED channel.

In the case of the above-mentioned analog dimming, in order to adjust the brightness of the LED in an apparatus employing an LED such as a backlight, the magnitude of the LED channel driving voltage generated by stepping up from the input voltage is adjusted, .

At this time, the LED driver periodically checks and detects whether the LED channel is short-circuited to notify the host device in order to secure the stability of the device including the LED in the driver and the backlight.

If any one or more of the LEDs on the LED channel or the LED channel is shorted, the voltage across the device such as a switch connected to the LED channel is continuously increased, and the driving circuit performs a constant boosting operation, And the stability of the circuit may be deteriorated.

Therefore, in order to ensure an efficient and stable operation of the LED driver, an LED driver structure is required which prevents the unnecessary driving voltage from being boosted by accurately sensing a short circuit of the LED channel, thereby preventing damage to the driver circuit and ensuring operation efficiency have.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems of the prior art and provides an LED driver that prevents an error in short circuit detection of an LED channel during a dimming operation for adjusting brightness of the LED, There is a purpose.

Also, the present invention provides an LED driver with high efficiency and excellent stability of a circuit by eliminating high temperature and heat generation due to a high voltage input due to a detection error by simply eliminating an error of LED channel short detection There is another purpose.

The technical objects to be achieved by the present invention are not limited to the above-mentioned technical problems, and other technical subjects which are not mentioned can be clearly understood by those skilled in the art from the description of the present invention .

According to an aspect of the present invention, there is provided an analog dimming signal delay unit comprising: an analog dimming signal delay unit for adjusting a response speed of an analog dimming signal; A voltage ratio control unit for receiving an output of the analog dimming signal delay unit, receiving a feedback voltage (V _FB ), comparing the voltage levels of the analog voltage and the analog voltage, and outputting the comparison result; A short-circuit determining unit for determining that a short-circuit occurs in the LED channel if the output of the voltage comparator is measured to be less than a predetermined short detection level; LED channel to supply surface by reducing the LED channel voltage (V _LED) - supplied by increasing the LED channel voltage (V _LED), the output unit compares the voltage supplied to the LED channel side (+) and the voltage comparison unit outputs () A voltage generator; A PWM dimming control unit for turning on / off a current flowing through the LED channel; And a feedback voltage detector for inputting a feedback voltage (V _FB ) corresponding to a current flowing through the LED channel to the voltage ratio issuing unit.

In the present invention, the analog dimming signal delay unit includes a second AOT (Operational Transconductance Amplifier) to which the analog dimming signal (ADIM) is inputted, a negative input terminal and an output terminal are connected to each other, and an output terminal and a negative input terminal And a first capacitor connected to the node.

In the present invention, the first capacitor prevents the output of the second AOT from being abruptly changed even if the input analog dimming signal (ADIM) fluctuates, thereby preventing the output of the voltage comparator from dropping to the short detection level .

In the present invention, the voltage comparator may include a first operational amplifier (AOT) that receives the output of the analog dimming signal delay unit, receives the feedback voltage (V _FB ), and outputs a difference between the analog voltage and the analog voltage desirable.

In the present invention, the LED channel voltage generator includes a PWM controller (Pulse Width Modulation Controller) receiving the output of the voltage comparator and generating a pulse having a duty corresponding thereto, and a controller And a boost converter for supplying an output voltage to the LED channel.

In the present invention, the PWM controller increases the ON time of the switching pulse when the output of the voltage comparator increases to a positive value, and increases the ON period of the switching pulse when the output of the voltage comparator increases to a negative value. it is desirable to operate to reduce the on time.

The LED channel voltage generator may raise or lower the LED channel voltage V _LED when the difference between the output of the analog dimming signal delay unit and the feedback voltage V _FB occurs, And the feedback voltage (V _FB ).

In the present invention, the PWM dimming control unit preferably includes a second switching device M _{DIM for} receiving a PWM dimming signal PDIM and adjusting a current flowing through the LED channel.

In the present invention, the PWM dimming signal PDIM changes the duty of a pulse input to the second switching device M _DIM so that the on / off time of the current (Current) flowing in the LED channel -Time) to change the brightness of the individual LEDs.

In the present invention, it is preferable that the feedback voltage detector includes a feedback voltage detection resistor (R _FB ) located between the PWM dimming control unit and the ground.

In the present invention, the analog dimming signal (ADIM) adjusts the current (Current) flowing through the LED channel by adjusting the LED channel voltage (V _LED ) to change the feedback voltage (V _FB ) Is a voltage signal to be changed.

According to the LED driver for preventing the detection error of the LED channel according to the present invention, an LED driver for preventing an error of short detection of the LED channel in a dimming operation for adjusting the brightness of the LED is provided It is effective.

In addition, according to the present invention, it is possible to easily eliminate the short circuit detection error of the LED channel, thereby eliminating the high temperature and heat generation due to the high voltage input due to the detection error, There is an effect to provide.

1 is a configuration diagram of an LED driver according to a related art.
FIG. 2 is a graph showing changes in feedback voltage, LED channel voltage, and the like when a LED channel is short-circuited according to the prior art.
FIG. 3 is a graph illustrating a change in LED channel voltage, feedback voltage, and voltage ratio output terminal voltage according to a change in an analog dimming signal according to the related art.
4 is a configuration diagram of an LED driver according to an embodiment of the present invention.
5 is a detailed circuit diagram of an LED driver according to an embodiment of the present invention.
FIG. 6 is a graph illustrating a change in an LED channel voltage, a feedback voltage, an output signal of an analog dimming signal delay unit, and an output signal of a voltage comparator according to a variation of an analog dimming signal according to an exemplary embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined. Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

1 is a block diagram of a conventional LED driver.

The conventional LED driver includes a voltage ratio control unit 100, a short circuit determination unit 200, an LED channel voltage generation unit 300, an LED channel 400, a PWM dimming control unit 500, and a feedback voltage detection unit 600.

The operation for keeping the brightness of the LED constant is as follows.

The voltage ratio distributor 100 receives the feedback voltage V _FB from the feedback voltage detector 600 and receives an analog dimming signal ADIM having an arbitrary dimming voltage value to calculate a current corresponding to the difference between them Output.

The output current of the voltage ratio control unit 100 is detected by varying the output terminal voltage of the voltage comparator by the passive element of the short circuit determination unit 200. The LED channel voltage generator 300 generates an LED The feedback voltage V _FB is kept at the same level as the analog dimming signal ADIM by adjusting the channel voltage V _LED so that the individual LEDs are turned on in accordance with the brightness corresponding to the level of the analog dimming signal ADIM .

At this time, when the LED channel 400 is short-circuited, the drain voltage of the switching element in the PWM dimming control unit 500 and the feedback voltage V _FB as its source terminal voltage are instantaneously the voltage Since the feedback voltage V _FB which is a negative input of the voltage ratio assigning part 100 increases greatly in a short period of time because the LED is biased by the positive bias voltage V _F , And the voltage of the voltage ratio grant output terminal is lower than a predetermined short detection level to detect that a short circuit occurs.

FIG. 2 is a graph showing changes in feedback voltage, LED channel voltage, and the like when a LED channel is short-circuited according to the related art.

The drain voltage V _D of the switching device in the PWM dimming control unit 500 is lower than the voltage V _F across the shorted LED when any one of the LEDs formed in the LED channel 400 is short- _{_ LED} ).

In other words, LED during normal operation of the channel 400, the value obtained by subtracting the drain voltage (V _D) is a voltage (n? V _{F _ LED)} applied to the n number of LED at both ends at a drive voltage of LED channels voltage (V _LED) If one LED is shorted, it will rise by the voltage (V _{F _ LED} ) that is applied across one LED.

Also, The feedback voltage V _FB , which is the source voltage of the switching element in the PWM dimming control unit 500, also rises in proportion to the rise of the drain voltage V _D.

If the constant analog dimming signal ADIM is input to the voltage ratio distributor 100 despite the increase of the feedback voltage V _FB input to the voltage ratio distributor 100 as described above, -), and the voltage at the output terminal thereof changes to be lower than the short detection level, so that a short circuit is detected (see (c) of FIG. 2).

Accordingly, when the feedback voltage (V _FB ) rises due to the short circuit of the LED channel (400), the duty ratio of the PWM controller in the LED channel voltage generator (300) The driver is actuated to regulate the pulse generation so as to reduce the LED channel voltage (V _LED ).

That is, even if the feedback voltage V _FB temporarily rises, the boosting operation of the second switching device M _DIM 510 causes the output current value of the first AOT 110 and the LED channel voltage V _LED to fall, The drain voltage V _D and the feedback voltage V _FB are restored to the original voltage.

However, if the boosting operation is performed so that the output current value of the voltage ratio distributing unit 100 and the LED channel voltage V _LED are lowered even if the LED channel is not actually short-circuited, a problem arises in terms of the stability of the circuit. In the invention, it is designed to precisely investigate whether the output value of the voltage ratio issuing unit 100 has fallen to the short detection level.

3 is a graph illustrating a change in LED channel voltage, feedback voltage, and voltage ratio output terminal voltage according to a change in an analog dimming signal according to the related art.

In order to maintain the constant brightness of the LED, the analog dimming signal (ADIM) and the feedback voltage (V _FB ) must maintain the same level. If the level of the analog dimming signal ADIM is suddenly changed, the feedback voltage V _FB is adjusted to the level of the analog dimming signal ADIM by adjusting the LED channel voltage V _LED , The constant brightness of the LED can be maintained.

3 (a) shows that the LED channel voltage (V _LED ) and the feedback voltage (V _FB ) decrease in accordance with the suddenly reduced analog dimming signal (ADIM). That is, when the analog dimming signal ADIM suddenly shrinks suddenly and is input to the voltage ratio assigning unit 100, the level of the feedback voltage V _FB is also lowered to match the level of the analog dimming signal ADIM. Even if a short is not generated in the channel 400, it can be judged as a short by only a sudden change of the analog dimming signal ADIM.

That is, as shown in FIG. 3 (b), the output of the voltage ratio generator 100 rapidly increases to a negative value only by abruptly decreasing the analog dimming signal ADIM so as to fall short of the short detection level There is a problem that it can be determined as a short circuit irrespective of the actual short circuit.

Therefore, even if a short is not generated in the actual LED channel 400, it is possible to prevent a sudden change in driving voltage by detecting a short circuit, and to precisely detect whether the LED channel 400 is short- A driver architecture that brings stability and excellent power efficiency is needed.

FIG. 4 is a configuration diagram of an LED driver according to an embodiment of the present invention, and FIG. 5 is a detailed configuration diagram of an LED driver according to an embodiment of the present invention.

LED driver of the present invention, controlling the response speed of the analog dimming signal (ADIM) to receive the analog dimming signal delay unit 700 and output the analog dimming signal delay unit for outputting information input, portion a feedback voltage (V _FB), The voltage comparator 100 compares the voltage level of the input voltage and outputs the comparison result. When the output of the voltage comparator is measured to be less than a predetermined short detection level, it is determined that a short circuit occurs in the LED channel 400 (V _LED ) supplied to the LED channel when the output of the voltage comparator is positive, and supplies the LED channel voltage V (V) to the LED channel when the output of the voltage comparator is negative _LED) for lowering the supply LED channel voltage generator 300, a feedback voltage corresponding to the current flowing through the LED channel to the on / off (oN / oFF) the current flowing through the PWM dimming controller 500 and the LED channels to ( the voltage ratio of the delivery V _FB) It can be formed by a feedback voltage detection unit 600 for the input unit.

The analog dimming signal ADIM controls the current flowing through the LED channel by changing the feedback voltage V _FB by adjusting the LED channel voltage V _LED to change the luminance of the individual LEDs Signal.

The voltage ratio assigning unit 100 is formed of a first AOT 110 that receives the output of the analog dimming signal delay unit 700 and receives the feedback voltage V _FB as a current and outputs a difference between them .

The analog dimming signal delay unit 700 receives the analog dimming signal ADIM and receives the analog dimming signal ADIM. The analog dimming signal delay unit 700 includes a second AOT 710 formed by connecting a negative input terminal and an output terminal, and a node connected to an output terminal and a negative input terminal of the second AOT A first capacitor 720 may be formed.

The first capacitor 720 limits the output of the second OTA 710 to abruptly change even if there is a sudden change in the input analog dimming signal ADIM so that the output of the voltage ratio issuing unit 100 is short- As shown in Fig.

The LED channel voltage generator 300 includes a PWM controller 340 receiving the output of the voltage ratio generator 100 and generating a pulse having a duty corresponding thereto, And a boost converter 350 that supplies an output voltage to the LED channel.

At this time, the PWM controller 350 increases the ON time of the switching pulse when the output of the voltage ratio distributing unit 100 increases to the (+) value, and the output of the voltage ratio distributing unit 100 becomes the negative And may be operated to decrease the on time of the switching pulse.

That is, when a difference between the output of the analog dimming signal delay unit 700 and the feedback voltage V _FB occurs, the LED channel voltage generation unit 300 generates the LED channel voltage (the output voltage of the boost converter 350) V _LED ) to eventually operate to reduce the difference between the output of the analog dimming signal delay portion and the feedback voltage (V _FB ).

The PWM dimming control unit 500 may include a second switching device (M _DIM ) 510 receiving the PWM dimming signal PDIM and adjusting a current flowing through the LED channel. At this time, PWM dimming signal (PDIM), the second switching element (M _DIM) (510) on the current passing through the LED channel 400 by changing the duty ratio (duty) of the pulse input to the off-time (On / OFF-Time), thereby changing the brightness of the individual LEDs.

The feedback voltage detector 600 may include a feedback voltage detection resistor R _FB 620 located between the PWM dimming controller 500 and ground.

Hereinafter, the voltage ratio control unit 100, the short circuit determination unit 200, the LED channel voltage generation unit 300, the PWM dimming control unit 500, the feedback voltage detection unit 600, and the analog dimming signal The elements that can be respectively applied to the delay unit 700 will be described in detail.

As described above, the analog dimming signal delay unit 700 may be formed of a second AOT 710 and a first capacitor 720 that adjust the response speed of the analog dimming signal ADIM to input to the first AOT, The voltage ratio predicting unit 100 may be formed of a first AOT 110 for transmitting a voltage level comparison value between the output of the analog dimming signal delay unit and the feedback voltage V _FB to the PWM controller. The LED channel voltage generator 300 includes a PWM controller 340 receiving a voltage level comparison value of the first AOT 110 and generating a pulse having a duty corresponding thereto, And a boost converter 350 that receives a pulse and generates an LED channel voltage (V _LED ). The PWM dimming signal controller 500 receives the PWM dimming signal PDIM and controls the current flowing through the LED channel And a second switching device (M _DIM ) The LED channel 400 may include a plurality of LEDs arranged in series and the feedback voltage detector 600 may include a feedback voltage detection resistor R _FB 620 between the PWM dimming controller 500 and ground. ).

The first AOT 110 compares the level of the analog dimming signal delayed by the positive input response, that is, the voltage level of the output signal of the analog dimming signal delay unit, with the level of the feedback voltage V _FB input thereto, (340).

The first AOT 110 outputs a difference between the output voltage of the analog dimming signal delay unit and the feedback voltage V _FB inputted thereto as a current. As a result, the output terminal voltage of the first AOT 110 changes, When the sensing unit 200 detects a change in the output terminal voltage of the first AOT 110 and falls below the short detection level, it is determined that a short circuit has occurred in the LED channel.

The feedback voltage V _FB may be the source voltage of the second switching device M _DIM 510 in the PWM dimming signal controller 500 and may be detected by a feedback voltage detection resistor R _FB 620 And may be input to the negative input terminal of the first AOT 110.

The analog dimming signal ADIM adjusts the current flowing through the LED channel 400 by changing the feedback voltage V _FB by adjusting the LED channel voltage V _LED which is the output terminal voltage of the boost converter 340, And may be a voltage signal for changing the brightness of the LED.

For example, when the LED channel 400 is short, the drain terminal voltage V _{D of} the second switching device M _DIM 510 rises by the positive bias voltage V _F across the one LED, that is, this is proportional to the feedback voltage (V _FB) also increases driver for stepping down the output voltage of LED channels voltage (V _LED) of the bar, the boost converter 340 is inputted to the first 1OTA (110) direction .

Therefore, when the LED channel 400 is short, the feedback voltage V _FB rises and is input to the first AOT 110. The difference between the feedback voltage V _FB and the analog dimming signal ADIM becomes large The output terminal voltage value of the first AOT 110 is lowered so that the duty of the pulse generated by the PWM controller 340 is reduced and the LED channel voltage V _LED is stepped down.

At this time, when the LED channel voltage V _LED is stepped down, the drain end voltage V _D and the feedback voltage V _{FB of} the second switching device M _DIM 510 are also lowered, The operation continues until the level of the dimming signal ADIM becomes equal to the level of the feedback voltage V _FB so that the LED maintains the luminance corresponding to the analog dimming signal ADIM.

If the LED channel voltage V _LED is excessively reduced and the level of the feedback voltage V _FB becomes lower than the analog dimming signal ADIM, the output current of the first AOT 110 increases to + The output voltage of the first OTA 110 becomes high. At this time, the duty of the pulse generated by the PWM controller 340 is increased to increase the LED channel voltage (V _LED ), thereby realizing a feedback operation for raising the feedback voltage (V _FB ) level.

For reference, a second capacitor 210, a third capacitor 220 and a first resistor 230 may be formed at a node between the first AOT 110 and the PWM controller 340, Can be added to improve.

The PWM controller 340 receives the output voltage of the first AOT 110 and generates a pulse having a duty corresponding thereto. That is, the PWM controller 340 may generate a pulse having a duty corresponding to the first OTA output terminal voltage level due to the level difference between the analog dimming signal delayed in response speed and the feedback voltage (V _FB ).

The PWM controller 340 increases the ON time or duty of the switching pulse when the output current of the first AOT 110 increases to a positive value and increases the output time of the output current of the first AOT 110 It is operated to decrease the ON time or the duty of the switching pulse.

That is, when the feedback voltage V _FB rises and becomes larger than the analog dimming signal ADIM, the output current of the first AOT 110 rises to a negative value, so that the PWM controller 340 sets the duty of the switching pulse to And to reduce the LED channel voltage (V _LED ), which is the output voltage of the boost converter 350. [ By comparison of the feedback voltage (V _FB) to the value of lowering it becomes smaller than the value of the analog dimming signal (ADIM), the output current of the PWM controller 340 to increase the (+) value of the 1OTA (110) is a duty of the switching pulse To increase the LED channel voltage (V _LED ), which is the output voltage of the boost converter (350).

Thus, the PWM controller 340 to increase or decrease the LED channel voltage (V _LED) using the output current and a resulting variation of the 1OTA output voltage value of the 1OTA (110), the feedback voltage (V _FB), The brightness of the individual LEDs can be kept constant by adjusting the level of the analog dimming signal ADIM to be equal to the level of the analog dimming signal ADIM. The user of the LED driver may also adjust the brightness of the individual LED by changing the level of the analog dimming signal ADIM and inputting it to the LED driver.

The LED channel voltage V _LED may be the output voltage of a boost converter 340 generated by the pulse generated by the PWM controller 340. That is, the LED channel voltage (V _LED ) is stepped up or stepped down by the switching operation by the pulse generated by the PWM controller 340, and its magnitude can be adjusted by the pulse width.

As described above, in the present invention, a boost converter may be employed to apply the LED channel voltage (V _LED ). An inductor L and a diode D are connected in series to the input power supply V _DD , The diode D, the fourth capacitor 320 and the LED channel are connected in parallel with each other. A first switching device (M _BST ) 310 is connected to a connection node between the inductor L and the diode D.

The first switching device (M _BST ) 310 may be formed of a MOSFET and may function as a switch by adjusting a gate voltage. The first switching device M _BST 310 receives a pulse generated by the PWM controller 340 as a gate, .

When the first switching device M _BST 310 is turned on by the pulse of the PWM controller 340, the current supplied from the input power supply V _DD flows through the inductor L and the switch S, And energy is stored in the inductor (L).

In contrast, when the first switching device (M _BST ) 310 is off, the sum of the energy stored in the input power supply (V _DD ) and the inductor (L) passes through the diode (D) (400). At this time, the voltage delivered to the LED channel 400 is smoothed and transmitted by the fourth capacitor 320, and the value thereof is greater than or equal to the input voltage V _DD .

Although a case where a boost converter is employed in the present invention has been described above, the present invention is not limited thereto, and it is also possible to use a Buck type converter according to the necessity of the invention.

Meanwhile, the second switching device (M _DIM ) 510 receives a predetermined PWM dimming signal (PDIM) and adjusts the current flowing through the LED channel to adjust the luminance of the individual LEDs. In addition, the second switching device (M _DIM ) 510 may be formed of a MOSFET and may perform a switch function by adjusting a gate voltage.

The PWM dimming signal PDIM changes the duty of the pulse input to the second switching device M _DIM so that the ratio of the on / off time of the current flowing through the LED channel The brightness of the individual LEDs can be changed.

That is, the PWM dimming signal PDIM may block or allow the current flowing from the series-connected LEDs to the feedback voltage detection resistor R _FB by turning ON the switching pulse, thereby adjusting the brightness of the individual LEDs It can be said that it plays a role.

The second AOT 710 of the analog dimming signal delay unit 700 may function as a buffer by connecting a negative input terminal and an output terminal of the second AOT 710 to a connection between a negative input terminal and an output terminal of the second AOT 710. [ The second OTA output response speed is delayed by the first capacitor 720 connected to the node.

That is, a response speed of the analog dimming signal ADIM inputted to the second AOT 710 is adjusted and inputted to the first AOT 110. Thus, the second AOT 710 and the first capacitor 720 adjust the response speed of the analog dimming signal ADIM so as to smoothly change the output of the first AOT 110 even if the analog dimming signal ADIM is abruptly changed By adjusting, it prevents error of LED channel short circuit detection.

As described above, the analog dimming signal ADIM changes at a relatively short time according to the user's selection, but the feedback voltage V _FB is not changed after a certain time by the feedback operation of the LED driver, ). ≪ / RTI >

That is, when there is no analog dimming signal delay unit 700, the difference between the analog dimming signal ADIM and the feedback voltage V _FB is large at the instant when the analog dimming signal ADIM is changed, If the difference between the analog dimming signal (ADIM) and the feedback voltage (V _FB ) is not large, short-circuit detection is not performed.

Therefore, even if the analog dimming signal ADIM is abruptly changed by employing the second AOT 710 and the first capacitor 720, the response speed of the analog dimming signal ADIM is delayed and involved in the feedback operation, The level difference between the analog dimming signal ADIM and the feedback voltage V _FB can be kept small so that errors caused by sudden changes in the analog dimming signal ADIM to be determined as short can be eliminated.

FIG. 6 is a graph illustrating a change in an LED channel voltage, a feedback voltage, an output signal of an analog dimming signal delay unit, and an output signal of a voltage comparator according to a variation of an analog dimming signal according to an exemplary embodiment of the present invention.

The analog dimming signal delay unit 700 may include a second AOT 710 and a first capacitor 720 to prevent the analog dimming signal delay unit 700 from malfunctioning due to a short circuit detection error. A circuit for delaying the response speed can be implemented.

That is, even if the input analog dimming signal ADIM is sharply reduced, the analog dimming signal ADIM having the feedback response speed delayed by the second AOT 710 and the first capacitor 720 is input to the first AOT 110 Thereby preventing the first OA output voltage value due to the difference between the analog dimming signal (ADIM) and the feedback voltage (V _FB ) from falling to the short detection level (Low Detect Level), thereby preventing malfunction of the driver due to short- (See Fig. 6 (b)).

6A, even if the analog dimming signal ADIM input to the second AOT 710 rapidly decreases, the second AOT 710 delays the falling edge timing of the analog dimming signal ADIM The output voltage of the first AOT 110 is prevented from dropping to the short detection level.

The second AOT 710 may function as a buffer to form a connection between a negative input terminal and an output terminal and may include a first capacitor 720 added to a node to which a negative input terminal and an output terminal of the second AOT 710 are connected, The response speed of the second OTA output is delayed.

The analog dimming signal ADIM having the delayed response speed is input to the first AOT 110 and is involved in the feedback operation of the LED driver together with the feedback voltage V _FB .

As described above, according to the present invention, it is possible to provide an LED driver structure capable of ensuring excellent power efficiency and securing stability of a circuit by preventing a short detection error by adjusting the response speed even when the analog dimming signal (ADIM) There is an advantage.

Although the present invention has been described in connection with the specific embodiments of the present invention, it is to be understood that the present invention is not limited thereto. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents. Various modifications and variations are possible.

100: voltage ratio issuance 110:
200: short circuit determination unit 210: second capacitor
220: third capacitor 230: first resistance
300: LED channel voltage generator 310: first switching element
320: fourth capacitor 330: LED channel voltage
340: PWM controller 350: Boost converter
400: LED channel 500: PWM dimming control unit
510: second switching element 600: feedback voltage detector
610: Feedback voltage 620: Feedback voltage detection resistance
700: analog dimming signal delay unit 710: second AOT
720: first capacitor

Claims (11)

An analog dimming signal delay unit for adjusting and outputting a response speed of the analog dimming signal (ADIM);
A voltage ratio control unit for receiving an output of the analog dimming signal delay unit, receiving a feedback voltage (V _FB ), comparing the voltage levels of the analog voltage and the analog voltage, and outputting the comparison result;
A short-circuit determining unit for determining that a short-circuit occurs in the LED channel if the output of the voltage comparator is measured to be less than a predetermined short detection level;
LED channel to supply surface by reducing the LED channel voltage (V _LED) - supplied by increasing the LED channel voltage (V _LED), the output unit compares the voltage supplied to the LED channel side (+) and the voltage comparison unit outputs () A voltage generator;
A PWM dimming control unit for turning on / off a current flowing through the LED channel; And
A feedback voltage detector for inputting a feedback voltage (V _FB ) corresponding to a current flowing through the LED channel to the voltage ratio issuing unit;
/ RTI > The apparatus of claim 1, wherein the analog dimming signal delay unit comprises:
A second AOT (Operational Transconductance Amplifier) receiving the analog dimming signal (ADIM) and having a negative input terminal and an output terminal connected to each other; And
A first capacitor connected to a node connected to an output terminal and a negative input terminal of the second OTA;
And an LED driver for driving the LED driver. The plasma display apparatus of claim 2, wherein the first capacitor comprises:
The output of the voltage comparator is prevented from dropping to the short detection level by restricting the abrupt change of the output of the second AOT even if the input analog dimming signal (ADIM) fluctuates. The apparatus of claim 1,
And a first AOT (Operational Transconductance Amplifier) for receiving the output of the analog dimming signal delay unit and receiving the feedback voltage (V _FB ) as a current and outputting a difference between them. The LED lighting device according to claim 1,
A PWM controller (Pulse Width Modulation Controller) receiving the output of the voltage comparator and generating a pulse having a duty corresponding thereto; And
A boost converter for supplying an output voltage generated by the pulse generated by the PWM controller to the LED channel;
And an LED driver for driving the LED driver. 6. The PWM controller according to claim 5,
The on time of the switching pulse is increased when the output of the voltage comparator increases to the positive value and the on time of the switching pulse is decreased when the output of the voltage comparator is increased to the negative value And the LED driver operates. The LED lighting device according to claim 1,
When the difference between the output of the analog dimming signal delay unit and the feedback voltage V _FB occurs, the LED channel voltage V _LED is raised or lowered to change the difference between the output of the analog dimming signal delay unit and the feedback voltage V _FB Wherein the LED driver is a diode. The apparatus of claim 1, wherein the PWM dimming control unit comprises:
And a second switching device (M _DIM ) receiving the PWM dimming signal (PDIM) and adjusting the current flowing through the LED channel. 9. The method of claim 8, wherein the PWM dimming signal (PDIM)
Off time (On / Off-Time) of the current (Current) flowing through the LED channel by changing the duty of the pulse input to the second switching device M _DIM , And the brightness signal is a pulse signal for changing the brightness. The apparatus of claim 1, wherein the feedback voltage detector comprises:
And a feedback voltage detection resistor (R _FB ) located between the PWM dimming control part and the ground. 2. The apparatus of claim 1, wherein the analog dimming signal (ADIM)
_Wherein the LED driver is a voltage signal that changes the brightness of the individual LEDs by adjusting a current flowing through the LED channel by adjusting the LED channel voltage (V _LED ) to change the feedback voltage (V _FB ).

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