KR100782652B1 - A protective device and a ccfl driving system used thereon - Google Patents

Abstract

A protective device and a CCFL driving system used thereon are provided to simplify a protective circuit so as to protect plural CCFLs when the protective device operates in a multi CCFL system. A protective device(5) includes a short detecting circuit, a rectifying diode, a first charge capacitor, an open detecting circuit, and a lighting voltage control circuit. The short detecting circuit receives a high AC power in a high-voltage terminal of a CCFL(3) and outputs a short-circuit protection signal to a control circuit(1) when the CCFL has a short circuit. The rectifying diode rectifies the high AC power to output a high DC power. The first charge capacitor generates a detection voltage on the basis of the high DC power. The open detecting circuit outputs an open-circuit protection signal to the control circuit when the detection voltage is larger than a threshold voltage. The light voltage control signal receives the detection voltage and outputs an overvoltage protection signal to the control signal.

Description

PROTECTIVE DEVICE AND A CCFL DRIVING SYSTEM USED THEREON}

1 is a schematic diagram of a CCFL drive system of the present invention;

2 is a schematic circuit used in the CCFL driving system of the first preferred embodiment of the present invention;

3 is a circuit block diagram of a CCFL driving system of a second preferred embodiment of the present invention;

4 is a detailed circuit of a second preferred embodiment of the present invention;

5 is a detailed circuit of the multi-CCFL system of the present invention;

6 shows a schematic diagram of a protection device used in a CCFL drive system.

The present invention relates to a protection device and a CCFL drive system in which the protection device is used, and more particularly to a protection signal output to the control circuit in accordance with the high AC power detected at the high voltage terminal of the CCFL of the claimed system. The output protection signal is used to protect the control circuit, the CCFL protection device and the CCFL drive system.

Cold Cathode Fluorescent Lamps (CCFLs) are used as light sources for backlight modules in LCD panels. The CCFL is driven by a drive such as an inverter. As the progress of technology development and consumer demand increases the size of LCD panels, it is common to use two or more CCFLs to illuminate the panels.

In general, an inverter set can reveal only one or two CCFLs, but when used in a large LCD panel or a large TV LCD screen, more inverters are required to drive multiple CCFLs. Correspondingly, a plurality of protection circuits are required to protect the inverter and the CCFL. Similarly, the cost for manufacturing LCD panels also increases. In addition, the structure of the conventional protection circuit is complicated and the circuit is becoming more and more complicated.

Unlike the prior art described above, the present invention provides a protective device and a CCFL drive system, which protects against the above mentioned disadvantages. The claimed invention utilizes the high AC power of the high voltage terminals of the CCFLs for protection in open / short and lighting voltage limited conditions. In addition, the claimed invention provides adequate protection if the CCFL is broken.

The protection device of the present invention has a short circuit detection circuit, a rectifier diode, a first charging capacitor, an open detection circuit and an illumination voltage limit circuit. In the protection device, the short-circuit detection circuit is connected to the high terminal and the power supply of the CCFL through a step-down capacitor, and receives a high AC power so that a short-circuit protection signal is sent to the control circuit if a short circuit condition occurs in the CCFL. Output; The rectifier diode is connected to the high terminal of the CCFL through a step-down capacitor and rectifies high AC power to output high DC power; The first charging capacitor is connected to the rectifying diode and generates a detection voltage based on the high DC power; The open detection circuit is connected to the first charging capacitor and has a threshold, and outputs an open circuit protection signal to the control circuit if the detected voltage is greater than the threshold; The lighting voltage limiting circuit is connected to the first charging capacitor, receives the detection voltage, and outputs an overvoltage protection signal to the control circuit.

CCFL driving system of the present invention has a lamp current equalizer, lighting voltage limiting circuit, open detection circuit, short circuit detection circuit, overload detection circuit, brightness control circuit, current detection circuit and on / off control device, CCFL driving system of LCD panel The transformer drives multiple CCFLs simultaneously using an active electronic stabilizer or a DC / high frequency AC converter.

The foregoing and many advantages of the present invention will be more fully appreciated with reference to the following detailed description taken in conjunction with the accompanying drawings, and likewise better understood.

The invention is illustrated by the preferred embodiments and the accompanying drawings. However, the present invention is not limited thereto.

1, a schematic diagram of a Cold Cathode Fluorescent Lamp (CCFL) drive system in accordance with the present invention is shown. The CCFL drive system comprises the control circuit 1, the CCFL 3 and the protection device 5 of the claimed invention. The protection device 5 outputs various protection signals to the control circuit 1 when the CCFL 3 fails, and at the same time the control circuit can protect the CCFL 3 itself according to the various protection signals.

Fig. 2 shows a circuit block diagram of the CCFL drive system of the first preferred embodiment. In the first embodiment, the protection device 5 uses the short circuit detection circuit 501, the rectifier diode 506, the first charging capacitor 507, the open detection circuit 502, and the illumination voltage limit circuit 503. Have

Referring again to FIG. 2, the short circuit detecting circuit 501 of the protection device 5 is connected to the high terminal of the CCFL 3 and the power supply Vcc through a step-down capacitor 509. When the high terminal of the CCFL 3 receives high AC power AC and a short circuit occurs in the CCFL 3, the short detection circuit 501 outputs the short circuit protection signal S1 to the control circuit 1. .

In addition, the rectifying diode 506 is connected to the high terminal of the CCFL 3 through the step-down capacitor 509, the rectifying diode 506 is used to rectify the high AC power (AC), high DC power (DC ) The first charging capacitor 507 is connected to the rectifying diode 506, and the first charging capacitor 507 generates a detection voltage based on the high DC power. The open detection circuit 502 is connected to the first charging capacitor 507 and the control circuit 1. The open detection circuit 502 has a threshold, and the open detection circuit 502 outputs the open circuit protection signal S2 to the control circuit 1 when the detection voltage is larger than the threshold. The lighting voltage limiting circuit 503 is connected to the first charging capacitor 507 and the control circuit 1. In addition, the illumination voltage limiting circuit 503 receives the detection voltage and outputs the overvoltage protection signal S3 to the control circuit 1.

In FIG. 2, the protection device 5 further has an overload detection circuit 504 and a current detection circuit 505. The overload detection circuit 504 outputs the overload protection signal S4 to the control circuit 1 in response to the current flowing in the CCFL 3. The current detection circuit 505 outputs the power adjustment signal S5 to the control circuit 1 in response to the current flowing through the CCFL 3. Further, the signals S1, S2, S3, S4 and S5 as described above are short circuit detection circuit 501, open detection circuit 502, and illumination voltage limit circuit 503 of the protection device 5 of the present invention. ), And are output from the overload detection circuit 504 and the current detection circuit 505, and are transmitted to the control circuit 1 through a photoelectric coupler (not shown) or a PCB cooper-foil (not shown).

In light of FIG. 2, referring to FIG. 3, which shows a second embodiment of the present invention showing a circuit block diagram of a CCFL drive system, in comparison with the first preferred embodiment, the protection device 5 of the second preferred embodiment is shown in FIG. Further includes a signal hybrid circuit 508. The signal hybrid circuit 508 is connected to the control circuit 1 and a contact between the short detection circuit and the open detection circuit. Next, the signal hybrid circuit 508 receives the short circuit protection signal S1 and the open circuit protection signal S2 and outputs the open / short circuit protection signal S6 to the control circuit 1. In the second embodiment of the present invention, signals such as the above-described signals S3, S4, S5 and S6 are applied to the lighting voltage limiting circuit 503, the overload detection circuit 504, the current detecting circuit of the protection device 5 ( 505 and signal hybrid circuit 508, and may be delivered to control circuit 1 via a photoelectric coupler (not shown) or a PCB cooper-foil (not shown).

Referring to the second preferred embodiment shown in FIG. 4 in the light of FIG. 3, the short circuit detection circuit 501 includes a transistor Q1, a second charging capacitor C5, a charging resistor R1, and a first forward diode D1. ). Transistor Q1 has an emitter, a collector and a base, the emitter is connected to the high terminal of CCFL 3, the base is connected to the reference terminal G, and the second charging capacitor C5 is connected to the reference terminal ( G) and the collector of transistor Q1, charge resistor R1 is connected to the power supply Vcc and the collector of transistor Q1, and the first forward diode D1 is connected to the collector of transistor Q1. do.

In the above-described transistor Q1 of the short circuit detecting circuit 501, the CCFL 3 is turned off when the short circuit occurs, and at the same time, the power supply Vcc charges the second charging capacitor C5 through the charging resistor R1. Since the voltage lowered in the second charging capacitor C5 is greater than the conducting voltage Vp of the first forward diode D1, the short circuit detecting circuit 501 outputs the short circuit protection signal S1 to the signal hybrid circuit. To 508.

Referring to FIG. 4, the open protection circuit 502 includes a second forward diode D8 and a zener diode ZD1. 4 shows that the second forward diode D8 is connected to the first charging capacitor 507 to receive the lowered detection voltage at the first charging capacitor 507. Also, since the zener diode ZD1 is connected to the second forward diode D8 and the detected voltage is greater than the conduction threshold of the zener diode ZD1, the open circuit protection signal S2 is output to the signal hybrid circuit 508. do. The illumination voltage limiting circuit 503 shown in FIG. 4 includes a third forward diode D9 and a voltage divider consisting of a series connection of a first resistor R5 and a second resistor R6. The voltage divider is connected to the first charging capacitor 507 to divide the detected voltage. The third forward diode D9 is connected to the contact of the first resistor R5 and the second resistor R6, and the lighting voltage is limited when the voltage applied to the contact is greater than the conduction voltage of the third forward diode D9. The circuit 503 outputs the overvoltage protection signal S3 to the control circuit 1.

Referring to FIG. 4 in light of FIG. 3, the signal hybrid circuit 508 consists of a coupling capacitor C12, resistors R8 and R9 and a MOS switch Q4. In addition, the overload detection circuit 504 is composed of the connection diode D7 and the resistor R4, and the current detection circuit 505 is composed of the connection resistor R7 and the diodes D10 and D11.

Reference is made to FIG. 5, which shows a detailed circuit schematic of the multi-CCFL system of the present invention. The protection device 5 of the present invention is operated in a multi-CCFL system, each CCFL (3) is the first charging capacitor 507, the open detection circuit 502, the lighting voltage limiting circuit 503, the overload detection circuit ( 504 and the current detection circuit 505 are used simultaneously. However, each CCFL 3 also needs to be connected to a short detection circuit 501, a step down capacitor 509 and a rectifying diode 506. Each short detection circuit 501 is connected to a high terminal of each CCFL 3 and a power supply Vcc through a step down capacitor 509, and each rectifier diode 506 is connected to each step down capacitor 509. Is connected to the high terminal of each CCFL (3).

Referring to FIG. 6 in light of FIG. 2, FIG. 6 shows a schematic diagram of a CCFL drive system in which the protection device 5 is incorporated. The present invention further provides the illustrated CCFL drive system in which the protection device 5 is used, which provides a protection device 5, a lamp current equalizer 8, a brightness regulating circuit 6 and on / off control. Device 7. The protection device 5 also has an illumination voltage limiting circuit 503, an open detection circuit 502, a short circuit detection circuit 501, an overload detection circuit 504, and a current detection circuit 505. In the present embodiment, the CCFL drive system drives the plurality of CCFLs 3 through the transformer 4 further using an active electronic stabilizer 2 or a DC / high frequency AC converter (not shown).

The lamp current equalizer 8 described above is connected to both terminals of the CCFL 3. One end of the CCFL 3 is an inductive element, and the other end is a capacitive element. In addition, the sources of the signals detected by the illumination voltage limiting circuit 503, the open detecting circuit 502 and the short detecting circuit 501 are the same. The signal detected by the overload detection circuit 504 and the signal detected by the illumination voltage limiting circuit 503 are mixed, and after mixing, a specific signal is returned to the active electronic stabilizer 2 through a feedback line (not shown). Lose. Each CCFL 3 also has a dedicated illumination voltage limiting circuit 503.

The on / off control device 7 described above may be a transistor or a photoelectric coupler. The current detection circuit 505 is used to detect the electrical signal of the CCFL 3, and the electrical signal is sent back to the active electronic stabilizer 2 through a feedback line (not shown) to regulate the load power. The overload detection circuit 504 is used to detect the current flowing in the load, the terminal voltage of the load or the resistance of the load.

From the above, the feedback line is formed of a photoelectric coupler or a PCB copper foil, and the signal detected by the overload detection circuit 504 and the signal detected by the illumination voltage limiting circuit 503 are each an active electronic stabilizer through the feedback line. It is sent back to (2).

In summary, when the protective device 5 operates in a multi-CCFL system, the present invention provides a simplified circuit for protecting a plurality of CCFLs. Therefore, the protection device 5 of the present invention effectively improves the conventional scheme using many protection circuits to protect the inverter and CCFL of the multi-CCFL system. The disadvantage of the conventional approach is that

1. High cost in LCD panel manufacturing

2. complex design of the protection circuit and

3. More difficult layout of the circuit

It includes.

Although the invention has been described by the accompanying drawings and detailed description of specific embodiments, various modifications and changes may be made by those skilled in the art without departing from the scope and spirit of the invention as set forth in the claims.

Claims (28)

As a protection device used in the CCFL drive system, and used to protect the control circuit and CCFL of the CCFL drive system, (a) connected to a high terminal of the CCFL and a power supply through a step-down capacitor, receiving high AC power at the high terminal of the CCFL, and outputting a short circuit protection signal to the control circuit in the event of a short to the CCFL; Short circuit detection circuit; (b) a rectifier diode connected to the high terminal of the CCFL through a step-down capacitor and rectifying high AC power to output high DC power; (c) a first charging capacitor coupled to the rectifying diode and generating a detection voltage based on the high DC power; (d) an open detection circuit connected to the first charging capacitor and having a threshold and outputting an open circuit protection signal to the control circuit when the detected voltage is greater than the threshold; And and (e) an illumination voltage limiting circuit connected with said first charging capacitor to receive said detection voltage and outputting an overvoltage protection signal to said control circuit. The method according to claim 1, And a signal hybrid circuit coupled to the control circuit and a contact between the short detection circuit and the open detection circuit, wherein the signal hybrid circuit receives both the short circuit protection signal and the open circuit protection signal to open. And a short circuit protection signal output to the control circuit. The method according to claim 2, And the signal hybrid circuit outputs the open / short circuit protection signal to the control circuit via a photoelectric coupler or a PCB copper foil. The method according to claim 1, And an overload detection circuit for outputting an overload protection signal to the control circuit in response to a current flowing in the CCFL. The method according to claim 4, And the overload detection circuit outputs the overload protection signal to the control circuit via a photoelectric coupler or a PCB copper foil. The method according to claim 4, And a current detection circuit outputting a power adjustment signal to the control circuit in response to a current flowing in the CCFL. The method according to claim 6, And the current detection circuit outputs the power regulation signal to the control circuit via a photoelectric coupler or a PCB copper foil. The method according to claim 2, And an overload detection circuit for outputting an overload protection signal to the control circuit in response to a current flowing in the CCFL. The method according to claim 8, And the overload detection circuit outputs the overload protection signal to the control circuit via a photoelectric coupler or a PCB copper foil. The method according to claim 8, And a current detection circuit outputting a power adjustment signal to the control circuit in response to a current flowing in the CCFL. The method according to claim 10, And the current detection circuit outputs the power regulation signal to the control circuit via a photoelectric coupler or a PCB copper foil. The method according to claim 1, And the short detection circuit outputs the short circuit protection signal to the control circuit through a photoelectric coupler or a PCB copper foil. The method according to claim 1, And the open detection circuit outputs the open circuit protection signal to the control circuit via a photoelectric coupler or PCB copper foil. The method according to claim 1, And the illumination voltage limiting circuit outputs the overvoltage protection signal to the control circuit via a photoelectric coupler or a PCB copper foil. The method of claim 1, wherein the short circuit detection circuit, (a) a transistor having an emitter, a collector connected to the high terminal of the CCFL, and a base connected to the reference terminal; (b) a second charging capacitor connected to a reference terminal and a collector of the transistor; (c) a charge resistor coupled to the power supply and a collector of the transistor; (d) a first forward diode coupled to the collector of the transistor, The transistor is turned off when a short circuit occurs in the CCFL, the power source charges the first charging capacitor through the charging resistor, and outputs the short circuit protection signal when the first forward diode is on. The method according to claim 1, The open detection circuit, (a) a second forward diode coupled to the first charging capacitor to receive the detection voltage; (b) a Zener diode coupled to the second forward diode, the Zener diode being on when the detected voltage is greater than the conduction threshold of the Zener diode, causing the open circuit protection signal to be output to the control circuit. Said, protection device. The method according to claim 1, The illumination voltage limit circuit, (a) a voltage divider connected to the first charging capacitor to divide the detected voltage and formed by a series connection of a first resistor and a second resistor; (b) a third forward diode coupled to the contacts of the first and second resistors to output the overvoltage protection signal to the control circuit. CCFL drive system of the protection device according to claim 1, Lamp current equalizer, lighting voltage limiting circuit, opening detection circuit, short circuit detection circuit, overload detection circuit, brightness adjustment circuit, current detection circuit, and on / off control device, The CCFL drive system of an LCD panel drives a plurality of CCFLs simultaneously using an active electronic stabilizer or a DC / high frequency AC converter via a transformer. The method according to claim 18, The lamp current equalizer is connected to both terminals of the CCFL, one end of which is an inductive element and the other terminal of which is a capacitive element. The method according to claim 18, And a source of a signal detected from said illumination voltage limiting circuit, said open detecting circuit and said short detecting circuit is the same. The method according to claim 18, And signals detected from the overload detection circuit and the illumination voltage limiting circuit are mixed such that after mixing the signals are passed to the control circuit via a feedback line. The method according to claim 18, Each CCFL has a dedicated lighting voltage limiting circuit. The method according to claim 18, And the on / off control device is a transistor or a photocoupler. The method according to claim 18, The current detection circuit is used to detect an electrical signal of the CCFL, the electrical signal being sent back to the control circuit via a feedback line such that the power of the load is regulated. The method according to claim 18, And the overload detection circuit is used to detect the current flowing through the load, the terminal voltage of the load, or the resistance of the load. The method according to claim 21 or 24, And the feedback line consists of an optoelectronic coupler or a PCB copper foil. The method according to claim 18, And a signal detected by the overload detection circuit and the signal detected by the illumination voltage limiting circuit are returned to the control circuit through a feedback line. The method according to claim 18, And the control circuit is an active electronic stabilizer or a DC / high frequency AC converter.

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