KR20030031658A - Circuit and Method for Protecting Plasma Display Panel Module - Google Patents

Abstract

PURPOSE: A circuit for protecting a PDP module and a method thereof are provided to determine a change in alternating current power of a first side power part in advance, and accordingly control power supply of a second power part and a PDP panel in order, thereby stably protecting the PDP panel. CONSTITUTION: A first side power part(10) receives common alternating power for generating a predetermined constant voltage. A second side power part(20) receives the constant voltage generated from the first side power part for generating driving voltage of a PDP(Plasma Display Panel) module(30) of a PDP TV. A detecting part(40) receives the constant voltage generated from the first side power part for detecting a change of the constant voltage. A control part(50) outputs control signals to the PDP module and the second side power part.

Description

PD module protection circuit and its method {Circuit and Method for Protecting Plasma Display Panel Module}

The present invention relates to a PD TV, and more particularly, to a PD module protection circuit and a method of PD PD.

In general, the plasma display panel (PDP) TV can be manufactured considerably thinner than the conventional CRT (Cathode Ray Tube) due to its structural characteristics, and at the same time, it has excellent luminance characteristics compared to LCD (Liquid Crystal Display), so it is a technical requirement as a TV. In addition, its excellent layout characteristics, such as wall installation, have attracted much attention as the next generation TV.

However, since the PD module protection circuit is required for stable power supply during PD operation, control of the power-related configuration is becoming one of the technical requirements for commercialization of PD TV.

Referring to Figure 1, the PD module protection circuit according to the prior art will be described.

The PD module protection circuit according to the related art receives the PD module 3, a primary side power supply unit 1 for receiving a predetermined AC voltage from the outside, and generates a predetermined constant voltage, and receives a constant voltage from the primary side power supply unit 1. 5V and 15V power supply for converting the operation power of the control circuit for controlling the module driving, Va power supply for receiving the constant voltage and transforming the drive power for driving the address electrode of the PD module, and receives the constant voltage Secondary power supply unit (2) consisting of the Vs, Vsc, Vsetup power supply for converting the sustain electrode, the scan electrode drive power supply and the drive power for the setup of the PD module, the 5V, 15V, Va, Vs, Vsc, Vsetup power supply A detection unit 4 for detecting whether the secondary power supply unit 2 is changed in power by receiving one of the output powers and comparing it with a reference voltage; And a controller 5 for controlling the secondary side power unit 2 and the PD module 3 according to whether the secondary side power unit 2 detected by the unit 4 is changed in power.

In the prior art configured as described above, first, the AC power is transformed into a predetermined constant voltage through the primary side power supply unit 1 to supply the necessary power to the PD module 3, and the secondary side power supply unit 2 is connected to the primary side. The constant voltage is input from the power supply unit 1 to supply power required by each component of the PD module 3.

In detail, the 5V and 15V power supply units of the secondary side power supply unit 2 receive a constant voltage from the primary side power supply unit 1, that is, the operating power of the control circuit for controlling the overall driving of the PD module 3, that is, Transformers are supplied to 5V and 15V power supplies to the PD module 3. The Va power supply unit receives the constant voltage and transforms and supplies the voltage to a driving power source for driving the address electrode of the PD module 3, and the Vs, Vsc, and Vsetup power supply units receive the constant voltage to supply the constant voltage of the PD module 3. It is supplied by transforming it into a driving power source for driving the sustain electrode and the scan electrode.

Here, when the power 'on' from the outside, for example, through the key panel of the PD TV and the remote control, the controller 5 recognizes the 'on' command and outputs a power sequence according to a preset control algorithm. Turn on each component of the secondary side power supply unit 2 and the PDP panel 3. At this time, the control unit 5 is a relay (not shown) inside the control unit 5-> 5V power supply-> 15V power supply-> Va power supply-> Vs, Vsc, Vsetup power supply-> PD module 3 The power sequence is output to be 'on' in the order of.

Similarly, when the power is 'off', the control unit 5 recognizes the 'off' command and in the reverse order to the 'on' control algorithm, ie PD module 3-> Vs, Vsc, Vsetup power supply. Output power sequence in order of supply part-> Va power supply part-> 15V power supply part-> 5V power supply part-> relay.

When an on / off signal is input from the outside, the controller 5 outputs a power sequence to the secondary power supply unit 2 and the PD module 3 according to the above-described control algorithm.

The detection unit 4 receives output power of a specific power supply unit among the secondary power supply unit 2, that is, 5V, 15V, Va, Vs, Vsc, and Vsetup power supply units, and compares it with a reference voltage to compare the secondary power supply unit ( Detect whether or not the power supply of 2) is changed

At this time, the controller 5 recognizes a power change of the secondary power supply unit 2 when the input power is different from the reference voltage. Then, without performing the off operation in accordance with the above-described control algorithm, the power sequence of the relay off is preferentially output to forcibly turn off the power state of the entire system.

Therefore, the secondary power supply unit 2 detects whether the power is changed or not, and forcibly controls the power-off operation of the system according to the detected power variation factor.

The PD module protection circuit according to the related art described above has the following problems.

First, since the power supply of the secondary side power supply is detected and the system power is forcibly turned off, the sequential power off sequence cannot be performed, resulting in damage to the PD module.

Second, since the power supply fluctuation of the primary side power supply is not detected, the PD module protection against the anxiety factor of the primary power supply is impossible.

The present invention has been made to solve the above problems of the prior art, an object of the present invention is to detect the power fluctuation of the primary side power supply unit by performing a sequential power off sequence to prevent the PD module damage circuit And a method thereof.

1 is a view showing the configuration of a PD module protection circuit according to the prior art

2 is a view showing the configuration of a PD module protection circuit according to the present invention

3 is a flowchart showing a method for protecting a PD module according to the present invention.

Explanation of symbols for main parts of the drawings

10: primary power supply 20: secondary power supply

21: 5V power supply 22: 15V power supply

23: Va power supply 24: Vs, Vsc, Vsetup power supply

30: PD module 40: detector

50: control unit

In the PD module protection circuit according to the present invention, in the PD TV provided with the PD module, a primary side power supply unit for receiving a predetermined AC voltage and generating a predetermined constant voltage, and receives a constant voltage generated from the primary side power supply unit to drive the PD module A secondary power supply unit for generating a voltage, a detection unit for receiving the constant voltage generated by the primary power supply unit for detecting whether the constant voltage fluctuates, and outputs a control signal to the PD module and the secondary power supply unit according to whether the constant voltage fluctuates It is configured to include a control unit for the feature.

And, in the PD module protection method according to the present invention, in the PD TV provided with the primary side power supply unit, the secondary side power supply unit and the PD module, measuring the constant voltage fluctuation of the primary side power supply unit, the constant voltage variation of the primary side power supply unit exists And the step of turning off the secondary side power supply and PD module is characterized.

Hereinafter, a PD module protection circuit and a method thereof according to the present invention will be described with reference to the accompanying drawings.

Referring to Figure 2, the PD module protection circuit according to the present invention will be described.

As shown, the PD module protection circuit according to the present invention is a PD TV having a PD module 30, the primary side power supply unit 10 for receiving a commercial AC power to generate a predetermined constant voltage, the primary power supply unit ( 10) to receive the constant voltage generated in the secondary side power supply unit 20 for generating the drive voltage of the PD module 30, the constant voltage generated by the primary power supply unit 10 is detected whether the constant voltage fluctuates The detection unit 40 is configured to include a control unit 50 for outputting a control signal to the PD module 30 and the secondary power supply unit 20 according to whether the constant voltage is changed.

In this case, since the secondary power supply unit 20 is the same as the conventional configuration described above, the configuration and operation description thereof will be omitted.

In the PD module protection circuit according to the present invention configured as described above, first, the primary side power supply unit 10 receives an AC power source, that is, a commercial AC power source from the outside to generate a predetermined constant voltage, and the secondary side power supply unit 20 is configured as 1 The constant voltage is input from the vehicle side power supply unit 10 to be transformed into a power required by each component of the PD module 30 and supplied.

In addition, the detector 40 receives the output power of the primary power supply unit 10 and detects whether the AC power is changed.

In this case, the AC power is compared with the reference power, and if there is a difference, a 'low' signal is output. If there is no difference, a 'high' signal is output to the controller 50.

The controller 50 controls the secondary power supply unit 20 and the PD module 30 according to whether the AC power supply of the primary power supply unit 10 output from the detection unit 40 is changed.

The protection method according to the PD module protection circuit operating as described above is as follows.

As shown in FIG. 3, first, when the PDTV is turned on, the controller 50 recognizes the ON signal and the above-described control algorithm, that is, relay (not shown)-> 5V power supply 21-> 15V. The power sequence is output in the order of the power supply unit 22-> Va power supply unit 23-> Vs, Vsc, Vsetup power supply unit 24-> PD module 30.

When the PDTV system is turned on and operated according to the control algorithm, the AC power of the primary power supply unit 10 is measured and compared with a reference voltage during system operation (S10).

Then, it is determined whether the AC power is different from the reference voltage (S11). If the AC power is different from the reference voltage (S11), that is, according to the control algorithm of the controller 50, that is, the PD module 30-> Vs, Vsc, Vsetup power supply unit 24-> Va power supply unit 23-> 15V power supply unit 22-> 5V power supply unit 21-> output the off sequence in the order of the relay (not shown) (S12) The PDTV is switched to the standby mode (Stand-By Mode).

In other words, when the AC power variation is detected, the panel is protected by first turning off the PD module 30 by outputting a 'Panel Disable' signal.

On the other hand, the determination result (S11), if the AC power is not different from the reference voltage measures the AC power fluctuation value during the system operation.

Therefore, if the AC power variation is detected by detecting the primary power supply unit, the PD power module is preferentially turned off according to the set off sequence, and the secondary power supply is sequentially turned off to switch the PD system to the standby mode.

The PD module protection circuit and the method according to the present invention described above are more stable by determining whether the AC power fluctuation of the primary side power supply unit is previously determined and sequentially controlling the power supply of the secondary power supply unit and the PDP panel according to the AC power fluctuation. This protects the panel and improves the reliability of the product.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

Claims (5)

In PDTV with PD module, Primary power supply unit for receiving a commercial AC power to generate a predetermined constant voltage, A secondary power supply unit for receiving a constant voltage generated by the primary power supply unit and generating a driving voltage of the PD module; A detector for detecting whether the constant voltage is changed by receiving the constant voltage generated from the primary power supply unit; And a controller for outputting a control signal to the PD module and the secondary power supply unit according to whether the constant voltage is changed. The method of claim 1, Long-term secondary power supply section A 5V and 15V power supply for receiving the constant voltage and transforming it into an operating power supply of a control circuit for controlling the PD module driving; A Va power supply unit receiving the constant voltage and transforming the driving voltage into driving power for driving an address electrode of the PD module; And a Vs, Vsc, and Vsetup power supply unit configured to receive the constant voltage and convert the sustain voltage into a driving power source for driving the sustain electrode, the scan electrode, and the setup drive of the PD module. In a PD TV having a primary power supply unit, a secondary power supply unit, and a PD module, Measuring whether the primary voltage of the primary power supply fluctuates; And turning off the secondary side power unit and the PD module if there is a constant voltage variation of the primary side power unit. The method of claim 3, wherein Measuring the constant voltage fluctuation of the primary side power supply unit And receiving the constant voltage and comparing the reference voltage with a reference voltage to determine whether there is a difference from the reference voltage. The method of claim 3, wherein Turning off the secondary power supply and PD module if there is a constant voltage variation of the primary power supply; Outputting a panel disable signal of the PD module; Turning off the Vsetup, Vsc, and Vs power supply units of the secondary power supply unit; Turning off the Va power supply of the secondary power supply; Turning off a 15V power supply of the secondary power supply; And a step of turning off the 5V power supply of the secondary side power supply unit.