KR100950919B1 - Switching mode power supply circuit for plasma display panel - Google Patents

Abstract

PURPOSE: A switching mode power supply circuit for a plasma display panel is provided to reduce manufacture costs by simplifying the configuration of a circuit. CONSTITUTION: A switching mode power supply circuit for a plasma display panel is includes an input unit(100), a PFC part, and an output unit. The output unit comprises a first transformer former(200), a 13V voltage output part(220'), a D5V voltage output part(230), a stand by voltage output part(240), a second transformer(300), a sustain voltage output part(320), an address voltage output part(330), and a gate voltage output part(210'). The primary side of the first transformer former is connected to the output terminal of the PFC part. The 13V voltage output part is connected to a primary winding of the secondary side of a first transformer. The D5V voltage output part is connected to the secondary winding of secondary side of the first transformer. The stand by voltage output part outputs the stand by voltage of 5V. The second transformer is connected to the primary side of the first transformer. A sustain voltage output part outputs the sustain voltage. The address voltage output part outputs an address voltage. The gate voltage output part outputs a gate voltage of 15V.

Description

Switching mode power supply circuit for plasma display panel

The present invention relates to a switching mode power supply circuit for a plasma display panel. More particularly, the present invention relates to a plasma display panel which can reduce the manufacturing cost and reduce standby power consumption. For a switching mode power supply circuit.

In general, a plasma display panel (PDP) is a flat panel display device using a penning gas for a discharge phenomenon, and a narrow electrode coated with a dielectric using a relatively high pressure Ne or helium gas as a base gas. A display device using a light emitting shape caused by discharge generated in the liver.

The plasma display panel requires a switching mode power supply (SMPS) circuit to drive the plasma display panel. The SMPS circuit is a modular power supply that converts electricity supplied from outside into a plasma display panel. The SMPS circuit uses semiconductor switching characteristics to control interruptions on high frequencies above commercial frequencies and to mitigate shock. In particular, the SMPS circuit for the PDP needs to apply power to each component in a specific sequence in order to protect the switching element and prevent abnormal discharge during initial power-up.

Such a plasma display panel has a merit of being able to realize a thin screen, a thin screen, and a high-definition large screen, compared to the cathode ray tube, which has been mainly used for the display means. However, in recent years, due to fierce competition, the price of flat panel displays and the like is getting low day by day, and accordingly, the SMPS circuit needs to reduce costs and simplify circuits.

The present invention is to achieve the above object, the object of the present invention can simplify the configuration of the circuit compared to the prior art can reduce the manufacturing cost, can also reduce the standby power consumption switching for plasma display panel To provide a mode power supply circuit.

According to an embodiment of the present invention for achieving the object of the present invention as described above, in the switching mode power supply circuit for a plasma display panel comprising an input unit, a PFC unit and an output unit, the output side, A first transformer connected to the output terminal of the PFC unit; A 13V voltage output unit connected to the first winding of the secondary side of the first transformer and outputting a 13V voltage; A D5V voltage output unit connected to the second winding of the second side of the first transformer and outputting a D5V voltage; A standby voltage output unit connected to the second winding of the first transformer in parallel with the D5V voltage output unit and outputting a standby voltage of 5V (V _sb ); A second transformer connected in parallel with a first side of the first transformer; A sustain voltage output unit connected to the first winding of the secondary side of the second transformer and outputting a sustain voltage V _s ; Address voltage output section that is connected to the secondary side second winding of the second transformer, output an address voltage (V _a); A gate voltage output unit connected to a third winding of the secondary side of the second transformer and outputting a gate voltage V _g of 15V; Disclosed is a switching mode power supply circuit for a plasma display panel comprising a.

In this case, the output unit is connected to the primary side of the second transformer, when the D5V voltage output from the D5V voltage output unit is turned on to supply the DC power output from the power input unit to the primary side of the second transformer. It is preferable to further include a Vs-ON switch (Vs-ON switch).

The 13V voltage output unit may further include a first switch connected between the first winding of the secondary side of the first transformer and an output terminal of the 13V voltage output unit to connect or disconnect the 13V voltage to the output terminal.

The D5V voltage output unit may further include a regulator connected between the second winding of the secondary side of the first transformer and the output terminal of the D5V voltage output unit to maintain the D5V voltage at a constant magnitude.

In this case, the regulator may further include an on / off circuit for connecting or blocking the D5V voltage to the output terminal.

The standby voltage output unit may further include a regulator connected between the second winding of the secondary side of the first transformer and an output terminal of the standby voltage output unit to maintain the standby voltage at a constant magnitude.

The address voltage output unit may further include a regulator connected between the third winding of the secondary side of the second transformer and an output terminal of the address voltage output unit to maintain the address voltage at a constant size.

The gate voltage output unit may further include a regulator connected between the third winding of the secondary side of the second transformer and an output terminal of the gate voltage output unit to maintain the gate voltage at a constant magnitude.

Other aspects, features, and advantages other than those described above will become apparent from the following drawings, claims, and detailed description of the invention.

The present invention can simplify the circuit configuration of the switching mode power supply by having the configuration as described above, and it is not necessary to include a regulator having an on / off switch function at the gate voltage output, and also in the case of a 13V output stage. Since only the on / off switch need not be provided, the manufacturing cost of the circuit can be reduced accordingly. In addition, there is no need to artificially delay the output of the gate voltage (V _g ) than the sustain voltage (V _s ), thereby reducing the electrolytic capacitor capacity of the gate voltage output, and also reducing standby power consumption at the input of the gate voltage output. can do.

As the invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all transformations, equivalents, and substitutes included in the spirit and scope of the present invention. In the following description of the present invention, if it is determined that the detailed description of the related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted.

Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms are only used to distinguish one component from another.

The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms "comprise" or "have" are intended to indicate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, components, or a combination thereof.

Hereinafter, an embodiment of a switching mode power supply for a plasma display panel according to the present invention will be described in detail with reference to the accompanying drawings. In the following description with reference to the accompanying drawings, the same or corresponding components are given the same reference numerals. And duplicate description thereof will be omitted.

1 is a block diagram showing the overall configuration of a switching mode power supply circuit for a plasma display panel according to the present invention.

As shown, the switching mode power supply for a plasma display panel according to the present invention receives a 90 to 270 V _rms input from the input unit 1 and sets it through PFC (Power Factor Correction) 2 for avoiding harmonic regulation. -up) or boosted-up, it outputs a DC voltage of about 370 ~ 400V _DC , and supplies various power needed to drive PDP through multiple DC / DC converters.

First, the PFC 2 performing power factor improvement is located at the foremost end of the SMPS for PDP, and the PFC 2 mainly adopts a boost topology that shows excellent characteristics in performance.

The output voltage of the PFC 2 includes a plurality of DC / DC converters 3 to 7 for supplying a high voltage sustain driving power supply and an address power supply, and a DC / DC converter 8 for supplying a plurality of low voltages. The plurality of DC / DC converters constitute an output of the SMPS. At this time, the output of the V _S (3) power supply is used as a sustain driving power supply and is input as a scan voltage (V _SCAN ; 4) and a reset voltage (V _SET , V _E ; 5, 6). The voltages output from these multiple DC / DC converters are input to the PDP driving module 9 to drive the PDP device.

2 is a view showing the on / off sequence between in the switched mode power supply for a plasma display panel image D5V power and for driving the logic board and the ground voltage (V _g). In this figure, the horizontal axis represents the passage of time.

In general, the PDP power system is characterized by high voltage and low current, so the effect of switching loss is more pronounced than that of conduction loss. Also, in case of PDP, a very large surge current flows when discharging. Therefore, in case of sustain voltage (V _s ) and address voltage (V _a ), a large number of large capacitors should be added in parallel to the power supply and driving board. The driving module is mostly composed of a switching element using a semiconductor because the driving module supplies a large number of electrodes with high speed switching.

Accordingly, in order to protect the switching element and to prevent abnormal discharge during initial power-up, the ground voltage must be applied after the power is first applied to D5V when the power is turned on, as shown in FIG. This order should be followed when doing so.

In general, when the power is turned on, a voltage of 5 V standby voltage (V _sb ) is output and ready to operate all sequences.When the ON signal is input from the video board, D5V, 13V, V _g (ground voltage) Is output, and then V _s (sustain voltage) and V _a (address voltage) are output to display the PDP.

3 is a circuit diagram illustrating an output of a general switching mode power supply for a plasma display panel.

As illustrated, the switching mode power supply includes a power input unit 100 to which power is applied from an output terminal of the PFC 2, a first transformer 200 and a second transformer connected to the power input unit 100, respectively. 300).

The first transformer 200 has three windings on the secondary side, the first winding has a gate voltage output unit 210 for outputting a gate voltage of 15V (V _g ), and the second winding has an amp and an image power supply. A 13V voltage output unit 220 for outputting a 13V voltage to be used is connected to a D5V voltage output unit 230, which is used as a logic board and an image power supply, respectively, to a third winding, and the D5V voltage output to the third winding. A standby voltage output unit 240 that is connected in parallel with 230 to output an image standby voltage V _sb of 5V is connected.

In this case, between the first winding and the output terminal of the gate voltage output unit 210, between the second winding and the output terminal of the 13V voltage output unit 220, and between the third winding and the output terminal of the D5V voltage output unit 230. The controller further includes regulators 210R, 220R, and 230R for maintaining the output voltage at a constant size, and the regulators 210R, 220R, and 230R may control the output voltage on or off. It further includes a switch function. On the other hand, the regulator 240R provided between the third winding and the output terminal of the standby voltage output unit 240 is a general regulator without a switch function.

On the other hand, the second transformer 300 is connected in parallel with the primary side of the first transformer 200, and has two windings. The secondary side first coil there is a sustain voltage output section 320 for outputting the sustain voltage (V _s) connected, a second address voltage to the winding in the output an address voltage (V _a) output unit (330 of the second transformer ) Is connected.

At this time, a general regulator 330R having no switch function is provided between the second winding and the output terminal of the address voltage output unit 330.

In addition, a Vs-on switch 310 is provided on a primary side of the second transformer, and the Vs-on switch 310 is turned on when a D5V voltage is output from the D5V voltage output unit. By supplying the DC power to the primary side of the second transformer so that the sustain voltage (V _s ) and the address voltage (V _a ) can be turned on.

As described above, in the case of the switching mode power supply configured as described above, when the power is turned on, a voltage of 5 V standby voltage (V _sb ) is output to prepare for operating all sequences, and an ON signal is output from the image board. When input, D5V, 13V, V _g (ground voltage) are output, and then V _s (sustain voltage) and V _a (address voltage) are output to display the PDP. Therefore, in order to control the sequence as described above, the regulator includes a switch function.

4 is a circuit diagram illustrating an output of a switching mode power supply for a plasma display panel according to the present invention.

As illustrated, the switching mode power supply includes a power input unit 100 to which power is applied from an output terminal of the PFC 2, a first transformer 200 and a second transformer connected to the power input unit 100, respectively. 300).

The first transformer 200 has two windings on the secondary side, the first winding has a 13V voltage output unit 220'for outputting a 13V voltage used as an Amp and an image power supply, and the second winding has a logic board and A D5V voltage output unit 230, which is used as an image power source, is connected to each other, and a standby voltage output unit that is connected in parallel with the D5V voltage output unit 230 to the second winding to output a 5V image standby voltage V _sb . 240 is connected.

At this time, between the second winding and the output terminal of the D5V voltage output unit 230 further includes a regulator 230R for maintaining the output voltage to a constant size, the regulator 210R230R is turned on (ON) the output voltage Or it further includes a switch function that can be OFF (OFF) control. On the other hand, the regulator 240R provided between the second winding and the output terminal of the standby voltage output unit 240 is a general regulator without a switch function. In addition, a switch 220S having no regulator function is provided between the first winding and the output terminal of the 13V voltage output unit 220 '. In the present embodiment, since the regulator does not need to be used between the first winding and the 13V voltage output unit 220 ', it can be replaced with a switch to simplify the circuit and reduce the manufacturing cost of the circuit.

Meanwhile, the second transformer 300 is connected in parallel with the primary side of the first transformer 200 and has three windings unlike FIG. 3. The secondary side first coil there is a sustain voltage output section 320 for outputting the sustain voltage (V _s) connected, a second address voltage to the winding in the output an address voltage (V _a) output unit (330 of the second transformer ) Is connected, and a gate voltage output unit 210 'for outputting a gate voltage V _g of 15V is connected to the third winding.

At this time, a general regulator 210R 'having no switch function is provided between the second winding and the output terminal of the address voltage output unit 330 and between the third winding and the output terminal of the gate voltage output unit 210'.

In addition, a Vs-on switch 310 is provided on a primary side of the second transformer, and the Vs-on switch 310 is turned on when a D5V voltage is output from the D5V voltage output unit. By supplying the DC power to the primary side of the second transformer so that the sustain voltage (V _s ) and the address voltage (V _a ) can be turned on.

Unlike in FIG. 3, the reason why the general regulator 210R ′ having no on / off switch function is provided at the output terminal of the gate voltage output unit 210 ′ is the gate voltage V _{g when} having the structure shown in FIG. 4. This is because the sequence of FIG. 2 can be maintained even if a separate switch is not turned on since it is turned on later than the D5V voltage. That is, as described above, since the second transformer is supplied with power only after the D5V voltage is output, the gate voltage may be output when power is supplied to the second transformer, so that the sequence may be maintained even without an artificial switch.

When the output unit of the switching mode power supply for the plasma display panel is configured as described above, the first transformer 200 is provided because the gate voltage output unit 210 ′ is provided in the second transformer 300 instead of the first transformer 200. The circuit can be simplified by eliminating the corresponding diode, regulator, etc., and it is not necessary to include a regulator having an on / off switch function at the gate voltage output unit 210 ', thereby reducing the manufacturing cost of the circuit. . In addition, in the case of the 13V output stage, only the on / off switch can be connected without the need for a regulator, and the output of the gate voltage (V _g ) is delayed rather than the sustain voltage (V _s ), thereby reducing the electrolytic capacitor capacity of the gate voltage output unit. In addition, standby power consumption at the input terminal of the gate voltage output unit can be reduced.

Although the above has been described with reference to a preferred embodiment of the present invention, those skilled in the art to which the present invention pertains without departing from the spirit and scope of the present invention as set forth in the claims below It will be appreciated that modifications and variations can be made.

Many embodiments other than the above-described embodiments are within the scope of the claims of the present invention.

1 is a block diagram showing the overall configuration of a switching mode power supply circuit for a plasma display panel according to the present invention.

2 is a view showing the on / off sequence between in the switched mode power supply for a plasma display panel image D5V power and for driving the logic board and the ground voltage (V _g). In the figure, the horizontal axis represents the passage of time.

3 is a circuit diagram illustrating an output unit of a general switching mode power supply for a plasma display panel.

4 is a circuit diagram illustrating an output of a switching mode power supply for a plasma display panel according to the present invention.

<Description of the symbols for the main parts of the drawings>

100: power input unit 200: first transformer

210, 210 ': gate voltage output 220, 220': 13V voltage output

230: D5V voltage output unit 240: standby voltage output unit

300: second transformer 310: Vs-on switch

320: sustain voltage output unit 330: address voltage output unit

Claims (8)

In the switching mode power supply circuit for a plasma display panel comprising an input unit, a PFC unit and an output unit, The output unit, A first transformer having a primary side connected to an output terminal of the PFC unit; A 13V voltage output unit connected to the first winding of the secondary side of the first transformer and outputting a 13V voltage; A D5V voltage output unit connected to the second winding of the second side of the first transformer and outputting a D5V voltage; A standby voltage output unit connected to the second winding of the first transformer in parallel with the D5V voltage output unit and outputting a standby voltage of 5V (V _sb ); A second transformer connected in parallel with a first side of the first transformer; A sustain voltage output unit connected to the first winding of the secondary side of the second transformer and outputting a sustain voltage V _s ; Address voltage output section that is connected to the secondary side second winding of the second transformer, output an address voltage (V _a); A gate voltage output unit connected to a third winding of the secondary side of the second transformer and outputting a gate voltage V _g of 15V; Switching mode power supply circuit for a plasma display panel comprising a. The method of claim 1, The switching mode power supply circuit is connected to the primary side of the second transformer and is turned on when the D5V voltage is output from the D5V voltage output unit, and is turned on to output the DC power from the PFC unit to the primary side of the second transformer. A switching mode power supply circuit for a plasma display panel further comprising a Vs-ON switch. The method of claim 1, The 13V voltage output unit may further include a first switch connected between the first winding of the secondary side of the first transformer and an output terminal of the 13V voltage output unit to connect or disconnect the 13V voltage to the output terminal. Switching mode power supply circuit for plasma display panels. The method of claim 1, The D5V voltage output unit may further include a regulator connected between the second winding of the secondary side of the first transformer and an output terminal of the D5V voltage output unit to maintain the D5V voltage at a constant magnitude. Mode power supply circuit. The method of claim 4, wherein The regulator further comprises an on / off circuit for connecting or disconnecting the D5V voltage to the output terminal. The method of claim 1, The standby voltage output unit may further include a regulator connected between the second winding of the secondary side of the first transformer and an output terminal of the standby voltage output unit to maintain the standby voltage at a constant magnitude. Mode power supply circuit. The method of claim 1, The address voltage output unit may further include a regulator connected between the third winding of the secondary side of the second transformer and an output terminal of the address voltage output unit to maintain the address voltage at a constant size. Mode power supply circuit. The method of claim 1, The gate voltage output unit may further include a regulator connected between the third winding of the secondary side of the second transformer and an output terminal of the gate voltage output unit to maintain the gate voltage at a constant size. Mode power supply circuit.

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