KR100749473B1 - Plasma display device - Google Patents

Abstract

The present invention relates to an improved plasma display apparatus for protecting a driver integrated circuit (IC) device from impact.

A plasma display device according to the present invention includes a plasma display panel; A chassis base for attaching and supporting the plasma display panel to one side thereof; A circuit board assembly installed at the other side of the chassis base; A driver IC electrically connecting the electrodes of the plasma display panel and the driving circuit part of the circuit board assembly to apply a switching voltage to the electrodes of the plasma display panel; A pressing plate installed on the front surface of the driver IC to press the driver IC to the chassis base; And a protective member installed between the driver IC and the pressing plate.

Driver IC, TCP, Chassis Base, Reinforcement, Epoxy

Description

Plasma display device {PLASMA DISPLAY DEVICE}

1 is an exploded perspective view schematically showing the configuration of a plasma display device according to the present invention.

FIG. 2 is a longitudinal cross-sectional view of the plasma display device according to the first embodiment of the present invention, taken along the line A-A of FIG.

3 is a perspective view of TCP in the plasma display device according to the present invention of FIG.

4 is a cross-sectional view of the plasma display device according to the second embodiment of the present invention, taken along the line B-B of FIG. 1.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plasma display device, and more particularly, to an improved plasma display device for protecting a driver integrated circuit (IC) element from impact.

In general, a plasma display apparatus includes a plasma display panel (hereinafter referred to as a 'PDP') for generating plasma by gas discharge and displaying an image using the plasma, a chassis base for supporting the PDP, Mounted on the opposite side of the chassis base PDP and connected to the display electrode or the address electrode located inside the PDP through a flexible printed circuit (FPC) and a connector or a tape carrier package (TCP). Drive circuit boards are provided.

Since the PDP seals two glass substrates in a surface facing structure to form a discharge space therein, the PDP is weak in mechanical rigidity against impact. In order to secure the mechanical rigidity of such a PDP, the chassis base has a banding portion, for example, bent in an “L” shape at its edge, and has a plurality of reinforcing members properly disposed on its rear surface.

In the plasma display apparatus, an electrode printed on the plasma display panel is electrically connected to the driving circuit through the FPC, and the FPC is configured to address the control signal of the driving circuit so as to selectively form a wall voltage on the pixel of the plasma display panel. A driver IC for applying a voltage is provided.

As widely used as a voltage application structure using an FPC and a driver IC, a chip on board (COB) in which a driver IC is mounted on a printed circuit board (PCB) and a driver IC is directly mounted on a film constituting the FPC There is a chip on film (COF), and as mentioned above, in recent years, small and inexpensive TCP has been used.

The TCP is configured to bond a bump (Au material) of a driver IC to a pattern made of copper (Cu) on an insulating film (usually a polymide material) and to bond the resin, and to apply a resin to protect the bump and pattern bonding states. Is fulfilling. In addition, a pattern protective layer (solder resist) is used to insulate this pattern. This pattern has power and signal input wiring and ground wiring.

By the way, the TCP is usually made of a small size of about a few mm, there was a problem that cracks and breakage occurs when the corners are unevenly pressed or the impact is applied.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a plasma display apparatus having a protection member at a weak spot in TCP so that the TCP is protected.

Plasma display device of the present invention for achieving the above object, the plasma display panel; A chassis base for attaching and supporting the plasma display panel to one side thereof; A circuit board assembly installed at the other side of the chassis base; A driver IC electrically connecting the electrodes of the plasma display panel and the driving circuit part of the circuit board assembly to apply a switching voltage to the electrodes of the plasma display panel; A pressing plate installed on the front surface of the driver IC to press the driver IC to the chassis base; And a protective member installed between the driver IC and the pressing plate.

In the present invention, the protection member is disposed on the back of the driver IC, the epoxy is coated on the back of the driver IC.

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

1 is an exploded perspective view schematically showing the configuration of a plasma display device according to the present invention.

Referring to the drawings, the plasma display device according to the present invention is provided with a PDP 12 configured to display an image using gas discharge, and is generated on the back surface of the PDP 12 and generated in the PDP 12 due to gas discharge. A heat conduction sheet (not shown) for conducting and diffusing the heat to be conducted in the plane direction of the PDP 12 and the chassis base 14 attached to the heat conduction sheet side PDP 12 are comprised.

Since the present invention relates to the above-described coupling relationship between the PDP 12 and the surrounding components, a detailed description of the PDP 12 is omitted here. The PDP 12 may be configured in various ways and may be driven in various ways, and includes such PDPs.

As described above, the thermal conductive sheet rapidly conducts and dissipates heat generated in the PDP 12 due to the driving of the PDP 12 in the planar direction of the PDP 12 to realize a heat dissipation balance of the PDP 12. It is attached to the back surface of the PDP 12. In addition, the thermal conductive sheet may be formed of various materials, for example, silicon based thermal conductive sheet, urethane based thermal conductive sheet, acrylic based thermal conductive sheet, graphite (graphite) thermal conductive sheet, metal based thermal conductive sheet, or carbon nanotube based thermal conductivity.

In addition, the chassis base 14 is attached to the rear side of the PDP 12 via a heat conductive sheet to support the PDP 12 made of glass to reinforce the mechanical rigidity of the PDP 12, and when driving the PDP 12. Heat generated and conducted through the thermally conductive sheet is radiated to the atmosphere to enable stable driving of the PDP 12.

Therefore, the chassis base 14 is formed of a material such as aluminum, copper, iron, etc., and supports the PDP 12 on one side thereof, and a plurality of circuit boards for driving the PDP 12 on the other side thereof. A printed board assembly (PBA) 16 is mounted and supported using screws.

The front cover (not shown) is located outside the PDP 12 as described above, and the rear cover (not shown) is located outside the chassis base 14 so that the covers are combined to complete the plasma display device set. do.

FIG. 2 is a longitudinal cross-sectional view of the plasma display device according to the first exemplary embodiment of the present invention, taken along a line A-A of FIG. 1.

Referring to this figure, the electrodes 18 whose leading ends are drawn out at the edges of the PDP 12 are electrically connected to the circuit board assembly 16 through a flexible printed circuit 20 (FPC), thereby providing a circuit board assembly 16. ) Receives an input signal required for driving the PDP 12.

To this end, between the PDP 12 and the circuit board assembly 16, a plurality of driver ICs for selectively applying a switching voltage to the electrodes 18 of the PDP 12 according to a control signal of the circuit board assembly 16. Circuit 22 is provided.

The driver IC 22 is mounted and packaged in a Tape Carrier Package (TCP) 24, and the TCP 24 is connected to the circuit board assembly 16 as an input terminal thereof and through the FPC 20 as an output terminal thereof. (18). At this time, the driver IC 22 is disposed in a position opposite to the chassis base 16.

On the outer side of the driver IC 22, that is, on the outer side of the TCP 24, a crimping plate 26 for supporting the TCP 24 and pressing the driver IC 22 to the chassis base 14 side is provided.

The pressing plates 26 are arranged side by side along the lower edge portion of the chassis base 14. In this case, the crimping plate 26 may be arranged as an integral plate along the edge of the chassis base 14, but as shown in FIG. 1, the crimping plate 26 may include a plurality of plates corresponding to the respective driver ICs 22. It may be arranged at the edge portion of the base 14.

The crimping plate 26 extends from the outer edge of the first surface 26a to the outer edge of the PDP 12 so as to face the driver IC 22 and extends from the outer edge of the PDP 12 to the FPC 20. It is formed with a second surface 26b for supporting (). The first and second surfaces 26a and 26b are integrally formed. The pressing plate 26 may be formed by extruding or pressing aluminum having excellent thermal conductivity and light weight. In addition, the pressing plate 26 may be fixed to the chassis base 14 by a separate fastening member (not shown), for example, a screw, or may be fixed to the reinforcing member 28.

A heat transfer member 32 for dissipating the driver IC 22 is interposed between the reinforcing member 28 and the driver IC 22. The heat transfer member 32 may be formed of silicone oil or thermal grease that may maintain a liquid or gel type to reduce thermal resistance between the lower portion of the driver IC 22 and the chassis base 14. use.

3 is a perspective view of TCP in the plasma display device according to the present invention.

Referring to this figure, the driver IC 22 embedded in the heat dissipation structure as described above receives the control signal of the circuit board assembly 16 from the input terminal 24a of the TCP 24 and output terminal 24b of the TCP 24. The control signal is output to the FPC 20 connected thereto and the electrodes 18 connected thereto.

The driver IC 22 may be provided in various forms between the electrodes 18 and the circuit board assembly 16 so as to operate as described above, and the present embodiment may include a driver IC 22 mounted on the TCP 24. The structure of) is illustrated. As the driver IC 22 is mounted on the TCP 24 in this manner, the ground terminal of the driver IC 22 is preferably connected to the ground wiring of the pattern 36 formed on the TCP 24.

2 and 3 described above, the plasma display device according to the present invention is provided between the driver IC 22 and the pressing plate 26 to withstand the driver IC 22 against impact. It is provided with a protective member (30).

Specifically, as shown in FIGS. 2 and 3, the protection member 30 is disposed behind the driver IC 22. The protection member 30 may be formed by coating an epoxy on the rear surface of the driver IC 22.

FIG. 4 is a cross-sectional view of the plasma display device according to the second embodiment of the present invention, taken along the line B-B of FIG. 1.

Referring to this figure, the TCP 24 is formed of a pattern (Cu) formed on a bump (Au material) and an insulating film (usually a polymide material) of the driver IC 22, as shown in FIG. The bonding state is formed by bonding 36 and bonding the resin 32 to be applied. The pattern 36 is also covered with a pattern protection layer 38 for insulation.

As shown in FIG. 4, the plasma display device according to the present invention is provided between the driver IC 22 and the pressing plate 26 to protect the driver IC 22 against impacts 30 ′. ) Is coated with epoxy, which is coated on the entire silicon material portion of the driver IC 22. That is, the above epoxy is coated on the edge front face 30b together with the rear face 30a of the driver IC 22.

As described above, when the driver IC 22 of the TCP 24 provided in the plasma display device according to the present invention is unevenly pressed at a corner or the like, or a shock is transmitted, cracks and breakage may occur. Therefore, in the plasma display device according to the present invention, a relatively simple process is added to prevent damage of the driver IC 22 as described above.

That is, since the part where the driver IC 22 of the TCP 24 is mainly damaged is a rectangular semiconductor element made of silicon, in the present invention, the protection member 30 is formed between the driver IC 22 and the pressing plate 26. By installing only 30 ', damage to the driver IC 22 is prevented.

In a specific embodiment of the protective members 30 and 30 ', the epoxy is coated on the silicon portion of the driver IC 22 to a relatively thin thickness to protect the driver IC 22 from impact.

As described above, the plasma display device according to the present invention has the following effects.

In addition to a simple process, a protection member is provided between the driver IC of the TCP and the crimp plate, thereby protecting the driver IC from impact. Therefore, the reliability of the product can be improved.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent embodiments are possible. Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

Claims (4)

A plasma display panel; A chassis base for attaching and supporting the plasma display panel to one side thereof; A circuit board assembly installed at the other side of the chassis base; A driver IC electrically connecting the electrodes of the plasma display panel and the driving circuit part of the circuit board assembly to apply a switching voltage to the electrodes of the plasma display panel; A pressing plate installed on the front surface of the driver IC to press the driver IC to the chassis base; And a protective member coated on the back surface of the driver IC with an epoxy and installed between the driver IC and the pressing plate. delete delete The method of claim 1, And the epoxy is coated on the side edge with the back side of the driver IC.

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