JP4525099B2 - Liquid crystal display - Google Patents

Description

  The present invention relates to a data (source) driver that drives a data line (source line) of a liquid crystal display panel based on a data driver signal, and an address line (gate line) of the liquid crystal display panel based on an address driver signal. The present invention relates to a liquid crystal display device including an address (gate) driver for driving a signal and means for generating a data driver signal and an address driver signal from an analog video signal. The present invention relates to a liquid crystal display device in which means for generating signals and address driver signals are integrated in one IC.

  In a liquid crystal display device using an active matrix display panel, as shown in FIG. 5, one type of analog video signal is selected from a plurality of types of analog video signals 25 input using an input switching unit 201. The digital signal is converted using the A / D converter 202. Then, by using the TV signal processing unit 203, it is converted into three primary color signals. Next, the scaling processing unit 204 performs processing so as to obtain a signal corresponding to the aspect ratio to be displayed. Thereafter, the timing controller 205 is used to generate a source driver signal 31 input to the source driver 3 and a gate driver signal 41 input to the gate driver 4.

  As shown in FIG. 4, the source driver 3 is mounted on the flexible substrates 8 a and 8 b and drives the source line of the liquid crystal display panel 1 based on the source driver signal 31. The gate driver 4 is COG (Chip On Glass) mounted on a glass substrate 5 on which pixel electrodes, thin film transistors and the like are formed, and drives the gate lines of the liquid crystal display panel 1 based on a gate driver signal 41.

  In the electrical configuration shown in FIG. 5, the timing controller 205 is configured to indicate the levels of the primary color signals of red, green, and blue with 6 bits. Two sets of 6-bit signals are output for each primary color signal. That is, the timing controller 205 outputs six sets of 6-bit signals as the source driver signal 31. This complicates the path for digital signals. Therefore, the input switching unit 201, the A / D conversion unit 202, the TV signal processing unit 203, the scaling processing unit 204, and the Y / C separation unit 206 are integrated into one IC 91, and the timing controller 205 is integrated with the IC 91. It is integrated in another IC92.

  Further, an analog video signal whose S / N ratio is likely to deteriorate due to the influence of the digital signal is led to the IC 91. On the other hand, the IC 92 has a very large number of terminals for outputting digital signals. Therefore, the IC 91 is mounted on the printed wiring board 911, and the IC 92 is mounted on the printed wiring board 921 provided separately from the printed wiring board 911, and the path of the digital signal output from the IC 92 is input to the IC 91. By deviating from the path of the analog video signal, deterioration of the S / N ratio of the analog video signal is avoided (referred to as the first conventional technique).

Further, the following prior art has been proposed (referred to as a second prior art). That is, in this technique, the shape of the segment substrate facing the common substrate of the liquid crystal display panel is projected in two directions, the lower side and the right side of the liquid crystal display panel. And the segment terminal connected to the segment electrode is provided in the part protruded below. In addition, a common terminal to which a common electrode of a common substrate is connected via a conductive member made of conductive particles or the like is provided at a portion protruding rightward. As a result, the width of the area where the path for the common electrode is arranged can be considerably reduced, so that the liquid crystal display module is miniaturized (see, for example, Patent Document 1).
JP 2002-328391 A (paragraphs 0009 to 0012)

  However, when the first prior art is used, the following problems have occurred. That is, the two ICs 91 and 92 are used to generate the source driver signal 31 and the gate driver signal 41 from the analog video signal. Further, in order to keep the path of the digital signal output from the IC 92 away from the path of the analog video signal input to the IC 91, the IC 92 is mounted on a printed wiring board 921 different from the printed wiring board 911 on which the IC 91 is mounted. ing. Therefore, the total area of the printed wiring board 911 and the printed wiring board 921 is relatively large because the ICs 91 and 92 are mounted on the printed wiring board 911 and the printed wiring board 921, respectively. Therefore, the large total value of the area of the printed wiring board 911 and the area of the printed wiring board 921 has been a hindrance to downsizing the liquid crystal display device.

  The second conventional technique is a technique applied to a passive matrix system in which a segment electrode is formed on one of a pair of opposing glass substrates and a common electrode is formed on the other. Therefore, in the case of an active matrix system in which a source line is extended to one of adjacent sides of a glass substrate on which a thin film transistor is formed and a gate line is extended to the other side, an effect can be obtained even when applied. Has become a difficult technology.

  The present invention has been devised to solve the above-described problems, and an object of the present invention is to provide means for generating a signal input to a source driver and a signal input to a gate driver from an analog video signal as one signal. In the case where the processing IC is integrated and reduced in size, it is possible to prevent the deterioration of the S / N ratio of the video signal, and the signal input to the source driver and the signal input to the gate driver. An object of the present invention is to provide a liquid crystal display device capable of reducing the occurrence rate of defects such as disconnection in a route.

  Another object of the present invention is to integrate means for generating a signal input to a data driver and a signal input to an address driver from an analog video signal into one signal processing IC, and the signal processing IC is mounted. One of the two areas sandwiching the mounting position of the signal processing IC on the printed board is an area for a path for transmitting an analog video signal, and the other is a signal input to the data driver and a signal input to the address driver. And a means for generating a signal inputted to the data driver and a signal inputted to the address driver from the analog video signal by integrating the signal signal into the signal processing IC. An object of the present invention is to provide a liquid crystal display device capable of preventing the deterioration of the S / N ratio of a video signal when downsizing.

In order to solve the above problems, a liquid crystal display device according to the present invention includes a liquid crystal display panel having a glass substrate on which a pixel electrode and a thin film transistor corresponding to the pixel electrode are formed, and a liquid crystal display panel based on a source driver signal. A source driver for driving the source line, a gate driver for driving the gate line of the liquid crystal display panel based on the gate driver signal, and a display signal processing unit for generating a source driver signal and a gate driver signal from the video signal And a main printed wiring board provided with a video signal input terminal for inputting a video signal and a driver signal output terminal for outputting a source driver signal and a gate driver signal. The video signal input to the is an analog video signal that is output from the driver signal output terminal. The driver signal and the gate driver signal has a digital signal, is applied to a liquid crystal display device provided in a different substrate from the main printed circuit board and the source driver and the gate driver. And a transmission flexible board having one end connected to the driver signal output terminal, and a distribution printed wiring board made of a non-flexible material and connected to the other end of the transmission flexible board, The display signal processing unit is integrated in one signal processing IC mounted on the main printed circuit board, and one of the two areas positioned apart from each other with the mounting position of the signal processing IC on the main printed circuit board is An analog area provided with a main part of a printed wiring pattern that forms an analog signal path for guiding a video signal input to a video signal input terminal to a signal processing IC and a main part of an element that forms the analog signal path; The other of the two areas drives the source driver signal and the gate driver signal output from the signal processing IC. This is a digital area in which the main part of the printed wiring pattern that forms the digital signal path leading to the signal output terminal for the bus and the main part of the element that forms the digital signal path are provided, and from the signal output terminal for the driver The output source driver signal is guided to the source driver through the transmission flexible board and the distribution printed wiring board, and the gate driver signal output from the driver signal output terminal is distributed to the transmission flexible board. It is led to the gate driver through the printed wiring board.

In other words, the two areas that are separated from each other across the mounting position of the signal processing IC on the main printed wiring board are areas that are separated from each other. Therefore, an analog area provided with a main part of a printed wiring pattern that forms an analog signal path for guiding a video signal input to a video signal input terminal to a signal processing IC and a main part of an element that forms the analog signal path. A main part of a printed wiring pattern that forms a digital signal path that guides a source driver signal and a gate driver signal output from the signal processing IC to a driver signal output terminal, and a main part of the element that forms the digital signal path The digital area provided with the portion is in a positional relationship apart from each other. Therefore, the influence of the noise generated from the source driver signal path and the gate driver signal path on the analog video signal path is minimal. Further, since the distribution printed wiring board is a board made of a non-flexible material, the occurrence of problems such as disconnection is small even when the board area is relatively large. Further, in the above configuration, an inductor element and a resistance element are inserted in the path for outputting the generated source driver signal and the path for outputting the generated gate driver signal in the display signal processing unit, respectively. It is good. With this configuration, unnecessary radiation can be reduced.

The liquid crystal display device according to the present invention includes a liquid crystal display panel having a glass substrate on which a pixel electrode and a thin film transistor corresponding to the pixel electrode are formed, and data lines arranged in the X direction of the liquid crystal display panel based on a data driver signal. A data driver for driving the address line, an address driver for driving address lines arranged in the Y direction of the liquid crystal display panel based on the address driver signal, and display signal processing for generating a data driver signal and an address driver signal from the video signal And a main printed wiring board provided with a video signal input terminal for inputting a video signal, and a driver signal output terminal for outputting a data driver signal and an address driver signal. The video signal input to the terminal is an analog video signal and is output from the driver signal output terminal. The data driver signal and the address driver signal has a digital signal, is applied to a liquid crystal display device provided in a different substrate from the main printed circuit board of the data driver and the address driver. The display signal processing unit is integrated in one signal processing IC mounted on the main printed circuit board, and the display signal processing unit has two areas positioned apart from each other with the mounting position of the signal processing IC on the main printed circuit board. On the other hand, a main part of a printed wiring pattern that forms an analog signal path that guides a video signal input to a video signal input terminal to a signal processing IC and a main part of an element that forms the analog signal path are provided. The other of the two areas is the main printed wiring pattern that forms a digital signal path that guides the data driver signal and address driver signal output from the signal processing IC to the driver signal output terminal. And a digital area in which the main part of the element forming the digital signal path is provided.

In other words, the two areas that are separated from each other across the mounting position of the signal processing IC on the main printed wiring board are areas that are separated from each other. Therefore, an analog area provided with a main part of a printed wiring pattern that forms an analog signal path for guiding a video signal input to a video signal input terminal to a signal processing IC and a main part of an element that forms the analog signal path. A main part of a printed wiring pattern that forms a digital signal path that guides a data driver signal and an address driver signal output from the signal processing IC to a driver signal output terminal, and a main part of an element that forms the digital signal path. The digital area provided with the portion is in a positional relationship apart from each other. Therefore, the influence of the noise generated from the data driver signal path and the address driver signal path on the analog video signal path is minimal. Further, in the above configuration, an inductor element and a resistance element are respectively inserted in a path for outputting the generated data driver signal and a path for outputting the generated address driver signal in the display signal processing unit. It is good. With this configuration, unnecessary radiation can be reduced.

  In the liquid crystal display device according to the present invention, a main part of a printed wiring pattern that forms an analog signal path that guides a video signal input to a video signal input terminal to a signal processing IC and a main part of an element that forms the analog signal path include An analog area provided, a main part of a printed wiring pattern that forms a digital signal path that guides a source driver signal and a gate driver signal output from a signal processing IC to a driver signal output terminal, and the digital signal path And the digital area provided with the main part of the element forming the are in a positional relationship apart from each other. Therefore, the influence of the noise generated from the source driver signal path and the gate driver signal path on the analog video signal path is minimal. Also, the distribution printed wiring board is made of a non-flexible material that is less likely to cause problems such as disconnection even when the board area is relatively large. Therefore, in the case where the means for generating the signal input to the source driver and the signal input to the gate driver from the analog video signal is integrated in one signal processing IC to reduce the size, the S / The deterioration of the N ratio can be prevented, and the occurrence rate of defects such as disconnection in the signal path between the signal input to the source driver and the signal input to the gate driver can be reduced.

  In the liquid crystal display device according to the present invention, a main part of a printed wiring pattern that forms an analog signal path that guides a video signal input to a video signal input terminal to a signal processing IC, and a main part of an element that forms the analog signal path; A main part of a printed wiring pattern that forms a digital signal path for guiding a data driver signal and an address driver signal output from a signal processing IC to a driver signal output terminal, and the digital signal The digital area provided with the main part of the element forming the path is in a positional relationship apart from each other. Therefore, the noise generated from the data driver signal path and the address driver signal path has a small influence on the analog video signal path, so that the signal input from the analog video signal to the source driver and the gate driver are not affected. When a means for generating an input signal is integrated into a single signal processing IC for miniaturization, deterioration of the S / N ratio of the video signal can be prevented.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 3 is a block diagram showing an electrical configuration of an embodiment of the liquid crystal display device according to the present invention, which shows a display device provided in a television receiver, and is the same as the prior art shown in FIG. The same reference numerals as those in FIG. 5 are given to the blocks.

  In the figure, an input switching unit 201 includes a composite video signal COMP, an S video signal composed of a luminance signal Y / C-Y and a color signal Y / C-C, a luminance signal Y, and two color difference signals Pb and Pr. The three types of analog video signals 25 of the video signal are derived, and one type of the analog video signal among the three types of analog video signals 25 is output to the A / D converter 202. The A / D conversion unit 202 A / D converts the analog video signal output from the input switching unit 201 and outputs the analog video signal to the TV signal processing unit 203.

  When the analog video signal output from the input switching unit 201 is the composite video signal COMP, the A / D conversion unit 202 outputs the A / D converted signal to the Y / C separation unit 206 to obtain a luminance signal. Then, the separated luminance signal and color signal are output to the TV signal processing unit 203.

  The TV signal processing unit 203 generates three primary color signals from the signal output from the A / D conversion unit 202 or the signal output from the Y / C separation unit 206 and outputs the three primary color signals to the scaling processing unit 204. The scaling processing unit 204 processes the primary color signal output from the TV signal processing unit 203 so as to become a signal corresponding to the aspect ratio to be displayed, and outputs the signal to the timing controller 205.

  The timing controller 205 includes a source driver signal (data driver signal) 31 that is a signal input to the source driver (data driver) 3 and a gate driver (address driver) 4 from the signals output from the scaling processing unit 204. A gate driver signal (address driver signal) 41, which is a signal input to, is generated.

  In the source driver signal 31, each of the primary color signals has a level indicated by a 6-bit signal. Each of the primary color signals is indicated by a set of 6-bit signals for odd lines and a set of 6-bit signals for even lines.

  That is, the source driver signal 31 is a 6-bit signal indicating the red color of the odd line, a 6-bit signal indicating the red color of the even line, a 6-bit signal indicating the green color of the odd line, and a 6-bit signal indicating the green color of the even line. Signal, a 6-bit signal indicating the blue color of the odd line, and a 6-bit signal indicating the blue color of the even line, and a total of 36-bit signals. As shown). The source driver signal 31 includes a control signal and a clock signal in addition to the primary color signal. On the other hand, the gate driver signal 41 is composed of a control signal and a clock signal.

  Here, the route of the analog video signal 25 input to the input switching unit 201 will be described. Six routes (the composite video signal COMP route, the luminance signal Y / C-Y route, and the color signal Y / C-C route). Each of the path, the luminance signal Y path, the color difference signal Pb path, and the color difference signal Pr path) includes a capacitor C1 that removes a DC component. Further, a capacitor C2 for removing a low frequency component and a high frequency component are removed in each of the paths of the analog power supply P + of an input amplifier (not shown) provided in the input switching unit 201. Is connected to the capacitor C3.

  In addition, an inductor L1 and a resistor R1 are inserted in each path of the source driver signal 31 in order to reduce unnecessary radiation. In addition, an inductor L2 and a resistor R2 are inserted in each path of the gate driver signal 41 in order to reduce unnecessary radiation.

  FIG. 1 is an explanatory diagram showing an outline of the configuration of the embodiment. The same reference numerals as those in FIG. 4 are given to blocks that are the same as those in the prior art shown in FIG. FIG. 2 is an explanatory diagram showing pixel electrodes and thin film transistors formed on a glass substrate. In the following description, the printed wiring pattern is simply referred to as a pattern.

  The liquid crystal display panel 1 having a rectangular shape in plan view is an active matrix type display panel, and includes two glass substrates facing each other with a liquid crystal interposed therebetween. Of these two glass substrates, one glass substrate 5 is formed so as to protrude from the main body 101 of the display panel unit 1 on the left side and the upper side in FIG.

  And the flexible substrate (TAB) 8a, 8b with which the source driver 3 was mounted is connected to the protrusion part 501 of the upper side in the glass substrate 5. FIG. A gate driver 4 integrated on an IC chip made of single crystal silicon is mounted on the left protrusion 502 of the glass substrate 5 by COG (Chip On Glass).

  Further, pixel electrodes 12 arranged in a grid pattern are formed on the glass substrate 5 so as to overlap the display area 102 of the liquid crystal display panel 1. In addition, the thin film transistor 13 corresponding to each of the pixel electrodes 12 is formed using amorphous silicon. The other of the two glass substrates (not shown) has a planar shape substantially the same as that of the main body 101 of the liquid crystal display panel 1, and a common electrode is provided on the surface facing the glass substrate 5. Is formed.

  The source line 14X connected to the source of the thin film transistor 13 is a data line arranged in the X direction of the liquid crystal display panel 1 described in the claims, and is driven by the source driver 3. The gate line 14Y connected to the gate of the thin film transistor 13 is an address line arranged in the Y direction of the liquid crystal display panel 1 according to the claims, and is driven by the gate driver 4.

  The signal processing IC 2 mounted substantially at the center of the main printed circuit board 6 includes an input switching unit 201, an A / D conversion unit 202, a TV signal processing unit 203, a scaling processing unit 204, a timing controller 205, and a timing controller 205 shown in FIG. Integrated block (display signal processing unit for generating a source driver signal (data driver signal) and a gate driver signal (address driver signal) from the video signal described in the claims) comprising a Y / C separation unit 206 IC. An input terminal for the analog video signal 25 is provided along the side 211 of the signal processing IC 2. An output terminal for the source driver signal 31 and an output terminal for the gate driver signal 41 are provided along the sides 212 and 213 (the illustration of these input terminals and output terminals is omitted). ).

  In addition, on the left side of the main printed wiring board 6 in the vicinity of the upper edge in the figure, video signal input terminals 601 (hereinafter simply referred to as input terminals 601) to which the three types of analog video signals 25 shown in FIG. Is provided). Also, in the vicinity of the lower edge of the main printed wiring board 6 and in the vicinity of the center in the left-right direction in the figure, the driver signal output terminals 602 and 603 to which the source driver signal 31 and the gate driver signal 41 are output. (Hereinafter simply referred to as output terminals 602 and 603).

  One of the two areas 61 and 62 located across the mounting position of the signal processing IC 2 on the main printed wiring board 6 is the analog video signal 25 input to the input terminal 601 to the signal processing IC 2. The main part of the pattern forming the analog signal path to be guided (pattern forming the path surrounded by the broken line 21 in FIG. 3), the element forming the analog signal path (capacitor C1), and the path of the analog power supply P + This is an analog area provided with connected capacitors C2 and C3 (a broken line 6011 indicates one of the paths of the analog video signal).

  The other area 62 of the two areas 61 and 62 forms a digital signal path that guides the source driver signal 31 and the gate driver signal 41 output from the signal processing IC 2 to the output terminals 602 and 603. Digital provided with a main part of a pattern (pattern forming a path surrounded by a broken line 22 in FIG. 3) and main parts of elements (inductors L1, L2 and resistors R1, R2) forming the digital signal path (6031 indicates one of the paths of the source driver signal 31).

  The flexible substrate for transmission 604 is generated in the signal processing IC 2, and the source driver signal 31 and the gate driver signal 41 led to the output terminals 602 and 603 through the digital area are supplied to the distribution printed wiring board 7. Form a path to guide. Therefore, a transmission pattern (not shown) in which one end is connected to the output terminals 602 and 603 and the other end is connected to the distribution printed wiring board 7 is formed.

  The distribution printed wiring board 7 is a non-flexible printed wiring board made of glass epoxy, and distributes the source driver signal 31 guided through the transmission flexible board 604 to the five source drivers 3. A distribution pattern (not shown) is formed. In addition, a transmission pattern for guiding the gate driver signal 41 guided through the transmission flexible substrate 604 to the flexible substrate 8a is formed (the gate driver signal 41 is transmitted through the flexible substrate 8a to the glass. Led to the substrate 5).

  The operation of the embodiment having the above configuration will be described.

  Blocks for performing signal processing for generating the source driver signal 31 and the gate driver signal 41 from the analog video signal 25 (input switching unit 201, A / D conversion unit 202, TV signal processing unit 203, scaling processing unit 204) , A timing controller 205, and a block comprising a Y / C separation unit 206) are integrated in one IC called a signal processing IC2. For this reason, compared with the case where the block for performing the signal processing is divided and integrated into two ICs, the substrate area required for mounting the block for performing the signal processing is reduced. Therefore, the total area of the main printed wiring board 6 and the distribution printed wiring board 7 is smaller than the total area of the printed wiring board 911 and the printed wiring board 921 in the prior art.

  The main part of the path of the analog video signal is located in the analog area 61, and the main part of the path of the source driver signal 31 and the gate driver signal 41 is located in the digital area 62. Since the analog area 61 and the digital area 62 are located with the signal processing IC 2 in between, the analog area 61 and the digital area 62 are separated from each other. Therefore, the influence of noise generated from the path of the source driver signal 31 and the gate driver signal 41 on the path of the analog video signal 25 is extremely small.

  In addition, since the distribution printed wiring board 7 is a non-flexible board, even when the board area is relatively large, the occurrence of problems such as disconnection is small when compared with the flexible board. For this reason, when the area of the flexible boards 8a and 8b on which the source driver 3 is mounted is widened and compared with a configuration in which the flexible boards 8a and 8b are directly led to the output terminals 602 and 603, problems such as disconnection are caused. It is possible to reduce the occurrence rate.

It is explanatory drawing which shows the outline of a structure of one Embodiment of the liquid crystal display device based on this invention. It is explanatory drawing which shows the pixel electrode and thin film transistor which were formed in the glass substrate. It is a block diagram which shows the electric constitution of embodiment. It is explanatory drawing which shows the outline of a structure of a prior art. It is a block diagram which shows the electrical structure of a prior art.

Explanation of symbols

1 Liquid crystal display panel 2 Signal processing IC
3 Source driver (data driver)
4 Gate driver (address driver)
5 Glass substrate 6 Main printed circuit board 7 Printed circuit board for distribution 12 Pixel electrode 13 Thin film transistor 25 Analog video signal 31 Source driver signal 41 Gate driver signal 61 Analog area 62 Digital area 601 Video signal input terminal 602, 603 driver Signal output terminal 604 Transmission flexible board 6011 Analog video signal path 6031 Source driver signal path

Claims (4)

A liquid crystal display panel having a glass substrate on which a pixel electrode and a thin film transistor corresponding to the pixel electrode are formed;
A source driver for driving the source line of the liquid crystal display panel based on the source driver signal;
A gate driver for driving the gate line of the liquid crystal display panel based on the signal for the gate driver;
A display signal processing unit for generating a source driver signal and a gate driver signal from the video signal;
A video signal input terminal to which a video signal is input;
A main printed wiring board provided with a driver signal output terminal for outputting a source driver signal and a gate driver signal;
The video signal input to the video signal input terminal is an analog video signal, and the source driver signal and gate driver signal output from the driver signal output terminal are digital signals.
In the liquid crystal display device provided on a substrate different from the main printed wiring board, the source driver and the gate driver are
A flexible substrate for transmission having one end connected to a signal output terminal for driver;
It is made of a non-flexible material and includes a distribution printed wiring board to which the other end of the transmission flexible board is connected,
The display signal processing unit is integrated in one signal processing IC mounted on the main printed circuit board,
Print wiring that forms an analog signal path that guides the video signal input to the video signal input terminal to the signal processing IC, in one of the two areas that are located apart from each other across the mounting position of the signal processing IC on the main printed wiring board It is an area for analog provided with the main part of the pattern and the main part of the element forming the analog signal path,
The other of the two areas includes a main part of a printed wiring pattern that forms a digital signal path for guiding a source driver signal and a gate driver signal output from a signal processing IC to a driver signal output terminal, and the digital signal path. It is a digital area provided with the main part of the element forming
The source driver signal output from the driver signal output terminal is guided to the source driver via the transmission flexible board and the distribution printed wiring board.
A liquid crystal display device, wherein a gate driver signal output from a driver signal output terminal is guided to a gate driver through a transmission flexible board and a distribution printed wiring board. A liquid crystal display panel having a glass substrate on which a pixel electrode and a thin film transistor corresponding to the pixel electrode are formed;
A data driver for driving data lines arranged in the X direction of the liquid crystal display panel based on the data driver signal;
An address driver for driving address lines arranged in the Y direction of the liquid crystal display panel based on an address driver signal;
A display signal processing unit for generating a data driver signal and an address driver signal from the video signal;
A main printed wiring board provided with a video signal input terminal to which a video signal is input and a driver signal output terminal to which a data driver signal and an address driver signal are output;
The video signal input to the video signal input terminal is an analog video signal,
The data driver signal and address driver signal output from the driver signal output terminal are digital signals.
In the liquid crystal display device provided on a substrate different from the main printed wiring board, the data driver and the address driver are
The display signal processing unit is integrated in one signal processing IC mounted on the main printed circuit board,
Print wiring that forms an analog signal path that guides the video signal input to the video signal input terminal to the signal processing IC, in one of the two areas that are located apart from each other across the mounting position of the signal processing IC on the main printed wiring board It is an area for analog provided with the main part of the pattern and the main part of the element forming the analog signal path,
The other of the two areas includes a main part of a printed wiring pattern that forms a digital signal path for guiding a data driver signal and an address driver signal output from a signal processing IC to a driver signal output terminal, and the digital signal path. A liquid crystal display device characterized in that it is a digital area provided with a main part of an element forming the element. The inductor element and a resistance element are inserted into a path for outputting the generated source driver signal and a path for outputting the generated gate driver signal, respectively, in the display signal processing unit. 2. A liquid crystal display device according to 1. 3. The display signal processing unit according to claim 2, wherein an inductor element and a resistance element are inserted in a path through which the data driver signal is output and a path through which the address driver signal is output, respectively. The liquid crystal display device described.

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