TW200926123A - Liquid crystal display and driving chip thereof - Google Patents

Abstract

The present invention relates to a liquid crystal display and a driving chip thereof. The driving chip includes a plurality of input pins employed for connecting with external, at least one controlling pin, a processing circuit including a plurality of input ends, and an interface circuit respectively connected to the input pins, the controlling pin, and the input ends. The processing circuit is employed for processing data received from the input ends. The interface circuit is capable of creating a plurality of connecting modes between the input pins and input ends corresponding to signal received from the controlling pin.

Description

200926123 IX. Description of the Invention: TECHNICAL FIELD OF THE INVENTION The present invention relates to a liquid crystal display device and a driving wafer therefor. - [Prior Art] Liquid crystal display devices are widely used in mobile phones, personal digital assistants (PDAs), and portable electronic devices as image display devices because of their low radiation, light weight, and low power consumption. Please refer to FIG. 1 , which is a schematic diagram of a planar structure of a liquid crystal display device applied to a portable @ electronic device according to the prior art. The liquid crystal display device 1 generally includes a flexible circuit board 110, a liquid crystal display panel 130, and a driving wafer 120 for driving the liquid crystal display panel 130. The driving chip 120 is disposed at an edge of the liquid crystal display panel 130 and includes a plurality of terminals 121. The terminal 121 is sequentially connected to a gold finger 122 located at the edge of the liquid crystal display panel 130 through a conductive line located on the liquid crystal display panel 130. A gold finger 111 is also disposed at the end of the flexible circuit board 110. The plurality of pins of the gold finger 111 of the flexible circuit board are correspondingly connected to the plurality of pins of the gold finger 122 of the liquid crystal display device to realize the connection between the flexible circuit board 110 and the driving chip 120. Referring to FIG. 2 together, FIG. 1 is a schematic diagram showing the relationship between the driving of the wafer 120 and the gold finger 122 by the liquid crystal display device 1 shown in FIG. Among the plurality of terminals 121 of the driving chip 120, the 0th to 15th bits are valid input terminals. The 0th to 15th bits of the gold finger 122 are connected to the 0th to 15th terminal 121 of the driving wafer 120. The display signal of the external transmission is received from the 0th to the 15th bits of the golden finger 122, so that the display signal can be smoothly input to the driving wafer 120. 6 200926123 an and referring to FIG. 3 is a schematic diagram showing the electrical connection relationship between the driving chip and the gold finger of another liquid crystal display device disclosed in the prior art. The liquid crystal display device 2 differs from the liquid crystal display device i in that the first to eighth bits and the first to seventh bits of the plurality of terminals 221 of the driving chip are effective input terminals. The third to seventh terminals of the gold finger 222 are correspondingly connected to the first to eighth terminals 221 of the driving chip 220, and the first to fifteenth bits of the gold finger 222 are correspondingly connected to the first to the driving chip 220. 17-bit terminal 221-. Since the first to the fifteenth bits of the golden finger 222 receive the external signal, the display signal can be smoothly input to the driving chip, and the liquid crystal display of the liquid crystal display device i and the liquid crystal display device 2 is respectively The difference in the layout of the conductive lines on the panel makes the liquid crystal display device 1 and the driving wafer 220 and the liquid crystal display device 2 and the driving wafer 120 incompatible, resulting in poor compatibility of the driving wafers 12, 22, and the liquid crystal display. The design of the devices 1 and 2 is highly limited. SUMMARY OF THE INVENTION In view of the above, it is necessary to provide a driver chip with better compatibility. At the same time, a liquid crystal display device having a lower design limitation is also provided as a driving chip, which includes a plurality of driving electrodes for electrically connecting the driving chip to the external input terminal, at least one control terminal, and a data processing. a circuit and an interface circuit, the data processing circuit comprising a plurality of input terminals, wherein the data processing circuit processes data received from the input terminal; the complex input terminal, the control terminal and the plurality of input terminals are connected to the interface circuit The interface circuit establishes a corresponding electrical connection mode with the complex digital input terminal according to the signal of the control terminal. 2009 26 200926123 A driving chip comprising a plurality of input terminals for electrically connecting the driving chip and the external, at least one control terminal, a data processing circuit and an interface-circuit, the data processing circuit comprising a plurality of inputs, the data The processing circuit is configured to process data received from the input terminal; the interface circuit includes a plurality of connection branches, each connection branch includes at least one switching element, and at least one input terminal is connected to at least two by at least two connection branches The input terminal controls the on and off of the switching elements of the plurality of connection branches according to the signal of the control terminal. A liquid crystal display device comprising a liquid crystal display panel, a driving chip for driving the liquid crystal display panel, and a flexible circuit board connected to the driving chip, the driving chip including a plurality of the driving chip and the external Electrically connecting an input terminal, at least one control terminal, a data processing circuit and an interface circuit, the data processing circuit comprising a plurality of input terminals, the data processing circuit is configured to process data received from the input terminal; the complex input terminal, the The control terminal and the plurality of input terminals are both connected to the interface circuit, and the interface circuit establishes a corresponding electrical connection mode between the plurality of input terminals and the plurality of input terminals according to the signal of the control terminal. A liquid crystal display device comprising a liquid crystal display panel, a driving chip for driving the liquid crystal display panel, and a flexible circuit board connected to the driving chip, the driving chip comprising a plurality of electrodes for electrically driving the driving chip and the external circuit Connecting an input terminal, at least one control terminal, a data processing circuit and an interface circuit, the data processing circuit comprising a plurality of input terminals, the data processing circuit is configured to process data received from the input terminal; the interface circuit comprises a plurality of connection branches Each of the connecting branches includes at least one switching element, and the at least one input terminal is connected to the at least two input ends by at least two connecting branches, and the interface circuit controls the switching elements of the plurality of connecting branches according to the signal of the control terminal On and off. 8 200926123 Compared with the prior art, the driving chip of the present invention can adopt the design of the interface circuit, and can change the actual arrangement order of the input terminals under the control of the control terminal, thereby adapting the driving chip to various external environments. Connection line - road, better compatibility. Compared with the prior art, the liquid crystal display device of the present invention can make the liquid crystal display device have a plurality of wiring designs by using the driver wafer with better compatibility, and the design of the liquid crystal display device is limited. [Embodiment] φ Referring to Fig. 4, a plan view of a first embodiment of a liquid crystal display device of the present invention is shown. The liquid crystal display device 3 includes a flexible circuit board 310, a driving chip 320 and a liquid crystal display panel 300. The flexible circuit board 310 is connected to the drive wafer 320. The driving chip 320 is disposed at an edge of the liquid crystal display panel 330 for driving the liquid crystal display panel 330 to display a corresponding image according to a display signal received from the flexible circuit board 310. The flexible circuit board 310 includes a gold finger 311 disposed at an end portion. The gold finger 311 includes a plurality of pins 312. The liquid crystal display panel 330 includes a gold finger 331 disposed on the edge and an active matrix 392 located in the middle of the liquid crystal display surface 330. The gold finger 331 includes a plurality of pins 332. Referring to FIG. 5, an enlarged schematic view of the driving die 320 shown in FIG. 4 is shown. The driving chip 320 includes a plurality of input terminals P 〇 P P17, a control terminal Ctrl, and a plurality of output terminals T 〇 T Tn, where η > The input terminals P 〇 P P17 of the driving chip 320 are connected to the plurality of pins 332 of the gold finger 331 by the conductive lines on the liquid crystal display panel 330, and the output terminals T 〇 T Tn are connected to the active matrix 392. 200926123 Referring to Figure 6, the circuit structure of the driver chip 320 shown in Figure 4 is not intended. The driver chip 32 further includes an interface circuit 323 and a data processing circuit 324. The data processing circuit 324 includes a plurality of inputs, terminals 1 〇 117 117 and complex outputs 〇 n. The input terminal Po-Pn of the driver chip 320 is connected via the interface circuit 323 to the input terminals iG to η of the data processing circuit 324, and the interface circuit 323 is connected to the control terminal ctd. The output terminals 〇〇~〇11 of the data processing circuit 324 are sequentially connected to the output terminals T〇~τη. The interface circuit 323 is configured to be based on the signal of the control terminal Ctrl 于 at the input end? P〇~Pi7 establishes a corresponding electrical connection mode with the input terminal 〇7. The data processing circuit 324 is configured to process the data received from the input unit' to generate a drive signal based on the received display signal. In the driving chip 320, the input terminal 1 is wide and the input terminals Ιι〇~Ii7 are valid input terminals of the signal. The interface circuit 323 includes two groups of channel metal oxide semiconductor field effect transistors (as a switching element) The first group of transistors includes a transistor q. The source electrodes are respectively connected to the input terminals PG to Pn in sequence, and the drains thereof are sequentially connected to the input terminals ι〇 to ι1, respectively, and the gates thereof are all connected to the control terminal Ctri. The second group of transistors The sources of the t crystals W0 to W15 are respectively connected to the input terminals P0 to Pl5 in sequence, and the drains of the transistors w〇 to w7 are sequentially connected to the input terminal 1 respectively. The transistor Ws~Wi5 The gates are sequentially connected to the input terminals 110 to In, and the gates of the second group of transistors w〇 to Wi5 are connected to the control terminal Ctrl by the reverse gate N. At this point, the input can be Between the sub-Po-Pn and the input terminal by the transistor 〇〇~Ο", 200926123 W〇~W15 Respectively forming a plurality of connection leg. When the control terminal ctrl is connected to a high level, the first group of transistors Q0 to Q17 are turned on and the second group of transistors w. ~ Wi5 is turned off, so that the input terminal 1 > 〇 7 7 are sequentially connected to the wheel in turn respectively. When the control terminal ctd is connected to a low level, the first group of transistors qQi7 is turned off and the second group of transistors is turned off. WpWu is turned on, so that the input terminals p〇~p7 are sequentially connected to the input terminal "~;[s, the input terminals P8 to Pi5 are sequentially connected to the input terminals 11() to 117, respectively. 7 is a schematic diagram of the electrical connection mode of the driving chip 32 shown in FIG. 5. As shown by the solid line in FIG. 7, when the third finger to the seventh position of the gold finger 331 on the liquid crystal display panel 330 is connected The legs 332 are respectively connected to the input terminal PpPs, and the eighth to fifteenth pins 332 of the gold finger 331 are sequentially connected to the input terminals Ρ1〇 to Ρn, respectively, and the control terminal Ctrl is connected. The display signal of the 16-bit can be smoothly input to the signal valid input terminal ΙγΙ8 of the driver chip 320 and the display signal of the external transmission is received from the third to the fifteenth pin 332 of the gold finger 331. 11{)~117. As shown in the dotted line shown in Figure 7, When the third to fifteenth pins 332 of the gold finger 331 on the liquid crystal display panel 330 are sequentially connected to the input terminals pQ~Pl5, respectively, the control terminal Ctrl is connected to a low level. The 331th to the 15th pin 332 receives the external transmission display signal, so the display signal can be smoothly input to the signal valid input terminal of the .3⁄4 mobile bs chip 320. It can be seen that only the input is changed to the The signal of the control terminal Ctrl can establish a different electrical connection mode between the plurality of input terminals and the plurality of input terminals. 11 200926123 Compared with the prior art, the driving chip 32 of the liquid crystal display device 3 of the present invention is adopted. The interface circuit 323 is designed such that the input terminals PG 〜 Pl7 of the driver chip 32 与 and the data processing circuit 324 of the actual data processing function can be connected in various ways, so that the driver chip 320 is compatible. Further, since the connection between the gold finger 331 of the liquid crystal display device 3 and the driving chip 320 can be variously designed, the design limitation of the liquid crystal display device 3 is Referring to Fig. 8, a partial structural view of a liquid crystal display device according to a second embodiment of the present invention is different from the liquid crystal display device 3. The driving chip 42 includes a plurality of control terminals Ctrl1 to Ctrln. And a plurality of input terminals p 〇, ρ / , the data processing circuit includes a plurality of input terminals V V V, wherein n > 1, m > 3. The control terminal CtrlKtrln ', the input terminal and the input terminal are connected to the interface circuit 423 is connected, and the interface circuit 423 can be connected to the input terminal of the data processing circuit 424 at the input terminal p〇, ~pm of the driving chip 42 according to the control signal input by the control terminal Ctd_Ctrln'. , ~ 匕, establish a plurality of electrical connection modes. When the signal input to the control terminal CtrUCtdn changes, the electrical connection mode established between the complex input terminals ρ 〇, ρ 〆 and the complex input terminals I 〇 f 〜 Im ' also changes. In summary, the present invention has indeed met the requirements of the invention, and has filed a patent application in accordance with the law. However, the above description is only a preferred embodiment of the present invention, and the scope of the present invention is not limited to the above-described embodiments, and those skilled in the art will be able to make equivalent modifications or variations in accordance with the spirit of the present invention. It should be covered by the following patent application. 12 200926123 [Simplified description of the drawings] Fig. 1 is a schematic structural view of a liquid crystal display device applied to a portable electronic device disclosed in the prior art. FIG. 2 is a schematic diagram showing the electrical connection relationship of the liquid crystal display device shown in FIG. Fig. 3 is a schematic view showing the electrical connection relationship of another liquid crystal display device disclosed in the prior art. 4 is a schematic structural view of a first embodiment of a liquid crystal display device of the present invention. FIG. 5 is a schematic enlarged view of the driving chip shown in FIG. FIG. 6 is a circuit diagram showing the structure of the driving chip shown in FIG. FIG. 7 is a schematic diagram showing the working principle of the driving wafer shown in FIG. 5. Figure 8 is a second view of the liquid crystal display device of the present invention. Also the partial structure of the mode [main component symbol description] liquid crystal display device flexible circuit board 3, 4 gold finger 310 311 > 331 312 320 , 420 330 392 323 ' 423 pin ❹ drive wafer liquid crystal display panel active matrix interface circuit data Processing circuit input terminal input terminal transistor P, P, ρ τ) 324, 424 P° Pl P2, P” 卜~Pl5, P16, ι〇>ι^ι2^ι7> ι8 Q〇, Qi, Q2, q7 , II7, V, V, V, lm,

Qs, Q9, Q10, q15, 13 200926123 Output Terminal Output Terminal Control Terminal

Ql6, W〇, Wi, W2, W7, W8, w9, w10 ' w15 0〇, 〇l, 〇2, On T0, T2, Tn Ctrl > Ctrll, ' Ctrl2', Ctrln,

N φί ❹ 14

Claims (1)

200926123 X. Patent Application Range 1. A driving chip comprising: ^ a plurality of input terminals for electrically connecting the driving chip to an external; - at least one control terminal; a data processing circuit including a plurality of input terminals, the data The processing circuit is configured to process data received from the input end; an interface circuit, the plurality of input terminals, the control terminal, and the plurality of input terminals are all connected to the interface circuit, and the interface circuit is configured according to the signal of the control terminal A corresponding electrical connection mode is established between the plurality of input terminals and the plurality of input terminals. 2. The driver chip of claim 1, wherein when the signal input to the control terminal changes, the electrical connection mode established between the plurality of input terminals and the plurality of wheel terminals is followed. Variety. The driving chip described in claim 1, wherein the number of the wheel-in terminals of the driving blade is equal to the amount of the input terminal of the data processing circuit. The driver chip of claim 3, wherein the number of the input terminal and the input terminal are 18, wherein the plurality of input terminals are the zeroth to the seventeenth input terminals, respectively. The inputs are the zeroth to seventeenth inputs respectively. 5. The driving chip of claim 4, wherein the electrical connection mode of the plurality of terminals corresponding to the plurality of input terminals comprises a first electrical connection mode and a second electrical connection mode, the first electrical connection The mode is that the zeroth to the seventeenth input terminals are sequentially connected to the zeroth to the seventeenth input terminals respectively. The second electrical connection mode is the zeroth to seventh input terminals 15 200926123: not sequentially connected Up to the first to eighth input terminals, the eighth to fifth input terminals are respectively sequentially connected to the tenth seventeenth input terminal. The driving chip of claim 4, wherein the interface includes a first group of transistors and a second group of transistors, the first group of positive electrodes including the zeroth to seventeenth transistors, The second group of transistors includes = zero to the fifth transistor. The zeroth to seventeenth input terminals are respectively connected to the zeroth by the zeroth to the seventeenth transistors of the first group. Up to the seventeenth input end, the zeroth to seventh input terminals are respectively connected to the first to eighth input terminals by the zeroth to seventh transistors of the second group, respectively, the eighth The fifteenth input terminals are respectively connected to the tenth to seventeenth input terminals by the eighth to fifteenth transistors, respectively. The driving chip of claim 6, wherein the number of the control terminals is one, the gates of the first group of transistors are connected to the control cake, and the gates of the second group of transistors are borrowed Connected to the control terminal by a reverse gate. 〇8. A driving chip, comprising: a plurality of input terminals for electrically connecting the driving chip to an external; at least one control terminal; a data processing circuit including a plurality of input terminals, the data processing circuit for processing Data received by the input; an interface circuit 'which includes a plurality of connection branches' each connection branch includes at least one switching element, and at least one input terminal is connected to at least two inputs by at least two connection branches, the interface The circuit controls the switching of the switching elements of the plurality of connection branches according to the signal of the control terminal. 11 16 200926123 9. The driving chip according to claim 8 of the patent application, wherein the electrical connection relationship between the input terminals of the plurality of input terminals changes when the signals of the terminals of the (4) terminals are changed. The number of the driving chips described in claim 8, wherein the number of input terminals of the wafer is equal to the amount of driving of the data processing circuit. And the number of the gossip. 11. The driving chip according to claim 10, wherein: the number of the input terminal and the input terminal are 18, ς = round::: other is the zeroth to the first Seventeen input terminals, which turn in zero to the seventeenth input. Referring to the driver system of claim 12, the plurality of connection branches of the port circuit include a “first group connection”; a connection = a branch road, and the first group connection branch includes a zeroth To the seventeenth ^=zero branch branch including the zeroth to fifteenth connection branch ^the zeroth to the seventeenth input terminal are respectively connected by the first and the ❹=17 connection branch respectively The zeroth to the seventeenth input end: the first zero to the seventh input terminal are sequentially connected by the second group, and the connection branch is correspondingly connected to the first to eighth input ends, the eighth to The fifteenth input terminal is sequentially connected to the tenth to seventeenth input terminals by the first to tenth paths, respectively. The driving chip according to claim 12, wherein the switching element of the port circuit is a transistor.驱动 Applicant as claimed in claim 13 wherein the number of :: is a 'transistor of the first set of connecting branches; connected to the control terminal, the second set of connecting branches The opening of the transistor 17 200926123 is connected to the control terminal by a reverse gate. 15. A liquid crystal display device comprising: a liquid crystal display panel, a driving chip for driving the liquid crystal display panel, and a flexible circuit board connected to the driving chip. The driving chip comprises: a plurality of input terminals, For electrically connecting the driving chip to the external; at least one control terminal; a data processing circuit including a plurality of input terminals, the data processing circuit is configured to process data received from the input terminal; the first interface circuit, the complex number The input terminal, the control terminal and the plurality of input terminals are all connected to the interface circuit, and the interface circuit establishes a corresponding electrical connection mode between the plurality of input terminals and the plurality of input terminals according to the signal of the control terminal. The liquid crystal display device of claim 15, wherein the electrical connection mode established between the plurality of input terminals and the plurality of input terminals changes as the signal input to the control terminal changes. . 17. The liquid crystal display device of claim 15, wherein the number of input terminals of the <11-moving chip is equal to the number of input terminals of the data processing circuit. The liquid crystal display device of claim 17, wherein the number of the input terminal and the input terminal are 18, wherein the plurality of input terminals are the zeroth to the seventeenth input terminals, respectively. The ends are the zeroth to seventeenth inputs respectively. 9. The liquid crystal display device of claim 18, wherein the electrical connection mode of the plurality of terminals corresponding to the plurality of input terminals comprises a first electrical connection mode and -帛: electrical connection mode, _ Electrical connection mode 18 200926123 is the zeroth to the seventeenth output ^, = terminal sub-feeds should be fed to the zero-input terminal respectively = electrical connection mode is the zeroth to seventh loss. eight to tenth Listen to ^ to the m-th person, the first input. The scorpion is sequentially connected to the liquid crystal display group-group Thunder 电 electro-crystal and the second group of transistors described in the tenth to seventeenth (IV) 1δ items, and the 鸲 俨勹乜筮曰曰 第Zero to seventeenth transistor, the second group of electro-crystals: the body, the zeroth to seventeenth input terminals = to the seventh: the input terminal 'the zero to the seventh input two: the first group The first to seventh transistors are correspondingly connected to the eighth input terminal, and the first to fifteenth input terminals are respectively connected to the tenth to seventeenth input by the eighth to fifteenth transistors respectively. The liquid crystal display device of claim 2, wherein: the number of the control terminals is one, the poles of the first transistor are connected to the control terminal, and the second group of electricity The gate of the crystal is connected to the control terminal by a reverse connection. 22. A liquid crystal display device comprising a liquid crystal display panel, a driving chip for driving the liquid crystal display panel, and a flexible circuit board connected to the driving chip, the driving chip comprising: a plurality of input terminals for making The driver chip is electrically connected to the outside; at least one control terminal; a data processing circuit including a plurality of wheel-in terminals, the data processing circuit 19 200926123 for processing data received from the input terminal; and an interface circuit including a plurality of a connecting branch, each connecting branch includes: a switching element, wherein at least one input terminal is connected to at least two input ends by at least two connecting branches, and the interface circuit controls the plurality of connecting branches according to the signal of the control terminal The switching element is turned on and off. The liquid crystal display device of claim 22, wherein when the signal input to the control terminal changes, the electrical connection relationship between the plurality of input terminals and the plurality of input terminals also changes. The liquid crystal display device of claim 22, wherein the number of input terminals of the driving chip is equal to the number of input terminals of the data processing circuit. The liquid crystal display device of claim 24, wherein the number of the input terminal and the input terminal are 18, wherein the plurality of sub-numbers are the zeroth to the seventeenth input terminals, respectively. , Input: The zeroth to the seventeenth input respectively. The liquid crystal display device of claim 25, wherein the plurality of connection branches of the interface circuit comprise a first group connection branch and a group of connection branches. Zero to seventeenth said branch branch 'the second group of connecting branches including the zeroth to the fifteenth connecting branch from the zeroth to the seventeenth input terminal respectively borrowing (four) the end of the first group, the zeroth: The road correspondingly connected to the zeroth to the seventeenth round of the zeroth to the seventh material branch is connected to the 帛1, 145 input terminal, respectively, and the fifth branch is connected to the tenth to seventeenth respectively. Human end.斜五连20 200926123 27. The switching element of the liquid crystal display device of the liquid crystal display device according to the second aspect of the invention is a transistor. 28) The liquid crystal display according to claim 27, wherein the number of the control terminals is one, and the gate of the first-stage connecting branch is connected to the control terminal, the second The gate of the group connection branch is connected to the control terminal by a reverse gate. ❹ ❹ 21