US Pat. No. 9,465,262

DISPLAY PANEL AND DISPLAY DEVICE

INNOLUX CORPORATION, Mia...

1. A display panel, comprising:
a first substrate;
a second substrate; and
a pixel array disposed between the first substrate and the second substrate and comprising:
a pixel electrode;
a data line disposed adjacent to the pixel electrode and disposed above a side of the first substrate facing the second substrate,
wherein the pixel electrode comprises a first trunk electrode and a plurality of branch electrodes, an extension of the first
trunk electrode along a first direction crosses the data line, the first trunk electrode connects to the branch electrodes,
and the branch electrodes extend along a second direction, wherein an angle y is formed by the first direction and the second
direction, x is the value of the ppi of the display panel, and x and y satisfy the following equations:

A1=?1.28×10?5(x)3+0.0047722(x)2?0.383068(x)+59.494865,

B1=?2.38×10?5(x)3+0.0093751(x)2?1.098394(x)2?1.098394(x)+81.919357,

B1 45°

US Pat. No. 9,161,455

METHOD OF FABRICATING OF CIRCUIT BOARD

Taiwan TFT LCD Associatio...

1. A method of fabricating a circuit board, comprising:
forming a elastic bump material layer on a substrate;
patterning the elastic bump material layer to form a plurality of first elastic bumps and a plurality of second elastic bumps,
arranged in at least an array, wherein a first number of the plurality of second elastic bumps is not adjacent to the plurality
of first elastic bumps;

forming at least a conductive layer, covering the plurality of first and second elastic bumps and the substrate;
patterning the conductive layer to form a patterned circuit layer covering the first plurality of elastic bumps and a portion
of the substrate, wherein an entirety of the plurality of second elastic bumps and another portion of the substrate are not
covered by the patterned circuit layer; and

forming a protection layer, wherein the protection layer covers a portion of the patterned circuit layer, a second number
of the plurality of second elastic bumps entirely, a third number of the plurality of second elastic bumps partially and the
another portion of the substrate, and exposes the first number of the plurality of second elastic bumps.

US Pat. No. 9,047,834

METHOD FOR DRIVING LIQUID CRYSTAL DISPLAY AND LIQUID CRYSTAL DISPLAY USING SAME

INNOLUX CORPORATION, Mia...

1. A liquid crystal display (LCD), comprising:
a plurality of data lines;
a plurality of scanning lines;
a plurality of pixel units defining by the data lines and the scanning lines, the pixel units arranged as a matrix array with
a plurality of columns and rows;

a data driver providing a plurality of data signals;
a scanning driver providing a plurality of scanning signals; and
wherein an arbitrary one column of the matrix array is selected and divided into two pixel groups according to the polarities
of the data signals applied to the pixel units within a current frame, one of the pixel groups with a same polarity is defined
as a first polarity group and another one of the pixel groups with a polarity opposite to the polarity of the first polarity
group is defined as a second polarity group, a part of the pixel units in the first polarity group are arranged in adjacent
to each other, a part of the pixel units in the second polarity group are arranged in adjacent to each other, and the data
driver outputs corresponding data signals to the first polarity group and then outputs corresponding data signals to the second
polarity group.

US Pat. No. 9,095,059

DISPLAY PANEL INTEGRATING A DRIVING CIRCUIT

INNOLUX CORPORATION, Mia...

1. A display panel, comprising:
a periphery area;
an active display area adjacent to the periphery area;
a driving chip disposed out of the active display area for driving the active display area; and
a plurality of wires electrically connecting the driving chip and the active display area;
wherein at least one first wire of the plurality of wires has a first side with a first curvature radius and a second side
with a second curvature radius different from the first curvature radius, and the as least one first wire is disposed in the
periphery area.

US Pat. No. 9,516,759

MULTILAYER STRUCTURE, FINGERPRINT IDENTIFICATION DEVICE AND MANUFACTURING METHOD THEREOF

INNOLUX CORPORATION, Mia...

1. A multilayer structure, comprising:
an insulation material;
a conductive layer disposed on the insulation material; and
a protective film disposed on the surface of conductive layer, wherein the surface area of the protective film is less than
that of the conductive layer, wherein the protective film comprises diamond-like carbon;

wherein the conductive layer has a remaining region surrounding the protective film, the surface of the remaining region and
the surface of the protective film have a sectional difference therebetween, and the sectional difference is extended from
the surface of the protective film to incline towards the surface of the remaining region.

US Pat. No. 9,360,606

COLOR FILTER SUBSTRATE AND DISPLAY PANEL

INNOLUX CORPORATION, Jhu...

1. A color filter substrate, comprising:
a substrate having a surface;
a light-shielding layer disposed on the surface;
a first color filter layer disposed on the surface, wherein the first color filter layer covers the light-shielding layer;
and

a second color filter layer disposed on the surface, wherein the second color filter layer covers the light-shielding layer
and the first color filter layer,

wherein the light-shielding layer is located between the first color filter layer and the second color filter layer, the light-shielding
layer has a first sidewall in direct contact with the first color filter layer, the first sidewall and the surface form a
first angle, the light-shielding layer has a second sidewall in direct contact with the second color filter layer, the second
sidewall and the surface form a second angle, and the second angle is less than the first angle.

US Pat. No. 9,082,501

SHIFT REGISTER APPARATUS AND DISPLAY SYSTEM UTILIZING THE SAME

INNOLUX CORPORATION, Chu...

1. A shift register apparatus, comprising:
a plurality of shift registers, each shift register comprising:
a first shift register cell, which are serially connected, each of the shift register cell having an input terminal connected
to an output terminal of a preceding shift register cell and an output terminal connected to an input terminal of a succeeding
shift register cell, comprising:

a first logic unit generating a first control signal and a second control signal according to a start signal from the input
terminal and a first setting signal;

a first control unit according to the first and second control signals to make a first clock signal from the input terminal
update the first setting signal during a first period; and

a first output unit outputting a first shifted output signal to the output terminal, wherein during the first period, the
first output unit employs the first and second control signals to make a second clock signal from the input terminal update
the first shifted output signal, and during the second period, the first output unit controls the first shifted output signal
according to the first and second control signals such that the first shifted output signal does not follow the second clock
signal.

US Pat. No. 9,046,721

SUBSTRATE AND DISPLAY DEVICE HAVING THE SAME

INNOLUX CORPORATION, Mia...

1. A display device, comprising:
a first base substrate;
a second base substrate;
a liquid crystal layer, disposed between the first base substrate and the second base substrate;
an electrode structure, disposed on at least one of the first base substrate and the second base substrate; and
a conductive protrusion structure, disposed on at least one of the first base substrate, the second base substrate and the
electrode structure, wherein the conductive protrusion structure comprises a plurality of conductive protrusions in a predetermined
arrangement, a first gap between two adjacent rows of the conductive protrusions ranges between 0.01 ?m and 20 ?m, a second
gap between the conductive protrusions of a same row ranges between 0.01 ?m and 20 ?m, and a density of the conductive protrusions
is 10?2 to 106 conductive protrusions per 100 ?m2.

US Pat. No. 9,457,551

METHOD FOR MANUFACTURING DISPLAY

INNOCOM TECHNOLOGY (SHENZ...

1. A method for manufacturing a display, comprising:
providing a first to-be-released structure, wherein the first to-be-released structure comprises a first carrying layer, a
first release layer, a first flexible layer and a first display structure which are sequentially stacked together;

at least separating the first carrying layer from the first to-be-released structure to form a first to-be-bonded structure;
bonding the first to-be-bonded structure on a first supporting layer of a second carrying layer, a first separation layer
and the first supporting layer which are sequentially stacked together to form a first laminated structure, wherein the first
laminated structure at least comprises the first supporting layer, the first flexible layer and the first display structure
which are sequentially stacked together;

providing a second laminated structure, wherein the second laminated structure at least comprises a second supporting layer
and a second display structure which are sequentially stacked together; and

bonding the first laminated structure and the second laminated structure.

US Pat. No. 9,202,415

OLED-BASED DISPLAY DEVICE INCLUDING A PIXEL CIRCUIT, AND DRIVING METHODS THEREOF

INNOCOM TECHNOLOGY (SHENZ...

1. An organic light emitting diode (OLED) based display device comprising a pixel circuit that includes: an organic light
emitting diode (OLED) having an anode and a cathode to be connected electrically to a first power terminal; a transistor having
a first terminal, a second terminal that is connected electrically to said anode of said OLED, and a control terminal; a first
capacitor having a first terminal and a second terminal that is connected electrically to said control terminal of said transistor;
a second capacitor having a first terminal that is connected electrically to said first terminal of said first capacitor,
and a second terminal that is connected electrically to said second terminal of said transistor; a first switch having a first
terminal that is disposed to receive a data signal, a second terminal that is connected electrically to said first terminal
of said first capacitor and said first terminal of said second capacitor, and a control terminal that is disposed to receive
a scanning signal, said first switch being operable to switch between a conductive state and a non-conductive state according
to the scanning signal received by said first switch; a second switch having a first terminal that is to be connected electrically
to a second power terminal, a second terminal that is connected electrically to said first terminal of said transistor, and
a control terminal that is disposed to receive an enable signal, said second switch being operable to switch between a conductive
state and a non-conductive state according to the enable signal received by said second switch; a third switch having a first
terminal that is connected electrically to said first terminal of said transistor, a second terminal that is connected electrically
to said control terminal of said transistor, and a control terminal that is disposed to receive a compensation signal, said
third switch being operable to switch between a conductive state and a non-conductive state according to the compensation
signal received by said third switch; and a switching unit connected electrically to said second terminal of said transistor,
disposed to receive the compensation signal, and operable to switch between a conductive state and a non-conductive state
according to the compensation signal received by said switching unit; wherein said switching unit is configured to transmit
one of the enable signal, voltage at said first terminal of said first capacitor, and a reference signal when said switching
unit is operated in the conductive state.

US Pat. No. 9,176,345

SYSTEM FOR DISPLAY IMAGES

INNOCOM TECHNOLOGY(SHENZH...

1. A system for displaying images, including a display panel, having a display area and a peripheral area surrounding the
display area, wherein the display panel comprises:
a first substrate;
a metal layer disposed on the first substrate;
a patterned planarization layer disposed on the first substrate, having at least one opening corresponding to the peripheral
area, wherein a portion of the metal layer is exposed through the opening, and the patterned planarization layer has a sidewall
exposed by the opening;

a second substrate disposed opposite to the first substrate;
a seal disposed between the first and the second substrates and at the peripheral area, wherein the seal covers the metal
layer through the opening of the patterned planarization layer; and

a passivation layer disposed on the exposed metal layer and covering the sidewall of the patterned planarization layer to
form a passivation sidewall,

wherein the seal contacts with the passivation layer at the peripheral area and contacts with the passivation sidewall.

US Pat. No. 9,091,427

DISPLAY APPARATUS AND MANUFACTURING METHOD THEREOF

INNOLUX CORPORATION, Mia...

1. A display apparatus, comprising:
a display panel, emitting a green light having a green energy and a green point of the CIE 1931 xy chromaticity under the
operation of the highest gray level of a green image, and emitting a blue light having a blue energy and a blue point of the
CIE 1931 xy chromaticity under the operation of the highest gray level of a blue image,

wherein the ratio of the green energy to the blue energy is between 0.7 and 1.2 and the coordinates of the blue point in the
CIE 1931 xy chromaticity diagram are bounded by the equation: y=?168.72x2+50.312x?3.635 and the equation: y=?168.72x2+63 0.81x?5.9174, while the y is between 0.04 and 0.08,

wherein the coordinates of the green point in the chromaticity diagram are bounded by the equation: y=?48.85x2+22.964x?2.0014 and the equation: y=?48.85x2+26.872x?2.9981, while the y is between 0.64 and 0.7.

US Pat. No. 9,048,458

METHOD OF FABRICATING PIXEL STRUCTURE FOR ORGANIC LIGHT-EMITTING DISPLAY

INNOLUX CORPORATION, (TW...

1. A method of fabricating a pixel structure for an organic light-emitting display, comprising:
providing a substrate having a plurality of series of sub-pixel regions arranged in parallel;
forming an auxiliary electrode layer on the substrate, wherein the auxiliary electrode layer corresponds to at least a sub-pixel
region in the plurality of series of sub-pixel regions, wherein the auxiliary electrode layer is coupled to a first power
voltage;

forming a first insulating layer on the substrate and covering the auxiliary electrode layer, wherein the first insulating
layer has at least a first opening to partially expose the auxiliary electrode layer;

forming a lower electrode layer on the substrate in each sub-pixel region in the plurality of series of sub-pixel regions;
forming an organic light-emitting layer on each lower electrode layer, filling the first opening;
forming an upper electrode layer on the organic light-emitting layer; and
performing a laser process to the upper electrode layer and the organic light-emitting layer directly on the first opening
to form at least a third opening therein, wherein the third opening is in the upper electrode layer and penetrates through
the organic light-emitting layer, such that the upper electrode layer and the auxiliary electrode layer are connected via
welding through the third opening.

US Pat. No. 9,316,871

LIQUID CRYSTAL DISPLAY AND METHOD FOR FABRICATING THE SAME

INNOLUX CORPORATION, Jhu...

1. A liquid crystal display, comprising:
a substrate, wherein the substrate comprises a first flat electrode formed thereon;
a first alignment layer formed on the first flat electrode;
a second substrate disposed oppositely to the first substrate, wherein the second substrate comprises a gate line, a data
line and a second flat electrode, wherein the gate line intersects with the data line to define a pixel region, the pixel
region comprises at least one sub-pixel electrode region, and an area of the second flat electrode is smaller than that of
the first flat electrode;

a second alignment layer formed on the second flat electrode; and
a liquid crystal layer formed between the first substrate and the second substrate,
wherein a distance between a borderline of pixel region and a borderline of the second flat electrode is larger than or equal
to a thickness of the liquid crystal layer,

wherein the sub-pixel electrode region has a multidomain pretilt angle, and wherein the liquid crystal layer in the sub-pixel
electrode region has a continuous domain alignment.

US Pat. No. 9,177,515

LIQUID CRYSTAL DISPLAY AND 3D IMAGING APPARATUS AND OPERATING METHODS THEREOF

INNOLUX CORPORATION, Mia...

1. A liquid crystal display, comprising:
a pixel array including a plurality of pixels, the pixels arranged at intersections of a plurality of scan lines and a plurality
of data lines;

a backlight module; and
a driver module, driving the pixel array to display a frame of data by a first frame scan and a second frame scan, and controlling
the backlight module in accordance with the first frame scan and the second frame scan,

wherein:
the driver module performs the first frame scan to drive the scan lines of the pixel array group by group wherein, in each
group, rows of the pixels are written identical row data by the first frame scan;

the driver module performs the second frame scan after the first frame scan, to correct the data of the pixels in the second
frame scan;

the backlight module illuminates the pixel array and illumination on different areas of the pixel array are controlled separately,
wherein the rows of the pixels which have been scanned in the second frame scan are qualified to be illuminated by the backlight
module; and

the driver module performs a first blank scan after the first frame scan and prior to the second frame scan, and performs
a second blank scan consecutively after the second frame scan.

US Pat. No. 9,433,058

DISPLAY PANEL

INNOLUX CORPORATION, Mia...

1. A display panel, having a display region and a non-display region out of the display region, wherein the display region
comprises a central pixel region and a border pixel region disposed between the central pixel region and the non-display region,
the display panel comprising:
a first substrate;
a second substrate opposite to the first substrate;
a display medium layer disposed between the first substrate and the second substrate;
a plurality of central pixel units located at the central pixel region and having a plurality of first electrodes disposed
on the second substrate; and

a plurality of border pixel units located at the border pixel region and having a plurality of second electrodes disposed
on the second substrate;

wherein outmost edges of a part of adjacent border pixel units form a ladder-like shape, and a light output area of at least
one of the border pixel units is smaller than that of at least one of the central pixel units.

US Pat. No. 9,341,859

3D IMAGE BASED ALIGNMENT METHOD

INNOLUX CORPORATION, Jhu...

1. An alignment method, applied to a barrier-type 3D display, comprising:
providing a 3D alignment device at least comprising an image capture tool and an alignment shift analysis software coupled
to the image capture tool;

disposing a display panel with a barrier laminated thereon in the 3D alignment device, and the image capture tool positioned
above the barrier;

independently and separately presenting a display alignment check pattern on the display panel and a barrier alignment check
pattern on the barrier, wherein the display alignment check pattern is different from the barrier alignment check pattern;

the image capture tool capturing an image of a moiré pattern generated by the barrier alignment check pattern laminating on
the display alignment check pattern;

analyzing the image of the moiré pattern by the alignment shift analysis software, and determining at least three measurement
points correspondingly at an upper portion and an lower portion of the image of the moiré pattern;

calculating a position shift for each of the measurement points by the alignment shift analysis software;
calculating a rotation angle (at a x-y plane) between the display panel and the barrier from position shift calculation results
of the measurement points; and

adjusting corresponding position between the display panel and the barrier if the position shift results of the measurement
points and the rotation angle exceed a predetermined alignment error,

wherein the image capture tool is positioned correspondingly to a virtual center line of the display panel, and the measurement
points are positioned correspondingly to the virtual center line of the display panel, the position shift calculated by the
alignment shift analysis software is a x-position shift (?x) or a y-position shift (?y) for each of the measurement points:


where Wpix is pixel width of display panel, and two angles (?0,?1) are angles of two separate measurement points to the virtual center line.

US Pat. No. 9,450,031

DISPLAY SUBSTRATE AND DISPLAY DEVICE APPLYING THE SAME

INNOLUX CORPORATION, Mia...

1. A display substrate, comprising:
a base plate; and
a display structure disposed on the base plate and comprising:
a plurality of display units arranged in an array, the display units having a core region and a peripheral region, wherein
the core region comprises at least one first sub-pixel and at least one second sub-pixel, and the peripheral region comprises
at least one third sub-pixel and is located outside the core region.

US Pat. No. 9,429,806

DISPLAY DEVICE

INNOLUX CORPORATION, Mia...

1. A display device, comprising:
an array substrate, comprising:
a substrate;
a first electrode disposed over the substrate, wherein the first electrode has an opening and the opening has an edge parallel
to a gate-line-extending direction; and

a second electrode disposed over the first electrode, wherein the second electrode comprises:
a first finger portion having a first side and a second side opposite to the first side, wherein a first outer edge of the
first finger portion intersects the gate-line-extending direction at an acute angle at the first side, and a second outer
edge of the first finger portion intersects the gate-line-extending direction at an obtuse angle at the second side; and

a connection portion connecting the first finger portion at the edge, wherein the connection portion has a first width along
the gate-line-extending direction adjacent to the edge, and the connection portion has a second width along the gate-line-extending
direction away from the edge, wherein the first width is smaller than the second width,

wherein the connection portion has a first concavity at the first side and a second concavity at the second side, and a length
of the first concavity is greater than a length of the second concavity;

an opposite substrate; and
a display medium disposed between the array substrate and the opposite substrate.

US Pat. No. 9,445,495

CAPACITANCE TOUCH PANEL MODULE AND FABRICATION METHOD THEREOF

INNOLUX CORPORATION, Mia...

1. A capacitance touch panel, comprising:
a substrate comprising a touching area and a peripheral area around the touching area;
a plurality of insulated protrusions in the touching area;
an insulated frame in the peripheral area;
a plurality of first conductive patterns arranged in a plurality of rows along a first orientation;
a plurality of second conductive patterns arranged along a second orientation and arranged between neighboring rows of the
first conductive patterns, wherein the first conductive patterns are electrically insulated from the second conductive patterns;

a plurality of connecting portions, wherein each connecting portion connects two neighboring ones of the first conductive
patterns arranged in a row;

a plurality of bridging members electrically connecting two neighboring ones of the second conductive patterns; and
an overlapping region comprising a first region and a second region, wherein the overlapping region is an area on which one
of the bridging members overlaps one of the second conductive patterns, the bridging member is directly on the second conductive
pattern in the first region, and one of the insulated protrusions is directly on the second conductive pattern in the second
region;

wherein one of the insulated protrusions has a curved surface and covers one of the connecting portions; and
wherein the length of the first region along the second orientation is longer than the length of the second region along the
second orientation.

US Pat. No. 9,239,501

LIQUID CRYSTAL DISPLAY DEVICE

INNOCOM TECHNOLOGY(SHENZH...

1. A liquid crystal display device, comprising:
a substrate having a plurality of pixel regions, wherein one of the pixel regions is defined by a pair of gate lines extending
in a first direction and a pair of data lines extending in a second direction;

a first insulating layer disposed on the substrate corresponding to the pixel region and disposed on the data lines;
a first common electrode disposed on the first insulating layer and continuously formed on the data lines;
a pixel electrode pattern disposed above the first common electrode;
a second insulating layer interposed between the first common electrode and the pixel electrode pattern;
a pair of second common electrodes formed on the second insulating layer and corresponding to the pair of data lines, such
that a projection of the pair of second common electrodes on the substrate overlaps a projection of the pair of data lines
on the substrate; and

a counter substrate opposed to the substrate.

US Pat. No. 9,207,505

LIQUID CRYSTAL DISPLAY DEVICE AND FABRICATION METHOD OF A CONDUCTIVE SUBSTRATE

INNOCOM TECHNOLOGY (SHENZ...

1. A method for fabricating a conductive substrate for a thin film transistor liquid crystal display device, comprising the
following steps:
(a) preparing a substrate including a transparent substrate, an insulator layer formed on a surface of the transparent substrate,
a plurality of spaced apart scan lines arranged in a first direction, and a plurality of spaced apart data lines arranged
in a second direction transverse to the first direction, the scan lines being electrically isolated from the data lines, the
insulator layer having a peripheral region;

(b) forming a photoresist layer on a surface of the insulator layer, preparing a gray-scale photomask that has a first pattern
and a second pattern corresponding in position to a region of the insulator layer that is to be formed into via holes, and
a plurality of third patterns corresponding in position to a region of the insulator layer that is to be formed into grooves,
the first, second and third patterns having different transmittances, patterning the photoresist layer to remove the photoresist
layer at a position corresponding to the first and second patterns until the insulator layer is exposed and parts of the photoresist
layer at positions corresponding to the third patterns by photolithography so that the photoresist layer is formed into a
mask pattern having different thicknesses;

(c) etching the insulator layer using the mask pattern as an etching mask so that the insulator layer is formed with a plurality
of via holes corresponding in position to the first and second patterns, a plurality of spaced-apart grooves corresponding
in position to the third patterns, and a plurality of isolated regions for isolating the grooves, the via holes having a depth
different from that of the grooves; and

(d) forming a conductive layer made of a transparent conductive material on the etched insulator layer, removing a portion
of the conductive layer by photolithography so that the conductive layer is formed into a pixel electrode that is formed with
a plurality of electrode slits where the conductive layer is removed.

US Pat. No. 9,299,452

SHIFT REGISTERS, DISPLAY PANELS, DISPLAY DEVICES, AND ELECTRONIC DEVICES

Innocom Technology (SHENZ...

1. A shift register comprising:
a plurality of successively cascaded shift register units, each controlled by a first clock signal and a second clock signal
to generate an output signal at an output node, wherein each of the shift register units comprises:

a first switch having a control terminal coupled to a first node, an input terminal receiving the first clock signal, and
an output terminal coupled to the output node;

a first capacitor coupled between the first node and the output node;
a second capacitor coupled between the output node and a ground terminal; and
a second switch having a control terminal, an input terminal receiving the second clock signal, and an output terminal coupled
to the first node,

wherein a carry signal is generated at the first node, and
wherein for a N-th shift register unit among the shift register units, the control terminal of the second switch receives
the carry signal generated at the first node of the previous shift register unit to the N-th shift register unit, N is a positive
integer.

US Pat. No. 9,269,298

PIXEL DRIVING CIRCUITS, PIXEL DRIVING METHODS, DISPLAY PANELS AND ELECTRONIC DEVICES

INNOLUX CORPORATION, Chu...

1. A pixel driving circuit, comprising
a first switching device, having a first terminal coupled to a power source voltage, and a control terminal coupled to a first
scan signal line;

a second switching device, having a first terminal coupled to a second terminal of the first switching device, a second terminal
coupled between a first node and an emitting device, and a control terminal coupled to a second node;

a third switching device, having a first terminal coupled to the second node, a second terminal coupled between the first
terminal of the second switching device and the second terminal of the first switching device, and a control terminal coupled
to a second scan signal line;

a fourth switching device, having a first terminal coupled to a data line, a second terminal coupled to the first node, and
a control terminal coupled to a third scan signal line;

a fifth switching unit, having a first terminal coupled to the second node and a control terminal coupled to a fourth scan
signal line;

a first capacitor, coupled between a second terminal of the fifth switching unit and a ground terminal; and
a second capacitor, coupled between the first and second nodes,
wherein the second scan signal line, the third scan signal line and the fourth scan signal line separately controls the third
switching device, the fourth switching device and the fifth switching device, respectively, and the second scan signal line,
the third scan signal line and the fourth scan signal line are not electrically interconnected.

US Pat. No. 9,268,421

TOUCH PANEL AND METHOD FOR FABRICATING THE SAME AND DISPLAY DEVICE COMPRISING THE SAME

INNOCOM TECHNOLOGY (SHENZ...

1. A touch panel, comprising:
a substrate, wherein the substrate comprises a viewing region and a border region at an edge of the viewing region;
a patterned transparent conductive layer formed on the substrate, wherein the patterned transparent conductive layer formed
on the viewing region has a touch sensitive function; and

a patterned metal layer formed on the patterned transparent conductive layer and on the border region, wherein the patterned
metal layer comprises a contact region and a trace region connecting to the contact region, and at least a portion of the
contact region overlaps with the patterned transparent conductive layer, and a shift range between a formation position of
the contact region of the patterned metal layer and a formation position of the patterned transparent conductive layer is
smaller than about 150 m.

US Pat. No. 9,129,578

SHIFT REGISTER CIRCUIT AND DISPLAY DEVICE USING THE SAME

Innocom Technology (Shenz...

1. A display device, comprising:
a substrate; and
a shift register circuit, comprising a plurality of shift registers optically coupled in series, each shift register comprising:
an optical receiver, for receiving an optical signal from the previous shift register;
an optical transmitter for transmitting the optical signal to the next shift register;
a first switch, wherein a first terminal of the first switch is connected to the optical receiver, a second terminal of the
first switch is coupled to a clock signal, and a third terminal of the first switch is connected to an output terminal;

a second switch, wherein a first terminal of the second switch is connected to the optical receiver, a second terminal of
the second switch is coupled to the clock signal, and a third terminal of the second switch is connected to the optical transmitter;
and

a bootstrapping capacitor, wherein a first terminal of the bootstrapping capacitor is connected to the optical receiver, the
first terminal of the first switch and the first terminal of the second switch, and a second terminal of the bootstrapping
capacitor is connected to the output terminal,

wherein the optical transmitter comprises an organic light emitting diode (OLED), the optical receiver comprises an optical
thin film transistor (TFT), and the conductance of the optical thin film transistor is controlled by the optical signal; and

wherein the optical coupler further comprises an optical reflector for reflecting the optical signal from the optical transmitter
to the optical receiver.

US Pat. No. 9,544,996

CAPACITANCE TOUCH PANEL MODULE AND FABRICATION METHOD THEREOF

INNOCOM TECHNOLOGY (SHENZ...

1. A capacitance touch panel, comprising:
a substrate comprising a touching area and a peripheral area around the touching area;
a plurality of insulated protrusions in the touching area, wherein one of the insulated protrusions is dome-shaped with a
curved surface;

an insulated frame in the peripheral area, wherein the insulated frame includes a top surface and a curved side surface connecting
the top surface;

a plurality of first conductive patterns, arranged in a plurality of rows along a first orientation;
a plurality of second conductive patterns arranged between neighboring rows of the first conductive patterns, wherein the
first conductive patterns are electrically insulated from the second conductive patterns;

a plurality of connecting portions, wherein each of the connecting portions connects two neighboring ones of the first conductive
patterns arranged in a row; and

a plurality of bridging members electrically connecting two neighboring ones of the second conductive patterns.

US Pat. No. 9,196,734

THIN-FILM TRANSISTOR SUBSTRATE AND METHOD FOR FABRICATING THE SAME, DISPLAY

INNOCOM TECHNOLOGY (SHENZ...

1. A thin-film transistor substrate, comprising:
a first substrate; and
a metal lead structure formed on the first substrate, wherein the metal lead structure comprises:
a main conductor layer formed on the first substrate, wherein the main conductor has a sidewall; and
a top conductor layer having a first portion, a second portion and a third portion,
wherein
the first portion is formed on the main conductor layer,
the second portion is formed on the sidewall of the main conductor layer,
the third portion is formed on the first substrate,
a continuous structure is made by the first portion, the second portion and the third portion, and
the second portion of the top conductor layer is separated from the main conductor layer by an air-gap between the second
portion of the top conductor layer and the sidewall of the main conductor layer.

US Pat. No. 9,110,299

3D DISPLAY DEVICES

INNOCOM TECHNOLOGY (SHENZ...

1. A 3D display device, comprising:
a first substrate comprising a plurality of right eye pixels and left eye pixels in an alternate arrangement;
a second substrate;
a first optical modulating unit with a first inclined direction located in the right eye pixels between the first substrate
and the second substrate;

a second optical modulating unit with a second inclined direction located in the left eye pixels between the first substrate
and the second substrate;

a common electrode comprising a plurality of holes formed on the second substrate; and
a light transparent element,
wherein the hole is located at a boundary between the right eye pixel and the left eye pixel,
wherein the first inclined direction is distinct from the second inclined direction.

US Pat. No. 9,076,380

PIXEL DRIVING CIRUCIT, PIXEL DRIVING METHODS, DISPLAY PANELS AND ELECTRONIC DEVICES

INNOCOM TECHNOLOGY (SHENZ...

1. A pixel driving circuit, comprising:
a first switching device, having a first terminal coupled to a first power source voltage, a second terminal, and a control
terminal coupled to a first scan signal line;

a second switching device, having a first terminal coupled to the second terminal of the first switching device, a second
terminal directly coupled to a first node and an emitting device, and a control terminal directly coupled to a second node;

a third switching device, having a first terminal coupled between the first terminal of the second switching device and the
second terminal of the first switching device, a second terminal coupled directly to the second node, and a control terminal
coupled to a second scan signal line;

a fourth switching device, having a first terminal coupled to a data signal line, a second terminal directly coupled to the
first node, and a control terminal coupled to a third scan signal line;

a first capacitor, having a first terminal directly coupled to the first node and a second terminal directly coupled to a
third node;

a second capacitor, having a first terminal directly coupled to the third node and a second terminal directly coupled to the
second node; and

a fifth switching device, having a first terminal directly coupled to the third node, a second terminal coupled to a second
power source voltage, and a control terminal coupled to the third scan signal line.

US Pat. No. 9,285,513

DISPLAY APPARATUS WITH SYMMETRIC DIFFUSION FILM

INNOLUX CORPORATION, Jhu...

1. A display apparatus, comprising:
a touchscreen; and
a symmetric diffusion film (SDF), disposed above the touchscreen, and the SDF comprising at least two different materials,
including a first material mixed with a second material, and the first material having a first refractive index while the
second material having a second refractive index, wherein the first refractive index is different from the second refractive
index, and wherein a half-width at half-maximum (HWHM) of the SDF for scattering light in a range of 2 degrees to 10 degrees.

US Pat. No. 9,274,385

PIXEL STRUCTURES HAVING A SCAN LINE PASSES THROUGH THE EDGES OF A FIRST-PIXEL ROW AND THROUGH AN AREA OF A SECOND SUB-PIXEL ROW

INNOLUX CORPORATION, (TW...

1. A display panel, comprising:
a first sub-pixel row comprising a plurality of sub-pixels electrically connecting to a scan line; and
a second sub-pixel row comprising a plurality of sub-pixels, wherein the scan line passes through an area of the sub-pixels
of the second sub-pixel row, and the scan line passes through the edges of the sub-pixels of the first sub-pixel row.

US Pat. No. 9,207,788

DECORATIVE FILM ON TRANSPARENT SUBSTRATE, A TOUCH SENSOR DEVICE AND METHOD OF MANUFACTURING THE SAME

INNOCOM TECHNOLOGY(SHENZH...

1. A touch sensor device, comprising:
a transparent substrate having a sensing region and a non-sensing region and having a first surface and a second surface opposite
thereto;

a sensing layer directly disposed on the first surface of the transparent substrate and corresponding to the sensing region;
a color transparent layer on the first surface of the transparent substrate and corresponding to the non-sensing region;
a reflective layer disposed on and covering the color transparent layer only in the non-sensing region; and
a first protective layer disposed on the color transparent layer and covering the reflective layer.

US Pat. No. 9,110,535

TOUCH APPARATUS AND DRIVING METHOD THEREOF

INNOCOM TECHNOLOGY (SHENZ...

1. A touch apparatus, comprising:
a driving unit having a driving element, wherein the driving element has at least one driving port for outputting a plurality
of driving signals and at least one sensing port for receiving a plurality of sensing signals;

a first touch panel coupled with the driving element;
a second touch panel disposed adjacent to the first touch panel, wherein the first touch panel and the second touch panel
are coupled jointly with the sensing port and the driving port;

a connecting circuit board electrically connected between the first touch panel and the second touch panel, so that the second
touch panel is coupled with the driving element via the first touch panel; and

a difference generating unit disposed on the coupling route between the second touch panel and the driving element;
wherein, the first touch panel and the second touch panel are coupled jointly with at least one of the driving port and the
sensing port.

US Pat. No. 9,081,195

THREE-DIMENSIONAL IMAGE DISPLAY APPARATUS AND THREE-DIMENSIONAL IMAGE PROCESSING METHOD

INNOLUX CORPORATION, Mia...

1. A three-dimensional (3D) image display apparatus, comprising:
a tracking module, which tracks an object and outputs coordinate information of the object;
a position calculating module coupled to the tracking module and outputting position information according to the coordinate
information;

an intensity calculating module coupled to the position calculating module and outputting intensity coefficient information
according to the position information;

a 3D image processing module coupled to the intensity calculating module for receiving the intensity coefficient information;
an image converting module coupled to the 3D image processing module and outputting target intensity information to the 3D
image processing module according to an original 3D image information; and

a display module coupled to the image converting module for receiving modified 3D image information,
wherein the 3D image processing module outputs modified intensity information according to the intensity coefficient information
and the target intensity information, and the image converting module outputs the modified 3D image information according
to the modified intensity information.

US Pat. No. 9,081,446

TOUCH DISPLAY PANELS AND MANUFACTURE METHODS THEREOF

INNOLUX CORPORATION, Mia...

1. A touch display panel comprising:
a substrate;
a plurality of gate lines disposed on the substrate;
a plurality of data lines disposed on the substrate, wherein the data lines and the gate lines define a plurality of pixel
regions on the substrate, wherein each pixel region is composed by adjacent two data lines and adjacent two gate lines;

a plurality of data output lines disposed on the substrate, wherein each data output line is disposed next to one data line;
a plurality of thin film transistors respectively disposed in the pixel regions, wherein each thin film transistor is electrically
connected to a corresponding gate line and a corresponding data line; and

a plurality of detection capacitors respectively disposed in the pixel regions, wherein each detection capacitor includes
a first electrode electrically connected to the corresponding gate line and a second electrode electrically connected to the
corresponding data output line.

US Pat. No. 9,069,991

FLAT PANEL DISPLAY WITH DISPLAY SIGNAL INPUT SOCKET HAVING SAFEGUARDING TERMINAL

INNOCOM TECHNOLOGY (SHENZ...

1. A flat panel display comprising:
a micro processing unit (MPU);
a display signal input socket defining a safeguarding terminal, the safeguarding terminal to be connected with a signal generating
device, the safeguarding terminal having a first voltage when it is connected with the signal generating device and having
a second voltage when it is unplugged from a display signal output socket of the signal generating device to disconnect with
the signal generating device;

an input interface configured for a user to input a user code;
a first storage unit storing a security code;
a second storage unit storing a safeguarding mark;
a power module connected to said first storage unit, said second storage unit, and said MPU; and
a backup power supply connected to said power module;
wherein said backup power supply is configured to automatically provide power for said MPU, said first storage unit, and said
second storage unit when said safeguarding mark is invalid until said safeguarding mark is valid, the MPU is configured to
monitor the voltage applied to the safeguarding terminal, when the MPU monitors that the voltage of the safeguard terminal
changes from the first voltage to the second voltage, the MPU changes a status of the safeguarding mark, the MPU compares
the user code with the security code according to the status of the changed safeguarding mark, and outputs a control signal
according to a result of the comparison.

US Pat. No. 9,265,098

IMAGE DISPLAY SYSTEM

INNOCOM TECHNOLOGY (SHENZ...

1. A system for displaying images, comprising:
an organic electroluminescent device, comprising:
a first substrate with an inside surface;
an organic electroluminescent pixels array disposed on the inside surface of the first substrate;
a second substrate with an inside surface, wherein an inside surface of the second substrate is opposite to the inside surface
of the first substrate;

a color filter layer disposed on the inside surface of the second substrate; and
an opaque frit sealing layer disposed between the first substrate and the second substrate for sealing the first substrate
and the second substrate, wherein the opaque frit sealing layer is separated from the organic electroluminescent pixels array
by a dummy region and is encapsulating the organic electroluminescent pixel array between the first substrate and second substrate,
and wherein the dummy region is filled up with a black matrix material and a frit sealing layer, wherein the black matrix
material is directly on an inside surface of the second substrate, and at least part of the frit sealing layer is below the
black matrix material.

US Pat. No. 9,292,148

CAPACITIVE TOUCH PANEL AND METHOD OF FABRICATING THE SAME

INNOCOM TECHNOLOGY (SHENZ...

1. A method of fabricating a touch panel, comprising:
providing a substrate;
forming a plurality of bridge components on the substrate;
forming a plurality of curved insulation mounds on the substrate, wherein each of the curved insulation mounds covers each
of the bridge components and exposes a portion of each of the bridge components; and

forming a plurality of groups of first conductive patterns arrange in a first direction, a plurality of groups of second conductive
patterns arranged in a second direction, and a plurality of connection components on the substrate, wherein the adjacent first
conductive patterns in a same group of the plurality of groups of the first conductive patterns are electrically connected
by the connection components, the adjacent second conductive patterns in a same group of the plurality of groups of the second
conductive patterns are electrically connected by the bridge components below each of the insulation mounds.

US Pat. No. 9,263,508

DISPLAY PANEL AND SYSTEM FOR DISPLAYING IMAGES UTILIZING THE SAME

INNOLUX CORPORATION, Mia...

1. A display panel, comprising:
a substrate having a pixel region and a peripheral region;
a control element overlying the pixel region of the substrate;
a metal layer overlying the substrate in the peripheral region and in the pixel region;
a first insulating layer formed on the metal layer in the peripheral region and having a plurality of openings exposing the
metal layer, wherein a ratio between an area of the plurality of openings and an area of the metal layer in the peripheral
region is between about 0.01 and 0.73;

a lower electrode layer overlying the first insulating layer and filling into the plurality of openings of the first insulating
layer to be electrically connected to the metal layer;

a second insulating layer overlying the lower electrode layer;
an upper electrode layer disposed on the second insulating layer; and
a light emitting layer formed between the lower electrode layer and the upper electrode layer in the pixel region.

US Pat. No. 9,235,093

DISPLAY APPARATUS

INNOLUX CORPORATION, Mia...

1. A display apparatus comprising a substrate, a plurality of first thin-film transistors (TFTs), a plurality of scan lines
and data lines connected to the first TFTs, and a plurality of second TFTs for controlling inspection-use display signals,
each of the second TFTs including:
a first gate electrode disposed on the substrate;
a first insulation layer disposed on the first gate electrode;
an active unit disposed on the first insulation layer and having a source electrode electrically connected to one of the data
lines, an active layer including an oxide semiconductor, and a drain electrode;

a second insulation layer disposed on the active unit; and
a second gate electrode disposed on the second insulation layer;
wherein the first TFTs, the scan lines, and the data lines are disposed in a display area on the substrate, and the second
TFTs are disposed in an area other than the display area on the substrate.

US Pat. No. 9,082,666

LIQUID CRYSTAL DISPLAY PANEL AND MANUFACTURING METHOD THEREOF

INNOLUX CORPORATION, Mia...

1. A thin film transistor substrate, comprising:
a substrate having a surface, wherein the surface has a display region and a wiring region located outside of the display
region;

a thin film transistor array formed on the display region;
a plurality of first circuits formed on the wiring region along a first edge of the display region, wherein the first circuits
are electrically connected and transmit signals to the thin film transistor array; and

at least one first dummy circuit formed alternately among the plurality of first circuits along the first edge of the display
region on the wiring region, wherein the first dummy circuit is electrically insulated from the thin film transistor array
and comprises a first dummy pattern formed on the substrate, a first dummy insulation layer formed on the first dummy pattern,
and a first dummy conduction layer formed on the first dummy insulation layer.

US Pat. No. 9,058,786

ACTIVE MATRIX TYPE LIQUID CRYSTAL DISPLAY DEVICE AND RELATED DRIVING METHODS

INNOLUX CORPORATION, Mia...

1. An active matrix type liquid crystal display (LCD), comprising;
a plurality of pixel elements arranged in the form of a matrix, wherein each pixel element comprises:
a liquid crystal element;
a source line;
a gate line;
a dynamic memory disposed at an intersection points of said source line and said gate line to perform periodically a plurality
of refreshes for inversing a digital output status of said dynamic memory and to have a gradual transition of transmittance/reflectance
for the polarity inversion of the liquid crystal element;

wherein said plurality of refreshes comprise, consecutively, at least, a first, a second, a third, a fourth, a fifth, and
a sixth refreshes;

wherein an interval between said first and said second refreshes is shorter than an interval between said third and said fourth
refreshes, and said interval between said third and said fourth refreshes is shorter than an interval between said fifth and
said sixth refreshes.

US Pat. No. 9,146,411

LIQUID CRYSTAL DISPLAY WITH DISPLAY SCREEN EXTENDING OUT OF CASING

INNOLUX CORPORATION, Mia...

1. A liquid crystal display (LCD), comprising:
a liquid crystal panel having a display surface and a peripheral wall, and comprising a first substrate and a second substrate
opposite to the first substrate;

a conductive adhesive electrically connecting the first substrate and the second substrate; and
a frame capable of mounting the liquid crystal panel and having a side wall; and
a plurality of grooves formed on the frame and corresponding to the conductive adhesive,
wherein the peripheral wall of the liquid crystal is adjacent to and partially abuts the side wall of the frame.

US Pat. No. 9,159,283

SWITCH CIRCUIT, PIXEL ELEMENT AND DISPLAY PANEL FOR USING IN REFRESHING MEMORY IN PIXEL

INNOLUX CORPORATION, Mia...

1. A switch circuit for use in a pixel element, the switch circuit comprising:
a first switch for being turned on to perform a sample operation on the pixel element; and
a second switch having:
a control terminal coupled to an image data storage capacitor of the pixel element via the first switch;
a first data terminal for being coupled to a corresponding source line of the pixel element; and
a second data terminal for being coupled to the image data storage capacitor,
wherein when the sample operation is performed, the second switch is for storing image data of the image data storage capacitor
in a parasitic gate capacitor whose capacitance is larger than that of the first switch but smaller than that of the image
data storage capacitor, between the control terminal and the first data terminal existing on its control terminal, the image
data stored in the second switch is maintained by the parasitic gate capacitor between the control terminal and the first
data terminal from the sample operation to a refresh operation during which the pixel element is refreshed; and the second
switch is selectively for electrically connecting its first and second data terminals with each other according to image data
stored in the parasitic gate capacitor since a voltage difference between the control terminal and the first data terminal
is higher than a threshold voltage of the second switch during a refresh phase.

US Pat. No. 9,312,287

DISPLAY PANEL AND DISPLAY DEVICE

InnoLux Corporation, Jhu...

1. A display panel, comprising:
a TFT substrate, including:
a substrate;
a thin film transistor disposed on the substrate and having a drain;
a first insulating layer including a first sub-layer and a second sub-layer disposed on the drain sequentially, wherein the
first sub-layer has a first opening with a first width, the second sub-layer has a second opening with a second width on the
first opening, the first opening and the second opening form a first via, and the second width is greater than the first width;

a passivation layer disposed on the first insulating layer;
a second insulating layer disposed on the passivation layer; and
a pixel electrode layer disposed on the second insulating layer and disposed in the first via to connect the drain;
an opposite substrate; and
a display layer disposed between the TFT substrate and the opposite substrate.

US Pat. No. 9,267,664

PATTERNED COLOR CONVERSION FILM AND DISPLAY DEVICE USING THE SAME

INNOLUX CORPORATION, Mia...

1. A patterned color conversion film, comprising:
a separator with plural openings; and
plural pixel units disposed in the openings respectively, each pixel unit respectively comprising a medium and scattering
particles dispersed therein,

wherein at least one of the plural pixel units comprises quantum dots having the scattering particles sized of between 0.05
and 1 ?m when a volume concentration of the quantum dots is in a range more than or equal to 5% and less than or equal to
80%, or having the scattering particles sized of between 0.2 and 2 ?m when the volume concentration of the quantum dots is
in a range less than 5% and more than or equal to 0%.

US Pat. No. 9,257,077

LIQUID CRYSTAL DISPLAY APPARATUS AND DRIVING METHOD THEREOF

InnoLux Corporation, Mia...

1. A liquid crystal display apparatus having at least one pixel, the pixel comprising:
a first scan line transmitting a first scan signal;
a second scan line transmitting a second scan signal, wherein the second scan signal has a first voltage level, a second voltage
level and a third voltage level, which are different from one another during a frame time;

a data line intersecting the first and second scan lines;
a switch element electrically coupled to the first scan line and the data line;
a pixel electrode electrically coupled to the switch element, wherein when the first scan line enables the switch element,
the pixel electrode receives a data signal through the data line; and

a coupling capacitance electrically coupled to the pixel electrode and the second scan line,
wherein when the second scan signal switches to the third voltage level from the second voltage level, the pixel electrode
is negative polarity, and when the second scan signal switches to the second voltage level from the third voltage level, the
pixel electrode is positive polarity,

wherein the first scan signal has a first voltage level, a second voltage level and a third voltage level, which are different
from one another during a frame time, and the first voltage level is higher than the second voltage level, and the second
voltage level is higher than the third voltage level.

US Pat. No. 9,053,665

DISPLAY DEVICE AND CONTROL METHOD THEREOF WITHOUT FLICKER ISSUES

INNOCOM TECHNOLOGY (SHENZ...

1. A display device, comprising:
a plurality of pixels, each storing voltage and displaying brightness according to the stored voltage, wherein each pixel
comprises:

a storage unit storing voltage and coupled between a first node and a second node;
a driving unit generating a driving current according to the voltage stored in the storage unit, wherein the driving current
is not interfered with a threshold voltage of the driving unit;

a luminescence unit lighting according to a driving current and connected to the driving unit in series between a first operation
voltage and a second operation voltage;

a reset unit discharging the second node; and
a switching unit coupled to the second node and the driving unit; and
a driving module updating the stored voltage during a frame period, wherein the frame period comprises a plurality of row
times, each row time comprises at least one programming period and at least one emission period, the driving module de-activates
the pixels to stop displaying brightness during the programming periods and activates the pixels to display brightness during
the emission periods,

wherein the driving unit is a first transistor, and the first transistor comprises a gate coupled to the second node, a source
receiving the first operation voltage and a drain coupled to the luminescence unit,

wherein the reset unit is a second transistor, and the second transistor comprises a gate receiving a reset signal, a drain
receiving a reset level and a source coupled to the second node,

wherein the switching unit is a third transistor, and the third transistor comprises a gate receiving a scan signal, a source
coupled to the second node and a drain coupled to a drain of the first transistor,

wherein a first programming period among the programming period comprises a reset write period and a detection period,
wherein during the reset write period, the driving module provides a data signal to the first node and controls the reset
signal to turn on the second transistor,

wherein during the detection period, the driving module controls a level of the first node to be equal to a level of the data
signal and controls the reset signal and the scan signal to turn off the second transistor and to turn on the third transistor,

wherein during the emission period, the driving module provides a reference level to the first node and controls the reset
signal and the scan signal to turn off the second and the third transistors, and

wherein during the reset write period, the driving module controls the scan signal to turn on the third transistor.

US Pat. No. 9,281,350

THIN FILM TRANSISTOR SUBSTRATE AND DISPLAY

INNOLUX CORPORATION, Chu...

1. A thin film transistor substrate, comprising:
a substrate; and
a plurality of thin film transistors disposed over the substrate, wherein each of the thin film transistors comprises:
a gate electrode disposed on the substrate;
a first diffusion barrier layer disposed on the substrate and covering the gate electrode;
a gate insulating layer disposed on the first diffusion barrier layer;
a metal oxide disposed on the gate insulating layer and over the gate electrode;
a source electrode disposed on the substrate and electrically connected to the metal oxide;
a drain electrode disposed on the substrate and electrically connected to the metal oxide,
an insulating layer disposed between the metal oxide and the source electrode and disposed between the metal oxide and the
drain electrode, wherein the source electrode and the drain electrode passes through the insulating layer to connect to the
metal oxide, with a portion of the insulating layer exposed between the source electrode and the drain electrode; and

a protective layer covering the source electrode and the drain electrode, and covering and contacting the portion of the insulating
layer exposed between the source electrode and the drain electrode.

US Pat. No. 9,343,582

MANUFACTURING METHOD OF THIN FILM TRANSISTOR SUBSTRATE

INNOCOM TECHNOLOGY (SHENZ...

1. A manufacturing method of a thin film transistor substrate, comprising:
providing a first substrate;
forming a gate electrode on the first substrate;
forming a gate insulating layer covering the gate electrode on the first substrate;
forming an active material layer on the gate insulating layer;
forming a photo-sensitive material layer on the active material layer;
performing a photolithography process on the photo-sensitive material layer to pattern the photo-sensitive material layer
so as to form a photo-sensitive protective layer, wherein the photo-sensitive protective layer is above the gate electrode;

etching the active material layer by using the photo-sensitive protective layer as a mask to form an active layer, wherein
a side wall of the active layer is recessed from a side wall of the photo-sensitive protective layer;

removing the photo-sensitive protective layer;
forming a first electrode connecting to a first portion of the active layer; and
forming a second electrode connecting to a second portion of the active layer, wherein the first electrode is one of a source
electrode and a drain electrode, and the second electrode is the other one of the source electrode and the drain electrode.

US Pat. No. 9,119,306

DISPLAY PANEL INTEGRATING A DRIVING CIRCUIT

INNOLUX CORPORATION, Mia...

1. A display panel, comprising:
a periphery area;
an active display area adjacent to the periphery;
a driving chip disposed out of the active display area for driving the active display area;
a layout area disposed between the driving chip and the active display area, wherein the layout area is divided into a center
part and two side parts; and

a plurality of wires forming in the layout area and electrically connecting the driving chip and the active display area;
wherein the layout area includes a first portion adjacent to the active display area, the space between two adjacent wires
located in the side parts at the first portion is smaller than the space between another two adjacent wires located in the
center part at the first portion.

US Pat. No. 9,277,644

CAPACITANCE TOUCH PANEL MODULE AND FABRICATION METHOD THEREOF

INNOLUX CORPORATION, Mia...

5. A capacitance touch panel, comprising:
a substrate comprising a touching area and a peripheral area around the touching area;
a plurality of insulated protrusions in the touching area;
an insulated frame in the peripheral area;
a plurality of first conductive patterns arranged in a plurality of rows along a first orientation;
a plurality of second conductive patterns arranged between neighboring rows of the first conductive patterns, wherein the
first conductive patterns are electrically insulated from the second conductive patterns;

a plurality of connecting portions, wherein each connecting portion connects two neighboring first conductive patterns arranged
in a row;

wherein each insulated protrusion is dome-shaped with a curved surface and covers one of the connecting portions; and
a bridging member formed on one of the insulated protrusions, and electrically connecting two neighboring second conductive
patterns.

US Pat. No. 9,268,177

LIQUID CRYSTAL DISPLAY PANEL AND PIXEL ELECTRODE STRUCTURE THEREOF

INNOLUX CORPORATION, Chu...

1. A pixel electrode structure located between two data lines extended along a first direction, the pixel electrode structure
comprising:
a first electrode having a first stripe electrode extended along the first direction and a plurality of first branch electrodes
connected to the first stripe electrode, wherein the first branch electrodes comprise a plurality of first branch domain electrodes
extended along a second direction and a plurality of second branch domain electrodes extended along a third direction substantially
perpendicular to the second direction; and

a second electrode having a second stripe electrode extended along the first direction and a plurality of second branch electrodes
connected to the second stripe electrode, wherein the second branch electrodes comprise a plurality of third branch domain
electrodes extended along the second direction and a plurality of fourth branch domain electrodes extended along the third
direction, the first and the third branch domain electrodes are alternated to each other, and the second and the fourth branch
domain electrodes are alternated to each other,

wherein the first branch domain electrodes in a first domain and the second branch domain electrodes in a second domain vertically
intersect with each other in a first domain boundary region between the first domain and the second domain and are sawtooth-like
in the first domain boundary region, and the third branch domain electrodes in a third domain and the fourth branch domain
electrodes in the second domain vertically intersect with each other in a second domain boundary region between the second
domain and the third domain and are sawtooth-like in the second domain boundary region.

US Pat. No. 9,104,061

COLOR FILTER SUBSTRATE AND TOUCH SCREEN DISPLAY DEVICE

INNOLUX CORPORATION, Mia...

1. A color filter substrate, comprising:
a transparent substrate having a first surface;
a plurality of color filters which are separately disposed on said first surface of said transparent substrate; a black matrix
made of a non-transparent material and formed on said first surface of said transparent substrate, said black matrix encircling
said color filters; and

at least one alignment unit that includes at least two alignment holes penetrating said black matrix to expose said transparent
substrate,

wherein said transparent substrate further has a second surface opposite to said first surface, said color filter substrate
further comprising a touch sensor formed on said second surface;

wherein said color filter substrate further comprises at least one flexible circuit board electrically connected to said touch
sensor; and wherein said flexible circuit board includes a connecting region connected to said second surface, and at least
two alignment patterns formed on said connecting region, each of said two alignment patterns being aligned with a respective
one of said two alignment holes of said alignment unit, said alignment holes having an area larger than that of said alignment
patterns.

US Pat. No. 9,360,712

LCD DEVICE AND MANUFACTURING METHOD THEREOF

Innolux Corporation, Mia...

1. A liquid crystal display (LCD) device, comprising:
a first substrate;
a first electrode disposed on the first substrate, wherein the first electrode comprises a first part and a surrounding area
around the first part, the first part has a first thickness and the surrounding area has a second thickness;

a second substrate disposed opposite to the first substrate;
a liquid crystal layer disposed between the first substrate and the second substrate; and
a spacer disposed between the first substrate and the second substrate, and the spacer disposed corresponding to the first
part of the first electrode;

wherein the first thickness is smaller than the second thickness.

US Pat. No. 9,276,025

ACTIVE MATRIX IMAGE SENSING PANEL AND APPARATUS

INNOCOM TECHNOLOGY (SHENZ...

10. An active matrix image sensing apparatus, comprising:
an active matrix image sensing panel, comprising:
a substrate; and
an image sensing pixel disposed on the substrate and comprising:
a scan line;
a data line crossing the scan line;
a photo sensing element including a first terminal electrode and a second terminal electrode, wherein the voltage of the first
terminal electrode is higher than that of the second terminal electrode, and the first terminal electrode overlaps the second
terminal electrode; and

a thin-film transistor (TFT) element including a first electrode, a second electrode, a first gate electrode and a second
gate electrode, wherein the first electrode is electrically connected to the data line, the second electrode is electrically
connected to the first terminal electrode of the photo sensing element, the first gate electrode is electrically connected
to the scan line, and the second gate electrode is electrically connected to the first terminal electrode or second terminal
electrode of the photo sensing element; and a processing module electrically connected to the scan lines and data lines of
the active matrix image sensing panel,

wherein the first gate electrode is disposed on an upper surface of the substrate, and the second terminal electrode overlaps
the first terminal electrode along a direction perpendicular to the upper surface of the substrate.

US Pat. No. 9,208,725

DISPLAYS WITH PIXEL CIRCUITS CAPABLE OF COMPENSATING FOR TRANSISTOR THRESHOLD VOLTAGE DRIFT

INNOLUX CORPORATION, Mia...

1. A display device, comprising:
a pixel array, comprising a plurality of pixel elements, wherein at least one of the pixel elements comprises:
an OLED;
a first transistor, comprising a first terminal coupled to an anode of the OLED for driving the OLED;
a second transistor, coupled between a second terminal of the first transistor and a reset voltage and comprising a control
terminal receiving a reset signal;

a third transistor, coupled between the anode of the OLED and a control terminal of the first transistor and comprising a
control terminal receiving a compensation signal;

a first capacitor, coupled between the control terminal of the first transistor and the anode of the OLED;
a second capacitor, coupled to the first capacitor and the control terminal of the first transistor,
a fourth transistor, coupled between the second capacitor and a data line and comprising a control terminal receiving a scan
signal, and

a fifth transistor, coupled between the first transistor and an operating voltage and comprising a control terminal for receiving
a switch signal,

wherein the first capacitor, the second capacitor and the first transistor are coupled at a first node, the first transistor
and the OLED are coupled at a second node, the second capacitor and the fourth transistor are coupled at a third node and
the first transistor and the second transistor are coupled at a fourth node,

wherein during a third operating phase, the fifth transistor is turned on, such that a voltage at the fourth node is set to
a voltage level which is close to the operating voltage, the first transistor is turned on and the OLED emits light, such
that a voltage at the second node is set to a driving voltage of the OLED, and a voltage at the first node is set to the data
voltage plus a threshold voltage of a transistor further plus the voltage at the second node and minus the reset voltage via
the first capacitor.

US Pat. No. 9,360,725

LIQUID-CRYSTAL DISPLAY AND ELEMENT SUBSTRATE THEREOF

INNOLUX CORPORATION, Jhu...

1. An element substrate, comprising:
a substrate;
a metal layer, disposed on the substrate and having a first width along a first direction; and
a planarization layer, disposed on the metal layer and having a first thickness along a second direction perpendicular to
the first direction,

wherein the planarization layer comprises a top and a bottom, and the first thickness is a distance between the top and the
bottom along the second direction,

wherein the planarization layer comprises a contact hole, the contact hole has a contiguous wall and a hole bottom, the hole
bottom exposes the metal layer, and the hole bottom has a second width along the first direction,

wherein the first width and the second width satisfy the following equation:

wherein L1 is the first width, L2 is the second width, h is the first thickness, ? is an included angle between a straight line and an extension surface of
the hole bottom, the straight line connects a reference point and a base point, the reference point and the base point are
located on the contiguous wall, wherein a distance from the reference point to the bottom of the planarization layer along
the second direction is 0.95 h, the base point is located at the point where the contiguous wall is connected to the hole
bottom, p is an adjustable parameter, and 0

US Pat. No. 9,123,282

DISPLAY

INNOLUX CORPORATION, Chu...

1. A display, comprising:
a panel, comprising:
a plurality of pixels;
a plurality of data lines for transmitting a plurality of data signals to these pixels;
a plurality of scan lines for transmitting a plurality of the scan signals to these pixels;
a data driver for providing these data signals; and
a scan driver for providing these scan signals, wherein the scan driver comprises:
a shift register circuit, comprising:
a plurality of stages of carry shift registers for generating a plurality of start signals, wherein these start signals comprise
an ith start signal and an i+1th start signal, and these stages of carry shift registers comprise:

an ith stage carry shift register for generating the i+1th start signal to start an i+1th stage carry shift register, so that the i+1th stage carry shift register to generate an i+2th start signal; and

a plurality of stages of buffer shift registers for generating a plurality of output signals comprising a jth output signal and respectively corresponding to these scan signals, wherein these stages of buffer shift registers comprise:

a jth stage buffer shift register, wherein the i+1th start signal starts the jth stage buffer shift register to generate the jth output signal, wherein the jth output signal and the i+2th start signal are generated from the i+1 start signal, wherein j is equal to i+1.

US Pat. No. 9,398,690

SUBSTRATE STRUCTURE

INNOLUX CORPORATION, Jhu...

1. A substrate structure, comprising:
a first substrate having an element configuration area and a peripheral area, wherein the peripheral area is disposed around
the element configuration area;

a plurality of first bonding pads configured spacing at the peripheral area, wherein between adjacent two of the first bonding
pads has a gap; and

a connecting layer disposed on the first substrate and covering the first bonding pads and the gaps, wherein a part of the
connecting layer close to the element configuration area is configured with a plurality of first arc edges.

US Pat. No. 9,372,367

SYSTEM FOR DISPLAY IMAGES

INNOCOM TECHNOLOGY(SHENZH...

1. A system for displaying images, including a display panel, having a display area and a peripheral area out of the display
area, wherein the display panel comprises:
a first substrate;
a metal layer disposed on the first substrate;
a patterned planarization layer disposed on the first substrate, having at least one opening corresponding to the peripheral
area, wherein a portion of the metal layer is disposed in the opening;

a second substrate disposed opposite to the first substrate;
a seal disposed between the first substrate and the second substrate and disposed at the peripheral area, wherein the seal
covers the metal layer through the opening of the patterned planarization layer; and

a passivation layer disposed on the portion of the metal layer and covering a sidewall of the patterned planarization layer
to form a first passivation sidewall,

wherein the seal is in contact with the first passivation sidewall.

US Pat. No. 9,280,923

DISPLAY DEVICE OPERATING IN 2D AND 3D DISPLAY MODES AND METHOD FOR DRIVING THE SAME

InnoLux Corporation, Mia...

1. A display device, comprising:
a first scan line;
a second scan line;
a third scan line;
a data line;
a first pixel, comprising:
a first sub-pixel, comprising:
a first sub-pixel electrode; and
a first switch, receiving a second scan signal from the second scan line to selectively couple the data line to the first
sub-pixel electrode; and

a second sub-pixel, comprising:
a second sub-pixel electrode; and
a second switch, receiving the second scan signal from the second scan line to selectively couple the data line to the second
sub-pixel electrode;

a low color-shifting circuit, comprising:
a compensating capacitor; and
a low color-shifting switch, receiving a third scan signal from the third scan line to selectively couple the compensating
capacitor to the second sub-pixel electrode of the second sub-pixel; and

a black zone generation circuit, receiving a black zone generation signal to couple the first sub-pixel electrode to a common
node such that the first sub-pixel becomes a black zone;

wherein the black zone generation circuit comprises a black zone switch having a control terminal, a first terminal, and a
second terminal, wherein the control terminal is coupled to the first scan line, the first terminal is coupled to the first
sub-pixel electrode, and the second terminal is coupled to the common node;

wherein the display device further comprises:
a scan driving unit, coupled to the first scan line, the second scan line, and the third scan line;
wherein when the display device operates in a 3D (three-dimensional) display mode, the scan driving unit sequentially outputs
the third scan signal, the second scan signal, and a first scan signal to the third scan line, the second scan line, and the
first scan line, respectively, wherein the first scan signal is the black zone generation signal; and

wherein when the display device operates in a 2D (two-dimensional) display mode, the scan driving unit sequentially outputs
the first scan signal, the second scan signal, and the third scan signal to the first scan line, the second scan line, and
the third scan line, respectively.

US Pat. No. 9,208,714

DISPLAY PANEL FOR REFRESHING IMAGE DATA AND OPERATING METHOD THEREOF

INNOLUX CORPORATION, Chu...

1. A display panel, comprising:
an active matrix pixel array comprising:
a plurality of gate lines;
a plurality of source lines; and
a plurality of pixel elements arranged in a matrix, each pixel element being coupled to the corresponding gate line and the
corresponding source line, each pixel element comprising:

an image data storage capacitor for storing an image data;
a sample unit having a control terminal for receiving a sample control signal;
a capacitive element having a first terminal coupled to a pixel electrode of the image data storage capacitor via the sample
unit;

a first refresh unit having a control terminal coupled to the first terminal of the capacitive element;
a second refresh unit having a control terminal for receiving a refresh control signal, the first and second refresh units
being serially coupled with each other and between the corresponding source line and the image data storage capacitor for
receiving a data signal; and

a shunt unit having a control terminal coupled to the pixel electrode of the image data storage capacitor, a data terminal
coupled to the first terminal of the capacitive element, and another data terminal for receiving a shunt control signal, wherein
each of the shunt control signal and the data signal sequentially has a plurality of voltages during a plurality of period,
and the voltages are in a monotonic order, wherein each of the data signal and the shunt control signal sequentially has a
first voltage during a first period, a second voltage during a second period, a third voltage during a third period, and a
fourth voltage during a fourth period, these units include N-type transistors, the first voltage is higher than the second
voltage, and wherein the transition from the first voltage to the second voltage in the shunt control signal is in advance
of the transition from the first voltage to the second voltage in the data signal;

a source driver for driving the source lines; and
a gate driver for driving the gate lines.

US Pat. No. 9,417,721

TFT TOUCH DISPLAY DEVICE AND DRIVING METHOD THEREOF

INNOLUX CORPORATION, Chu...

1. A TFT touch display device, comprising:
a plurality of control lines distributed along a first direction;
a plurality of sensor lines distributed along a second direction substantially perpendicular to the first direction;
a plurality of TFTs, each TFT being disposed at an intersection of one of the plurality of control line and one of the plurality
of sensor line, wherein each TFT is connected to the control line, the sensor line, and a power source providing a fixed voltage,
such that the TFT is turned on to generate a back-channel current when there is an object approaching to the TFT;

a control unit connected to the plurality of control lines for respectively providing a control signal to the plurality of
control lines;

a current sensing unit connected to the plurality of sensor lines for respectively sensing the back-channel current generated
by the TFTs in a sensing period; and

a plurality of display pixels, each display pixel corresponding to one of the plurality of TFTs, each display pixel having
a liquid crystal capacitor;

wherein the control signal is a signal with floating voltage in the sensing period, and the floating voltage represents that
there is no voltage applied to a gate of the TFT.

US Pat. No. 9,472,778

DISPLAY APPARATUS AND THE SEALING METHOD THEREOF

INNOLUX CORPORATION, Mia...

1. A method for sealing a display apparatus comprising:
providing a substrate comprising a displaying region and a non-displaying region;
disposing a frit on the non-displaying region to form a loop, in which the loop surrounds the displaying region and has both
a start portion and an end portion; and

providing a heating source configured for generating a first light beam and a second light beam;
applying the first light beam to the frit to glaze it along the loop in a first direction, and applying a second light beam
to the frit to glaze it along the loop in a second direction, both of the first light beam and the second light beam starting
at the start portion and ending up at the end portion, wherein the second direction is different from the first direction.

US Pat. No. 9,281,496

DISPLAY DEVICE PACKAGING METHOD AND DISPLAY DEVICE

InnoLux Corporation, Jhu...

1. A display device, comprising:
a first substrate including a display region and a non-display region surrounding the display region;
a second substrate disposed opposite to the first substrate; and
an adhesive material disposed between the first and second substrates and formed into a closed curve surrounding the display
region,

wherein the first substrate, the second substrate and the adhesive material form a sealed space, and the adhesive material
has at least a gap disposed on a side of the closed curve,

wherein a first side of the gap and a surface of the first substrate form a first angle along the center line of the closed
curve, and a second side of the gap and the surface of the first substrate form a second angle along the center line of the
closed curve, and the first angle is less than the first angle.

US Pat. No. 9,217,873

LIQUID CRYSTAL DISPLAY WITH SHIFTED PIXELS

INNOLUX CORPORATION, Mia...

1. A liquid crystal display (LCD), at least comprising:
a backlight unit;
a display module, disposed above the backlight unit, having a plurality of pixels each comprising at least three differently-colored
sub-pixels, wherein the differently-colored sub-pixels at adjacent columns are in a shifting arrangement; and

a barrier, disposed correspondingly to the display module, having a plurality of slanted transparent slits substantially exposing
at least parts of regions of the sub-pixels at the same viewing position, and one of the plurality of slanted transparent
slits exposing a red sub-pixel, a blue sub-pixel and a green sub-pixel, wherein an extending direction of an array of the
red sub-pixel, the blue sub-pixel and the green sub-pixel is substantially the same as an extending direction of the slanted
transparent slit, and a width of the slanted transparent slit is substantially equal to or less than a width of one side of
the sub-pixels.

US Pat. No. 9,165,495

CROSSTALK COMPENSATION METHOD AND DISPLAY APPARATUS USING THE SAME

INNOLUX CORPORATION, Mia...

5. A display apparatus, comprising:
a display panel, having a first color sub-pixel and an adjacent second color sub-pixel;
a driver unit, comprising a timing controller, a data driver circuit, and a storage module, the data driver circuit receiving
gray level signals outputted by the timing controller, and converting the gray level signals into driving voltages so as to
drive the first color sub-pixel and the second color sub-pixel of the display panel, wherein the driver unit is configured
to execute the following steps:

driving the timing controller to select a compensating value from a look-up table for configuring an initial gray level of
a second color sub-pixel to a correction gray level when the gray level of a first color sub-pixel set within a compensation
range; and

driving the timing controller to maintain the gray level of the second color sub-pixel at the initial gray level when the
gray level of the first color sub-pixel is set outside the compensation range;

wherein the look-up table is stored in the storage module and records a plurality of compensation values corresponding to
each gray level of the first color sub-pixel within the compensation range;

wherein the step of configuring the gray level of the second color sub-pixel further comprises:
determining whether the initial gray level of the second color sub-pixel is greater than a maximum correction gray level thereof;
configuring the initial gray level as the correction gray level when it is determined that the initial gray level is greater
than the maximum correction gray level of the second color sub-pixel; and

calculating the correction gray level with the following equation when the initial gray level is less than the maximum correction
gray level,


wherein the maximum correction gray level is greater than or equal to the maximum value of the compensation sequence in the
compensation range while less than the maximum gray level of the second color sub-pixel.

US Pat. No. 9,395,571

TOUCH DISPLAY PANEL AND TOUCH DISPLAY APPARATUS

InnoLux Corporation, Jhu...

1. A touch display panel, comprising:
a display panel including a first substrate and a second substrate which are disposed oppositely;
a touch panel disposed over the display panel;
a buffer element disposed between the display panel and the touch panel, wherein the buffer element has a first width in a
top view of the touch display panel, the first substrate has a second width in the top view of the touch display panel, and
the first width is greater than the second width; and

a circuit connection board disposed on the touch panel and electrically connected to the touch panel,
wherein at least a portion of the circuit connection board overlaps the first substrate in a direction perpendicular to the
display panel.

US Pat. No. 9,402,296

LIQUID CRYSTAL DISPLAY PANEL AND METHOD FOR MANUFACTURING THE SAME COMPRISING AT LEAST TWO CONDUCTIVE PORTIONS HAVING A RESISTIVITY EXCEEDING THAT OF AT LEAST TWO SECOND CONNECTING PORTIONS

INNOLUX CORPORATION, (TW...

1. A liquid crystal display (LCD) panel, comprising:
a substrate; and
at least one first conductive unit arranged on the substrate, each of the at least one first conductive unit comprising at
least one first connecting portion, at least two second connecting portions, and at least two conductive portions, wherein
the at least one first connecting portion is electrically connected to the at least two second connecting portions through
the at least two conductive portions respectively;

at least one second conductive unit arranged on the substrate, and insulated from the at least one first conductive unit,
wherein the at least one first connecting portion is above the at least one second conductive unit and crosses the at least
one second conductive unit; and

an insulating layer positioned between the at least one first connecting portion and the at least one second conductive unit,
wherein at least a part of the at least one second conductive unit is located between the at least two second connecting portions,
and

wherein a resistivity of each of the at least two conductive portions exceeds that of each of the at least two second connecting
portions.

US Pat. No. 9,269,752

ORGANIC ELECTROLUMINESCENCE DISPLAY

INNOLUX CORPORATION, Mia...

1. A display, comprising:
a substrate;
an electrode layer, formed on the substrate and having an electrode pattern;
an organic material layer formed on the electrode layer, wherein a plurality of pixel units are configured by the organic
material layer combined with the electrode pattern, and at least one of the plurality of pixel units comprises a plurality
of different colored sub-pixels arranged in delta, and the same colored sub-pixels of adjacent pixel units are arranged in
delta, wherein the same colored sub-pixels of adjacent pixel units share and correspond to a continuous portion of a light-emitting
material.

US Pat. No. 9,123,288

DISPLAY DEVICES FOR PROVIDING DRIVING CURRENTS IRRELEVANT TO THRESHOLD VOLTAGES OF DRIVING TRANSISTORS AND DRIVING VOLTAGES OF LIGHT-EMITTING DIODES

INNOCOM TECHNOLOGY (SHENZ...

1. A display device comprising:
a plurality of data lines transmitting a plurality of data signals, respectively;
a plurality of scan lines transmitting a plurality of scan signals, respectively, wherein the scan lines are interlaced with
the data lines, and the scan signals are enabled sequentially; and

a display array comprising a plurality of pixel units arranged in a matrix formed by a plurality of pixel rows and a plurality
of pixel columns, wherein each pixel unit is coupled to a set of the interlaced data line and scan line to receive the corresponding
data signal and the corresponding scan signal,

wherein the pixel units arranged on the same pixel column are coupled to the same data line, and the pixel units arranged
on the same pixel row are coupled to the same scan line, and

wherein each pixel unit comprises:
a driving transistor having a control terminal, a first terminal coupled to a first operation voltage source, and a second
terminal and further having a threshold voltage;

a switch transistor coupled to the second terminal of the driving transistor;
a light-emitting element having a driving voltage and coupled to the switch transistor in series between the second terminal
of the driving transistor and a second operation voltage source; and

a control unit coupled to the control terminal and the second terminal of the driving transistor and receiving the corresponding
data signal,

wherein the control unit stores the threshold voltage and the driving voltage according to a voltage level of the second terminal
of the driving transistor and changes a voltage level of the control terminal of the driving transistor according to the stored
threshold voltage, the stored driving voltage, and the corresponding data signal,

wherein the control unit comprises:
an input transistor having a control terminal coupled to the corresponding scan line and receiving the corresponding scan
signal, a first terminal coupled to the corresponding data line and receiving the corresponding data signal, and a second
terminal;

a first transistor having a control terminal receiving a first control signal, a first terminal coupled to the second terminal
of the driving transistor, and a second terminal coupled to the second terminal of the input transistor;

a second transistor having a control terminal receiving a second control signal, a first terminal coupled to the second terminal
of the driving transistor, and a second terminal;

a third transistor having a control terminal receiving a third control signal, a first terminal coupled to the second terminal
of the second transistor, and a second terminal coupled to a reference ground;

a first capacitor coupled between the second terminal of the input transistor and the control terminal of the driving transistor;
and

a second capacitor coupled between the second terminal of the input transistor and the first terminal of the third transistor;
wherein during a reset period, the input transistor is turned off according to the corresponding disabled scan signal, the
switch transistor is turned off according to a switch signal, and the first, second, and third transistors are turned on according
to the first, second, and third control signals, respectively,

wherein during a compensation period following the reset period, the second transistor is switched to be turned off according
to the second control signal,

wherein during a writing period following the compensation period, the input transistor is switched to be turned on according
to the corresponding enabled scan signal, and the first transistor is switched to be turned off according to the first control
signal,

wherein during an emitting period following the writing period, the input transistor is switched to be turned off according
to the corresponding disabled scan signal, the switch transistor is switched to be turned on according to the switch signal,
the second transistor is switched to be turned on according to the second control signal, and the third transistor is switched
to be turned off according to the third control signal, and

wherein in the emitting period, the driving transistor generates a driving current according to the voltage level of the control
terminal of the driving transistor and the voltage level of the second terminal of the driving transistor to drive the light-emitting
element.

US Pat. No. 9,495,034

TOUCH PANEL AND METHOD FOR FABRICATING THE SAME AND DISPLAY DEVICE COMPRISING THE SAME

INNOCOM TECHNOLOGY (SHENZ...

1. A touch panel, comprising:
a substrate, wherein the substrate comprises a viewing region and a border region beside an edge of the viewing region;
a patterned transparent conductive layer disposed on the substrate, wherein the patterned transparent conductive layer is
disposed on the viewing region and the border region respectively, and the patterned transparent conductive layer has a touch
sensitive function; and

a patterned metal layer disposed on the border region, wherein the patterned metal layer comprises a contact region and a
trace region connecting the contact region, and at least a portion of the contact region overlaps the patterned transparent
conductive layer,

wherein a shift range between the contact region and the patterned transparent conductive layer disposed on the border region
is smaller than about 150 ?m.

US Pat. No. 10,021,762

DISPLAY DEVICE

INNOLUX CORPORATION, Mia...

1. A display device, comprising:a substrate;
a driving circuit disposed on the substrate;
a first conductive layer disposed on the driving circuit;
at least one of light emitting units disposed on the first conductive layer and electrically connected to the driving circuit; and
a second conductive layer disposed on at least one of the light emitting units;
wherein the second conductive layer has a first surface corresponding to at least one of the light emitting units and a second surface corresponding to a region outside of the first conductive layer; and
wherein a roughness of the first surface is greater than a roughness of at least a part of the second surface.

US Pat. No. 9,535,528

SYSTEMS FOR DISPLAYING IMAGES

INNOCOM TECHNOLOGY (SHENZ...

1. A system for displaying images, comprising:
a touch sensor device, comprising:
a transparent substrate having a sensing region and a non-sensing region adjacent to the sensing region;
a sensing electrode pattern layer disposed on a top surface of the transparent substrate in the sensing region;
an inorganic dielectric material layer disposed on the top surface of the transparent substrate and having a first portion
in the non-sensing region and a second portion in the sensing region, and

a first metal layer disposed on the top surface of the transparent substrate and contacting the first portion of the inorganic
dielectric material layer,

wherein the inorganic dielectric material layer is between the sensing electrode pattern layer and the first metal layer,
in a direction perpendicular to the top surface of the transparent substrate.

US Pat. No. 9,465,225

3D DISPLAY DEVICE

INNOCOM TECHNOLOGY(SHENZH...

1. A 3D display device, comprising:
a first substrate comprising a plurality of right eye pixels and a plurality of left eye pixels in an alternate arrangement;
a second substrate;
a first optical modulating unit with a first inclined direction located in the right eye pixels between the first substrate
and the second substrate;

a second optical modulating unit with a second inclined direction located in the left eye pixels between the first substrate
and the second substrate, wherein the first inclined direction is distinct from the second inclined direction; and

a light transparent element including a plurality of barriers and a plurality of apertures in an alternate arrangement,
wherein at least one of the plurality of apertures overlaps with a border between one of the plurality of right eye pixels
and adjacent one of the plurality of left eye pixels.

US Pat. No. 9,103,982

ORGANIC ELECTROLUMINESCENT DISPLAY AND METHOD FOR FABRICATING THE SAME

INNOCOM TECHNOLOGY (SHENZ...

1. An organic electroluminescent display (OELD) device, at least comprising:
a first assembly, having a first substrate and an organic electroluminescent unit formed on the first substrate;
a second assembly assembled with the first assembly, the second assembly comprising:
a second substrate;
a color filter layer disposed on the second substrate and having a plurality of colored filter regions with different heights
in reference to the second substrate; and

a patterned light-shielding layer disposed on the color filter layer and in a step structure covering between the colored
filter regions,

wherein a part of the step structure of the patterned light-shielding layer is disposed above the colored filter region having
the greatest height and contacting the first assembly to maintain a cell gap between the first assembly and the second assembly.

US Pat. No. 9,116,358

2D/3D SWITCHABLE PARALLAX BARRIER DISPLAY

INNOCOM TECHNOLOGY(SHENZH...

1. A three-dimensional (3D) display comprising:
a display module;
a backlight module, disposed beneath the display module;
a barrier module, disposed above the display module, and comprising:
a bottom substrate having a bottom electrode layer;
an upper substrate having an upper electrode layer, and at least one of the bottom electrode layer and the upper electrode
layer comprising at least two finger electrodes interlaced to each other, and voltages with opposite direction being applied
on the two finger electrodes at the same time interval in a 3D driving mode; and

a liquid crystal layer disposed between the bottom substrate and the upper substrate;
wherein the bottom electrode layer comprises a first finger electrode, and a second finger electrode is interlaced with the
first finger electrode,

wherein the upper electrode layer comprises a third finger electrode, and a fourth finger electrode is interlaced with the
third finger electrode,

wherein the first finger electrode of the bottom electrode layer is substantially aligned with the third finger electrode
of the upper electrode layer, while the second finger electrode of the bottom electrode layer is substantially aligned with
the fourth finger electrode of the upper electrode layer,

wherein when the 3D display is in a 3D driving mode, the first finger electrode and the fourth finger electrode are applied
with +A+B voltage, and the second finger electrode and the third finger electrode are simultaneously applied with B voltage
at a first time interval; while the first finger electrode and the fourth finger electrode are applied with B voltage, and
the second finger electrode and the third finger electrode are simultaneously applied with +A+B voltage, at a second time
interval.

US Pat. No. 9,385,346

ORGANIC LIGHT EMITTING DIODE DISPLAY PANEL AND METHOD FOR MANUFACTURING THE SAME

INNOLUX CORPORATION, (TW...

1. A method for manufacturing an OLED display panel, comprising the following steps:
providing a first mother substrate and a second mother substrate having a fifth edge, a sixth edge, a seventh edge opposite
to the fifth edge and an eighth edge opposite to the sixth edge, wherein at least one OLED unit is disposed on the second
mother substrate, at least one frit unit and at least one buffer unit are disposed between the first mother substrate and
the second mother substrate, each of the frit unit respectively surrounds the OLED unit, and each of the buffer unit respectively
surrounds the frit unit to obtain each of the OLED unit being sequentially enclosed with the frit unit and the buffer unit
respectively;

cutting the first mother substrate and the second mother substrate at a side facing to the fifth edge of the second mother
substrate and opposite to a side of the buffer unit near the frit unit, on the basis of the OLED unit; and

respectively cutting the first mother substrate and the second mother substrate at sides facing to the sixth edge, the seventh
edge and the eighth edge of the second substrate and between the buffer unit and the frit unit, on the basis of the OLED unit,
to obtain the cutting buffer unit disposed between the frit unit facing to the fifth edge of the second mother substrate and
the fifth edge thereof, and the cutting buffer unit has a first end with a first cutting edge connecting to the six edge of
the second mother substrate and a second end with a second cutting edge connecting to the eighth edge of the second mother
substrate, wherein the second end opposite to the first end.

US Pat. No. 9,383,610

DISPLAY PANEL WITH AGGLOMERATES FORMED AROUND SPACERS OF SUBSTRATE

INNOLUX CORPORATION, Jhu...

1. A display panel, comprising:
a first substrate, having a first alignment film;
a second substrate, having a second alignment film and a plurality of spacers, the second alignment film disposed oppositely
to the first alignment film, and the second alignment film contacting and covering the spacers, wherein the spacers maintain
a substantially uniform gap between the first substrate and the second substrate;

a liquid crystal layer, disposed between the first substrate and the second substrate; and
a plurality of agglomerates positioned between the first alignment film and the second alignment film, and the agglomerates
surrounding at least one of the spacers, wherein sizes of the agglomerates are in a range of 0.1 ?m˜2 ?m.

US Pat. No. 9,257,087

DISPLAY DEVICES AND PIXEL DRIVING METHODS THEREFOR

INNOLUX CORPORATION, Chu...

1. A display device comprising:
a pixel driving circuit comprises:
a liquid crystal capacitor coupled to a first node;
a first storage capacitor having a first terminal directly connected to a second node and a second terminal coupled to a common
electrode; and

a first voltage control unit having a first output terminal and a second output terminal coupled to the first node and the
second node, respectively,

wherein, in a first period, the first voltage control unit feeds a first data voltage to the first node according to a first
scan signal, and in a second period later than the first period, the first voltage control unit feeds the first data voltage
to the second node according to a second scan signal, such that a voltage level at the first node is changed to a first pixel
voltage from the first data voltage.

US Pat. No. 9,137,894

DISPLAY PANEL INTEGRATING A DRIVING CIRCUIT

INNOLUX CORPORATION, Mia...

1. A display panel, comprising:
a periphery area;
an active display area adjacent to the periphery area;
a driving chip disposed in the periphery area for driving the active display area; and
at least two wires disposed in the periphery area and electrically connecting the driving chip and the active display area;
wherein the periphery area includes a first region adjacent to the driving chip, a second region adjacent to the active display
area, and a third region located between the first and second regions;

wherein the distance between the at least two wires in the third region is larger than the distances between the at least
two wires in the first and second regions.

US Pat. No. 9,337,442

DISPLAY PANEL WITH VARYING CONDUCTIVE PATTERN ZONE

INNOLUX CORPORATION, Mia...

1. An organic electroluminescence display panel, comprising:
a first substrate;
a second substrate assembled to the first substrate, and the second substrate comprising a sealant dispensing area, a metal
region, and a non-metal region adjacent to the metal region, and the metal region comprising a plurality of traces;

an organic light-emitting layer, positioned between the first substrate and the second substrate;
a sealant, positioned between the first substrate and the second substrate and adjacent to the edges of the first substrate
and the second substrate;

a varying pattern zone, formed at one of the traces of the metal region and corresponding to the sealant dispensing area,
and the varying pattern zone comprising a plurality of conductive portions; and

a supplemental pattern zone, formed at the non-metal region and comprising a plurality of supplemental conductive portions
apart from each other,

wherein a width of the conductive portions in the metal region is larger than a width of the supplemental conductive portions
in the non-metal region.

US Pat. No. 9,165,992

ARRAY SUBSTRATE AND DISPLAY PANEL USING THE SAME

INNOLUX CORPORATION, Mia...

1. An array substrate having at least a first area and at least a second area, wherein the array substrate comprises:
a first substrate;
a thin film transistor (TFT) element disposed above the first substrate, wherein the TFT comprises a gate layer, a drain layer
and a semiconductor layer;

an insulating layer disposed above the TFT element;
a first electrode layer disposed above the insulating layer;
an organic emitting layer disposed above the first electrode layer;
a first touch electrode being one of a part of the gate layer, a part of the drain layer, a part of the first electrode layer
and an additional electrode layer other than the gate layer, the drain layer and the first electrode layer, wherein the first
touch electrode is for transferring or receiving a touch signal; and

a second electrode layer disposed above the organic emitting layer, wherein the second electrode layer has a step in the boundary
between the first area and the second area, wherein the second electrode layer comprises a cathode,

wherein the second electrode layer comprising a first part and a second part, a surface of first part is disposed above a
surface of the second part, and the first part is electrically insulated from the second part, wherein the second part of
the second electrode layer located in the second area is electrically floating, and the first part of the second electrode
layer is electrically connected to the cathode.

US Pat. No. 9,442,329

LIQUID CRYSTAL DISPLAY

INNOLUX CORPORATION, Mia...

1. A liquid crystal display (LCD), comprising:
a first scan line, having a first sidewall;
a second scan line, having a second sidewall adjacent to the first sidewall;
a first data line, having a third sidewall intersecting with the first sidewall and the second sidewall;
a second data line, having a fourth sidewall adjacent to the third sidewall;
a pixel area defined by the first sidewall, the second sidewall, the third sidewall and the fourth sidewall;
a first sub-pixel electrode, partially disposed in the pixel area; and
a first active element, having a first electrode electrically connected to the first sub-pixel electrode through a first via
hole, wherein at least a portion of the first via hole is disposed out of the pixel area.

US Pat. No. 9,383,603

TRANSFLECTIVE LIQUID-CRYSTAL DISPLAY

INNOLUX CORPORATION, Mia...

1. A transflective liquid-crystal display, comprising:
a liquid-crystal layer;
a first substrate; and
a second substrate, wherein the liquid-crystal layer is sandwiched between the first and second substrates to define an array
of pixels on the second substrate,

wherein at least one of the pixels comprises:
a reflective area;
a transmissive area, adjacent to the reflective area;
a pixel electrode, disposed on the second substrate and electrical connecting to a data line, wherein the pixel electrode
is only formed reflective electrode in the reflective area and has reflectivity.

US Pat. No. 9,379,697

GATE DRIVER CIRCUIT AND DISPLAY APPARATUS HAVING THE SAME

INNOLUX CORPORATION, Mia...

1. A gate driver circuit having a plurality of shift registers, each of the shift registers configured for receiving at least
one clock signal and a start signal and generating a gate signal to drive a row of the pixels, arranged at intersections of
the gate lines and the data lines on a display panel, the shift register comprising:
a control unit having at least one clock input terminal, a first voltage input terminal, a second voltage input terminal,
and at least one first output terminal; and

a first output unit having a first pull-down TFT electrically connected to one of the first output terminals and a gate-driving
terminal configured for providing the gate signal;

wherein one of the clock signals at the clock input terminal is provided to the first output unit;
wherein a first control signal's period at the first output terminal is longer than the clock signal's period at the clock
input terminal and shorter than the period of a frame; and

wherein the control unit further comprises a second output terminal and a second output unit having a second pull-down TFT
electrically connected to the second output terminal and the gate-driving terminal; the other one of the clock signal at the
clock input terminal is provided to the second output unit, and a second control signal's period at the second output terminal
is longer than the clock signal's period selected at the clock input terminal and shorter than the period of a frame.

US Pat. No. 9,354,450

DISPLAY APPARATUS AND LIGHT EMITTING MODULE THEREOF

INNOLUX CORPORATION, Mia...

1. A display apparatus, comprising:
a display panel; and
a light module opposite to the display panel, wherein the light module comprises:
a light guide plate having a first light incident surface, a first lateral surface and a second lateral surface opposite to
the first lateral surface;

a first light emitting unit corresponding to the first light incident surface; and
a plurality of light guide elements disposed on the first lateral surface with intervals, wherein the light guide element
has a plurality of cross-sections parallel to the first light incident surface, and an area of the cross-section increases
as the distance from the cross-section to the first light incident surface increases to a certain distance from the light
incident surface, and thereafter the area of the cross-section decreases as the distance from the cross-section to the first
light incident surface continues to increase;

wherein, after a light is emitted from the first light emitting unit and enters the light guide plate via the first light
incident surface, the light is guided by the plurality of light guide elements and emitted from one of the first and the second
lateral surfaces of the light guide plate with alternated bright state and dark state.

US Pat. No. 9,207,790

TOUCH DISPLAY APPARATUS AND METHOD FOR FABRICATING THE SAME

INNOLUX CORPORATION, Mia...

1. A touch display apparatus, comprising:
a display layer between a first substrate and a second substrate;
a touch sensing layer disposed over the second substrate;
a third substrate disposed on the touch sensing layer and having a thickness of less than 0.3 mm, wherein the first substrate
has a first alignment mark and the third substrate has a second alignment mark, and the second substrate does not comprise
an alignment mark; and

a protection layer disposed on the third substrate.

US Pat. No. 9,437,838

ORGANIC LIGHT EMITTING DIODE DISPLAY DEVICE

INNOLUX CORPORATION, (TW...

1. An OLED display device, comprising:
a first substrate;
a second substrate opposite to the first substrate and has a first side;
an organic light emitting layer disposed between the first substrate and the second substrate; and
a glass-forming sealant disposed between the first substrate and the second substrate and being adjacent to the first side,
wherein the glass-forming sealant has: a first end connecting to the first substrate and being apart from the first side in
a first distance; a second end connecting to the second substrate and being apart from the first side in a second distance;
and a third end locating between the first end and the second end and being apart from the first side in a third distance,
wherein the first distance is unequal to the second distance, and the third distance is shorter than the first distance or
the second distance.

US Pat. No. 9,377,654

SYSTEM FOR DISPLAY IMAGES

INNOCOM TECHNOLOGY(SHENZH...

1. A system for displaying images, including a display panel, having a display area and a peripheral area out of the display
area, wherein the display panel comprises:
a first substrate;
a second substrate disposed opposite to the first substrate;
a seal disposed between the first substrate and the second substrate and disposed at the peripheral area;
a patterned planarization layer disposed on the first substrate; and
a passivation layer disposed between the seal and the first substrate;
wherein the seal is in contact with a sidewall of the passivation layer.

US Pat. No. 9,568,660

DISPLAY APPARATUS AND LIGHT-EMITTING MODULE AND LIGHT-GUIDING PLATE THEREOF

INNOCOM TECHNOLOGY (SHENZ...

1. A 3D display device, comprising:
a display panel, comprising a plurality of sub-pixels, each of the plurality of sub-pixels comprising a first short-side width;
a light-guiding plate disposed adjacent to the display panel, comprising a first flat surface, a second flat surface, a light
input surface, and a plurality of light-guiding elements, wherein the first flat surface is disposed between the display panel
and the second flat surface, the light input surface is connected between the first flat surface and the second flat surface,
and the light-guiding elements are disposed at the first flat surface or the second flat surface; and

a light-emitting unit disposed adjacent to the light input surface;
wherein each of the plurality of light-guiding elements comprising a curve shape with at least one inflection point;
wherein a shift range of the curve shape of the light-guiding element is greater than zero and less than or equal to one and
a half times the first short-side width; and

wherein light emitted from the light-guiding unit enters the light-guiding plate, the light is guided by the light-guiding
plate and the light-guiding elements, and the light is outputted through the first flat surface in an alternating arrangement
of at least one bright zone and at least one dark zone.

US Pat. No. 9,378,670

DISPLAY WITH BLACK MATRIX

InnoLux Corporation, Mia...

1. A display, comprising:
a first substrate;
a plurality of gate lines and a plurality of data lines disposed on the first substrate and defining at least one first color
pixel area, at least one second color pixel area, and at least one third color pixel area;

a first color pixel transistor, a second color pixel transistor, and a third color pixel transistor respectively located in
the first color pixel area, the second color pixel area, and the third color pixel area, wherein the first color pixel transistor
comprises a first color pixel active layer, the second color pixel transistor comprises a second color pixel active layer,
and the third color pixel transistor comprises a third color pixel active layer;

a second substrate disposed on the first substrate; and
a black matrix disposed between the first substrate and the second substrate,
wherein the black matrix has a first area overlapping the first color pixel area and a second area overlapping the third color
pixel area, wherein the second area is larger than the first area, and the first color has a wavelength longer than that of
the third color.

US Pat. No. 9,147,802

LIQUID CRYSTAL DISPLAY PANEL AND MANUFACTURING METHOD THEREOF

INNOLUX CORPORATION, Mia...

1. A liquid crystal display panel, comprising:
a substrate having a surface, wherein the surface has a display region and a wiring region located outside of the display
region;

a thin film transistor array formed on the display region;
a plurality of first circuits formed on the wiring region and adjacent to a first edge of the display region, wherein the
first circuits are electrically connected to the thin film transistor array; and

a plurality of first support structures formed on the wiring region adjacent to the first circuits and the first edge of the
display region, and disposed separately along the first edge, wherein the first circuits are arranged alternately with the
first support structures, and one of the first circuits is arranged between two first support structures, and the first support
structures have no electrical connection with the thin film transistor array.

US Pat. No. 9,519,165

AUTOMATED DETECTION METHOD

InnoLux Corporation, Mia...

1. An automated detection method, comprising steps of:
moving at least one panel to a first detection station by a first automatic loading device for an automated lighting detection
of the panel;

assembling the panel with at least one polarizer and at least one circuit board to obtain a display module and moving the
display module to a second detection station by a second automatic loading device for an automated optical detection and an
automated lighting detection of the display module; and

combining the display module and a backlight module to form a display device and moving the display device to a third detection
station by a third automatic loading device for an automated lighting detection of the display device.

US Pat. No. 9,424,794

DISPLAY PANEL AND DISPLAY DEVICE

INNOLUX CORPORATION, Jhu...

1. A display panel, comprising:
a first substrate and a second substrate disposed opposite to the first substrate;
a liquid crystal layer disposed between the first and second substrates; and
a pixel array disposed on the first substrate and including at least one pixel, which includes a first electrode layer, a
second electrode layer and an insulation layer disposed between the first and second electrode layers, wherein the second
electrode layer has n electrode portions, the electrode portions are spaced from each other and disposed along a first direction,
an electrode width of one of the electrode portions along the first direction is denoted by W (?m), a maximum width of a light-emitting
area of the pixel along the first direction is denoted by Ax (?m), and an equation is satisfied as below:


wherein, n is a positive integer, and the unit of W and Ax is ?m.

US Pat. No. 9,263,475

THIN FILM TRANSISTOR SUBSTRATE AND DISPLAY APPARATUS

InnoLux Corporation, Jhu...

1. A thin film transistor (TFT) substrate, comprising:
a substrate;
a plurality of pixel electrodes disposed on the substrate;
a gate layer disposed on the substrate;
an active layer disposed corresponding to the gate layer;
a first source layer and a second source layer contacting the active layer respectively; and
a drain layer contacting the active layer and electrically coupled to one of the pixel electrodes, wherein the drain layer
has at least one extending portion,

wherein the gate layer, the active layer, the first source layer and the drain layer constitute a first transistor; the gate
layer, the active layer, the second source layer and the drain layer constitute a second transistor; and when the first and
second transistors are disabled, the first and second source layers are electrically isolated from each other,

wherein the active layer of the first transistor is direct physically connected to the active layer of the second transistor,
the sum of the number of the first and second source layers disposed on the active layer is more than the number of the drain
layer disposed on the active layer, and only one extending portion is disposed between the first source layer and second source
layer.

US Pat. No. 9,190,005

DISPLAY PANEL

INNOLUX CORPORATION, Mia...

1. A display panel, comprising:
a display area,
a plurality of scan lines and data lines crossing each other within the display area, wherein at least two of the data lines
have different capacitances;

a data driving circuit outputting a plurality of control signal and a data signal; and
a demultiplexing unit having a plurality of thin-film transistors coupled with the data driving circuit and the data lines,
wherein the thin-film transistors receive the data signal and transmit the data signal to the correspondingly coupled data
lines through channel layers of the thin-film transistors according to the control signals,

wherein the channel layers of at least two of the thin-film transistors coupled with the at least two data lines have different
widths.

US Pat. No. 9,513,425

BACKLIGHT MODULE INCLUDING A QUANTUM DOT ENHANCEMENT FILM AND DISPLAY DEVICE USING THE SAME

INNOLUX CORPORATION, Mia...

1. A backlight module, comprising:
an illuminant portion having a first surface and emitting light from the first surface, the illuminant portion comprising
a light guiding plate and a plurality of light sources arranged along at least one edge of the light guiding plate which guides
light emitted from the plurality of light sources to the first surface;

an optical film assembly placed on the first surface of the illuminant portion and having a quantum dot enhancement film and
at least one upper optical film layered above the quantum dot enhance film, the quantum dot enhancement film comprising a
first edge and a second edge, wherein the second edge is adjacent to the plurality of light sources; and

a frame surrounding the illuminant portion and having a first extension portion and a second extension portion extending along
a direction parallel to the first surface,

wherein the quantum dot enhancement film extends toward the frame more than the upper optical film such that the first and
second extension portions cover a portion of the quantum dot enhancement film,

wherein the first extension portion covers the first edge by a first distance and the second extension portion covers the
second edge by a second distance, and

wherein the second distance is greater than the first distance.

US Pat. No. 9,379,245

THIN FILM TRANSISTOR SUBSTRATE AND DISPLAY PANEL USING THE SAME

INNOLUX CORPORATION, Mia...

1. A thin film transistor substrate, comprising:
a substrate;
a gate electrode disposed on the substrate;
a semiconductor layer insulated from the gate electrode;
a source electrode and a drain electrode electrically connecting the semiconductor layer;
a first protective layer having a first oxygen vacancy concentration and the first protective layer disposed on the semiconductor
layer;

a second protective layer having a second oxygen vacancy concentration and the second protective layer disposed on the first
protective layer; and

a boundary area having a third oxygen vacancy concentration, the boundary area located between the first and second protective
layers, wherein the third oxygen vacancy concentration is greater than the first and second oxygen vacancy concentrations
respectively.

US Pat. No. 9,690,411

TOUCH DISPLAY

INNOLUX CORPORATION, Mia...

1. A touch display, comprising:
a display panel, having a plurality of pixel areas, wherein one of the pixel areas has a pixel pitch in a first direction,
and the display panel comprises:

a substrate; and
a display medium layer, disposed over the substrate;
a touch layer disposed over the substrate, the touch layer comprising;
a plurality of slits, wherein the slits comprise a first slit and a second slit adjacent to the first slit; and
an electrode disposed between the first slit and the second slit, wherein the electrode comprises a plurality of first linear
sections and a plurality of second linear sections alternately arranged in a second direction, the second direction is substantially
perpendicular to the first direction, one of the first linear sections has an edge, and a first inflection point and a second
inflection point are located at two ends of the edge,

wherein an intersection point is defined as a crossing location of an extension of the first inflection point in the first
direction and an extension of the second inflection point in the second direction, a first distance is defined as a distance
between the first inflection point and the intersection point, and a second distance is defined as a distance between the
second inflection point and the intersection point,

wherein a ratio of the second distance to the first distance is in a range from 0.33 to 3.05.

US Pat. No. 9,684,214

DISPLAY DEVICE

INNOLUX CORPORATION, Mia...

1. A display device, comprising:
a substrate comprising a display region and a non-display region outside the display region;
a first conductive layer disposed on the substrate;
a semiconductor layer disposed on the first conductive layer, wherein the semiconductor layer has a first side in the display
region and a second side in the non-display region; and

a second conductive layer disposed on a top surface of the semiconductor layer, wherein the second conductive layer has a
third side in the display region and a fourth side in the non-display region, the third side has a first contact border contacting
the top surface, and the fourth side has a second contact border contacting the top surface;

wherein the first side of the semiconductor layer is adjacent to the first contact border of the second conductive layer,
and the second side of the semiconductor layer is adjacent to the second contact border of the second conductive layer;

wherein a first interval is between the first side of the semiconductor layer and the first contact border of the second conductive
layer, and a second interval is between the second side of the semiconductor layer and the second contact border of the second
conductive layer;

wherein the first interval is smaller than the second interval.

US Pat. No. 9,500,908

DISPLAY PANEL AND DISPLAY DEVICE

INNOLUX CORPORATION, Jhu...

1. A display panel, comprising:
a first substrate including a first transparent conductive layer and a first alignment layer, wherein the first transparent
conductive layer includes a first surface and has at least a first notch, the first alignment layer includes a first part
and a second part, the first part is disposed in the first notch, the second part is disposed on the first surface, and the
surface roughness of the first part of the first alignment layer is greater than that of the second part;

a second substrate disposed opposite to the first substrate; and
a liquid crystal layer disposed between the first substrate and the second substrate.

US Pat. No. 9,483,130

TOUCH DEVICE

INNOLUX CORPORATION, Mia...

1. A touch device, comprising:
a touch module including a surface having a touch display zone; and
a front frame element disposed at an outer edge of the touch module and including a covering portion located on the surface
of the touch module, wherein the thickness of an outer edge of the covering portion adjacent to the touch display zone is
between 0.1 mm and 1 mm, the minimum distance from the outer edge of the covering portion to the touch display zone is between
2 mm and 8 mm, the covering portion has an inclined surface, the minimum distance, in parallel with the surface of the touch
module, from a starting point of the inclined surface to the outer edge of the covering portion is between 2 mm and 15 mm,
and an included angle formed between an extensive surface of the inclined surface and the surface of the touch module is between
1° and 20°.

US Pat. No. 9,423,644

DISPLAY

INNOLUX CORPORATION, Mia...

1. A display, comprising:
a first substrate;
a plurality of gate lines and data lines disposed on the first substrate and cross each other to define a plurality of pixel
areas;

a plurality of transistors electrically connected to the gate lines and the data lines respectively, wherein each of the transistors
comprises:

an active layer disposed on the first substrate and corresponding to one of the plurality of gate lines, wherein the active
layer has a first end portion, a second end portion and a necked-down portion connecting between the first end portion and
the second end portion, and a first width of the necked-down portion in an axial direction perpendicular to the gate lines
is less than a second width of the first end portion in the axial direction and a third width of the second end portion in
the axial direction, and wherein partial of the active layer overlaps with an overlap—between the gate line and the data line,
and wherein a projection projected from an entirety of the active layer on the first substrate is located within a projection
of the gate line on the first substrate;

a second substrate disposed on the first substrate; and
a display medium disposed between the first substrate and the second substrate.

US Pat. No. 9,425,270

ARRAY SUBSTRATE STRUCTURE AND CONTACT STRUCTURE

INNOLUX CORPORATION, Jhu...

1. A contact structure comprising:
a substrate;
an active layer over the substrate;
an insulating layer over the active layer;
an inter-layer dielectric (ILD) layer over the insulating layer;
a contact opening penetrating a portion of the ILD layer and the insulating layer, exposing a portion of the active layer,
wherein the contact opening comprises a first recess portion, wherein the first recess portion is defined by a surface of
the ILD layer, a sidewall of the insulating layer, and a top surface of the active layer, and wherein the surface of the ILD
layer makes an angle with the sidewall of the insulating layer which is not equal to 180 degrees; and

a conductive layer in the contact opening, electrically connected to the active layer.

US Pat. No. 9,368,631

THIN FILM TRANSISTOR AND DISPLAY PANEL INCLUDING THE SAME

INNOLUX CORPORATION, Mia...

1. A thin film transistor, comprising:
a gate electrode on a substrate, wherein the gate electrode includes a gate area with respect to the substrate;
a channel layer overlapping the gate electrode, wherein the channel layer includes a channel area with respect to the substrate;
a gate dielectric layer disposed between the gate electrode and the channel layer;
a source electrode and a drain electrode electrically connected to two parts of the channel layer; and
a passivation layer overlying the source electrode, the drain electrode, and the gate dielectric layer, wherein the passivation
layer has a planar surface;

a via hole through the passivation layer to expose a part of the drain electrode; and
a conductive pattern on the planar surface of the passivation layer to serve as a pixel electrode, wherein the conductive
pattern contacts the drain electrode through the via hole,

wherein the channel layer comprises an oxide semiconductor, and
wherein the channel area falls within the gate area.

US Pat. No. 9,367,194

SYSTEMS FOR DISPLAYING IMAGES

INNOLUX CORPORATION, Jhu...

1. A system for displaying images, comprising:
a capacitive touch sensor device, comprising:
a dielectric layer having a sensing area and covered by a transparent substrate;
a plurality of series of first sense electrodes and a plurality of series of second sense electrodes embedded in a first level
of the dielectric layer and within the sensing area, wherein each first sense electrode in each series of first sense electrodes
are electrically connected together along a first direction and each second sense electrode in each series of second sense
electrodes are electrically connected together along a second direction substantially different from the first direction;
and

a plurality of signal lines embedded in a second level lower than the first level of the dielectric layer and extending along
the second direction, wherein each signal line is correspondingly and electrically connected to one of the first sense electrode
of one series of the first sense electrodes and overlapping but without direct electrical connection with one of the first
sense electrode of another series of the first sense electrodes.

US Pat. No. 9,335,634

DISPLAY MANUFACTURING METHOD AND PHOTO ALIGNMENT PROCESS

Innolux Corporation, Jhu...

1. A display manufacturing method, comprising:
moving a first substrate and a second substrate by a conveying apparatus; and
implementing a first exposure and a second exposure of the first substrate by at least one light emitting element and a first
exposure and a second exposure of the second substrate by the at least one light emitting element when the conveying apparatus
drives the first and second substrates to pass through the at least one light emitting element,

wherein when the first exposures of the first and second substrates are implemented, the moving directions of the first and
second substrates are opposite, or when the second exposures of the first and second substrates are implemented, the moving
directions of the first and second substrates are opposite.

US Pat. No. 9,285,627

DISPLAY MODULE HAVING A LIGHT SOURCE

INNOLUX CORPORATION, Mia...

9. A display module having a light source, wherein the light source has an emission spectrum, and the display module comprises:
a display unit, comprising:
a first substrate;
a second substrate;
a display medium disposed between the first substrate and the second substrate; and
a green filter layer disposed on the first substrate and having a transmission spectrum, wherein
a product of a first illumination intensity value corresponding to a maximum peak wavelength of the emission spectrum of the
light source between 480 nm and 660 nm of wavelength and a first transmittance intensity value corresponding to the maximum
peak wavelength of the transmission spectrum of the green filter layer is a first product value,

wherein the emission spectrum and the transmission spectrum between 660 nm and 780 nm of wavelength has a cross-point, and
a product of a second illumination intensity value of the emission spectrum corresponding to the cross-point and a second
transmittance intensity value of the transmission spectrum corresponding to the cross-point is a second product value, and
a ratio of the second product value to the first product value is less than 2%, wherein the emission spectrum and the transmission
spectrum are normalized.

US Pat. No. 9,207,387

BACKLIGHT MODULE AND LIQUID CRYSTAL DISPLAY DEVICE

INNOLUX CORPORATION, Mia...

1. A backlight module, comprising:
a light guide plate, having a first side surface, a second side surface and a third side surface, wherein the first side surface
is opposite to the third side surface, and the second side surface is orthogonal to the first and third side surfaces;

a first light source device, disposed at two sides of an intersection corner of the first and second side surfaces and facing
the first and second side surfaces;

a second light source device, disposed at two side surfaces of an intersection corner of the second and third side surfaces
and facing the second and third side surfaces; and

a positioning structure,
wherein a recess is formed at the intersection corner of the first and second side surfaces, and the recess has a first side
wall extending along a first direction perpendicular to the first side surface and a second side wall extending along a second
direction perpendicular to the second side surface, and the positioning structure is disposed in the recess.

US Pat. No. 9,097,924

DISPLAY DEVICE

INNOLUX CORPORATION, Mia...

1. A display, comprising:
a first substrate, having a display area and a non-display area outside of the display area;
a second substrate, facing the first substrate;
a common electrode formed on an inner surface of the second substrate;
a plurality of pixel units, formed at the display area of the first substrate and configured to receive an output signal;
a driving unit, formed at the non-display area of the first substrate and comprising:
a first conductive layer, configured to transmit the output signal to the pixel unit;
a first insulation layer, formed on the first conductive layer;
a second conductive layer, formed on the first insulation layer;
a second insulation layer, formed on the second conductive layer; and
a connecting layer, formed on the second insulation layer, wherein both of the first insulation layer and the second insulation
layer have a through-hole, respectively, and the connecting layers are electrically connected between the first conductive
layer and the second conductive layer by passing through the through-holes; and

a column insulation structure, corresponding to the connecting layer and formed between the first substrate and the second
substrate,

wherein the column insulation structure is spaced apart from the connecting layer by a distance, and a gap is formed between
the column insulation structure and the connecting layer,

wherein the column insulation structure is formed on the common electrode, and a voltage applied to the common electrode is
different from a voltage applied to the connecting layer.

US Pat. No. 9,076,987

ORGANIC LIGHT EMITTING DIODE DISPLAY AND MANUFACTURING METHOD THEREOF

INNOLUX CORPORATION, Mia...

1. A display, comprising:
a first substrate having a displaying area;
a second substrate;
a plurality of organic light emitting diodes disposed between the first substrate and the second substrate;
a frit layer disposed between the first substrate and the second substrate and surrounding the organic light emitting diodes,
wherein the frit layer comprises:

a first porous region having pores and a second porous region having pores, wherein the first porous region and the second
porous region are disposed adjacent to each other, and the first porous region is disposed adjacent to the displaying area
and located between the second porous region and the displaying area; and

an encapsulation layer disposed between the first substrate and the second substrate, wherein the encapsulation layer surrounds
and covers the frit layer, and the frit layer is disposed between the organic light emitting diodes and the encapsulation
layer;

wherein, the number of the pores of the first porous region with a diameter of larger than or equal to 4 ?m and smaller than
or equal to 15 ?m is greater than the number of the pores of the second porous region with the diameter of larger than or
equal to 4 ?m and smaller than or equal to 15 ?m; and

wherein a corner portion of the frit layer has a greater density of pores than a straight portion of the frit layer.

US Pat. No. 9,591,749

CAPACITANCE TOUCH PANEL MODULE AND FABRICATION METHOD THEREOF

INNOLUX CORPORATION, Mia...

1. A capacitance touch panel, comprising:
a substrate comprising a touching area and a peripheral area, wherein the peripheral area is around the touching area;
a plurality of insulated protrusions in the touching area;
an insulated frame corresponding to the peripheral area and the insulated frame comprising a first region and a second region,
wherein the first region has a first width, the second region has a second width, the first width is larger than the second
width, and the second region is opposite to the first region;

a plurality of first conductive patterns arranged in a plurality of rows along a first orientation;
a plurality of second conductive patterns arranged between neighboring rows of the first conductive patterns, wherein the
first conductive patterns are electrically insulated from the second conductive patterns;

a plurality of connecting portions, wherein each connecting portion connects two neighboring first conductive patterns arranged
in a row; one of the insulated protrusions has a curved surface and covers one of the connecting portions;

a plurality of bridging members electrically connecting two neighboring second conductive patterns; and
a plurality of conductive wires, wherein one of the conductive wires has a first end portion corresponding to the first region.

US Pat. No. 9,411,448

TOUCH DISPLAY APPARATUS

INNOLUX CORPORATION, Jhu...

1. A touch display apparatus, comprising:
a display panel;
a touch panel disposed opposite the display panel and including a first surface facing the display panel;
a functional film disposed on the first surface of the touch panel and including an outer edge;
an adhesive element disposed at an edge of at least one of the display panel and the touch panel and adhering to the display
panel and the touch panel, wherein the adhesive element includes an inner edge, and a minimum distance between the inner edge
and the outer edge is larger than 0 and smaller than or equal to 10 mm; and

a ground conductive layer disposed on the first surface of the touch panel, wherein the ground conductive layer is located
between the functional film and the adhesive element.

US Pat. No. 9,391,291

ORGANIC LIGHT EMITTING DIODE DISPLAY DEVICE AND DISPLAY PANEL THEREOF

INNOLUX CORPORATION, Mia...

1. A display panel, comprising:
a first substrate;
a second substrate;
a first electrode disposed between the first substrate and the second substrate;
an organic light emitting layer disposed between the first electrode and the second substrate; and
a second electrode disposed between the organic light emitting layer and the second substrate,
wherein a material of the second electrode comprises an alkaline earth element and silver;
wherein the second electrode comprises a first point, a second point, and a third point, a distance between the organic light
emitting layer and the first point is less than a distance between the organic light emitting layer and the second point,
the distance between the organic light emitting layer and the first point is less than a distance between the organic light
emitting layer and the third point, and the distance between the second point and the organic light emitting layer is different
from the distance between the third point and the organic light emitting layer; and

wherein a ratio of the alkaline earth element to silver of the first point is greater than a ratio of the alkaline earth element
to silver of the second point, and the ratio of the alkaline earth element to silver of the first point is greater than a
ratio of the alkaline earth element to silver of the third point.

US Pat. No. 9,343,621

LIQUID CRYSTAL DISPLAY PANEL AND MANUFACTURING METHOD THEREOF

INNOLUX CORPORATION, Mia...

1. A liquid crystal display panel, comprising:
a substrate having a surface, wherein the surface has a display region and a wiring region located outside of the display
region, and the display region has a first edge and a second edge intersecting with the first edge;

a thin film transistor array formed on the display region;
a plurality of first circuits formed on the wiring region and adjacent to the first edge, wherein the first circuits are electrically
connected to the thin film transistor array;

a plurality of first support structures formed on the wiring region and adjacent to the first edge of the display region,
wherein the first circuits are arranged alternately with the first support structures, and the at least one first support
structure has no electrical connection with the thin film transistor array; and

a other support structure region formed on the wiring region between the second edge and an edge of the substrate, wherein
the other support structure region has a first width at a first end farther from the second edge and a second width at a second
end closer to the second edge, and the first width is larger than the second width.

US Pat. No. 9,337,449

ORGANIC LIGHT-EMITTING DEVICE AND IMAGE DISPLAY SYSTEM EMPLOYING THE SAME

INNOLUX CORPORATION, Mia...

1. An organic light-emitting device, comprising:
a first substrate;
an organic light-emitting pixel structure disposed on a top surface of the first substrate;
a color filter layer disposed over the organic light-emitting pixel structure;
a second substrate, having a bottom surface opposite to the top surface of the first substrate, disposed over the color filter
layer; and

an optical functional layer disposed over the organic light-emitting pixel structure and disposed between the first substrate
and the second substrate, wherein the optical functional layer is photoresist material, wherein the optical functional layer
has a transmittance of visible light between 50-70%, and a transmittance of ultraviolet light of less than 20%.

US Pat. No. 9,230,481

PIXEL CIRCUIT AND DRIVING METHOD AND DISPLAY DEVICE THEREOF

INNOLUX CORPORATION, Tai...

1. A pixel circuit, comprising:
an OLED including an anode, and a cathode connected to a first voltage source;
a driving transistor for driving the OLED, the driving transistor including a first node connected to a second voltage source,
a second node, and a third node connected to the anode;

a first transistor including a first terminal connected to a data driving line, a second terminal connected to a first control
signal source, and a third terminal connected to the second node;

a second transistor including a first terminal, a second terminal connected to a second control signal source, and a third
terminal connected to the anode and the third node;

a storage capacitor including a first terminal directly connected to a third voltage source and a second terminal directly
connected to the first terminal of the second transistor; and

a coupling capacitor including a first terminal directly connected to the first terminal of the second transistor and a second
terminal directly connected to the second node;

wherein, in a compensating stage, a voltage of the second voltage source is applied to the driving transistor, and the voltages
of the second voltage source are switched between two voltage levels in a reset, the compensating, and a programming stages.

US Pat. No. 9,217,898

VERTICAL ALIGNMENT LIQUID CRYSTAL DISPLAY DEVICE AND METHOD FOR DRIVING SAME

INNOLUX CORPORATION, Mia...

1. A vertical alignment liquid crystal display (VA-LCD) device, comprising:
a display panel comprising a plurality of pixels, a plurality of data lines, and a plurality of scan lines intersecting the
plurality of data lines, the plurality of scan lines and the plurality of data lines defining the plurality of pixels, a first
pixel of the plurality of pixels comprising a first thin film transistor (TFT), a second TFT, a liquid crystal capacitor,
a pixel electrode, and a common electrode, the first TFT and the second TFT being directly connected to the same liquid crystal
capacitor, wherein in the first pixel, the common electrode is electrically connected to a source of the second TFT, a drain
of the second TFT is electrically connected to the pixel electrode directly, a source of the first TFT is electrically connected
to the first data line, a drain of the first TFT is electrically connected to the pixel electrode directly, and a switch-on
resistance of the second TFT is greater than that of the first TFT, and an absolute value of a second gray voltage is lower
than that of a first gray voltage,

wherein in a display frame time of the VA-LCD, the common electrode is applied with a common voltage, and the first pixel
maintains the first gray voltage and the second gray voltage, the first gray voltage being different from the second gray
voltage, and

wherein a plurality of grooves are formed in the pixel electrode and the liquid crystal molecules are aligned to different
orientations.

US Pat. No. 9,066,428

DISPLAY PANEL INTEGRATING A DRIVING CIRCUIT

INNOLUX CORPORATION, Mia...

1. A display panel, comprising:
a periphery area;
an active display area adjacent to the periphery area;
a driving chip disposed out of the active display area for driving the active display area; and
a plurality of wires electrically connecting the driving chip and the active display area;
wherein at least one first wire of the plurality of wires has a first side with a first curvature radius and a second side,
and a maximum width between the first side and the second side is larger than a width of one of the plurality of wires at
an end portion.

US Pat. No. 9,673,228

DISPLAY PANEL

INNOLUX CORPORATION, Mia...

1. A display panel, comprising:
a substrate;
a first metal layer on the substrate, wherein the first metal layer includes a gate electrode and a gate line connecting to
the gate electrode;

a first insulation layer on the first metal layer;
a planarization layer on the first insulation layer;
an opening defined by sidewalls of the planarization layer and a surface of the first insulation layer, wherein the opening
overlaps the gate electrode;

an active layer on the planarization layer and covering the opening; and
a second metal layer on the active layer, wherein the second metal layer includes a source electrode contacting the active
layer and a data line connecting to the source electrode,

wherein the planarization layer and the first insulation layer are disposed between the data line and the gate line,
an etch stop layer on the active layer and the planarization layer, wherein the etch stop layer includes a plurality of contact
vias to expose parts of the active layer on the opening, the source electrode contacts the active layer through one of the
contact vias, and the etch stop layer, the planarization layer, and the first insulation layer are disposed between the data
line and the gate line;

a second insulation layer on the planarization layer, wherein the active layer is disposed on the second insulation layer,
and the etch stop layer, the second insulation layer, the planarization layer, and the first insulation layer are disposed
between the data line and the gate line.

US Pat. No. 9,591,748

CAPACITANCE TOUCH PANEL MODULE AND FABRICATION METHOD THEREOF

INNOLUX CORPORATION, Mia...

1. A capacitance touch panel, comprising:
a substrate comprising a touching area and a peripheral area around the touching area;
a plurality of insulated protrusions in the touching area;
an insulated frame in the peripheral area;
a plurality of first conductive patterns arranged in a plurality of rows along a first orientation;
a plurality of second conductive patterns arranged between neighboring rows of the first conductive patterns, wherein the
first conductive patterns are electrically insulated from the second conductive patterns;

a plurality of connecting portions, wherein each connecting portion connects two neighboring first conductive patterns arranged
in a row; and

a plurality of bridging members electrically connecting two neighboring second conductive patterns;
wherein one of the insulated protrusions has a curved surface and covers one of the connecting portions; and
wherein at least one of the insulated protrusions overlaps partially at least one of the second conductive patterns.

US Pat. No. 9,589,495

LIQUID CRYSTAL DISPLAY AND DISPLAY METHOD THEREOF

INNOLUX CORPORATION, Mia...

1. A liquid crystal display, comprising:
a plurality of dots arranged in a matrix formed with pixel columns and pixel rows, wherein each of the dots comprises at least
a pixel and is used for displaying a dot of a first resolution image, and the dot size is equal to or larger than 0.018 mm2 and equal to or smaller than 0.16 mm2,

wherein when the liquid crystal display receives a second resolution image signal having dots fewer than the first resolution
image, a dot of a second resolution image is displayed by at least a high gray level pixel and at least a low gray level pixel
which displays a gray level lower than the high gray level pixel, and each of the pixel rows is formed by a plurality of the
high gray level pixels or a plurality of the low gray level pixels, and

wherein when the liquid crystal display receives the first resolution image signal, each of the pixel columns is supplied
with driving signals having the same polarity, and when the liquid crystal display receives the second resolution image signal,
each of the pixel columns is supplied with driving signals having the same polarity.

US Pat. No. 9,472,151

DISPLAY PANEL

INNOLUX CORPORATION, Jhu...

1. A display panel, comprising:
a display area;
a plurality of scan lines and a plurality of data lines in the display area, wherein at least two of the data lines have different
lengths in the display area;

a data driving circuit outputting a plurality of control signals and a plurality of data signals;
a demultiplexing unit having a plurality of thin-film transistors coupled with the data driving circuit and the data lines,
wherein the thin-film transistors receive the data signals and transmit the data signals to the correspondingly coupled data
lines through the thin-film transistors according to the control signals; and

at least two auxiliary capacitors, wherein the at least two auxiliary capacitors are coupled to the at least two data lines
respectively, wherein one of the at least two auxiliary capacitors is formed by a first area which one of the at least two
data lines overlapped the scan lines, and another one of the at least two auxiliary capacitors is formed by a second area
which another one of the at least two data lines overlapped the scan lines, and the first area is different to the second
area.

US Pat. No. 9,379,168

TOUCH OLED DISPLAY PANEL AND DISPLAY DEVICE COMPRISING THE SAME

INNOLUX CORPORATION, (TW...

1. A touch organic light-emitting diode (OLED) display panel, comprising:
a thin film transistor (TFT) substrate;
an OLED layer disposed on the TFT substrate;
a substrate disposed on the OLED layer;
a sensor layer disposed on the substrate;
a dual-insulator disposed between the sensor layer and the substrate, and the dual-insulator comprises a first insulator and
a second insulator, wherein the second insulator is disposed between the first insulator and the sensor layer and has a refractive
index of 1.6 to 1.7 and a thickness of 1500 Å to 4000 Å;

a protective layer disposed on the sensor layer;
an optical functional layer having a transmittance of 50% to 80%; and
a cover plate disposed on the sensor layer,
wherein the optical functional film is disposed on a surface of the cover plate.

US Pat. No. 9,155,175

LIQUID CRYSTAL DISPLAY PANEL AND METHOD FOR MANUFACTURING THE SAME COMPRISING AT LEAST TWO CONDUCTIVE PORTIONS HAVING A RESISTIVITY EXCEEDING THAT OF AT LEAST TWO SECOND CONNECTING PORTIONS

InnoLux Corporation, Mia...

1. A liquid crystal display (LCD) panel, comprising:
a substrate; and
at least one first conductive unit arranged on the substrate, each of the at least one first conductive unit comprising at
least one first connecting portion, at least two second connecting portions, and at least two conductive portions, the at
least two conductive portions being located between two parts of the at least one first connecting portion and the at least
two second connecting portions respectively thus electrically connecting the at least two second connecting portions through
the at least one first connecting portion; and

at least one second conductive unit arranged on the substrate, and insulated from the at least one first conductive unit,
wherein the at least one first connecting portion is above the at least one second conductive unit with respect to a main
surface of the substrate and crosses the at least one second conductive unit, and

wherein at least a part of the at least one second conductive unit is located between the at least two second connecting portions,
wherein a resistivity of each of the at least two conductive portions exceeds that of each of the at least two second connecting
portions.

US Pat. No. 9,759,939

LIQUID CRYSTAL DISPLAY DEVICE AND FABRICATION METHOD OF A CONDUCTIVE SUBSTRATE

INNOCOM TECHNOLOGY (SHENZ...

1. A liquid crystal display device, comprising:
a first substrate;
a second substrate spaced apart from the first substrate; and
a plurality of liquid crystal molecules disposed between the first and the second substrates,
wherein the first substrate includes:
a transparent substrate;
an insulator layer formed on a surface of the transparent substrate and formed with a plurality of grooves;
a plurality of scan lines that are disposed on the insulator layer;
a plurality of data lines that are disposed on the insulator layer, that are mutually transverse to the scan lines, and that
cooperate with the scan lines to define a plurality of pixel areas; and

a plurality of pixel electrodes formed in the pixel areas on a surface of the insulator layer and each of the pixel electrodes
is formed with a plurality of electrode slits,

wherein the plurality of spaced apart scan lines is arranged in a first direction, and the plurality of spaced apart data
lines is arranged in a second direction transverse to the first direction, the scan lines being electrically isolated from
the data lines, the grooves extending in a first extending direction that forms an acute angle with the scan lines, the acute
angle ranging from 35 degrees to 55 degrees.

US Pat. No. 9,449,989

THIN FILM TRANSISTOR SUBSTRATE

INNOLUX CORPORATION, Jhu...

6. A thin film transistor substrate, comprising:
a substrate; and
plural thin film transistor units disposed on the substrate and respectively comprising:
an active layer disposed on the substrate and made of polysilicon;
a first insulating layer disposed on the active layer; and
a source electrode and a drain electrode disposed on the first insulating layer,
wherein the first insulating layer has plural second protrusions at a top surface of the first insulating layer, wherein the
thin film transistor units further respectively comprise a metal layer disposed on the first insulating layer and a second
insulating layer disposed on the metal layer, wherein the metal layer has plural first protrusions at a top surface of the
metal layer, wherein the second insulating layer comprises a third region corresponding to the active layer and a fourth region
corresponding to a region outside the active layer, and wherein a roughness of a top surface of the third region is greater
than a roughness of a top surface of the fourth region.

US Pat. No. 9,430,970

3D IMAGE DISPLAY DEVICE

INNOLUX CORPORATION, Mia...

1. A 3D image display device, comprising:
a backlight unit for generating an original light;
a display panel having a plurality of pixels;
a light modulating unit, wherein the display panel deposited between the backlight unit and the light modulating unit; and
a controller connected to the display panel and the light modulating unit, the controller providing a first signal to both
of the display panel and the light modulating unit in a first time, and providing a second signal to both of the display panel
and the light modulating unit in a second time, wherein the first time is different from the second time;

wherein the original light passes through the display panel according to the first signal to generate a first light in the
first time, the first light passes through the light modulating unit, and has a first position on an objective plane parallel
to the display panel; and the original light passes through the display panel according to the second signal to generate a
second light in the second time, the second light passes through the light modulating unit, and has a second position on the
objective plane, and the first position is different from the second position.

US Pat. No. 9,401,113

LOW COLOR SHIFT MULTI-VIEW DISPLAY DEVICE AND DISPLAY METHOD THEREOF

INNOLUX CORPORATION, Mia...

1. A display device comprising:
a display panel including first and second pixel groups, wherein each of the pixel groups includes a color pixel, and the
color pixel of the first pixel group and the color pixel of the second pixel group are with the same color;

a data driver, based on a frame signal, providing a plurality of color voltages, and the color pixel of the first pixel group
having a first color voltage and the color pixel of the second pixel group having a second color voltage; and

a gamma voltage generating circuit, electrically connecting with the data driver;
wherein the first color voltage differs from the second color voltage when the frame signal is configured to display an equal
gray level.

US Pat. No. 9,349,913

LIQUID CRYSTAL DISPLAY PANEL AND MANUFACTURING METHOD THEREOF

INNOLUX CORPORATION, Mia...

1. A liquid crystal display panel, comprising:
a substrate having a surface, wherein the surface has a display region and a wiring region located outside of the display
region, and the display region has a first edge and a second edge intersecting with the first edge;

a thin film transistor array formed on the display region;
a plurality of first circuits formed on the wiring region and adjacent to the first edge of the display region, wherein the
first circuits are electrically connected to the thin film transistor array;

a plurality of first support structures formed on the wiring region and adjacent to the first edge, and the first circuits
are arranged alternately with the first support structures, and the at least one first support structure has no electrical
connection with the thin film transistor array;

a plurality of second circuits disposed on the wiring region adjacent to the second edge; and
a plurality of other circuits formed on the wiring region for electrically connecting the thin film transistor array to the
second circuits, wherein a spacing of the two adjacent other circuits closer to the second edge is larger than that farther
from the second edge.

US Pat. No. 9,348,179

LIQUID CRYSTAL DISPLAY DEVICE

INNOLUX CORPORATION, Mia...

12. A liquid crystal display device, comprising:
a first substrate and a second substrate;
a liquid crystal layer disposed between the first substrate and the second substrate, wherein the liquid crystal layer comprises
a liquid crystal mixture, the liquid crystal mixture comprises a chiral dopant, and the liquid crystal mixture is formed from
right-handed liquid crystal molecules;

a first polarizer and a second polarizer disposed on the first substrate and the second substrate, respectively, wherein the
first polarizer has a first absorption axis; and

a first electrode layer disposed on one of the first substrate and the second substrate, wherein the first electrode layer
has a first trunk, a second trunk and a plurality of branches extending from the first trunk and the second trunk, and the
first trunk and the second trunk intersect to form at least a first area;

wherein, in the first area, a first angle ?j is formed between the branches and the first trunk, a second angle ?p is formed
between the first absorption axis and the first trunk, and the first angle and the second angle satisfy the equation of ?42.5+?j??p?5+?j
and 0??j?90.

US Pat. No. 9,097,949

PIXEL STRUCTURE AND LIQUID CRYSTAL DISPLAY STRUCTURE USING THE SAME

INNOLUX CORPORATION, Chu...

1. A pixel structure, comprising:
a substrate on which a signal line and a pixel electrode are disposed;
a first dielectric layer covering the signal line and having a first capacitance between the signal line and a common electrode;
and

a second dielectric layer disposed on the substrate, wherein the second dielectric layer covers the pixel electrode and has
a second capacitance between the pixel electrode and the common electrode, wherein the second capacitance is larger than the
first capacitance, and wherein a thickness of the second dielectric layer is smaller than a thickness of the first dielectric
layer.

US Pat. No. 9,058,780

2D/3D SWITCHABLE AND TOUCH SENSITIVE DISPLAY AND METHOD FOR DRIVING THE SAME

INNOLUX CORPORATION, Chu...

1. A 2D/3D switchable and touch sensitive display, comprising:
a display panel with a plurality of pixels, wherein the display panel comprises a LCD or an OLED; and
a LC cell disposed on the display panel for providing 2D/3D switchable and touch sensitive function, comprising:
a first substrate and a second substrate opposite to each other;
a plurality of first electrodes disposed on the first substrate, wherein the first electrodes are receivers of a touch sensor;
a plurality of second electrodes disposed on the second substrate, the second electrodes interlaced with the first electrodes,
wherein the second electrodes are transmitters of the touch sensor; and

a liquid crystal layer disposed between the first electrodes and the second electrodes, wherein the liquid crystal layer is
controlled by a voltage between the first electrodes and the second electrodes for adjusting light path from the display panel
and/or touch sensing.

US Pat. No. 9,378,669

DISPLAY WITH BLACK MATRIX

InnoLux Corporation, Mia...

1. A display, comprising:
a first substrate;
a plurality of gate lines and a plurality of data lines disposed on the first substrate and defining at least one first color
pixel area, at least one second color pixel area, and at least one third color pixel area, wherein a first direction is substantially
parallel to a gate line extending direction;

a first color pixel transistor, a second color pixel transistor, and a third color pixel transistor respectively located in
the first color pixel area, the second color pixel area, and the third color pixel area, wherein the first color pixel transistor
comprises a first color pixel active layer, and the second color pixel transistor comprises a second color pixel active layer,
and the third color pixel transistor comprises a third color pixel active layer;

a second substrate disposed on the first substrate; and
a black matrix disposed between the first substrate and the second substrate,
wherein the black matrix has a first portion overlapping the first color pixel transistor and a second portion overlapping
the third color pixel transistor, and a first distance is between a first edge of the first portion and a first tangent line
of the first color pixel active layer, the first tangent line is in the first direction, at least one second distance between
a second edge of the second portion and a second tangent line of the third color pixel active layer is larger than the first
distance, the second tangent line is in the first direction, wherein the first distance and the second distance are in a second
direction perpendicular to the first direction, and the first color has a wavelength longer than that of the third color.

US Pat. No. 9,274,262

LIGHT GUIDING PLATE, BACKLIGHT MODULE AND DISPLAY DEVICE

INNOLUX CORPORATION, Mia...

1. A light guiding plate, comprising:
a light guiding main body having a first surface, a second surface opposite to the first surface and a light inlet face connecting
between the first and second surfaces;

a first light guiding unit including a plurality of first light guiding structures and a plurality of second light guiding
structures disposed on the first surface, wherein the pluralities of the first and second light guiding structures are parallel
aligned, each of the second light guiding structures has a plurality of first light guiding bodies disposing separately and
connecting to the adjacent first light structures respectively, and an arrangement density of the plurality of first light
guiding bodies decreases toward the light inlet face; and

a second light guiding unit including a plurality of third light guiding structures disposed on the second surface, wherein
the plurality of the third light guiding structures is parallel arranged;

wherein the third light guiding structures have two different heights and the two different heights are alternatively arranged.

US Pat. No. 9,159,290

DISPLAY APPARATUS

Innolux Corporation, Mia...

1. A display apparatus, comprising:
a display panel;
a data driving circuit electrically connected to the display panel through a plurality of data lines; and
a scan driving circuit electrically connected to the display panel through a plurality of scan lines and including a plurality
of stages of driving unit, which are respectively corresponding to the scan lines, wherein the driving unit comprises:

a shift control device outputting a control signal according to a starting signal; and
a driving device electrically connected to the shift control device and outputting an output signal to the corresponding scan
line according to the control signal, a first trigger signal and a second trigger signal, wherein the output signal is used
as the starting signal of the next stage of driving unit, and the rising transition time of the, second trigger signal and
the falling transition time of the first trigger signal have an overlap.

US Pat. No. 9,118,033

ORGANIC LIGHT-EMITTING DIODE AND DISPLAY DEVICE EMPLOYING THE SAME

INNOLUX CORPORATION, Mia...

1. An organic light-emitting diode, comprising:
a substrate;
a cathode disposed on the substrate;
an electron injection layer directly disposed on the cathode, wherein the electron injection layer comprises a low work function
metal layer, and a metal composite layer having a carrier injection characteristic, wherein the metal composite layer having
carrier injection characteristics has a thickness of 1-50 Å;

a light-emitting layer disposed on the electron injection layer;
an n-doped electron transport layer disposed between the electron injection layer and the light-emitting layer, wherein the
n-doped electron transport layer is made by doping an electron transport material with a dopant, and wherein the dopant is
alkali metal nitride, alkali metal acetate, alkali metal carbonate, or alkali metal nitrate, and the dopant has a weight percentage
of 1-50 wt %, based on the weight of the n-doped electron transport layer; and

an anode disposed on the light-emitting layer.

US Pat. No. 10,074,702

ORGANIC LIGHT EMITTING DIODE DISPLAY PANEL

INNOLUX CORPORATION, Mia...

1. An organic light emitting diode display panel, comprising:a substrate having a light emitting region and a non-light emitting region, wherein a first electrode layer is disposed on the light emitting region, a pixel defining layer is disposed on the non-light emitting region, and the pixel defining layer has a plurality of concave structures;
an organic layer disposed on the first electrode layer and the pixel defining layer;
a second electrode layer disposed on the organic layer;
a first protection layer disposed on the second electrode layer; and
a second protection layer disposed on the first protection layer;
wherein the first protection layer is discontinuous at the concave structures, the second protection layer is continuous at the concave structures, and the first protection layer is separated from the second protection layer at the concave structures.

US Pat. No. 9,659,530

DISPLAY

INNOLUX CORPORATION, Jhu...

1. A display, comprising:
a panel, comprising:
a plurality of pixels;
a plurality of data lines transmitting a plurality of data signals to the pixels;
a plurality of scan lines transmitting a plurality of scan signals to the pixels;
a data driver providing the data signals; and
a scan driver providing the scan signals, wherein the scan driver comprises:
a shift register circuit, comprising:
an i-th stage shift register comprising:
a first transistor having a first control terminal and a first outputting terminal; and
a second transistor having a second control terminal and a second outputting terminal,
wherein the first control terminal electrically couples to an i-th start signal and the first outputting terminal generates
an i+1th start signal, wherein the second control terminal electrically couples to the i-th start signal and the second outputting
terminal generates an i-th output signal, and wherein the i-th start signal and the i-th output signal have the same high
level voltage.

US Pat. No. 9,507,219

VERTICAL ALIGNMENT LIQUID CRYSTAL DISPLAY DEVICE THAT HAS TRANSISTORS WITH DIFFERENT SWITCH-ON RESISTANCE AND METHOD

INNOLUX CORPORATION, Mia...

1. A liquid crystal display (LCD) device, comprising:
a display panel comprising a plurality of pixels, a plurality of data lines, and a plurality of scan lines intersecting the
plurality of data lines, the plurality of scan lines and the plurality of data lines defining the plurality of pixels, a first
pixel of the plurality of pixels comprising a first thin film transistor (TFT), a second TFT, a liquid crystal capacitor,
a pixel electrode, and a common electrode, the first TFT and the second TFT being directly connected to the liquid crystal
capacitor, wherein in the first pixel, the common electrode is electrically connected to a source of the second TFT, a drain
of the second TFT is directly connected to the pixel electrode, a source of the first TFT is electrically connected to a first
data line of the plurality of data lines, a drain of the first TFT is directly connected to the pixel electrode, and a switch-on
resistance of the second TFT is greater than a switch-on resistance of the first TFT, and a same gate voltage is applied to
the first TFT and the second TFT,

wherein in a display frame time of the LCD device, the common electrode is applied with a common voltage, and the first pixel
maintains a first gray voltage and a second gray voltage, the first gray voltage being different from the second gray voltage,

wherein a plurality of grooves are formed in the pixel electrode.

US Pat. No. 9,465,256

LIQUID CRYSTAL DISPLAY PANEL AND MANUFACTURING METHOD THEREOF

INNOLUX CORPORATION, Mia...

1. A display panel, comprising:
a substrate having a surface, wherein the surface has a display region and a wiring region located outside of the display
region, and the display region has a first edge;

a thin film transistor array formed on the display region;
a plurality of first circuits formed on the wiring region and adjacent to the first edge of the display region, wherein the
first circuits are electrically connected to the thin film transistor array, and a first distance is the distance between
two adjacent circuits of the first circuits; and

a plurality of first support structures formed on the wiring region and adjacent to the first edge, wherein at least one of
the first support structures has no electrical connection with the thin film transistor array, wherein at least one group
of first circuits is arranged between two group of the first support structures, and a second distance is the distance between
one of the first circuits and one of the first support structure, and the one of the first circuits and the one of the first
support structure are adjacent to each other, and the first distance is different from the second distance.

US Pat. No. 9,450,028

ORGANIC LIGHT-EMITTING DEVICE AND IMAGE DISPLAY SYSTEM EMPLOYING THE SAME

INNOLUX CORPORATION, Mia...

1. An organic light-emitting device, comprising:
a substrate; and
an organic light-emitting pixel array, wherein the organic light-emitting pixel array comprises a plurality of pixels, and
each pixel comprises a first sub-pixel, a second sub-pixel, and a third sub-pixel, and wherein the pixel comprises:

a first electrode disposed on the substrate;
an organic light-emitting element disposed on the first electrode, wherein the organic light-emitting element comprises a
first color light-emitting layer in the first sub-pixel, a second color light-emitting layer in the second sub-pixel, and
a third color light-emitting layer in the third sub-pixel, and wherein the first color light-emitting layer emits a first
color light, the second color light-emitting layer emits a second color light, and the third color light-emitting layer emits
a third color light different from the first color light and the second color light;

a second electrode disposed on the organic light-emitting element; and
an optical path adjustment layer disposed between the first electrode and the second electrode, wherein the thickness of the
optical path adjustment layer on the first electrode in the first sub-pixel is substantially the same as the thickness of
the optical path adjustment layer on the first electrode in the second sub-pixel, wherein the thickness of the optical path
adjustment layer on the first electrode in the third sub-pixel is different from the thickness of the optical path adjustment
layer on the first electrode in the first sub-pixel.

US Pat. No. 9,443,882

FAN-OUT STRUCTURE AND DISPLAY PANEL USING THE SAME

INNOLUX CORPORATION, Mia...

1. A display panel comprising a substrate and a fan-out structure, wherein the fan-out structure is disposed on a peripheral
region of the substrate, the peripheral region under the fan-out structure comprises two border regions and a central region
disposed between the two border regions, and the fan-out structure comprises:
a plurality of first fan-out wires; and
a plurality of second fan-out wires alternatively arranged with the first fan-out wires,
wherein in the border regions, electrical resistance of a first fan-out wire is higher than electrical resistance of an adjacent
second fan-out wire,

wherein in the central region, electrical resistance of a first fan-out wire is higher than electrical resistance of an adjacent
second fan-out wire.

US Pat. No. 9,331,162

ARRAY SUBSTRATE, LIQUID CRYSTAL DISPLAY DEVICE HAVING THE SAME AND METHOD FOR MANUFACTURING THE SAME THEREOF

INNOLUX CORPORATION, Mia...

1. An array substrate, comprising:
a substrate;
a multi-layer electrode disposed on the substrate and comprising an insulating layer formed on the substrate, an active layer
formed on the insulating layer, an electric conductive layer and a first etch-stop layer formed on the active layer and covered
by the electric conductive layer, wherein the electric conductive layer contacts side surfaces of the active layer and the
first etch-stop layer; and

a switch element disposed on the substrate and electrically connected to the multi-layer electrode, and the switch element
having a second etch-stop layer, wherein the second etch-stop layer and the first etch-stop layer are formed by the same material.

US Pat. No. 9,208,729

LOW COLOR SHIFT MULTI-VIEW DISPLAY DEVICE AND DISPLAY METHOD THEREOF

INNOLUX CORPORATION, Mia...

1. A display device, comprising:
a display panel including first and second pixel groups, wherein each of the pixel groups includes a color pixel, and the
color pixel of the first pixel group and the color pixel of the second pixel group are with the same color; and

a data driver, providing a plurality of color voltages and electrically coupling to a plurality of impedance strings, and
the color pixel of the first pixel group having a first color voltage and the color pixel of the second pixel group having
a second color voltage;

wherein the first color voltage differs from the second color voltage when a frame signal is configured to display an equal
gray level.

US Pat. No. 9,182,633

DISPLAY DEVICE AND DISPLAY APPARATUS HAVING PARTICULAR BARRIER WALL STRUCTURE

INNOLUX CORPORATION, Mia...

1. A display device comprising:
a first substrate having a first surface;
a second substrate comprising a visible region and a non-visible region, and having a second surface opposite to the first
surface;

a space layer including a plurality of spacers and at least one space component, wherein the spacers are located on the visible
region, and the space component is located in the non-visible region; and

a protective film having water vapor barrier property, covering the space component in which the spacer located inside of
the space component, and the protective film covering the whole spacer, and contacting with the first surface and the second
surface;

wherein the space component and the protective film form a barrier wall.

US Pat. No. 9,123,287

SYSTEM FOR DISPLAYING IMAGES

INNOLUX CORPORATION, Mia...

1. A system for displaying images, comprising:
a pixel structure, comprising:
a filling layer; and
a first sub-pixel, a second sub-pixel, and a third sub-pixel, wherein each sub-pixel comprises a color filter layer, an electroluminescent
element corresponding to the color filter layer, and a passivation layer formed on the electroluminescent element and covering
the exposed top surface and sidewall of the electroluminescent element, wherein the filling layer disposed between the color
filter layer and the passivation layer, and wherein the distance between the first and second sub-pixels is greater than that
between the first and third sub-pixels,

wherein the transmittances of the color filter layer of the first sub-pixel, the color filter layer of the second sub-pixel,
and the color filter layer of the third sub-pixel for a radiance level with a wavelength range between 190-430 nm used for
curing the filling layer are determined according to the following equation: the transmittance of the color filter layer of
the first sub-pixel is greater than the transmittance of the color filter layer of the second sub-pixel, and wherein the transmittance
of the color filter layer of the second sub-pixel is greater than the transmittance of the color filter layer of the third
sub-pixel.

US Pat. No. 9,123,587

THIN-FILM TRANSISTOR SUBSTRATE AND DISPLAY

INNOLUX CORPORATION, Mia...

1. A thin-film transistor substrate, comprising:
a substrate;
a gate electrode disposed on the substrate;
a gate insulating layer disposed on the substrate and covering the gate electrode;
an active layer disposed on the gate insulating layer and above the gate electrode;
an etching stop layer disposed on the active layer;
a source electrode disposed on the etching stop layer and electrically connecting the active layer;
a first insulating layer disposed on the etching stop layer and covering the source electrode; and
a transparent electrode including a drain electrode and a pixel electrode connected to the drain electrode, wherein the drain
electrode passes through the first insulating layer and the etching stop layer and contacts the active layer to electrically
connect to the active layer, and the pixel electrode is disposed on the first insulating layer.

US Pat. No. 9,104,060

LIQUID CRYSTAL DISPLAY PANEL AND LIQUID CRYSTAL DISPLAY DEVICE CONTAINING THE SAME

INNOLUX CORPORATION, Mia...

1. A liquid crystal display panel, comprising:
a first substrate with a metal layer formed thereon;
a first passivation layer disposed on the metal layer;
a color filter layer disposed on the first passivation layer and having a first opening;
a first electrode layer disposed on the color filter layer;
a second passivation layer disposed on the first electrode layer and covering partial sidewall of the first opening of the
color filter layer, wherein the second passivation layer has a second opening corresponding to the first opening to expose
the metal layer;

a second electrode layer disposed on the second passivation layer, covering a sidewall of the second opening, and electrically
connecting to the metal layer;

a second substrate opposite to the first substrate; and
a light-shielding layer comprising a filling part and a supporting part, and disposed between the first substrate and the
second substrate,

wherein the filling part is disposed in the second opening and covers the color filter layer exposed from the second passivation
layer and the second electrode, and the supporting part is disposed between the second substrate and the first passivation
layer or the second passivation layer to form a space therebetween for disposing liquid crystal therein.

US Pat. No. 9,076,604

TOUCH PANEL, A TOUCH DEVICE, AND A METHOD FOR DETERMINING A LOCATION OF A TOUCH POINT

INNOLUX CORPORATION, Mia...

1. A touch device comprising:
a touch panel comprising:
a substrate having a first touch area and a second touch area;
a first electrode unit including a plurality of first electrodes arranged spacedly in one of rows and columns, and disposed
on said substrate to span said first and second touch areas;

a second electrode unit including a plurality of second electrodes that are arranged spacedly in the other of rows and columns
to intersect without contacting said first electrodes, said second electrodes including a plurality of first sensing electrodes
that are disposed on said first touch area of said substrate, and a plurality of second sensing electrodes that are disposed
on said second touch area of said substrate, each pair of said first and second sensing electrodes being electrically connected;
and

an auxiliary electrode unit including a first auxiliary electrode disposed on said first touch area of said substrate, and
a second auxiliary electrode disposed on said second touch area of said substrate and spaced apart from said first auxiliary
electrode, said first auxiliary electrode being disposed proximate to and without contacting said first sensing electrodes
such that each of said first sensing electrodes is able to detect a signal passing through said first auxiliary electrode,
said second auxiliary electrode being disposed proximate to and without contacting said second sensing electrodes such that
each of said second sensing electrodes is able to detect a signal passing through said second auxiliary electrode; and

a control unit coupled electrically to said touch panel, and performing a method for determining a location of a touch point
on said touch panel, the method comprising the steps of:

(A) providing a driving signal to the first and second auxiliary electrodes by turns, and detecting, in each turn, signals
on the second electrodes;

(B) with reference to the result of detection in step (A), determining which one of the first and second touch areas the touch
point is located at;

(C) providing a driving signal to the first electrodes by turns, and detecting, in each turn, signals on the second electrodes;
(D) with reference to the result of detection in step (C), determining which one of the first electrodes, which one of the
first sensing electrodes and which one of the second sensing electrodes the touch point may correspond; and

(E) with reference to the determinations made in steps (B) and (D), determining the location of the touch point in terms of
a coordinate represented by one of the first electrodes and one of the first and second sensing electrodes.

US Pat. No. 9,658,383

DISPLAY DEVICE

INNOLUX CORPORATION, Jhu...

1. A display device, comprising:
a display panel; and
a backlight module corresponding to the display panel and comprising:
a light source; and
a light guide plate adjacent to the light source and having a surface,
wherein the surface of the light guide plate comprises two light guide dots, and the two light guide dots are adjacently disposed,
each light guide dot has an embossment and a cavity that surrounds the embossment, and

wherein on the basis of the surface of the light guide plate as a reference surface, the embossments of the two light guide
dots are protruded from the reference surface, the cavities of the two light guide dots are recessed into the reference surface,
the cavities of the two light guide dots are integrated into a concave, and the concave located between the embossments of
the two light guide dots has a maximum depth greater than deepest sections of the cavities not located between the two light
guide dots.

US Pat. No. 9,164,305

LIQUID-CRYSTAL PANEL AND THE UV CURING METHOD THEREOF

INNOLUX CORPORATION, Mia...

1. A liquid crystal (LC) panel comprising:
a first substrate having a plurality of protrusion electrodes formed thereon;
a second substrate disposed on the first substrate;
a LC layer interposed between the first and second substrates; and
a deflecting structure disposed between the first and second substrates and configured for changing optical paths of ultraviolet
(UV) light;

wherein the UV light passes through the areas between the neighboring protrusion electrodes, and the deflecting structure
is located in the optical paths of the UV light; and

wherein the deflecting structure comprises a plurality of scattering members formed on the first substrate, each scattering
member located in the intermediate area between the neighboring protrusion electrodes.

US Pat. No. 9,134,858

TOUCH PANEL FOR ELECTROSTATIC DISCHARGE PROTECTION AND ELECTRONIC DEVICE USING THE SAME

INNOLUX CORPORATION, Mia...

1. A touch panel, comprising:
a sensing electrode array comprising a plurality of sensing electrodes arranged in a two dimensional array of n rows and m
columns for generating a sensing signal in response to a touch on the touch panel, wherein n and m are positive integers;

a touch controller operationally connected to the sensing electrode array for receiving the sensing signal and identifying
the touch on the touch panel;

an electrostatic discharge (ESD) protection circuit including a plurality of ESD protection units each being electrically
connected to a corresponding row or column of the sensing electrode array and to the touch controller for electrostatic discharge
protection;

a first substrate having an inner surface, wherein the first substrate is a pixel array substrate;
a second substrate opposite to the first substrate, wherein the second substrate is a color filter substrate, and the second
substrate has an inner surface facing the inner surface of the first substrate and an outer surface facing away from the inner
surface of the first substrate for receiving the touch; and

a conductive layer disposed between the first substrate and the second substrate and electrically connected to the sensing
electrodes and the ESD protection units;

wherein the ESD protection units are disposed on the inner surface of the first substrate, and the sensing electrodes are
disposed on the inner surface of the second substrate.

US Pat. No. 9,076,372

DISPLAY DEVICE AND LIGHT ADJUSTING METHOD THEREOF

INNOLUX CORPORATION, Mia...

1. A display device with a plurality of pixels, at least one of the pixels comprising:
a light emitting diode; and
a driving module, used for driving the light emitting diode, and the driving module comprising:
a first switch circuit, selectively writing a gray scale voltage into a first capacitor;
a second switch circuit, selectively writing an offset voltage into a second capacitor; and
a driver transistor, respectively coupled to the light emitting diode, the first capacitor, and the second capacitor, adjusting
a driving current outputted to the light emitting diode according to the gray scale voltage and the offset voltage;

wherein, the gray scale voltage adjusts the voltage difference between a gate and a source of the driver transistor, and the
offset voltage adjusts a threshold voltage of the driver transistor;

wherein when the brightness of the light emitting diode is lower than a first threshold value, the offset voltage decreases
the threshold voltage to increase the driving current; when the brightness of the light emitting diode is higher than a second
threshold value, the offset voltage increases the threshold voltage to decrease the driving current.

US Pat. No. 9,063,385

DISPLAY PANEL

INNOLUX CORPORATION, Mia...

1. A display panel, comprising:
a first substrate comprising a first conductive layer;
a dielectric layer disposed on the first substrate; and
a second substrate facing the first substrate, wherein a range of the second substrate is within a range of the first substrate
and, the second substrate further comprises:

a center region having a first center region edge, a second center region edge, a third center region edge and a fourth center
region edge, and corresponding to an active area used for displaying an image of the display panel, wherein the second center
region edge is opposite to the first center region edge, the third center region edge and the fourth center region edge are
opposite to each other and adjacent to the first center region edge and the second center region edge;

a first border region adjacent to the center region and located outside the first center region edge, wherein the first border
region has a first border region edge opposite to the first center region edge; and

a second border region adjacent to the center region and located outside the second center region edge, wherein the second
border region has a second border region edge opposite to the second center region edge;

wherein, a distance between the first center region edge and the first border region edge is larger than a distance between
the second center region edge and the second border region edge;

the first conductive layer comprising:
a first conductive layer portion located outside the first center region edge, wherein the first conductive layer portion
has a first conductive layer edge and a second conductive layer edge opposite to the first conductive layer edge along a long
side direction of the first conductive layer portion, the first conductive layer edge and the second conductive layer edge
having a first conductive layer distance therebetween;

a second conductive layer portion located outside the first center region edge, wherein the second conductive layer portion
has a third conductive layer edge and a fourth conductive layer edge opposite to the third conductive layer edge along a long
side direction of the second conductive layer portion, the third conductive layer edge and the fourth conductive layer edge
having a second conductive layer distance therebetween;

a third conductive layer portion located outside the second center region edge, wherein the third conductive layer portion
has a fifth conductive layer edge and a sixth conductive layer edge opposite to the fifth conductive layer edge along a long
side direction of the third conductive layer portion, the fifth conductive layer edge and the sixth conductive layer edge
having a third conductive layer distance therebetween;

a fourth conductive layer portion located outside the third center region edge and connected with the first conductive layer
portion and the third conductive layer portion, wherein the fourth conductive layer portion has a seventh conductive layer
edge and an eighth conductive layer edge opposite to the seventh conductive layer edge along a long side direction of the
fourth conductive layer portion, the seventh conductive layer edge and the eighth conductive layer edge having a fourth conductive
layer distance therebetween; and

a fifth conductive layer portion located outside the fourth center region edge and connected with the second conductive layer
portion and the third conductive layer portion, wherein the fifth conductive layer portion has a ninth conductive layer edge
and a tenth conductive layer edge opposite to the ninth conductive layer edge along a long side direction of the fifth conductive
layer portion, the ninth conductive layer edge and the tenth conductive layer edge having a fifth conductive layer distance
therebetween;

wherein, the first conductive layer distance and the second conductive layer distance are larger than the third conductive
layer distance, the fourth conductive layer distance and the fifth conductive layer distance, and

wherein, the dielectric layer is overlapped by the third conductive layer portion to the fifth conductive layer portion partially,
and the dielectric layer is not overlapped by the first conductive layer portion and the second conductive layer portion.

US Pat. No. 9,759,925

THREE-DIMENSIONAL IMAGE DISPLAY APPARATUS

INNOCOM TECHNOLOGY (SHENZ...

1. A three-dimensional (3D) image display apparatus, comprising:
a display panel having a plurality of pixels arranged in an array, wherein the pixels have a first region and a second region
disposed adjacent to each other, and each pixel includes at least two sub-pixels; and

a 3D image optical structure disposed on one side of the display panel and comprising:
a plurality of first optical units disposed along a first direction, wherein each of the first optical units has at least
one first portion and at least one second portion, the first portion has a first center plane, the second portion has a second
center plane, and the first center plane and the second center plane are perpendicular to the display panel;

wherein the first portions of the first optical units correspond to the first region, the second portions of the first optical
units correspond to the second region, the first portion is asymmetric with respect to the first center plane, and the second
portion is asymmetric with respect to the second center plane, the first region corresponds to two sub-pixels and the second
region corresponds to another two sub-pixels.

US Pat. No. 9,538,640

CONDUCTIVE SUBSTRATE AND TOUCH DISPLAY DEVICE

INNOLUX CORPORATION, Mia...

1. A touch display device, comprising:
a first conductive substrate including a first substrate, a plurality of first conductive patterns and a plurality of optical
compensation patterns, wherein the first conductive patterns extend along a first direction and are sequentially disposed
on the first substrate along a second direction, the optical compensation patterns are staggered from the first conductive
patterns along the second direction on the first substrate, an edge of at least one of the first conductive patterns extending
along the first direction has a plurality of conductive protrusions, and an edge of at least one of the optical compensation
patterns extending along the first direction has a plurality of optical compensation protrusions;

a substrate disposed opposite the first conductive substrate;
a liquid crystal layer disposed between the first conductive substrate and the substrate; and
a color filter layer disposed between the first conductive substrate and the liquid crystal layer and having a blocking structure,
a vertical projection of the blocking structure overlapping at least a part of the optical compensation patterns.

US Pat. No. 9,466,621

ARRAY SUBSTRATES AND OPTOELECTRONIC DEVICES

INNOLUX CORPORATION, (TW...

1. An array substrate, comprising:
a substrate;
a first conductive layer disposed on the substrate, wherein the first conductive layer comprises a gate electrode in a display
region and a bottom conductive line in a peripheral region;

a second conductive layer disposed on the first conductive layer, wherein the second conductive layer comprises a source electrode
and a drain electrode in the display region and a top conductive line in the peripheral region;

an insulation layer disposed between the first conductive layer and the second conductive layer; and
a semiconductor layer disposed between the second conductive layer and the insulation layer;
wherein the top conductive line connects to the bottom conductive line through a first contact hole,
wherein the source electrode, the drain electrode, and the top conductive line are composed of a same material.

US Pat. No. 9,466,252

PARTIAL SCANNING GATE DRIVER AND LIQUID CRYSTAL DISPLAY USING THE SAME

INNOLUX CORPORATION, Mia...

1. A liquid crystal display device, comprising:
a pixel array comprising a plurality of pixels arranged in rows and columns;
a timing controller outputting a clock signal;
a gate driver receiving the clock signal, comprising:
a first shift register coupled to a first row of the pixel array; and
a second shift register coupled to a second row of the pixel array, wherein when it is determined that the first row is to
be skipped, the first shift register outputs a first voltage level to the first row with the clock signal, and when it is
determined that the second row is to be scanned, the second shift register outputs a second voltage level to the second row
with the clock signal, wherein the first voltage level is between the second voltage level and a third voltage level which
maintains a previously written display data of the pixel array;

wherein at least one of the pixels comprises a pixel transistor, and the first voltage level is set to not turn on the pixel
transistor but have enough of a high voltage to maintain the propagation of the first shift register operation of the gate
driver.

US Pat. No. 9,360,616

DISPLAY APPARATUS AND LIGHT EMITTING MODULE THEREOF

INNOLUX CORPORATION, Mia...

1. A light emitting module, comprising:
a light guide plate having a first light incident surface, a second light incident surface, a first surface and a second surface,
wherein the first light incident surface is opposite to the second light incident surface, and the first surface is opposite
to the second surface;

at least two light units; and
a plurality of light guide grooves each being disposed on the first surface at an interval and having a bottom being the portion
of each light guide groove closest to the second surface, wherein after the light emitted from the light unit enters the light
guide plate, the light is guided by the light guide grooves to be emitted off the second surface of the light guide plate;

wherein, the light guide plate has the two light units respectively on each of the first light incident surface and the second
light incident surface, and the distance from each bottom to the second surface is determined by following equation:

y?=D?(ax2+bx+c), wherein the unit of x, y? and D is ?m, x denotes the smallest distance from the bottom of the light guide plate to
the first light incident surface and 0 D denotes the thickness of the thickest portion of the light guide plate, a, b, c are constants, and 100 0

US Pat. No. 9,291,869

DISPLAY DEVICE

INNOLUX CORPORATION, Mia...

1. A display device, comprising:
a display panel, comprising:
a first substrate and a second substrate disposed opposite to the first substrate, wherein the first substrate has at least
a pixel area having a pixel;

at least a data line and at least a scan line intersected for defining the pixel area;
a wiring area located outside the pixel area;
a liquid crystal layer and two alignment layers disposed between the first substrate and the second substrate;
a plurality of spacers disposed between the first substrate and the second substrate;
a seal disposed between the first substrate and the second substrate and located outside the wiring area; and
a plurality of agglomerate polymer particles formed on at least one of the alignment layers;
wherein the distribution density of the agglomerate polymer particles located in the wiring area on the first substrate is
different from the distribution density of the agglomerate polymer particles located in a portion of the second substrate
corresponding to the wiring area.

US Pat. No. 9,104,054

LIQUID CRYSTAL DISPLAY WITH DISPLAY SCREEN EXTENDING OUT OF CASING

INNOLUX CORPORATION, Mia...

1. A liquid crystal display (LCD), comprising:
a liquid crystal panel having a display surface and a peripheral wall, and comprising a first substrate and a second substrate
opposite to the first substrate;

a conductive adhesive electrically connecting the first substrate and the second substrate; and
a frame comprising a side wall and a plurality of grooves, wherein the side wall surrounds the liquid crystal panel, and a
plurality of grooves are formed on a top surface of the frame and corresponding to the conductive adhesive,

wherein the peripheral wall of the liquid crystal panel at least partially abuts an inner side of the side wall,
wherein the display surface of the liquid crystal panel is arranged at a higher elevation than a lowest surface of the grooves
of the frame that adjacent to the peripheral wall of the liquid crystal panel.

US Pat. No. 9,793,301

DISPLAY PANEL

INNOLUX CORPORATION, Mia...

1. A display panel, having an active area and a border area out of the active area, wherein the display panel comprises:
a plurality of pixels located in the active area;
a first gate driver portion located in the border area;
a plurality of scan lines located in the active area, and connected to the first gate driver portion; and
a multiplexer portion located in the border area;
wherein the multiplexer portion and the first gate driver portion at least partially overlap along a direction parallel to
one of the plurality of scan lines.

US Pat. No. 9,772,519

TOUCHING DISPLAY PANEL AND DISPLAY DEVICE USING THE SAME

INNOCOM TECHNOLOGY (SHENZ...

10. A touching display panel, comprising:
a first substrate;
a second substrate;
a liquid crystal layer, disposed between the first substrate and the second substrate;
a touch sensor layer, disposed between the first substrate and the liquid crystal layer;
a thin-film transistor layer and a color filter layer, both disposed between the first substrate and the second substrate,
at least one of the thin-film transistor layer and the color filter layer being disposed above the first substrate;

a first polarization layer, disposed between the first substrate and the touch sensor layer; and
a second polarization layer, disposed outside of the second substrate and opposite to the liquid crystal layer.

US Pat. No. 9,691,881

MANUFACTURING METHOD OF THIN FILM TRANSISTOR SUBSTRATE

INNOCOM TECHNOLOGY (SHENZ...

1. A manufacturing method of a thin film transistor substrate, comprising:
providing a first substrate;
forming a gate electrode on the first substrate;
forming a gate insulating layer covering the gate electrode on the first substrate;
forming an active material layer on the gate insulating layer;
forming a photo-sensitive material layer on the active material layer;
performing a photolithography process on the photo-sensitive material layer to pattern the photo-sensitive material layer
so as to form a protective layer, wherein the protective layer is above the gate electrode;

wet etching the active material layer by using the protective layer as a mask to form an active layer, wherein a side wall
of the active layer is recessed from a side wall of the protective layer;

removing the protective layer;
forming a first electrode connecting to a first portion of the active layer; and
forming a second electrode connecting to a second portion of the active layer, wherein the first electrode is one of a source
electrode and a drain electrode, and the second electrode is the other one of the source electrode and the drain electrode.

US Pat. No. 9,693,436

FLEXIBLE DISPLAYING APPARATUS

INNOLUX CORPORATION, Mia...

1. A displaying apparatus, comprising:
a flexible substrate;
at least one composite layer disposed on the flexible substrate, and the at least one composite layer comprising an organic
layer and an inorganic layer disposed above the organic layer; and

an electronic device disposed on the at least one composite layer, wherein the organic layer is in contact with the flexible
substrate and comprises at least one anti-static material, and the inorganic layer is in contact with the electronic device.

US Pat. No. 9,653,616

DISPLAY PANEL AND DISPLAY DEVICE USING THE SAME

INNOLUX CORPORATION, Chu...

10. A display device, comprising:
a display panel, comprising:
a TFT substrate, comprising:
a substrate;
a first electrode layer disposed on the substrate;
a pixel electrode layer disposed on the substrate;
a first insulating layer disposed on the first electrode layer and the pixel electrode layer;
a second electrode layer disposed on the first insulating layer;
a second insulating layer disposed on the second electrode layer and having a first contact hole and a second contact hole,
wherein the first contact hole and the second contact hole penetrate the first insulating layer and the second insulating
layer to expose the first electrode layer;

a channel layer disposed on the second insulating layer and interposed into the first contact hole and the second contact
hole to electrically connect the first electrode layer; and

an over coating layer disposed on the channel layer;
an opposite substrate; and
a display medium disposed between the TFT substrate and the opposite substrate; and
a control circuit coupled to the display panel.

US Pat. No. 9,606,407

DISPLAY PANEL AND DISPLAY APPARATUS

INNOLUX CORPORATION, Jhu...

1. A display panel, comprising:
a thin film transistor substrate, comprising:
a substrate;
a thin film transistor disposed on the substrate and having a drain;
a first insulating layer disposed on the drain and having a first via above the drain:
a planarization layer disposed on the first insulating layer and having a second via above the drain, wherein the first via
and the second via are partially overlapped to form an overlap portion;

a second insulating layer disposed on the planarization layer; and
a pixel electrode layer disposed on the second insulating layer, and the pixel electrode layer disposed in the overlap portion
to connect to the drain,

wherein the second via has a first edge and a second edge, a portion of the pixel electrode layer is disposed on the first
edge and in contact with the planarization layer, and a portion of the pixel electrode layer is disposed on the second edge
and in contact with the second insulating layer; and

an opposite substrate disposed opposite to the thin film transistor substrate,
wherein an area of the overlap portion is between 4 square microns and 49 square microns.

US Pat. No. 9,601,584

THIN-FILM TRANSISTOR SUBSTRATE

INNOLUX CORPORATION, Mia...

1. A thin-film transistor substrate, comprising:
a substrate;
a gate electrode disposed on the substrate;
a gate insulating layer disposed on the substrate and covering the gate electrode;
an active layer disposed on the gate insulating layer and above the gate electrode, wherein the active layer comprises a metal
oxide;

a source electrode disposed on and electrically connecting to the active layer;
a first insulating layer covering the source electrode; and
a drain electrode disposed on and electrically connecting to the active layer, wherein the drain electrode comprises a metal
oxide layer,

wherein a width of the active layer ranges from 12 ?m to 35 ?m,
wherein a distance between a portion of the source electrode contacting the active layer and a portion of the drain electrode
contacting the active layer ranges from 3 ?m to 8 ?m.

US Pat. No. 9,507,222

DISPLAY DEVICE

INNOLUX CORPORATION, Mia...

1. A display device, comprising:
a pixel-displaying region, comprising:
at least two pixels comprising a plurality of sub-pixels; and
a light-shielding layer comprising a matrix portion and an enlarged portion, wherein the enlarged portion is disposed at an
intersection of two of the adjacent sub-pixels and is adjacent to the matrix portion;

wherein the matrix portion defines the sub-pixels, and a total area of the sub-pixels is defined as a first area and a ratio
of an area of the enlarged portion to the first area is about 1.5% to 6%, wherein each pixel comprises three sub-pixels, and
the light-shielding layer comprises a plurality of the enlarged portions, wherein a ratio of an amount of the enlarged portions
to an amount of the sub-pixels is 1:18, and a sub-pixel region which consists of 108 of the sub-pixels has 18 sub-pixel columns
and 6 sub-pixel rows, wherein the enlarged portion is disposed between two of the sub-pixel columns and is disposed between
two of the sub-pixel rows.

US Pat. No. 9,400,407

DISPLAY PANEL

INNOLUX CORPORATION, Jhu...

1. A display panel, comprising:
a first substrate and a second substrate disposed opposite to the first substrate; and
an electrode layer disposed on the first substrate and facing the second substrate and including at least a first part and
a second part adjacent to the first part, wherein the first part includes a plurality of first branch electrodes and a first
connecting electrode, the first branch electrodes are disposed along a direction and spaced from each other by a first distance
(T);

when a light passes through the first branch electrodes, a brightness distribution composed of a plurality of bright textures
and a plurality of dark textures is generated, and the centers of two adjacent ones of the bright textures are separated by
a second distance (P); and

the first connecting electrode is adjacent to the second part and connected with the first branch electrodes, the second part
includes a second connecting electrode adjacent to the first part, and the first connected electrode and the second connected
electrode are corresponding to each other and separated by a spacing (S), and S, T and P satisfy the following equation:


wherein, a=1/12, b=¼, m=1/10, and S, T and Pin unit of micrometer.

US Pat. No. 9,076,872

METHODS FOR MANUFACTURING THIN FILM TRANSISTORS

INNOLUX CORPORATION, Mia...

1. A method for manufacturing a thin film transistor, comprising:
forming a gate electrode on a substrate;
forming a gate dielectric layer on the gate electrode and the substrate;
forming a source electrode and a drain electrode on the gate dielectric layer overlying two edge parts of the gate electrode;
forming an oxide semiconductor layer on the source electrode, the drain electrode, and the gate dielectric layer;
forming an insulating layer on the oxide semiconductor layer; and
patterning the insulating layer and the oxide semiconductor layer to form an insulating capping layer covering a channel layer;
forming a passivation layer on the insulating capping layer, the source electrode, the drain electrode, and the gate dielectric
layer, wherein the passivation layer has a planar surface;

forming a via hole through the passivation layer to expose a part of the drain electrode; and
forming a conductive pattern on the planar surface of the passivation layer to serve as a pixel electrode, wherein the conductive
pattern contacts the drain electrode through the via hole.