US Pat. No. 9,455,410

MICROMOLECULAR ELECTRON TRANSPORT MATERIAL BASED ON PYRIDINE AND TRIAZOLE, PREPARATION METHOD AND ORGANIC LIGHT-EMITTING DIODE THEREOF

SHENZHEN CHINA STAR OPTOE...

1. A micromolecular electron transport material based on pyridine and triazole, contained in an electron transfer layer of
an organic light-emitting diode or a polymer light-emitting diode, wherein the micromolecular electron transport material
is represented by the following formula I:

wherein a and b are natural numbers greater than or equal to 1;
N is in ortho-, meta- or para-position of the pyridine ring in formula I; and
benzene rings in formula I are connected at the ortho-, meta- or para-positions.

US Pat. No. 9,426,906

BRACING PIECE, BACK FRAME, AND BACKLIGHT SYSTEM OF FLAT PANEL DISPLAY DEVICE

SHENZHEN CHINA STAR OPTOE...

1. A back frame of a flat panel display device, wherein the back frame comprises at least two assembling pieces, the at least
two assembling pieces being joined to form the back frame, the back frame further comprising a bracing piece, the bracing
piece being of a multiple-stepped configuration and mounted to the assembling pieces;
wherein the at least two assembling pieces comprise a plurality of primary assembling pieces, the primary assembling pieces
are joined to form a main frame structure of the back frame, the primary assembling pieces comprising a first primary assembling
piece and a second primary assembling piece, the first primary assembling piece having an end forming at least two joint sections
that are arranged to space from each other in a lengthwise direction of the first primary assembling piece, each of the joint
sections having a structure mating an end of the second primary assembling piece, the first primary assembling piece using
one of the joint sections to join the corresponding end of the second primary assembling piece; and

wherein the bracing piece comprises a first step surface and a plurality of second step surfaces that integrally formed at
one end of the first step surface, the first step surface forming thereon at least one bump, the bump forming a mounting hole
adapted to mount and support thereon an external component, the first step surface being of a different vertical level with
respect to each of the second step surfaces, one of the assembling pieces being selectively mounted to one of the second step
surfaces in order to selectively adjust a mounting height of the mounting hole and the external component with respect to
the one of the assembling pieces.

US Pat. No. 9,426,928

HEAT DISSIPATION PIPE LOOP AND BACKLIGHT MODULE USING SAME

Shenzhen China Star Optoe...

1. A heat dissipation pipe loop, comprising: an evaporator section, a liquid pipe connected to an end of the evaporator section
at an upstream side of the evaporator section, a condenser pipe connected to an end of the liquid pipe distant from the evaporator
section, and a gas pipe having an end connected to the condenser pipe and an opposite end connected to the evaporator section
at a downstream side of the evaporator section, the evaporator section comprising an enclosure and a separation board received
in the enclosure, the enclosure defining therein a receiving space, the separation board being mounted in the receiving space
to divide the receiving space into a liquid chamber and a gas chamber, the liquid pipe being in communication with the liquid
chamber such that liquid flowing along the liquid pipe is received from the upstream side into the liquid chamber of the evaporator
section, the gas pipe being in communication with the gas chamber such that gas flows out of the gas chamber and into the
gas pipe to move toward the downstream side, the separation board separating the liquid received in the liquid chamber and
the gas contained in the gas chamber from each other;
wherein the enclosure comprises a top board adapted to receive an external heat source to be positioned thereon and in direct
contact therewith, the liquid received in the liquid chamber being in direct contact with the top board substantially in the
entirety thereof to maximize heat transfer from the external heat source to the liquid to evaporate the liquid into gas that
moves through the separation board into the gas chamber; and

wherein the separation board that is mounted in the receiving space constrains the liquid in the liquid chamber from further
movement toward the downstream side.

US Pat. No. 9,279,933

DUAL-SIDED DISPLAY DEVICE AND ITS BACKLIGHT MODULE

Shenzhen China Star Optoe...

1. A dual-sided display device, comprising:
a light guide plate having at least a light entry face, a first light emission face, and a second light emission face oppositely
positioned to the first light emission face;

at least a light source unit positioned adjacent to the light entry face;
at least a heat dissipation base carrying the light source unit and dissipating the heat produced by the light source unit
to the environment;

a first frame member and a second frame member, where the first frame member is positioned above the first light emission
face, the second frame member is positioned below the second light emission face, the first and second frame members are fixedly
joined to the heat dissipation base, and the light guide plate is fixedly positioned in an accommodation space surrounded
by the first and second frame members, and heat dissipation base; and

a first display panel and a second display panel, where the first display panel is fixedly positioned on the first frame member
oppositely to the first light emission face, the second display panel is fixedly positioned beneath the second frame member
oppositely to the second light emission face;

wherein each of the first and second frame members comprises an inner frame and a body; the inner frame of the first frame
member is positioned above the first light emission face and supports the first display panel; the body of the first frame
member is fixedly joined to a first lateral face of the heat dissipation base; the inner frame of the second frame member
is positioned below the second light emission face and supports the second display panel; and the body of the second frame
member is fixedly joined to a second lateral face of the heat dissipation base; a first protection cover and a second protection
cover; wherein each of the first and second protection covers comprises a body and a frame extended from the body and bended
towards the direction of the light guide plate; the body of the first protection cover is positioned on the first display
panel and the first frame member; the frame of the first protection cover is plugged between the body of the first frame member
and the heat dissipation base so as to secure the first protection cover; the body of the second protection cover is positioned
beneath the second display panel and the second frame member; and the frame of the second protection cover is plugged between
the body of the second frame member and the heat dissipation base so as to secure the second protection cover.

US Pat. No. 9,480,124

SINGLE STRING OVER POWER PROTECTION AND LIGHT SOURCE DRIVER CIRCUIT USED IN DISPLAY DEVICE

SHENZHEN CHINA STAR OPTOE...

1. A single-string over power protection device for a display, comprising:
a voltage detection unit, with an input terminal being connected to a voltage acquisition component in the circuit of a single-string
light bar at both ends, for obtaining the voltage across the voltage acquisition component;

an integral unit, with an input terminal being connected to the output terminal of the voltage detection unit, for performing
an integral transform on the voltage obtained;

a comparison unit, which is connected to the output terminal of the integral unit, for comparing the voltage after the integral
transform with a reference voltage determined by system parameters, so as to output an effective over voltage signal when
the voltage after the integral transform is higher than the reference voltage; and

a latch unit, connected to the comparison unit to lock an output standby signal according to the effective over voltage signal,
wherein the latch unit comprises a first transistor and a second transistor, a base of the first transistor is connected to
both the output terminal of the comparison unit and the collector of the second transistor, the collector of the first transistor
is connected to a base of the second transistor, and an emitter of the second transistor is connected to a power Vcc terminal
via a pull-up resistor.

US Pat. No. 9,510,404

BACKLIGHT DRIVE CIRCUIT, METHOD FOR DRIVING THE SAME, AND LIQUID CRYSTAL DISPLAY DEVICE

Shenzhen China Star Optoe...

1. A backlight drive circuit, comprising:
a plurality of light emitting cells, divided into several backlight partitions in an even manner;
pulse dimming signal units of a same number with the backlight partitions, each of the pulse dimming signal units outputting
a pulse dimming signal; and

a plurality of backlight drive units, each of which is electrically connected to all of the pulse dimming signal units to
receive respective pulse dimming signals output by the pulse dimming signal units, and meanwhile each of which is further
electrically connected to an identical number of light emitting cells in all the backlight partitions, wherein,

when a pulse dimming signal is output from one of the pulse dimming signal units, all of the backlight drive units supply
power to their respectively connected light emitting cells in a corresponding one of the backlight partitions, so as to drive
said light emitting cells to emit light.

US Pat. No. 9,429,709

STACK OF LIGHT GUIDE PLATES AND METHOD FOR PROCESSING THE SAME

Shenzhen China Star Optoe...

1. An arrangement of stack of light guide plates to be cut or processed, where each light guide plate comprises a light guide
plate body and an incident side, thickness T1 of the incident side is more than thickness T2 of the light guide plate body, two light guide plates are reversely arranged and laminated when the two light guide plates
are processed, and then a plurality of a pair of laminated light guide plates are stacked;
wherein the thickness T1 of the incident side is more than double the thickness T2 of the light guide plate body, a top of the incident side of the one light guide plate over a light emitting surface of the
one light guide plate itself is connected to the light emitting surface of the other light guide plate, the middle between
the laminated light guide plate bodies comprises a gap, and the gap comprises a base plate so as to improve efficiency in
processing and utilization of equipment.

US Pat. No. 9,433,044

LED BACKLIGHT SOURCES FOR LIQUID CRYSTAL DEVICES AND LIQUID CRYSTAL DEVICES

Shenzhen China Star Optoe...

11. A LED backlight source for LCD, comprising:
a boost circuit for boosting an input voltage to an operation voltage needed by a LED string;
a current control module connecting to an negative end of the LED string to adjust an operation current of the LED string;
a voltage detection circuit for detecting whether the input voltage has been decreased, and for providing a control signals
to a backlight driving control circuit upon determining the input voltage has been decreased; and

the backlight driving control circuit is configured for providing a first square-wave signals to the boost circuit for boosting
the voltage, for providing a second square-wave signals to the current control module for adjusting a current, and for decreasing
an input current upon receiving the control signals from the voltage detection circuit;

wherein the voltage detection circuit comprises:
a divider configured for dividing the input voltage to generate a comparing voltage;
a comparator configured for comparing the comparing voltage and the reference voltage; and
a frequency adjusting circuit configured for controlling the backlight driving control circuit to increase the frequency of
the first square-wave signals to be provided to the boost circuit upon determining the comparing voltage is smaller than the
reference voltage so as to decreased the input current; and

wherein the divider comprises a first resistor and as second resistor, one end of the first resistor is for receiving the
input voltage, the other end of the first resistor connects to one end of the second resistor and to a negative input end
of the comparator, and the other end of the second resistor is electrically grounded.

US Pat. No. 9,402,288

BACKLIGHT OF LIQUID CRYSTAL DISPLAY DEVICE AND DRIVING CIRCUIT THEREOF

SHENZHEN CHINA STAR OPTOE...

1. A backlight of a liquid crystal display device, comprising:
a LED lamp bead group, including a plurality of strings of LED lamp bead which are opposite in term of positive and negative
directions;

a backlight driving module, an output end of which is electrically connected to the LED lamp bead group to output a voltage
signal and a current signal to drive the LED lamp bead group, wherein the voltage signal is configured as more than one serials
of periodic square-wave signal, under the action of which a string of LED lamp bead of positive direction and a string of
LED lamp bead of negative direction emit light in an alternate manner, and the brightness of emitted light is determined by
the magnitude of the current signal, wherein

the voltage signal output by the backlight driving module is configured as two serials of periodic square-wave signal, the
amplitudes of which two are same and greater than or equal to the turn-on voltage of the string of LED lamp bead, and the
frequencies of which two are same but have a phase difference of half period;

the strings of LED lamp bead of positive direction are connected in parallel to each other, wherein one end of each string
of positive direction is electrically connected to a first output end of the backlight driving module and the other end thereof
is electrically grounded, so as to receive a first serial of periodic square-wave signal; and

the strings of LED lamp bead of negative direction are connected in parallel to each other, wherein one end of each string
of negative direction is electrically connected to a second output end of the backlight driving module and the other end thereof
is electrically grounded, so as to receive a second serial of periodic square-wave signal.

US Pat. No. 9,468,112

DISPLAY DEVICE WITH NARROW FRAME

SHENZHEN CHINA STAR OPTOE...

1. A narrow frame display, including:
a display panel, having a protruding portion on at least one side edge thereof;
a back plate, located on one side of the display panel; and
a frame, including a plate body with a through slot,
wherein the frame is arranged vertical to the display panel and fixed on the back plate,
the protruding portion is a projection extending from the side edge of the display panel in an integral manner, and the display
panel is fixed to the frame through inserting the projection into the through slot.

US Pat. No. 9,380,673

LED BACKLIGHT SOURCE AND LIQUID CRYSTAL DISPLAY DEVICE

Shenzhen China Star Optoe...

1. An LED backlight source of liquid crystal display device, which comprises:
a boost converter, for boosting the input DC voltage and outputting boosted DC voltage;
a plurality of LED strings connected in parallel, each LED string comprising a plurality of LEDs strung in series and receiving
the boosted DC voltage from the boost converter, in each of the plurality of LED strings, the plurality of LEDs strung in
series being further connected to a fourth resistor in series;

a plurality of constant-current drivers, for controlling the size of the current of each of the plurality of LED strings,
each constant-current driver controlling the size of the current of at least an LED string and the first constant-current
driver controlling the connection and/or disconnection of the boost converter;

an under-voltage protection control circuit, for outputting under-voltage protection voltage to each of the constant-current
drivers and each of the constant-current drivers determining whether to stop operating based on received under-voltage protection
voltage, the under-voltage protection voltage outputted to the first constant-current driver being less than the under-voltage
protection voltages outputted to the constant-current drivers other than the first constant-current driver of the plurality
of constant-current drivers; wherein

the constant-current driver further comprises a control module, for determining whether to stop operating based on the received
under-voltage protection voltage outputted by the under-voltage protection control circuit, the control module of the first
constant-current driver further controlling the connection and/or disconnection of the boost converter; and a detection module,
for detecting the voltage over the two ends of the fourth resistor connected in series with any LED string of the plurality
of LED strings controlled by the constant-current driver, and controlling the current of any LED string of the plurality of
LED strings based on the feedback of the voltage over the two ends of the fourth resistor.

US Pat. No. 9,429,797

LIQUID CRYSTAL PANEL COMPRISING FIRST AND SECOND LIQUID CRYSTAL CAPACITORS AND LIQUID CRYSTAL DISPLAY HAVING THE SAME

Shenzhen China Star Optoe...

1. A liquid crystal panel including multiple pixel units, each pixel unit including a first pixel region and a second pixel
region, and the liquid crystal panel comprises:
a thin-film-transistor (TFT) substrate;
a color filter substrate disposed oppositely to the TFT substrate;
a liquid crystal layer disposed between the TFT substrate and the color filter substrate;
multiple pixel electrodes disposed on the TFT substrate, wherein the multiple pixel electrodes includes a first pixel electrode
located in the first pixel region and a second pixel electrode located in the second pixel region;

a RGB sub-pixel structure disposed on the color filter substrate;
a black matrix disposed on the color filter substrate;
a common electrode disposed above the color filter substrate, and disposed above the RGB sub-pixel and the black matrix;
a first insulation layer located in the first pixel region, and disposed only right opposite to the first pixel electrode,
located between the color filter substrate and the common electrode, and the first insulation layer is disposed above and
covering the RGB sub-pixel and the black matrix; and

a second insulation layer located in the second pixel region and disposed only right opposite to the second pixel electrode,
located above the color filter substrate and the common electrode, and the second insulation layer is disposed above and covering
the RGB sub-pixel and the black matrix;

wherein, a distance between the second pixel electrode in the second pixel region and the common electrode is greater than
a distance between the first pixel electrode in the first pixel region and the common electrode such that a second liquid
crystal capacitor formed between the second pixel electrode and the common electrode is different from a first liquid crystal
capacitor formed between the first pixel electrode and the common electrode.

US Pat. No. 9,348,162

LIQUID CRYSTAL DISPLAY AND NARROW BEZEL STRUCTURE THEREOF

Shenzhen China Star Optoe...

1. A narrow bezel structure of a liquid crystal display comprising a liquid crystal module, a front cover, a middle cover,
and a back cover, an external layer of the liquid crystal module being a polarizer film, the polarizer film being spaced apart
from an edge of the liquid crystal module to form a step;
the narrow bezel structure further comprising a number of locking members used for holding the liquid crystal module, the
locking member comprising a horizontal part and a perpendicular part perpendicularly connected to the horizontal part;

wherein the front cover comprises a first horizontal part, a first perpendicular part, a second horizontal part, and a second
perpendicular part which are integrally formed and sequentially connected, the first horizontal part is attached to the step,
the second horizontal part and the second perpendicular part form a second step, and the second perpendicular part is fixedly
connected to the back cover, and

wherein the horizontal part presses an upper surface of a bottom glass substrate in an outer lead bonding area of the liquid
crystal module, and the perpendicular part and the middle cover are connected by a screw correspondingly disposed on the perpendicular
part and the middle cover.

US Pat. No. 9,240,566

METHOD FOR CURING UV-CURABLE RESIN AND METHOD FOR PACKAGING OLED

Shenzhen China Star Optoe...

11. A method for packaging an OLED (Organic Light-Emitting Diode), comprising the following steps:
(1) providing a glass substrate, wherein the glass substrate comprises a light-emitting element formed thereon;
(2) coating a UV-curable resin of a predetermined quantity on the glass substrate in such a way that the UV-curable resin
is set on an outer circumference of the light-emitting element;

(3) providing a packaging cover and laminating the packaging cover with the glass substrate;
(4) providing a UV light source and activating the UV light source to carry out a first irradiation operation on the UV-curable
resin after the packaging cover and the glass substrate are laminated with each other;

(5) de-activating the UV light source and, after a time interval of 10-300 seconds, activating the UV light source to carry
out a second irradiation operation on the UV-curable resin, wherein the time interval between the de-activation of the first
irradiation operation and the activation of the second irradiation operation is determined according to cooling rate of the
glass substrate in order to control a maximum temperature of the lass substrate resulting from the irradiation operations
to be lower than a predetermined level so as not to cause damage to the light-emitting element; and

(6) repeating step (5) until the UV-curable resin is completely cured with the maximum temperature of substrate being controlled
to be lower than the predetermined level;

wherein the UV light source has an irradiance of 100 mw/cm2; the first irradiation operation and the second irradiation operation each have a time period of 60 seconds; the UV light
source is de-activated for a lapse of time of 60 seconds; and step (5) is repeated for one time; and

wherein the light-emitting element comprises: an anode formed on the glass substrate, an organic function layer formed on
the anode, and a cathode formed on the organic function layer.

US Pat. No. 9,229,255

MANUFACTURING METHOD OF LIQUID CRYSTAL PANEL

SHENZHEN CHINA STAR OPTOE...

1. A manufacturing method of a liquid crystal panel, comprising following steps of:
providing a first substrate and a second substrate, and coating an alignment film the first substrate for forming made, wherein
the first substrate is a thin film transistor (TFT) substrate;

forming a passivation layer on a surface of the alignment film;
heating the passivation layer to decompose the passivation layer when a predetermined Q-time arrives; and
spraying liquid crystals onto the surface of the alignment film, and attaching the second substrate to the first substrate
for forming a liquid crystal panel.

US Pat. No. 9,521,770

CURVATURE-ADJUSTABLE CURVED DISPLAY DEVICE

Shenzhen China Star Optoe...

1. A curvature-adjustable curved display device comprising: a base comprising a plurality of recesses, a curved display device
and an adjusting assembly; wherein the curved display device is disposed on the base, the adjusting assembly is disposed between
the curved display device and the base to connect the curved display device with the base, the adjusting assembly is slidable
with respect to the base to thereby adjust a curvature of the curved display device; and each end of the adjusting assembly
comprises a through hole and a sliding block; wherein each of the sliding block is slidable in a guide rail on a corresponding
side of the base to thereby adjust the curvature of the display by a fixing column penetrates through the corresponding through
hole and a corresponding one of the recesses.

US Pat. No. 9,261,724

JOINTED CURVED LIQUID CRYSTAL DISPLAY DEVICE

Shenzhen China Star Optoe...

1. A jointed curved liquid crystal display device, comprising at least two liquid crystal display units, the at least two
liquid crystal display units comprising a first liquid crystal display unit and a second liquid crystal display unit that
is connected to one edge of the first liquid crystal display unit to be rotatable about one axis, the first and second liquid
crystal display units receiving a first cushion section mounted therebetween, said one axis being arranged to be opposite
to the first cushion section;
wherein the first liquid crystal display unit comprises a first driver device mounted thereto, the first driver device having
an end positioned against the second liquid crystal display unit; and

wherein the first driver device is mounted to the first liquid crystal display unit at a location close to the second liquid
crystal display unit, the first driver device comprising a first servo motor, a first cam coupled to the first servo motor,
and a first spring first spring having an end distant from the first cam and positioned against the second liquid crystal
display unit.

US Pat. No. 9,235,078

CURVATURE ADJUSTMENT STRUCTURE OF CURVED LIQUID CRYSTAL DISPLAY DEVICE

Shenzhen China Star Optoe...

1. A curvature adjustment structure of a curved liquid crystal display device, comprising a backplane and at least one bracing
assembly fixedly mounted to the backplane, each bracing assembly comprising a first bracing member in contact engagement with
the backplane, a second bracing member opposite to the first bracing member and distant from the backplane, and a cooling
chip array arranged between the first and second bracing members, the cooling chip array comprising a plurality of cooling
chips, each of the cooling chips comprising a heat absorption surface and a heat dissipation surface opposite to the heat
absorption surface, the heat absorption surface and the heat dissipation surface of each of the cooling chips being respectively
in engagement with the first bracing member and the second bracing member, whereby through energizing the cooling chip array,
the heat absorption surfaces and the heat dissipation surfaces respectively affect temperatures of the first bracing member
and the second bracing member to cause thermal expansion and contraction of the first and second bracing members so as to
achieve curving and deformation of the bracing assembly and make the bracing assembly forcibly change curvature of the backplane.

US Pat. No. 9,084,345

BACKLIGHT MODULE, PRINTED CIRCUIT BOARD USED FOR BACKLIGHT MODULE, AND MANUFACTURING METHOD FOR THE SAME

Shenzhen China Star Optoe...

1. A backlight module, wherein, the backlight module comprises a light bar and a printed circuit board, and the printed circuit
board comprising:
a light bar region used for mounting the light bar of the backlight module, being formed with a conductive circuit for supplying
power for the light bar, comprising an aluminum (Al) layer of the light bar region, a dielectric layer of the light bar region,
a conductive layer and an insulating layer, wherein the Al layer of the light bar region, the dielectric layer of the light
bar region, the conductive layer and the insulating layer overlap sequentially; and

a heat dissipating region connected with the light bar region, comprising an Al layer of the heat dissipating region and a
dielectric layer of the heat dissipating region wherein the Al layer of the heat dissipating region and the dielectric layer
of the heat dissipating region overlap sequentially;

wherein, a connection location of the light bar region and the heat dissipating region disposes with a cutting slot and the
cutting slot locates at a side of the printed circuit board for mounting the light bar in order to prevent a short-circuit
connection between the heat dissipating region and the conductive circuit of the light bar region through the cutting slot.

US Pat. No. 9,053,670

LIQUID CRYSTAL DISPLAY APPARATUS AND LED BACKLIGHT MODULE THEREOF

Shenzhen China Star Optoe...

1. An LED backlight module, used for a liquid crystal display apparatus, comprising:
a boosting circuit for receiving a direct current voltage, boosting the direct current voltage, and then outputting a step-up
direct current voltage;

an LED string, including a sixth resistor and a plurality of LEDs connected in series, for receiving the step-up direct current
voltage from the boosting circuit;

a constant current driver circuit for generating a signal used for controlling the boosting circuit;
a amplifying circuit for receiving the direct current voltage, amplifying the signal from the constant current driver circuit,
and then outputting a magnified signal to the boosting circuit;

wherein the amplifying circuit includes a first resistor, a second resistor, a third resistor, a fourth resistor, a fifth
resistor, a first transistor, and a second transistor;

wherein a first end of the first resistor connects to a first end of the third resistor and receives the direct current voltage;
wherein a second end of the first resistor connects to the boosting circuit; wherein a second end of the third resistor connects
to a collector of the first transistor; wherein a base of the first transistor connects to one end of the fifth resistor and
the constant current driver circuit; wherein the other end of the fifth resistor connects to an emitter of the first transistor
and electrically grounds; wherein a base of the second transistor connects to one end of the fourth resistor and the collector
of the first transistor; wherein a collector of the second transistor connects to one end of the second resistor and the second
end of the first resistor; wherein an emitter of the second transistor connects to the other end of the second resistor and
the other end of the fourth resistor; and wherein the other end of the fourth resistor electrically grounds.

US Pat. No. 9,615,459

INDUCTOR, CIRCUIT BOARD, AND IMPLEMENTING METHOD OF THE INDUCTOR

SHENZHEN CHINA STAR OPTOE...

1. An inductor, comprising: a first pad arranged on a first metal wiring layer of a circuit board; a second pad arranged on
a second metal wiring layer of the circuit board; a first hole with conducting medium filled therein, one end of the first
hole being located in the first pad and the other end thereof being located in the second pad; a third pad arranged on a third
metal wiring layer of the circuit board; a fourth pad arranged on a fourth metal wiring layer of the circuit board; and a
second hole with conducting medium filled therein, one end of the second hole being located in the third pad and the other
end thereof being located in the fourth pad; wherein the fourth metal wiring layer and the second metal wiring layer are at
the same level, and the fourth pad is connected with the second pad through metal wirings; and wherein the third metal wiring
layer and the first metal wiring layer are at the same level, and the third pad is connected with the first pad through metal
wirings.

US Pat. No. 9,589,825

GLASS SUBSTRATE TRANSFER SYSTEM AND ROBOT ARM THEREOF

Shenzhen China Star Optoe...

7. A glass substrate transfer system comprising:
a high-temperature furnace and process machine;
a substrate fork, configured for taking a glass substrate;
a moving assembly, connected with the substrate fork and configured for making the substrate fork to be moved in a working
space;

a vacuum chuck, disposed on the substrate fork and configured for sucking the glass substrate, the vacuum chuck is formed
with a fluid path, and the fluid path is contained with a cooling fluid to dissipate heat of the vacuum chuck; and

a heat-dissipating assembly, disposed at a side of the high-temperature furnace, the process machine, the substrate fork,
the moving assembly or the vacuum chuck are configured for being moved to above of the vacuum chuck to dissipate heat of the
vacuum chuck when the vacuum chuck is heated and does not suck the glass substrate;

wherein the heat-dissipating assembly comprises a gas nozzle, a pipe and a pump, the gas nozzle is configured for being moved
to above of the middle of the vacuum chuck and spraying ambient-temperature clean gas or low-temperature clean gas onto the
vacuum chuck.

US Pat. No. 9,474,165

SUBSTRATE DELIVERY DEVICE AND STRONG ACID OR STRONG BASE ETCHING ADEQUATE FOR WET PROCESS

Shenzhen China Star Optoe...

1. A substrate delivery device for delivering a substrate between an etching chamber and a cleaning chamber, the substrate
delivering device comprising: a plurality of first delivery rollers parallel to one another in an etching chamber, a plurality
of second delivery rollers parallel to one another in a cleaning chamber and a carrier employed for carrying a substrate;
the carrier comprises two first side frames located along a direction of delivering the substrate, two second side frames
connected to ends of the two first side frames, a plurality of first connection parts and a plurality of second connection
parts which are intercrossing and orthogonal in an area surrounded by the two first side frames and the two second side frames
and a plurality of supports at joins of the plurality of first connection parts and the plurality of second connection parts;
the plurality of first connection parts and the plurality of second connection parts are intercrossing and orthogonal with
one another to form a plurality of hollow parts; the substrate is located on the carrier;
wherein, the substrate delivery device further comprising a support frame, and the support frame comprises a plurality of
first support plates parallel with the first side frames and a plurality of second support plates perpendicularly connected
to the plurality of first support plates, and the second support plates are located below the plurality of supports; the support
frame is located on the plurality of first delivery rollers and the plurality of second delivery rollers, and the carrier
is located on the support frame; and

wherein, a first distance formed between two of the plurality of first support plates is greater than a second distance formed
between the two first side frames, and only the plurality of first support plates of the support frame are located on the
plurality of first delivery rollers and the plurality of second delivery rollers; the support frame is made of polyfluortetraethylene
(PTFE).

US Pat. No. 9,335,460

LIGHT GUIDE PLATE, BACKLIGHT MODULE, AND DISPLAY DEVICE

Shenzhen China Star Optoe...

1. A light guide plate for use in a backlight module, comprising a light incidence surface, a light exit surface, and a bottom
surface opposite to the light exit surface, the light incidence surface connected between the bottom surface and the light
exit surface, the light guide plate having an interior in which an internal chamber is formed, the internal chamber comprising
two opposite sidewalls and an end wall connected between the two sidewalls, the end wall being substantially parallel to the
light incidence surface and spaced from the light incidence surface, the internal chamber comprising a light source provided
at a connection site between the end wall and each of the two sidewalls, whereby light that enters through the light incidence
surface and light emitting from the two light sources are subjected to refraction and/or reflection within the internal chamber
and then project outward through the light exit surface.

US Pat. No. 9,538,598

BACKLIGHT ADJUSTMENT CIRCUIT AND ELECTRONIC DEVICE

SHENZHEN CHINA STAR OPTOE...

1. An electronic device, comprising a light-emitting diode (LED) module and at least one backlight adjustment circuit, each
backlight adjustment circuit is configured to detect the luminance of the light emitted by a corresponding one LED string
and adjust the luminance correspondingly, each LED string comprises a plurality of LEDs and a current control resistor connected
between a positive voltage port and ground in series; wherein, the backlight adjustment circuit comprises:
a light sensing circuit, configured to sense the luminance of light emitted by one corresponding LED string and produces a
corresponding light sensing signal value;

a comparison unit, configured to compare the light sensing signal value produced by the light sensing circuit with a preset
reference value, and produce a first signal when comparing the light sensing signal value is less than the preset reference
value, and produce a second signal when comparing the light sensing signal value is greater than the preset reference value;
and

an adjustment unit, configured to control to decrease a current flowing through the LED string to decrease the luminance of
the light emitted by the LED string, when receiving the first signal produced by the comparison unit; and to control to increase
the current flowing through the LED string to increase the luminance of the light emitted by the LED string, when receiving
the second signal produced by the comparison unit;

wherein the light sensing circuit comprises a photoelectric converter and a voltage difference calculating unit, the photoelectric
converter is located on an area where the LED string is, and is configured to sense the luminance of the light emitted by
the LED string and produce corresponding first voltage and second voltage; the voltage difference calculating unit is configured
to calculate a voltage difference of the first voltage and the second voltage according to the first voltage and the second
voltage; the preset reference value is a reference voltage, the comparison unit compares the voltage difference of the first
voltage and the second voltage with the reference voltage, and produces the first signal when comparing the voltage difference
is less than the reference voltage, and produces the second signal when comparing the voltage difference is greater than the
reference voltage.

US Pat. No. 9,239,482

BACKLIGHT MODULE AND LIQUID CRYSTAL DISPLAY

Shenzhen China Star Optoe...

1. A backlight module, comprising:
a back frame and a support, the back frame is arranged on the support and is fixedly connected with the support, and a receiving
cavity is formed between the back frame and the support for receiving flexible circuit boards and printed circuit boards connecting
to the flexible circuit boards;

a portion of a bottom plate of the support comprises a first through hole and a second through hole, and a bottom plate of
the back frame comprises a connecting hole corresponding to a location of the first through hole;

wherein the portion of the bottom plate of the support that is far from a sidewall of the back frame attaches the bottom plate
of the back frame, and the portion of the bottom plate of the support that is far from the sidewall of the back frame comprises
the second through hole, the bottom plate of the back frame comprises a fixing hole corresponding to a location of the second
through hole a fixing member passes through the second hole and the fixing hole in turn to fix the bottom plate of the support
and the bottom plate of the back frame; and

wherein the portion of the bottom plate of the support that is far from the sidewall of the back frame comprises the first
through hole, the second through hole passes through the first through hole, a direction from the second through hole toward
the first through hole is vertical to the sidewall of the back frame, and the first through hole is closer to the sidewall
of the back frame a connecting member passes through the first through hole and the connecting hole in turn so as to connect
the bottom plate of the support and the bottom plate of the back frame, and the support moves along a direction from the sidewall
of the back frame toward a sidewall of the support.

US Pat. No. 9,408,267

LED BACKLIGHT FOR LIQUID CRYSTAL DISPLAY (LCD) APPARATUS

SHENZHEN CHINA STAR OPTOE...

1. A LED backlight for a liquid crystal display (LCD) apparatus, comprising:
a boost circuit for boosting, in different display modes, an input voltage to a working voltage required for operating each
LED string in a current display mode, wherein the display modes include a 2D display mode and a 3D display mode;

a plurality of LED strings which are connected in parallel, wherein each LED string comprises a predetermined number of LEDs
which are connected in series and receives the working voltage required for operating from the boost circuit, wherein in each
LED string, the predetermined number of LEDs are connected to a first resistor in series;

a current regulation circuit for regulating, in the different display modes, a current flowing through each LED string, such
that a ratio of the current flowing through each LED string in the 3D display mode and the current flowing through each LED
string in the 2D display mode is varied;

a controller for providing a driving signal to drive the boost circuit, and providing different display mode voltages to the
current regulation circuit in the different display modes;

wherein the current regulation circuit comprises:
a plurality of voltage regulation circuits, wherein each voltage regulation circuit changes a voltage between the predetermined
number of LEDs in a corresponding LED string and the first resistor in the different display modes, thereby regulating the
current flowing through the LED string;

a resistance regulation circuit for changing, in the different display modes, an output resistance of each voltage regulation
circuit, such that each voltage regulation circuit changes the voltage between the predetermined number of LEDs in the corresponding
LED string and the first resistor.

US Pat. No. 9,345,124

CHIP AND CIRCUIT STRUCTURE

SHENZHEN CHINA STAR OPTOE...

1. A chip structure, disposed on a printed circuit board provided with an element layer and a copper grounding layer, comprising:
a chip body disposed on the element layer and having a plurality of power pins;
a power line disposed on the element layer for supplying electric power to the chip body;
a plurality of power input lines, each of which has a body disposed on the copper grounding layer, wherein two ends of the
power input line are disposed on the element layer, and the body of the power input line is connected with the two ends thereof
through corresponding through holes of the printed circuit board;

a plurality of bypass capacitors, each of which has one end connected with the power pins of the chip body through the element
layer and the other end connected with the power line through the power input line; and

a heat dissipation unit disposed on a back surface of the chip body, wherein the heat dissipation unit is an exposed copper
structure disposed on the back surface of the chip body, and a portion of the copper grounding layer is excavated from the
back surface of the chip body for providing the exposed copper structure;

wherein the body of the power input line is connected with one end of the power input line through a first through hole of
the printed circuit board, and the body of the power input line is connect with the other end of the power input line through
a second through hole of the printed circuit board;

the end of the power input line is connected with the bypass capacitors, and the other end of the power input line is connected
with the power line.

US Pat. No. 9,328,097

THERMALLY ACTIVATED DELAYED FLUORESCENCE MATERIAL, A METHOD OF SYNTHESIZING THE SAME AND AN OLED DEVICE USING THE SAME

Shenzhen China Star Optoe...

1. A thermally activated delayed fluorescence material, comprising a molecular structure formula 1 as Ar—(Ar1)m-(Ar2)n, wherein the number of m is in 1˜4, the number of n is in 1˜8, the group Ar is an electron withdrawing group, the group Ar1
is an electron donating group and the group Ar2 is an aggregation induced emission group,
wherein the group Ar is selected from the following structure formulas:

the group Ar1 is selected from the following structure formulas:

the group Ar2 is selected from the following structure formulas:

US Pat. No. 9,267,584

STACKING MACHINE

SHENZHEN CHINA STAR OPTOE...

1. A stacking machine, comprising a body and a translational mechanism for driving the body to make a translational motion;
wherein the translational mechanism consists of two synchronous belt mechanisms respectively arranged at both sides of the
body; each of the synchronous belt mechanisms includes a driving wheel, a driven wheel, a synchronous belt successively wound
around the driving wheel and the driven wheel, and a drive device for driving the driving wheel to rotate; two driven wheels
are independent from each other; two rotation shafts of the two driven wheels are separated from and unconnected to each other,
the two rotation shafts are perpendicular to a planar surface defined by a top surface of the body; two grooves are defined
on a bottom surface of the body, the bottom surface is opposite to the top surface, and the two grooves are respectively located
at the both sides of the body to fit the synchronous belts, so that the body is arranged on the synchronous belts and is detachably
fixed at both sides to two synchronous belts respectively, which makes the translational motion of the body with the rotation
of the synchronous belts.

US Pat. No. 9,164,337

MANUFACTURING METHOD OF DISPLAY PANEL AND REPAIR LINE STRUCTURE THEREOF

Shenzhen China Star Optoe...

1. A manufacturing method of a display panel, applicable to a panel comprising a plurality of repair lines, for repairing
signal lines with a broken line defect existing in the panel, the manufacturing method comprises:
before a PSVA process, connecting one of the repair lines to a solder pad, and connecting the repair line through the solder
pad to a short circuit bus of same type of the signal line, path of the repair lines connecting to the short-circuit bus passing
a panel cutting line;

welding a weld point located between a broken point on the broken line and a connection point of the repair line and the short-circuit
bus so that signal applied through the short-circuit bus to display the panel passing the repair line to the broken point;
and

after the PSVA process, cutting along the panel cutting line to cut off connection between the repair lines and the short-circuit
bus;

wherein the short-circuit bus being located on one side of the panel cutting line, while the solder pad, the signal line and
the repair line being located on other side of the panel cutting line.

US Pat. No. 9,257,755

APPARATUS FOR CONTROLLING ELECTRIC FIELD DISTRIBUTION BY UTILIZING SHORT TRACE STRUCTURES

Shenzhen China Star Optoe...

1. An apparatus for controlling electric field distribution, the apparatus including at least a portion of a portable electronic
device, the portable electronic device having a plurality of wireless communication functions corresponding to a plurality
of different communication standards, respectively, the plurality of wireless communication functions including a mobile phone
function and at least one other wireless communication function, the apparatus comprising:
a main antenna, electrically connected to a first side of a printed circuit board (PCB) of the portable electronic device,
the main antenna arranged for performing the mobile phone function; and

a plurality of short circuit structures, positioned at the first side of the PCB and electrically connected to the PCB, wherein
at least one of the plurality of short circuit structures is selected to be at least one auxiliary antenna corresponding to
the at least one other wireless communication function, and other of the plurality of short circuit structures is selected
to be a short circuit;

wherein a sound output module of the portable electronic device is closer to a second side of the PCB with respect to the
first side of the PCB, the second side is opposite to the first side, the plurality of short circuit structures positioned
at the first side of the PCB changes electric field distribution of the portable electronic device and the sound output module
is closer to the second side of the PCB with respect to the first side of the PCB so as to reduce an electric field intensity
at the sound output module.

US Pat. No. 9,232,583

FLYBACK BOOST CIRCUIT, LED BACKLIGHT DRIVING CIRCUIT AND LIQUID CRYSTAL DEVICE

Shenzhen China Star Optoe...

1. A flyback boost circuit, comprising:
a converter, a switch module, a driving module and an output diode, and a duty cycle ratio of the switch module equals to
D, wherein

the converter comprises n number of primary coils and one secondary coil, the switch module comprises n number of switch components,
homonymous ends of the n number of primary coils respectively connects to the n number of switch components, and the other
end of the n number of primary coils respectively connects to an input voltage, a turn ratio of the secondary coil to each
primary coils is K, wherein K is a positive number;

the driving module respectively provides control signals to n number of switch components such that only one of n number of
switch components is sequentially turned on within a time period for which the duty cycle ratio equals to D, and a sum of
the duty cycle ratio of the n number of switch components is D, wherein D is a positive number;

the homonymous ends of the secondary coil connects to a positive end of the output diode, and the other end of the secondary
coil is grounded, an output capacitor is connected between a negative end of the output diode and the ground, and the negative
end of the output diode provides the output voltage to a load; and

wherein n is an integer larger than or equaling to 2.

US Pat. No. 9,276,236

OLED ELEMENT

Shenzhen China Star Optoe...

1. An OLED element, comprising a substrate, an OLED thin film element, being positioned on the substrate, an organic package
thin film, being positioned on the substrate and completely covering the OLED thin film element, an inorganic package thin
film, being positioned on the substrate and completely covering the organic package thin film, a protective cover sealing
the peripheric edges of the substrate and mantling on the inorganic package thin film and a rigid support plate, positioned
at a side of the protective cover away from the substrate.

US Pat. No. 9,274,636

EMBEDDED TOUCH ARRAY SUBSTRATE AND LIQUID CRYSTAL DISPLAY PANEL

Shenzhen China Star Optoe...

1. An embedded touch array substrate, which comprises:
multiple pairs of gate scanning lines and data lines arranged alternately;
a pixel switch electrically connected with the gate scanning lines and the data lines;
a pixel electrode electrically connected with the pixel switch;
a touch emission line provided between two pairs of the gate scanning lines adjacent to each other;
a touch receiving line provided between two pairs of the data lines adjacent to each other and intersecting the touch emission
line; and

a touch unit electrically connected with the intersection of the touch emission line and the touch receiving line,
wherein, each pair of the gate scanning lines comprise a first gate scanning line and a second gate scanning line parallel
and adjacent to each other, the distance between two pairs of the gate scanning lines adjacent to each other is larger than
that between the first gate scanning line and the second gate scanning line,

wherein, each pair of the data lines comprise a first data line and a second data line, the distance between two lairs of
the data lines adjacent to each other is larger than that between the first data line and the second data line.

US Pat. No. 9,217,892

CIRCULAR POLARIZER, LIQUID CRYSTAL PANEL AND THE LIQUID CRYSTAL DEVICE

Shenzhen China Star Optoe...

1. A circular polarizer, comprising:
a line polarizer comprising an absorption axis;
a first antireflective film being arranged on a down surface of the line polarizer; and
a quarter-wave plate being arranged on the down surface of the first antireflective film, and a slow axis of the quarter-wave
plate and the absorption axis of the line polarizer form an included angle equaling to 45 or 135 degrees.

US Pat. No. 9,256,023

BACKLIGHT MODULE AND LIQUID CRYSTAL DISPLAY DEVICE USING SAME

Shenzhen China Star Optoe...

1. A backlight module, comprising: a backplane, a light guide plate arranged in the backplane, a backlight source arranged
in the backplane at one side of the light guide plate, a light shielding film mounted on the light guide plate and the backplane
and located above the backlight source, and an optic film assembly arranged on the light shielding film and the light guide
plate, the light shielding film having one end fixedly connected to an upper surface of the light guide plate and an opposite
end fixedly connected to the backplane;
wherein the light shielding member comprises a light shielding section that is extendable and located between the upper surface
of the light guide plate and the backplane and located above the backlight source.

US Pat. No. 9,202,427

LCD AND METHOD FOR DRIVING THE SAME

SHENZHEN CHINA STAR OPTOE...

1. A liquid crystal display (LCD), comprising a substrate, a plurality of pixels, and a processing unit, the plurality of
pixels disposed on the substrate, for showing 2D or 3D images when receiving a plurality of two dimensional (2D) image signals
or a plurality of three dimensional (3D) image signals, the processing unit, for outputting the plurality of 2D image signals
when receiving a 2D image enabling signal or for outputting the plurality of 3D image signals when receiving a 3D image enabling
signal, each of the plurality of pixels comprising:
a transistor, for conducting a grayscale signal based on the plurality of 2D image signals or the plurality of 3D image signals
when receiving a scan signal;

a first pixel electrode, for receiving a first voltage signal when corresponding to the 2D image enabling signal or the 3D
image enabling signal;

a second pixel electrode, for receiving the first voltage signal in response to the 2D image enabling signal, or for receiving
a second voltage signal in response to the 3D image enabling signal, the first voltage signal being different from the second
voltage signal; and

a third pixel electrode, having a first end being electrically connected to the transistor, and a second end being configured
to comprise two bending legs extending from the first end to embrace the first pixel electrode and the second pixel electrode
so as to be configured for receiving the grayscale signal generated based on the plurality of 2D image signals or on the plurality
of 3D image signals;

wherein the first pixel electrode, the second pixel electrode, and the third pixel electrode are disposed on the substrate
and are not connected to one another;

wherein the two bending legs comprise a first bending leg part and a second bending leg part, the first pixel electrode is
connected with a first common voltage line, extends from the first common voltage line in one direction, and is disposed between
the first bending leg part and the second bending leg part at a first pixel area, and the second pixel electrode is connected
with a second common voltage line, extends from the second common voltage line in another direction, and is disposed between
the first bending leg part and the second bending leg part at a second pixel area, one side of the first pixel area is near
to the first end, and the other side of the first pixel area is near the second pixel area but far away from the first end;

wherein the first common voltage line is electrically connected to a voltage generator generating the first voltage signal
and the second voltage signal and the first pixel electrode for transmitting the first voltage signal outputted by the voltage
generator to the first pixel electrode; and the second common voltage line is electrically connected to the voltage generator
and the second pixel electrode for transmitting the second voltage signal outputted by the voltage generator to the second
pixel electrode.

US Pat. No. 9,382,622

GLASS SUBSTRATE FOR DISPLAY AND MANUFACTURING METHOD THEREOF

SHENZHEN CHINA STAR OPTOE...

1. A glass substrate used for a display and treated through a vapor deposition apparatus, wherein the glass substrate includes
an optical compensation film, which has a relatively higher transmittance in a compensation area than in other areas, the
shape and position of the compensation area being configured to be consistent with a non-uniform heated area caused by the
vapor deposition apparatus on the glass substrate.

US Pat. No. 9,337,219

METHOD FOR MANUFACTURING FLEXIBLE DISPLAY DEVICE

Shenzhen China Star Optoe...

1. A method for manufacturing a flexible display device, comprising:
providing a substrate, wherein the substrate comprises a first surface and a second surface that are opposite to each other;
forming a first flexible substrate on the first surface of the substrate and forming the second flexible substrate on the
second surface of the substrate, wherein a force acting from the first flexible substrate to the substrate is equal to, but
in opposite direction, a force acting from the second substrate to the substrate;

forming a displaying component on a surface of the first flexible substrate that is distant from the substrate; and
peeling the first flexible substrate on which the displaying component is formed off the substrate so as to form a flexible
display device.

US Pat. No. 9,305,502

ADJUSTING METHOD OF GAMMA VOLTAGE ADJUSTING DEVICE

SHENZHEN CHINA STAR OPTOE...

1. An adjusting method of a gamma voltage adjusting device, the gamma voltage adjusting device utilized for providing a liquid
crystal panel with N gray levels and comprising a printed circuit board assembly and a gamma voltage fine-tuning unit, the
adjusting method of the gamma voltage adjusting device comprising:
the printed circuit board assembly comprising a plurality of gamma integrated circuits for generating N+2 gamma voltages,
the N+2 gamma voltages comprising 2 first polarity gamma voltages and N second polarity gamma voltages, the 2 first polarity
gamma voltages respectively corresponding to a highest gray level and a lowest gray level of the N gray levels, and the N
second polarity gamma voltages respectively corresponding to the N gray levels;

inputting the 2 first polarity gamma voltages and the N second polarity gamma voltages to the gamma voltage fine-tuning unit;
and

generating M first polarity driving voltages or N first polarity driving voltages according to the 2 first polarity gamma
voltages and generating N second polarity driving voltages according to the N second polarity gamma voltages with the gamma
voltage fine-tuning unit,

wherein M is less than or equal to N.
US Pat. No. 9,290,674

METHOD FOR PREPARING A BASE FILM OF MODIFIED POLYVINYL ALCOHOL POLYMER

SHENZHEN CHINA STAR OPTOE...

1. A method for preparing a base film of modified polyvinyl alcohol polymer, comprising the following steps of:
(1) modifying nano-silicon dioxide particles with a fluorinated silane by a surface graft modification to obtain a modified
nano-silicon dioxide powder;

(2) adding the modified nano-silicon dioxide powder obtained from the step (1) into an aqueous solution of polyvinyl alcohol
polymer to form a composite solution of polyvinyl alcohol polymer;

(3) pouring the composite solution of polyvinyl alcohol polymer prepared from the step (2) onto a surface of a casting substrate,
in order to obtain a base film of modified polyvinyl alcohol polymer; and

(4) bonding iodine molecules to the polyvinyl alcohol polymer in the base film of modified polyvinyl alcohol polymer by dyeing
with an iodine solution.

US Pat. No. 9,280,010

CURVATURE-ADJUSTABLE BACKPLANE AND LIQUID CRYSTAL DISPLAY DEVICE HAVING SAME

Shenzhen China Star Optoe...

1. A liquid crystal display device, comprising a backplane, an optical component arranged in the backplane, a backlight source
arranged in the backplane, a mold frame mounted above the backlight source, a liquid crystal panel positioned on the mold
frame, and a bezel fixed the liquid crystal panel to the mold frame, the backplane comprising a bottom plate, the bottom plate
being made of a material of thermal bimetal, the bottom plate comprising a plurality of openings formed therein to extend
in a lengthwise direction or a widthwise direction thereof, whereby the plurality of openings increases a localized length-to-width
ratio of the bottom plate.

US Pat. No. 9,217,877

STEREOSCOPIC IMAGE DISPLAY APPARATUS HAVING FILM-TYPE PATTERNED RETARDER

SHENZHEN CHINA STAR OPTOE...

1. A stereoscopic image display apparatus having a film-type patterned retarder adapted to polarized glasses for viewing a
three-dimensional image of the stereoscopic image display apparatus by using the polarized glasses, the stereoscopic image
display apparatus comprising:
an array substrate, comprising:
a gate driver;
a source driver;
a plurality of pixel units, each of the pixel units comprising a first sub-pixel, a second sub-pixel and a third sub-pixel,
and the first sub-pixel, the second sub-pixel and the third sub-pixel in one of the pixel units corresponding to a first scan
line, a second scan line and a third scan line respectively, wherein the first scan line, the second scan line and the third
scan line are coupled to the gate driver and each of the pixel units is coupled to at least two data lines which are coupled
to the source driver, and the first scan line, the second scan line and the third scan line are insulatedly interlaced with
the at least two data lines, the at least two data lines comprise a first data line and a second data line; and

a plurality of transistor control modules, one of the transistor control modules coupling the first scan line, the second
scan line and the third scan line to the first sub-pixel, the second sub-pixel and the third sub-pixel;

a polarized plate, for receiving a light beam passing through the array substrate to generate a linear polarized light beam;
and

the film-type patterned retarder (FPR) disposed on the polarized plate and receiving the light beam passing through the array
substrate, wherein the linear polarized light beam passes through the film-type patterned retarder to form a polarized light
beam with a phase difference for generating the three-dimensional image on the polarized glasses,

wherein each of the transistor control modules in the one of the pixel units comprises:
a first thin-film transistor having a first source electrode coupled to the first data line, a first gate electrode coupled
to the first scan line, and a first drain electrode coupled to the first sub-pixel;

a second thin-film transistor having a second source electrode coupled to the first data line, a second gate electrode coupled
to the second scan line, and a second drain electrode coupled to the second sub-pixel; and

a third thin-film transistor having a third source electrode coupled to the second data line, a third gate electrode coupled
to the third scan line, and a third drain electrode coupled to the third sub-pixel,

wherein another pixel unit adjacent to the one of the pixel units comprises a fourth sub-pixel, a fifth sub-pixel, and a sixth
sub-pixel corresponding to the third scan line, the second scan line, and the first scan line respectively, and the another
pixel units is coupled to a third data line and a fourth data line which are coupled to the source driver, wherein another
transistor control module in the another pixel unit comprises:

a fourth thin-film transistor having a fourth source electrode coupled to the third data line, a fourth gate electrode coupled
to the third scan line, and a fourth drain electrode coupled to the fourth sub-pixel;

a fifth thin-film transistor having a fifth source electrode coupled to the third data line, a fifth gate electrode coupled
to the second scan line, and a fifth drain electrode coupled to the fifth sub-pixel; and

a sixth thin-film transistor having a sixth source electrode coupled to the fourth data line, a sixth gate electrode coupled
to the first scan line, and a sixth drain electrode coupled to the sixth sub-pixel.

US Pat. No. 9,282,633

ROUTING STRUCTURE AND DISPLAY PANEL

Shenzhen China Star Optoe...

1. A routing structure, which comprises: a plurality of routings, disposed separately, wherein each routing corresponds to
a respective routing code, the routing code comprising a plurality of characters, each character being a digit or a letter,
wherein the routing code is disposed in a groove of the corresponding routing and connected to the corresponding routing,
wherein the routing code and the corresponding routing are made of the same metal and the routing code is made conductive
in an extension direction of the routing to serve as a part of the routing to conduct electricity.

US Pat. No. 9,268,172

POSITIONING DEVICE FOR POSITIONING AN OPTICAL FILM SET, BACKLIGHT MODULE, AND LIQUID CRYSTAL DISPLAY

Shenzhen China Star Optoe...

1. A positioning device for positioning an optical film set in a backlight module, the backlight module comprising a back
plate on which the optical film set is disposed, wherein the positioning device comprises:
an assembly sheet, disposed at one end of the positioning device, penetrating an opening formed on at least one edge of the
optical film set; and

a fixing device, for fixing the positioning device to a side plate of the back plate, the fixing device comprising:
a flexible sheet and a fixing sheet disposed on the same side of the assembly sheet, the flexible sheet comprising a first
plate and a second plate perpendicular to the first plate, the first plate being perpendicular to the assembly sheet and parallel
to the fixing sheet; and

a groove disposed on the side plate of the back plate;
wherein the flexible sheet leans against an end of the side plate and an outer side of the side plate, and the fixing sheet
fittingly penetrates the groove in a direction from an inner side to the outer side of the side plate, and the side plate
is stuck into a space formed by the flexible sheet and the fixing sheet.

US Pat. No. 9,370,056

DRIVING APPARATUS AND METHOD FOR DIMMABLE LED

SHENZHEN CHINA STAR OPTOE...

1. A dimmable light-emitting diode (LED) driving apparatus comprising a dimmer switch, which controls connection or disconnection
of an LED series, the dimmable LED driving apparatus further comprising:
a boost circuit electrically coupled to the LED series;
a comparator electrically coupled to the boost circuit, the comparator receiving a triangle wave signal to generate a Pulse
Width Modulation (PWM) signal, the PWM signal controlling the boost circuit;

a resistor-capacitor (RC) circuit electrically coupled to the comparator, the RC circuit utilized to output a charging curve
signal to the comparator for the comparator to generate the PWM signal with diminishing duty cycles when the dimmer switch
disconnects; and

a switching circuit utilized to turn on a connection between the RC circuit and the comparator when the dimmer switch disconnects,
so that the comparator receives the charging curve signal.

US Pat. No. 9,275,600

SOURCE ELECTRODE DRIVING MODULE WITH GAMMA CORRECTION AND LCD PANEL

Shenzhen China Star Optoe...

1. A source electrode driving module for providing a data signal to a liquid crystal display (LCD) unit, comprising: a Gamma
correction chip and a source electrode driving chip, wherein,
the Gamma correction chip comprises a P-GAMMA driving chip only having three to eight output channels, and resistors R1, R2 and R3; the P-GAMMA driving chip is used for generating multiple control voltages providing to the source electrode driving chip;

the source electrode driving chip comprises a first resistor string and a second resistor string; the first resistor string
and the second resistor string are respectively formed by 2n?2 resistors connected in series; the first resistor string receives a portion of the control voltages generated by the P-GAMMA
driving chip, and through voltage dividing to form 2n data signal voltages with positive polarity; the second resistor string receives the other portion of the control voltages
generated by the P-GAMMA driving chip, and through voltage dividing to form 2n data signal voltages with negative polarity; and

the multiple control voltages generated by the P-GAMMA driving chip connect into the first resistor string and the second
resistor string according to turning points of a Gamma curve of the LCD unit, wherein, n is an integer, and 6?n?10;

wherein, a control voltage VD1 generated at a first output channel of the P-GAMMA driving chip is connected to the first resistor string of the source electrode
driving chip and also connected to a ground through the resistors R1, R2 and R3 connected sequentially in series; and

wherein, a voltage signal which is from voltage dividing between the resistors R1 and R2 connects to a first analog buffer amplifier OP1 of the source electrode driving chip to be amplified to form one of the multiple control voltages and connecting to the second
resistor string; a voltage signal which is from voltage dividing between the resistors R2 and R3 connects to a second analog buffer amplifier OP2 of the source electrode driving chip to be amplified to form another one of the multiple control voltages and connecting
to the second resistor string.

US Pat. No. 9,269,287

METHOD AND SYSTEM FOR MEASURING THE RESPONSE TIME OF A LIQUID CRYSTAL DISPLAY

SHENZHEN CHINA STAR OPTOE...

1. A method for measuring the response time of an LCD, comprising the following steps:
step A: the LCD displaying a preset image in a controlled manner;
step B: obtaining a first and second luminance values of the LCD when displaying the preset image, and outputting a luminance-time
curve in which the second luminance value changes over the time; wherein, the first and second luminance values are respectively
measured by a standard luminance measuring device and an actual luminance measuring device, the standard luminance measuring
device is configured to measure a luminance-gray scale characteristic of the LCD, and the actual luminance measuring device
is configured to measure a luminance-time characteristic of the LCD; and

step C: correcting the luminance-time curve to obtain a corrected luminance-time curve by replacing the second luminance value
in the luminance-time curve with a corrected luminance value, and calculating the response time of the LCD according to the
corrected luminance-time curve; wherein the corrected luminance value is obtained with the following steps:

step C1: constructing a matching function between the first luminance value and the second luminance value, wherein the first luminance
value is a dependent variable and the second luminance value is an independent variable; and

step C2: calculating the corrected luminance value according to the matching function constructed, wherein the corrected luminance
value is the dependent variable and the second luminance value is the independent variable.

US Pat. No. 9,281,092

ULTRAVIOLET LIGHT OVEN FOR GLASS SUBSTRATE

Shenzhen China Star Optoe...

10. An ultraviolet light oven for aligning liquid crystal molecules, comprising a plurality of ultraviolet light sources and
a reflector, the reflector including a reflecting surface facing the ultraviolet sources,
wherein the reflector includes a first optical portion in the form of recesses defined on the reflecting surface and a second
optical portion comprising recesses having a circular cross section and formed in and uniformly distributed on each of the
side surfaces of the reflector so that the recesses of the two side surfaces face away from each other and are located outside
of the ultraviolet light sources irradiation area; and

wherein the first optical portion is configured with a plurality of first grooves extending in a lengthwise or transversal
direction of the reflector, wherein the first grooves are arranged in parallel to each other in the transversal or lengthwise
direction.

US Pat. No. 9,272,431

POLARIZING SHEET REMOVING TOOL AND REMOVING METHOD

SHENZHEN CHINA STAR OPTOE...

1. A polarizing sheet removing method, comprising the following steps:
(1) providing an operation table and a tool, wherein the tool comprises a handle and a blade mounted on the handle, the handle
comprising a main body, a piston device mounted on the main body, and a guide tube mounted on the main body, the main body
forming therein a channel for containing an adhesive dissolving liquid, the piston device being mounted inside the channel,
the guide tube having an end in communication with the channel and an opposite end positioned on the blade to guide the adhesive
dissolving liquid contained in the channel to the blade, the piston device comprising a piston that is movably received in
the channel and a piston rod connected to the piston and partly extending outside the main body and operable to force the
piston to move in the channel to drive the adhesive dissolving liquid to flow through the guide tube to the blade;

(2) positioning the liquid crystal display panel from which a polarizing sheet is to be removed on the operation table, wherein
the liquid crystal display panel comprises a substrate, a polarizing sheet laminated on a surface of the substrate, and bonding
adhesive interposed between the polarizing sheet and the substrate, the polarizing sheet being set to be distant from the
operation table;

(3) using the blade to cut a square area on the polarizing sheet to be removed;
(4) partially peeling off the polarizing sheet located in the square area from one side of the square area to lift up a portion
of the polarizing sheet that corresponds to the side;

(5) positioning the blade against the bonding adhesive between the polarizing sheet and the substrate and driving the piston
device to compress the adhesive dissolving liquid contained the channel so that the adhesive dissolving liquid flows through
the guide tube to the blade to subsequently flow to the bonding adhesive to dissolve the bonding adhesive, and at the same
time, pushing the blade forward to cut off the bonding adhesive; and

(6) repeating step (5) until the polarizing sheet within the square area is completely removed.

US Pat. No. 9,280,008

BACKLIGHT MODULE AND LIQUID CRYSTAL DISPLAY DEVICE USING SAME

SHENZHEN CHINA STAR OPTOE...

1. A backlight module, comprising: a backplane, a light guide plate arranged in the backplane and having a flat bottom surface,
a backlight source arranged in the backplane, and an optic film assembly arranged on the light guide plate, the backplane
comprising a bottom plate and a plurality of side plates perpendicularly connected to the bottom plate, the bottom plate having
a flat upper surface facing the bottom surface of the light guide plate and partly concaved to define a curved surface that
faces and is spaced from the bottom surface of the light guide plate, the curved surface comprising a curved reflection surface
formed thereon and spaced from the light guide plate.

US Pat. No. 9,429,699

BACKLIGHT MODULE AND DISPLAY APPARATUS

Shenzhen China Star Optoe...

1. A backlight module, comprising:
a light collector configured to collect ambient light rays;
a plurality of optical fibers connected to the light collector;
a fiber light-outputting substrate connected to the optical fibers, wherein the fiber light-outputting substrate includes
a plurality of light-outputting openings configured to output the light rays transmitted by the optical fibers;

a light guide plate disposed at one side of the fiber light-outputting substrate; and
a plurality fiber fixing collars having through holes and attached to light-emitting ends of the optical fibers for fixing
the optical fibers to the fiber light-outputting substrate, and the fiber fixing collars are made of a soft material, and
each of the optical fibers has a marked line aligned with opening edges of the through holes of the fiber fixing collars;

wherein an arrangement pitch of the light-outputting openings is less than or equal to 16 mm, and a diameter of each of the
light-outputting openings is less than or equal to 2.5 mm;

wherein each of the fiber fixing collars includes a tubular extending portion, and the through holes are formed in the extending
portions;

wherein the optical fibers are inserted in the through holes of the fiber fixing collars and expose the light-emitting ends;
and the exposed light-emitting ends are correspondingly inserted into the light-outputting openings of the fiber light-outputting
substrate, and each of the fiber fixing collars includes a bonding surface, and the bonding surface is bonded to a surface
of the fiber light-outputting substrate by welding or adhering, thereby attaching and positioning the optical fibers to the
fiber light-outputting substrate; and

wherein the light collector includes a base, an optical lens, a photo-sensor and a cover; the optical lens and the photo-sensor
are disposed on the base; the optical lens is configured to collect the ambient light rays and provides the collected light
rays to an input end of an optical fiber bundle of the optical fibers; the photo-sensor is configured to detect the ambient
light rays for controlling the base to rotate according an ambient light source, thereby improving a light collection efficiency;
the cover is configured to encapsulate the optical lens and the photo-sensor; and the cover has an ultraviolet ray filter
layer to filter ultraviolet rays in the ambient light rays.

US Pat. No. 9,287,077

MANUFACTURING METHOD OF A FLEXIBLE DISPLAY

Shenzhen China Star Optoe...

1. A manufacturing method of a flexible display, comprising steps of:
forming an amorphous silicon layer on a rigid substrate;
forming a frame-type amorphous silicon layer from the amorphous silicon layer through an exposure process and an etch process;
attaching a flexible substrate onto the surface of the rigid substrate on which the frame-type amorphous silicon layer is
formed;

forming a multilayered display film on the flexible substrate; and
dehydrogenating the frame-type amorphous silicon layer after the formation of the display film is complete, so that the flexible
substrate is separated from the frame-type amorphous silicon layer for obtaining the flexible display.

US Pat. No. 9,256,088

THREE-LEVEL-DRIVEN ARRAY SUBSTRATE ROW DRIVING CIRCUIT

Shenzhen China Star Optoe...

1. A three-level-driven array substrate row driving circuit having cascaded multi-level array substrate row driving units,
each of the array substrate row driving units comprising:
a pull-up driving unit having a first input and a first output;
a pull-up unit having a second input, a third input and a second output, the second output electrically connects to the first
output;

a first pull-down unit having a third output, a fourth output, a fourth input and a fifth input, the third output electrically
connects to the first output and the second input respectively, and the fourth output and the second output are electrically
connected; and

a second pull-down unit having a fifth output, a sixth input and a seventh input, the fifth output electrically connects to
the second output and the fourth output respectively;

wherein the n-th level array substrate row driving unit further comprises a clock signal input, a (n?1)-th level signal input,
a (n+1)-th level signal input, a (n+3)-th level signal input, first low level input, a second low level input, and a signal
output, wherein the clock signal input electrically connects to the third input of the pull-up unit, the (n?1)-th level signal
input electrically connects to the first input of the pull-up driving unit, the (n+1)-th level signal input electrically connects
to the fourth input of the first pull-down unit, the (n+3)-th level signal input electrically connects to the sixth input
of the second pull-down unit, the first low level input electrically connects to the fifth input of the first pull-down unit,
the second low level input electrically connects to the seventh input of the second pull-down unit, the signal outputs electrically
connects to the second output of the pull-up unit, the fourth output of the first pull-down unit, and the fifth output of
the second pull-down unit respectively;

the first low level input is for inputting a first low level, the second low level input is for inputting a second low level,
the first low level is smaller than the second low level;

when n is in the range from 2 to fourth from the bottom, the (n?1)-th level signal input of the n-th level array substrate
row driving unit electrically connects to the signal output of the (n?1)-th level array substrate row driving unit. The (n+1)-th
level signal input of the n-th level array substrate row driving unit electrically connects to the signal output of the (n+1)-th
level substrate row driving unit. The (n+3)-th level signal input of the n-th level array substrate row driving unit electrically
connects to the signal output of the (n+3)-th level array substrate row driving unit;

when n equals to one, the (n?1)-th level signal input of the n-th level array substrate row driving unit is for inputting
an activating pulse signal, the (n+1)-th level signal input of the n-th level array substrate row driving unit electrically
connects to the signal output of the (n+1)-th level array substrate row driving unit, the (n+3)-th level signal input signal
input of the n-th level array substrate row driving unit electrically connects to the signal output of the (n+3)-th level
array substrate row driving unit;

when the n-th level array substrate row driving unit is any one of the penultimate or the antepenultimate array substrate
row driving unit, the (n?1)-th level signal input of the n-th level array substrate row driving unit electrically connects
to the signal output of the (n?1)-th level array substrate row driving unit, the (n+1)-th level signal input of the n-th level
array substrate row driving unit electrically connects to the signal output of the (n+1)-th level array substrate row driving
unit, the (n+3)-th level signal input of the n-th level array substrate row driving unit is configured to be dangling; and

when the n-th level array substrate row driving unit is the last array substrate row driving unit the (n?1)-th level signal
input of the n-th level array substrate row driving unit electrically connects to the signal output of the (n?1)-th level
array substrate row driving unit, and the (n+1)-th level signal input of the n-th level array substrate row driving unit and
the (n+3)-th level signal input are configured to be dangling.

US Pat. No. 9,330,627

SELF-ADAPTIVE MULTI-REGION COMMON VOLTAGE REGULATION SYSTEM AND METHOD

SHENZHEN CHINA STAR OPTOE...

1. A system of self-adaptively adjusting Multi-area common voltage, comprising:
a plurality of photosensitive devices, arranged near different areas of a display panel, for sensing luminous quantity from
the different areas so as to obtain and transmit flicker values corresponding to the different areas;

a multiplexing element, connected with the plurality of photosensitive devices, for receiving the flicker values transmitted
by the plurality of photosensitive devices and transmitting one of the flicker values at one moment;

a calculation and comparison unit, for continuously receiving the flicker values which are sensed by the plurality of photosensitive
devices and transmitted by the multiplexing element in a time sequence, calculating actual display condition determined by
the plurality of flicker values, and comparing the actual display condition with an optimal display condition, so as to judge
whether the optimal display condition is met or not; and

a common voltage adjusting and outputting unit, connected with the calculation and comparison unit, for adjusting the value
of the current output common voltage if the optimal display condition is not met, and remaining the value of the current output
common voltage unchanged if the optimal display condition is met;

wherein different areas of the display panel are assigned different weights, and the actual display condition determined by
the plurality of flicker values is calculated according to the weights,

wherein the actual display condition is calculated according to the following equation:

wherein J represents the display condition, Wi represents the weight of area i, FLICKERi represents the flicker value corresponding to area i, and M represents the number of the areas formed by dividing the display
panel.

US Pat. No. 9,280,009

DOUBLE-SIDED CURVED LIQUID CRYSTAL DISPLAY DEVICE

Shenzhen China Star Optoe...

1. A double-sided curved liquid crystal display device, comprising: a backlight frame, first and second LED light sources
that are mounted in the backlight frame and are opposite to each other, first and second diffuser plates that are mounted
in the backlight frame and are opposite to each other, first and second mold frames that are mounted on the backlight frame
and are opposite to each other, first and second curved liquid crystal display panels that are respectively mounted to the
first and second mold frames and are opposite to each other, and a bezel that is mounted to the first and second curved liquid
crystal display panels, the first LED light source facing one side of the backlight frame, the second LED light source facing
an opposite side of the backlight frame, the backlight frame comprising a backplane brace, a backplane mounted to the backplane
brace, and a backplane mounting strip mounted to the side of the backplane that is away from the backplane brace, the first
and second diffuser plates being planar, the first and second curved liquid crystal display panels being curved in the same
direction or in different directions.

US Pat. No. 9,276,225

ELECTROLUMINESCENT DIODE DEVICE

SHENZHEN CHINA STAR OPTOE...

1. An electroluminescent diode device, comprising a transparent flexible substrate which is successively disposed with a first-protective
layer, an anode, a hole transport layer, a UV light emitting layer, a hole blocking layer, an electron transport layer, and
a cathode thereon,
wherein
the UV light emitting layer comprises a UV light emitting material which is at least one selected from the group consisting
of fluorenes, triphenylamines, and quinquephenyls, and

the UV light emitting material comprises a structure as shown in Formula I which contains carbazole, or a structure as shown
in Formula II which contains quinquephenyl,


US Pat. No. 9,632,383

FRINGE FIELD SWITCHING (FFS) TYPE TFT-LCD STRUCTURE AND MANUFACTURING METHOD

Shenzhen China Star Optoe...

1. A method for fabricating a fringe field switching (FFS) display type thin-film transistor array substrate, comprising:
forming a common electrode, a gate electrode and a first pixel electrode on a substrate by a first mask process;
forming an active layer and a second pixel electrode by a second mask process; wherein a gate insulator is disposed between
the active layer, the second pixel electrode and the common electrode, the gate electrode, the first pixel electrode; and

forming a drain electrode and a source electrode by a third mask process.

US Pat. No. 9,208,705

HEAT SINK AND BACKLIGHT MODULE USING SAME

Shenzhen China Star Optoe...

1. A heat sink, comprising a first bottom plate, a first side plate formed on the first bottom plate, and a second bottom
plate mounted on the first bottom plate, the first bottom plate and the first side plate being integrally formed together,
the second bottom plate comprising a flat plate portion from which an edge portion extends flatly to be positioned on and
fixed by screws to an end of the first bottom plate that is distant from the first side plate so that the second bottom plate
is supported on the first bottom plate in such a way that the edge portion contacts and is shielded by the end of the first
bottom plate and the flat plate portion of the second bottom plate is away from and completely outside the end of the first
bottom plate for contacting air without being shielded so as to help dissipate heat therefrom to the outside, the first bottom
plate being made of aluminum extrusion material and having an outside surface on which a radiation heat dissipation material
that is different from the aluminum extrusion material of the first bottom plate is formed and attached thereto so as to help
dissipate heat from the first bottom plate to the outside, the second bottom plate being made of aluminum sheet material.

US Pat. No. 9,298,037

SUNLIGHT COLLECTING DEVICE AND LIQUID CRYSTAL DISPLAY USING SUNLIGHT AS A BACKLIGHT SOURCE

SHENZHEN CHINA STAR OPTOE...

1. A liquid crystal display (LCD) using sunlight as a backlight source, comprising a display panel and a backlight module
providing uniform light for the display panel, the LCD further comprising:
a sunlight collecting device, which is coupled to the backlight module via an optical fiber, utilized to provide the backlight
source for the backlight module, the sunlight collecting device comprising:

a lens substrate having a plurality of circular openings;
a plurality of Fresnel lenses corresponding to the circular openings and disposed on the lens substrate, the Fresnel lenses
having an identical focal length for focusing the sunlight;

a connector substrate disposed parallel to the lens substrate and away from the lens substrate with the focal length;
a plurality of optical fiber connectors adjustably disposed on the connector substrate for making the focused sunlight be
coupled into the optical fiber;

a light-tracking substrate disposed between the lens substrate and the connector substrate, the light-tracking substrate having
a plurality of hollow openings such that the focused sunlight can pass through the light-tracking substrate, the light-tracking
substrate utilized to simultaneously rotate the lens substrate and the connector substrate such that the Fresnel lenses are
directly opposite to the sunlight; and

a sunlight-tracking controller coupled to the light-tracking substrate, utilized to drive the light-tracking substrate for
simultaneously rotating the lens substrate and the connector substrate.

US Pat. No. 9,287,108

PRE-CLEANING METHOD AND PREPARATION METHOD OF LOW-TEMPERATURE POLYSILICON THIN FILM, LIQUID CRYSTAL DISPLAY DEVICE, AND MANUFACTURING SYSTEM THEREOF

Shenzhen China Star Optoe...

1. A preparation method of low-temperature polysilicon thin film, which comprises:
step 1: growing a buffer layer and then an amorphous silicon layer on the substrate;
step 2: heating up an amorphous silicon layer to reach a temperature higher than room temperature, and performing pre-cleaning
on the amorphous silicon layer, wherein the amorphous silicon layer comprises a first part of relatively greater thickness
and a second part of relatively smaller thickness, the temperature for the first part is higher than the temperature for the
second part, and the temperature of the amorphous silicon layer is 25°-40°; and

step 3: using excimer laser annealing (ELA) to radiate on the pre-cleaned amorphous silicon layer in step 2 to transform the
amorphous silicon into polysilicon.

US Pat. No. 9,274,362

CURVED LIQUID CRYSTAL DISPLAY DEVICE

Shenzhen China Star Optoe...

1. A curved liquid crystal display device, comprising: a backlight module, a mold frame mounted on the backlight module, a
liquid crystal display panel arranged on the mold frame, and a front bezel arranged on the liquid crystal display panel, the
backlight module comprising a backplane, a curved light guide plate arranged in the backplane, a backlight source arranged
in the backplane, and a heat dissipation board receiving the backlight source mounted thereon, the heat dissipation board
comprising a bracket section and a mount section that is connected, in an inclined manner, to the bracket section, the bracket
section being mounted to the backplane, the backlight source being mounted to the mount section, the front bezel comprising
a front plate and a side plate connected to the front plate and inclined with respect to the mount section of the heat dissipation
board with a gap having a wedge-shaped cross section defined between the side plate and the mount section, the side plate
comprising an inside surface facing an outside surface of the mount section of the heat dissipation board and a coupling section
that is raised from the inside surface and projects towards the outside surface of the mount section to define an end face
that is spaced from the inside surface of the side plate and corresponds to and is in contact engagement with the outside
surface of the mount section, the coupling section being coupled to the mount section through the end face in surface contact
with the outside surface of the mount section so as to couple the front bezel and the heat dissipation board together.

US Pat. No. 9,280,940

LIQUID CRYSTAL DISPLAY DEVICE, FOUR-COLOR CONVERTER, AND CONVERSION METHOD FOR CONVERTING RGB DATA TO RGBW DATA

Shenzhen China Star Optoe...

1. A liquid crystal display device, comprising:
a four-color converter for converting an original red-green-blue (RGB) data having three data of the three colors into three
grayscale values of the three colors, executing a white balance process to the three grayscale values of the three colors,
and confirming maximum and minimum values of the three white-balanced grayscale values of the three colors, wherein, when
the minimum value is greater than 0, determining that if the three data of the original RGB data are equal, and when the three
data of the original RGB data are equal, utilizing a following formula 1 to calculate output grayscale values of four colors
in a red-green-blue-white (RGBW) data required to be displayed,

Wo=Bi;
Ro=Ri×Wo/MAX(Ri,Gi,Bi)+Ri?Wo;
Go=Gi×Wo/MAX(Ri,Gi,Bi)+Gi?Wo;
Bo=0;  [formula 1]

wherein, Ro represents the output grayscale value of the red color in the RGBW data required to be displayed; Go represents
the output grayscale value of the green color in the RGBW data required to be displayed; Bo represents the output grayscale
value of the blue color in the RGBW data required to be displayed; Wo represents the output grayscale value of the white color
in the RGBW data required to be displayed; the MAX (Ri, Gi, Bi) represents the maximum value of the white-balanced grayscale
values of the three colors; Ri represents the white-balanced grayscale value of the red color; Gi represents the white-balanced
grayscale value of the green color; and Bi represents the white-balanced grayscale value of the blue color,

a data driver configured for processing the RGBW data provided by the four-color converter in order to generate analog type
data signals;

a scanning driver configured for sequentially generating scanning signals; and
a liquid crystal panel for displaying colors by the analog type data signals provided by the data driver and the scanning
signals provided by the scanning driver.

US Pat. No. 9,239,154

COMBINED BACK PLATE AND ASSEMBLY METHOD THEREOF AND BACKLIGHT MODULE USING THE SAME

SHENZHEN CHINA STAR OPTOE...

1. A combined back plate, comprising: a frame formed by a plurality of frame strips each provided with slots, and a plurality
of plugboards each provided with bending walls, wherein each bending wall is engaged with a corresponding one of the slots
in a shape matching manner, so that the plurality of plugboards are mountable in the frame to form the combined back plate;
wherein:
each frame strip has an L-shaped cross section, each bending wall is L-shaped,
a size of a transverse extending portion of each L-shaped frame strip is smaller than that of a transverse extending portion
of a corresponding one of the L-shaped bending walls, and

a vertical extending portion of each L-shaped bending wall of the corresponding plugboard is provided with a plurality of
first fixing holes, and second fixing holes corresponding to the first fixing holes are formed in the corresponding L-shaped
frame strip.

US Pat. No. 9,743,499

DIMMING CIRCUIT FOR LED

SHENZHEN CHINA STAR OPTOE...

1. A LED dimming circuit, configured to control a plurality of LED strings to light up at different moment in a cycle, comprising:
several sets of LED string connected in parallel respectively;
driving circuits coupled to said LED strings to drive them to light up;
control circuits coupled to said driving circuits to control the LED series to light up by inputting pulse width modulated
signals (PWM dimming signal) to said driving circuits;

wherein each of said control circuits comprises a voltage comparator and a delay circuit, said voltage comparator is coupled
between said delay circuit and said driving circuit, each said delay circuit and each said driving circuit are connected in
series thereof, said delay circuit converts said PWM dimming signal to a delay signal, and then said voltage comparator converts
a sine wave signal of said delay signal to a square wave or a rectangular wave signal, which is transferred to said driving
circuit to sequentially light up said corresponding LED strings, wherein an output end of a previous voltage comparator is
connected in series with its next delay circuit in two adjacent control circuits, therefore to transfer the delay signal output
from the previous set to be delayed again.

US Pat. No. 9,214,483

THIN-FILM-TRANSISTOR ARRAY SUBSTRATE AND MANUFACTURING METHOD THEREOF

SHENZHEN CHINA STAR OPTOE...

1. A manufacturing method of a thin-film-transistor array substrate, comprising steps of:
forming a scan-signal line and a compensation electrode on a substrate, wherein the scan-signal line has a first side, a second
side opposite to the first side and an opening, and the opening extends to the first side; the compensation electrode extends
from the second side of the scan-signal line, and an area of the compensation electrode is equal to an area of the opening;

forming a first isolation layer on the scan-signal line;
forming a semiconductor layer on the first isolation layer, wherein the semiconductor layer is disposed in a position corresponding
to the opening; and

forming a data-signal line, a drain electrode and a source electrode so that a thin-film transistor is formed with a gate
electrode, the semiconductor layer, the drain electrode and the source electrode, and a distance between the compensation
electrode and the data-signal line is more than 3.5 micrometers, wherein the gate electrode is a portion of the scan-signal
line having the opening; the data-signal line and the scan-signal line are isolatedly crossed with each other; the drain electrode
is disposed on the semiconductor layer and corresponds to the opening of the scan-signal line; the source electrode extends
from a side of the data-signal line, is disposed on the semiconductor layer and surrounds the drain electrode and the opening
of the gate electrode along an edge of the semiconductor layer.

US Pat. No. 9,268,184

SUB-PIXEL STRUCTURE, LIQUID CRYSTAL DISPLAY DEVICE AND METHOD FOR REDUCING COLOUR SHIFT

SHENZHEN CHINA STAR OPTOE...

1. A sub-pixel structure comprising a main area, a sub area, a signal wire, a voltage dividing unit and a common wire,
wherein, the signal wire is connected to the main area and is connected to the sub area via the voltage dividing unit; the
signal wire respectively provides different driving voltages for the main area and the sub area for reducing color shift of
a liquid crystal display device;

the common wire has a common voltage Vcom;
the voltage dividing unit includes a first voltage dividing unit and a second voltage dividing unit, the first voltage dividing
unit is respectively connected to the signal wire and the sub area, one end of the second voltage dividing unit is connected
to the first voltage dividing unit and the sub area, the other end of the second voltage dividing unit is connected to the
common wire;

an equivalent resistance of the first voltage dividing unit is r1, an equivalent resistance of the second voltage dividing
unit is r2, the signal wire provides a first driving voltage V1 to the main area, and after the voltage V1 being divided by
the first voltage dividing unit and the second voltage dividing unit, the signal wire provides a second driving voltage V2
to the sub area; and

the first driving voltage V1, the second driving voltage V2 and the common voltage Vcom meet following formula:
V2=r2(V1?Vcom)/(r1+r2)+Vcom.

US Pat. No. 9,268,349

CIRCUIT AND METHOD FOR OPTIMIZING INPUT VOLTAGE RANGE OF IC CHIP

SHENZHEN CHINA STAR OPTOE...

1. A circuit for optimizing an input voltage range of an IC chip, comprising:
a pull-up unit, an input end thereof electrically connected with an input voltage, for pulling up a voltage level of an output
end thereof based on the input voltage;

a trigger unit, electrically connected between the pull-up unit and an enabling end of the IC chip, for comparing the voltage
level output by the pull-up unit with a given threshold voltage, and outputting an enabling signal of a corresponding level
to the enabling end of the IC chip based on the comparison result, so as to control the IC chip to start/stop; and

a voltage stabilizing unit, a first input end of which is electrically connected to the output end of the pull-up unit, a
second input end of which is electrically connected to the output end of the trigger unit, and an output end of which is electrically
connected to a control end of the pull-up unit, for outputting a voltage of a corresponding level to the pull-up unit based
on the voltages output by the pull-up unit and the trigger unit, so that the voltage level output by the pull-up unit is higher
than or equal to the threshold voltage and thereby the IC chip starts operation, or so that the voltage level output by the
pull-up unit is maintained to be higher than or equal to the threshold voltage and thereby the operation of the IC chip is
not affected by variations of the input voltage;

wherein:
the pull-up unit includes a P-type switching transistor, a pull-up resistor and a voltage dividing resistor,
the source of the P-type switching transistor is electrically connected to a first end of the pull-up resistor, and used as
the input end of the pull-up unit to receive the input voltage,

the drain of the P-type switching transistor is used as the output end of the pull-up unit, and electrically grounded via
the voltage dividing resistor,

the gate of the P-type switching transistor is used as the control end of the pull-up unit, and electrically connected to
a second end of the pull-up resistor,

the trigger unit includes a Schmitt trigger and an inverter connected in series, and
an input end of the Schmitt trigger is used as the input end of the trigger unit and electrically connected to the output
end of the pull-up unit, and an output end of the inverter is used as the output end of the trigger unit and electrically
connected to the enabling end of the IC chip.

US Pat. No. 9,115,308

LIQUID CRYSTAL MEDIUM COMPOSITION OF LIQUID CRYSTAL DISPLAY

Shenzhen China Star Optoe...

1. A liquid crystal medium composition of liquid crystal display, comprising: a negative liquid crystal material, reactive
monomer, an initiator, and a stabilizer, the initiator functioning to induce photo polymerization of the reactive monomer,
wherein the initiator has at least one of the following structural formulas:

US Pat. No. 9,286,835

DRIVING CIRCUIT AND DRIVING METHOD FOR LIGHT EMITTING DIODE AND DISPLAY APPARATUS USING THE SAME

SHENZHEN CHINA STAR OPTOE...

1. A driving circuit for driving a plurality of light-emitting diodes (LEDs), comprising:
a power switch connected to the light-emitting diodes;
a resist connected to the power switch and electrically connected to ground; and
a dimmer circuit connected to the power switch, wherein the dimmer circuit comprises a multiplier configured to multiply a
pulse width modulation (PWM) dimming signal and a high frequency dimming signal, so as to provide a driving signal to the
power switch, and the high frequency dimming signal is obtained by transforming an image signal of a display panel;

wherein the power switch is a transistor, and a drain electrode of the power switch is connected to the LEDs, and a source
electrode of the power switch is electrically connected to the resist, and a gate electrode of the power switch is connected
to the dimmer circuit;

wherein a frequency of the high frequency dimming signal is two times higher than a frequency of the PWM dimming signal.

US Pat. No. 9,256,024

BACKLIGHT MODULE

Shenzhen China Star Optoe...

1. A backlight module, comprising: a backplane and a light guide plate, a backlight source, a mounting bracket, a quantum
dot rail, a heat isolation member mounted in the backplane, the quantum dot rail being mounted through the mounting bracket
between the light guide plate and the backlight source, the mounting bracket being made of an aluminum material, the heat
isolation member being arranged between the quantum dot rail and the mounting bracket;
wherein the mounting bracket comprises a heat dissipation frame and a support frame mounted to the heat dissipation frame,
the backlight source being mounted to the heat dissipation frame, the quantum dot rail being mounted to the support frame;
and

wherein the support frame comprises a connection section and a mounting section perpendicularly connected to the connection
section, the connection section being mounted to the heat dissipation frame, the quantum dot rail being mounted to the mounting
section.

US Pat. No. 9,545,012

METHOD OF MAKING A BACKLIGHT MODULE FOR A PRINTED CIRCUIT BOARD

Shenzhen China Star Optoe...

1. A manufacturing method for a printed circuit board of a backlight module, wherein the printed circuit board comprising
an aluminum layer on which a dielectric layer having a predetermined thickness is formed, the dielectric layer comprising
a surface on which a conductive layer is formed, the method comprising the following steps:
(1) etching and patterning the conductive layer on a light bar region of the circuit board on which a light bar is mounted
to form a conductive circuit for supplying power to the light bar and etching the conductive layer on a heat dissipating region
of the circuit board used for heat dissipation to remove at least a part of the conductive layer of the heat dissipating region
of the circuit board; and

(2) cutting a connection location between the light bar region and the heat dissipating region to form a cutting slot, wherein
the cutting slot is extended partly into the thickness of the dielectric layer in such a way as not to reach the aluminum
layer in order to completely separate and isolate the conductive layer of the light bar region from the conductive layer of
the heat dissipating region to prevent short-circuiting between the heat dissipating region and the conductive circuit of
the light bar region;

wherein the printed circuit board has an L-shaped configuration having a first portion comprising the light bar region and
a part of the heat dissipating region and a second portion adapted to be fixed to an external fixture for supporting the light
bar mounted to the light bar region in position.

US Pat. No. 9,967,992

PCB FIXING MECHANISM AND LIQUID CRYSTAL DISPLAY DEVICE

SHENZHEN CHINA STAR OPTOE...

1. A printed circuit board (PCB) fixing mechanism, comprising a back plate, a PCB mounted on back plate, annular conducting foam binding the PCB, a conductive adhesive located between the annular conducting foam and the back plate, a PCB hood to covering the PCB at an upper side of the back plate;wherein the annular conducting foam is bonded to the back plate with the conductive adhesive, and the PCB fit in the annular conducting foam is fixed on the back plate;
the PCB comprises a grounding region, the annular conducting foam and the PCB grounding region of the PCB are electrically connected; and
a gap between a top of the PCB hood and the PCB is less than a thickness of a portion of the annular conducting foam that is located between the PCB hood and the PCB in an un compressed condition, such that the PCB grounding is enhanced by compressing the annular conducting foam with the PCB hood.

US Pat. No. 9,263,483

ARRAY PANEL AND MANUFACTURING METHOD FOR THE SAME

SHENZHEN CHINA STAR OPTOE...

1. An array panel, comprising:
a substrate;
at least one scanning line;
at least one data line; and
a pixel array comprising at least one pixel unit, the at least one pixel unit comprising:
a thin film transistor;
a pixel electrode; and
a color filter layer disposed between a first plane and a second plane,
wherein the first plane is a plane in which a gate electrode of the thin film transistor is located,
and the second plane is a plane in which the pixel electrode is located,
wherein the scanning line, the data line, and the pixel array are disposed on the substrate, the color filter layer is disposed
on a first area and a second area, the first area and the second area respectively are areas on the substrate corresponding
to the pixel electrode and the thin film transistor, there is at least one groove on a surface of the color filter layer,
a shape of the groove corresponds to a shape of the pixel electrode, and the pixel electrode is disposed in the groove; and

wherein a transparent conductive material is deposited on the surface of the color filter layer and deposited in the groove
of the color filter layer, and then the transparent conductive material on the surface is removed to obtain the pixel electrode.

US Pat. No. 9,146,409

LCD, ARRAY SUBSTRATE OF LCD AND METHOD FOR REPAIRING BROKEN LINE

SHENZHEN CHINA STAR OPTOE...

1. A liquid crystal display (LCD), comprising an array substrate and a timing controller, the array substrate comprising a
plurality of scan lines, the timing controller being configured to output a timing signal for controlling a scanning signal
to scan the scan lines one by one, the LCD further comprising:
a detection line located on the array substrate and overlapped with the scan lines without electrically connecting to the
scan lines, being adapted to connect a nth last non-defective scan line preceding a broken line to a repairing IC so that
when the scanning signal scans the nth last non-defective scan line preceding the broken line, the scanning signal is transmitted
to a repairing IC;

the repairing IC, being connected to the timing controller and configured to obtain a time T1 necessary for the scanning signal to scan an adjacent scanning line and output a repairing signal at a time T=n*T1 after the scanning signal has been received; and

a repairing line located on the array substrate and overlapped with the scan lines, being adapted to connect the broken line
to the repairing IC so that the repairing signal is transmitted to the broken line to repair the broken line.

US Pat. No. 9,127,198

MIXTURE FOR LIQUID CRYSTAL MEDIUM AND LIQUID CRYSTAL DISPLAY USING THE SAME

Shenzhen China Star Optoe...

1. A mixture for liquid crystal medium comprising: at least one anisotropic liquid crystal material and two polymerizable
monomers which will polymerize under UV irradiation, the anisotropic liquid crystal material comprising an alkenyl compound
which is stable to the polymerization reaction during the polymerization of the polymerizable monomers, the molar ratio between
the two polymerizable monomers in the mixture for liquid crystal medium being 1:5, the weight percentage of the polymerizable
monomers accounting for 0.1% to 1% of the total mixture for liquid crystal medium; the structural formulas of the anisotropic
liquid crystal material being selected from the following structural formulas:

wherein, R represents the straight chain or branched chain alkyl containing number of carbon atoms from 1 to 9, one or more
non-adjacent methyl groups or methylene groups of the alkyl may be replaced by oxygen or sulfur atom; the weight percentage
of the anisotropic liquid crystal material accounts for 20% to 90% of the total mixture for the liquid crystal medium;

the structural formulas of the two polymerizable monomers defined by the following structural formula, the number of groups
is different when the structural formulas of the two polymerizable monomers are the same:


wherein, in formula IV, P represents the polymerizable group, which is selected from the group consisting of a methacrylate
group, an acrylate group, a vinyl group, an ethylene group, and an epoxy group; n represents the number of the polymerizable
groups Ps connected to the same aromatic ring, n represents an integer from 1 to 3, if n is greater than 1, the polymerizable
groups may be the same or different;

X represents substituent group, which is selected from the group consisting of —F, —Cl, —Br, methyl, —CN, and straight chain
or branched chain alkyl containing number of carbon atoms from 2 to 8, one or more non-adjacent methyl groups of the alkyl
may be replaced by oxygen or sulfur atom; m represents the number of the substituent groups connected to the same aromatic
ring, m represents an integer from 1 to 3, if m is greater than 1, the substituent groups may be the same or different;

in formula IV, Z is selected from the group consisting of —O—, —COO—, —OCO—, —CH2O—, —OCH2O—, —O(CH2)2O, —COCH2—, methylene, —C?C—,


US Pat. No. 9,304,244

LIGHT GUIDE PLATE, BACKLIGHT MODULE, AND LIQUID CRYSTAL DISPLAY DEVICE

Shenzhen China Star Optoe...

1. A light guide plate, comprising a light exit surface, a light guide plate bottom surface, and at least one light incidence
surface, the light exit surface and the light guide plate bottom surface being opposite to each other, the light incidence
surface being connected to the light exit surface and the light guide plate bottom surface, the light guide plate being of
a wedge configuration, the light guide plate having an end that is close to the light incidence surface and has a thickness
greater than a thickness of an end thereof distant from the light incidence surface, the light guide plate further comprising
a hollow wedge cavity, the hollow wedge cavity comprising a hollow wedge cavity bottom surface that is adjacent to the light
guide plate bottom surface, the hollow wedge cavity of the light guide plate receiving therein a reflector plate, the reflector
plate being laminated on the hollow wedge cavity bottom surface, the reflector plate having a surface facing the light exit
surface and comprising reflection projections formed thereon.

US Pat. No. 9,228,755

VENT AND COVER PLATE ASSEMBLY FOR DUST-FREE WORKSHOP FLOOR

SHENZHEN CHINA STAR OPTOE...

1. A vent and cover plate assembly for a dust-free workshop floor, comprising a plurality of vents arranged on the dust-free
workshop floor and cover plates that are each associated with a corresponding vent,
wherein the vents each include a hole and clamping slots arranged at an outer periphery of the hole, and the cover plates
each include a cover body and clamping feet arranged at an outer periphery of the cover body,

wherein the cover body engages with the hole, and the clamping feet engage with respective clamping slots,
wherein a retaining groove is arranged in the middle of the clamping slot and a projection which can fit into the groove is
arranged on a mounting surface of the clamping foot, so that the engagement of the retaining groove and the projection during
mounting can restrict the circumferential rotation of the cover plate, and

wherein the projection has a thickness smaller than the depth of the retaining groove.

US Pat. No. 9,188,309

DIRECT TYPE BACKLIGHT MODULE STRUCTURE

SHENZHEN CHINA STAR OPTOE...

1. A direct type backlight module structure, comprising:
a light casing having a first height, wherein the light casing comprises a base plate;
a reflection device disposed on the base plate, wherein the reflection device comprises a plurality of curved structural units,
wherein each of the curved structural units is bent to form a second height and a middle base, and each of the curved structural
units is configured at a predetermined spacing therebetween to be disposed on the base plate; and

a plurality of light sources disposed on the reflection device, wherein each of the light sources is configured at the predetermined
spacing, and the predetermined spacing is larger than the first height of the light casing;

wherein each of the light sources is disposed on the intermediate base of each of the curved structural units of the reflection
device to allow an emitted light of each of the light sources to pass through a surface of each of the curved structural units
to form uniformly distributed reflection light;

wherein each of the curved structural units comprises a mean curvature, by adjusting the second height and the mean curvature
of each of the curved structural units to allow the light emitted from each of the light sources to pass through the surface
of each of the curved structural units for forming uniformly the distributed reflection light.

US Pat. No. 9,352,900

SUPPORT FRAME FOR PACKAGING LIQUID CRYSTAL GLASS PANEL

SHENZHEN CHINA STAR OPTOE...

1. A support frame adapted to receive and package a pile of liquid crystal glass panels that are stacked in a vertical direction,
the pile of liquid crystal glass panels having a top surface, a bottom surface opposite to the top surface, and four side
surfaces extending in the vertical direction between the top surface and the bottom surface and defining a horizontal cross-section
that is identical in the vertical direction from the bottom surface to the top surface, the support frame comprising: four
separate corner pieces, a plurality of upper connection bars, and a plurality of lower connection bars,
wherein the plurality of upper connection bars are connected to the four corner pieces to form an upper sub-frame that delimits
and defines an upper hollow area corresponding in shape and size to the cross-section of the pile of liquid crystal glass
panels to receive the pile of liquid crystal glass panels to move straight therethrough in the vertical direction;

wherein the plurality of lower connection bars are connected to the four corner pieces to form a bottom bracket, which comprises
a lower sub-frame and a carriage rack, the lower sub-frame being arranged to correspond to the upper sub-frame and delimiting
and defining a lower hollow area corresponding, in the vertical direction, to the upper hollow area and corresponding in shape
and size to the cross-section of the pile of liquid crystal glass panels, the carriage rack being connected to the lower sub-frame
and located in the lower hollow area delimited by the lower sub-frame;

wherein each of the corner pieces comprises two side plates connected to each other and each extending between and connected
to the upper sub-frame and the lower sub-frame, the side plates of the corner pieces and the upper and lower sub-frames collectively
defining a hollow volume having an upper opening formed by the upper hollow area delimited by the upper sub-frame, the hollow
volume having a horizontal cross-sectional area corresponding to the horizontal cross-section of the pile of the liquid crystal
glass panels in order to receive the pile of the liquid crystal glass panels into the hollow volume in such a way that the
side surfaces of the pile of the liquid crystal glass panels are in engagement with the side plates of the corner pieces to
guide the movement of the pile of liquid crystal glass panels through the upper hollow area into the hollow volume to reach
a predetermined location inside the hollow volume, each of the corner pieces further comprising a bottom plate extending from
the side plates into the lower hollow area delimited by the lower sub-frame and partly covering a lower opening of the hollow
volume such that at the predetermined location, the bottom surface of the pile of liquid crystal glass panels are positioned
on and supported by the bottom plate and the side surfaces of the pile of liquid crystal glass panels maintain in engagement
with the side plates of the corner pieces to retain the pile of liquid crystal glass panels in position; and

wherein the bottom plates of the corner pieces and the carriage rack collectively define a plane adapted to support the bottom
surface of the pile of liquid crystal glass panels thereon and retain the liquid crystal glass panels in the hollow volume.

US Pat. No. 9,265,133

STATIC ELIMINATION DEVICE AND A CASSETTE

Shenzhen China Star Optoe...

1. A static elimination device, for eliminating static electricity on a surface of a large-size glass substrate, comprising:
a rotation axis, disposed outside a cassette of the glass substrate;
an electrostatic neutralizer, permanently connected to the rotation axis;
the rotation axis driven to rotate, causing the electrostatic neutralizer centered on the rotation axis to rotate back and
forth at a specific angle;

a fixation axis, installed at one side of the rotation axis and parallel to the rotation axis;
a telescopic device, comprising two terminals, the one terminal permanently connected to the fixation axis, the other terminal
rotatably connected to the rotation axis, and a horizontal direction between the fixation axis and the rotation axis parallel
to a direction along the telescopic device; and

a short lever, comprising two terminals, the one terminal permanently connected to the rotation axis, and the other terminal
permanently connected to the electrostatic neutralizer.

US Pat. No. 9,104,069

BACKLIGHT MODULE AND LIQUID CRYSTAL DISPLAY DEVICE USING THE SAME

SHENZHEN CHINA STAR OPTOE...

1. A backlight module, comprising:
a back plate, having at least one side; and
a backlight unit, comprising an optical plate and an optical film;
wherein the at least one side has a surface, the surface is disposed with a supporting member, the supporting member includes
a horizontal portion and a vertical portion extended from the horizontal portion, the vertical portion includes a plane surface
and a protruding piece, the plane surface supports the optical plate, the protruding piece positions the optical film, the
horizontal portion is fixed on the surface by a screw member or soldering, and the at least one side of the back plate is
an aluminum sheet.

US Pat. No. 9,591,712

OVERVOLTAGE PROTECTION CIRCUIT, LED BACKLIGHT DRIVING CIRCUIT AND LCD

Shenzhen China Star Optoe...

1. A light emitting diode (LED) backlight driving circuit, comprising:
a voltage boost circuit, for boosting an input voltage into an output voltage in need and providing the output voltage to
an LED string;

a voltage control module, for controlling the voltage boost circuit to boost an input voltage into an output voltage in need
and providing the output voltage to an LED string and to drive the LED string in a constant current;

an overvoltage protection module, for monitoring a voltage of a positive terminal of the LED string and for generating a control
signal based on the voltage of the positive terminal of the LED string and a predetermined overvoltage, the control signal
being used to control the voltage control module to enable or disable; and

an overvoltage adjusting module, for monitoring an operation voltage of the LED string to generate an adjustment signal according
to the operation voltage, the adjustment signal being used for adjusting an overvoltage in the overvoltage protection module,

wherein the overvoltage protection module generates a first control signal to control the voltage control module to enable
if the overvoltage protection module monitors that the voltage of the positive terminal in the LED string is under the overvoltage
of the overvoltage protection module, and the overvoltage protection module generates a second control signal to control the
voltage control module to disable if the overvoltage protection module monitors that the voltage of the positive terminal
in the LED string is over the overvoltage of the overvoltage protection module,

wherein if the overvoltage adjusting module monitors the operation voltage in the LED string is under a standard value, the
overvoltage adjusting module generates a first adjustment signal, and the overvoltage protection module decreases the overvoltage
according to the first adjustment signal, and if the overvoltage adjusting module monitors the operation voltage in the LED
string is over the standard value, the overvoltage adjusting module generates a second adjustment signal, and the overvoltage
protection module augments overvoltage according to the second adjustment signal,

wherein the overvoltage protection module comprises an adjustment circuit for adjusting overvoltage according to an adjustment
signal from the overvoltage adjusting module, and a protection circuit for monitoring and comparing a voltage of the positive
terminal of the LED string with the overvoltage to generate a control signal coupling to the voltage control module,

wherein the adjustment circuit comprises a first voltage regulator, a second voltage regulator, a third voltage regulator,
a first field-effect transistor, a second field-effect transistor, a third field-effect transistor and a third resistor;

wherein the first voltage regulator, the second voltage regulator and the third voltage regulator are in electrical series,
a cathode of the first voltage regulator is coupled to the protection circuit, an anode of the third voltage regulator is
grounded;

gates of the first and the second field-effect transistors are respectively coupled to the overvoltage adjusting module, the
adjustment signal from the overvoltage adjusting module controls the first field-effect transistor and the second field-effect
transistor to turn on or off, a drain of the first field-effect transistor is coupled to a cathode of the first voltage regulator,
a drain of the second field-effect transistor is coupled to a gate of the third field-effect transistor and then coupled to
a third reference voltage through the third resistor, a drain of the third field-effect transistor is coupled to an anode
of the second voltage regulator, sources of the first, the second and the third field-effect transistors are all grounded;
and

the protection circuit comprises a fourth resistor and a fourth field-effect transistor, one end of the fourth resistor is
coupled to a positive end of the LED string, the other end of the fourth resistor is coupled to a gate of the fourth field-effect
transistor and then coupled to the cathode of the first voltage regulator, a drain of the fourth field-effect transistor outputs
a control signal coupling to the voltage control module, and a source of the fourth field-effect transistor is grounded.

US Pat. No. 9,188,809

LIQUID CRYSTAL DISPLAY AND METHOD OF OPTICAL COMPENSATION THEREOF

SHENZHEN CHINA STAR OPTOE...

1. A liquid crystal display, a range of an optical path difference of liquid crystal LC?ND of the liquid crystal display at
a wavelength of 550 nm being 324.3 nm?LC?ND?342.8 nm, the liquid crystal display comprising:
a first substrate;
a second substrate;
a liquid crystal layer disposed between the first substrate and the second substrate;
a first polarizer film disposed on an outer side of the first substrate;
a second polarizer film disposed on an outer side of the second substrate;
a uniaxial positive birefringence A-Plate; and
a uniaxial negative birefringence C-Plate, the uniaxial positive birefringence A-Plate and the uniaxial negative birefringence
C-Plate being disposed between the first substrate and the first polarizer film or between the second substrate and the second
polarizer film;

wherein a value range of in-plane retardation Ro of the uniaxial positive birefringence A-Plate is taken as 92 nm?Ro?184 nm, a value range of retardation in a thickness direction Rth of the uniaxial positive birefringence A-Plate is taken as 46 nm?Rth?92 nm, a value range of retardation in a thickness direction Rth of the uniaxial negative birefringence C-Plate is taken as Y1?Rth?Y2, and Y1 and Y2 satisfy the following equations:

Y1=0.0000826x4?0.022868x3+2.4074x2?114.326x+2251.5;

Y2=?0.00006472x4+0.017705x3?1.8284x2+84.4843x?1181.17;

X is a value of the retardation in the thickness direction Rth of the uniaxial positive birefringence A-Plate.

US Pat. No. 9,134,018

BACKLIGHT MODULE FOR LIQUID CRYSTAL DISPLAY DEVICE AND METHOD FOR MAKING HEATSINK

Shenzhen China Star Optoe...

1. A method for making a heatsink device to be incorporated into a liquid crystal display device, the method comprising the
steps of:
(a) providing a hollowed tube having a substantially rectangular cross section, and the tube including a first supporting
portion, a second supporting portion, a first vertical section, and a second vertical section interlinked with each other;

(b) cutting the hollowed tube along the first and second vertical sections along a longitudinal direction such that first
heatsink unit configured with the first supporting portion and the first vertical section, and a second heatsink unit configured
with the second supporting portion and the second vertical section are created;

(c) providing a first rib on the first supporting portion in an area adjacent to the first vertical section and providing
a second rib on the second supporting portion in an area adjacent to the second vertical section, wherein the first and second
ribs extend beyond an inner surface of the first and second supporting portions; and

(d) grinding the first and second ribs so as to provide a top plateau thereof and cutting the first and second vertical sections
inline with the top plateau of the first and second ribs so as to create the first heatsink unit and second heatsink unit.

US Pat. No. 9,130,625

INTERFERENCE AVOIDANCE METHOD OF PULSE SIGNAL AND TERMINAL APPLICABLE THERETO

SHENZHEN CHINA STAR OPTOE...

1. An interference avoidance method of a pulse signal, comprising:
a pulse signal transmitting terminal splitting a to-be-transmitted pulse signal into two parallel pulse sub-signals according
to a preset splitting rule;

a pulse signal transmitting terminal transmitting the split two parallel pulse sub-signals to a pulse signal receiving terminal
in parallel;

the pulse signal receiving terminal receiving the two parallel pulse sub-signals from the pulse signal transmitting terminal
and synthesizing the two parallel pulse sub-signals using a subtraction synthesis method to restore the two parallel pulse
sub-signals to the to-be-transmitted pulse signal; and

the pulse signal receiving terminal implementing the restored to-be-transmitted pulse signal;
wherein the preset splitting rule comprises:
generating a first pulse sub-signal by adding a preset value to both a logic high level signal and a logic low level signal
of the to-be-transmitted pulse signal; and

generating a DC voltage signal which is parallel with the first pulse sub-signal and has an amplitude being equal to the preset
value accompanying with the first pulse sub-signal.

US Pat. No. 9,103,949

DIRECT-LIGHT BACKLIGHT MODULE WITH ASSISTING SOLAR LIGHT AND LIQUID CRYSTAL DISPLAY DEVICE

Shenzhen China Star Optoe...

1. A direct light backlight module with solar light assistance, including
a backboard;
a waveguide arranged on the backboard;
a direct light source comprising a plurality of light-emitting elements substantially uniformly distributed on the waveguide;
an optical film module disposed above the waveguide and having an incidental surface facing the plurality of light-emitting
elements to directly receive light emitted from the light-emitting elements of the direct light source; and

an assisting light source device, which is adapted to collect solar light and comprises a plurality of fiber optics each having
a light emitting end serving as an output of solar light mounted to the waveguide to directly face the incidental surface
of the optical film module and directly project the solar light to the incidental surface of the optical film module.

US Pat. No. 9,067,327

CUTTING DEVICE AND CUTTING METHOD OF A LIQUID CRYSTAL PANEL

SHENZHEN CHINA STAR OPTOE...

1. A cutting method of a liquid crystal panel, the liquid crystal panel comprising a first substrate and a second substrate
assembled together, characterized in that: the cutting method of the liquid crystal panel comprises the following steps:
providing a cutting device of the liquid crystal panel, the cutting device of the liquid crystal panel comprising a first
cutting portion and a second cutting portion, the second cutting portion including a support portion;

controlling the first cutting portion to contact the first substrate and start to cut the first substrate, and simultaneously
employing the support portion to support the first substrate;

controlling the second cutting portion to contact the second substrate and start to cut the second substrate, and stopping
the support portion supporting the first substrate.

US Pat. No. 10,152,929

LIQUID CRYSTAL PANELS AND THE DRIVING METHOD THEREOF

Shenzhen China Star Optoe...

1. A liquid crystal display panel, comprising:a plurality of storage electrodes, a plurality of scanning lines, a plurality of data lines, and a plurality of pixel areas arranged in a matrix defined by the scanning lines and the data lines, wherein each of the pixel areas comprises a pixel electrode, a first thin film transistor (TFT) and a second TFT,
wherein the first TFT is configured to drive the pixel electrode within the corresponding pixel area; and wherein in a pixel area defined by a m-th data line and a n-th scanning line, a gate of the first TFT thereof directly connects to the n-th scanning line, a source of the first TFT thereof directly connects to the m-th data line, and a drain of the first TFT thereof directly connects to the pixel electrode thereof, a gate of the second TFT thereof directly connects with a (n?1)-th scanning line previous to the n-th scanning line, wherein m and n are positive integers,
one of a source and a drain of the second TFT thereof directly connects to the corresponding pixel electrode same to what is directly connected to the drain of the first TFT, and the other of the source and the drain of the second TFT thereof directly connects with the bar-shaped storage electrodes arranged in a rim of the matrix,
wherein the storage electrodes comprises first storage electrodes and second storage electrodes, the first storage electrodes are parallel to the scanning lines respectively, and the second storage electrodes are parallel to the data lines respectively, the first storage electrodes intersect with the second storage electrodes, and the first storage electrodes are insulated from the second storage electrodes; each of the first storage electrodes correspond to a row of pixel areas, each of the second storage electrodes correspond to a column of pixel areas, and the source or the drain of the second TFT of each of the corresponding row of pixel areas or the source or the drain of the second TFT of each of the corresponding column of pixel area is all directly connected to a same first storage electrode or a same second storage electrode, wherein the number of the first storage electrodes is the same as the numbers of the second storage electrodes and the pixel electrodes, wherein a source of the first TFT directly connects to the corresponding data line, a drain of the first TFT directly connects to the corresponding pixel electrode, and wherein the liquid crystal display panel further comprises a gate driver and a data driver, the scanning lines connect with the gate driver, and the data lines connect with the data driver, the gate driver provides gate driving signals to the scanning lines in sequence to turn on the first TFT and the second TFT corresponding to the scanning lines, the data driver provides grayscale driving signals to the data lines such that the grayscale driving signals are applied to the pixel electrodes via the first TFT, and the grayscale driving signals applied to the pixel electrode is further applied to the storage electrode via the second TFT when the liquid crystal display panel displays a previous frame.

US Pat. No. 9,395,577

BACKLIGHT ASSEMBLY AND LIQUID CRYSTAL DISPLAY USING THE SAME

Shenzhen China Star Optoe...

1. A backlight assembly characterized in that the backlight assembly comprises: a light source, a conductive copper layer,
a dielectric layer, a metallic printed circuit board and a heat sink; the dielectric layer is attached to one side surface
of the metallic printed circuit board; the metallic printed circuit board is bent in an L-shape to form an inner bend side;
the light source, the conductive copper layer, the dielectric layer and the heat sink are mounted on the inner bend side of
the metallic printed circuit board; the light source and the heat sink are mounted respectively on two sides of the bent L-shaped
metallic printed circuit board; the conductive copper layer is mounted on the dielectric layer; the light source and the heat
sink are respectively connected to the conductive copper layer; surfaces of the heat sink that are not connected to the conductive
copper layer are coated with an insulating paint.

US Pat. No. 9,328,961

CRUCIBLE OF COATING MACHINE

Shenzhen China Star Optoe...

1. A crucible of a coating machine comprising:
a heat conduction device installed inside the crucible, and having
one or multiple radial metal wires or metal strips disposed along a radial direction of the crucible; and
one or multiple axial metal wires or metal strips disposed along an axial direction of the crucible;
wherein, the radial metal wires or metal strips are vertical to or substantially vertical to a main axis of the crucible,
and the axial metal wires or metal strips are parallel with or substantially parallel with the main axis of the crucible;

wherein, the multiple radial metal wires or metal strips form a planar honeycomb structure by at least two polygons at a radial
plane of the crucible; and

wherein, the planar honeycomb structure is disposed as at least two layers along the axial direction of the crucible, and
the multiple axial metal wires or metal strips are connected with intersections corresponding to each side of the polygons
of the two adjacent layers of the planar honeycomb structure in order to form a three-dimensional honeycomb structure.

US Pat. No. 9,310,635

CURVED LIQUID CRYSTAL DISPLAY DEVICE

Shenzhen China Star Optoe...

1. A curved liquid crystal display device, comprising a backlight module, a mold frame mounted on the backlight module, a
liquid crystal panel arranged on the mold frame, and a bezel that retains the liquid crystal panel on the mold frame, the
backlight module comprising a curved backplane and optical components arranged in the curved backplane, the curved backplane
comprising a bottom board and a bracing mounted to the bottom board, the bracing comprising a base, a pair of guide rails
mounted to the base, a screw rotatably mounted to the base, and a pair of slide blocks that are in engagement with the screw
and slidable along the guide rails, the bottom board comprising a pair of protrusions formed a surface thereof that is in
contact engagement with the slide blocks to correspond to the slide blocks, the pair of slide blocks being arranged to respectively
press against the pair of protrusions so as to cause deformation of the bottom board to form the curved backplane.

US Pat. No. 9,311,838

LIQUID CRYSTAL DISPLAY OF SWITCHING TO SHOW 2D/3D IMAGE

SHENZHEN CHINA STAR OPTOE...

1. A liquid crystal display (LCD) of switching to show 2D/3D image, comprising:
a scan line for sending a scan signal;
a data line for sending a grey level signal;
a plurality of pixel units on a first row for showing grey level according to the grey level signal;
a controlling signal generator for generating a first controlling signal, a second controlling signal, a third controlling
signal and a fourth controlling signal;

a first switch unit, electrically connected to the scan line and the pixel units on the first row, for conducting the scan
signal to the pixel units on the first row when receiving the first controlling signal;

a second switch unit, electrically connected to a constant voltage and the pixel units on the first row, for conducting the
constant voltage to the pixel units on the first row when receiving the second controlling signal;

a charge sharing switch, electrically connected between two pixels on the first row, for electrically connecting the two pixels
on the first row when receiving a charge sharing signal and turning on;

a third switch unit, electrically connected to the scan line and the charge sharing switch, for conducting the scan signal
to turn on the charge sharing switch when receiving the third controlling signal; and

a fourth switch unit, electrically connected to the constant voltage, for conducting the constant voltage to turn off the
charge sharing switch when receiving the fourth controlling signal.

US Pat. No. 9,111,940

REPAIRING METHOD, REPAIRING STRUCTURE, AND REPAIRING SYSTEM FOR DISCONNECTED DEFECT

SHENZHEN CHINA STAR OPTOE...

7. A repairing system for a disconnected defect, comprising:
a coating device for forming a first repairing line connecting two ends of a disconnected portion of a scanning line and a
second repairing line connecting two ends of a disconnected portion of a data line; and

an insulation layer forming device for forming an insulation layer for covering the first repairing line;
wherein the coating module comprises:
a coating unit for coating an insulation film; and
a forming unit for performing a photoresist-coating process, an exposing process, a developing process, an etching process,
and a photoresist-stripping process to the insulation film to form the insulation layer.

US Pat. No. 9,554,478

FRAME AND DISPLAY DEVICE USING SAME

SHENZHEN CHINA STAR OPTOE...

1. A frame comprising:
a plurality of side frames connected end to end to form an enclosed frame for accommodating a display panel; and
at least one rotating part;
wherein the side frame defines at least one cutout extending along a longitudinal direction of the side frame, the rotating
part is received in the cutout and is rotatably connected to the side frame via a rotating axis extending along the longitudinal
direction of the side frame relative to the side frame, the display panel is assembled in the enclosed frame via the rotating
part, wherein the side frame comprises a holding board and a first side wall, the holding board comprises a first surface
and a second surface parallel arranged along a thickness direction thereof, the holding boards on a different side frame are
connected end to end to form an enclosed frame with a central opening, the first side wall extends along the longitudinal
direction of the side frame from a position on the first surface closing to an outer periphery of the first surface, the first
side wall and the holding board cooperatively define a first receiving space to receive the display panel, wherein the frame
further comprises a second side wall extending along the longitudinal direction of the side frame from a position on the second
surface closing to an outer periphery of the second surface, the second side wall and the holding board cooperatively define
a second receiving space, wherein the cutout comprises a first part defined in the first side wall and a second part defined
in the holding board at a position corresponding to the first part, the first part completely cuts off the first side wall,
the second part is extended along a width direction of the holding board, but do not cuts off the holding board.

US Pat. No. 9,426,862

LED BACKLIGHT DRIVE CIRCUIT, LIQUID CRYSTAL DISPLAY DEVICE AND DRIVING METHOD

SHENZHEN CHINA STAR OPTOE...

1. An LED backlight drive circuit, comprising: a power source; wherein an output capacitor and an LED lightbar which is connected
in series with a first controllable switch are in parallel connection, and then are arranged between the output terminal and
the ground terminal of said power source; said LED backlight drive circuit further comprises a first comparator; a cathode
of said first comparator is directly connected to a first reference voltage, a anode of said first comparator is coupled with
the output terminal of said power source, and the output terminal of said first comparator is coupled with a control end of
said first controllable switch; when the anode voltage of said first comparator exceeds the cathode voltage, the output terminal
of said first comparator drives said first controllable switch to be conducted, wherein said LED backlight drive circuit further
comprises a second comparator; the anode of said second comparator is connected to a second reference voltage different from
the first reference voltage, the cathode of said second comparator is coupled with the output terminal of said power source,
and the output terminal of said second comparator is coupled with the control end of said first controllable switch; said
second reference voltage is higher than said first reference voltage; when the cathode voltage of said first comparator exceeds
the anode voltage, the output terminal of said first comparator drives said first controllable switch to be blocked.

US Pat. No. 9,128,227

BACKLIGHT MODULE AND DISPLAY APPARATUS

SHENZHEN CHINA STAR OPTOE...

1. A backlight module, comprising:
a substrate;
a plurality of light sources disposed on the substrate; and
a light guide sheet disposed on the substrate, wherein the light guide sheet includes a plurality of first recesses and a
plurality of second recesses, and the first recesses are formed on a bottom surface of the light guide sheet, and the second
recesses are formed on a light output surface of the light guide sheet, and there is a first angle between inclined surfaces
of the first recesses and the bottom surface, and the first angle is in a range of 90 degrees to 165 degrees, and there is
a second angle between inclined surfaces of the second recesses and the light output surface, and the second angle is in a
range of 110 degrees to 175 degrees;

wherein more than one of the second recesses are positioned above one of the first recesses. and a width of each of the second
recesses is less than a width of each of the first recesses, and an arrangement area of the more than one second recesses
is larger than an opening size of each of the first recesses;

wherein, the light output surface of the light guide sheet includes a plurality of protruding structures, and the protruding
structures are formed between the second recesses;

wherein, the light guide sheet further comprises a phosphor layer, and the phosphor layer is formed on an inner surface of
each of the first recesses.

US Pat. No. 10,152,922

SCAN DRIVING CIRCUIT

SHENZHEN CHINA STAR OPTOE...

1. A scan driving circuit, which is utilized to drive cascading scan lines, the scan driving circuit comprising:a pull-down control means for receiving an upper-level scan signal and generating a scan level signal of low voltage level for a corresponding scan line according to the upper-level scan signal;
a pull-down module for pulling down the scan signal of the corresponding scan line according to the scan level signal;
a reset control means for receiving a lower-level clock signal and generating a rest signal for the corresponding scan line according to the lower-level clock signal;
a reset module for pulling up the scan signal of the corresponding scan line according to the reset signal;
a lower transmission module for generating and transmitting a present-level clock signal according to the scan signal of the corresponding scan line;
a first bootstrap capacitor for generating a low voltage level or a high voltage level of the scan level signal of the corresponding scan line;
a constant low voltage source for providing a low voltage level signal; and
a constant high voltage source for providing a high voltage level signal;
wherein the reset module comprises a sixth switch, a seventh switch, an eighth switch, a ninth switch, and a tenth switch;
the sixth switch having a control terminal with the reset signal inputted, an input terminal with the reset signal inputted, and an output terminal connected to an output terminal of the ninth switch;
the seventh switch having a control terminal with the upper-level scan signal inputted, an input terminal connected to the constant high voltage source, and an output terminal connected to the output terminal of the sixth switch;
the eighth switch having a control terminal connected to the output terminal of the sixth switch, an input terminal connected to the constant high voltage source, and an output terminal connected to the pull-down module;
the ninth switch having a control terminal connected to the pull-down module, and an input terminal with the constant high voltage source inputted;
the tenth switch having a control terminal connected to the output terminal of the sixth switch, an input terminal connected to the constant high voltage source, and an output terminal connected to an output terminal of the scan signal of the corresponding scan line;
wherein the pull-down module comprises a fifth switch having an input terminal connected to pull-down control means, a control terminal with an upper-level clock signal inputted, and an output terminal connected to the output terminal of the eighth switch; the lower transmission module comprises an eleventh switch having a control terminal respectively connected to the reset module and the pull-down module, an input terminal connected to the output terminal of the tenth switch, and an output terminal outputting the present-level clock signal.

US Pat. No. 9,521,739

PRINTED CIRCUIT BOARD AND DESIGN METHOD THEREOF

Shenzhen China Star Optoe...

1. A printed circuit board (PCB), from a top to a bottom, sequentially comprising:
a top layer;
an upper solder resist layer;
a wiring layer;
a lower solder resist layer;
a bottom layer; and
a hole installation part disposed on each of the top layer, the upper solder resist layer, the wiring layer, the lower solder
resist layer, and the bottom layer;

wherein, the hole installation part includes a screw hole and a copper exposing region; a copper foil is disposed on the copper
exposing region of each of the top layer, the upper solder resist layer, the wiring layer, the lower solder resist layer,
and the bottom layer; an area of the copper foil is not less than an area of the copper exposing region; and

wherein, the copper foil is disposed on a surface of each of the top layer, the upper solder resist layer, the wiring layer,
the lower solder resist layer, and the bottom layer, and the copper foil does not disposed at an inner side wall of each of
the top layer, the upper solder resist layer, the wiring layer, the lower solder resist layer, and the bottom layer.

US Pat. No. 9,500,920

LCD PANEL AND METHOD FOR FORMING THE SAME

SHENZHEN CHINA STAR OPTOE...

1. A method of forming a liquid crystal display panel, characterized in that the method comprises:
providing a glass substrate;
etching a first metal layer formed on the glass substrate to form a gate of a thin film transistor and a bottom electrode
of a storage capacitor;

depositing a first passivation layer and a second metal layer on the glass substrate and on the first metal layer in order,
the first passivation layer being connected to the glass substrate and to the first metal layer;

etching the second metal layer to form a data line;
depositing an isolation layer and an active layer on the first passivation layer and on the second metal layer in order;
etching the active layer for reserving the active layer above the control electrode, and the active layer being used as a
channel of the thin film transistor;

etching the first passivation layer and the isolation layer above the data line to form a via hole on top of the data line;
depositing a transparent conducting layer on the isolation layer, the data line, and the active layer;
disposing an ohmic contact layer between the active layer and the transparent conducting layer; and
etching the transparent conducting layer to divide the transparent conducting layer into a first electrode and a second electrode,
wherein the data line is electrically connected to the active layer through the first electrode on the via hole, and the active
layer is electrically connected to the second electrode.

US Pat. No. 9,389,354

BACKLIGHT MODULE

Shenzhen China Star Optoe...

1. A backlight module, comprising: a backplane, a light guide plate arranged in the backplane, a backlight source arranged
in the backplane and located at one side of the light guide plate, a light shield arranged between the backlight source and
the backplane, and a side reflection plate arranged between the light guide plate and the backlight source, the backlight
source comprising an LED (Light-Emitting Diode) substrate and a plurality of LED lights mounted on the LED substrate, the
side reflection plate having resiliency, the side reflection plate comprising a plurality of openings formed therein to correspond
to the LED lights, the LED lights being receivable in the openings to serve as light sources of the light guide plate, wherein
the side reflection plate has a surface in engagement with the light guide plate and an opposite surface in engagement with
the LED substrate of the backlight source so as to be interposed between the light guide plate and LED substrate to provide
cushioning between the light guide plate and the LED substrate for absorbing deformation of the light guide plate.

US Pat. No. 9,316,876

ALIGNING VOLTAGE APPLYING DEVICE AND METHOD FOR APPLYING ALIGNING VOLTAGE

SHENZHEN CHINA STAR OPTOE...

1. An aligning voltage applying device, comprising:
a base;
a probe pin disposed on the base for contacting a corresponding pad; and
a pressing plate module utilized to press an edge of a corresponding liquid crystal display (LCD) substrate, the pressing
plate module comprising:

a pressing plate disposed opposite the probe pin such that the edge of the LCD substrate is located between the pressing plate
and the probe pin; and

a driving unit utilized to drive the pressing plate to move relative to the probe pin;
the pressing plate having an effective width between 12.5 millimeters to 20 millimeters, and the effective width of the pressing
plate being a width of a contact area therebetween after the pressing plate presses the LCD substrate;

a length of the pressing plate being between 15 millimeters and 20 millimeters.

US Pat. No. 9,213,200

LIQUID CRYSTAL PANEL AND THE LIQUID CRYSTAL DISPLAY

Shenzhen China Star Optoe...

1. A liquid crystal panel, comprising:
a liquid crystal cell comprising a light incident side and a light emitting side;
a first polarizer arranged on the light incident side of the liquid crystal panel;
a second polarizer arranged on the light emitting side of the liquid crystal panel;
a half wave plate arranged between the first polarizer and the liquid crystal cell; and
wherein an absorbing axis of the first polarizer is parallel to the absorbing axis of the second polarizer, and an angle between
a slow axis of the half wave plate and the absorbing axis of the first polarizer is 45 degrees;

wherein the liquid crystal panel further comprises two bi-axial compensation films arranged respectively between the first
polarizer and the liquid crystal cell and between the half wave plate and the liquid crystal cell; and

wherein when the angle between the slow axis of the bi-axial compensation film and the absorbing axis of the polarizer on
the same side is 90 degree, a central point brightness decreases and then increases in accordance with the increase of the
compensation value at a predetermined wavelength.

US Pat. No. 9,052,429

BACKLIGHT MODULE AND LIQUID CRYSTAL DISPLAY DEVICE USING THE SAME

SHENZHEN CHINA STAR OPTOE...

1. A backlight module including a backplate assembly and a light guide unit, the backplate assembly comprising:
a first backplate unit, comprising:
a first backplate body formed with three first side walls and an opening along a front side of the first backplate body;
a plurality of first upper hooks formed on the front side; and
a plurality of second upper hooks formed on the front side and engaged with a second backplate body; and
a plurality of third notches formed in the front side, the second backplate body further comprising: a plurality of first
lower hooks formed on the back side, numbers and positions of the third notches are respectively corresponded to numbers and
positions of the first lower hooks, the third notches and the first lower hooks are respectively engaged with each other,
and

a second backplate unit, comprising:
the second backplate body, formed with three second side walls and an opening along a back side of the second backplate body;
and

a plurality of first notches, formed on the back side, wherein numbers and positions of the first notches are respectively
corresponded to numbers and positions of the first upper hooks, the first notches and the first upper hooks are respectively
engaged with each other,

wherein a width of the front side is slightly larger than a width of the back side, and the front side is disposed on an outer
edge of the back side when the first backplate unit is engaged with the second backplate unit, such that the first backplate
unit and the second backplate mutually slide in a lateral direction, the first backplate unit is separated from the second
backplate unit based on an expansion value of the light guide unit when the light guide unit expands in a horizontal direction
by heat,

wherein a distance between the second upper hooks and the front side is larger than a distance between the first upper hooks
and the front side.

US Pat. No. 9,585,213

LIGHT SOURCE DRIVING CIRCUIT AND METHOD

SHENZHEN CHINA STAR OPTOE...

1. A light source driving circuit for providing light source driving signals to a light source, in which the light source
comprises at least one light emitting element, said light source driving circuit comprising:
a light source driving chip for generating the light source driving signals and outputting the light source driving signals
to the light source;

at least one first pulse width modulation (PWM) signal input terminal for receiving at least one first PWM signal; and
a first control circuit connected to the light source, the light source driving chip, and the first PWM signal input terminal,
for receiving the first PWM signal from the first PWM signal input terminal and controlling the light source to emit light
rays according to the first PWM signal;

wherein the light source driving chip is utilized to output the light source driving signals to the light source via the first
control circuit; and

wherein the light source driving chip is further utilized to receive current detection signals related to the light source
and generate the light source driving signals according to the current detection signals, where the current detection signals
are signals related to a current passing the light source;

the light source driving chip comprising:
at least one current detection signal input terminal connected to the light source, for receiving the current detection signals;
a main chip for generating the light source driving signals according to the current detection signals; and
at least one light source driving signal output terminal connected to the first control circuit, for outputting the light
source driving signals;

wherein the first control circuit comprises at least one first field-effect transistor, which comprises:
a first control terminal connected to the first PWM signal input terminal, for receiving the first PWM signal and controlling
a first current channel between a first input terminal and a first output terminal to be turned on or turned off according
to the first PWM signal;

the first input terminal connected to the light source driving signal output terminal, for receiving the light source driving
signals; and

the first output terminal connected to the light emitting element and the current detection signal input terminal, for outputting
the light source driving signals when the first current channel is turned on;

wherein the light source driving chip further comprises:
a second PWM signal input terminal for receiving a second PWM signal; and
at least one control signal output terminal for outputting at least one control signal, wherein the control signal corresponds
to the second PWM signal;

the main chip being further utilized to generate the control signal according to the second PWM signal; and
the light source driving circuit further comprising:
a second control circuit connected to the light source driving chip, the first control circuit and the light source, for controlling
the light source to emit light rays according to the control signal;

wherein the first control circuit is connected to the light source via the second control circuit.

US Pat. No. 9,371,170

PACKAGE CUSHIONING MATERIAL FOR LIQUID CRYSTAL GLASS

SHENZHEN CHINA STAR OPTOE...

1. A package cushioning material for liquid crystal glass, comprising an air sack sheet and two scratch protection layers,
the air sack sheet being formed by connecting a plurality of air sacks;
wherein each of the air sacks is in the form of a cylindrical column that comprises two end faces and a columnar face extending
in a predetermined direction and connecting between the end faces, the columnar faces of the plurality of air sacks being
jointed to each other, and wherein each of the scratch protection layers is attached to multiple ones of the columnar faces
of the air sacks that are successively jointed with connections between the columnar faces of the air sacks foldable to allow
the cylindrical columns of the air sacks to wrap around adjacent corners of the liquid crystal glass in such a way that the
columnar face of each of the air sacks is adjacent to and substantially parallel to surfaces of the liquid crystal glass and
the two scratch protection layers are each of a curved surface extending in the predetermined direction of the columnar faces
of the air sacks and respectively corresponding to and arranged around opposite end edges of the liquid crystal glass to each
separate the columnar faces of the air sacks from the corners of the respective end edge of the liquid crystal glass.

US Pat. No. 9,310,649

ALIGNMENT METHOD OF ALIGNMENT FILM

Shenzhen China Star Optoe...

9. An alignment method of alignment film, comprising steps of:
step 1, providing a substrate, and manufacturing an alignment film on the substrate;

step 2, implementing laser engraving to the alignment film to form a plurality of micro trenches which are directionally consistent
on the alignment film, the micro trenches being spaced from each other in such a way that spaces between every two adjacent
micro trenches are equally arranged;

step 3, cleaning the substrate and the alignment film to remove the powders generated by laser engraving;

step 4, implementing a following liquid crystal cell process;

wherein the substrate is a TFT substrate or a CF substrate;
wherein the alignment film is a PI alignment film;
wherein in the first step, an alignment film basic solution is coated on the substrate and solidified to manufacturing the
alignment film;

wherein in the second step, the laser is generated by a laser unit, and the laser unit comprises a plurality of laser heads
which are intensively arranged, and each of the laser heads irradiates a laser beam;

wherein all the plurality of laser heads which are intensively arranged are perpendicular to the alignment film, and every
two adjacent laser heads are parallel aligned with a regular space in between;

wherein the laser unit is controlled by a control terminal to adjust parameters of the laser, and the parameters of the laser
comprises laser output power, duration, moving directions of the laser heads and laser output mode;

wherein the laser parameters are adjusted according to properties and thicknesses of the different alignment films.
US Pat. No. 9,240,033

IMAGE SUPER-RESOLUTION RECONSTRUCTION SYSTEM AND METHOD

SHENZHEN CHINA STAR OPTOE...

1. An image super-resolution reconstruction method, comprising:
an edge detection step of performing an edge detection on low-resolution images to be processed to obtain edge pixel frames;
a frame amplification step of amplifying the edge pixel frames so that each amplified image is the double of the original
edge pixel frame in size in both horizontal direction and vertical direction, without changing the detected edge pixel information;
and

a pixel compensation step of compensating for the interpolated interpolation pixels according to different pixel edges to
obtain a high-resolution images;

wherein, the pixel compensation step further comprises:
searching, based on the central interpolation pixel in five interpolation pixels to be compensated which is located at the
center of a pixel block, the information of the edges pixels contained in the four pixels adjacent to the central interpolation
pixel in set four directions, and then compensating for the five interpolation pixels accordirato corresponding rules, and

wherein, the rules are related to the number of the edge pixels contained in the four pixels,the edge directions, and/or brightness
of the pixels:

wherein, when the set directions are selected in a range from 45° to 90° ,
if the assigned value to one of the five interpolation pixels currently compensated is also from interpolation pixels previously
compensated, and the pixel block compensated previously is located above the interpolation pixel, then the assigned value
of the interpolation pixel is the value currently compensated, and,

if the assigned value to one of the five interpolation pixels currently compensated is also from one interpolation pixels
previously compensated, and the pixel block compensated previously is located at the left side of the interpolation pixel,
then the assigned value of the interpolation pixel is the value previously compensated;

wherein, when the set directions are selected in a range from 90° to 180°,
if the assigned value to one of the five interpolation pixels currently compensated is also from one of interpolation pixels
previously compensated, and the pixel block compensated previously is located above the interpolation pixel, then the assigned
value of the interpolation pixel is the value previously compensated, and

if the assigned value to one of the five interpolation pixels currently compensated is also from one of interpolation pixels
previously compensated, and the pixel block compensated previously is located at the left side of the interpolation pixel,
then the assigned value of the interpolation pixel is the value currently compensated; and

wherein, when the set directions are selected from outside of a range of 45° to 180°,
if the assigned value to one of the five interpolation pixels currently compensated is from one of interpolation pixels previously
compensated, and the pixel block compensated previously is located above or at the left side of the interpolation pixel, then
the assigned value of the interpolation pixel is the value previously compensated.

US Pat. No. 9,119,290

DISPLAY DEVICE

SHENZHEN CHINA STAR OPTOE...

1. A display device, comprising a rear cover, a display panel, a drive device, an upper end guide frame, a lower end guide
frame, a first adhesive member, and a second adhesive member, the rear cover including a bottom wall, an upper end sidewall
arranged at an upper side of the bottom wall, and a lower end sidewall arranged at a lower side of the bottom wall, the drive
device being arranged in the rear cover and electrically connected to the display panel to drive the display panel, wherein,
the rear cover further includes an upper end coupling portion extending downward from the upper end sidewall, an upper end
support portion for supporting the upper end coupling portion, a lower end coupling portion extending upward from the lower
end sidewall, and a lower end support portion for supporting the lower end coupling portion; the upper end guide frame includes
an upper end panel support portion and an upper end guide sidewall, the first adhesive member bonding the upper end panel
support portion to an upper end of the display panel; the upper end guide sidewall is coupled to the upper end support portion
and surrounds an upper end side of the drive device; the lower end guide frame includes a lower end guide sidewall and a lower
end panel support portion, the second adhesive member bonding the lower end panel support portion to a lower end of the display
panel; the lower end guide sidewall is coupled to the lower end support portion and surrounds a lower end side of the drive
device.

US Pat. No. 9,858,876

DRIVING CIRCUIT AND SHIFT REGISTER CIRCUIT

Shenzhen China Star Optoe...

1. A driving circuit, comprising a plurality of shift register circuits disposed in cascade, each of the plurality of shift
register circuits comprising a clock control transmittance circuit and a latch circuit, the clock control transmittance circuit
being triggered by a first clock pulse, a driving pulse of a Q node at previous two stages being transmitted to the latch
circuit and latched by the latch circuit, further, the latch circuit being triggered by a second clock pulse, and then a gate
driving pulse and a driving pulse of the Q node being output, and the clock control transmittance circuit and the latch circuit
being rising edge-triggered;
wherein the latch circuit at least comprises a first transmission gate, a second transmission gate, a first inverter, a second
inverter, and an NOR gate; a first controlling terminal of the first transmission gate and a second controlling terminal of
the second transmission gate are connected to an output terminal of the clock control transmittance circuit; an input terminal
of the first transmission gate is connected to a Q node at the previous two stages, a second controlling terminal of the first
transmission gate and a first controlling terminal of the second transmission gate both are connected to the first clock pulse;
an output terminal of the first transmission gate is connected to an input terminal of the second transmission gate and an
input terminal of the first inverter; an output terminal of the first inverter is connected to an input terminal of the second
inverter; an output terminal of the second inverter and an output terminal of the second transmission gate both are connected
to a first input terminal of the NOR gate; and a second input terminal of the NOR gate is connected to the second clock pulse.

US Pat. No. 9,435,928

LIGHT GUIDING SYSTEM, EDGE-LIGHTING BACKLIGHT MODULE AND LCD DEVICE

Shenzhen China Star Optoe...

1. A light guiding system for use in an edge-lighting backlight module comprising:
an ambient light gathering system, facing to ambient light, for absorbing the ambient light to generate absorbed light;
a plurality of light guiding devices, each light guiding device having a light input end and a light output end near to the
ambient light gathering system, and the absorbed light from the light input end being guided to the light output end; and

a wedge light guiding bar having a light-out surface, a light-in surface, an inclined surface, and a first surface, wherein
the light-out surface is connected to the light-in surface, the inclined surface is a single surface remaining a specific
angle, is adjacent to and directly connected between the first surface and light-in surface, and is opposite to the light-out
surface, and the light-in surface is wider than the first surface and is near the light out end of the plurality of light
guiding devices,

wherein a plurality of cylindrical nodes are set up on the inclined surface and protrude from the inclined surface; wherein
the plurality of cylindrical nodes are arranged to scatter light from the light-in surface so as to make the light from the
light-out surface more even.

US Pat. No. 9,408,260

ANALOG DIMMING CONVERSION CIRCUIT AND DISPLAY DEVICE

SHENZHEN CHINA STAR OPTOE...

3. An analog dimming conversion circuit comprising a first voltage dividing unit, a second voltage dividing unit, and a constant
voltage unit,
wherein an input end of said first voltage dividing unit receives an analog dimming input signal, and an output end of said
first voltage dividing unit outputs a first intermediate voltage;

wherein an output end of said constant voltage unit outputs a second intermediate voltage which is constant;
wherein a first input end and a second input end of said second voltage dividing unit receive said first intermediate voltage
and said second intermediate voltage respectively, and an output end of said second voltage dividing unit outputs an analog
dimming output signal,

wherein said constant voltage unit comprises a reference voltage source, and a third resistor and a fourth resistor in series
connection between said reference voltage source and said ground wire, and the output end of said constant voltage unit is
provided between said thid resistor and said fourth resistor, and

wherein a value of said third resistor is 182 k?, and a value of said fourth resistor is 20 k?.

US Pat. No. 9,377,153

MULTI-USE DISPLAY SCREEN SUPPORT DEVICE

Shenzhen China Star Optoe...

1. A multi-use display screen support device, comprising a seat body and a support arm connecting with the seat body, wherein
the support arm is a square tube, a connecting end of the support arm connects with the seat body via a fastener, a long strip
shape connecting aperture is located in the connecting end, and the fastener is a bolt, which passes through the connecting
aperture to make the support arm and the seat body connect together, a free end of the support arm swings in a horizontal
plane, and connects with a transition assembly connecting with an external back hanging structure used in a display screen,
a large hypotenuse structure is located in one side of the free end of the support arm which the other side of the free end
of the support arm connects with the transition assembly.

US Pat. No. 9,182,636

PIXEL CELL AND ACTIVE MATRIX LIQUID CRYSTAL DISPLAY

Shenzhen China Star Optoe...

1. A pixel cell, comprising:
a first scanning line and a second scanning line spaced apart from each other and are parallel to each other;
a data line crosses the first scanning line and the second scanning line;
a pixel electrode electrically connects with the first scanning line, the second scanning line, and the data line;
a thin film transistor set electrically connects with the first scanning line, the second scanning line, the data line, and
the pixel electrode;

the thin film transistor set comprises a first thin film transistor and a second thin film transistor, a parasitic capacitance
Cgd of the thin film transistor set satisfies the equation:

C gd=C1+C2

wherein the capacitance generated by the overlay area of the gate and the drain of the first thin film transistor is C1, and the capacitance generated by the overlay area of the gate and the drain of the first thin film transistor is C2, and the change in capacitance of both c1 and c2 are inverse to each other by the same amount such that summation of a value of capacitance change in both c1 and c2 is equal to zero;

wherein a gate of the first thin film transistor connects with the first scanning line, a source of the first thin film transistor
connects with the data line, a drain of the first thin film transistor electrically connects with the pixel electrode by the
first via hole, the gate of the second thin film transistor connects with the second scanning line, the source of the second
thin film transistor connects with the data line, the drain of the second thin film transistor electrically connects with
the pixel electrode by a second via hole, wherein the first via hole is diagonal to the second via hole;

the pixel cells comprise a middle line dividing the pixel cells into two equal portions, the first via hole and the second
via hole are respectively arranged at two sides of the middle line, and a vertical distance between the first via hole and
the middle line equals to the vertical distance between the second via hole and the middle line.

US Pat. No. 9,157,901

METHOD FOR MEASURING MOISTURE IN LIQUID CRYSTALS

SHENZHEN CHINA STAR OPTOE...

1. A method for measuring moisture in liquid crystals comprising:
providing the liquid crystals to be measured;
adding the liquid crystals to be measured to a mixed solvent, thereby dissolving the liquid crystals to be measured to form
a solvent to be measured;

measuredly taking a liquid crystal measurement sample from the solvent to be measured pouring the liquid crystal measurement
sample into a reaction reagent to conduct a reaction and measuring the moisture in the liquid crystal measurement sample through
a the reaction reagent to achieve a measurement result;

wherein the reaction reagent comprises methanol, the mixed solvent comprises isopropanol, the isopropanol is dissolved with
the methanol of the reaction reagent mutually and dissolves the liquid crystals to be measured, the mixed solvent further
comprises n-hexane, which dissolves the liquid crystals to be measured and reduces the viscosity of the isoproanol in the
solvent to be measured;

wherein the reaction reagent further comprises sulfur dioxide and iodine which are oxidation-reduction reactions with the
moisture of the liquid crystal measurement sample for measuring the moisture content of the liquid crystal to be measured;

wherein by dissolving the liquid crystals in advance via adding an amount of the mixed solvent before the reaction, the liquid
crystal to be measured exists with a form of liquid crystal molecules and can release moisture in the mixed solvent completely.

US Pat. No. 9,158,166

SHORTING STRIP STRUCTURE OF LIQUID CRYSTAL DISPLAY PANEL AND LIQUID CRYSTAL DISPLAY PANEL

Shenzhen China Star Optoe...

1. A shorting strip structure of a liquid crystal display panel, comprising: an even-numbered gate line and an odd-numbered
gate line that are arranged parallel, a plurality of even-numbered data lines and a plurality of odd-numbered data lines that
are arranged parallel, and a shorting strip that is arranged parallel to the even-numbered gate line, the even-numbered data
lines being perpendicularly connected to the even-numbered gate line that is separated from the odd-numbered data lines, the
odd-numbered data lines being perpendicularly connected to the odd-numbered gate line that is separated from the even-numbered
data lines, the shorting strip being electrically connected to ends of the plurality of even-numbered data lines that are
adjacent to the even-numbered gate line and separated from the odd-numbered data lines;
wherein the shorting strip is formed on the same layer as the plurality of even-numbered data lines.

US Pat. No. 9,159,775

ANODE CONNECTION STRUCTURE OF ORGANIC LIGHT-EMITTING DIODE AND MANUFACTURING METHOD THEREOF

Shenzhen China Star Optoe...

1. A method for manufacturing an anode connection structure of an organic light-emitting diode, comprising the following steps:
providing a substrate, wherein the substrate comprises a thin-film transistor formed thereon;
forming a planarization layer on the thin-film transistor;
forming a hole in the planarization layer and the thin-film transistor to expose a low-temperature poly-silicon layer of the
thin-film transistor; and

forming an electrically conductive layer on the planarization layer and the exposed low-temperature poly-silicon layer to
be in direct contact engagement with the low-temperature poly-silicon layer and patternizing the electrically conductive layer
to form a new source/drain on the low-temperature poly-silicon layer and also forming an anode of an organic light-emitting
diode on the planarization layer, the anode of the organic light-emitting diode being connected to the new source/drain and
in direct contact engagement with the low temperature poly-silicon layer.

US Pat. No. 9,153,751

COLOR FILTER ON ARRAY SUBSTRATE AND A MANUFACTURING METHOD FOR THE SAME

SHENZHEN CHINA STAR OPTOE...

1. A manufacturing method for a color filter on array (COA) substrate, comprising the following steps of:
providing a transparent substrate;
etching the transparent substrate for forming a first groove and a second groove being disposed at a periphery of the transparent
substrate;

depositing a color filter layer on the transparent substrate and etching the color filter layer, for forming a color filter
unit in the first groove and then forming a pixel electrode on the color filter unit;

forming a thin film transistor (TFT) on the transparent substrate so as to connect the TFT to the pixel electrode;
disposing an alignment film on the TFT and the pixel electrode, and
disposing a sealant at a periphery of the color filter layer,
wherein the second groove is disposed between the sealant and the alignment film, and the second groove is used to collect
abundance of the sealant and the alignment film.

US Pat. No. 9,918,369

LED BACKLIGHT DRIVING CIRCUIT AND METHOD FOR DETECTING FAILURE THEREOF

Shenzhen China Star Optoe...

1. An LED backlight driving circuit, comprising:
a power supply unit,
an LED light strip,
a booster unit, which is electrically connected between an output end of the power supply unit and a positive end of the LED
light strip,

a detection unit, which outputs a fixed operating voltage in a normal mode and a variable testing voltage in a testing mode,
and

a driving chip, which is electrically connected to a control end of the booster unit so as to transmit a gate control signal
to the booster unit, for regulating a driving voltage supplied by the power supply unit to the LED light strip through the
booster unit, and is electrically connected between an output end of the detection unit and a negative end of the LED light
strip, forming a current path of the LED light strip,

wherein when the detection unit outputs the fixed operating voltage, the driving chip regulates a current flowing through
the LED light strip by modulating PWM duty ratio, and

when the detection unit outputs the variable testing voltage, the driving chip controls the current flowing through the LED
light strip so that the current changes with the testing voltage, and judges whether to cut off its electrical connection
to the LED light strip based on a comparison of a voltage on the negative end of the LED light strip and a predetermined threshold
voltage.

US Pat. No. 9,334,421

METHOD AND DEVICE FOR COATING WITH POLYIMIDE SOLUTION

SHENZHEN CHINA STAR OPTOE...

1. A method for coating with a polyimide solution, comprising the following steps:
placing a glass substrate onto a support surface to form a face contact therebetween;
heating the glass substrate to a preset coating temperature through the support surface; and
coating the glass substrate with the polyimide solution;
wherein, the mass percentage of a solute in the polyimide solution is larger than 0% and less than 20%; and
wherein, a surface of a heating liquid is used as the support surface to directly contact with the glass substrate, and the
heating liquid is used to heat the glass substrate via the surface of the heating liquid.

US Pat. No. 9,321,576

PACKAGING DEVICE FOR LIQUID CRYSTAL MODULES

SHENZHEN CHINA STAR OPTOE...

1. A packaging device for a liquid crystal module, comprising
a bracket used for holding and fixing the liquid crystal module,
a pallet used for holding and fixing the bracket via a supporting member,
a buffer gasket for buffering,
a protective layer for fixing and buffering the liquid module, and
a packaging box arranged outside the protective layer for packaging;
wherein
the supporting member for buffering and positioning includes a bulge and a mounting base which are parallel to each other
in a longitudinal direction, the bulge is used for positioning the bracket and the buffer gasket, and the mounting base is
used for mounting the bracket;

wherein the buffer gasket is arranged between the bracket and the mounting base; and
wherein mounting holes aligned with each other are respectively defined on the bracket, the buffer gasket, the mounting base
and the pallet, and a bolt fit with the mounting holes is used to connecting together the bracket, the buffer gasket, the
mounting base and the pallet from top to bottom.

US Pat. No. 9,312,276

METHOD FOR MANUFACTURING ARRAY SUBSTRATE

Shenzhen China Star Optoe...

11. A method for manufacturing an array substrate for producing an amorphous silicon (a-Si) array substrate of a low-definition
organic light emitting diode (OLED) display, comprising:
patterning a gate metal and a pixel electrode on a glass substrate by using a first mask which is a first half tone mask;
patterning a gate insulation layer and a semiconductor layer on the glass substrate with a second mask which is a second half
tone mask;

forming source/drain metallic layers and a channel with a third mask; and
forming a bank layer with a fourth mask;
wherein the step of patterning a gate metal and a pixel electrode on a glass substrate with a first mask which is a first
half tone mask comprises:

depositing a pixel electrode layer and a gate metallic layer on the glass substrate, and coating a first photoresist on the
pixel electrode layer and the gate metallic layer;

exposing and developing the first photoresist with the first half tone mask;
wet-etching the gate metallic layer and the pixel electrode layer, and removing part of the first photoresist;
wet-etching the gate metallic layer again and lifting off the first photoresist, to pattern the gate metal and the pixel electrode.

US Pat. No. 9,299,299

ARRAY SUBSTRATE, PSAV LIQUID CRYSTAL DISPLAY PANEL AND MANUFACTURING METHOD THEREOF

Shenzhen China Star Optoe...

1. A manufacturing method of PSVA liquid crystal display panel, which comprises the steps of:
manufacturing array substrate and color substrate respectively, wherein the array substrate comprising a plurality of data
lines and data line repair structure, the data line repair structure comprising at least a repair line, at least a control
line and a plurality of switch elements, each switch element comprising a control terminal, an input terminal and an output
terminal; the control terminal being electrically connected to the control line, the input terminal being electrically connected
to one end of the repair line, the output terminal being electrically connected to a data line, the other end of the repair
line being electrically connected to shorting bar for inputting data signal during the shorting bar test stage; one end of
each data line being electrically connected to shorting bar during shorting bar test stage for inputting data signal through
shorting bar, the other end of each data line being connected to repair line through a switch element;

assembling array substrate and color filter substrate to form assembly panel, wherein a liquid crystal layer being sandwiched
between the array substrate and the color filter substrate;

inputting voltage signals to the array substrate and the color filter substrate of assembly panel to make liquid crystal molecules
of the liquid crystal layer sandwiched between the array substrate and the color filter substrate forming pretilt angle;

performing UV irradiation or heating to assembly panel to fix the layout of the liquid crystal molecules so that liquid crystal
molecules having fixed pretilt angle;
cutting assembly panel and performing module assembly to form liquid crystal display panel;
wherein before inputting voltage signals to the array substrate and the color filter substrate of assembly panel, further
comprising a step of: inputting control signal to control line of array substrate to turn on the switch element so that the
voltage signals able to reach data line through switch element.

US Pat. No. 9,256,102

BACKLIGHT MODULE AND LIQUID CRYSTAL DISPLAY DEVICE

Shenzhen China Star Optoe...

1. A backlight module, comprising a backsheet, and a light guide plate and a middle frame provided on the backsheet; the backsheet
being assembled with multiple spacers, one side of each spacer being connected with a side wall of the backsheet, the opposite
side thereof being tightly connected with the light guide plate, on each spacer further being provided with a holding groove;
a slot connected to the holding groove being provided corresponding to each spacer on the side wall of the backsheet; the
middle frame comprising a vertical supporting portion, the vertical supporting portion comprising multiple intertongue, each
intertongue corresponding to each holding groove, on the side wall of each intertongue being provided with a hook; the middle
frame being assembled in the holding groove through each intertongue, the hook and the slot being engaged with each other.

US Pat. No. 9,251,750

LCD MODULE AND MANUFACTURING METHOD THEREOF

SHENZHEN CHINA STAR OPTOE...

1. A liquid crystal display (LCD) module, comprising:
a thin film transistor (TFT) substrate and a color filter (CF) substrate disposed opposite to each other, and a liquid crystal
layer sandwiched between the TFT substrate and the CF substrate; wherein:

the TFT substrate comprises a plurality of wires including at least a first group of one or more wires and a second group
of wires, and the second group of wires comprises at least two wires; and

the CF substrate comprises first curing test units and second curing test units insulated from each other, the first curing
test units and the second curing test units are formed by cutting a transparent conductive layer of the CF substrate, each
of the first curing test units and a corresponding one of the second curing test units form a group of curing test components,
the first curing test unit and the second curing test unit in a same group of curing test components are located at a same
side of the CF substrate, the first curing test units are electrically connected with the first group of wires, and the second
curing test units are electrically connected with all the wires of the second group of wires.

US Pat. No. 9,184,182

ARRAY SUBSTRATE AND DISPLAY PANEL

Shenzhen China Star Optoe...

1. An array substrate, comprising:
at least one data line, at least one scanning line, and a pixel cell defined by the data line and the scanning line, the pixel
cell comprises an Indium Tin Oxide (ITO) thin film and at least one metallic layer below the ITO thin film, the ITO thin film
electrically connects to the metallic layer via a through hole, the metallic layer comprises a gate metallic layer and a common-electrode
metallic layer, the ITO thin film comprises a slit arranged between the ITO thin film and the through hole;

a drain metallic layer; a slot arranged in the semiconductor layer and the doped semiconductor layer; wherein the slot passes
through the drain metallic layer, the doped semiconductor, and a portion of the semiconductor layer;

the pixel cell further comprises a passivating layer and an insulation layer being arranged above the common-electrode metallic
layer in turn, and the common-electrode metallic layer and the gate metallic layer are arranged on the same layer; and

wherein the slit is arranged corresponding to an edge of the common-electrode metallic layer.

US Pat. No. 9,170,456

DIRECT BACKLIGHT MODULE AND LIQUID CRYSTAL DISPLAY MODULE USING THE BACKLIGHT MODULE

SHENZHEN CHINA STAR OPTOE...

1. A direct backlight module, comprising a backplane, a diffusion plate arranged inside the backplane, and a plurality of
backlight sources mounted to the backplane and located under the diffusion plate, each of the backlight sources comprising
a circuit board and a plurality of light emitting diode (LED) lights mounted to and electrically connected to the circuit
board, the backplane comprising a bottom board and side boards connected to the bottom board, the bottom board forming a plurality
of receiving openings, the backlight sources being mounted to a side of the bottom board that is distant from the diffusion
plate to correspond to the receiving openings in such a way that the backlight sources are respectively mounted to the receiving
openings and each of the receiving openings receives the respective one of the backlight sources to mount thereto, wherein
each of the receiving openings corresponds to and receives only one circuit comprising of the respective one of the backlight
sources.

US Pat. No. 9,083,191

DEVICE OF REPLACING AND CHARGING BATTERY AT ENVIRONMENT MONITORING TERMINAL AND BATTERY REPLACEMENT SYSTEM

Shenzhen China Star Optoe...

1. A battery replacement system for environment monitoring terminal, comprising:
an environment monitoring terminal, a battery charging device and a battery replacement device;
wherein said battery charging device further comprising a charging area and a storage area, said charging area having at least
two first battery positioning mechanisms, and a first anode and a first cathode for charging battery, said first battery positioning
mechanisms being for placing battery, and said first anode and said first cathode being for contacting electrodes of battery
to charge said battery, said storage area having at least a first battery positioning mechanism;

wherein said environment monitoring terminal further disposed with a second battery positioning mechanism, and a second anode
and a second cathode connected internally, said second battery positioning mechanism being for placing battery, and said second
anode and said second cathode pair being for contacting electrodes of battery to discharge said battery;

wherein said battery replacement device further comprising a robotic arm, a gripper on said robotic arm, and a power mechanism
for driving said robotic arm and said gripper;

wherein, to replace said battery, said power mechanism drives said robotic arm and said gripper to said environment monitoring
terminal, uses said gripper for moving a to-be-replaced battery from said second battery positioning mechanism to said battery
charging device, placing said to-be-replaced battery to a first battery positioning mechanism for charging or storing said
to-be-replaced battery, moving a fully-charge battery from other first battery positioning mechanism to said environment monitoring
terminal, and placing said full-charged battery to said second battery positioning mechanism for said full-charged battery
to supply power to said environment monitoring terminal;

wherein said environment monitoring terminal, said battery charging device or both further disposed with a battery locking
mechanism for fastening a placed battery, and releasing fastening to said placed battery when said placed battery being removed.

US Pat. No. 9,082,615

POLYSILICON MANUFACTURING METHOD THAT CONTROLS GROWTH DIRECTION OF POLYSILICON

Shenzhen China Star Optoe...

1. A polysilicon manufacturing method that controls a growth direction of polysilicon, comprising the following steps:
(1) forming a first buffer layer on a substrate through deposition;
(2) applying a masking operation to form a lens-like structure on a surface of the first buffer layer;
(3) depositing and forming an amorphous silicon layer on the first buffer layer of which the surface comprises the lens-like
structure formed thereon;

(4) subjecting the amorphous silicon layer to rinsing;
(5) irradiating the amorphous silicon layer with an intense light from the side of the substrate so as to generate a crystal
seed at a bottom of the amorphous silicon layer; and

(6) applying a laser annealing operation to the amorphous silicon layer that comprises a crystal seed generated therein so
as to have amorphous silicon contained in the amorphous silicon layer crystallized and forming a polysilicon layer.

US Pat. No. 9,058,781

BACKLIGHT UNIT WITH CHANGING OSCILLATION FREQUENCY IN STEREOSCOPIC MODE AND LIQUID CRYSTAL DISPLAY USING THE SAME

SHENZHEN CHINA STAR OPTOE...

1. A liquid crystal display for displaying either a flat image or a stereoscopic image, comprising:
a panel; and
a backlight unit for providing a light source to the panel, the backlight unit comprising:
a switch circuit, one end of the switch circuit being electrically connected with a first resistor, another end of the switch
circuit being electrically connected with a second resistor, when the switch circuit is turned on, the first resistor is connected
with the second resistor in parallel;

an oscillator being electrically connected with the first resistor and the switch circuit, when the switch circuit is turned
off, the oscillator outputs a first frequency; when the switch circuit is turned on, the oscillator outputs a second frequency;
and

a control unit being electrically connected with the switch circuit to control the switch circuit whether to turn on or off;
wherein the oscillator outputs the first frequency when the liquid crystal display displays the flat image, and the oscillator
outputs the second frequency when the liquid crystal display displays the stereoscopic image, the control unit controls the
switch circuit to turn off when the liquid crystal display displays the flat image, and turn on when the liquid crystal display
displays the stereoscopic image, the oscillator outputs the first frequency when the liquid crystal display displays the flat
image and the oscillator outputs the second frequency when the liquid crystal display displays the stereoscopic image, and
the second frequency is two times the first frequency.

US Pat. No. 9,395,574

LIQUID CRYSTAL DISPLAY HAVING BLACK MATRIX MADE OF MOLYBDENUM

Shenzhen China Star Optoe...

1. A liquid crystal display, comprising:
a first substrate, which comprises a first surface and a second surface opposite to the first surface, the first surface of
the first substrate comprising a thin-film transistor (TFT) array and a color filter layer formed thereon, the color filter
layer comprising a plurality of color filter units arranged in an array, gaps formed between the color filter units;

a second substrate, which comprises a third surface and a fourth surface opposite to the third surface, the third surface
and the first surface facing each other, the third surface comprising a black matrix layer formed thereon, the black matrix
layer comprising a plurality of black matrixes, the black matrixes being arranged to correspond to the gaps between the plurality
of color filter units, the black matrix layer being coated thereon with a layer of transparent conductive film, a material
that makes the black matrix layer being molybdenum; and

a liquid crystal layer, which is interposed between the first substrate and the second substrate and is located between the
black matrix layer that is formed on the second substrate and the TFT array and the color filter layer that are formed on
the first substrate;

wherein the black matrix layer comprises a layer of molybdenum having a first side directly on the third surface of the second
substrate and an opposite second side on which the transparent conductive film is directly formed.

US Pat. No. 9,368,562

ARRAY SUBSTRATE AND A DISPLAY PANEL HAVING THE SAME

SHENZHEN CHINA STAR OPTOE...

1. An array substrate comprising a plurality of first pixel units and a plurality of second pixel units, the first pixel units
and the second pixel units are disposed interlaced; wherein
a first input terminal of a driving circuit of a sub-pixel unit of each of the first pixel unit receives a first pulse signal,
a second input terminal of the driving circuit of the sub-pixel unit of each of the first pixel unit receives a second pulse
signal, a first input terminal of a driving circuit of a sub-pixel unit of each of the second pixel unit receives the second
pulse signal, a second input terminal of the driving circuit of the sub-pixel unit of each of the second pixel unit receives
the first pulse signal, the phases of the first pulse signal and the second pulse signal are reversed, making the first pixel
units and the second pixel units to be driven alternatingly, and cycle durations of the first pulse signal and the second
pulse signal are the same as a frame cycle duration of the array substrate;

wherein the driving circuit comprises a first driving TFT (thin film transistor), a second driving TFT, a third driving TFT,
a fourth driving TFT, and a storing capacitor;

each sub-pixel unit of each of the first pixel unit and the second pixel unit comprises an LED, the LED comprises a first
terminal and a second terminal, the first terminal of the LED couples with a driving source;

a gate electrode of the first driving TFT couples with a gate line, a first terminal of the first driving TFT couples with
a second terminal of the third driving TFT,

a first terminal of the second driving TFT couples with a second terminal of the LED, a second terminal of the second driving
TFT couples with a GND (ground);

a first terminal of the third driving TFT couples with a data line;
a first terminal and a second terminal of the fourth driving TFT couples with two terminals of the storing capacitor, the
second terminal of the fourth driving TFT couples with the GND;

a gate electrode of the second driving TFT couples with a second terminal of the first driving TFT and the first terminal
of the fourth driving TFT;

the first input terminal of the driving circuit of the sub-pixel unit of each of the first pixel unit and the second pixel
unit is the gate electrode of the third driving TFT, and the second input terminal of the driving circuit of the sub-pixel
unit of each of the first pixel unit and the second pixel unit is the gate electrode of the fourth driving TFT.

US Pat. No. 9,366,905

LIQUID CRYSTAL PANEL AND MANUFACTURING METHOD FOR THE SAME

SHENZHEN CHINA STAR OPTOE...

1. A liquid crystal panel applied in a vertical alignment display mode, characterized in that, the liquid crystal panel comprises
a transparent electrode layer and a substrate, the transparent electrode layer has slits formed therein, and the transparent
electrode layer is also provided under the slits, wherein the transparent electrode layer is disposed over the substrate without
any insulating layer disposed in the transparent electrode layer;
wherein the transparent electrode layer comprises a first transparent electrode layer and a second transparent electrode layer,
the second transparent electrode layer has the slits formed therein, and the first transparent electrode layer is provided
under the slits, the second transparent electrode layer is directly provided on a surface of the first transparent electrode
layer; and

wherein a material of the second transparent electrode layer is different from that of the first transparent electrode layer.

US Pat. No. 9,255,981

SUNLIGHT COLLECTION DEVICE AND METHOD FOR TRACKING SUNLIGHT

Shenzhen China Star Optoe...

1. A sunlight collection device, comprising: a concentrator array composed by a plurality of concentrators and a light sensor
electrically connected to the controller for locating the sunlight at first stage, the concentrator comprising a collecting
cup and a collecting lens fixed to the collecting cup, a optical fiber running through and being fixed at the bottom of the
collecting cup, light-receiver of the optical fiber facing up and being located near the focal point of the collecting lens,
a plurality of light detection units for locating the sunlight at second stage which are electrically connected to the controller
being provided around the optical fiber at the bottom of the collecting cup.

US Pat. No. 9,210,801

DISPLAY PANEL AND WIRING STRUCTURE THEREOF

Shenzhen China Star Optoe...

1. A wiring structure of a display panel, comprising:
a plurality of metal wires extending across a first wiring region, a second wiring a region, and a third wiring region, the
first wiring region adjoining the second wiring region, and the second wiring region adjoining the third wiring region;

wherein the first wiring region is located inside the second wiring region, the third wiring region is located outside the
second wiring region, the second wiring region is a seal coating region of the display panel, a line width of an nth metal
wire in the second wiring region is a, a distance between the nth metal wire and an n+1th metal wire is b, where n?1, and
a/(a+b) is a constant value when n is taken as different values;

wherein both the value of the line width a and the value of the distance b in the second region change in equal proportion;
wherein a percentage difference between impedance values of the two adjacent metal wires is no more than 10%.

US Pat. No. 9,167,715

DISPLAY DEVICE

SHENZHEN CHINA STAR OPTOE...

1. A display device, comprising
a rear cover,
a display panel,
a drive device,
a first adhesive member, including a first surface and a second surface opposite to the first surface,
an upper end guide frame for guiding the drive device, and
a second adhesive member including a third surface and a fourth surface opposite to the third surface;
wherein, the drive device is arranged in the rear cover and electrically connected to the display panel to drive the display
panel;

the rear cover configured to be integrally formed, includes
a bottom wall,
an upper end sidewall arranged at an upper side of the bottom wall,
an upper end coupling portion formed by extending an end of the upper end sidewall downwardly,
an upper end support portion configured to support the upper end coupling portion and connected between the upper end coupling
portion and the bottom wall, and

a protection portion formed by extending the end of the upper end sidewall horizontally in a direction deviating from the
bottom wall and configured to guide and protect an upper side of the display panel;

the upper end guide frame is in an L shape, and includes an upper end panel support portion and an upper end guide sidewall
perpendicularly intersecting the upper end panel support portion;

the upper end coupling portion and the upper end panel support portion are configured to be coplanar, separated from each
other and bonded to the first surface, the second surface is bonded to an upper end of the display panel, and a lower end
of the display panel is bonded to a lower end of the rear cover;

the upper end guide sidewall is bonded to the third surface of the second adhesive member and the fourth surface of the second
adhesive member is bonded to the upper end support portion, thus the upper end guide frame is detachably connected to the
rear cover;

the upper end guide sidewall surrounds an upper end side of the drive device; and
the protection portion is perpendicular to the upper end coupling portion.

US Pat. No. 9,107,278

STACKER AND STATIC ELIMINATION DEVICE FOR THE SAME

Shenzhen China Star Optoe...

1. A static elimination device, which is used for a stacker with a fan filter device, wherein the static elimination device
is provided at the end side of each shelf facing the fan filter device in the stacker, said end side is opposite to the end
side of the shelf which a cartridge moves in and out, two ends of the static elimination device are free to rotate and connected
to shelf holders at said end side;
under the action of the fan filter device blowing the airflow, the ions are blown from the static elimination device into
the cartridge of the shelf and the surface of the glass substrate on the cartridge, which is used to eliminate the static
on the glass substrate;

the static elimination device comprises a controller which is used to control the static elimination device to rotate in any
angle.

US Pat. No. 9,900,952

POWER REGULATING CIRCUIT AND LIQUID CRYSTAL DISPLAY DEVICE

Shenzhen China Star Optoe...

1. A power regulating circuit, wherein the power regulating circuit is employed to adjust a power consumption of a light emitting
unit, and the light emitting unit is applied with a first supply voltage for emitting light, and the power regulating circuit
comprises a brightness sensing unit, a power consumption detecting unit, a control chip and a voltage regulating unit, and
the brightness sensing unit is employed to sense a brightness as the light emitting unit emits light, and the power consumption
detecting unit is employed to detect a power consumption, which is a first power consumption as the light emitting unit emits
light, and the control chip is employed to compare the first power consumption with a minimum power consumption of a current
brightness of the light emitting unit, and as a difference of the first power consumption and the minimum power consumption
is larger than a preset threshold value, the control chip controls the voltage regulating unit to decrease an amplitude of
the first supply voltage and to increase a duty ratio of the first supply voltage so that the light emitting unit remains
the brightness unchanged and a difference value of a power consumption of the light emitting unit and the minimum power consumption
is smaller than or equal to the preset threshold value, wherein after the amplitude and the duty ratio of the first supply
voltage are adjusted and in condition that the brightness of the light emitting unit is unchanged, the power consumption of
the light emitting unit is the second power consumption.

US Pat. No. 9,508,304

LIQUID CRYSTAL DISPLAY PANEL AND DRIVING METHOD THEREOF

SHENZHEN CHINA STAR OPTOE...

1. A liquid crystal display panel, comprising a plurality of pixel units, each pixel unit comprising:
a data line;
a first scanning line;
a second scanning line, adjacent to said first scanning line, and configured to transmit a preset scanning signal;
a first switch, connected between said data line and a pixel electrode, and configured to be turned on when receives a scanning
signal of said first scanning line;

a second switch, connected between said pixel electrode and a common electrode, and configured to reach different turn-on
states when receives the preset scanning signal of said second scanning line, said turn-on states comprising the state that
the second switch is completely turned on and the state that the second switch is critically turned on for a certain time
period, wherein said preset scanning signal includes a group of low-level voltages changing with a variation of data signal
of said data line, and a high-level voltage being consistent with the scanning signal of said first scanning line;

a storage capacitor, connected between said pixel electrode and said common electrode; and
a liquid crystal capacitor, one end of which is connected to said pixel electrode,
wherein when the first switch is turned on, said pixel electrode receives a data signal from said data line to have an electric
potential;

wherein during the process of said second switch being critically turned on for a certain time period, the electric potential
of said pixel electrode decreases gradually through said second switch; and

wherein at the moment when said second switch is completely turned on, the electric potential of said pixel electrode is changed
instantaneously to a reference electric potential of said common electrode through said second switch.

US Pat. No. 9,501,990

SCAN DRIVING CIRCUIT

SHENZHEN CHINA STAR OPTOE...

1. A scan driving circuit, executing a driving operation for cascaded scan lines, comprising:
a pull-down control module receiving a previous-level scan signal, and generating a low-level scan level signal corresponding
to one of the scan lines according to the previous-level scan signal;

a pull-down module pulling down a scan signal of the corresponding scan line according to the scan level signal and a first
clock signal;

a pull-up module pulling up the scan signal of the corresponding scan line according to a low-level signal and a high-level
signal;

a pull-up maintaining module keeping the scan level signal of the corresponding scan line in a high-level according to the
low-level signal and the high-level signal;

a bootstrap capacitor generating a low-level or a high-level of the scan level signal of the scan line;
a constant low-level voltage source providing the low-level signal; and
a constant high-level voltage source providing the high-level signal;
wherein the scan driving circuit uses a P-metal-oxide-semiconductor (PMOS) type transistor to control the pull-down control
module, the pull-down module, the pull-up module and the pull-up maintaining module;

wherein the pull-down control module includes a first switch transistor, a control end of the first switch transistor inputs
the previous-level scan signal, an input end of the first switch transistor inputs a low-level scan signal, and an output
end of the first switch transistor is connected to the pull-down module, the pull-up maintaining module and the bootstrap
capacitor respectively;

wherein the pull-up maintaining module includes a second electrical potential maintaining capacitor, one end of the second
electrical potential maintaining capacitor is connected to the constant high-level voltage source, and the other end of the
second electrical potential maintaining capacitor is connected to the output end of the first switch transistor.

US Pat. No. 9,349,843

METHOD FOR MANUFACTURING THIN-FILM TRANSISTOR

Shenzhen China Star Optoe...

1. A method for manufacturing a thin-film transistor, wherein the thin-film transistor has a bottom gate coplanar structure,
the method comprising the following steps:
(1) providing a substrate;

(2) forming a gate terminal on the substrate;

(3) forming a gate insulator layer on the gate terminal and the substrate;

(4) forming a source/drain terminal on the gate insulator layer and covering the source/drain terminal with a photosensitive
material layer, wherein a metal layer is first formed on the gate insulator layer and then covered with the photosensitive
material layer, the photosensitive material layer being subjected to exposure through a mask to remove an exposed portion
of the photosensitive material layer so as to expose a portion of the metal layer that is then subjected to etching to remove
the portion of the metal layer with a remaining portion of the metal layer forming the source/drain terminal and a surface
of the gate insulator layer exposed through the removal of the portion the metal layer, surface damages being caused in the
exposed surface of the gate insulator layer by the etching;

(5) subjecting the exposed surface of the gate insulator layer to a plasma treatment by applying halogen based plasma to the
surface of the gate insulator layer that has already formed on the gate terminal and the substrate to repair the surface damages;

(6) remove the photosensitive material layer located on the source/drain terminal; and

(7) forming an oxide semiconductor layer on the source/drain terminal and the exposed surface of the gate insulator layer with
the surface damages between the gate insulator layer and the oxide semiconductor being repaired through the application of
the plasma treatment and patternizing the oxide semiconductor layer.

US Pat. No. 9,322,982

BACKLIGHT MODULE AND LIQUID CRYSTAL DISPLAY DEVICE USING SAME

Shenzhen China Star Optoe...

1. A backlight module, comprising: a backplane, a light guide plate arranged in the backplane, a backlight source arranged
in the backplane, and a heat dissipation plate arranged between the backlight source and the backplane, the backplane comprising
a bottom plate and a side plate perpendicularly connected to the bottom plate, the backlight source comprising a PCB (Printed
Circuit Board) and an LED (Light-Emitting Diode) chip mounted on the PCB, the PCB being arranged on the bottom plate of the
backplane and the heat dissipation plate, the PCB comprising a mounting section having a thickness and a lapping section connected
to the mounting section and having a second thickness that is smaller than the first thickness and reduced from the first
thickness by a thickness difference, the heat dissipation plate comprising a support section and a bearing section connected
to the support section and having a third thickness that is substantially equal to thickness difference between the first
and second thicknesses of the PCB, the bearing section being arranged to correspond to the lapping section, such that the
lapping section is positionable on and overlapping the bearing section with a bottom surface of the mounting section of the
PCB and a bottom surface of the heat dissipation plate substantially flush with each other to define a flat, continuous surface
positioned on and in surface contact engagement with an inside surface of the bottom plate of the backplane, and the light
guide plate is carried on the support section of the heat dissipation plate and the lapping section of the PCB.

US Pat. No. 9,323,080

DISPLAY PANEL AND MANUFACTURING METHOD, PANEL DISPLAY DEVICE THEREOF

Shenzhen China Star Optoe...

1. A display panel, comprising an active area and a vacant area surrounding the active area, and a dummy pattern area without
display functionality being along boundary between the active area and the vacant area;
the active area, the vacant area and the dummy pattern area are disposed on pattern layers of the display panel for lithography
or etching in a wet process, and the pattern layers comprise: a pixel electrode layer, a first metal layer and a second metal
layer;

the active area and the dummy pattern area are disposed on the pixel electrode layer and the dummy pattern area comprises
a plurality of dummy pixels;

the active area comprises a plurality of pixels having normal pattern design, and pattern design of the dummy pixels is identical
to the normal pattern design of the pixels, and pattern of the dummy pixels near the vacant area is an irregular pattern;

wherein the irregular pattern is generated from solution concentrations being existing at an intersection area of the dummy
pattern area and the active area, at the active area, and at the dummy pattern area, and the solution concentration at the
dummy patter area gradually decreases from the intersection area towards the vacant area during the wet process.

US Pat. No. 9,223,176

COATING METHOD FOR LIQUID CRYSTAL ALIGNMENT FILM OF TFT-LCD

Shenzhen China Star Optoe...

1. A coating method for liquid crystal alignment film of TFT-LCD, comprising the step of:
using at least two different sized nozzles to perform a plurality of nested rectangular coatings,
wherein a rectangular gap is provided between any two rectangular coatings,
wherein the nested rectangular coatings are achieved by continuous connection of lines so as to reduce edge waves,
wherein the nested rectangular coatings comprise a 1st nested rectangular coating, a 2nd nested rectangular coating to a Nth
nested rectangular coating, and sizes of the 1st, 2nd to the Nth nested rectangular coatings are arranged sequentially from
the smallest to the biggest, and

wherein the 1st rectangular coating is innermost, the Nth nested rectangular coating is the outermost, and a smaller sized
nozzle is employed for the Nth nested rectangular coating; and

spreading the plurality of nested rectangular coatings to form a single coating.

US Pat. No. 9,213,441

IN-CELL TOUCH PANEL AND LIQUID CRYSTAL DEVICE

Shenzhen China Star Optoe...

1. An in-cell touch panel, comprising:
a first substrate comprising a plurality of displaying pixels having thin film transistors (TFTs) and pixel electrodes;
a second substrate facing toward the first substrate, the second substrate comprising a plurality of color filtering patterns
corresponding to the displaying pixels;

a liquid crystal layer arranged between the first substrate and the second substrate;
a plurality of touching units arranged between the TFTs and the first substrate, and the touching units are separated from
each other; and

a plurality of sensing areas and driving areas arranged below the pixel electrodes, and the sensing areas and the driving
areas connect to the touching units via conductive through holes; and

wherein the touching unit comprises black matrix, both of the driving area and the sensing area comprise a plurality of common
electrodes, and the common electrode electrically connects to the black matrix via the conductive through hole passing through
at least a first dielectric layer and a second dielectric layer.

US Pat. No. 9,164,043

DETECTING METHOD AND DETECTING DEVICE

SHENZHEN CHINA STAR OPTOE...

1. A detecting method for detecting an array substrate, comprising:
scanning a defect on the array substrate and determining a size of the defect;
generating a switching controlling command according to the size of the defect and switching a lens to a magnification adapted
to the size of the defect; and

capturing an image of the defect using the switched lens;
wherein the step of generating a switching controlling command according to the size of the defect and switching a lens to
a magnification adapted to the size of the defect comprises:

determining a predetermined size range in which the size of the defect is;
generating the corresponding switching controlling command according to the predetermined size range; and
switching the lens to the magnification corresponding to the predetermined size range;
wherein the step of switching the lens to the magnification corresponding to the predetermined size range comprises:
when the size of the defect is greater than or equal to 100 um, switching the lens to a five times magnification;
when the size of the defect is greater than 20 um and less than 100 um, switching the lens to a ten times magnification; and
when the size of the defect is less than or equal to 20 um, switching the lens to a fifty time magnification.

US Pat. No. 9,158,105

TRANSMISSION/REFLECTION DUAL-FUNCTIONAL ELECTROWETTING DISPLAY PANEL

Shenzhen China Star Optoe...

1. A transmission/reflection dual-functional electrowetting display panel, which has two operation modes of transmission and
reflection, the transmission/reflection dual-functional electrowetting display panel comprising a plurality of main pixels,
each of the main pixels comprising three sub-pixels, the three sub-pixels being a red sub-pixel, a green sub-pixel, and a
blue sub-pixel, each of the sub-pixels comprising: a first, a second, and a third substrates that are parallel to each other,
a light-blocking control layer arranged between the first and second substrates, and a color displaying layer arranged between
the second and third substrates, the light-blocking control layer comprising: a first reflection electrode and a first transmission
electrode that are arranged on the first substrate and a first polar solution and a nonpolar light-absorbing solution arranged
on the first reflection electrode and the first transmission electrode, the color displaying layer comprising: a second reflection
electrode and a second transmission electrode arranged on the second substrate and a second polar solution and a nonpolar
color-displaying solution arranged on the second reflection electrode and the second transmission electrode, the first transmission
electrode, the second transmission electrode, and the second reflection electrode being made of a transparent conductive material,
the first reflection electrode being made of a conductive material having high reflectivity, whereby when the first reflection
electrode is driven by applying a driving voltage thereto, the nonpolar light-absorbing solution shrinks to the top of the
first transmission electrode and the transmission/reflection dual-functional electrowetting display panel is set in the reflective
mode; and when the first transmission electrode is driven by applying a driving voltage thereto, the nonpolar light-absorbing
solution shrinks to the top of the first reflection electrode and the transmission/reflection dual-functional electrowetting
display panel is set in the transmissive mode.

US Pat. No. 9,160,239

FLYBACK SWITCHING POWER SUPPLY CIRCUIT AND BACKLIGHT DRIVING DEVICE USING THE SAME

SHENZHEN CHINA STAR OPTOE...

1. A flyback switching power supply circuit, including:
a transformer, including a primary winding, a secondary winding, and an auxiliary winding arranged on one side of the primary
winding;

an output rectifier, connected to the output end of the flyback switching power supply circuit from the secondary winding
of the transformer;

a switching transistor, configured to control the voltage on the primary winding, wherein the drain of the switching transistor
is connected to one end of the primary winding;

a controller, configured to provide a pulse width modulation signal for driving the gate of the switching transistor, wherein
the controller includes a GATE end connected with the gate of the switching transistor; and

a clamping delay circuit, configured to clamp the potential of the gate of the switching transistor to low potential, so that
the switching transistor is turned on at the wave trough of drain potential damped vibration, wherein the clamping delay circuit
is connected to the gate of the switching transistor from the auxiliary winding, wherein the clamping delay circuit comprises:

a voltage stabilizing capacitor, charged according to the voltage generated by the auxiliary winding, wherein the voltage
stabilizing capacitor is connected in parallel to the auxiliary winding, and one end of the voltage stabilizing capacitor
and the first terminal of the auxiliary winding are connected together to a ground reference;

a diode, connected to the other end of the voltage stabilizing capacitor from the second terminal of the auxiliary winding;
a voltage dividing circuit, configured to divide the voltage stored in the voltage stabilizing capacitor and connected in
parallel to the voltage stabilizing capacitor; and

a triode, configured to clamp the potential of the gate of the switching transistor to low potential during turn-on, so that
the switching transistor is turned on at the wave trough of drain potential damped vibration, wherein the base of the triode
is connected to the voltage dividing circuit, and the collector of the triode is connected to the gate of the switching transistor.

US Pat. No. 9,110,198

BACKLIGHT MODULE

Shenzhen China Star Optoe...

1. A backlight module, comprising a backplane, a backlight source arranged inside the backplane, a light guide plate arranged
inside the backplane and corresponding to the backlight source, a plurality of positioning units arranged between the backplane
and the light guide plate, a reflector plate arranged between the backplane and the light guide plate and mounted to the positioning
units, and optic films arranged on the light guide plate, the positioning units each having an end fixed to the light guide
plate, an opposite end fixed to the backplane, and an intermediate portion which is provided with a positioning section, the
reflector plate being mounted to the positioning sections so that the light guide plate and the reflector plate form therebetween
a gap;
wherein the positioning section is movable along the intermediate portion of the positioning unit so that the gap between
the light guide plate and the reflector plate is adjustable and a distance between the reflector plate and the backplane is
adjustable.

US Pat. No. 9,857,647

DISPLAY PANEL AND DISPLAY DEVICE THEREOF

Shenzhen China Star Optoe...

1. A display panel, wherein, the display panel is an OLED display panel and the display panel comprises a thin film transistor
(TFT) substrate, a color filter substrate and a conductive polarizer; the conductive polarizer and the TFT substrate together
form a space for electrostatic shielding, and the color filter substrate is located in the space; the conductive polarizer
is a flexible stacked structure comprising a polarizer base and a conductive layer disposed on the polarizer base, the conductive
polarizer covers a light radiation surface of the color filter substrate, a side surface of the color filter substrate perpendicular
to the light radiation surface and a side surface of the TFT substrate and thereby the side surface of the color filter substrate
and the side surface of the TFT substrate are covered by the conductive layer as well as the polarizer base.

US Pat. No. 9,810,960

LIQUID CRYSTAL DISPLAY PANEL AND ARRAY SUBSTRATE THEREOF

Shenzhen China Star Optoe...

1. An array substrate comprising:
a first glass substrate;
a first metallic layer, disposed on the first glass substrate, for forming a scan line and a gate of a thin film field effect
transistor;

a first insulating layer, disposed on the first metallic layer;
a semiconductor layer, disposed on the first insulating layer, for forming a channel of the thin film field effect transistor;
a second metallic layer, disposed on the semiconductor layer, for forming a source and a drain of the thin film field effect
transistor and forming a data line;

a color resist layer, disposed on the second metallic layer and the first insulting layer, for forming a color filter;
a pixel electrode layer, disposed on the color resist layer and connected to the drain of the thin film field effect transistor
through a via hole penetrating the color resist layer, for forming a pixel electrode;

a passivation layer, disposed on the pixel electrode layer;
a black matrix layer, disposed on the passivation layer, for forming a black matrix;
a common electrode, disposed on the passivation layer and the black matrix layer, for forming a common electrode; and
a spacer, disposed on the common electrode layer above the black matrix, for retaining a cell gap;
wherein the via hole is defined between two adjacent color resists of the color resist layer, and the black matrix is disposed
corresponding to the color filter and the pixel electrode so that the black matrix is exactly disposed above the via hole.

US Pat. No. 9,311,880

GOA CIRCUIT STRUCTURE

Shenzhen China Star Optoe...

1. A GOA circuit structure sharing GOA pull-down circuits to reduce TFT stress of the GOA pull-down circuits, comprising multiple
twined GOA units cascaded with each other, assuming N is natural number, the N-level GOA unit charging the N-level horizontal
scanning line in the displaying area, each said twined GOA unit comprising the (2N?1)-level GOA unit and the 2N-level GOA
unit, the (2N?1)-level GOA unit comprising a first pull-down holding circuit and a second pull-down holding circuit respectively
connected with the (2N?1)-level gate signal point and the (2N?1)-level horizontal scanning line, the 2N-level GOA unit comprising
a third pull-down holding circuit and a fourth pull-down holding circuit respectively connected with the 2N-level gate signal
point and the 2N-level horizontal scanning line; the (2N?1)-level gate signal point being further connected with the third
pull-down holding circuit and the fourth pull-down holding circuit respectively, the 2N-level gate signal point being further
connected with the first pull-down holding circuit and the second pull-down holding circuit respectively;
the first pull-down holding circuit comprising:
a first thin film transistor, the gate thereof inputting a second clock signal, the source and the drain thereof respectively
inputting a first clock signal and being connected to a first circuit point, the first pull-down holding circuit working or
not depending on the potential level of the first circuit point;

the second pull-down holding circuit comprising:
a second thin film transistor, the gate thereof inputting a fourth clock signal, the source and the drain thereof respectively
inputting a third clock signal and being connected to a second circuit point, the second pull-down holding circuit working
or not depending on the potential level of the second circuit point;

the third pull-down holding circuit comprising:
a third thin film transistor, the gate thereof inputting a third clock signal, the source and the drain thereof respectively
inputting a second clock signal and being connected to a third circuit point, the third pull-down holding circuit working
or not depending on the potential level of the third circuit point;

the fourth pull-down holding circuit comprising:
a fourth thin film transistor, the gate thereof inputting a first clock signal, the source and the drain thereof respectively
inputting a fourth clock signal and being connected to a fourth circuit point, the fourth pull-down holding circuit working
or not depending on the potential level of the fourth circuit point;

the first clock signal, the second clock signal, the third clock signal, and the fourth clock signal being provided to make
the first pull-down holding circuit, the second pull-down holding circuit, the third pull-down holding circuit, and the fourth
pull-down holding circuit work alternately.

US Pat. No. 9,305,982

LIQUID CRYSTAL PANEL AND MANUFACTURING METHOD OF THE LIQUID CRYSTAL PANEL

SHENZHEN CHINA STAR OPTOE...

1. A liquid crystal panel, comprising:
a first substrate and a second substrate opposite to the first substrate; a first optical spacer formed on one side of the
first substrate facing the second substrate;

a pad formed on one side of the second substrate facing the first substrate and corresponding to the first optical spacer;
a TFT formed on the side of the second substrate facing the first substrate, being provided with a plurality of scanning lines
and a plurality of data lines vertically intersecting with the scanning lines; and

a second optical spacer and a third optical spacer formed on the side of the first substrate facing the second substrate,
with the second optical spacer corresponding to one side of the TFT along a direction of the scanning line and the third optical
spacer corresponding to the other side of the TFT along the direction of the scanning line.

US Pat. No. 9,241,376

DRIVER FOR LED BACKLIGHT AND LED BACKLIGHT MODULE AND LIQUID CRYSTAL DISPLAY

Shenzhen China Star Optoe...

1. An LED backlight driver, comprising:
a DC voltage input end used for inputting a DC voltage;
a boost circuit used for boosting the DC voltage input from the DC voltage input end and outputting a boosted DC voltage;
an LED string comprising a plurality of LEDs connected in series and a first resistor, the LED string receiving the boosted
DC voltage from the boost circuit, and a sum of forward voltages of all of the LEDs in the LED string being less than or equal
to the boosted DC voltage output from the boost circuit; and

a constant current driver used for outputting a level signal to the boost circuit based on a voltage across the first resistor
and a voltage for a triangular signal, the constant current driver comprising a triangular wave generator for generating the
triangular signal, the triangular wave generator comprising a variable resistor, a first MOS transistor, a first comparator,
a second comparator, a first capacitor, a second resistor, and a second MOS transistor;

wherein one end of the variable resistor receives an input voltage, another end of the variable resistor is connected to a
drain of the first MOS transistor, a source of the first MOS transistor is connected to one end of the second resistor and
a negative terminal of a third comparator, another end of the second resistor is connected to a drain of the second MOS transistor,
a source of the second MOS transistor is electrically grounded, a gate of the first MOS transistor is connected to an output
terminal of the first comparator, a gate of the second MOS transistor is connected to an output terminal of the second comparator,
a negative terminal of the first comparator is connected to one end of the first capacitor and the source of the first MOS
transistor, another end of the first capacitor is electrically grounded, a positive terminal of the first comparator receives
a first reference voltage, a negative terminal of the second comparator is connected to the output terminal of the first comparator,
and a positive terminal of the second comparator receives a second reference voltage, when a charging voltage of the first
capacitor is higher than the first reference voltage, the output terminal of the first comparator outputs a low voltage level
to the gate of the first MOS transistor, the first MOS transistor is cut off so the input voltage stops charging the first
capacitor, the low voltage level output by the output terminal of the first comparator is lower than the second reference
voltage so the second MOS transistor is turned on, the first capacitor thus discharges through the second resistor, when the
charging voltage of the first capacitor is decreased and lower than the first reference voltage, the output terminal of the
first comparator outputs a high voltage level so the first MOS transistor is turned on, the high voltage level output by the
output terminal of the first comparator is higher than the second reference voltage so the second MOS transistor is cut off,
the input voltage starts charging the first capacitor again.

US Pat. No. 9,411,184

BACK PLATE SPLICING STRUCTURE FOR LARGE-SIZE BACKLIGHT MODULES AND LIQUID CRYSTAL DISPLAY

SHENZHEN CHINA STAR OPTOE...

1. A back plate splicing structure for large-size backlight modules, the back plate comprising a bottom flat plate and a splicing
member joined to an end of the bottom flat plate, wherein the splicing member comprises a side plate, and an upper supporting
plate and a lower supporting plate configured on a same side of the side plate; the upper supporting plate, the lower supporting
plate, and the side plate cooperatively define a clamping opening clamping the bottom flat plate therein; the upper supporting
plate fixes the bottom flat plate in the clamping opening, and at least one fixing screw is configured between the bottom
flat plate and the splicing member;
wherein the upper supporting plate comprises a connecting portion perpendicularly connected to the side plate, a clamping
surface portion contacting the bottom flat plate, and an inclined surface portion connecting the connecting portion and the
clamping surface portion, the inclined surface portion and the side plate face each other and are positioned at two opposite
ends of the connecting portion respectively; the connecting portion, the inclined surface portion, the lower supporting plate,
and the side plate cooperatively define the clamping opening clamping the bottom flat plate therein; and a body of the bottom
flat plate is curved towards the clamping opening to form a protruding arc column structure and the inclined surface portion
and the clamping opening are on the same side of the protruding arc column structure.

US Pat. No. 9,368,762

ACTIVE ORGANIC ELECTROLUMINESCENCE DEVICE BACK PANEL AND MANUFACTURING METHOD THEREOF

Shenzhen China Star Optoe...

1. A manufacturing method of an active organic electroluminescence device back panel, comprising the following steps:
(1) providing a substrate;
(2) forming a buffering layer on the substrate;
(3) forming a crystalline semiconductor layer on the buffering layer;
(4) depositing, in sequence, a lower gate insulation layer and an upper gate insulation layer on the crystalline semiconductor
layer;

(5) patternizing the upper gate insulation layer to form a gate insulation structure of a driving thin-film transistor (TFT),
while the lower gate insulation layer forming a first gate insulation layer of the driving TFT and a gate insulation layer
of a switch TFT, wherein the first gate insulation layer and the gate insulation structure collectively form a gate insulation
layer of the driving TFT such that the gate insulation layer of the driving TFT is thicker than the gate insulation layer
of the switch TFT;

(6) forming a gate terminal, a protective layer, and a source/drain terminal of the driving TFT on the gate insulation layer
of the driving TFT and forming a gate terminal, a protective layer, and a source/drain terminal of the switch TFT on the gate
insulation layer of the switch TFT, wherein the respective gate terminals of the driving TFT and the switch TFT are formed
at the same time; wherein the respective source/drain terminals of the driving TFT and switch TFT are formed at the same time;
wherein the gate terminals of the driving TFT and the switch TFT are both formed after the deposition of the lower and upper
gate insulation layer; and wherein the gate terminal of the switch TFT is located outside the upper gate insulation layer
and the lower gate insulation layer;

(7) forming an organic planarization layer on the source/drain terminal of the driving TFT and the source/drain terminal of
the switch TFT; and

(8) forming an organic electroluminescence electrode on the organic planarization layer, so that the organic electroluminescence
electrode is connected to the source/drain terminal of the driving TFT.

US Pat. No. 9,360,706

BACKLIGHT MODULE AND CORRESPONDING LIQUID CRYSTAL DISPLAY DEVICE

SHENZHEN CHINA STAR OPTOE...

1. A backlight module comprising:
a backboard having an inner surface and multiple concave portions mounted on the inner surface, wherein each of the concave
portions has a bottom surface lower than and integrally connected to the inner surface; and

multiple light sources mounted in the concave portions, wherein
the concave portions include strip concave portions and non-strip concave portions, and the light sources include a first
plurality of light sources and a second plurality of light sources, where the first plurality of light sources are mounted
in the strip concave portions and the second plurality of light sources are mounted in the non-strip concave portions, wherein
each of the strip concave portions has two ends respectively extending to two sides of the backboard; each of the non-strip
concave portions has a circular shape or a polygonal shape;

each of the light sources includes:
a base;
an LED mounted on the base; and
a heat sink connected to the base; and
the light sources are mounted in both the strip and non-strip concave portions via their respective heat sinks;
the backlight module further includes a diffuser panel and at least one optical film; the diffuser panel is mounted at a side
facing a light-emitting surface of the light sources; the optical film is mounted on a light-exiting surface of the diffuser
panel, wherein light from the light sources directly enters the diffuser panel; and

the diffuser panel has a flat bottom surface facing the backboard, wherein a distance from a no-concave portion of the backboard
to the diffuser panel is substantively equal to a distance from the light-emitting surface of the light sources to the diffuser
panel.

US Pat. No. 9,316,853

COMBINATION BACKBOARD AND BACKLIGHT MODULE AND LIQUID CRYSTAL DISPLAY DEVICE USING THE BACKBOARD

SHENZHEN CHINA STAR OPTOE...

8. A liquid crystal display device, comprising a backlight module, a liquid crystal display panel arranged on the backlight
module, and a front bezel arranged on the liquid crystal display panel, wherein the backlight module comprises a combination
backboard, a backlight source arranged inside the combination backboard, a light guide board arranged inside the combination
backboard, and a plastic frame mounted to the combination backboard, the combination backboard comprising: a main body and
a first bracket coupled to the main body, the main body comprising a base plate and first and second side plates perpendicularly
mounted to the base plate, the first and second side plates being arranged opposite to each other, the first and second side
plates each having an end adjacent to the first bracket and forming a first coupling section, the first bracket comprising
a first bottom plate and a third side plate perpendicularly mounted to the first bottom plate, the third side plate having
two ends respectively forming first coupling slots corresponding to the first coupling sections, the first coupling sections
being respectively received and retained in the first coupling slots to couple the first bracket and the main body together,
the backlight source being mounted to the third side plate of the first bracket, the liquid crystal display panel being arranged
on the plastic frame;
wherein the first coupling sections are of an L-shape and are of resiliency, which is substantially coplanar with and horizontally
extends in a direction along the first or the second side plate beyond the base plate, and each of the first coupling sections
has a distal free end that is curved and defines an edge extending vertically so that the edges of the free ends of the first
coupling sections face each other and wherein the first coupling slots are formed in the two ends of the third side plate
to face away from each other and extend vertically through the ends of the third side plate and are perpendicular to the flat
planar surface and the surfaces of the base plate and the first bottom plate thereby each defining an upper opening and a
lower opening in top and bottom sides of the third side plate for receiving the edge of the distal end of the corresponding
first coupling section to slidably insert into the first coupling slot from the upper opening in such a way that the edges
of the free ends of the first coupling sections are simultaneously received into the first coupling slots to securely and
stably retain the third side plate in position through the resiliency thereof.

US Pat. No. 9,304,340

METHOD AND DEVICE FOR MEASURING FLICKER VALUE OF LIQUID CRYSTAL MODULES

Shenzhen China Star Optoe...

1. A method for measuring flicker value of a liquid crystal module comprising:
providing flicker images to a liquid crystal module to be measured;
applying a measure unit to scan the liquid crystal module to convert luminance of the liquid crystal into voltage signals
to obtain analog luminance signals of the liquid crystal module;

receiving the analog luminance signals from the measure unit and converting the analog luminance signals of the measure unit
into digital luminance signals;

performing Fourier transformation of the digital luminance signals to obtain magnitude of specific frequency wave; and
obtaining a flicker value of the liquid crystal module through the magnitude of specific frequency wave.

US Pat. No. 9,257,083

SELF-HEALING GATE DRIVING CIRCUIT HAVING TWO PULL-DOWN HOLDING CIRCUITS CONNECTED VIA A BRIDGE CIRCUIT

Shenzhen China Star Optoe...

1. A self-healing gate driving circuit, comprising:
a plurality of gate driver on array (GOA) units connected in cascade, and a N-th level horizontal scanning line in a display
area is charged according to a control of a N-th level GOA unit; the N-th level GOA unit comprising a pull-up control circuit,
a pull-up circuit, a transfer-down circuit, a pull-down circuit, a boast capacitor, a first pull-down holding circuit, a second
pull-down holding circuit and a bridge circuit, wherein the pull-up circuit, the pull-down circuit, the first pull-down holding
circuit, the second pull-down holding circuit and the boast capacitor respectively connect to a gate signal point and the
N-th level horizontal scanning line, the pull-up control circuit and the transfer-down circuit respectively connect to the
gate signal point, and the bridge circuit connects between the first pull-down holding circuit and the second pull-down holding
circuit and connects to the gate signal point;

the bridge circuit comprising a first thin-film transistor (TFT), wherein a gate of the first TFT connects to the gate signal
point, and a drain and a source of the first TFT respectively connect to a first circuit point and a second circuit point;

the first pull-down holding circuit comprising:
a second TFT, wherein a gate of the second TFT is inputted with a second clock signal, and a drain and a source of the second
TFT are respectively inputted with a first clock signal and connect to the second circuit point;

a third TFT, wherein a gate of the third TFT connects to a third circuit point, and a drain and a source of the third TFT
are respectively inputted with the first clock signal and connect to the second circuit point;

a fourth TFT, wherein a gate of the fourth TFT is inputted with the first clock signal, and a drain and a source of the fourth
TFT are respectively inputted with the first clock signal and connect to the third circuit point;

a fifth TFT, wherein a gate of the fifth TFT connects to the second circuit point, and a drain and a source of the fifth TFT
are respectively connects to the second circuit point and the third circuit point;

a sixth TFT, wherein a gate of the sixth TFT connects to the gate signal point, and a drain and a source of the sixth TFT
are respectively connects to the seeend third circuit point and inputted with a direct-current (DC) low voltage;

a seventh TFT, wherein a gate of the seventh TFT connects to the second circuit point, and a drain and a source of the seventh
TFT are respectively inputted with the DC low voltage and connects to the N-th level horizontal scanning line; and

an eighth TFT, wherein a gate of the eighth TFT connects to the second circuit point, and a drain and a source of the eighth
TFT are respectively inputted with the DC low voltage and connects to the gate signal point;

the second pull-down holding circuit comprising:
a ninth TFT, wherein a gate of the ninth TFT is inputted with the first clock signal, and a drain and a source of the ninth
TFT are respectively inputted with the second clock signal and connects to the first circuit point;

a tenth TFT, wherein a gate of the tenth TFT connects to a fourth circuit point, and a drain and a source of the tenth TFT
are respectively inputted with the second clock signal and connect to the first circuit point;

a eleventh TFT, wherein a gate of the eleventh TFT is inputted with the second clock signal, and a drain and a source of the
eleventh TFT are respectively inputted with the second clock signal and connect to the fourth circuit point;

a twelfth TFT, wherein a gate of the twelfth TFT connects to the first circuit point, and a drain and a source of the twelfth
TFT are respectively connect to the first circuit point and the fourth circuit point;

a thirteenth TFT, wherein a gate of the thirteenth TFT connects to the gate signal point, and a drain and a source of the
thirteenth TFT are respectively connect to the fourth circuit point and inputted with the DC low voltage;

a fourteenth TFT, wherein a gate of the fourteenth TFT connects to the first circuit point, and a drain and a source of the
fourteenth TFT are respectively inputted with the DC low voltage and connect to the N-th level horizontal scanning line; and

a fifteenth TFT, wherein a gate of the fifteenth TFT connects to the first circuit point, and a drain and a source of the
fifteenth TFT are respectively inputted with the DC low voltage and connect to the gate signal point; and

a low potential of the first clock signal and the second clock signal is smaller than the DC low voltage during their operations,
and frequencies thereof is smaller than the clock signal inputted to the pull-up circuit, and the first circuit point and
the second circuit point are alternatively configured to be at a high potential.

US Pat. No. 9,244,001

COLORIMETER MEASUREMENT METHOD AND COLORIMETER FOR IMPLEMENTING THE METHOD

SHENZHEN CHINA STAR OPTOE...

1. A colorimeter measurement method, comprising the following steps:
S1, placing a measured sample on a sample platform;

S2, shooting a current image of the sample;

S3, calculating a placement angle deviation ? of the sample according to a measurement sequence of the sample and a moving direction
of the sample platform;

S4, adjusting a position of a scanning light spot of a colorimeter according to the placement angle deviation ?;

S5, using the colorimeter to scan the measured sample.

US Pat. No. 9,217,889

NARROW BEZEL LIQUID CRYSTAL DISPLAY MODULE

SHENZHEN CHINA STAR OPTOE...

1. A narrow bezel liquid crystal display (LCD) module, comprising:
a liquid crystal panel having an upper glass substrate and a lower glass substrate;
a backlight module having at least one optic film, a back plate and at least one plastic frame, wherein the back plate carries
the optic film and the plastic frame surrounds the back plate to carry the liquid crystal panel;

a front frame surrounding the plastic frame to fix the liquid crystal panel, and an accommodating space formed between the
front frame and the plastic frame;

at least one chip-on-film (COF) flexible package component disposed in the accommodating space and having at least one chip
and a flexible circuit board, wherein the chip is fixed on one surface of the flexible circuit board facing the plastic frame,
one end of the flexible circuit board electrically connects to the lower glass substrate and the other end of the flexible
circuit board electrically connects to a driver circuit board; and

at least one guide block, which is a conductive foam block, wherein the guide block is disposed in the accommodating space
and fixed on one inner side of the front frame and tightly adhered to the inner side of the front frame by a double-sided
adhesive tape, and the guide block has a guide slope facing the flexible circuit board;

wherein the guide block, which is a strip having triangular or trapezoidal cross-section, is adhered to the inner side of
a corner position of the front frame and extends over a corner of the front frame.

US Pat. No. 9,058,777

LED BACKLIGHT DRIVING CIRCUIT AND LIQUID CRYSTAL DEVICE

Shenzhen China Star Optoe...

1. A LED backlight driving circuit, comprising:
a boost circuit for converting an input voltage to a needed output voltage and for providing the output voltage to at least
one LED strings;

a follower circuit connecting to a negative end of the LED string, the follower circuit configured for monitoring a negative
end voltage of the LED string and for generating a follower voltage according to the negative end voltage, and the follower
voltage couples with a reference voltage module; and

the reference voltage module connecting to a reference voltage and the follower circuit, and the reference voltage module
adjusts the output voltage according to the follower voltage generated by the follower circuit;

wherein the follower circuit generates a first follower voltage coupling with the reference voltage module upon detecting
that the negative end voltage of the LED string is smaller than a standard value, and the reference voltage module increases
the output voltage according to the first follower voltage generated by the follower circuit, and the follower circuit generates
a second follower voltage coupling with the reference voltage module upon detecting that the negative end voltage of the LED
string is larger than the standard value, and the reference voltage module decreases the output voltage according to the second
follower voltage generated by the follower circuit;

the follower circuit comprises a comparison circuit and a voltage control circuit, the comparison circuit is for detecting
the negative end voltage of the LED string and for generating a control signal, and the voltage control circuit is for generating
the follower voltage according to the control signal, and the follower voltage couples with the reference voltage module;
and

the comparison circuit comprises a first comparator and a second comparator, wherein an inversed input of the first comparator
receives a first reference voltage, an non-inverting input of the second comparator receives a second reference voltage, the
non-inverting input of the first comparator connects to the inversed input of the second comparator and then connects to the
negative end of the LED string, output ends of the first comparator and the second comparator generate signals for controlling
the voltage control circuit to generate the follower circuit coupling with the reference voltage module, and wherein the first
reference voltage is larger than the second reference voltage.

US Pat. No. 9,614,018

COA WOLED STRUCTURE AND MANUFACTURING METHOD THEREOF

Shenzhen China Star Optoe...

1. A color filter on array (COA) white organic light emitting diode (WOLED) structure, comprising a red sub pixel zone, a
green sub pixel zone, and a blue sub pixel zone;
wherein the red sub pixel zone, the green sub pixel zone, and the blue sub pixel zone each comprise a substrate, a gate terminal
arranged on the substrate, a gate insulation layer arranged on the gate terminal, an island like oxide semiconductor layer
arranged on the gate insulation layer, an island like etch stop layer arranged on the oxide semiconductor layer, source/drain
terminals arranged on the etch stop layer, a passivation protection layer arranged on the source/drain terminals, a red/green/blue
photoresist layer arranged on the passivation protection layer, a planarization layer arranged on the passivation protection
layer and covering the red/green/blue photoresist layer, a semi-reflection layer arranged on the planarization layer and in
contact engagement with the source/drain terminal through a via, an anode layer arranged on the semi-reflection layer, a pixel
definition layer arranged on the anode layer, a photo spacer arranged on the pixel definition layer, a white light emission
layer arranged on the anode layer and the pixel definition layer, a cathode layer arranged on the white light emission layer,
and a packaging lid arranged on the cathode layer;

wherein the semi-reflection layer and the anode layer of the red sub pixel zone and the green sub pixel zone comprise a transparent
photoresist layer interposed therebetween and the transparent photoresist layer of the res sub pixel zone has a thickness
greater than a thickness of the transparent photoresist layer of the green sub pixel zone.

US Pat. No. 9,459,476

LIQUID CRYSTAL DISPLAY DEVICE

SHENZHEN CHINA STAR OPTOE...

1. A liquid crystal display device, comprising:
a liquid crystal panel;
a side board surrounding the liquid crystal panel;
a plastic housing comprising a body portion and an extension portion extended inward from the body portion, wherein the body
portion is formed with at least one fastening hole, the extension portion is formed with a positioned groove, and the side
board is extended into the positioned groove and abuts against the body portion;

a front frame installed outside the side board and below the body portion of the plastic housing;
at least one fastening unit embedded in the fastening hole of the plastic housing and fixed on the side board, so as to fix
the plastic housing on the side board, wherein the fastening unit comprises a fastening block and an engagement piece extended
from the fastening block, and the side board is formed with an engagement hole in which the engagement piece is engaged; and

a back plate integrated with the side board.

US Pat. No. 9,396,691

METHOD FOR COMPENSATING RESISTANCE OF SIGNAL LINES OF GATE DRIVING CIRCUITS AND LIQUID CRYSTAL PANEL APPLYING THE SAME

Shenzhen China Star Optoe...

1. A method for compensating resistance of signal lines of gate driving circuits, comprising:
providing a TFT substrate having a GOA area arranged thereon, the GOA area comprises a plurality of GOA units, each of the
GOA units comprises a plurality of GOA modules electrically connecting to one pull-line;

providing a control system board electrically connecting to the GOA modules via the pull-lines;
adjusting the resistance between the control system board and the GOA modules such that the clock signals provided from the
control system board to the GOA modules within the same GOA unit is the same, wherein resistors corresponding to the pull-lines
are arranged on the control system board to adjust the resistance between the control system board and the GOA modules such
that the RC delay of the clock signals provided from the control system board to the GOA modules within the same GOA unit
is the same; and

wherein the GOA modules comprise a first GOA module, a second GOA module, a third GOA module, and a fourth GOA module arranged
in sequence, the pull-lines comprises a first pull-line, a second pull-line, a third pull-line, and a fourth pull-line electrically
connecting to the first GOA module, the second GOA module, the third GOA module, and the fourth GOA module respectively, a
length of the first pull-line, the second pull-line, the third pull-line, and the fourth pull-line increases in sequence,
the control system board further comprises a first resistor, a second resistor, and a third resistor respectively corresponding
to the first pull-line, the second pull-line, and the third pull-line, a resistance of the first pull-line, the second pull-line,
the third pull-line, and the fourth pull-line are respectively R1, R2, R3, and R4, a capacitance of the first pull-line, the second pull-line, the third pull-line, the fourth pull-line are respectively C1, C2, C3, and C4, the resistance of the first resistor, the second resistor, and the third resistor are respectively Ra, Rb, and Rc, and (R1+Ra)×C1=(R2+Rb)×C2=(R3+Rc)×C3=R4×C4.

US Pat. No. 9,366,908

OPTICAL ALIGNMENT DEVICE AND THE METHOD THEREOF

Shenzhen China Star Optoe...

1. An optical alignment device, comprising:
an aligned light source, a carrying mechanism, a masking mechanism, and a transporting mechanism;
the carrying mechanism is spaced apart from the aligned light source, the masking mechanism comprises a substrate layer and
a masking layer in a stack structure, the substrate layer is a glass substrate of a PVC (Polyvinylchloride) sheet, and the
masking layer comprises a black matrix (BM) or a metallic material disposed on the substrate layer;

the transporting mechanism comprises a connecting piece, a guiding piece, and a driving piece, the connecting piece connects
to the masking mechanism, the guiding piece connects to the connecting piece, and the driving piece is for driving the connecting
piece; and

wherein the transporting mechanism is for driving the masking mechanism such that when the aligned light source is applied
to a substrate carried by the carrying mechanism, the masking mechanism is controlled by the transporting mechanism to block
a first area such that the optical alignment process is switched from the first area to a second area.

US Pat. No. 9,274,378

ALIGNMENT FILM, A METHOD OF FABRICATING THE SAME, AND A LIQUID CRYSTAL DISPLAY USING THE SAME

Shenzhen China Star Optoe...

1. A structure comprising a liquid crystal medium, and an alignment film for use in a substrate of a liquid crystal display,
the alignment film comprising:
a plurality of alignment molecules, formed by polymerizing monomers of at least an anhydride, a first diamine having terphenyl
and a second diamine not having terphenyl, wherein the first diamine is selected from one of diamines having terphenyl represented
by


a mass amount of the first diamine is less than a mass amount of the second diamine; and the plurality of alignment molecules
has formula e as


wherein the component A and the component B in formula e comprise terphenyl.

US Pat. No. 9,239,498

LIQUID CRYSTAL DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF

Shenzhen China Star Optoe...

1. A liquid crystal display device, which comprises: a plurality of pixel units, wherein each of the pixel units further comprises:
a liquid crystal layer, comprising a plurality of liquid crystal molecules with negative dielectric anisotropy and a plurality
of reactive monomers;

one pixel electrode and a corresponding electrode, disposed on two opposite sides of the liquid crystal layer; the corresponding
electrode further comprising:

a plurality of first electrode patterns, disposed oppositely to the one pixel electrode;
a second electrode pattern, connected to the first electrode pattern, for applying an external voltage to the first electrode
pattern so as to form an alignment electric field for the liquid crystal layer between the first electrode pattern and the
pixel electrode;

a third electrode pattern, for connecting to the first electrode pattern and the second electrode pattern; and
a fourth electrode pattern, for connecting to the first electrode patterns;
wherein at least two of the first electrode patterns in the same corresponding electrode disposed oppositely to the one pixel
electrode are connected through the fourth electrode pattern before accomplishing alignment on the liquid crystal layer.

US Pat. No. 9,207,710

BACK FRAME AND LIQUID DISPLAY DEVICE WITH THE SAME

Shenzhen China Star Optoe...

1. A back frame, comprising: at least two main pieces, the adjacent main pieces are assembled via assembly sections, a plurality
of anchor points are arranged on different locations of each of the assembly sections, the size of the back frame is variably
configured by assembling the at least two adjacent main pieces through different anchor points; and
wherein the anchor points are rivet holes, screw holes, non-hole rivet points, or welding points, and the assembly sections
of the main pieces further comprise protrusions surrounding by the plurality of anchor points; wherein the protrusions comprise
a first protrusion and a second protrusion respectively arranged on the assembly sections of the two adjacent main pieces,
the second protrusion is received in a space limited by the first protrusion, and a top of the first protrusion is closely
adjacent to a top of the second protrusion, and a support being arranged in the bottom of the second protrusion to prevent
the protrusions from being deformed.

US Pat. No. 9,635,767

FLAT PANEL DISPLAY DEVICE

SHENZHEN CHINA STAR OPTOE...

1. A flat panel display device, comprising a backboard and a display panel fitted therewith, an edge of the backboard being
structured as a barrier wall extending perpendicular to the body of the backboard, wherein a stepped groove is arranged on
the interior face of the barrier wall for supporting the display panel, so that an accommodation space is formed between the
display panel and the body of the backboard,
wherein the stepped groove extends from an outer end of the barrier wall towards the body of the backboard, and the depth
of the stepped groove is consistent with the thickness of the display panel, so that the outer surface of the display panel
is in the same plane as the outer end of the barrier wall,

the display panel is fixed to the backboard through any one of glue, fastening structure, and magnetic absorption, and
the fastening structure comprises a first fastener and a second fastener which can interlock with each other,
wherein the first fastener is a first belt arranged in the stepped groove, on which a plurality of first projections perpendicularly
extending outward are provided, and the second fastener is a second belt arranged on a mounting surface of the display panel,
on which a plurality of second projections perpendicularly extending outward are provided, and

the first fastener and the second fastener are coupled with each other through inserting the plurality of first projections
into the gaps formed among the plurality of second projections respectively and inserting the plurality of second projections
into the gaps formed among the plurality of first projections respectively.

US Pat. No. 9,343,032

GOA CIRCUIT STRUCTURE SHARING GOA PULL-DOWN CIRCUITS TO REDUCE TFT STRESS OF THE GOA PULL-DOWN CIRCUITS

Shenzhen China Star Optoe...

1. A GOA circuit structure, comprising multiple twined GOA units cascaded with each other, assuming N is natural number, the
N-level GOA unit charging the N-level horizontal scanning line in the displaying area, each said twined GOA unit comprising
the (2N?1)-level GOA unit and the 2N-level GOA unit, the (2N?1)-level GOA unit comprising a first pull-down holding circuit
and a second pull-down holding circuit respectively connected with the (2N?1)-level gate signal point and the (2N?1)-level
horizontal scanning line, the 2N-level GOA unit comprising a third pull-down holding circuit and a fourth pull-down holding
circuit respectively connected with the 2N-level gate signal point and the 2N-level horizontal scanning line; the (2N?1)-level
gate signal point being further connected with the third pull-down holding circuit and the fourth pull-down holding circuit
respectively, the 2N-level gate signal point being further connected with the first pull-down holding circuit and the second
pull-down holding circuit respectively;
the first pull-down holding circuit comprising:
a first thin film transistor, the gate thereof inputting a second clock signal, the source and the drain thereof respectively
inputting a first clock signal and being connected to a first circuit point, the first pull-down holding circuit working or
not depending on the potential level of the first circuit point;

the second pull-down holding circuit comprising:
a second thin film transistor, the gate thereof inputting a fourth clock signal, the source and the drain thereof respectively
inputting a third clock signal and being connected to a second circuit point, the second pull-down holding circuit working
or not depending on the potential level of the second circuit point;

the third pull-down holding circuit comprising:
a third thin film transistor, the gate thereof inputting a third clock signal, the source and the drain thereof respectively
inputting a second clock signal and being connected to a third circuit point, the third pull-down holding circuit working
or not depending on the potential level of the third circuit point;

the fourth pull-down holding circuit comprising:
a fourth thin film transistor, the gate thereof inputting a first clock signal, the source and the drain thereof respectively
inputting a fourth clock signal and being connected to a fourth circuit point, the fourth pull-down holding circuit working
or not depending on the potential level of the fourth circuit point;

the first clock signal, the second clock signal, the third clock signal, and the fourth clock signal being provided to make
the first pull-down holding circuit, the second pull-down holding circuit, the third pull-down holding circuit, and the fourth
pull-down holding circuit work alternately;

wherein a first pull-up clock signal, a second pull-up clock signal, a third pull-up clock signal, and a fourth pull-up clock
signal are respectively input into the pull-up circuits of the (2N?1)-level, the 2N-level, the (2N+1)-level, and the (2N+2)-level
GOA units to respectively charge the corresponding horizontal scanning line in the displaying area, the first clock signal,
the second clock signal, the third clock signal, and the fourth clock signal respective correspond to the first pull-up clock
signal, the second pull-up clock signal, the third pull-up clock signal, and the fourth pull-up clock signal;

wherein the first clock signal, the second clock signal, the third clock signal, and the fourth clock signal respectively
correspond to four low-frequency clock signals;

wherein the first pull-down holding circuit further comprises:
a fifth thin film transistor, the gate thereof being connected to the (2N?1)-level gate signal point, the source and the drain
thereof being respectively connected to the first circuit point and inputting a DC low voltage,

a sixth thin film transistor, the gate thereof being connected to the first circuit point, the source and the drain thereof
being respectively connected to the (2N?1)-level gate signal point and inputting the DC low voltage,

a seventh thin film transistor, the gate thereof being connected to the first circuit point, the source and the drain thereof
being respectively connected to the (2N?1)-level horizontal scanning line and inputting the DC low voltage, and

an eighth thin film transistor, the gate thereof being connected to the 2N-level gate signal point, the source and the drain
thereof being respectively connected to the first circuit point and inputting the DC low voltage;

wherein the second pull-down holding circuit further comprises:
a ninth thin film transistor, the gate thereof being connected to the (2N?1)-level gate signal point, the source and the drain
thereof being respectively connected to the second circuit point and inputting the DC low voltage,

a tenth thin film transistor, the gate thereof being connected to the second circuit point, the source and the drain thereof
being respectively connected to the (2N?1)-level gate signal point and inputting the DC low voltage,

an eleventh thin film transistor, the gate thereof being connected to the second circuit point, the source and the drain thereof
being respectively connected to the (2N?1)-level horizontal scanning line and inputting the DC low voltage, and

a twelfth thin film transistor, the gate thereof being connected to the 2N-level gate signal point, the source and the drain
thereof being respectively connected to the second circuit point and inputting the DC low voltage;

wherein the third pull-down holding circuit further comprises:
a thirteenth thin film transistor, the gate thereof being connected to the (2N?1)-level gate signal point, the source and
the drain thereof being respectively connected to the third circuit point and inputting the DC low voltage,

a fourteenth thin film transistor, the gate thereof being connected to the third circuit point, the source and the drain thereof
being respectively connected to the 2N-level gate signal point and inputting the DC low voltage,

a fifteenth thin film transistor, the gate thereof being connected to the third circuit point, the source and the drain thereof
being respectively connected to the 2N-level horizontal scanning line and inputting the DC low voltage, and

a sixteenth thin film transistor, the gate thereof being connected to the 2N-level gate signal point, the source and the drain
thereof being respectively connected to the third circuit point and inputting the DC low voltage;

wherein the fourth pull-down holding circuit further comprises:
a seventeenth thin film transistor, the gate thereof being connected to the (2N?1)-level gate signal point, the source and
the drain thereof being respectively connected to the fourth circuit point and inputting the DC low voltage,

an eighteenth thin film transistor, the gate thereof being connected to the fourth circuit point, the source and the drain
thereof being respectively connected to the 2N-level gate signal point and inputting the DC low voltage,

a nineteenth thin film transistor, the gate thereof being connected to the fourth circuit point, the source and the drain
thereof being respectively connected to the 2N-level horizontal scanning line and inputting the DC low voltage, and

a twentieth thin film transistor, the gate thereof being connected to the 2N-level gate signal point, the source and the drain
thereof being respectively connected to the fourth circuit point and inputting the DC low voltage.

US Pat. No. 9,297,949

BACKLIGHT MODULE AND LIQUID CRYSTAL DISPLAY

Shenzhen China Star Optoe...

1. A backlight module including a waveguide, a backboard, and a light source, wherein the waveguide is disposed onto the backboard,
and the light source is arranged adjacent to a light incident surface of the waveguide, wherein the backlight module includes
at least a limiter securely disposed onto the backboard and abuts against to the light source so as to ensure a preset distance
between the light source and the incident surface of the waveguide;
wherein the limiter includes a connector and a pusher disposed on the connector, the connector is arranged between the waveguide
and the backboard, wherein the connector is rooted onto the backboard so as to support the waveguide, wherein the connector
abuts against the light source such that the abutting portion is close to the light source;

wherein a heatsink is arranged between the connector and the backboard and includes a recess, a platform and a side; and the
connector includes a backbone, and a carrier extending from the backbone, and an inclined transition located between the backbone
and the carrier; and

wherein the backbone is disposed within the recess, and a locking device passing through the backbone, the recess and the
backboard to interlock the backbone, the recess and the backboard together, wherein the carrier is disposed onto the platform
so as to carrier the waveguide, and the carrier abutting against the light source and the inclined transition is disposed
onto the side of the recess.

US Pat. No. 9,363,505

PIXEL ARRANGEMENT METHOD THAT REDUCES COLOR SHIFT OF PATTERN RETARDER GLASSES BASED 3D DISPLAY SYSTEM IN LARGE VIEW ANGLE AND DISPLAY PANEL USING SAME

Shenzhen China Star Optoe...

1. A pixel arrangement method that reduces color shift of pattern retarder glasses based 3D display system in large view angle,
comprising the following steps:
(1) providing a display panel, wherein the display panel comprises a substrate and a plurality of primary pixels that is formed
on the substrate in an array having columns and rows, multiple ones of the primary pixels being arranged in each of the columns
and multiple ones of the primary pixels being arranged in each of the rows;

(2) dividing the primary pixels in 3D mode displaying in such a way that each of the primary pixels is divided into four sub-pixels,
wherein the sub-pixels are of colors that are pure colors and two adjacent ones of the sub-pixels in either horizontal or
vertical direction are of different colors, wherein the sub-pixels of a first one of the primary pixels are arrayed in a first
arrangement that is different from a second arrangement in which the sub-pixels of a second one of the primary pixels that
is immediately next to the first primary pixel in at least one of a column-wise reaction and a row-wise direction of the primary
pixel array are arrayed; wherein the second arrangement of the sub-pixels of the second one of the primary pixels is different
from a third arrangement in which the sub-pixels of a third one of the primary pixels that is immediately next to the second
primary pixel in the column-wise direction are arrayed and the first, second, and third arrangements that are different from
each other are arranged cyclically and consecutively and consecutively in that order in the column-wise direction; and wherein
every two immediately adjacent ones of the sub-pixels of the two different arrangements of the first and second primary pixels
are different in color; and

(3) dividing the primary pixels in 2D mode displaying in such a way that each of the primary pixels is divided into three
or four sub-pixels, wherein the sub-pixels are of colors that are pure colors and two adjacent ones of the sub-pixels in either
horizontal or vertical direction are of different colors, wherein the sub-pixels of a first one of the primary pixels are
arrayed in a first arrangement that is different from a second arrangement in which the sub-pixels of a second one of the
primary pixels that is immediately next to the first primary pixel in at least one of a column-wise reaction and a row-wise
direction of the primary pixel array are arrayed; wherein the second arrangement of the sub-pixels of the second one of the
primary pixels is different from a third arrangement in which the sub-pixels of a third one of the primary pixels that is
immediately next to the second primary pixel in the column-wise direction are arrayed and the first, second, and third arrangements
that are different from each other are arranged cyclically and consecutively in that order in the column-wise direction; and
wherein every two immediately adjacent ones of the sub-pixels of the two different arrangements of the first and second primary
pixels are different in color.