U.S. patent application number 16/318366 was filed with the patent office on 2021-04-01 for driving system of display device, driving method and display device.
The applicant listed for this patent is Shenzhen China Star Optoelectronics TEchnology Co., Ltd.. Invention is credited to Yuntao Li.
Application Number | 20210096408 16/318366 |
Document ID | / |
Family ID | 1000005459748 |
Filed Date | 2021-04-01 |
![](/patent/app/20210096408/US20210096408A1-20210401-D00000.png)
![](/patent/app/20210096408/US20210096408A1-20210401-D00001.png)
![](/patent/app/20210096408/US20210096408A1-20210401-D00002.png)
United States Patent
Application |
20210096408 |
Kind Code |
A1 |
Li; Yuntao |
April 1, 2021 |
DRIVING SYSTEM OF DISPLAY DEVICE, DRIVING METHOD AND DISPLAY
DEVICE
Abstract
In a driving system of a display device, wires are arranged on a
first connection unit, a second connection unit and a third
connection unit and the traces are arranged on a first circuit
board, a second circuit board and a third circuit board
accordingly. The electrical path is established on the aforesaid
circuit boards and the aforesaid connection units. One end of the
electrical path is connected to the power supply voltage, and the
other end is connected to the input end of a timing controller.
When all the connection units are connected, the power supply
voltage is inputted to the timing controller via the path, and the
timing controller outputs the power supply control signal for
controlling the display device to power on. When the connection
units are poorly connected, the timing controller outputs a power
supply stopping control signal to stop powering the display
device.
Inventors: |
Li; Yuntao; (Shenzhen,
CN) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
Shenzhen China Star Optoelectronics TEchnology Co., Ltd. |
Shenzhen, |
|
CN |
|
|
Family ID: |
1000005459748 |
Appl. No.: |
16/318366 |
Filed: |
September 13, 2018 |
PCT Filed: |
September 13, 2018 |
PCT NO: |
PCT/CN2018/105576 |
371 Date: |
January 16, 2019 |
Current U.S.
Class: |
1/1 |
Current CPC
Class: |
G09G 3/3611 20130101;
G09G 2330/02 20130101; G09G 2310/08 20130101; G02F 1/1345
20130101 |
International
Class: |
G02F 1/1345 20060101
G02F001/1345; G09G 3/36 20060101 G09G003/36 |
Foreign Application Data
Date |
Code |
Application Number |
Apr 24, 2018 |
CN |
201810374171.9 |
Claims
1. A driving system of a display device, comprising a first circuit
board, two second circuit boards, two third circuit boards
respectively corresponding to the two second circuit boards, two
first connection units respectively corresponding to the two second
circuit boards and connecting the corresponding second circuit
boards with the corresponding third circuit boards thereof, two
second connection units respectively corresponding to the two third
circuit boards and connecting the corresponding third circuit
boards to the first circuit board and third circuit boards, and two
third connection units respectively corresponding to the two third
circuit boards and connecting the corresponding third circuit
boards to the first circuit board; the first circuit board is
disposed with a timing controller, a first pin, a first trace, a
second trace and a third trace insulated with one another; a fourth
trace is disposed on the second circuit board; a fifth trace, a
sixth trace, and a seventh trace insulated with one another are
disposed on the third circuit board; the first connection unit
comprises a first wire and a second wire, of which two ends are
respectively connected to the corresponding second circuit board
and the corresponding third circuit board; the second connection
unit comprises a third wire and a fourth wire, of which two ends
are respectively connected to the corresponding third circuit board
and the first circuit board; the third connection unit comprises a
fifth wire and a sixth wire, of which two ends are respectively
connected to the corresponding third circuit board and the first
circuit board; the fourth trace of the second circuit board
respectively connects the first wire and the second wire of the
corresponding first connection unit to an end of the second circuit
board; in each of the third circuit boards, the fifth trace
respectively connects the first wire of the corresponding first
connection unit and the fifth wire of the corresponding third
connection unit to an end of the third circuit board, and the sixth
trace respectively connects the second wire of the corresponding
first connection unit and the third wire of the corresponding
second connection unit to the end of the third circuit board; the
seventh trace respectively connects the fourth wire of the
corresponding second connection unit and the sixth wire of the
corresponding third connection unit to the end of the third circuit
board; in the first circuit board, the third wire, which connects
the first pin to one of the two second connection units, is
connected to the end of the first circuit board, and an input end
of the timing controller connects the fourth wire of one of the two
second connection units, which is connected to the first pin, to an
end of the first circuit board, and the first trace respectively
connects the fifth wires of the two third connection units to the
end of the first circuit board, and the second trace respectively
connects the sixth wires of the two third connection units to the
end of the first circuit board, and the third trace respectively
connects the third wire and the fourth wire of the other second
connection units, except the one connected to the first pin, to the
end of the first circuit board; the first pin of the first circuit
board is connected to a power supply voltage; the timing controller
is used to output a power supply control signal from an output end
of the timing controller as a voltage inputted to the input end is
greater than zero, and outputs a power supply stopping control
signal from the output end of the timing controller as the voltage
inputted to the input end is equal to zero.
2. The driving system of the display device according to claim 1,
wherein the first wire and the second wire of the first connecting
unit are respectively arranged on two sides of the first connecting
unit; the third wire and the fourth wire of the second connection
unit are respectively arranged on two sides of the second
connection unit; the fifth wire and the sixth wire of the third
connection unit are respectively arranged on two sides of the third
connection unit.
3. The driving system of the display device according to claim 1,
wherein the first connection unit, the second connection unit and
the third connection unit are all flexible connection units.
4. The driving system of the display device according to claim 3,
wherein the first connection unit is a flexible circuit board.
5. The driving system of the display device according to claim 3,
wherein the second connection unit and the third connection unit
are both flexible flat cables.
6. The driving system of the display device according to claim 1,
wherein the power supply voltage is 3V to 5V.
7. The driving system of the display device according to claim 1,
wherein the two third circuit boards are spaced, and each second
circuit board is disposed on one side of the third circuit board
corresponding thereto and is away from the other third circuit
board.
8. The driving system of the display device according to claim 1,
wherein the first circuit board further comprises a resistor, and
one end of the resistor is electrically connected with the input
end of the timing controller, and the other end of the resistor is
grounded.
9. A driving method of a display device, applied to the driving
system of the display device according to claim 1, comprising: the
output end of the timing controller outputting a power supply
stopping control signal as the voltage of the input end of the
timing controller is zero; and the output end of the timing
controller outputting the power supply control signal as the
voltage of the input end of the timing controller is greater than
zero.
10. A display device, comprising the driving system of the display
device according to claim 1.
Description
FIELD OF THE INVENTION
[0001] The present invention relates to a display field, and more
particularly to a driving system of a display device, a driving
method and a display device.
BACKGROUND OF THE INVENTION
[0002] In the display skill field, the Liquid Crystal Display (LCD)
and other panel displays have been gradually replaced the Cathode
Ray Tube (CRT) displays. A liquid crystal display possesses
advantages of being ultra thin, power saved and radiation free and
has been widely utilized.
[0003] Most of the liquid crystal displays on the present market
are back light type liquid crystal display devices, which comprise
a liquid crystal display panel and a back light module. Generally,
the liquid crystal display panel comprises a Color Filter (CF)
substrate, a Thin Film Transistor (TFT) substrate, Liquid Crystal
(LC) sandwiched between the CF substrate and the TFT substrate and
sealant. The working principle of the liquid crystal display panel
is to locate liquid crystal molecules between two parallel glass
substrates, and a plurality of vertical and horizontal tiny
electrical wires are between the two glass substrates. The light of
back light module is reflected to generate images by applying
driving voltages to control whether the liquid crystal molecules to
be changed directions.
[0004] The liquid crystal display device of prior art is generally
provided with an X-board and a C-board. The X-board is electrically
connected with the liquid crystal display panel of the liquid
crystal display device, and the C-board is connected with the
flexible flat cables (FFC). The C board is used to set components
such as a timing controller, and the X board is used to set memory
and other components. In the current liquid crystal display device,
a plurality of X-boards are sequentially arranged in space, and the
most middle two X-boards are directly connected to the C-board, and
the adjacent X-boards are connected by flexible printed circuit
board (FPC). With the continuous development of display technology,
the liquid crystal display devices have been developed in the
direction of large size, high resolution and high refresh rate.
Consequentially, the number of flexible printed circuit boards for
connecting X-boards used for electrical purposes and the number of
flexible flat cables for connecting the C-board and the X-board are
increasing. When the X-boards are connected by the flexible printed
circuit boards, the flexible printed circuit board may have
problems with poor connection due to bad insertion. When the
C-board and the X-board are electrically connected through the
flexible flat cables, the flexible flat cables may also have
problems with poor connection due to the bad insertion. If the
connection of the flexible flat cable and the flexible printed
circuit board is not detected, and the liquid crystal display
device just starts to work, the electronic component may be burned
and melted due to poor connection, and the liquid crystal display
device is damaged.
SUMMARY OF THE INVENTION
[0005] An objective of the present invention is to provide a drive
system of a display device capable of avoiding the problem of
burnout and melting of electronic components due to poor connection
of connection units.
[0006] Another objective of the present invention is to provide a
drive method of a display device capable of avoiding the problem of
burnout and melting of electronic components due to poor connection
of connection units.
[0007] One another objective of the present invention is to provide
a display device capable of avoiding the problem of burnout and
melting of electronic components due to poor connection of
connection units.
[0008] For realizing the aforesaid objectives, the present
invention first provides a driving system of a display device,
comprising a first circuit board, two second circuit boards, two
third circuit boards respectively corresponding to the two second
circuit boards, two first connection units respectively
corresponding to the two second circuit boards and connecting the
corresponding second circuit boards with the corresponding third
circuit boards thereof, two second connection units respectively
corresponding to the two third circuit boards and connecting the
corresponding third circuit boards to the first circuit board and
third circuit boards, and two third connection units respectively
corresponding to the two third circuit boards and connecting the
corresponding third circuit boards to the first circuit board;
[0009] the first circuit board is disposed with a timing
controller, a first pin, a first trace, a second trace and a third
trace insulated with one another; a fourth trace is disposed on the
second circuit board; a fifth trace, a sixth trace, and a seventh
trace insulated with one another are disposed on the third circuit
board; the first connection unit comprises a first wire and a
second wire, of which two ends are respectively connected to the
corresponding second circuit board and the corresponding third
circuit board; the second connection unit comprises a third wire
and a fourth wire, of which two ends are respectively connected to
the corresponding third circuit board and the first circuit board;
the third connection unit comprises a fifth wire and a sixth wire,
of which two ends are respectively connected to the corresponding
third circuit board and the first circuit board; the fourth trace
of the second circuit board respectively connects the first wire
and the second wire of the corresponding first connection unit to
an end of the second circuit board; in each of the third circuit
boards, the fifth trace respectively connects the first wire of the
corresponding first connection unit and the fifth wire of the
corresponding third connection unit to an end of the third circuit
board, and the sixth trace respectively connects the second wire of
the corresponding first connection unit and the third wire of the
corresponding second connection unit to the end of the third
circuit board; the seventh trace respectively connects the fourth
wire of the corresponding second connection unit and the sixth wire
of the corresponding third connection unit to the end of the third
circuit board; in the first circuit board, the third wire, which
connects the first pin to one of the two second connection units,
is connected to the end of the first circuit board, and an input
end of the timing controller connects the fourth wire of one of the
two second connection units, which is connected to the first pin,
to an end of the first circuit board, and the first trace
respectively connects the fifth wires of the two third connection
units to the end of the first circuit board, and the second trace
respectively connects the sixth wires of the two third connection
units to the end of the first circuit board, and the third trace
respectively connects the third wire and the fourth wire of the
other second connection units, except the one connected to the
first pin, to the end of the first circuit board;
[0010] the first pin of the first circuit board is connected to a
power supply voltage;
[0011] the timing controller is used to output a power supply
control signal from an output end of the timing controller as a
voltage inputted to the input end is greater than zero, and outputs
a power supply stopping control signal from the output end of the
timing controller as the voltage inputted to the input end is equal
to zero.
[0012] The first wire and the second wire of the first connecting
unit are respectively arranged on two sides of the first connecting
unit;
[0013] the third wire and the fourth wire of the second connection
unit are respectively arranged on two sides of the second
connection unit;
[0014] the fifth wire and the sixth wire of the third connection
unit are respectively arranged on two sides of the third connection
unit.
[0015] The first connection unit, the second connection unit and
the third connection unit are all flexible connection units.
[0016] The first connection unit is a flexible circuit board.
[0017] The second connection unit and the third connection unit are
both flexible flat cables.
[0018] The power supply voltage is 3V to 5V.
[0019] The two third circuit boards are spaced, and each second
circuit board is disposed on one side of the third circuit board
corresponding thereto and is away from the other third circuit
board.
[0020] The first circuit board further comprises a resistor, and
one end of the resistor is electrically connected with the input
end of the timing controller, and the other end of the resistor is
grounded.
[0021] The present invention further provides a driving method of a
display device, applied to the aforesaid driving system of the
display device, comprising:
[0022] the output end of the timing controller outputting a power
supply stopping control signal as the voltage of the input end of
the timing controller is zero; and
[0023] the output end of the timing controller outputting the power
supply control signal as the voltage of the input end of the timing
controller is greater than zero.
[0024] The present invention further provides a display device,
comprising the aforesaid display system of the display device.
[0025] The benefits of the present invention are: in the driving
system of the display device provided by the present invention,
wires are arranged on the first connection unit, the second
connection unit and the third connection unit and the traces are
arranged on the first circuit board, second circuit board and third
circuit board accordingly. The electrical path is established on
the first circuit board, the second circuit board, the third
circuit board, the first connection unit, the second connection
unit and the third connection unit. One end of the electrical path
is connected to the power supply voltage, and the other end is
connected to the input end of the timing controller on the first
circuit board. When all the connection units are connected, the
power supply voltage is inputted to the timing controller via the
path, and the timing controller outputs the power supply control
signal for controlling the display device to power on. When the
connection units are poorly connected, the voltage of the input end
of the timing controller is zero, and the timing controller outputs
a power supply stopping control signal to stop powering the display
device, which can avoid the problem of burnout and melting of
electronic components due to poor connection of connection units.
The drive method of the display device provided by the present
invention is capable of avoiding the problem of burnout and melting
of electronic components due to poor connection of connection
units. The display device provided by the present invention
comprises the aforesaid driving system of the display device and is
capable of avoiding the problem of burnout and melting of
electronic components due to poor connection of connection
units.
BRIEF DESCRIPTION OF THE DRAWINGS
[0026] In order to better understand the characteristics and
technical aspect of the invention, please refer to the following
detailed description and accompanying drawings of the present
invention. However, the drawings are provided for reference only
and are not intended to be limiting of the invention.
[0027] In drawings,
[0028] FIG. 1 is a structural diagram of a driving system of a
display device according to the present invention;
[0029] FIG. 2 is a flowchart of a driving method of a display
device according to the present invention.
DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS
[0030] For better explaining the technical solution and the effect
of the present invention, the present invention will be further
described in detail with the accompanying drawings and the specific
embodiments.
[0031] Please refer to FIG. 1. The driving system of the display
device according to the present invention comprises a first circuit
board 100, two second circuit boards 200, two third circuit boards
300 respectively corresponding to the two second circuit boards
200, two first connection units 400 respectively corresponding to
the two second circuit boards 200 and connecting the corresponding
second circuit boards 200 with the corresponding third circuit
boards 300 thereof, two second connection units 500 respectively
corresponding to the two third circuit boards 300 and connecting
the corresponding third circuit boards 300 to the first circuit
board 100 and third circuit boards, and two third connection units
600 respectively corresponding to the two third circuit boards 300
and connecting the corresponding third circuit boards 300 to the
first circuit board 100.
[0032] The first circuit board 100 is disposed with a timing
controller 110, a first pin A, a first trace 120, a second trace
130 and a third trace 140 insulated with one another. A fourth
trace 210 is disposed on the second circuit board 200. A fifth
trace 310, a sixth trace 320, and a seventh trace 330 insulated
with one another are disposed on the third circuit board 300. The
first connection unit 400 comprises a first wire 410 and a second
wire 420, of which two ends are respectively connected to the
corresponding second circuit board 200 and the corresponding third
circuit board 300. The second connection unit 500 comprises a third
wire 510 and a fourth wire 520, of which two ends are respectively
connected to the corresponding third circuit board 300 and the
first circuit board 100. The third connection unit 600 comprises a
fifth wire 610 and a sixth wire 620, of which two ends are
respectively connected to the corresponding third circuit board 300
and the first circuit board 100. The fourth trace 210 of the second
circuit board 200 respectively connects the first wire 410 and the
second wire 420 of the corresponding first connection unit 400 to
an end of the second circuit board 200. In each of the third
circuit boards 300, the fifth trace 310 respectively connects the
first wire 410 of the corresponding first connection unit 400 and
the fifth wire 610 of the corresponding third connection unit 600
to an end of the third circuit board 300, and the sixth trace 320
respectively connects the second wire 420 of the corresponding
first connection unit 400 and the third wire 510 of the
corresponding second connection unit 510 to the end of the third
circuit board 300, and the seventh trace 330 respectively connects
the fourth wire 520 of the corresponding second connection unit 500
and the sixth wire 620 of the corresponding third connection unit
600 to the end of the third circuit board 300. In the first circuit
board 100, the third wire 510, which connects the first pin A to
one of the two second connection units 500, is connected to the end
of the first circuit board 100, and an input end B of the timing
controller 100 connects the fourth wire 520 of one of the two
second connection units 500, which is connected to the first pin A,
to an end of the first circuit board 100, and the first trace 120
respectively connects the fifth wires 610 of the two third
connection units 600 to the end of the first circuit board 100, and
the second trace 130 respectively connects the sixth wires 620 of
the two third connection units 600 to the end of the first circuit
board 100, and the third trace 140 respectively connects the third
wire 510 and the fourth wire 520 of the other second connection
units 500, except the one (the second connection units) connected
to the first pin A, to the end of the first circuit board 100.
[0033] The first pin A of the first circuit board 100 is connected
to a power supply voltage VDD.
[0034] The timing controller 110 is used to output a power supply
control signal from an output end C of the timing controller as a
voltage inputted to the input end B is greater than zero, and
outputs a power supply stopping control signal from the output end
C of the timing controller as the voltage inputted to the input end
B is equal to zero.
[0035] Preferably, the first wire 410 and the second wire 420 of
the first connecting unit 400 are respectively arranged on two
sides of the first connecting unit 400 in order to prevent the
first wire 410 and the second wire 420 from influencing the wiring
of other lines in the first connection unit 400. The third wire 510
and the fourth wire 520 of the second connection unit 500 are
respectively arranged on two sides of the second connection unit
500 in order to prevent the third wire 510 and the fourth wire 520
from influencing the wiring of other lines in the second connection
unit 500. The fifth wire 610 and the sixth wire 620 of the third
connection unit 600 are respectively arranged on two sides of the
third connection unit 600 in order to prevent the fifth wire 610
and the sixth wire 620 from influencing the wiring of other lines
in the third connection unit 600.
[0036] Specifically, the first connection unit 400, the second
connection unit 500 and the third connection unit 600 are all
flexible connection units.
[0037] Preferably, the first connection unit 400 is a flexible
circuit board, and the second connection unit 500 and the third
connection unit 600 are both flexible flat cables.
[0038] Specifically, in the embodiment shown in FIG. 1, the two
third circuit boards 300 are spaced, and each second circuit board
200 is disposed on one side of the third circuit board 300
corresponding thereto and is away from the other third circuit
board 300.
[0039] Specifically, the power supply voltage is 3V to 5V.
Preferably, the power supply voltage is 3.3V.
[0040] Preferably, referring to FIG. 1, the first circuit board 100
further comprises a resistor R, and one end of the resistor R is
electrically connected with the input end B of the timing
controller 110, and the other end of the resistor is grounded.
[0041] Significantly, in the present invention, the first wire 410
and the second wire 420 are disposed on the first connection unit
400, and the third wire 510 and the fourth wire 520 are disposed on
the second connection unit 500, the fifth wire 610 and the sixth
wire 620 are disposed on the third connection unit 600. Meanwhile,
the first pin A, the first trace 120, the second trace 130, and the
third trace 140 are disposed on the first circuit board 100, and
the fourth trace 210 is disposed on the second circuit board 200,
and the fifth trace 310, the sixth trace 320 and the seventh trace
330 are disposed on the board 300 so that a connection path is
formed between the first pin A and the input end B of the timing
controller 110. As illustrated in the embodiment shown in FIG. 1,
the path is formed by the third wire 510 of the second connection
unit 500 on the left, the sixth wire 320 of the left third circuit
board 300 on the left, the second wire 420 of the 400 on the left,
the fourth wire 210 of the second circuit board 200 on the left,
the first wire 410 of the first connection unit 400 on the left,
the fifth wire 310 of the third circuit board 300 on the left, the
fifth wire 610 of the third connection unit 600 on the left, the
first wire 120 of the first circuit board 100, the fifth wire 610
of the third connection unit 600 on the right, the fifth wire 310
of the third circuit board 300 on the right, the first wire 410 of
the first connection unit 400 on the right, the fourth wire 210 of
the second circuit board 200 on the right, the second wire 420 of
the first connection unit 400 on the right, the sixth trace 320 of
the third circuit board 300 on the right, the third wire 500 of the
second connection unit 500 on the right, the third trace 140 of the
first circuit board 100, the fourth wire 520 of the second
connection unit 500 on the right, the seventh wire 330 of the third
circuit board 300 on the right, the sixth wire 620 of the third
connection unit 600 on the right, the second wiring 130 of the
first circuit board 100, the sixth wire 620 of the third circuit
board 600 on the left, the seventh trace 330 of the third circuit
board 300 on the left and the third wire 510 of the second circuit
board 500 on the left are connected in sequence. When all the
connection units and the corresponding circuit boards are connected
perfectly, the connection path is on, and the power supply voltage
VDD is inputted to the input end B of the timing controller 110 via
the connection path, so that the voltage of the input end B of the
timing controller 110 is greater than 0 at this moment. The
difference between the power supply voltage VDD and the voltage of
the input end B of the timing controller 110 is related to the
equivalent resistance of the connection path. At this time, the
timing controller 110 outputs the power supply control signal from
the output end C thereof. The power supply signal is used to power
on the display device. When at least one of the plurality of first
connection units 400, second connection units 500 and third
connection units 600 is in poor connection with the corresponding
circuit board, the connection path will a break between the poorly
connected connection unit and the circuit board. Therefore, the
power supply voltage VDD cannot be transmitted to the input end B
of the timing controller 110, so that the voltage of the input end
B of the timing controller 110 is approximately zero, and the
timing controller outputs a power supply stopping control signal.
The power supply stopping control signal is used to control to stop
powering on the display device. Thus, the display device can be
powered on after ensuring that each connection unit is connected
properly and it is capable of avoiding the problem of burnout and
melting of electronic components due to poor connection of
connection units.
[0042] Please refer to FIG. 2. Based on the same inventive concept,
the present invention further provides a driving method of a
display device, applied to the aforesaid driving system of the
display device. The structure of the drive system of the display
device is not described repeatedly here, and the driving method of
the display device comprises the following steps:
[0043] Step S1, the output end C of the timing controller 100
stopping outputting the power supply control signal to control the
display stopping powering on as the voltage of the input end B of
the timing controller 110 is zero since there is a problem of poor
connection between at least one of the first connection unit 400,
the second connection unit 500, and the third connection unit 600
and the corresponding circuit board.
[0044] Step S2, the output end C of the timing controller 100
outputting the power supply control signal to control the display
powering on as the voltage of the input end B of the timing
controller 110 is greater than zero since the connection between at
least one of the first connection unit 400, the second connection
unit 500, and the third connection unit 600 and the corresponding
circuit board is good.
[0045] The driving method of the display device according to the
present invention is applied to the aforesaid driving system of the
display device that the display device can be powered on after
ensuring that each connection unit is connected properly and
capable of avoiding the problem of burnout and melting of
electronic components due to poor connection of connection
units.
[0046] Based on the same inventive concept, the present invention
further provides a display device, comprising the aforesaid driving
system of the display device. The drive system of the display
device is not described repeatedly here.
[0047] Specifically, the display device is a liquid crystal display
device.
[0048] The display device according to the present invention
comprises the aforesaid driving system of the display device that
the display device can be powered on after ensuring that each
connection unit is connected properly and capable of avoiding the
problem of burnout and melting of electronic components due to poor
connection of connection units.
[0049] In conclusion, in the driving system of the display device
of the present invention, wires are arranged on the first
connection unit, the second connection unit and the third
connection unit and the traces are arranged on the first circuit
board, second circuit board and third circuit board accordingly.
The electrical path is established on the first circuit board, the
second circuit board, the third circuit board, the first connection
unit, the second connection unit and the third connection unit. One
end of the electrical path is connected to the power supply
voltage, and the other end is connected to the input end of the
timing controller on the first circuit board. When all the
connection units are connected, the power supply voltage is
inputted to the timing controller via the path, and the timing
controller outputs the power supply control signal for controlling
the display device to power on. When the connection units are
poorly connected, the voltage of the input end of the timing
controller is zero, and the timing controller outputs a power
supply stopping control signal to stop powering the display device,
which can avoid the problem of burnout and melting of electronic
components due to poor connection of connection units. The drive
method of the display device according to the present invention is
capable of avoiding the problem of burnout and melting of
electronic components due to poor connection of connection units.
The display device according to the present invention, comprising
the aforesaid driving system of the display device, is capable of
avoiding the problem of burnout and melting of electronic
components due to poor connection of connection units.
[0050] Above are only specific embodiments of the present
invention, the scope of the present invention is not limited to
this, and to any persons who are skilled in the art, change or
replacement which is easily derived should be covered by the
protected scope of the invention. Thus, the protected scope of the
invention should go by the subject claims.
* * * * *