CN104715706B - Transmission method for display device - Google Patents
Transmission method for display device Download PDFInfo
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- CN104715706B CN104715706B CN201310675298.1A CN201310675298A CN104715706B CN 104715706 B CN104715706 B CN 104715706B CN 201310675298 A CN201310675298 A CN 201310675298A CN 104715706 B CN104715706 B CN 104715706B
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Abstract
It is used for the transmission method of a display device the invention discloses a kind of, the transmission method includes the mode of operation for setting one in multiple source electrode drivers;And according to the mode of operation of one in the multiple source electrode driver, determine whether one in the multiple source electrode driver receives a display data of a pair of frequency controls;Wherein, at least two source electrode drivers are mutually coupled in the multiple source electrode driver will be according to its mode of operation, one correspondence receives one and controls trigger signal, a control signal, one first display data trigger signal and one first display signal, and another one receives the control trigger signal, the control signal, one second display data trigger signal and one second display signal.
Description
Technical field
It is used for the transmission method of a display device the present invention relates to a kind of, more particularly to a kind of display of adaptive setting one is set
The transmission method of mode of operation under standby middle different working modes corresponding to source electrode driver.
Background technology
With the progress of Display Technique, in order to pursue the lightening of higher resolution ratio and hardware unit, it is known that technology
Display device can use man-to-man differential wave transmission mode, by frequency controller correspondence by differential wave by odd number or
Multiple differential pairs are sent to every one source driver, and then complete the setting per one source driver.Fig. 1 is refer to, Fig. 1 is
Know the schematic diagram of a display device 10 in technology, for convenience of explanation, display device 10 only draws the component of part, includes one
Frequency controller 100, a circuit board 102, source electrode driver SD_1~SD_N, the signal lead D0_PN_1 for high-speed transfer
~D0_PN_N, D1_PN_1~D1_PN_N and the signal lead LN for low speed transmissions, certainly, display device 10 is also wrapped
Show containing a display device control chip, a gate controller, a source electrode controller, a backlight module, multiple display units, one
Show the components such as panel, omit herein in the hope of succinct.As shown in figure 1, frequency controller 100 can be walked using signal in this known technology
Line D0_PN_1~D0_PN_N, D1_PN_1~D0_PN_N and source electrode driver SD_1~SD_N position data LOC, by difference
Differential-pair signal corresponding to source electrode driver SD_1~SD_N, exclusive source electrode is sent to using one-to-one transmission mode and is driven
Dynamic device SD_1~SD_N, while the signal lead LN of low speed signal transmission, which is also transmitted, is specific to source electrode driver SD_1~SD_N's
Control signal, and then control different source electrode driver SD_1~SD_N's opens/to close work.Certainly, the frequency of other known technologies
Controller also can non-use position data LOC, and directly transmit exclusive control signal in source electrode driver SD_1~SD_N.
Please continue to refer to Fig. 2, Fig. 2 is institute between one in frequency controller in Fig. 1 100 and source electrode driver SD_1~SD_N
The schematic diagram of the signal of transmission.Pass through as shown in Fig. 2 including between frequency controller 100 and source electrode driver SD_1~SD_N
A high-speed signal transmission 20 and the low speed transmissions signal 22 by low speed transmissions of high-speed transfer, wherein, high-speed signal transmission
20 include a control trigger signal 200, the control signal 202 corresponding to control trigger signal 200, a data triggering signals
204 and the display picture signal 206 corresponding to data triggering signals 204, then comprised at least as low speed transmissions signal 22
There is a startup control signal 220.In the case, the collocation position data LOC of control signal 220 transmission different sets are started to not
With source electrode driver SD_1~SD_N, when source electrode driver SD_1~SD_N receives signal lead D0_PN_1~D0_PN_N, D1_
After the control trigger signal 200 of PN_1~D0_PN_N transmission, it will be triggered to receive corresponding control signal 202, similarly,
When source electrode driver SD_1~SD_N receives the data triggering signals of D0_PN_1~D0_PN_N, D1_PN_1~D0_PN_N transmission
After 204, it is also triggered to receive corresponding display picture signal 206.
It is well known, however, that the display device of technology must pass through signal lead D0_PN_1~D0_PN_N, D1_PN_1~D0_
PN_N, and via man-to-man signal transmission form, source electrode driver SD_1~SD_N is specific to by the transmission of frequency controller 100
Control signal to source electrode driver SD_1~SD_N.Therefore, display device is unavoidable includes substantial amounts of signal lead, right
For the high-resolution display device that Developing High-speed is transmitted, the cost of the production and lightweight of computer hardware is more difficult reaches.Therefore,
There is provided a kind of transmission method of display device more efficiently, it has also become the important topic of this area.
The content of the invention
Therefore, the main object of the present invention is to be that offer is a kind of to be used for the transmission method of a display device, using one
A pair of frequency controls set up the transmission work for showing signal with multiple source electrode drivers.
The present invention disclose it is a kind of be used for the transmission method of a display device, the display device includes a pair of multi-frequencies
Controller and multiple source electrode drivers, the transmission method include the mode of operation for setting the multiple source electrode driver;
And according to a command signal, determine the multiple source electrode driver under different working modes whether on and off, to connect
Receive a display data of the pair of frequency control;Wherein, the display data includes at least one first control triggering
Signal, one first control signal, one first display data trigger signal, one first display signal, the triggering of one second display data
Signal and one second display signal, and the command signal is an inner setting signal or an external setting-up signal.
Brief description of the drawings
Fig. 1 is the schematic diagram of a display device in known technology.
The schematic diagram of Fig. 2 signals used between one in frequency controller in Fig. 1 and multiple source electrode drivers.
Fig. 3 is the schematic diagram of the display device of the embodiment of the present invention one.
Fig. 4 is that signal used shows between the person of being mutually coupled in a pair of frequency controls and multiple source electrode drivers in Fig. 3
It is intended to.
Fig. 5 is the flow chart of the transfer process of the embodiment of the present invention one.
Fig. 6 is the schematic diagram of another display device of the embodiment of the present invention.
Fig. 7 be in Fig. 3 in a pair of frequency controls and multiple source electrode drivers between the person of being mutually coupled signal used it is detailed
Thin schematic diagram.
Fig. 8 is signal used is another in detail between a pair of frequency controls and multiple source electrode driver persons of being mutually coupled in Fig. 3
Thin schematic diagram.
Fig. 9 is signal used is another in detail between a pair of frequency controls and multiple source electrode driver persons of being mutually coupled in Fig. 6
Thin schematic diagram.
Wherein, description of reference numerals is as follows:
10th, 30 display device
100 frequency controllers
20th, 40 high-speed signal transmission
200 control trigger signals
202 control signals
204 data triggering signals
206 display picture signals
22nd, 42 low speed transmissions signal
220 start control signal
300 a pair of frequency controls
302 circuit boards
50 transfer process
500th, 502,504,506 step
SD_1~SD_N source electrode drivers
D0_PN_1~D0_PN_N, D1_PN_1~signal lead
D1_PN_N、LN、
D0_LN_1~D0_LN_m, D1_LN_1~, signal lead group
D1_LN_m
CS, CS1, CS2 control trigger signal
CS_CMD, CS1_CMD, CS2_CMD, control signal
DIO2
CMDS_1~CMDS_N start control signal
DS1, DS2 display data trigger signal
DATA1, DATA2 show signal
CMD, CMD_1, CMD_2 start control signal
LOC position datas
DIO1 external control signals
Embodiment
Some vocabulary have been used to censure specific component among specification and follow-up claim.Affiliated neck
Has usually intellectual in domain, it is to be appreciated that manufacturer may call same component with different nouns.This specification
And follow-up claim is not in the way of the difference of title is used as difference component, but with component functionally
Difference is used as the benchmark of difference.It is open for one in the "comprising" of specification in the whole text and follow-up claim mentioned in
Term, therefore " include but be not limited to " should be construed to.In addition, " coupling " one word is herein comprising any directly and indirect electric
Connection means.Therefore, if a first device is coupled to a second device described in text, representing the first device can directly connect
The second device is connected to, or the second device is coupled indirectly to by other devices or connection means.
Fig. 3 is refer to, Fig. 3 is the schematic diagram of the display device 30 of the embodiment of the present invention one.As shown in figure 3, display device 30
Basic framework comprising a display device control chip, a gate controller, a source electrode controller, a frequency controller, one the back of the body
The components/modules such as optical module, multiple display units, a display panel, it should be known in the art.For the sake of clarity, in Fig. 3
Display device 30 is only drawn a pair of frequency controls 300, source electrode driver SD_1~SD_N, the signals for high-speed transfer and walked
Line group D0_LN_1, D1_LN_1~D0_LN_m, D1_LN_m and signal lead LN for low speed transmissions, and a pair of multi-frequencies
Controller 300, source electrode driver SD_1~SD_N and signal lead group D0_LN_1, D1_LN_1~D0_LN_m, D1_LN_m with
Cabling LN is all arranged on a circuit board 302.In addition, a pair of frequency controls 300 are further coupled to display and set in the present embodiment
Standby control chip(Do not show in figure), and then control the letter between a pair of frequency controls 300 and source electrode driver SD_1~SD_N
Number transmission.It is preferred that the embodiment in Fig. 3 mutually concatenates to share a signal lead group for each two source electrode driver, such as
Source electrode driver SD_1, SD_2 are to receive the differential-pair signal of signal lead group D0_LN_1, D1_LN_1, by source electrode driver
SD_3, SD_4 come receive signal lead group D0_LN_2, D1_LN_2 differential-pair signal ... and by source electrode driver SD_N-
1st, SD_N receives the differential-pair signal of signal lead group D0_LN_m, D1_LN_m, and certainly, those skilled in the art also may be used
With reference to the concept of the present embodiment, change to adaptive by more than two source electrode drivers to share same signal lead group and receive phase
Same differential-pair signal person, is also scope of the invention.
Furthermore, the transmission method that display device 30 is applicable in the present embodiment can further be summarized as a transfer process 50
And program code is compiled as, and be stored in a storage element of display device control chip, as shown in Figure 5.Transfer process
50 comprise the steps of:
Step 500:Start.
Step 502:Determine source electrode driver SD_1~SD_N mode of operation.
Step 504:According to a command signal, determine source electrode driver SD_1~SD_N under different working modes whether be
On and off, to receive a display data of a pair of frequency controls 300.
Step 506:Terminate.
In other words, the transfer process 50 provided by the present invention for display device 30, will be referring initially in step 502
Coupling relation between source electrode driver SD_1~SD_N, source electrode driver SD_1~SD_N mode of operation is set with correspondence, its
In, mode of operation provided by the present invention can be a leading pattern(Lead Mode)Or a tandem mode(Cascade Mode),
First place in coupling order between the source electrode driver being mutually coupled to represent, such as multiple source electrode drivers being mutually coupled
Source electrode driver will be set to leading pattern, as other source electrode drivers being mutually coupled with the first source electrode driver then
It is set to tandem mode.Furthermore, each also includes one in source electrode driver SD_1~SD_N that the present embodiment is provided
Exclusive position data LOC, can be used to judge that source electrode driver SD_1~SD_N, in the relative position of display panel, is set with correspondence
Determine source electrode driver SD_1~SD_N mode of operation.
Then, in step 504, the present embodiment sets source electrode driver SD_1~SD_N work by command signal
Pattern is that a conduction mode or a close pattern, i.e. command signal are used on and off source electrode driver SD_1~SD_N, is made
Source electrode driver SD_1~SD_N can receive the differential pair letter of a pair of frequency controls 300 in correspondence in the different operating time
Number, and differential-pair signal is the display data of display device 30.It is preferred that the command signal in the present embodiment can be by one-to-many
Produced by the signal lead LN of the low speed transmissions of frequency controller 300, or command signal also can as produced by an external pins,
In other words, the command signal of the present embodiment can correspond to an inner setting signal or an external setting-up signal, and paragraphs below will be detailed
State corresponding work between different command signal.
Fig. 4 is refer to, Fig. 4 is a pair of frequency controls 300 and phase mutual coupling in source electrode driver SD_1~SD_N in Fig. 3
The schematic diagram of the signal transmitted between the person of connecing, in the present embodiment, the person of being mutually coupled is, for example, one first source electrode driver SD_1
With one second source electrode driver SD_2, so it is not used to limit scope of the invention, in addition, the command signal used in the present embodiment is
Startup control signal CMD produced by the signal lead LN of low speed transmissions from a pair of frequency controls 300, to correspondence
Set source electrode driver SD_1~SD_2 mode of operation.As shown in Figure 3 and Figure 4, frequency controller 100 and source electrode driver
Include the high-speed signal transmission 40 transmitted by signal lead group D0_LN_1 and D1_LN_1 between SD_1~SD_2 with leading to
Cross the low speed transmissions signal 42 that signal lead LN is transmitted.It is preferred that high-speed signal transmission 40 is differential-pair signal and correspondingly
For the display data of display device 30, and high-speed signal transmission 40 includes at least one control trigger signal CS, corresponding to control
A trigger signal CS control signal CS_CMD, one first display data trigger signal DS1, one first display signal DATA1, one
The display signal DATA2 of second display data trigger signal DS2 and one second, then include at least as low speed transmissions signal 42
The startup control signal CMD of two repetitions.It is interesting to note that the control trigger signal CS in the present embodiment is for informing source electrode
When driver SD_1~SD_2 starts to receive control signal CS_CMD, and the first display data trigger signal DS1 and second is aobvious
Show that data triggering signals DS2 is then used for informing when source electrode driver SD_1~SD_2 starts to receive the first display signal DATA1
With the second display signal DATA2.According to different application demand, the first display data trigger signal DS1 may be designed as showing with second
It is identical trigger signal to show data triggering signals DS2, and control trigger signal CS is also designed to two kinds of control trigger signal CS1
With CS2, source electrode driver SD_1, SD_2 are given to transmit different settings.
Specifically, source electrode driver SD_1~SD_2 in the present embodiment will couple relation according to it, be set respectively
For leading pattern and tandem mode.Then, sub- startup control is also included in the startup control signal CMD of low speed transmissions signal 42
Signal CMDS_1~CMDS_N, make source electrode driver SD_1~SD_2 by according to corresponding son start control signal CMDS_1~
CMDS_2, switches its applicable mode of operation for conduction mode or close pattern.Understand idea of the invention, i.e. this reality accordingly
The son startup control signal CMDS_1~CMDS_2 applied in example can be respectively turned on or close source electrode driver SD_1~SD_2, make source
Driver SD_1 will be in one first ON time, and received in sequence controls trigger signal CS, control signal CS_CMD, display number
According to the display signal DATA1 of trigger signal DS and first, then it is closed as source electrode driver SD_2 in the first ON time.Connect
, after source electrode driver SD_1 has received the first display signal DATA1, start the son in control signal CMD and start control letter
Number CMDS_1~CMDS_2 will switch source electrode driver SD_1~SD_2 mode of operation again, be respectively set as close pattern or
Conduction mode so that source electrode driver SD_1 in one second ON time after the first ON time for close, and source electrode drive
Dynamic device SD_2 in the second ON time in being then switched to conduction mode, in addition, source electrode driver SD_2 also shares source drive
Control trigger signal CS that device SD_1 has been received and control signal CS_CMD, and received in sequence display data trigger signal DS and
Second display signal DATA2.
Certainly, those skilled in the art can also change the concept of the present embodiment, include many in other embodiment
It is individual be mutually coupled source electrode driver SD_1~SD_N when, using starting control signal CMD before different ON time is carried out
Neutron starts control signal CMDS_1~CMDS_N, and correspondence switching source electrode driver SD_1~SD_N mode of operation is respectively to lead
Logical pattern is close pattern, is shown so that source electrode driver SD_1~SD_N can receive multiple data triggering signals respectively with multiple
Show signal and Compliance control trigger signal and control signal person, fall within scope of the invention.In addition, starting control in the present embodiment
Signal CMD processed son starts control signal CMDS_1~CMDS_N, can be by the embodiment of a high/low level signal come correspondence
Mode of operation used in setting/switching source electrode driver SD_1~SD_N, for example, embodiment such as data signal 1 or 0, and this
Field has usual skill can also be produced by other digital logic signal/modules etc., be not used to the model of the limitation present invention
Farmland.
Compared to known technology, a pair of frequency controls 300 can utilize multiple in the embodiment as shown in Fig. 3 to Fig. 5
Signal lead group D0_LN_1, D1_LN_1, LN~D0_LN_m, D1_LN_m, transmitting display data(That is high-speed signal transmission 40)
To source electrode driver SD_1~SD_N, and source electrode driver SD_1~SD_N shared signal lead group D0_LN_1, D1_LN_1,
LN~D0_LN_m, D1_LN_m, to avoid setting substantial amounts of signal lead in display device 30(Or signal lead group).
Fig. 6 is refer again to, Fig. 6 is the schematic diagram of another display device 80 of the embodiment of the present invention.As shown in fig. 6, compared to
Fig. 3 display device 30, display device 80 also includes a pair of frequency controls 300, circuit board 302, source electrode driver SD_
1~SD_N, signal lead group D0_LN_1, D1_LN_1~D0_LN_m, D1_LN_m for high-speed transfer and for low speed
The signal lead LN of transmission, and both difference be display device 80 in source electrode driver SD_1~SD_N by according to different
Position data, and receive an external control signal DIO1 by external pins come correspondence(A such as external pulse signal), and then
Source electrode driver SD_1~SD_N mode of operation is set, i.e. command signal used in the present embodiment is produced by external pins
Give birth to and be external setting-up signal.
Fig. 7 is refer again to, Fig. 7 is mutual in a pair of frequency controls 300 in Fig. 3 and source electrode driver SD_1~SD_N
The detailed maps of the signal transmitted between coupling person, in the present embodiment, the person of being mutually coupled is, for example, one first source drive
Device SD_1 and one second source electrode driver SD_2, and command signal used in the present embodiment is external setting-up signal.Such as Fig. 3 and figure
Shown in 7, a high-speed signal transmission 60 includes the first control trigger signal CS1, one corresponding to the first control trigger signal CS1
First control signal CS1_CMD, the first display data trigger signal DS1, the first display signal DATA1, the second control triggering letter
Number CS2, the one second control signal CS2_CMD corresponding to the second control trigger signal CS2, the second display data trigger signal
The display signals of DS2 and second DATA2.In other words, the high-speed signal transmission 40 compared to Fig. 4, Fig. 7 high-speed signal transmission
60 include two kinds of control trigger signals CS1_CMD, CS2_CMD to be respectively supplied to two source electrode driver SD_1~SD_2.
In the case, source electrode driver SD_1~SD_2 in the present embodiment couples relation also according to it(Outside can for example be passed through
Pin or LOC pins set acquirement)Correspondingly it is set as leading pattern or tandem mode.It is set to the source electrode of leading pattern
Driver SD_1 only will can receive the first control signal CS1_CMD by control trigger signal CS1 triggerings, and only can be by first
Display data trigger signal DS1 triggers to receive the first display signal DATA1.In addition, source electrode driver SD_2 can only will be controlled
Trigger signal CS2 processed triggers to receive the second control signal CS2_CMD, and only can be by the second display data trigger signal DS2
Trigger to receive the first display signal DATA2.SD_1 and SD_2 data will be sequentially transmitted as frequency controller 300, in detail
Refer to shown in Fig. 8.It is interesting to note that the first control trigger signal CS1 and the second control triggering letter used in the present embodiment
Number CS2, will be used for informing when source electrode driver SD_1~SD_2 starts to receive the first control signal CS1_CMD and be controlled with second
Signal CS2_CMD, and the first display data trigger signal DS1 and the second display data trigger signal DS2 are then used for informing source electrode
When driver SD_1~SD_2 starts to receive the first display signal DATA1 and the second display signal DATA2.In addition, this implementation
Also allow for being set to leading pattern in example and the source electrode driver of tandem mode all controls trigger signal triggering by identical
Receive and start control signal CMD, i.e. CS1=CS2, only in view of the display data of required reception may be different, therefore will use not
Same the first display data trigger signal DS1 or the second display data trigger signal DS2 triggers to correspond to, certainly, it is possible to use
Identical controls trigger signal CS to be triggered, and then come the total amount of data of transmission needed for reducing, here, control trigger signal
Related setting be not used to limit scope of the invention.
In addition, refer again to Fig. 8, Fig. 8 be a pair of frequency controls 300 and source electrode driver SD_1 in Fig. 7~
Coupling between the SD_2 persons of being mutually coupled between another embodiment detailed maps of signal used, wherein source electrode driver SD_1~SD_2
Relation can also set acquirement by external pins or LOC pins.Low speed transmissions signal 42 compared to Fig. 7, a Fig. 8 low speed
Transmission signal 70 includes the first enabling signal CMD_1 and the second enabling signal CMD_2, and the first enabling signal CMD_1 and the
Two enabling signal CMD_2 can be used to open the source electrode driver for being set to leading pattern or tandem mode, the source electrode being unlocked
Driver SD_1~SD_2 will be triggered and receive corresponding display data(That is high-speed signal transmission 60), by being wherein applicable
Work gimmick it is similar with the embodiment shown in Fig. 7, will not be repeated here.
In addition, Fig. 9 is refer to, Fig. 9 is a pair of frequency controls 300 and source electrode driver SD_1~SD_ in Fig. 6
Another detailed maps of signal used between the person of being mutually coupled in N, in the present embodiment, the person of being mutually coupled is, for example, one first source electrode
Driver SD_1 and one second source electrode driver SD_2, and be not used to limit scope of the invention, and Fig. 9 embodiment includes
Fig. 7 high-speed signal transmission 60 is with outside low speed transmissions signal 42, also including another control signal DIO2.Such as Fig. 6 and Fig. 9 institutes
Show, source electrode driver SD_1~SD_N of display device 80 can also be further divided into different groups in the present embodiment(Such as basis
Position between different source electrode drivers), it is correspondingly formed multiple source electrode driver groups.For example, each source in the present embodiment
Driver group includes at least the first source electrode driver SD_1 and the second source electrode driver SD_2 and is respectively set as a neck
Make to be electrically connected to each other by a transmission line between first pattern and a tandem mode, two source electrode drivers, and driven in the first source electrode
Dynamic device SD_1 has received external control signal DIO1 and carried out after related work, then is produced separately by the first source electrode driver SD_1
One control signal DIO2(Such as another pulse settings signal)To transmit to the second source electrode driver SD_2, second is changed with correspondence
Source electrode driver SD_2 mode of operation.
Specifically, if the first source electrode driver SD_1 of leading pattern by external control signal DIO1 be set as conducting and
When second source electrode driver SD_2 of tandem mode is set to close, correspondence is received and passed at a high speed by the first source electrode driver SD_1
Defeated signal 60(It also includes the first control trigger signal CS1, the first control signal CS1_CMD, the first display data triggering letter
The display signals of number DS1 and first DATA1), and shown in having received first after signal DATA1, then by the first source electrode driver SD_
1 transmission control signal DIO2(Pulse signal as shown in Figure 9)To the second source electrode driver SD_2, the second source electrode driver SD_2
After control signal DIO2 is received, it can correspond to and change its mode of operation to turn on, and the control trigger signal of received in sequence second
CS2, the second control signal CS2_CMD, the display signal DATA2 of the second display data trigger signal DS2 and second, certainly, second
Source electrode driver SD_2 can also share the first of the first source electrode driver SD_1 and control the corresponding control letters of trigger signal CS1
Number CS1_CMD, and in receiving after control signal DIO2 triggering, correspondence receives the second display data trigger signal DS2 and the
Two display signal DATA2, fall within scope of the invention.
Certainly, those skilled in the art can be changed every one source driver group in the present embodiment with adaptive and be included
The quantity of source electrode driver, for example, include four source electrode drivers and sequentially mutual electric property coupling per one source driver group,
Wherein the mode of operation of the first source electrode driver is leading pattern, and the mode of operation of remaining source electrode driver is concatenation mould
Formula, and correspond to transmission command signal sequentially to change the mode of operation of every one source driver, drive multiple source electrodes of the present invention
It is dynamic to share signal lead between device and a pair of frequency controls 300, and then simultaneous transmission is specific to four source electrode drivers
Display data person.In addition, display device provided by the present invention can also be believed using startup control signal CMD with outside control simultaneously
Number DIO1 controlling mechanism, or change external control signal DIO1 production method etc., change source electrode driver to correspond to
SD_1~SD_N mode of operation, or in conjunction with the setting means of other frequency controller/signals, and then make display device
Signal lead can the person of being greatly reduced, be all scope of the invention.
In summary, the display device that the embodiment of the present invention is provided includes a pair of frequency controls, multiple source electrodes
Driver, high-speed signal transmission cabling and low speed transmissions signal lead.Accordingly, it is set as multiple source electrodes of different working modes
Driver will receive command signal, with the mode of operation of the correspondence multiple source electrode drivers of setting/change, and then judge multiple source electrodes
Whether driver receives the display data that a pair of frequency controls are transmitted, and command signal then can for inner setting signal or
External setting-up signal.Substantial amounts of signal lead, multiple source electrode drivers of the embodiment of the present invention will be used compared to known technology
Between can share signal transmssion line, to avoid the signal lead of complexity from designing, so that the production cost of display device and lightweight journey
Degree all can easily be reached, and the application of the display device of high speed differential signal transmission is substantially improved.
The preferred embodiments of the present invention are the foregoing is only, are not intended to limit the invention, for the skill of this area
For art personnel, the present invention can have various modifications and variations.Within the spirit and principles of the invention, that is made any repaiies
Change, equivalent substitution, improvement etc., should be included in the scope of the protection.
Claims (9)
1. a kind of be used for the transmission method of a display device, the display device includes a pair of frequency controls and many
Individual source electrode driver, the multiple source electrode driver includes one first source electrode driver and one second source electrode driver, and it is special
Levy and be, the transmission method includes:
Set the mode of operation of the multiple source electrode driver;And
According to a command signal, determine the multiple source electrode driver under different working modes whether on and off, to connect
Receive a display data of the pair of frequency control;
Wherein, the display data includes at least one first control trigger signal, one first control signal, one first display number
According to trigger signal, one first display signal, one second display data trigger signal and one second display signal, and the order
Signal is an inner setting signal or an external setting-up signal, and the command signal includes at least one startup control signal,
Each startup control signal includes many height and starts control signal, when the sub- startup control signal is one first level signal
When, first source electrode driver or second source electrode driver are set to conducting to receive the display data, and work as
When the sub- startup control signal is a second calibration signal, first source electrode driver or the second source electrode driver quilt
It is set to off without receiving the display data.
2. transmission method as claimed in claim 1, it is characterised in that the mode of operation is concatenated comprising a leading pattern with one
Pattern, and the display data is a differential-pair signal, and the pair of frequency control transmits the display data simultaneously
First source electrode driver being mutually coupled into the multiple source electrode driver and second source electrode driver, wherein institute
State that the first source electrode driver is set as the leading pattern and second source electrode driver is set as the tandem mode.
3. transmission method as claimed in claim 2, it is characterised in that when the command signal is controlled by the pair of multi-frequency
When the signal lead of one low speed transmissions of device is produced, the command signal is the inner setting signal, for setting phase mutual coupling
First source electrode driver connect and second source electrode driver respectively on and off, to receive the pair of multifrequency
The display data of rate controller.
4. transmission method as claimed in claim 3, it is characterised in that the multiple sub- startup control of the startup control signal
Signal processed first sets first source electrode driver, and as conducting, second source electrode driver is closing, makes first source electrode
First control trigger signal, first control signal, the first display data trigger signal described in driver received in sequence
With the described first display signal, then, the multiple sub- startup control signal for starting control signal resets described the
One source driver is closing and second source electrode driver is conducting, is made described in the second source electrode driver received in sequence
Second display data trigger signal and the second display signal.
5. transmission method as claimed in claim 2, it is characterised in that when the command signal is produced by an external pins,
The command signal is the external setting-up signal, and for setting first source electrode driver and second source drive
Device is respectively on and off, to receive the display data of the pair of frequency control.
6. transmission method as claimed in claim 5, it is characterised in that the display data also includes one second control triggering
Signal and one second control signal, and the multiple sub- startup control signal for starting control signal first sets described first
Source electrode driver is conducting and second source electrode driver is closing, makes described in the first source electrode driver received in sequence the
One control trigger signal, first control signal, the first display data trigger signal and the described first display signal, connect
, it is described start control signal the multiple sub- startup control signal reset first source electrode driver for closing institute
It is conducting to state the second source electrode driver, makes described in the second source electrode driver received in sequence the second control trigger signal, described
Second control signal, the second display data trigger signal and the second display signal.
7. transmission method as claimed in claim 5, it is characterised in that first source electrode driver and second source electrode
Driver formation one source driver group, after first source electrode driver has received the first display signal, correspondence is passed
A pulse settings signal is sent to second source electrode driver, to switch second source electrode driver by closing to turn on and connect
Receive the display signal.
8. transmission method as claimed in claim 1, it is characterised in that also comprising using per the exclusive ground of one source driver
Location data, the command signal is transmitted to the multiple source electrode driver with correspondence.
9. transmission method as claimed in claim 1, it is characterised in that the mode of operation of the multiple source electrode driver is basis
Every exclusive address date of one source driver or an external pins are set as a leading pattern or a tandem mode to correspond to,
And the source electrode driver for being set to the leading pattern will be triggered to receive described the by the described first control trigger signal
One control signal and triggered to receive the first display signal by the first display data trigger signal, and be set
By the tandem mode source electrode driver will by one second control trigger signal trigger receive one second control signal with
And triggered to receive the second display signal by the second display data trigger signal.
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CN109036300B (en) | 2017-06-09 | 2021-03-16 | 京东方科技集团股份有限公司 | Configuration information setting method, component and display device |
CN110223643B (en) * | 2018-03-01 | 2022-02-11 | 京东方科技集团股份有限公司 | Data transmission method, assembly and system and display device |
CN110060632A (en) * | 2019-05-10 | 2019-07-26 | 深圳市华星光电技术有限公司 | Display drive system and display drive method |
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CN1301978A (en) * | 1999-12-27 | 2001-07-04 | 夏普株式会社 | Liquid crystal display device and its driving method |
JP2004046136A (en) * | 2002-05-22 | 2004-02-12 | Hitachi Displays Ltd | Display device and its driving method |
CN1917026A (en) * | 2006-08-15 | 2007-02-21 | 友达光电股份有限公司 | Device for driving liquid crystal display |
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TW200734743A (en) * | 2006-03-15 | 2007-09-16 | Novatek Microelectronics Corp | Method of transmitting data signals and control signals using a signal data bus and related apparatus |
TWI518653B (en) * | 2010-12-17 | 2016-01-21 | 聯詠科技股份有限公司 | Timing controller, source driving device, panel driving device, display device and driving method |
US9053673B2 (en) * | 2011-03-23 | 2015-06-09 | Parade Technologies, Ltd. | Scalable intra-panel interface |
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CN1301978A (en) * | 1999-12-27 | 2001-07-04 | 夏普株式会社 | Liquid crystal display device and its driving method |
JP2004046136A (en) * | 2002-05-22 | 2004-02-12 | Hitachi Displays Ltd | Display device and its driving method |
CN1917026A (en) * | 2006-08-15 | 2007-02-21 | 友达光电股份有限公司 | Device for driving liquid crystal display |
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