JP3954255B2 - Display driver IC - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The invention relates to a display driver IC for driving a liquid crystal display equipment in response to a command signal.
[0002]
[Prior art]
Liquid crystal display equipment is composed of a control unit such as a liquid crystal display panel unit and the display driver portion and the CPU for driving the same.
[0003]
Conventionally, a set such as a mobile phone is generally composed of a display panel unit, a display driver unit that drives the display panel unit, and a control unit that controls them.
[0004]
For example, FIG. 2 is a diagram showing a configuration diagram of a mobile phone using an LCD (liquid crystal) display panel. The display panel unit 21 on which the LCD display panel 22 is mounted and the display driver IC unit on which the display driver IC 24 is mounted. 23, a display module is formed. Then, the set substrate 25 on which the CPU 26, the flash memory 27, the peripheral components 28, the connection part 29, and the like are mounted is coupled with the display module at the connection part 29 to constitute a mobile phone set.
[0005]
The display driver IC 24 has a RAM for storing display data, receives a control drive signal from the CPU 26, and supplies a drive control signal to display the LCD display panel 22.
[0006]
The display driver IC 24 needs to stably supply the voltage for driving the LCD display panel 22 without variations in the voltage value. For this reason, the display driver IC 24 measures and selects the characteristics of the display driver IC 24, and enters the variation allowable range. For example, sorting is performed so that only the IC 24 is used, or the display driver IC 24 that is not within the variation allowable range is trimmed and adjusted within the variation allowable range.
[0007]
Further, depending on the mounting position of the display driver IC 24, it is necessary to reverse the data transfer direction of the segment output and the common output. Further, even when the variation as the display driver IC 24 is suppressed, there are variations in the individual LCD display panels 22. Therefore, it is necessary to further adjust the driving voltage.
[0008]
In order to solve these problems, there is a method of performing software processing using the CPU 26, the flash memory 27, etc., but the software becomes complicated. In addition, it may be possible to create several different setting chips separately as a series model, or to provide multiple terminals so that each setting can be adjusted independently, but the efficiency as the IC supply side is poor, As the number of terminals increases, the mounting cost increases, and the pin pitch becomes narrow, which makes mounting difficult.
[0009]
In any case, in addition to the problem of the display driver IC 24, in order to absorb a display contrast difference caused by individual variations of the LCD display panel 22, a method of adjusting the software setting for each panel is adopted. .
[0010]
This is a state in which the display panel unit 21 on which the LCD display panel 22 is mounted, the display driver IC unit 23 on which the display driver IC 24 is mounted, and the set substrate 25 on which the CPU 26, the flash memory 27, and the like are mounted. Thus, for each of many individual variations of the display driver IC 24 and the LCD display panel 22, settings are made so as to absorb the variations by the action of the CPU 26 and the flash memory 27. Specifically, for example, when the density of the screen of the LCD display panel 22 is not appropriate, the final user adjusts the density to an arbitrary density, reads the set value at this time, It must be recorded in a memory such as the flash memory 27 in FIG.
[0011]
Reflecting the set value, each time the power is turned on, the set value is read from the memory such as the flash memory 27 and the CPU 26 sends a command to the display driver IC 24 to send a dark image to the LCD display panel 22. This requires the effort of initializing.
[0012]
[Problems to be solved by the invention]
In the conventional display driver IC and the LCD display set using the same, as described above, the characteristics of the display driver IC 24 are measured and selected and trimmed, or several different setting chips are separately created as a series model. Alternatively, the process of providing a plurality of terminals so that the respective settings can be adjusted independently is inefficient on the IC supply side, and the number of terminals increases and the pin pitch becomes narrow, making mounting difficult.
[0013]
In addition to the problem of the display driver IC 24, in order to absorb a display contrast difference caused by individual variations of the LCD display panel 22, a method of adjusting the software setting for each panel is adopted. However, this software setting is burdensome and is adjusted by the set maker, which is usually not acceptable.
[0014]
Therefore, the present invention forms a display driver that can absorb the variation of the display driver IC itself and the variation of the liquid crystal display panel, and is in an initial state on both the IC supplier side and the display panel supplier side, that is, until the display module stage. It is an object of the present invention to provide a display driver IC that can arbitrarily set the value and zeroize the adjustment at the final set manufacturer.
[0015]
[Means for Solving the Problems]
The display driver IC of claim 1 is a display driver IC that receives a control signal and display data and supplies a driving voltage to the liquid crystal display panel.
Display drive voltage generating unit, a plurality of elements portion including a timing circuit, the correction data for variation correcting each of the variation and the specified value of the liquid crystal display panel from the specified value of the plurality of elements portions It has an initial setting table consisting of a rewritable nonvolatile memory for storing,
In order to cancel the variation of each of the plurality of element units and the liquid crystal display panel, the control data is received, the correction data is read from the initial setting table as a corrected control signal, and is supplied to the element units. It is characterized by.
[0016]
According to the present invention, an initial setting table including a rewritable non-volatile memory for storing correction data is provided in the display driver IC, the variation from the specified value of each element unit having a predetermined specified value, and the liquid crystal display Variations from the specified values of the panels (hereinafter referred to as display panels) are corrected based on the measured values.
[0017]
For this reason, not only the display driver IC having a variation in the operation characteristics of each element part but also the display panel driven by the display driver IC can be used as it is because the variation is compensated even if there is some variation. It becomes like this. Therefore, both the display driver IC and the display panel can increase the product yield rate.
[0018]
In addition, the variation of each element unit in the display panel and the display driver IC can be made independent of other control units such as other CPUs, and the burden of software can be eliminated. In addition, since there is no need to deal with variations in display driver ICs and display panels with software, the burden of assembly at the set maker is reduced, and the software functions are expanded to the functions of the original display device. You can guess.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to FIG.
[0020]
FIG. 1 is a diagram showing a configuration of a liquid crystal display driver IC according to an embodiment of the present invention. In FIG. 1, when a control drive signal is supplied to the display driver IC 24 from a CPU or the like of the external control unit, it is input to the initial setting table 11 and the input / output interface 12.
[0021]
The initial setting table 11 includes a nonvolatile memory such as an EEPROM (Electrically Erasable and Programmable ROM). The input control signal is converted from the initial setting table 11 according to the setting of the table, and the input / output interface 12, the oscillation circuit unit 13, the liquid crystal drive voltage generating circuit 14, the timing control circuit 15, and the segment electrode drive signal output circuit 16 are converted. And the common timing control circuit 17 and the like (hereinafter also referred to as element parts) .
[0022]
The input / output interface 12 interfaces with the CPU 26 of the external set substrate 25, and the input control signal interfaced there is supplied to the liquid crystal drive voltage generation circuit 14 and the timing control circuit 15. The oscillation circuit unit 13 supplies a clock signal to each element. Display data is sequentially input to the display data RAM 19 line by line based on a command from the timing control circuit 15.
[0023]
At the time of reading display data from the display data RAM 19, display data is sequentially output from the display data RAM 19 one line at a time based on a command from the timing control circuit 15 and is output as a segment output from the segment electrode drive signal output circuit 16. The common output is sequentially output from the common electrode drive signal output circuit 18 in response to the update of the row from the common timing control circuit 17. As a result, a predetermined image is displayed on the LCD display panel 22.
[0024]
In the present invention, the variation of each element (input / output interface 12 to common timing control circuit 17) in the LCD display panel 22 and the display driver IC 24 is irrelevant to other control units such as the CPU 26, thereby eliminating the burden of software. Therefore, the initial setting table 11 is provided.
[0025]
The characteristics of the input / output interface 12, the oscillation circuit unit 13, the liquid crystal drive voltage generation circuit 14, the timing control circuit 15, the segment electrode drive signal output circuit 16, and the common timing control circuit 17 that are component parts constituting the display driver IC 24. Measure and grasp the variation from the specified value. Similarly, the characteristics of the LCD display panel 22 that is displayed and driven by the control drive signal from the display driver IC 24 are measured to grasp the variation from the specified value.
[0026]
Based on the grasp of this variation, the initial setting table 11 includes these component parts (input / output interface 12, oscillation circuit unit 13, liquid crystal drive voltage generation circuit 14, timing control circuit 15, segment electrode drive signal output circuit 16, Data for correcting the variation from the specified value of the common timing control circuit 17) and the variation from the specified value of the LCD display panel 22 are set as a table.
[0027]
In the initial setting table 11, the data transfer direction of the segment electrode drive signal output circuit 16 and the common electrode drive signal output circuit 18 determined by the mounting position of the display driver IC 24 is also set.
[0028]
In this way, the initial setting table 11 is set with data having specifications that do not normally need to be changed once set. Examples include the following items.
・ Liquid crystal drive voltage stabilization output voltage level ・ Liquid crystal drive voltage bias voltage level ・ Temperature coefficient value of liquid crystal drive voltage ・ Oscillation frequency of clock signal ・ Interface specifications (serial / parallel etc.)
・ Segment electrode drive signal transfer direction ・ Common electrode drive signal transfer direction etc. [0029]
Thus, when a control drive signal is supplied from the external CPU 26, each component (input / output interface 12, oscillation circuit unit 13, liquid crystal drive voltage generation circuit 14, timing control circuit 15, segment electrode drive) in the initial setting table 11 Variations from the specified values of the signal output circuit 16 and the common timing control circuit 17) and variations from the specified values of the LCD display panel 22 are absorbed, and each component and display is automatically performed with respect to the external control signal of the specified value. A control signal having a value for canceling the variation in the panel is used as each element component (input / output interface 12, oscillation circuit unit 13, liquid crystal drive voltage generation circuit 14, timing control circuit 15, segment electrode drive signal output circuit 16, common timing). Can be supplied to the control circuit 17).
[0030]
Therefore, according to the embodiment of the present invention, even if there is some variation in each component of the display driver IC 24, it can be covered by the correction amount setting in the initial setting table 11, so that labor such as trimming can be saved. And the yield rate can be improved. The same can be said for the LCD display panel 22.
[0031]
Then, on the side of the set substrate 25 such as the CPU 26 and the flash memory 27, there is no burden of software due to variations of each component part and the LCD display panel 22 as in the past, and the original software processing can be enhanced accordingly. .
[0032]
In addition, as for the variation of each component of the display driver IC 24 and the LCD display panel 22, the correction value that has been conventionally stored in the flash memory 27 or the like as described above is processed on the software by the operation of the CPU 26. In this case, this setting value is read each time the power is turned on, and an instruction is sent from the CPU 26 to the display driver IC 24 to initialize the values of each component of the display driver IC 24 and the screen density of the LCD display panel 22. And However, in the embodiment of the present invention, once set in the initial setting table 11, there is no burden, and the set manufacturer or the final user is not aware of variations in each component of the display driver IC 24 and the LCD display panel 22. The display device to which the present invention is applied can be handled, and the time required for initialization can be shortened.
[0033]
According to the present embodiment, the flash memory 27 is not necessary for correction of variations, but can be used to adjust the setting values of various items according to the user's preference.
[0035]
【The invention's effect】
According to the present invention, an initial setting table including a rewritable nonvolatile memory for storing correction data is provided in the display driver IC, and variations from prescribed values of each element unit and variations from prescribed values of the display panel are provided. Are corrected based on the measured values.
[0036]
For this reason, not only the display driver IC having a variation in the operation characteristics of each element part but also the display panel driven by the display driver IC can be used as it is because the variation is compensated even if there is some variation. It becomes like this. Therefore, both the display driver IC and the display panel can increase the product yield rate.
[0037]
In addition, the variation of each element unit in the display panel and the display driver IC can be made independent of other control units such as other CPUs, and the burden of software can be eliminated. In addition, since there is no need to deal with variations in display driver ICs and display panels with software, the burden of assembly at the set maker is reduced, and the software functions are expanded to the functions of the original display device. You can guess.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a display driver IC according to an embodiment of the present invention.
FIG. 2 is a configuration diagram of a display device to which the present invention is applied.
[Explanation of symbols]
11 Initial Setting Table 12 Input / Output Interface 13 Oscillation Circuit Unit 14 Liquid Crystal Drive Voltage Generation Circuit 15 Timing Control Circuit 16 Segment Electrode Drive Signal Output Circuit 17 Common Timing Control Circuit 18 Common Electrode Drive Signal Output Circuit 19 Display Data RAM
21 Display Panel 22 LCD Display Panel 23 Display Driver IC 24 Display Driver IC
25 Set board 26 CPU
27 Flash memory 28 Peripheral parts 29 Connection part

Claims (1)

A display driver IC that receives a control signal and display data and supplies a driving voltage to a liquid crystal display panel,
Display drive voltage generating unit, a plurality of elements portion including a timing circuit, the correction data for variation correcting each of the variation and the specified value of the liquid crystal display panel from the specified value of the plurality of elements portions It has an initial setting table consisting of rewritable non-volatile memory for storing,
In order to cancel variations in the plurality of element units and the liquid crystal display panel, the control data is received, the correction data is read out from the initial setting table as a corrected control signal, and is supplied to the element units. A display driver IC characterized by having

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