BUF08832_14 Datasheet, PDF(19/31 Page) Texas Instruments – Programmable Gamma-Voltage Generator and High Slew Rate VCOM with Integrated Two-Bank Memory

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BUF08832_14 Datasheet, PDF (19/31 Pages) Texas Instruments – Programmable Gamma-Voltage Generator and High Slew Rate VCOM with Integrated Two-Bank Memory

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BUF08832

www.ti.com

END-USER SELECTED GAMMA CONTROL

Because the BUF08832 has two banks of nonvolatile

memory, it is well-suited for providing two levels of

gamma control by using the BKSEL pin, as shown in

Figure 21. When the state of the BKSEL pin changes,

the BUF08832 updates all nine programmable buffer

outputs simultaneously after 750Î¼s (Â±80Î¼s).

To update all nine programmable output voltages

simultaneously via hardware, toggle the BKSEL pin to

switch between Gamma Curve 0 (stored in Bank0)

and Gamma Curve 1 (stored in Bank1).

All DAC/VCOM registers and output voltages are

updated simultaneously after approximately 750Î¼s.

BKSEL

BUF08832

Switch

OUT1

Change in

Output Voltages

OUT8

Two-Wire

Figure 21. Gamma Control

SBOS476C â AUGUST 2009 â REVISED JULY 2011

DYNAMIC GAMMA CONTROL

Dynamic gamma control is a technique used to

improve the picture quality in LCD television

applications. This technique typically requires

switching gamma curves between frames. Using the

BKSEL pin to switch between two gamma curves

does not often provide good results because of the

750Î¼s required to transfer the data from the

nonvolatile memory to the DAC register. However,

dynamic gamma control can still be accomplished by

storing two gamma curves in an external EEPROM

and writing directly to the DAC register (volatile).

The double register input structure saves

programming time by allowing updated DAC values to

be pre-stored into the first register bank. Storage of

this data can occur while a picture is still being

displayed. Because the data are only stored into the

first register bank, the DAC/VCOM output values

remain unchangedâthe display is unaffected. At the

beginning or the end of a picture frame, the

DAC/VCOM outputs (and therefore, the gamma

voltages) can be quickly updated by writing a '1' in bit

15 of any DAC/VCOM register. For details on the

operation of the double register input structure, see

the Updating the DAC Output Voltages section.

To update all nine programmable output voltages

simultaneously via software, perform the following

actions:

STEP 1: Write to registers 1â9 with bit 15 always '0'.

STEP 2: Write any DAC/VCOM register a second time

with identical data. Make sure that bit 15 is set to '1'.

All DAC/VCOM channels are updated simultaneously

after receiving the last bit of data.

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