THS8200 Datasheet, PDF(17/97 Page) Texas Instruments – ALL FORMAT OVERSAMPLED COMPONENT VIDEO/PC GRAPHICS D/A SYSTEM WITH THREE 11-BIT DACS,CGMS DATA INSERTION

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THS8200 Datasheet, PDF (17/97 Pages) Texas Instruments – ALL FORMAT OVERSAMPLED COMPONENT VIDEO/PC GRAPHICS D/A SYSTEM WITH THREE 11-BIT DACS,CGMS DATA INSERTION

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preprogrammed. Therefore the user does not need to define the table with line type/breakpoint settings, nor does

the field and frame size need to be programmed. However, when in preset mode, the horizontal parameters (all

dtg1_spec_x registers for the line types used by the preset setting, and dtg1_total_pixels registers) still need to be

programmed. Presets are available for most popular DTV video formats. Alternatively, generic modes for SDTV,

HDTV or VESA can be selected, which allow full programmability of the field/frame sizes and DTG parameters.

Note from the table that:

â¢ If embedded timing is used, the device is always in slave mode, because the data stream supplied to

THS8200 contains the video timing information.

â¢ Master operation is only supported for PC graphics (VESA) formats.

â¢ In HDTV modes with embedded timing, data is supplied to the device over a 20-bit interface, as defined in

SMPTE274/296M.

â¢ In SDTV modes with embedded timing, data is supplied to the device over a 10-bit interface. When the video

format is interlaced, this interface is known as ITU-R.BT656 (525I, 625I). When the video format is

progressive, only 525P is supported with embedded timing. The 625P interface can be supported with

dedicated timing, using the SDTV generic mode.

â¢ In generic modes with dedicated timing, both 20 bits (4:2:2) and 30 bits (4:4:4) are supported.

â¢ In PC graphics modes (VESA generic), input data is either over the 30-bit interface or over the 16-/15-bit

interface and always has dedicated timing. Note that the 16-bit interface is not equivalent to a 2Ã8-bit version

of the 20-bit interface; see Section 4.2, Input Interface Formats, for details.

4.2 Input Interface Formats

The following figures define the input video format for each input mode, as selected by the data_dman_cntl register

setting. Video data is always clocked in at the rising edge of CLKIN. Note: for 8-bit operation with 10-bit input buses,

connect only the 8 MSBs of each input bus used, and tie the 2 LSBs to ground.

â¢ 30-bit YCbCr/RGB 4:4:4

CLKIN

GY[9:0]/[9:2] G0/Y0 G1/Y1 G2/Y2 G3/Y3 G4/Y4 G5/Y5 G6/Y6 G7/Y7

BCb[9:0]/[9:2] B0/Cb0 B1/Cb1 B2/Cb2 B3/Cb3 B4/Cb4 B5/Cb5 B6/Cb6 B7/Cb7

RCr[9:0]/[9:2] R0/Cr0 R1/Cr1 R2/Cr2 R3/Cr3 R4/Cr4 R5/Cr5 R6/Cr6 R7/Cr7

Figure 4â1. 24-/30-Bit RGB or YCbCr Data Format

â¢ 20-bit YCbCr 4:2:2

CLKIN is equal to the 1Ã pixel clock. The pixel clock equals the rate of the Y input and is 2Ã the rate of the 2 other

channels in this input format where Cb and Cr are multiplexed onto the same input bus.

4â2

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