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CH1005C Datasheet, PDF (9/49 Pages) List of Unclassifed Manufacturers – Digital PC to TV Encoder with Macrovision
CHRONTEL
CH7005C
Multiplexed Mode
Each rising edge (or each rising and falling edge) of the XCLK signal will latch data from the graphics chip. The
multiplexed input data formats are shown in Figure 5 and 6. The Pixel Data bus represents an 8, 12, or 16-bit
multiplexed data stream, which contains either RGB or YCrCb formatted data. In IDF settings of 2, 4, 5, 7, 8 and 9,
the input data rate is 2X PCLK, and each pair of Pn values (e.g., P0a and P0b) will contain a complete pixel,
encoded as shown in the tables below. When IDF = 6, the input data rate is 3X PCLK, and each triplet of Pn values
(e.g., P0a, P0b and P0c) will contain a complete pixel, encoded as shown in the tables below. When the input is
YCrCb, the color-difference data will be transmitted at half the data rate of the luminance data, with the sequence
being set as Cb, Y, Cr, Y where Cb0,Y0,Cr0 refers to co-sited luminance and color-difference samples — and the
following Y1 byte refers to the next luminance sample, per CCIR656 standards. However, the clock frequency is
dependent upon the current mode, (not 27MHz, as specified in CCIR656).
HS
tHD
XCLK
DEC = 0
XCLK
DEC = 1
D[15:0]
tHSW
tP2
tPH2
tSP2
tHP2
tSP2
tHP2
tSP2
tHP2
P0a P0b P1a P1b P2a P2b
Figure 5: Multiplexed Pixel Data Transfer Mode
Table 4. RGB 8-bit Multiplexed Mode
IDF#
Format
Pixel#
Bus Data D[7]
D[6]
D[5]
D[4]
D[3]
D[2]
D[1]
D[0]
P0a
G0[2]
G0[1]
G0[0]
B0[4]
B0[3]
B0[2]
B0[1]
B0[0]
7
RGB 5-6-5
P0b
R0[4]
R0[3]
R0[2]
R0[1]
R0[0]
G0[5]
G0[4]
G0[3]
P1a
G1[2]
G1[1]
G1[0]
B1[4]
B1[3]
B1[2]
B1[1]
B1[0]
P1b
R1[4]
R1[3]
R1[2]
R1[1]
R1[0]
G1[5]
G1[4]
G1[3]
P0a
G0[2]
G0[1]
G0[0]
B0[4]
B0[3]
B0[2]
B0[1]
B0[0]
8
RGB 5-5-5
P0b
x
R0[4]
R0[3]
R0[2]
R0[1]
R0[0]
G0[4]
G0[3]
P1a
G1[2]
G1[1]
G1[0]
B1[4]
B1[3]
B1[2]
B1[1]
B1[0]
P1b
x
R1[4]
R1[3]
R1[2]
R1[1]
R1[0]
G1[4]
G1[3]
201-0000-025 Rev 2.1, 8/2/99
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