AD9888
MODE CONTROL 1
15 Channel Mode
from 24 down to 16 for applications using YUV, YCbCr,
or YPbPr graphics signals. A timing diagram for this mode
is shown in Figure 12. Recommended input and output
configurations are shown in Table XXXVII. In 4:2:2
mode, the red and blue channels can be interchanged to
help satisfy board layout or timing requirements, but the
green channel must be configured for Y.
7
A bit that determines whether all pixels are presented to a
single port (A), or alternating pixels are demultiplexed to
Ports A and B.
Table XXXIII. Channel Mode Settings
Table XXXVI. 4:2:2 Output Mode Select
DEMUX
Function
0
1
All data goes to Port A.
Alternate pixels go to Port A and Port B.
Select
Output Mode
0
1
4:4:4
4:2:2
When DEMUX = 0, Port B outputs are in a high
impedance state. The maximum data rate for single-port
mode is 110 MHz. The timing diagrams starting with
Figure 13 show the effects of this option.
Table XXXVII. 4:2:2 Input/Output Configuration
Channel
Input Connection
Output Format
The power-up default value is 1.
Red
Green
Blue
V
Y
U
U/V
Y
15
6
Output Mode
A bit that determines whether all pixels are presented to
Port A and Port B simultaneously on every second
DATACK rising edge, or alternately on Port A and
Port B on successive DATACK rising edges.
High Impedance
15
3
Input Mux Control
A bit that selects either analog inputs from Channel 0 or
the analog inputs from Channel 1.
Table XXXIV. Output Mode Settings
Table XXXVIII. Input Mux Control
PARALLEL
Function
Control
Channel Selected
0
1
Data is interleaved.
Data is simultaneous on every other
data clock.
0
1
Channel 0
Channel 1
When in single port mode (DEMUX = 0), this bit is
ignored. The timing diagrams (Figure 17) show the effects
of this option.
15
2-1 Analog Bandwidth Control
Two bits that select the analog bandwidth.
The power-up default value is PARALLEL = 1.
Table XXXIX. Analog Bandwidth Control
Bit 2 Bit 1 Analog Bandwidth
15
5
Output Port Phase
One bit that determines whether even pixels or odd pixels
go to Port A.
1
1
0
0
1
0
1
0
500 MHz
300 MHz
150 MHz
75 MHz
Table XXXV. Output Port Phase Settings
OUTPHASE
First Pixel after Hsync
15
0
External Clock Select
0
1
Port A
Port B
A bit that determines the source of the pixel clock.
Table XL. External Clock Select Settings
In normal operation (OUTPHASE = 0) when operating
in dual-port output mode (DEMUX = 1), the first sample
after the Hsync leading edge is presented at Port A. Every
subsequent ODD sample appears at Port A. All EVEN
samples go to Port B.
EXTCLK
Function
0
1
Internally Generated Clock
Externally Provided Clock Signal
When OUTPHASE = 1, these ports are reversed and the
first sample goes to Port B.
A Logic 0 enables the internal PLL that generates the
pixel clock from an externally provided HSYNC.
When DEMUX = 0, this bit is ignored as data always
comes out of only Port A.
A Logic 1 enables the external CKEXT input pin. In this
mode, the PLL Divide Ratio (PLLDIV) is ignored. The
clock phase adjust (PHASE) is still functional.
15
4
4:2:2 Output Mode Select
A bit that configures the output data in 4:2:2 mode. This
mode can be used to reduce the number of data lines used
The power-up default value is EXTCLK = 0.
REV. B
–25–