DS90C2501 Pin Description
(Continued)
Pin Name
OPTION SELECTION
BAL
DUAL
Pin No.
I/O Type
Description
97
35
I-LVTTL 2.5
I-LVTTL 2.5
Tie this pin to GND.
LVTTL level input.
Input = GND for single pixel in-to-single pixel out mode. LVDS output
channels A0 to A3 are enabled, A4 to A7 are CLK2 are disable.
Input = V
CC
for dual pixel in-to-dual pixel out mode. LVDS output channel A0
to A7, CLK1 and CLK2 are enable. Use a 10K typ. pull-up resistor.
Input =
1
2
V
CC
for single pixel in-to-dual pixel out mode. LVDS output channel
A0 to A7, CLK1 and CLK2 are enabled. See register CFG1 (08h) BPASS field
for more information.
See
Figure 11
for example interface circuit.
LVTTL level input to select RGB to LVDS color mapping.
Tie to GND for 18-bit/36-bit LCD.
Tie to GND to select conventional color mapping for 24-bit/48-bit LCD.
Tie to Logic “1” to select non-conventional color mapping for 24-bit/48-bit
LCD.
These are input pins to select the 2-wire Serial Communication Slave Device
Address Lower Bits.
Selects primary clock edge E1.
Tie to Logic “1” to select Rising edge for E1.
Tie to ground to select Falling edge for E1.
COLOR
34
I-LVTTL 2.5
A0, A1, A2
115, 116,
117
36
I-LVTTL 2.5
EDGE
I-LVTTL 2.5
PANEL INTERFACE
A0P, A1P,
A2P, A3P
55, 53,
51, 47
O-LVDS
Positive LVDS differential data output.
When DUAL pin = GND, input to D0–D11 will be coming out of A0P to A3P.
For 6-bit color application, no connect for channel A3P.
When DUAL pin =
1
2
V
CC
, the first pixel going in D0–D11 will be coming out
of A0P to A3P, and the second pixel going in D0–D11 will come out of A4P to
A7P. For 6-bit color application, no connect for channels A3P and A7P.
When DUAL pin = V
CC
, the first pixel going in D0–D11 will be coming out of
A0P to A3P, the second pixel going in D12–D23 will be coming out of A4P to
A7P. For 6-bit color application, no connect for channels A3P and A7P.
Negative LVDS differential data output.
When DUAL pin = GND, input to D0–D11 will be coming out of A0M to A3M.
For 6-bit color application, no connect for channel A3M.
When DUAL pin =
1
2
V
CC
, the first pixel going in D0–D11 will be coming out
of A0M to A3M, and the second pixel going in D0–D11 will come out of A4M
to A7M. For 6-bit color application, no connect for channels A3M and A7M.
When DUAL pin = V
CC
, the first pixel going in D0–D11 will be coming out of
A0M to A3M, the second pixel going in D12–D23 will be coming out of A4M
to A7M. For 6-bit color application, no connect for channels A3M and A7M.
Positive LVDS differential data output for second pixel.
When DUAL pin = GND, input to D0–D11 will be coming out of A0P to A3P.
For 6-bit color application, no connect for channel A3P.
When DUAL pin =
1
2
V
CC
, the first pixel going in D0–D11 will be coming out
of A0P to A3P, and the second pixel going in D0–D11 will come out of A4P to
A7P. For 6-bit color application, no connect for channels A3P and A7P.
When DUAL pin = V
CC
, the first pixel going in D0–D11 will be coming out of
A0P to A3P, the second pixel going in D12–D23 will be coming out of A4P to
A7P. For 6-bit color application, no connect for channels A3P and A7P.
A0M, A1M,
A2M, A3M
56, 54,
52, 48
O-LVDS
A4P, A5P,
A6P, A7P
45, 43,
41, 39
O-LVDS
D
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