English
Language : 

SLDS145B Datasheet, PDF (10/29 Pages) Texas Instruments – TFP410 TI PanelBus DIGITAL TRANSMITTER
TFP410
TI PanelBus™ DIGITAL TRANSMITTER
SLDS145B − OCTOBER 2001 − REVISED MAY 2011
T.M.D.S. pixel data and control signal encoding
For transition minimized differential signaling (T.M.D.S.), only one of two possible T.M.D.S. characters for a
given pixel is transmitted at a given time. The transmitter keeps a running count of the number of ones and zeros
previously sent and transmits the character that minimizes the number of transitions and approximates a dc
balance of the transmission line. Three T.M.D.S. channels are used to transmit RGB pixel data during the active
video interval (DE = High). These same three channels are also used to transmit HSYNC, VSYNC, and three
user definable control signals, CTL[3:1], during the inactive display or blanking interval (DE = Low). The
following table maps the transmitted output data to the appropriate T.M.D.S. output channel in a DVI-compliant
system.
INPUT PINS
(VALID FOR DE = High)
T.M.D.S. OUTPUT CHANNEL
TRANSMITTED PIXEL DATA
ACTIVE DISPLAY (DE = High)
DATA[23:16]
Channel 2 (TX2 ±)
Red[7:0]
DATA[15:8]
Channel 1 (TX1 ±)
Green[7:0]
DATA[7:0]
Channel 0 (TX0 ±)
Blue[7:0]
INPUT PINS
(VALID FOR DE = Low)
T.M.D.S. OUTPUT CHANNEL
TRANSMITTED CONTROL DATA
BLANKING INTERVAL (DE = Low)
CTL3, CTL2 (see Note 8)
Channel 2 (TX2 ±)
CTL[3:2]
CTL1 (See Note 8)
Channel 1 (TX1 ±)
CTL[1]
HSYNC, VSYNC
Channel 0 (TX0 ±)
HSYNC, VSYNC
NOTE 8: The TFP410 encodes and transfers the CTL[3:1] inputs during the vertical blanking interval. The CTL3 input is reserved for HDCP
compliant DVI TXs and the CTL[2:1] inputs are reserved for future use. When DE = high, CTL and SYNC pins must be held
constant.
universal graphics controller interface voltage signal levels
The universal graphics controller interface can operate in the following two distinct voltage modes:
D The high-swing mode where standard 3.3-V CMOS signaling levels are used.
D The low-swing mode where adjustable 1.1-V to 1.8-V signaling levels are used.
To select the high-swing mode, the VREF input pin must be tied to the 3.3-V power supply.
To select the low-swing mode, the VREF must be 0.55 to 0.95 V.
In the low-swing mode, VREF is used to set the midpoint of the adjustable signaling levels. The allowable range
of values for VREF is from 0.55 V to 0.9 V. The typical approach is to provide this from off chip by using a simple
voltage-divider circuit. The minimum allowable input signal swing in the low-swing mode is VREF ±0.2 V. In
low-swing mode, the VREF input is common to all differential input receivers.
universal graphics controller interface clock inputs
The universal graphics controller interface of the TFP410 supports both fully differential and single-ended clock
input modes. In the differential clock input mode, the universal graphics controller interface uses the crossover
point between the IDCK+ and IDCK− signals as the timing reference for latching incoming data (DATA[23:0],
DE, HSYNC, and VSYNC). Differential clock inputs provide greater common-mode noise rejection. The
differential clock input mode is only available in the low-swing mode. In the single-ended clock input mode, the
IDCK+ input (Pin 57) should be connected to the single-ended clock source and the IDCK− input (Pin 56) should
be tied to GND.
The universal graphics controller interface of the TFP410 provides selectable 12-bit dual-edge, and 24-bit
single-edge, input clocking modes. In the 12-bit dual-edge , the 12-bit data is latched on each edge of the input
clock. In the 24-bit single-edge mode, the 24-bit data is latched on the rising edge of the input clock when
EDGE = 1 and the falling edge of the input clock when EDGE = 0.
DKEN and DK[3:1] allow the user to compensate the skew between IDCK± and the pixel data and control
signals. See the description of the CTL_3_MODE register for details.
10
• POST OFFICE BOX 655303 DALLAS, TEXAS 75265