TFP101 Datasheet, PDF(11/18 Page) Texas Instruments

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TFP101 Datasheet, PDF (11/18 Pages) Texas Instruments – T1 PANELBUS DIGITAL RECEIVER

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TFP101, TFP101A

TI PanelBusï£ª DIGITAL RECEIVER

SLDS119C - MARCH 2000 â REVISED OCTOBER 2003

detailed description (continued)

TFP101/101A clocking and data synchronization

The TFP101/101A receives a clock reference from the DVI transmitter that has a period equal to the pixel time,

Tpix. The frequency of this clock is also referred to as the pixel rate. Since the TMDS encoded data on Rx[2:0]

contains 10 bits per 8 bit pixel it follows that the Rx[2:0] serial bit rate is 10 times the pixel rate. For example,

the required pixel rate to support an XGA resolution with 60 Hz refresh rate is 65 MHz. The TMDS serial bit rate

is 10x the pixel rate or 650 Mb/s. Due to the transmission of this high-speed digital bit stream, on three separate

channels (or twisted-pair wires) of long distances (3-5 meters), phase synchronization between the data steams

and the input reference clock is not guaranteed. In addition, skew between the three data channels is common.

The TFP101/101A uses a 4x oversampling scheme of the input data streams to achieve reliable synchronization

with up to 1-Tpix channel-to-channel skew tolerance. Accumulated jitter on the clock and data lines due to

reflections and external noise sources is also typical of high speed serial data transmission, hence the

TFP101/101Aâs design for high jitter tolerance.

The input clock to the TFP101/101A is conditioned by a phase-locked-loop (PLL) to remove high frequency jitter

from the clock. The PLL provides four 10x clock outputs of different phase to locate and sync the TMDS data

streams (4x oversampling). During active display the pixel data is encoded to be transition minimized, whereas

in blank, the control data is encoded to be transition maximized. A DVI compliant transmitter is required to

transmit in blank for a minimum period of time, 128-Tpix, to ensure sufficient time for data synchronization when

the receiver sees a transition maximized code. Synchronization during blank, when the data is transition

maximized, ensures reliable data bit boundary detection. Phase synchronization to the data streams is unique

for each of the three input channels and is maintained as long as the link remains active.

TFP101/101A TMDS input levels and input impedance matching

The TMDS inputs to the TFP101/101A receiver have a fixed single-ended termination to AVDD The

TFP101/101A is internally optimized using a laser trim process to precisely fix the impedance at 50 â¦. The

device will function normally with or without a resistor on the EXT_RES pin, so it remains drop-in compatible

with current sockets. The fixed impedance eliminates the need for an external resistor while providing optimum

impedance matching to standard 50-â¦ DVI cables.

Figure 14 shows a conceptual schematic of a DVI transmitter and TFP101/101A receiver connection. A

transmitter drives the twisted pair cable via a current source, usually achieved with an open drain type output

driver. The internal resistor, which is matched to the cable impedance, at the TFP101/101A input provides a

pullup to AVDD . Naturally, when the transmitter is disconnected and the TFP101/101A DVI inputs are left

unconnected, the TFP101/101A receiver inputs pullup to AVDD. The single ended differential signal and full

differential signal is shown in Figure 15. The TFP101/101A is designed to respond to differential signal swings

ranging from 150 mV to 1.56 V with common mode voltages ranging from (AVDD-300 mV) to (AVDD-37 mV).

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