ISL76322_15 Datasheet, PDF(10/14 Page) Intersil Corporation – 16-Bit Long-Reach Video Automotive Grade SERDES

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ISL76322_15 Datasheet, PDF (10/14 Pages) Intersil Corporation – 16-Bit Long-Reach Video Automotive Grade SERDES

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ISL76322

PCLK_OUT

(RISING EDGE

DEFAULT)

RGBA[7:0],

RGBC[7:0]

1/FOUT

DESERIALIZER MODE

tOR

tOF

tDV

VALID DATA

tDV

PREVIOUS DATA HELD

tODC

VALID DATA

HSYNC OR VSYNC

( HVSYNCPOL = â0â)

DATAEN

(ACTIVE â1â DEFAULT)

FIGURE 4. PARALLEL VIDEO OUTPUT TIMING

Applications

Detailed Description and Operation

A pair of ISL76322 SERDES transports 16-bit parallel video for

the ISL76322 along with auxiliary data over a single 100Î©

differential cable either to a display or from a camera. Auxiliary

data is transferred in both directions every video frame. This

feature can be used for remote configuration and telemetry.

The benefits include lower EMI, lower costs, greater reliability and

space savings. The same device can be configured to be either a

serializer or deserializer by setting one pin (VIDEO_TX), simplifying

inventory. RGBA/C, VSYNC, HSYNC, and DATAEN pins are inputs in

serializer mode and outputs in deserializer mode.

The video data presented to the serializer on the parallel LVCMOS

bus is serialized into a high-speed differential signal. This

differential signal is converted back to parallel video at the

remote end by the deserializer. The Side Channel data (auxiliary

data) is transferred between the SERDES pair during the first two

lines of the vertical video blanking interval.

When the side-channel is enabled, which is the default, there will

be a number of PCLK cycles uncertainty from frame-to-frame.

This should not cause sync problems with most displays as this

occurs during the vertical front porch of the blanking period.

When properly configured, the SERDES link supports end-to-end

transport with fewer than one error in 1010 bits.

Differential Signals and Termination

The ISL76322 serializes the 16-bit parallel data plus 3 sync

signals at 20x the PCLK_IN frequency. The extra 2 bits per word

come from the 8b/10b encoding scheme which helps create the

highest quality serial link.

The high bit rate of the differential serial data requires special

care in the layout of traces on PCBs, in the choice and assembly

of connectors, and in the cables themselves.

PCB traces need to be adjacent, matched in length and drawn to

result in a differential 100â¦ controlled impedance. For best EMI

performance, the cable should be low loss and have a differential

100Î© impedance. The maximum cable length for a functioning

link is dependent on the PCLK_IN frequency, the cable loss and

impedance, as well as the pre-emphasis and equalization

settings. Functioning links of 25 meters are often possible at the

maximum frequency.

SERIOP and SERION pins incorporate internal differential

termination of the serial signal lines.

SERIO Pin AC-Coupling

AC-coupling minimizes the effects of DC common mode voltage

difference and local power supply variations between two

SERDES. The serializer outputs DC balanced 8b/10b line code,

which allows AC-coupling.

The AC-coupling capacitor on SERIO pins must be 27nF on the

serializer board and 27nF on the deserializer board. The value of the

AC-coupling capacitor is very critical since a value too small will

attenuate the high-speed signal at low clock rate. A value too big will

slow down the turn around time for the side-channel. It is an

advantage to have the pair of capacitors as closely matched as

possible.

Receiver Reference Clock (REF_CLK)

The reference clock (REF_CLK) for the PLL is fed into PCLK_IN

pin. REF_CLK is used to recover the clock from the high-speed

serial stream. REF_CLK is very sensitive to any instability. The

following conditions must be met at all times after power is

applied to the deserializer, or else the deserializer may need a

manual reset:

â¢ VDD must be applied and stable

â¢ REF_CLK frequency must be within the limits specified

â¢ REF_CLK amplitude must be stable

A simple 3.3V CMOS crystal oscillator can be used for REF_CLK

Power Supply Sequencing

The 3.3V supply must be higher than the 1.8V supply at all times,

including during power-up and power-down. To meet this

requirement, the 3.3V supply must be powered up before the

1.8V supply.

For the deserializer, REF_CLK must not be applied before the

device is fully powered up. Applying REF_CLK before power-up

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May 6, 2015

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