HDMP-1032 Datasheet, PDF(9/32 Page) Agilent(Hewlett-Packard) – 1.4 GBd Transmitter/Receiver Chip Set with CIMT Encoder/Decoder and Variable Data Rate

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HDMP-1032 Datasheet, PDF (9/32 Pages) Agilent(Hewlett-Packard) – 1.4 GBd Transmitter/Receiver Chip Set with CIMT Encoder/Decoder and Variable Data Rate

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Multiple Channel Configuration

The connections for a multiple

channel configuration are shown

in Figure 4.3. The daisy-chain

signals SRQIN and SRQOUT are

used to allow each receiverâs PASS

system shift requests to propagate

to the master, which is the last of

the chain. The master then con-

trols the shift command SHFOUT,

which is tied common to the

SHFIN of each receiver. The first

SRQIN in the chain is grounded;

the SRQOUT of the master as

well as the SHFOUT outputs of

the slave units are left uncon-

nected.

When the internal parallel data

boundary of the master, or any

of the slaves come within 10% of

the REFCLK, the RXDSLIP output

is set high by the respective Rx,

a shift request (SRQOUT=1) is

issued which propagates to the

master. The master again selects

an optimum SHFOUT, which sets

the DELAY blocks of all receivers

consistently.

The phase absorption margin for

a multiple channel configuration

is the same as the single channel

case, less the channel-to-channel

skews.

DATA 16 BITS

TX[0-15]

TXCLK

TX[0-15]

TXCLK

SRQIN SHFIN

SHFOUT

RXCLK0/1

HSOUTâ HSINâ

RX[0-15]

(SLAVE)

+VCC

PASSENB

SRQOUT REFCLK

SRQIN SHFIN

SHFOUT

RXCLK0/1

HSOUTâ HSINâ

RX[0-15]

(SLAVE)

+VCC

PASSENB

SRQOUT REFCLK

TX[0-15]

TXCLK

HSOUTâ

HSINâ

SRQIN SHFIN

SHFOUT

RXCLK0/1

RX[0-15]

(MASTER)

+VCC

PASSENB

SRQOUT REFCLK

REFCLK

Figure 4.3. Multiple channel configuration with PASS Enabled (PASSENB=1).

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