cyv15g0104trb Cypress Semiconductor Corporation., cyv15g0104trb Datasheet - Page 10

cyv15g0104trb

Manufacturer Part Number

cyv15g0104trb

Description

Independent Clock Hotlink Ii Serializer And Reclocking Deserializer

Manufacturer

Cypress Semiconductor Corporation.

Datasheet

1.CYV15G0104TRB.pdf (27 pages)

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Download datasheet (585Kb)

Document #: 38-02100 Rev. *B

Phase-Align Buffer

Data from the Input Register is passed to the Phase-Align

Buffer, when the TXDB[9:0] input register is clocked using

TXCLKBA (TXCKSELB = 0) or when REFCLKB is a half-rate

clock (TXCKSELB = 1 and TXRATEB = 1). When the

TXDB[9:0] input register is clocked using REFCLKB±

(TXCKSELA = 1) and REFCLKB± is a full-rate clock

(TXRATEB = 0), the associated Phase Alignment Buffer in the

transmit path is bypassed. These buffers are used to absorb

clock phase differences between the TXCLKB input clock and

the internal character clock for that channel.

Once initialized, TXCLKB is allowed to drift in phase as much

as ±180 degrees. If the input phase of TXCLKB drifts beyond

the handling capacity of the Phase Align Buffer, TXERRB is

asserted to indicate the loss of data, and remains asserted

until the Phase Align Buffer is initialized. The phase of

TXCLKB relative to its internal character rate clock is initialized

when the configuration latch PABRSTB is written as 0. When

the associated TXERRB is deasserted, the Phase Align Buffer

is initialized and input characters are correctly captured.

If the phase offset, between the initialized location of the input

clock and REFCLKB, exceeds the skew handling capabilities

of the Phase-Align Buffer, an error is reported on that

channel’s TXERRB output. This output indicates an error

continuously until the Phase-Align Buffer for that channel is

reset. While the error remains active, the transmitter for that

channel outputs a continuous “1001111000” character to

indicate to the remote receiver that an error condition is

present in the link.

Transmit BIST

The transmit channel contains an internal pattern generator

that can be used to validate both the link and device operation.

This generator is enabled by the TXBISTB latch via the device

configuration interface. When enabled, a register in the

transmit channel becomes a signature pattern generator by

logically converting to a Linear Feedback Shift Register

(LFSR). This LFSR generates a 511-character sequence. This

provides a predictable yet pseudo-random sequence that can

be matched to an identical LFSR in the attached Receiver(s).

A device reset (RESET sampled LOW) presets the BIST

Enable Latches to disable BIST on all channels.

All data present at the TXDB[9:0] inputs are ignored when

BIST is active on that channel.

Transmit PLL Clock Multiplier

The Transmit PLL Clock Multiplier accepts a character-rate or

half-character-rate external clock at the REFCLKB± input, and

that clock is multiplied by 10 or 20 (as selected by TXRATEB)

to generate a bit-rate clock for use by the transmit shifter. It

also provides a character-rate clock used by the transmit

paths, and outputs this character rate clock as TXCLKOB.

The clock multiplier PLL can accept a REFCLKB± input

between 19.5 MHz and 150 MHz, however, this clock range is

limited by the operating mode of the CYV15G0104TRB clock

multiplier (TXRATEB) and by the level on the SPDSELB input.

SPDSELB is a 3-level select

operating ranges for the serial data outputs of the transmit

channel. The operating serial signaling-rate and allowable

range of REFCLKB± frequencies are listed in Table 1.

[4]

input that selects one of three

Table 1. Operating Speed Settings

The REFCLKB± inputs are differential inputs with each input

internally biased to 1.4V. If the REFCLKB+ input is connected

to a TTL, LVTTL, or LVCMOS clock source, the input signal is

recognized when it passes through the internally biased

reference point. When driven by a single-ended TTL, LVTTL,

or LVCMOS clock source, connect the clock source to either

the true or complement REFCLKB input, and leave the

alternate REFCLKB input open (floating).

When both the REFCLKB+ and REFCLKB– inputs are

connected, the clock source must be a differential clock. This

can either be a differential LVPECL clock that is DC-or

AC-coupled or a differential LVTTL or LVCMOS clock.

By connecting the REFCLKB– input to an external voltage

source, it is possible to adjust the reference point of the

REFCLKB+ input for alternate logic levels. When doing so, it

is necessary to ensure that the input differential crossing point

remains within the parametric range supported by the input.

Transmit Serial Output Drivers

The serial output interface drivers use differential Current

Mode Logic (CML) drivers to provide source-matched drivers

for 50Ω transmission lines. These drivers accept data from the

transmit shifter. These drivers have signal swings equivalent

to that of standard PECL drivers, and are capable of driving

AC-coupled optical modules or transmission lines.

Transmit Channels Enabled

Each driver can be enabled or disabled separately via the

device configuration interface.

When a driver is disabled via the configuration interface, it is

internally powered down to reduce device power. If both

transmit serial drivers are in this disabled state, the transmitter

internal logic for that channel is also powered down. A device

reset (RESET sampled LOW) disables all output drivers.

Note. When the disabled transmit channel (i.e., both outputs

disabled) is re-enabled:

CYV15G0104TRB Receive Data Path

Serial Line Receivers

Two differential Line Receivers, INA1± and INA2±, are

available on the receive channel for accepting serial data

streams. The active Serial Line Receiver is selected using the

• the data on the transmit serial outputs may not meet all

• the state of the phase-align buffer cannot be guaranteed,

MID (Open)

SPDSELB

timing specifications for up to 250 µs

and a phase-align reset is required if the phase-align buffer

is used

HIGH

LOW

TXRATEB

CYV15G0104TRB

REFCLKB±

Frequency

reserved

19.5–40

80–150

(MHz)

20–40

40–80

40–75

Page 10 of 27

Rate (Mbps)

Signaling

800–1500

195–400

400–800

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