cyv15g0203tb Cypress Semiconductor Corporation., cyv15g0203tb Datasheet - Page 8

cyv15g0203tb

Manufacturer Part Number

cyv15g0203tb

Description

Independent Clock Dual Hotlink Ii Serializer

Manufacturer

Cypress Semiconductor Corporation.

Datasheet

1.CYV15G0203TB.pdf (19 pages)

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Document #: 38-02105 Rev. *B

Pin Definitions

CYV15G0203TB Dual HOTLink II Serializer

CYV15G0203TB HOTLink II Operation

The CYV15G0203TB is a highly configurable, independent

clocking, dual-channel serializer, designed to support reliable

transfer of large quantities of digital video data, using high-

speed serial links from multiple sources to multiple destina-

tions. This device supports two 10-bit channels.

CYV15G0203TB Transmit Data Path

Input Register

The parallel input bus TXDx[9:0] can be clocked in using

TXCLKx (TXCKSELx = 0) or REFCLKx (TXCKSELx = 1).

Phase-Align Buffer

Data from each Input Register is passed to the associated

Phase-Align Buffer, when the TXDx[9:0] input registers are

clocked using TXCLKx (TXCKSELx = 0 and TXRATEx = 0).

When the TXDx[9:0] input registers are clocked using

REFCLKx± (TXCKSELx = 1) and REFCLKx± is a full-rate

clock, the associated Phase Alignment Buffer in the transmit

path is bypassed. These buffers are used to absorb clock

phase differences between the TXCLKx input clock and the

internal character clock for that channel.

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

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

the handling capacity of the Phase Align Buffer, TXERRx is

asserted to indicate the loss of data, and remains asserted

until the Phase Align Buffer is initialized. The phase of the

TXCLKx relative to its associated internal character rate clock

is initialized when the configuration latch PABRSTx is written

as 0. When the associated TXERRx 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 REFCLKx, exceeds the skew handling capabilities

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

channel’s TXERRx output. This output indicates an error

continuously until the Phase-Align Buffer for that channel is

TMS

TCLK

TDO

TDI

TRST

GND

Name

JTAG Interface

Power

LVTTL Input,

internal pull-up

LVTTL Input,

internal pull-down

3-State LVTTL Output Test Data Out. JTAG data output buffer. High-Z while JTAG test mode is not selected.

LVTTL Input,

internal pull-up

LVTTL Input,

internal pull-up

(continued)

I/O Characteristics

Test Mode Select. Used to control access to the JTAG Test Modes. If maintained

high for ≥5 TCLK cycles, the JTAG test controller is reset.

JTAG Test Clock.

Test Data In. JTAG data input port.

JTAG reset signal. When asserted (LOW), this input asynchronously resets the

JTAG test access port controller.

+3.3V Power.

Signal and Power Ground for all internal circuits.

Signal Description

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

channel outputs a continuous “1001111000” character (LSB

first) to indicate to the remote receiver that an error condition

is present in the link.

Transmit BIST

Each channel contains an internal pattern generator that can

be used to validate both the link and device operation. These

generators are enabled by the associated TXBISTx latch via

the device configuration interface. When enabled, a register in

the associated channel becomes a signature pattern

generator by logically converting to a Linear Feedback Shift

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 both channels.

All data present at the associated TXDx[9:0] inputs are ignored

when BIST is active on that channel.

Transmit PLL Clock Multiplier

Each Transmit PLL Clock Multiplier accepts a character-rate

or half-character-rate external clock at the associated

REFCLKx± input, and that clock is multiplied by 10 or 20 (as

selected by TXRATEx) 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

TXCLKOx.

Each clock multiplier PLL can accept a REFCLKx± input

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

limited by the operating mode of the CYV15G0203TB clock

multiplier (TXRATEx) and by the level on the associated

SPDSELx input.

SPDSELx are 3-level select

operating ranges for the serial data outputs and inputs of the

associated channel. The serial signaling-rate and allowable

range of REFCLKx± frequencies are listed in Table 1.

[4]

inputs that select one of three

CYV15G0203TB

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