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Cypress Quad HOTLink II CYV15G0404RB User Manual

Page 8

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CYV15G0404RB

Document #: 38-02102 Rev. *C

Page 8 of 27

Pin Definitions
CYV15G0404RB Quad HOTLink II Deserializing Reclocker

Name

IO Characteristics

Signal Description

Receive Path Data and Status Signals

RXDA[9:0]
RXDB[9:0]
RXDC[9:0]
RXDD[9:0]

LVTTL Output,
synchronous to the
RXCLK± output

Parallel Data Output. RXDx[9:0] parallel data outputs change relative to the
receive interface clock. If RXCLKx± is a full-rate clock, the RXCLKx± clock outputs
are complementary clocks operating at the character rate. The RXDx[9:0] outputs
for the associated receive channels follow the rising edge of RXCLKx+ or the
falling edge of RXCLKx–. If RXCLKx± is a half-rate clock, the RXCLKx± clock
outputs are complementary clocks operating at half the character rate. The
RXDx[9:0] outputs for the associated receive channels follow both the falling and
rising edges of the associated RXCLKx± clock outputs.

When BIST is enabled on the receive channel, the RXDx[1:0] and BISTSTx
outputs present the BIST status. See

Table 5, “Receive BIST Status Bits,” on

page 17

for each status that the BIST state machine reports. Also, while BIST is

enabled, ignore the RXDx[9:2] outputs.

BISTSTA
BISTSTB
BISTSTC
BISTSTD

LVTTL Output,
synchronous to the
RXCLKx± output

BIST Status Output. When RXBISTx[1:0] = 10, BISTSTx (along with RXDx[1:0])
displays the status of the BIST reception. See

Table 5, “Receive BIST Status Bits,”

on page 17

for the BIST status for each combination of BISTSTx and RXDx[1:0].

When RXBISTx[1:0]

≠ 10, ignore BISTSTx.

REPDOA
REPDOB
REPDOC
REPDOD

Asynchronous to
reclocker output
channel
enable / disable

Reclocker Powered Down Status Output. REPDOx asserts HIGH when the
associated channel’s reclocker output logic powers down. This occurs when
disabling ROE2x and ROE1x by setting ROE2x = 0 and ROE1x = 0.

Receive Path Clock Signals

TRGCLKA±
TRGCLKB±
TRGCLKC±
TRGCLKD±

Differential LVPECL or
single-ended
LVTTL input clock

CDR PLL Training Clock. The frequency detector (Range Controller) of the
associated receive PLL uses the TRGCLKx± clock inputs as the reference source
to reduce PLL acquisition time.

In the presence of valid serial data, the recovered clock output of the receive CDR
PLL (RXCLKx±) has no frequency or phase relationship with TRGCLKx±.

When a single-ended LVCMOS or LVTTL clock source drives the clock, connect
the clock source to either the true or complement TRGCLKx input, and leave the
alternate TRGCLKx input open (floating). When an LVPECL clock source drives
it, the clock must be a differential clock, using both inputs.

RXCLKA±
RXCLKB±
RXCLKC±
RXCLKD±

LVTTL Output Clock

Receive Clock Output. RXCLKx± is the receive interface clock that controls
timing of the RXDx[9:0] parallel outputs. These true and complement clocks
control timing of data output transfers. These clocks output continuously at either
the half-character rate (1/20 the serial bit-rate) or character rate (1/10 the serial
bit-rate) of the data being received, as selected by RXRATEx.

RECLKOA
RECLKOB
RECLKOC
RECLKOD

LVTTL Output

Reclocker Clock Output. The associated reclocker output PLL synthesizes the
RECLKOx output clock, which operates synchronous to the internal recovered
character clock. RECLKOx operates at either the same frequency as RXCLKx±
(RXRATEx = 0), or at twice the frequency of RXCLKx± (RXRATEx = 1). The
reclocker clock outputs have no fixed phase relationship to RXCLKx±.

Device Control Signals

RESET

LVTTL Input,
asynchronous,
internal pull up

Asynchronous Device Reset. RESET initializes all state machines, counters,
and configuration latches in the device to a known state. RESET must assert LOW
for a minimum pulse width. When the reset is removed, all state machines,
counters and configuration latches are at an initial state. According to the JTAG
specifications, the device RESET cannot reset the JTAG controller. Therefore, the
JTAG controller has to be reset separately. Refer to

“JTAG Support” on page 17

for the methods to reset the JTAG state machine. See

Table 3, “Device Configu-

ration and Control Latch Descriptions,” on page 14

for the initialize values of the

device configuration latches.

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