S2042 AMCC (Applied Micro Circuits Corp), S2042 Datasheet - Page 5

S2042

Manufacturer Part Number

S2042

Description

High Performance Serial Interface Circuits

Manufacturer

AMCC (Applied Micro Circuits Corp)

Datasheet

1.S2042.pdf (20 pages)

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Figure 6. Loopback Interface Diagram

When framing is disabled by low SYNCEN, the S2043

simply achieves bit synchronization within 250 bit times

and begins to deliver parallel output data words whenever

it has received full transmission words. No attempt is made

to synchronize on any particular incoming character. The

SYNCEN input should be static during operation (i.e.

connected to VCC or GND). The S2043 will not main-

tain the existing byte synchronization when SYNCEN

transitions from the active to inactive state.

The SYNC output signal will go high whenever a

K28.5 character (positive disparity) is present on the

parallel data outputs. The SYNC output signal will be

low at all other times. This is true whether the S2043

is operating in 10-bit mode or in 20-bit mode. In 20-

bit mode, the K28.5 byte will always be placed in the

MSB (D0-D9). In 10-bit mode, the K28.5 will be

clocked with the RCLKN output.

Lock Detect

The S2043 lock detect function indicates the state of

the phase-locked loop (PLL) clock recovery unit. The

PLL will indicate lock within 250 bit times after the

start of receiving serial data inputs. If the serial data

inputs have an instantaneous phase jump (from a

serial switch, for example) the PLL will not indicate

an out-of-lock state, but will recover the correct phase

alignment within 250 bit times. If a run length of 64

bits is exceeded, or if the transition density is less

than 12%, the loop will be declared out of lock and

will attempt to re-acquire bit synchronization. When

lock is lost, the PLL will shift from the serial input

data to the reference clock, so that correct frequency

downstream clocking will be maintained.

In any transfer of PLL control from the serial data to

the reference clock, the RCLK/RCLKN output remains

phase continuous and glitch free, assuring the integ-

rity of downstream clocking.

Applied Micro Circuits Corporation

6195 Lusk Blvd., San Diego, CA 92121 • (619) 450-9333

HIGH PERFORMANCE SERIAL INTERFACE CIRCUITS

OE0, OE1

Data Out

Data In

CLK

Transmitter

Channel

Receiver

Channel

S2042

S2043

Fibre

Transmitter

Receiver

Channel

S2043

Fibre

S2042

Fibre

Data Out

Data In

OE0, OE1

CLK

Table 4. Receiver Operating Modes

Start-Up Procedure

The clock recovery PLL requires an initilization proce-

dure to correctly achieve lock on the serial data inputs.

At power-up or loss of lock, the PLL must first acquire

frequency lock to the local reference clock. This can be

accomplished in three ways: 1) The –LOCK_REF pin

can be connected to a 10 ms reset signal to initialize

the PLL. 2) By guaranteeing that no data is seen at the

serial data inputs for a minimum of 10 ms upon power-

up. 3) The S2043 can be put into the loopback mode

and the loopback outputs of the S2042 must be quies-

cent for a minimum of 10 ms after power-up.

Other Operating Modes

Loopback

Local loopback requires a S2042 and a S2043 as shown

in the Figure 6. When enabled, serial data from the

S2042 transmitter is sent to the S2043 receiver, where

the clock is extracted and the data is deserialized. The

parallel data is then sent to the subsystem for verifica-

tion. This loopback mode provides the capability to

perform offline testing of the interface to guarantee the

integrity of the serial channel before enabling the trans-

mission medium. It also allows system diagnostics.

Operating Frequency Range

The S2042 and S2043 are optimized for operation at

the Fibre Channel rates of 266, 531 and 1062 Mbit/s.

Operation at other than Fibre channel rates is pos-

sible if the rate falls within 10% of the nominal rate.

REFCLK must be selected to be within 100 ppm of

the desired byte or word clock rate.

Test Modes

The TEST pin on the S2042 and the SYNCEN pin on

the S2043 provide a PLL bypass mode that can be

used for operating the digital area of the chip. In this

mode, clock signals are input through the reference

clock pins. This can be used for testing the device

during the manufacturing process or during an off-

line self-test. Sync detection is always enabled in

test mode.

RATESEL

Open

DWS

REFSEL

(Mbits/sec)

Data Rate

265.625

1062.5

531.25

Width

Word

(Bits)

Frequency

Reference

26.5625

106.25

53.125

Clock

(MHz)

S2042/S2043

RCLK/RCLKN

Frequency

26.5625

53.125

(MHz)

S2042 AMCC (Applied Micro Circuits Corp), S2042 Datasheet - Page 5

S2042

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