S3031BH0 AMCC [Applied Micro Circuits Corporation], S3031BH0 Datasheet - Page 4

S3031BH0

Manufacturer Part Number

S3031BH0

Description

E4/STM-1/OC-3 ATM TRANSCEIVER

Manufacturer

AMCC [Applied Micro Circuits Corporation]

Datasheet

1.S3031BH0.pdf (26 pages)

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Parallel-to-Serial Converter

The parallel-to-serial converter shown in Figure 9 is

comprised of two 4-bit registers. The first register latches

the data from the PIN[3:0] bus on the rising edge of

REFCLK. The second register is a parallel loadable

shift register which takes its parallel input from the first

The parallel data transfer between registers is accom-

plished on the falling edge of REFCLK. The serial data

is shifted out at the serial bit rate to the CMI encoder.

CMI Encoding

Coded Mark Inversion format (CMI) ensures at least

one data transition per 1.5 bit periods, thus aiding

the clock recovery process. Zeros are represented

by a Low state for one half a bit period, followed by a

High state for the rest of that bit period. Ones are

represented by a steady Low or High state for a full

bit period. The state of the ones bit period alternates

at each occurrence of a one. Figure 4 shows an

example of CMI-encoded data. The STS-3 electrical

interface and the E4 interface are specified to have

CMI-encoded data.

The CMI encoder on the S3031B accepts serial data

from TSDATIP/N at 139.264 or 155.52 Mb/s. The

data is then encoded into CMI format, and the result

is shifted out with transitions at twice the basic data

rate. The CMISEL input controls whether the CMI en-

coder is in the data path. A CMI code violation can be

inserted for diagnostic purposes by activating the

DLCV input. The DLCV input is sampled on every

cycle of the serial clock to allow the single or multiple

line code violations to be inserted. This violation is

either an inverted zero code or an inversion of the

alternating ones logic level, depending on the state of

the data. Subsequent one codes take into account the

induced violation to avoid error multiplication.

Jitter Generation

Jitter Generation is defined as the amount of jitter at

the OC-3 or E-4 output of equipment. Jitter genera-

tion for OC-3 shall not exceed 0.01 UI rms when

measured using a highpass filter with a 12 kHz cutoff

frequency.

For STM-1 and E4, the jitter generated shall not ex-

ceed the specifications shown in Figure 5.

In order to meet the SONET, STM-1 E4 jitter specifica-

tions as shown in Figure 5, the TSDATIP/N serial data

input must meet the jitter characteristics as shown in

Figure 6.

S3031B

Figure 6. S3031B Maximum Allowable Input Jitter

Figure 5. Jitter Generation Specifications

Compliant to G.823 and G.825

Figure 4. CMI Encoded Data

1. UI rms

2. UI p–p

STM-1

OC-3

E4/STM-1/OC-3 ATM TRANSCEIVER

500Hz

1. UI rms

2. UI p–p

STM-1

f1(Hz)

OC-3

500

200

—

f2(kHz)

—

Slope = +20 dB/decade

0.005

225 kHz

1.45

August 19, 1999 / Revision D

f3(MHz)

1.3

3.5

—

(2)

(1)

0.025

0.005

0.10

0.01

1.3 MHz

1.5

(2)

(1)

(2)

(1)

0.075

0.01

0.15

(1)

(2)

S3031BH0 AMCC [Applied Micro Circuits Corporation], S3031BH0 Datasheet - Page 4

S3031BH0

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