S3064 AMCC (Applied Micro Circuits Corp), S3064 Datasheet - Page 2

S3064

Manufacturer Part Number

S3064

Description

Bicmos Lvpecl Clock Generator Sonet/sdh/atm Oc-12 Transmitter And Receiver Sonet/sdh/atm Oc-48 Differential 1:16 Receiver

Manufacturer

AMCC (Applied Micro Circuits Corp)

Datasheet

1.S3064.pdf (23 pages)

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SONET OVERVIEW

Synchronous Optical Network (SONET) is a standard

for connecting one fiber system to another at the opti-

cal level. SONET, together with the Synchronous

Digital Hierarchy (SDH) administered by the ITU-T,

forms a single international standard for fiber inter-

connect between telephone networks of different

countries. SONET is capable of accommodating a

variety of transmission rates and applications.

The SONET standard is a layered protocol with four

separate layers defined. These are:

• Photonic

• Section

• Line

• Path

Figure 2 shows the layers and their functions. Each

of the layers has overhead bandwidth dedicated to

administration and maintenance. The photonic layer

simply handles the conversion from electrical to optical

and back with no overhead. It is responsible for

transmitting the electrical signals in optical form over

the physical media. The section layer handles the

transport of the framed electrical signals across the

optical cable from one end to the next. Key functions

of this layer are framing, scrambling, and error moni-

toring. The line layer is responsible for the reliable

transmission of the path layer information stream

carrying voice, data, and video signals. Its main

functions are synchronization, multiplexing, and reli-

able transport. The path layer is responsible for the

actual transport of services at the appropriate signaling

rates.

Data Rates and Signal Hierarchy

Table 1 contains the data rates and signal designations

of the SONET hierarchy. The lowest level is the basic

SONET signal referred to as the synchronous transport

signal level-1 (STS-1). An STS- N signal is made up of

N byte-interleaved STS-1 signals. The optical counter-

Figure 3. STS-48/OC-48 Frame Format

S3083

A1 A1

48 A1

Bytes

Transport Overhead 144 Columns

144 x 9 = 1296 bytes

A2 A2

48 A2

Bytes

125 sec

SONET/SDH/ATM OC-48 16:1 TRANSMITTER

Figure 2. SONET Structure

part of each STS- N signal is an optical carrier level- N

signal (OC- N ). The S3083 chip supports the OC-48

data rate (2.488 Gbps).

Frame and Byte Boundary Detection

The SONET/SDH fundamental frame format for STS-48

consists of 144 transport overhead bytes followed by

Synchronous Payload Envelope (SPE) bytes. This

pattern of 144 overhead and 4176 SPE bytes is re-

peated nine times in each frame. Frame and byte

boundaries are detected using the A1 and A2 bytes

found in the transport overhead. (See Figure 3.)

For more details on SONET operations, refer to the

Bellcore SONET standard document.

Table 1. SONET Signal Hierarchy

SPE mapping

Elec.

STS-1

STS-3

STS-12

STS-24

STS-48

Maintenance,

Functions

Payload to

transmission

protection,

Scrambling,

switching

Optical

framing

Synchronous Payload Envelope 4176 Columns

4176 x 9 = 37,584 bytes

End Equipment

CCITT

STM-16

STM-1

STM-4

STM-8

Photonic layer

Section layer

Line layer

Path layer

Optical Data Rate (Mbps)

OC-1

OC-3

OC-12

OC-24

OC-48

Fiber Cable

August 27, 1999 / Revision B

51.84

155.52

622.08

1244.16

2488.32

Photonic layer

Section layer

Line layer

Path layer

End Equipment

S3064 AMCC (Applied Micro Circuits Corp), S3064 Datasheet - Page 2

S3064

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