DS3163 Maxim Integrated Products, DS3163 Datasheet - Page 186

DS3163

Manufacturer Part Number

DS3163

Description

IC TRPL ATM/PACKET PHY 400-PBGA

Manufacturer

Maxim Integrated Products

Datasheet

1.DS3163.pdf (384 pages)

Specifications of DS3163

Applications

Mounting Type

Surface Mount

Package / Case

400-BGA

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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10.13.3.3 Receive FEAC Processor

The Receive FEAC Processor accepts an incoming data line and extracts all overhead and performs FEAC code

extraction, and Idle detection.

Figure 10-48. FEAC Codeword Format

FEAC code extraction determines the codeword boundary by identifying the codeword sequence and extracts the

FEAC code. A FEAC codeword is a repeating 16-bit pattern (see

pattern (0xxxxxx011111111) that contains each FEAC code (C[6:1]). Each time slot is checked for a codeword

sequence. Once a codeword sequence is found, the FEAC code is checked. If the same FEAC code is received in

three consecutive codewords without errors, the FEAC code detection indication is set, and the FEAC code is

stored in the Receive FIFO with the MSB (C[1]) in RFF[0], and the LSB (C[6]) in RFF[5]. The FEAC code detection

indication is cleared if two consecutively received FEAC codewords differ from the current FEAC codeword, or a

FEAC Idle condition is detected.

Idle detection detects a FEAC Idle condition. A FEAC idle condition is declared if sixteen consecutive ones are

received. The FEAC Idle condition is terminated when the FEAC code detection indication is set.

10.13.3.4 Receive FEAC FIFO

The Receive FIFO block contains memory for four FEAC codes (C{1:6]) and controller circuitry for reading and

writing the memory. The Receive FIFO controller functions include filling the memory, tracking the memory fill level,

maintaining the memory read and write pointers, and detecting memory overflow and underflow conditions. The

Receive FIFO accepts data from the Receive FEAC Processor and stores the data in memory. The data is read

from the receive FIFO via the microprocessor interface. The Receive FIFO also outputs FIFO fill status (empty) via

the microprocessor interface. All operations are code based (six bits). The Receive FIFO is considered empty when

it does not contain any data. The Receive FIFO accepts data from the Receive FEAC Processor until full. If a

FEAC code is received while full, the data is discarded and a FIFO overflow condition is declared. If the Receive

FIFO is read while the FIFO is empty, the read is ignored.

10.14 Line Encoder/Decoder

10.14.1 General Description

The B3ZS/HDB3 Decoder converts a bipolar signal to a unipolar signal in the receive direction. B3ZS/HDB3

Encoder converts a unipolar signal to a bipolar signal in the transmit direction.

In the transmit direction, the Encoder converts the unipolar signal to a bipolar signal, optionally performing zero

suppression encoding (HDB3/B3ZS), optionally inserting errors, and outputs the bipolar signal.

In the receive direction, the Decoder receives a bipolar signal, monitors it for alarms and errors, optionally

performing zero suppression decoding (HDB3/B3ZS), and converts it to a unipolar signal.

If the port line interface is configured for a Unipolar mode and the framer is not configured for one of the “-OHM”

modes, the BPV detector will count pulses on the RLCVn pin. See

Encoder/ Decoder block in the DS316x devices.

LSB

C5 C4 C3 C2 C1

Receive/Transmit Order

Cx - FEAC Code

Figure

Figure 10-49

10-48). The codeword sequence is the

for the locations of the Line

MSB

DS3163 Maxim Integrated Products, DS3163 Datasheet - Page 186

DS3163

Specifications of DS3163

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