MAX3831 Просмотр технического описания (PDF) - Maxim Integrated

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MAX3831

+3.3V, 2.5Gbps, SDH/SONET, 4-Channel Interconnect Mux/Demux ICs with Clock Generator

Maxim Integrated 

+3.3V, 2.5Gbps, SDH/SONET, 4-Channel

Interconnect Mux/Demux ICs with Clock Generator

Pin Description (continued)

PIN

NAME

FUNCTION

Elastic Store Reset. The elastic buffer is centered on a rising edge of RSETES, maximizing

58

RSETES

the elastic store range. Data must be present for 10µs before applying a pulse of at least

10ns. An internal 15kΩ pull-up resistor pulls RSETES high for normal operation.

61

FIL-

Negative PLL Filter Capacitor Input. Connect a 0.33µF capacitor between FIL+ and FIL-.

62

FIL+

Positive PLL Filter Capacitor Input. Connect a 0.33µF capacitor between FIL+ and FIL-.

EP

Exposed Paddle

Ground. This must be soldered to a circuit board for proper thermal performance (see

Package Information).

_______________Detailed Description

The MAX3831/MAX3832 use a 4:1 mux and 1:4 demux

with an elastic store buffer to simplify SDH/SONET

interconnect I/O routing. The 622Mbps low-voltage dif-

ferential signal (LVDS) parallel inputs pass through the

10-bit elastic store buffer, which accommodates ±7.5ns

skew on any single input relative to the 155MHz refer-

ence clock input RCLKI. This reference clock is

required to synthesize the internal 2.488GHz clock

used to drive the elastic store and 4:1 multiplexer. All

TTL and LVDS outputs can be placed in a high-imped-

ance state. See Figure 4 for a functional diagram.

The 4:1 mux bit-interleaves the parallel data, providing

a 2.488Gbps CML serial output to the optical or electri-

cal driver. The CML serial input receives the

2.488Gbps data, the demux deinterleaves it to

622Mbps and sends the data to the frame detector.

The frame detector monitors one 622Mbps channel and

rolls the demux into the proper channel assignment.

The MAX3831/MAX3832 include high-speed, built-in

self-test (BIST), which also allows testing of the

622Mbps parallel-system loopback and the 2.488Gbps

line loopback.

Elastic Store Buffer

Each parallel-data input, PDI1 to PDI4, passes through

its respective 10-bit elastic store buffer. Following an

elastic store reset, this buffer accommodates ±7.5ns of

skew on any input relative to the 155MHz reference

clock. Figure 5 illustrates the elastic store buffer rela-

tionship with RCLKI. The Elastic Store Range graph in

the Typical Operating Characteristics shows the

amount of data skew tolerated.

Following a 10µs power-up period, the locations of the

individual data-channel bit transitions are acquired,

guaranteeing data preservation. The output of this

block passes directly into the 4:1 mux. After power-up,

the elastic store buffer must be reset by applying a low

pulse on RSETES for at least 10ns.

Due to the inherent uncertainty of the data transitions

between the parallel-data inputs there is no bit or frame

alignment between these inputs. However, the demux

ensures proper channel assignment is maintained.

Bit-Interleaved Multiplexer/

Demultiplexer

The MAX3831/MAX3832 use a bit interleave/deinterleave

mux/demux. To guarantee channel assignment, one of

the four channels is inverted before multiplexing to pro-

vide a reference for the frame detector during demulti-

plexing. After demultiplexing, the same channel is

inverted back to the original data format.

Frame Detector

After a 2.5Gbps serial data is bit deinterleaved into four

622Mbps channels, an SDH/SONET frame detector

monitors the fourth channel, looking for the 32-bit pat-

tern (A1A1A2A2) in the OC-12 header. To maintain cor-

rect channel assignment, the demux outputs rotate until

this 32-bit overhead pattern is reliably detected. A loss-

of-frame output, LOF, indicates when the received data

is in or out of frame. When LOF goes high, the frame

pattern is detected and the demux outputs are correct-

ly assigned. When LOF is low, the frame detection cir-

cuitry is searching for the correct frame. A RSETFR

(TTL, active low) is included to reset the frame detector

when necessary.

The frame detector uses an algorithm to detect an in-

frame condition and a loss-of-frame condition; this algo-

rithm is implemented to meet the SONET in-frame and

false-frame specs. The frame_search state will occur

upon start-up or reset. In this state, the frame detector

scans through the incoming serial data searching for the

framing pattern in the channel 4 output of the demux.

While in this state, if the framing pattern is not found

within 250µs, the demux channels are shifted (rolled)

and the frame search continues (Figure 6).

In-frame will be declared if two consecutive framing

patterns are found at the correct byte locations within

the SONET frame (9720 bytes). If this pattern is not pre-

_______________________________________________________________________________________________________ 7

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