STC5415 Datasheet, PDF(16/48 Page) Connor-Winfield Corporation

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STC5415 Datasheet, PDF (16/48 Pages) Connor-Winfield Corporation – Line Card Clock

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STC5415

Line Card Clock

Data sheet

Detailed Description

The STC5415 is a single chip solution for line card

application in SDH, SONET, and Synchronous Ether-

net network elements. The revolutionary pure-digital

internal modules, DSP-based PLL and clock synthe-

sizer are used in the device so that the overall char-

acteristics are more stable compared to ones in

traditional method.

Chip Master Clock

The STC5415 operates with an external oscillator

(e.g., TCXO or XO) as its master clock on the pin

MCLK. The clock specification is dependent on the

requirement of the application.

The device supports four different accepted frequen-

cies of master clock: 10MHz, 12.8MHz, 19.2MHz,

and 20MHz. Initial default accepted frequency of

MCLK for STC5415 is 12.8MHz. When 10MHz,

19.2MHz, or 20MHz is selected as the frequency of

MCLK, the user must write register MCLK Freq

Reset three times consecutively, with no intervening

read/writes from/to other register. An internal soft-

reset will occur after three writes completed. The

accepted frequency of MCLK input returns to

12.8MHz following any regular reset. See register

MCLK Freq Reset for details.

In the meantime, the STC5415 allows user to read

three values at the register MCLK Freq Reset:

FRQID, COUNT, and ID Written Value.

FRQID

Indicates the ID of the frequency of MCLK that the

STC5415 currently accept.

COUNT

Indicates how many times the register MCLK Freq

Reset has been written to.

ID Written Value

Indicates the ID of associated value that is being writ-

ten to the register MCLK Freq Reset.

See the register MCLK Freq Reset for more details.

PLL individually operate in either external-timing or

self-timing mode. InFeuxntecrntaiol ntimailnSg pmeocdiefi,cPaLtLioonf a

timing generator phase-locks to a reference input. In

self-timing mode, PLL simply operates with the exter-

nal oscillator (MCLK). The STC5415 supports three

operation modes: freerun (self-timing), synchronized

(external-timing), and holdover (self-timing).

Freerun Mode

Freerun mode is typically used during systemâs initial-

ization stage when none of reference inputs is avail-

able and the clock synchronization has not been

achieved. The clock output generated from the

STC5415 in freerun mode is relative to the internal

freerun clock which is synthesized from MCLK. Fre-

quency of the internal freerun clock can be calibrated

by writing to the register Freerun Cali.

Synchronized Mode

In synchronized mode, the built-in PLL of the timing

generator locks to the selected reference input. Each

timing generatorâs loop bandwidth is independently

programmable from 13Hz to 100Hz by writing to the

tion of the PLL is determined according to the loop

bandwidth and has maximum gain under 0.2dB. In

synchronized mode, the phase relationship between

the reference input and the clock output can be con-

figured as arbitrary or aligned at register Frame

Phase Align.

Holdover Mode

When none of reference inputs is available, holdover

mode is used to maintain the frequency offset of the

clock output closely to previous value generated

when the selected reference input was valid. In hold-

over mode, the clock output is synthesized from the

MCLK along with the device holdover history which is

acquired from the short-term holdover history. Short

term holdover history is accumulated by a built in pro-

grammable short-term history accumulator consecu-

tively, which indicate the latest updated fractional

frequency offset of the synchronous clock output. The

bandwidth of the accumulator may be configured at

the register Short Term History Bandwidth. The

user can read the short-term history from register

Short Term Accu History.

Operation Mode

The STC5415 includes a timing generator that has a

PLL Event In

The STC5415 provides direct communication with the

PLLâs timing generator by writing to the register PLL

Preliminary

Page 16 of 48 TM120 Rev: P1.3

Date: September 20, 2011

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