MT90401AB Zarlink, MT90401AB Datasheet - Page 22

MT90401AB

Manufacturer Part Number

MT90401AB

Description

Framer SDH/SONET 3.3V 80-Pin LQFP EP Tray

Manufacturer

Zarlink

Datasheet

1.MT90401AB.pdf (38 pages)

Specifications of MT90401AB

Package

80LQFP EP

Number Of Transceivers

Standard Framing Format

SDH|SONET

Maximum Supply Current

150 mA

Minimum Single Supply Voltage

3 V

Maximum Single Supply Voltage

3.6 V

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3.6

Also referred to as pull-in range. This is the input frequency range over which the synchronizer must be able to pull

into synchronization. The MT90401 capture range is equal to

(C20i). For example, a

MT90401 provides two pins and two bits, PRIOOR and SECOOR, to indicate whether the primary and secondary

reference are within the 12 ppm of the nominal frequency. When the accuracy of the 20 MHz oscillator is 4.6 ppm

the effective out of range limits of the PRIOOR and SECOOR pins will be +16.6 ppm to -7.4 ppm or +7.4 ppm to

-16.6 ppm. Both references are monitored at the same time. PRIOOR and SECOOR are updated every 1.0 to 1.5

seconds.

3.7

This is the input frequency range over which the synchronizer must be able to maintain synchronization. The lock

range is equal to the capture range for the MT90401.

3.8

Phase slope is measured in seconds per second and is the rate at which a given signal changes phase with respect

to an ideal signal. The given signal is typically the output signal. An ideal signal is one that is at exactly the nominal

frequency and is completely free of jitter and wander.

3.9

Frequency slope is measured in ppm per second and is the rate at which the fractional frequency offset of a given

signal changes. The fractional frequency offset is calculated with respect to an ideal signal. The given signal is

typically the output signal. An ideal signal is one that is at exactly the nominal frequency and is completely free of

jitter and wander.

3.10

TIE is the time delay between a given timing signal and an ideal timing signal.

3.11

MTIE is the maximum peak to peak delay between a given timing signal and an ideal timing signal within a

particular observation period.

3.12

Phase continuity is the phase difference between a given timing signal and an ideal timing signal at the end of a

particular observation period. Usually, the given timing signal and the ideal timing signal are of the same frequency.

Phase continuity applies to the output of the synchronizer after a signal disturbance due to a reference switch or a

mode change.

Capture Range

Lock Range

Phase Slope

Frequency Slope

Maximum Time Interval Error (MTIE)

Time Interval Error (TIE)

Phase Continuity

32 ppm master clock results in a capture range of

MTIE S ( )

TIEmax t ( ) TIEmin t ( )

Zarlink Semiconductor Inc.

MT90401

–

52 ppm minus the accuracy of the master clock

20 ppm.

Data Sheet

MT90401AB Zarlink, MT90401AB Datasheet - Page 22

MT90401AB

Specifications of MT90401AB

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