PM5380-BI PMC-Sierra, Inc., PM5380-BI Datasheet - Page 90

PM5380-BI

Manufacturer Part Number

PM5380-BI

Description

Network Interface, SATURN User Network Interface (8x155) Telecom Standard Product

Manufacturer

PMC-Sierra, Inc.

Datasheet

1.PM5380-BI.pdf (440 pages)

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Proprietary and Confidential to PMC-Sierra, Inc., and for its customers’ internal use.

Document No.: PMC- 2010299, Issue 2

10.16.1

10.16.2

10.16.3

Phase Comparison

The phase comparison between the receive recovered clock (RCLK) and the transmit reference

clock (REFCLK+/-) is implemented by sampling, at a fixed interval specified by the Reference

Counter, the output of the Phase Counter. The Reference Counter is clocked by RCLK while

the Phase Counter is clocked by the REFCLK+/- clock.

Successive reading of the value obtained, referred to as the phase sample (PHSAMP), can be

used to calculate the phase relation between both clocks. Both the Reference Counter and the

Phase Counter are programmable counters and are set to have equal cycle period. Therefore, if

REFCLK+/- was phased locked to RCLK, successive readings of the phase sample would be

equal. The phase sample value will increase or decrease depending if REFCLK+/- is faster or

slower than RCLK.

At each reference period, a signal enabling the sampling (SAMPLEN) of the Phase Counter is

produced. This signal is resynchronized to REFCLK+/- to avoid any potential metastability

problem that could result due to the asynchronous nature of both clocks.

Phase Reacquisition Control

The Phase Reacquisition Control circuit prevents using the phase sample from both sides of the

counter wrap-around point when performing the Phase Sample averaging. The Phase Count is

first divided in four quadrants, each equal to approximately a quarter of the Phase Count.

Comparators are used to determine in which quadrant each phase sample is located. When two

successive samples (one in the first quadrant and the other in the last quadrant) are seen, the

Reference Phase Alignment Flag (RPHALFLG) is generated.

Upon reception of this signal, the Phase Counter is reset to align the phase count sampling point

towards its middle count. This signal is also sent to the Phase Averager circuit. The generation

of this signal may be squelched by setting the AUTOREAC bit of the WANS configuration

Phase Averager

To provide some noise immunity and improve the resolution of the phase detector algorithm of

the WANS, the phase samples are averaged over a programmable number of samples.

Although referred to as an averaging process, it is truly an accumulation process. It retains full

resolution, i.e. no division is performed on the accumulated value. The Phase Word includes an

integer and a fractional part. The number of averaging samples sets the size of the fractional

part.

A programmable counter, the Sample Counter, is incremented at each SAMPLEN signal. This

Sample Counter defines the Phase Averaging Period, equal to the Reference Period times the

programmed number of phase samples. At the end of this period, the accumulated phase sample

value is transferred to the Phase Word register. The Phase Word (PHAWORD) is then

accessible by an external processor. A timer flag (TIMFLG) is raised at the end of each

averaging period. The flag may be used to generate an interrupt request to an external

processor.

S/UNI®-8x155 ASSP Telecom Standard Product Data Sheet

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PM5380-BI PMC-Sierra, Inc., PM5380-BI Datasheet - Page 90

PM5380-BI

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