ZL30106_05 ZARLINK [Zarlink Semiconductor Inc], ZL30106_05 Datasheet - Page 18

ZL30106_05

Manufacturer Part Number

ZL30106_05

Description

SONET/SDH/PDH Network Interface DPLL

Manufacturer

ZARLINK [Zarlink Semiconductor Inc]

Datasheet

1.ZL30106_05.pdf (48 pages)

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where:

HMS=0: When the same ten Normal to Holdover to Normal mode changes occur and in each case Holdover mode

was entered for 2 seconds, then the overall MTIE would be 20 ns. As the delay value for the TIE corrector circuit is

not updated, there is no 13 ns measurement error at this point. The phase can still drift for 20 ns when the PLL is in

Holdover mode but when the PLL enters Normal mode again, the phase moves back to the original point so the

phase is not accumulated.

3.4

The DPLL of the ZL30106 consists of a phase detector, a limiter, a loop filter and a digitally controlled oscillator as

shown in Figure 11. The data path from the phase detector to the limiter is tapped and routed to the lock detector

that provides a lock indication which is output at the LOCK pin.

Phase Detector - the phase detector compares the virtual reference signal from the TIE corrector circuit with the

feedback signal and provides an error signal corresponding to the phase difference between the two. This error

signal is passed to the limiter circuit.

Limiter - the limiter receives the error signal from the phase detector and ensures that the DPLL responds to all

input transient conditions with a maximum output phase slope compliant with the applicable standards. The phase

slope limit is dependent on the APP_SEL1:0 and BW_SEL pins and is listed in Table 2.

Loop Filter - the loop filter is similar to a first order low pass filter with a bandwidth selected by the BW_SEL pin,

suitable to provide timing and synchronization for SONET/SDH and PDH network interface cards. For stability

reasons, the loop filter bandwidth for 2 kHz references is always 14 Hz and the loop filter bandwidth for 8 kHz

references is limited to a maximum of 58 Hz.

TIE Corrector Circuit

0.01 ppm is the accuracy of the Holdover mode

0 ns is the maximum phase discontinuity in the transition from the Normal mode to the Holdover mode

13 ns is the maximum phase discontinuity in the transition from the Holdover mode to the Normal mode

when a new TIE corrector value is calculated

Digital Phase Lock Loop (DPLL)

Virtual Reference

from

REF_SYNC

frame pulse

Detector

Phase

Figure 11 - DPLL Block Diagram

Limiter

Zarlink Semiconductor Inc.

ZL30106

Control State Machine

State Select from

Loop Filter

Controlled

Oscillator

Detector

Digitally

Lock

Feedback signal from

Frequency Select MUX

Feedback frame pulse; F8o or

F2ko

Frequency Synthesizer

LOCK

DPLL Reference to

Data Sheet

ZL30106_05 ZARLINK [Zarlink Semiconductor Inc], ZL30106_05 Datasheet - Page 18

ZL30106_05

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