zl50011 Zarlink Semiconductor, zl50011 Datasheet - Page 39

Manufacturer Part Number

zl50011

Description

Flexible 512 Channel Dx With On-chip Dpll

Manufacturer

Zarlink Semiconductor

Datasheet

1.ZL50011.pdf (83 pages)

2.11.5

The locking range is the input frequency range over which the DPLL must be able to pull into synchronization and to

maintain the synchronization. The locking range is defined by the Loop Filter circuit and is equal to +/- 298 ppm.

Note that the locking range is related to the oscillator frequency. If the oscillator frequency is -100 ppm, the whole

locking range also shifts by -100 ppm downwards to become -398 ppm to +198 ppm.

2.11.6

The phase slope, or phase alignment speed, is the rate at which a given signal changes phase with respect to an

ideal signal. The given signal is typically the output signal. The ideal signal is of constant frequency and is nominally

equal to the value of the final output signal or final input signal. Many telecom standards state that the phase slope

may not exceed a certain value, usually 81 ns/1.327 ms (61 ppm). This can be achieved by limiting the phase

detector output to 61 ppm or less.

For the DPLL, the Phase Slope Limiter circuit limits the maximum phase slope to 56 ppm or 7 ns/125 µs. The phase

slope limit meets Telcordia GR-1244-CORE requirements.

2.11.7

The Phase Lock Time is the time it takes a synchronizer to phase lock to the input signal. Phase lock occurs when

the input and the output signals are not changing in phase with respect to each other (not including jitter).

Lock time is very difficult to determine because it is affected by many factors which include:

i) initial input to output phase difference

ii) initial input to output frequency difference

iii) PLL loop filter

iv) PLL limiter

Locking Range

Phase Slope

Phase Lock Time

Figure 29 - Detailed DPLL Jitter Transfer Function Diagram (Wander Transfer Diagram)

Zarlink Semiconductor Inc.

ZL50011

Data Sheet