SI5325C-C-GM Datasheet, PDF(62/178 Page) Silicon Laboratories

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SI5325C-C-GM Datasheet, PDF (62/178 Pages) Silicon Laboratories – ANY-FREQUENCY PRECISION CLOCKS

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Si53xx-RM

5.9.5.1. PLL Lock Detect (Si5316, Si5323, Si5366)

The PLL lock detection algorithm indicates the lock status on the LOL output pin. The algorithm works by

continuously monitoring the phase of the input clock in relation to the phase of the feedback clock. If the time

between two consecutive phase cycle slips is greater than the Retrigger Time, the PLL is in lock. The LOL output

has a guaranteed minimum pulse width as shown in the data sheet. The LOL pin is also held in the active state

during an internal PLL calibration.

The retrigger time is automatically set based on the PLL closed loop bandwidth (See Table 25).

Table 25. Lock Detect Retrigger Time

PLL Bandwidth Setting (BW)

60â120 Hz

120â240 Hz

240â480 Hz

480â960 Hz

960â1920 Hz

1920â3840 Hz

3840â7680 Hz

Retrigger Time (ms)

26.5

13.3

6.6

3.3

1.66

.833

5.9.5.2. Lock Detect (Si5322, Si5365)

A PLL loss of lock indicator is not available for these devices.

5.10. Device Reset

Upon powerup, the device internally executes a power-on-reset (POR) which resets the internal device logic. The

pin RST can also be used to initiate a reset. The device stays in this state until a valid CKINn is present, when it

then performs a PLL Self-Calibration (See â5.2. PLL Self-Calibrationâ).

5.11. DSPLLsim Configuration Software

To simplify frequency planning, loop bandwidth selection, and general device configuration of the Any-Frequency

Precision Clocks. Silicon Laboratories offers the DSPLLsim configuration utility for this purpose. This software is

available to download from www.silabs.com/timing.

Rev. 1.2

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