CS2300-OTP Datasheet, PDF(19/28 Page) Cirrus Logic – Fractional-N Clock Multiplier with Internal LCO

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CS2300-OTP Datasheet, PDF (19/28 Pages) Cirrus Logic – Fractional-N Clock Multiplier with Internal LCO

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5.8 Clock Output Stability Considerations

CS2300-OTP

5.8.1

Output Switching

The CS2300-OTP is designed such that re-configuration of the clock routing functions do not result in a

partial clock period on any of the active outputs (CLK_OUT and/or AUX_OUT). In particular, enabling or

disabling an output, and the automatic disabling of the output(s) during unlock will not cause a runt or par-

tial clock period.

The following exceptions/limitations exist:

â¢ Enabling/disabling AUX_OUT when AuxOutSrc = 11 (unlock indicator).

â¢ Switching AuxOutSrc[1:0] to or from 01 (CLK_IN) and to or from 11 (unlock indicator)

(Transitions between AuxOutSrc[1:0] = [00,10] will not produce a glitch).

When any of these exceptions occur, a partial clock period on the output may result.

5.8.2

PLL Unlock Conditions

Certain changes to the clock inputs and mode pins can cause the PLL to lose lock which will affect the

presence of a clock signal on CLK_OUT. The following outlines which conditions cause the PLL to go un-

locked:

â¢ Any change in the state of the M1 and M0 pins will cause the PLL to temporarily lose lock as the new

setting takes affect.

â¢ Changes made to the state of the M2 when the M2Config[2:0] global parameter is set to 011, 100, 101,

or 110 can cause the PLL to temporarily lose lock as the new setting takes affect.

â¢ Discontinuities on the Frequency Reference Clock, CLK_IN, except when the Clock Skipping feature

is enabled and the requirements of Clock Skipping are satisfied (see âCLK_IN Skipping Modeâ on

page 10).

â¢ Gradual changes in CLK_IN frequency greater than Â±30% from the starting frequency.

â¢ Step changes in CLK_IN frequency.

DS844PP1

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