82P33741 Datasheet, PDF(20/61 Page) Integrated Circuit Systems

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82P33741 Datasheet, PDF (20/61 Pages) Integrated Circuit Systems – Differential reference inputs

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82P33741 Datasheet

clock signal with no event

clock signal with events

Input Clock

Leaky Bucket Accumulator

Decay

Rate

Bucket Size

Upper Threshold

Lower Threshold

No-activity Alarm Indication

Figure 7. Input Clock Activity Monitoring

3.1.3.2.2 Frequency Monitoring

Frequency is monitored by comparing the input clock with a refer-

ence clock. The reference clock can be derived from the system clock or

the output of DPLL1, as determined by the FREQ_MON_CLK bit.

Each reference clock has a hard frequency monitor and a soft fre-

quency monitor. Both monitors have two thresholds, rejecting threshold

and accepting threshold, which are set in HARD_FREQ_MON_-

THRESHOLD[7:0] and SOFT_FREQ_MON_THRESHOLD[7:0]. So four

frequency alarm thresholds are set for frequency monitoring: Hard Alarm

Accepting Threshold, Hard Alarm Rejecting Threshold, Soft Alarm

Accepting Threshold and Soft Alarm Rejecting Threshold.

The frequency hard alarm accepting threshold can be calculated as

follows:

Frequency Hard Alarm Accepting Threshold (ppm) = (HARD_FRE-

Q_MON_THRESHOLD[7:4] + 1) X FREQ_MON_FACTOR[3:0] (b3~0,

FREQ_MON_FACTOR_CNFG)

The frequency hard alarm rejecting threshold can be calculated as

follows:

Frequency Hard Alarm Rejecting Threshold (ppm) = (HARD_FRE-

Q_MON_THRESHOLD[3:0] + 1) X FREQ_MON_FACTOR[3:0] (b3~0,

FREQ_MON_FACTOR_CNFG)

When the input clock frequency rises to above the hard alarm reject-

ing threshold, the INn_FREQ_HARD_ALARM bit (12 ï³ n ï³ 1) will alarm

and indicate â1â. The alarm will remain until the frequency is down to

below the hard alarm accepting threshold, then the INn_FRE-

Q_HARD_ALARM bit will return to â0â. There is a hysteresis between fre-

quency monitoring, refer to Figure 8. Hysteresis Frequency Monitoring

page 21.

The soft alarm is indicated by the INn_FREQ_SOFT_ALARM bit (12

ï³ n ï³ 1) in the same way as hard alarm.

If the FREQ_MON_HARD_EN bit is â1â, the frequency alarm status of

the input clock is indicated by the INn_FREQ_HARD_ALARM bit (12 ï³ n

ï³ 1). When the FREQ_MON_HARD_EN bit is â0â, no frequency hard

alarm is raised even if the input clock is above the frequency alarm

threshold.

The input clock with a frequency hard alarm is disqualified for clock

selection for the DPLLs, but the soft alarm doesnât affect the clock selec-

tion for the DPLLs.

The frequency of each input clock with respect to the reference clock

can be read by doing the following step:

1. Read the value in the IN_FREQ_VALUE[7:0] bits and calculate

as follows:

Input Clock Frequency (ppm) = IN_FREQ_VALUE[7:0] * FRE-

Q_MON_FACTOR[3:0]

Note that the value set by the FREQ_MON_FACTOR[3:0] bits

depends on the application.

Revision 6, July 21, 2016

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