82P33731_16 Datasheet, PDF(20/68 Page) IDEA.lnc.

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82P33731_16 Datasheet, PDF (20/68 Pages) IDEA.lnc. – Synchronous Ethernet

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82P33731 Datasheet

3.2.2.1.4 Pre-Locked2 Mode

In Pre-Locked2 mode, the DPLL1 output attempts to track the

selected input clock.

The Pre-Locked2 mode is a secondary, temporary mode.

3.2.2.1.5 Lost-Phase Mode

In Lost-Phase mode, the DPLL1 output attempts to track the selected

input clock.

The Lost-Phase mode is a secondary, temporary mode.

3.2.2.1.6 DCO Control Modes

Figure 7 show a high level diagram of the DCO control architecture, it

shows the DCO in DPLL1 being controlled. The DCO is a phase accu-

mulator running at an internal clock. The DCO is controlled by a digital

word that can represent phase offset or frequency offset. In the case of

an IEEE 1588 application, the external processor will run the clock

recovery servo algorithm and it will generate a frequency offset word to

control the DCO.

The DCO control modes can be set by registers DPLL1_operating_-

mode_cnfg for DPLL1.

Figure 7 shows the DCO being controlled by writing a frequency off-

set word into the DCO, then by changing temporarily the DCOâs fre-

quency, the phase of the clock (or 1PPS) being generated by the DCO

will also change. The output phase change is the product of the fre-

quency change times the duration for which the frequency change is

applied for. Because the DCO's frequency word has a very fine resolu-

tion, the output phase can be adjusted in very fine steps. In this case the

clock recovery servo algorithm controls the bandwidth and phase slope

limiting. The frequency offset word can be written into DPLL1_hold-

over_freq_cnfg[39:0] bits of frequency configuration registers for

DPLL12. This value is 2âs complement signed number. Total range is +/-

92 ppm, and the DCO programming resolution is [(77760 / 1638400) *

2^-48] or ~1.686305041e-10 ppm. The DCO resolution is affected by the

offset applied into the DCO, so when writing into the DCO, the program-

ming resolution is [(77760/1638400) * 2^-48] * (1 + offset-in-ppm / 1e6).

Controlling the DCOâs frequency for smaller fine resolution phase

changes is a good method, but for bigger phase changes it is better to

use the snap-alignment method. The snap phase alignment is fast but

only provides coarse adjustment. The 82P33731 allows for both the fine

phase adjustment by controlling the frequency of the DCO and the

coarse phase adjustment by snap-aligning the output clock (or 1PPS),

for details, see section 3.2.8.3 Output Phase control on page 34.

D PLL1

S yste m

C lo c k

O s c illa to r

LPF

DCO

O u tpu t

C lo ck

F re q u e n cy

O ffse t

M icro p o rt

In te rface

M ic ro p o rt

Figure 7. DCO frequency offset control functional block diagram

Revision 5, December 8, 2016

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