XC167CI-16F_06 Datasheet, PDF(72/90 Page) Infineon Technologies AG – 16-Bit Single-Chip Microcontroller with C166SV2 Core

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XC167CI-16F_06 Datasheet, PDF (72/90 Pages) Infineon Technologies AG – 16-Bit Single-Chip Microcontroller with C166SV2 Core

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XC167CI-16F

Derivatives

Electrical Parameters

The value of the accumulated PLL jitter depends on the number of consecutive VCO

output cycles within the respective timeframe. The VCO output clock is divided by the

output prescaler (K = PLLODIV+1) to generate the master clock signal fMC. Therefore,

the number of VCO cycles can be represented as K Ã N, where N is the number of

consecutive fMC cycles (TCM).

For a period of N Ã TCM the accumulated PLL jitter is defined by the deviation DN:

DN [ns] = Â±(1.5 + 6.32 Ã N / fMC); fMC in [MHz], N = number of consecutive TCMs.

So, for a period of 3 TCMs @ 20 MHz and K = 12: D3 = Â±(1.5 + 6.32 Ã 3 / 20) = 2.448 ns.

This formula is applicable for K Ã N < 95. For longer periods the K Ã N = 95 value can be

used. This steady value can be approximated by: DNmax [ns] = Â±(1.5 + 600 / (K Ã fMC)).

Acc. jitter DN

Â±8

K = 12 K = 8

K = 15 K = 10

K=6 K=5

Â±7

Â±6

Â±5 10 MHz

20 MHz

Â±4

Â±3

Â±2

40 MHz

Â±1

25 N

MCD05566

Figure 16 Approximated Accumulated PLL Jitter

Note: The bold lines indicate the minimum accumulated jitter which can be achieved by

selecting the maximum possible output prescaler factor K.

Different frequency bands can be selected for the VCO, so the operation of the PLL can

be adjusted to a wide range of input and output frequencies:

Data Sheet

V1.3, 2006-08

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