SI53313 Datasheet, PDF(20/33 Page) Silicon Laboratories – DUAL 1:5 LOW-JITTER, ANY-FORMAT BUFFER/LEVEL TRANSLATOR

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SI53313 Datasheet, PDF (20/33 Pages) Silicon Laboratories – DUAL 1:5 LOW-JITTER, ANY-FORMAT BUFFER/LEVEL TRANSLATOR

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Si53313

2.10. Typical Phase Noise Performance

Each of the following three figures shows three phase noise plots superimposed on the same diagram.

Source Jitter: Reference clock phase noise.

Total Jitter (SE): Combined source and clock buffer phase noise measured as a single-ended output to the phase

noise analyzer and integrated from 12 kHz to 20 MHz.

Total Jitter (Diff): Combined source and clock buffer phase noise measured as a differential output to the phase

noise analyzer and integrated from 12 kHz to 20 MHz. The differential measurement as shown in each figure is

made using a balun. See Figure 2 on page 9.

Note: To calculate the total RMS phase jitter when adding a buffer to your clock tree, use the root-sum-square (RSS).

The total jitter is a measure of the source plus the buffer's additive phase jitter. The additive jitter (rms) of the buffer

can then be calculated (via root-sum-square addition).

Important: See AN925

for additional information

on the dependence of

measured additive jitter

on the input source jitter.

Frequency

(MHz)

156.25

Diffâl Input

Slew Rate

(V/ns)

1.0

Figure 13. Source Jitter (156.25 MHz)

Table 21. Source Jitter (156.25 MHz)

Source

Jitter

(fs)

38.2

Total Jitter

(SE)

(fs)

147.8

Additive Jitter

(SE)

(fs)

142.8

Total Jitter

(Diffâl)

(fs)

118.3

Additive Jitter

(Diffâl)

(fs)

112.0

Rev. 1.0

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