W130
Model | W130 |
Description | Spread Spectrum Desktop/Notebook System Clock |
PDF file | Total 8 pages (File size: 120K) |
Chip Manufacturer | CYPRESS |
PRELIMINARY
Spread Spectrum Clocking
The device generates a clock that is frequency modulated in
order to increase the bandwidth that it occupies. By increasing
the bandwidth of the fundamental and its harmonics, the am-
plitudes of the radiated electromagnetic emissions are re-
duced. This effect is depicted in
Figure 1.
As shown in
Figure 1,
a harmonic of a modulated clock has a
much lower amplitude than that of an unmodulated signal. The
reduction in amplitude is dependent on the harmonic number
and the frequency deviation or spread. The equation for the
reduction is:
dB = 6.5 + 9*log
10
(P) + 9*log
10
(F)
W130
Where
P
is the percentage of deviation and
F
is the frequency
in MHz where the reduction is measured.
The output clock is modulated with a waveform depicted in
Figure 2.
This waveform, as discussed in “Spread Spectrum
Clock Generation for the Reduction of Radiated Emissions” by
Bush, Fessler, and Hardin produces the maximum reduction
in the amplitude of radiated electromagnetic emissions. The
deviation selected for this chip is –0.5%, ±0.9%, or –1.0% of
the selected frequency.
Figure 2
details the Cypress spreading
pattern. Cypress does offer options with more spread and
greater EMI reduction. Contact your local Sales representative
for details on these devices.
Spread Spectrum clocking is activated or deactivated by
SPREAD# input (pin 28).
5d B/d iv
E M I Reduc tion
S S FTG
Ty pic a l C loc k
Amplitude (dB)
S pread
S pectrum
E nabled
Non-
S pread
S pectrum
-S S %
F re q ue n c y S p an (M H z)
+SS%
Figure 1. Clock Harmonic with and without SSCG Modulation Frequency Domain Representation
MAX (+0.5%)
FREQUENCY
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
10%
20%
30%
40%
50%
60%
70%
80%
90%
MIN (–0.5%)
Figure 2. Typical Modulation Profile
3
100%