 English |
|
|
|
|
|
|
|
| CDC924_08 Datasheet, PDF (4/21 Pages) Texas Instruments – 133Mhz Clock Synthesizer/Driver | |||
| |||
| ◁ |
CDC924
133ÄMHz CLOCK SYNTHESIZER/DRIVER FOR PC MOTHERBOARDS
WITH 3ÄSTATE OUTPUTS
SCAS607B â NOVEMBER 1998 â REVISED JULY 2005
spread spectrum clock (SSC) implementation for CDC924
Simultaneously switching at fixed frequency generates a significant power peak at the selected frequency,
which in turn will cause EMI disturbance to the environment. The purpose of the internal frequency modulation
of the CPUâPLL allows to distribute the energy to many different frequencies which reduces the power peak.
A typical characteristic for a single frequency spectrum and a frequency modulated spectrum is shown in
Figure 1.
Highest Peak
â
SSC
Non-SSC
δ of fnom
fnom
Figure 1. Frequency Power Spectrum With and Without the Use of SSC
The modulated spectrum has its distribution left hand to the single frequency spectrum which indicates a
âdown-spread modulationâ.
The peak reduction depends on the modulation scheme and modulation profile. System performance and timing
requirements are the limiting factors for actual design implementations. The implementation was driven to keep
the average clock frequency closed to its upper specification limit. The modulation amount was set to
approximately â0.5%.
In order to allow a downstream PLL to follow the frequency modulated signal, the bandwidth of the modulation
signal is limited in order to minimize SSC induced tracking skew jitter. The ideal modulation profile used for
CDC924 is shown in Figure 2.
10.03
10.02
10.01
10
9.99
9.98
9.97
5 10 15 20 25 30 35 40 45
Period of Modulation Signal â µs
Figure 2. SSC Modulation Profile
4
⢠POST OFFICE BOX 655303 DALLAS, TEXAS 75265
|
▷ |
German
Russian
Spanish
Italian
Polish
Chinese
Japanese
Korean
French
Portuguese