C9531_04 Datasheet, PDF(6/10 Page) Cypress Semiconductor – PCIX I/O System Clock Generator with EMI Control Features

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C9531_04 Datasheet, PDF (6/10 Pages) Cypress Semiconductor – PCIX I/O System Clock Generator with EMI Control Features

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As an example and using this formula for this data sheetâs

device, a design that has no discrete loading capacitors

(CDISC) and each of the crystal device PCB traces has a

capacitance (CPCB) to ground of 4 pF (typical value) would

calculate as:

CL =

(4 pF + 36 pF + 0 pF) x (4 pF + 36 pF + 0 pF)

= 40 x 40

40 x 40

1600

= 20 pF.

C9531

Therefore, to obtain output frequencies that are as close to this

data sheets specified values as possible, in this design

example, you should specify a parallel cut crystal that is

designed to work into a load of 20 pF.

Spread Spectrum Clocking

Down Spread Description

Spread Spectrum is a modulation technique for distributing

clock period over a certain bandwidth (called Spread

Bandwidth). This technique allows the distribution of the

undesirable electromagnetic energy (EMI) over a wide range

of frequencies therefore reducing the average radiated energy

present at any frequency over a given time period. As the

spread is specified as a percentage of the resting (non-spread)

frequency value, it is effective at the fundamental and, to a

greater extent, at all of its harmonics.

In this device Spread Spectrum is enabled externally through

pin 15 (SSCG#) or internally via SMBus Byte 0 Bit 0 and 6.

Spread spectrum is enabled externally when the SSCG# pin

is low. This pin has an internal device pull up resistor, which

causes its state to default to a HIGH (spread spectrum

modulation disabled) unless externally forced to a low. It may

also be enabled by programming SMBus Byte 0 Bit 0 LOW (to

enable SMBus control of the function) and then programming

SMBus byte 0 bit 6 low to set the feature active.

S p re a d o n

S p re a d o ff

C e n te r F re q u e n c y ,

S p re a d o n

C e n te r F re q u e n c y ,

S p re a d o ff

Figure 1. Spread Spectrum

Table 6. Spectrum Spreading Selection Table[5]

Output Clock Frequency

33.3 MHz (XIN)

66.6 MHz (XIN*2)

100.0 MHz (XIN*3)

133.3 MHz (XIN*4)

% of Frequency Spreading

SMBus Byte 0 Bit 5 = 0

SMBus Byte 0 Bit 5 = 1

1.0% (â1.0% + 0%)

0.5% (â0.5% + 0%)

1.0% (â1.0% + 0%)

0.5% (â0.5% + 0%)

1.0% (â1.0% + 0%)

0.5% (â0.5% + 0%)

1.0% (â1.0% + 0%)

0.5% (â0.5% + 0%)

Mode

Down Spread

Note:

5. When SSCG is enabled, the device will down spread the clock over a range that is 1% of its resting frequency. This means that for a 100-MHz output clock

frequency will sweep through a spectral range from 99 to 100 MHz.

Document #: 38-07034 Rev. *E

Page 6 of 10

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