SL15100ZC-XXX SPECTRALINEAR [SpectraLinear Inc], SL15100ZC-XXX Datasheet - Page 3

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SL15100ZC-XXX

Manufacturer Part Number

SL15100ZC-XXX

Description

Prigrammable Spread Spectrum Clock Generator (SSCG)

Manufacturer

SPECTRALINEAR [SpectraLinear Inc]

Datasheet

1.SL15100ZC-XXX.pdf (16 pages)

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General Description

The primary source of EMI from digital circuits is the

system clock and all the other synchronous clocks and

control signals derived from the system clock. The well

know techniques of filtering (suppression) and shielding

(containment), while effective, can cost money, board

space and longer development time.

A more effective and efficient technique to reduce EMI is

Spread Spectrum Clock Generator (SSCG) technique.

Instead of using constant clock frequency, the SSCG

technique modulates (spreads) the system clock with a

much smaller frequency, to reduce EMI emissions at its

source: The System Clock.

The

proprietary programmable EProClock™ phase-locked

loop (PLL) and Spread Spectrum Technologies (SST) to

synthesize and modulate (spread) the system clock such

that the energy is spread out over a wider bandwidth.

This reduces the peak value of the radiated emissions at

the fundamental and the harmonics. This reduction in

radiated energy can significantly reduce the cost of

complying with regulatory agency requirements and

improve time-to-market without degrading system perfor-

mance.

The SL15100 operates with both 3.3V and 2.5V power

supply voltages. Refer to SL15L100 for 1.8V power

supply operation.

The SL15100 is available in 8-pin TSSOP package with

Extended Commercial Temperature range of 0 to +85 C

and Industrial Temperature range of –40 to +85°C.

Input Frequency Range

The input frequency range is from 8.0 to 48.0 MHz for

crystals and ceramic resonators. If an external clock is

used, the input frequency range is from 8 to 166 MHz.

Output Frequency Range and Outputs

The two (2) outputs can be programmed as SSCLK or

REFCLK. SSCLK output can be synthesized to any

value from 3 to 200 MHz with spread based on valid

input frequency. The spread at SSCLK pins can be

stopped by SSON# input control pin, If SSON# pin is

HIGH (VDD), the frequency at this pin is the synthesized

nominal value of the input frequency and there is no

spread.

REFOUT is the buffered output of the oscillator and is

the same frequency as the input frequency without

spread. However, REFOUT value can also be divided by

using the output dividers from 2 to 32. The second

programmable output (SSCLK2) can be used to

generate a copy of SSCLK1 (fanout of 2) or the same

SSCLK frequency can be divided from 2 to 32. In this

case, the spread % value is the same as the original

programmed spread % value. By using only first order

crystals, SL15100 can synthesize output frequency up to

200 MHz, eliminating the need for higher order Crystals

(Xtals) and Crystal Oscillators (XOs). This reduces the

cost while improving the system clock accuracy,

performance and reliability.

Rev 1.8, August 10, 2007

SL15100

is

designed

using

SpectraLinear

Programmable CL (Crystal Load)

The SL15100 provides programmable on-chip capacitors

at XIN/CLKIN (Pin-3) and XOUT (Pin-2). The resolution of

this programmable capacitor is 6-bits with LSB value of

0.5pF. When all bits are off the pin capacitance is

CXIN=CXOUT =8.5pF (minimum value). When all bits are

on the pin capacitance is CXIN=CXOUT=40pF (maximum

value). The values of C

(Crystal Load Capacitor) can be calculated as:

C

additional information on crystal load (C

In addition, if an external clock is used, the capacitance at

Pin-3 (CLKIN) can programmed to control the edge rate of

this input clock, providing additional EMI control.

Programmable Modulation Frequency

The Spread Spectrum Clock (SSC) modulation default

value is 31.5 kHz. The higher value of up to120 kHz can

also be programmed. Less than 30 kHz modulation

frequency is not recommended to stay out of the range

audio frequency bandwidth since this frequency could be

detected as a noise by the audio receivers within the

vicinity.

Programmable Spread Percent (%)

The spread percent (%) value is programmable from +/-

0.25% to +/-2.5% (center spread) or -0.5% to -5.0% (down

spread) for all SSCLK frequencies. It is possible to

program smaller or larger non-standard values of spread

percent. Contact SLI if these non-standard spread percent

values are required in the application.

SSON# or Frequency Select (FS)

The SL15100 Pin-8 can be programmed as either SSON#

to enable or disable the programmed spread percent

value or as Frequency Select (FS). If SSON# is used,

when this pin is pulled high (VDD), the spread is stopped

and the frequency is the nominal value without spread. If

low (GND), the frequency is the nominal value with the

spread.

If FS function is used, the output pins can be programmed

for different set of frequencies as selected by FS. SSCLK

value can be any frequency from 3 to 200MHz, but the

spread % is the same percent value. REFOUT is the

same frequency as the input reference clock or divide by

from 2 to 32 without spread. The set of frequencies in

Table 1 is given as en example, using 48MHz crystal.

The SL15100 also allows a fan-out of 2, meaning that Pins

6 and 7 can be programmed to the same frequencies with

or without spread such that F1=F2 and F3=F4.

Power Down (PD#) or Output Enable (OE)

The SL15100 Pin-4 can be programmed as either PD# or

OE. PD# powers down the entire chip whereas OE only

disables the output buffers to Hi-Z.

XIN

(Pin-8)

FS

0

1

=C

XOUT

Table 1. Frequency Selection (FS)

F3 =125MHz,+/-3%

=2C

F1= 66MHz, +/-1%

L

SSCLK1

-C

(Pin-6)

PCB

XIN

. Refer to the Page-13 for

and C

XOUT

based on the C

L

).

SL15100

F2= 48MHz

F4= 24MHz

REFCLK2

(Pin-7)

Page 3 of 16

L

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