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MC100EP139 Fiches technique(PDF) 2 Page - ON Semiconductor

No de pièce MC100EP139
Description  Clock Management Design Using Low Skew and Low Jitter Devices
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Fabricant  ONSEMI [ON Semiconductor]
Site Internet  http://www.onsemi.com
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Typical Clock Management System
Clock Management of an electronic system (see Figure 1)
depends on very accurate time keeping. A well–designed
Clock Management scheme begins with a precise Clock
Generator which is the standard Master Clock or Mean Time.
The Master Clock is passed on to the Clock Distribution circuit
which “fans out” multiple clocks throughout the system and
activates individual events in the CPUs, ASICs, FPGAs, and
Memory. All events are synchronized to the Master Clock and
requires accurate devices to generate and distribute the clocks.
Accurate devices are described as those with low jitter and
low skew. Jitter is uncertainty in the location of the rising or
falling edge of the signal (see Figure 2). Jitter can be random
or deterministic. Jitter is called phase noise in the Master
Clock and increases as it passes through each device. Noise
from power supplies and crosstalk between signals also add
to the total jitter. Jitter can be measured as peak–to–peak or
RMS in picoseconds.
Skew is a time offset of the clocks as they travel
throughout the system (see Figure 3). Skew is defined as
duty–cycle skew, within–device skew, or device–to–device
skew. Skew is reduced by adjusting the delay of signals
within the system. It is similar to propagation delay and is
measured in picoseconds.
Large values of jitter and skew on clocks reduce the
maximum operating frequency of a system.
Clock Generator
CPU’s
Master Clock
PLL
(Phase Locked Loop)
with Crystal
Clock
Distribution
Back
Plane
Additional
Clock
Distribution
Clock Delay,
Division and
Translation
ASIC’s
FPGA’s
Memory
Figure 1. Typical Clock Management System
Figure 2. Jitter
Figure 3. Skew
Skew
OUT1
OUT2
Skew is a fixed difference between outputs caused by many factors including physi-
cal layout, device process variations, and unbalanced loading conditions.
Jitter is the uncertainty caused by many factors including power supply noise, signal
crosstalk, and device physics.
Jitter


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