High-Speed Board Design Techniques！（中英文）

2dmin

INTRODUCTION% n$ q% J0 Xc/ _
The most important factor in the design of many systems today is speed. 66-MHz thru 200-MHz
processors are common; 233 and 266-MHz processors are becoming readily available. The demand
for high speed results from: a) the requirement that systems perform complex tasks in a time frame
considered comfortable by humans; and b) the ability of component manufacturers to produce, o$ Z) P; v3 B7 |/ b
high-speed devices. An example of a) is the large amount of information that must be processed
to perform even the most rudimentary computer animation. Currently, Programmable Array Logic
(PAL®) devices are available with propagation delays of 4.5 ns, and complex PLDs such as MACH9 T; Z2 n' u& `5 x
®have propagation delays of 5 ns. While this might seem fast, it is not the propagation delay that# z7 d, jq! U
creates the potential for problems, but rather the fast edge rates needed to obtain the fast
propagation delays. In the future, much faster devices will become available, with correspondingly
faster edge rates.
Designing high-speed systems requires not only fast components, but also intelligent and careful
design. The analog aspect of the devices is as important as the digital. In high-speed systems, noise
generation is a prime concern. The high frequencies can radiate and cause interference. The
corresponding fast edge rates can result in ringing, reflections, and crosstalk. If unchecked, this
noise can seriously degrade system performance.4 x3 I2 h3 p# J' l/ O! N) h0 {7 b" H

[ 本帖最后由 allen 于 2007-9-18 09:38 编辑 ]










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