User's Manual

Intel

820 Chipset Design Guide 3-21

Advanced System Bus Design

change the impedance of adjacent trace layers. (For instance, the impedance calculations may have

been done for microstrip geometry, and adding a partial plane on the other side of the trace layer

may turn the microstrip into a stripline.)

3.4.3.2 Reference Planes and PCB Stackup

It is strongly recommended that baseboard stackup be arranged such that AGTL+ signals are

referenced to a ground (VSS) plane, and that the AGTL+ signals do not traverse multiple signal

layers. Deviating from either guideline can create discontinuities in the signal’s return path that can

lead to large SSO effects that degrade timing and noise margin. Designing an AGTL+ platform

incorporating discontinuities will expose the platform to a risk that is very hard to predict in pre-

layout simulation. Figure 3-6 shows the ideal case where a particular signal is routed entirely

within the same signal layer, with a ground layer as the single reference plane.

When it is not possible to route the entire AGTL+ signal on a single VSS referenced layer, there

are methods to reduce the effects of layer switches. The best alternative is to allow the signals to

change layers while staying referenced to the same plane (see Figure 3-7). Figure 3-8 shows

another method of minimizing layer switch discontinuities, but may be less effective than

Figure 3-7. In this case, the signal still references the same type of reference plane (ground). In

such a case, it is important to stitch (i.e., connect) the two ground planes together with vias in the

vicinity of the signal transition via.

Figure 3-6. One Signal Layer and One Reference Plane

Ground Plane

Signal Layer A

1lay 1ref plane vsd

Figure 3-7. Layer Switch with One Reference Plane

Figure 3-8. Layer Switch with Multiple Reference Planes (same type)

l1fld

Signal Layer A

Signal Layer B

Ground Plane

l M lt f l d

Signal Layer A

Signal Layer B

Layer

Ground Plane