Direct rdram* reference voltage, High-speed cmos routing, Figure 32. ramref generation example circuit – Intel CHIPSET 820E User Manual

Intel

®

820E Chipset

R

54

Design

Guide

2.7.3.

Direct RDRAM* Reference Voltage

The Direct RDRAM reference voltage (RAMREF) must be generated as shown in Figure 32. The
RAMREF should be generated from a typical resistor divider using 2%-tolerance resistors. Additionally,
the RAMREF must be decoupled locally at each RIMM connector, at the resistor divider, and at the
MCH. Finally, as shown in Figure 32, a 100

Ω

series resistor is required near the MCH. The RAMREF

signal should be routed with a 10 mil-wide trace.

Figure 32. RAMREF Generation Example Circuit

160

Ω

2%

R

I

M
M

V

TERM

R3

C4

C10

C5

C8

0.1 µF

0 .1 µF

100

Ω

R1

R2

0.1 µF

0.1 µF

R

I

M
M

ramref_generation.vsd

560

Ω

2%

RAMREFA

RAMREFB

MCH

2.7.4.

High-Speed CMOS Routing

•

The high-speed CMOS signals (CMD & SCK) must be routed using 28

Ω

traces. Using the

recommended stack-up, these signals will be 18 mils wide.

•

The high-speed CMOS signals must be length-matched to the RSL signals within 1200 mils
(1.2 inches), because of a timing requirement between CMOS and RSL signals during NAP Exit and
PDN Exit.

•

The high-speed CMOS signals require termination as shown in Figure 33, as a result of the buffer
strengths in the MCH.

•

The resistors must be 91

Ω

pull-up and 39

Ω

pull-down, and they must be 2% or better for S3 mode

reliability. The trace impedances remain 28

Ω

.