Reference resistor (rset) calculation, Ramdac board design guidelines, Ramdac layout recommendations – Intel 815 User Manual

Integrated Graphics Display Output

R

Intel

®

815 Chipset Platform Design Guide

103

8.1.2

Reference Resistor (Rset) Calculation

The full-swing video output is designed to be 0.7V according to the VESA video standard. With
an equivalent DC resistance of 37.5

Ω

(two 75

Ω

in parallel; one 75

Ω

termination on the board

and one 75

Ω

termination within the display), the full-scale output current of a RAMDAC channel

is 0.7/37.5

Ω

= 18.67 mA. Since the RAMDAC is an 8-bit current-steering DAC, this full-scale

current is equivalent to 255 I, where I is a unit current. Therefore, the unit current or LSB current
of the DAC signals equals 73.2

µ

A. The reference circuitry generates a voltage across this R

set

resistor equal to the bandgap voltage divided by three (407.6 mV). The RAMDAC reference
current generation circuitry is designed to generate a 32-I reference current using the reference
voltage and the R

set

value. To generate a 32-I reference current for the RAMDAC, the reference

current setting resistor, R

set

, is calculated using the following equation:

R

set

= VREF / 32*I = 0.4076 V / 32*73.2

µ

A = 174

Ω

8.1.3

RAMDAC Board Design Guidelines

Figure 50 shows a general cross-section of a typical four-layer board. The recommended
RAMDAC routing for a four-layer board is such that the red, green, and blue video outputs are
routed on the top (bottom) layer over (under) a solid ground plane to maximize the noise rejection
characteristics of the video outputs. It is essential to prevent toggling signals from being routed
next to the video output signals to the VGA connector. A 20-mil spacing between any video route
and any other routes is recommended.

Figure 50. Cross-Sectional View of a Four-Layer Board

Board Cross Section

Board

components

RAMDAC / PLL circuitry

Graphics chip

One solid, continuous

ground plane

Digital power plane

RAMDAC_board_xsec

Bottom of board

Segmented analog power

plane for RAMDAC / PLL

Low-frequency
signal traces

Ground plane

Analog traces

Video
connector

Top of board

Avoid clock routes or
high-frequency routes in
the area of the RAMDAC
output signals and
reference resistor.

Matching the video routes (i.e., red, green, blue) from the RAMDAC to the VGA connector also is
essential. The routing for these signals should be as similar as possible (i.e., same routing layer(s),
same number of vias, same routing length, same bends, and jogs).