Datasheet
MICROWIRE
DEVICE
DAC108S085
CS
SK
SO
SCLK
DIN
SYNC
DAC108S085
SNAS423B –AUGUST 2007–REVISED MARCH 2013
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Microwire Interface
Figure 44 shows an interface between a Microwire compatible device and the DAC108S085. Data is clocked out
on the rising edges of the SK signal. As a result, the SK of the Microwire device needs to be inverted before
driving the SCLK of the DAC108S085.
Figure 44. Microwire Interface
LAYOUT, GROUNDING, AND BYPASSING
For best accuracy and minimum noise, the printed circuit board containing the DAC108S085 should have
separate analog and digital areas. The areas are defined by the locations of the analog and digital power planes.
Both of these planes should be located in the same board layer. A single ground plane is preferred if digital
return current does not flow through the analog ground area. Frequently a single ground plane design will utilize
a "fencing" technique to prevent the mixing of analog and digital ground current. Separate ground planes should
only be utilized when the fencing technique is inadequate. The separate ground planes must be connected in
one place, preferably near the DAC108S085. Special care is required to ensure that digital signals with fast edge
rates do not pass over split ground planes. They must always have a continuous return path below their traces.
For best performance, the DAC108S085 power supply should be bypassed with at least a 1µF and a 0.1µF
capacitor. The 0.1µF capacitor needs to be placed right at the device supply pin. The 1µF or larger valued
capacitor can be a tantalum capacitor while the 0.1µF capacitor needs to be a ceramic capacitor with low ESL
and low ESR. If a ceramic capacitor with low ESL and low ESR is used for the 1µF value and it can be placed
right at the supply pin, the 0.1µF capacitor can be eliminated. Capacitors of this nature typically span the same
frequency spectrum as the 0.1µF capacitor and thus eliminate the need for the extra capacitor. The power supply
for the DAC108S085 should only be used for analog circuits.
It is also advisable to avoid the crossover of analog and digital signals. This helps minimize the amount of noise
from the transitions of the digital signals from coupling onto the sensitive analog signals such as the reference
pins and the DAC outputs.
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