General
Review and verify the following for
the custom schematic design:
- Above sections, including
relevant application notes and FAQ links
- Pin attributes, signal
description and electrical specifications
- Use of low ESL capacitors and
3-terminal capacitors connected with short traces to minimize the board loop
inductance
- Voltage rating of the
capacitors used (twice the worst-case applied voltage is a commonly used
guideline)
Schematic Review
Follow the below list for the custom schematic
design:
- Compare the capacitors used for
all the supply rails with SK schematics
- Verify each of the power rail
pins have a decoupling capacitor and each of the supply rail group has a bulk
capacitor
Additional
- Power supply decoupling is adequate. All processor power rails use both bulk and
high frequency decoupling capacitors. The critical power domains that require
the most attentions are the low voltage, high current domains (VDD_CORE,
VDDR_CORE)
- As a starting point, the
recommendation is to follow the validated SK decoupling strategy
- Deviations are not recommended without performing static and dynamic PDN
analysis to verify that the Reff, Cap LL, and Impedance targets are met
- In some situations, the SK uses 3-terminal capacitors, due to low inductance
packaging and performance. Do not incorrectly implement the 3-terminal
capacitors connections in the SK schematics as an in-line or filter
component
- Show the connections of the capacitor near to the relevant pin for ease of
placement and routing