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
- Recommended voltages are
applied to the peripheral analog power supply rail 1.8V
Supply rail connections are based on the processor family
AM62Ax and AM62Dx: VDDA_MCU, VDDS_OSC0, VDDA_PLL0,
VDDA_PLL1, VDDA_PLL2, VDDA_PLL3, VDDA_PLL4, VDDA_1P8_CSIRX0,
VDDA_1P8_USB, VDDA_TEMP0, VDDA_TEMP1, VDDA_TEMP2, VMON_1P8_SOC
- Supply rail VDDA_3P3_USB 3.3
V analog supply connection for supporting USB2.0 interface
- Connection of peripheral
analog supply when specific peripheral is not used as per pin connectivity
requirements
- Connection of peripheral analog supply (CSIRX0),
when specific peripheral is unused but boundary scan
function is required as per pin connectivity
requirements
Schematics Review
Follow the below list for the custom schematic
design:
- Compare bulk and decoupling
capacitor for all the supplies rails with SK schematics
- Ferrite filters are provided
for peripheral analog supplies (CSI, PLL, USB (1.8V), MCU), as per the SK
schematics
- When specific peripherals are
not used and boundary scan function is required, ferrites and bulk
capacitors are optional
- Supply rails are connected
and follow the ROC
Additional
- For all supply rails, use 0Ω resistor or jumper for isolation or current
measurements at the output of the supply rails
- When the USB driver is not initialized and the USB calibration procedure does
not happen, connecting the supplies and leaving all of the USB pins for USB0,
USB1, or both is acceptable. Grounding the USB supplies per pin connectivity
requirements when both USB interfaces are unused saves power when low power is a
critical requirement
- Follow the processor-specific SK for implementation of ferrites and
capacitors
- Dynamic scaling of the analog supplies is not allowed or recommended