Using an ANDing logic (implemented using a 2-input or 3-input AND gate) to reset the attached devices as applicable (on-board media and data storage devices, and other peripherals) is recommended since the ANDing logic can cover (covers) all processor external reset input conditions. Any of the processor general purpose input/output (GPIO) pin (select an AM64x or AM243x processor pin with a GPIO multiplexing option that is turned off by default) is connected to one of the AND gate input with provision for 0Ω to isolate the GPIO output to the ANDing logic for testing or debug. MAIN and MCU domain POR (cold reset) status output (PORz_OUT) or MAIN domain warm reset status output (RESETSTATz) can be connected as the other input to the AND gate. Make sure the processor IO supply and the pullup supply connected to the AND logic input is sourced from the same power source. Processor IO buffers are off during reset. The recommendation is to add a pullup near to the ANDing logic AND gate input (input that is connected to the processor GPIO, RESETSTATz output has a pulldown near the processor pin and driven high by the processor reset logic) to prevent the AND gate input from floating and to enable the reset logic controlled by the processor IO during power-up (Example: eMMC flash or OSPI flash comes out of reset as soon as the RESETSTATz output goes high).

Make sure the attached device reset input pull follows the device recommendations.

An ANDing logic is recommended to reset the attached devices since the ANDing logic provides the flexibility to be able to reset the attached device in all processor reset condition.

In case the processor MAIN domain warm reset status output (RESETSTATz) is directly used (without ANDing logic) to reset the attached device, the recommendation is to match the IO voltage level of RESETSTATz with the attached device. A level translator is recommended to match the IO levels. A resistor divider can be used alternatively, provided optimum impedance value of the resistor divider is selected. If too high the rise/fall time of the eMMC reset input could be slow and introduce too much delay. If too low it will cause the processor to source too much steady-state current during normal operation. The implementation reduces the attached device reset options flexibility.

For SD card interface, to support UHS-I SD card, the recommendation is to provide provision for a software enabled (controlled) power switch (load switch) that sources the power supply (VDD) to the SD card. A fixed 3.3V supply (processor IO supply) is connected as supply input to the power switch.

Use of power switch allows power cycling of the SD card configured for UHS-I speed (since resetting the power switch is the only way to reset the SD card) to the default speed.

For more information on implementing attached device reset and power switch enable reset logic for SD card power supply, see the SK-AM64B, TMDS64EVM, TMDS243EVM, LP-AM243 and other EVM or SK schematics.