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MC68HC12D60 Datasheet, PDF (57/432 Pages) Motorola, Inc – Advance Information - Rev 4.0
3.6.7 Port AD1
Freescale Semiconductor, Inc.
Pinout and Signal Descriptions
Port Signals
Input to the analog-to-digital subsystem and general-purpose input.
When analog-to-digital functions are not enabled, the port has eight
general-purpose input pins, PAD1[7:0]. The ADPU bit in the ATD1CTL2
register enables the A/D function.
Port AD1 pins are inputs; no data direction register is associated with this
port. The port has no resistive input loads and no reduced drive controls.
Refer to Analog-to-Digital Converter.
Port AD1 is not available in the 80-pin package.
3.6.8 Port AD0
Input to the analog-to-digital subsystem and general-purpose input.
When analog-to-digital functions are not enabled, the port has eight
general-purpose input pins, PAD0[7:0]. The ADPU bit in the ATD0CTL2
register enables the A/D function.
Port AD0 pins are inputs; no data direction register is associated with this
port. The port has no resistive input loads and no reduced drive controls.
Refer to Analog-to-Digital Converter.
3.6.9 Port P
The four pulse-width modulation channel outputs share general-purpose
port P pins. The PWM function is enabled with the PWEN register.
Enabling PWM pins takes precedence over the general-purpose port.
When pulse-width modulation is not in use, the port pins may be used for
general-purpose I/O.
Register DDRP determines pin direction of port P when used for
general-purpose I/O. When DDRP bits are set, the corresponding pin is
configured for output. On reset the DDRP bits are cleared and the
corresponding pin is configured for input.
When the PUPP bit in the PWCTL register is set, all input pins are pulled
up internally by an active pull-up device. Pull-ups are disabled after
reset.
68HC(9)12D60 — Rev 4.0
MOTOROLA
Pinout and Signal Descriptions
For More Information On This Product,
Go to: www.freescale.com
Advance Information
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