MC9S08SH32CWL Datasheet, PDF(75/328 Page) Freescale Semiconductor, Inc – MC9S08SH32 Series Features

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MC9S08SH32CWL Datasheet, PDF (75/328 Pages) Freescale Semiconductor, Inc – MC9S08SH32 Series Features

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Chapter 6

Parallel Input/Output Control

This section explains software controls related to parallel input/output (I/O) and pin control. The

MC9S08SH32 has three parallel I/O ports which include a total of 23 I/O pins and one output-only pin.

See Chapter 2, âPins and Connections,â for more information about pin assignments and external hardware

considerations of these pins.

Many of these pins are shared with on-chip peripherals such as timer systems, communication systems, or

pin interrupts as shown in Table 2-1. The peripheral modules have priority over the general-purpose I/O

functions so that when a peripheral is enabled, the I/O functions associated with the shared pins are

disabled.

After reset, the shared peripheral functions are disabled and the pins are conï¬gured as inputs

(PTxDDn = 0). The pin control functions for each pin are conï¬gured as follows: slew rate disabled

PTxSEn = 0, low drive strength selected (PTxDSn = 0), and internal pull-ups disabled (PTxPEn = 0).

NOTE

Not all general-purpose I/O pins are available on all packages. To avoid

extra current drain from ï¬oating input pins, the userâs reset initialization

routine in the application program must either enable on-chip pull-up

devices or change the direction of unconnected pins to outputs so the pins

do not ï¬oat.

6.1 Port Data and Data Direction

Reading and writing of parallel I/Os are performed through the port data registers. The direction, either

input or output, is controlled through the port data direction registers. The parallel I/O port function for an

individual pin is illustrated in the block diagram shown in Figure 6-1.

The data direction control bit (PTxDDn) determines whether the output buffer for the associated pin is

enabled, and also controls the source for port data register reads. The input buffer for the associated pin is

always enabled unless the pin is enabled as an analog function or is an output-only pin.

When a shared digital function is enabled for a pin, the output buffer is controlled by the shared function.

However, the data direction register bit will continue to control the source for reads of the port data register.

When a shared analog function is enabled for a pin, both the input and output buffers are disabled. A value

of 0 is read for any port data bit where the bit is an input (PTxDDn = 0) and the input buffer is disabled.

In general, whenever a pin is shared with both an alternate digital function and an analog function, the

analog function has priority such that if both the digital and analog functions are enabled, the analog

function controls the pin.

MC9S08SH32 Series Data Sheet, Rev. 2

Freescale Semiconductor

75

PRELIMINARY

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