MC705P6ACPE Datasheet, PDF(16/98 Page) Freescale Semiconductor, Inc

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MC705P6ACPE Datasheet, PDF (16/98 Pages) Freescale Semiconductor, Inc – M68HC05 Microcontrollers

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General Description

1.3.2.1 Crystal

The circuit in Figure 1-2(a) shows a typical oscillator circuit for an AT-cut, parallel resonant crystal. Follow

the crystal manufacturerâs recommendations, as the crystal parameters determine the external

component values required to provide maximum stability and reliable startup. The load capacitance

values used in the oscillator circuit design should include all stray capacitances. Mount the crystal and

components as close as possible to the pins for startup stabilization and to minimize output distortion.

1.3.2.2 Ceramic Resonator

In cost-sensitive applications, use a ceramic resonator in place of a crystal. Use the circuit in Figure 1-2(a)

for a ceramic resonator and follow the resonator manufacturerâs recommendations, as the resonator

parameters determine the external component values required for maximum stability and reliable starting.

The load capacitance values used in the oscillator circuit design should include all stray capacitances.

Mount the resonator and components as close as possible to the pins for startup stabilization and to

minimize output distortion.

1.3.2.3 External Clock

An external clock from another CMOS-compatible device can be connected to the OSC1 input, with the

OSC2 input not connected, as shown in Figure 1-2(b).

1.3.3 RESET

Driving this input low will reset the MCU to a known startup state. The RESET pin contains an internal

Schmitt trigger to improve its noise immunity. Refer to Chapter 4 Resets.

1.3.4 PA0âPA7

These eight I/O pins comprise port A. The state of any pin is software programmable and all port A lines

are configured as inputs during power-on or reset. Port A has mask-option register enabled interrupt

capability with internal pullup devices selectable for any pin. Refer to Chapter 6 Input/Output Ports.

1.3.5 PB5/SDO, PB6/SDI, and PB7/SCK

These three I/O pins comprise port B and are shared with the SIOP communications subsystem. The

state of any pin is software programmable, and all port B lines are configured as inputs during power-on

or reset. Refer to Chapter 6 Input/Output Ports and Chapter 7 Serial Input/Output Port (SIOP).

1.3.6 PC0-PC2, PC3/AD3, PC4/AD2, PC5/AD1, PC6/AD0, and PC7/VREFH

These eight I/O pins comprise port C and are shared with the A/D converter subsystem. The state of any

pin is software programmable and all port C lines are configured as inputs during power-on or reset. Refer

to Chapter 6 Input/Output Ports and Chapter 9 Analog Subsystem.

1.3.7 PD5 and PD7/TCAP

These two I/O pins comprise port D and one of them is shared with the 16-bit timer subsystem. The state

of PD5 is software programmable and is configured as an input during power-on or reset. PD7 is always

an input. It may be read at any time, regardless of which mode of operation the 16-bit timer is in. Refer to

Chapter 6 Input/Output Ports and Chapter 8 Capture/Compare Timer.

MC68HC705P6A Advance Information Data Sheet, Rev. 2.1

Freescale Semiconductor

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