sc9s08mz16 Freescale Semiconductor, Inc, sc9s08mz16 Datasheet - Page 27

sc9s08mz16

Manufacturer Part Number

sc9s08mz16

Description

Hcs08 Microcontrollers

Manufacturer

Freescale Semiconductor, Inc

Datasheet

1.SC9S08MZ16.pdf (270 pages)

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2.3.1

I/O buffer circuitry and to an internal voltage regulator. The internal voltage regulator provides regulated

lower-voltage source to the CPU and other internal circuitry of the MCU.

Typically, application systems have two separate capacitors across the power pins. In this case, there

should be a bulk electrolytic capacitor, such as a 10 μF tantalum capacitor, to provide bulk charge storage

for the overall system and a 0.1 μF ceramic bypass capacitor located as near to the paired V

power pins as practical to suppress high-frequency noise. The SC9S08MZ16 has a second V

pin should be connected to the system ground plane or to the primary V

connection.

the ADC module. A 0.1 μF ceramic bypass capacitor should be located as near to the analog power pins

as practical to suppress high-frequency noise.

2.3.2

Out of reset the MCU uses an internally generated clock (self-clocked mode — f

about 8 MHz crystal rate. This frequency source is used during reset startup and can be enabled as the clock

source for stop recovery to avoid the need for a long crystal startup delay. This MCU also contains a

trimmable internal clock generator (ICG) module that can be used to run the MCU. For more information

on the ICG, see the

The MCU has a Pierce oscillator that can accommodate a crystal or ceramic resonator in either of two

frequency ranges selected by the RANGE bit in the ICGC1 register. Rather than a crystal or ceramic

resonator, an external oscillator can be connected to the EXTAL input pin.

Refer to

resistors such as carbon composition resistors. Wire-wound resistors, and some metal film resistors, have

too much inductance. C1 and C2 normally should be high-quality ceramic capacitors that are specifically

designed for high-frequency applications.

value is not generally critical. Typical systems use 1 MΩ to 10 MΩ. Higher values are sensitive to

humidity and lower values reduce gain and (in extreme cases) could prevent startup.

C1 and C2 are typically in the 5-pF to 25-pF range and are chosen to match the requirements of a specific

crystal or resonator. Be sure to take into account printed circuit board (PCB) capacitance and MCU pin

capacitance when sizing C1 and C2. The crystal manufacturer typically specifies a load capacitance which

is the series combination of C1 and C2 which are usually the same size. As a first-order approximation,

use 10 pF as an estimate of combined pin and PCB capacitance for each oscillator pin (EXTAL and

XTAL).

2.3.3

RESET is a dedicated pin with a pullup device built in. It has input hysteresis, a high current output driver,

and no output slew rate control. Internal power-on reset and low-voltage reset circuitry typically make

Freescale Semiconductor

DDAD

is used to provide a bias path to keep the EXTAL input in its linear range during crystal startup and its

and V

Figure 2-3

Power (V

Oscillator (XTAL, EXTAL)

RESET Pin

SSAD

are the primary power supply pins for the MCU. This voltage source supplies power to all

Chapter 8, “Internal Clock Generator

are the analog power supply pins for the MCU. This voltage source supplies power to

for the following discussion. R

, 2 × V

SC9S08MZ16 MCU Data Sheet, Rev. 0 Draft C

, V

DDAD

, V

(when used) and R

SSAD

(S08ICGV4).”

)

should be low-inductance

pin through a low-impedance

Chapter 2 Pins and Connections

Self_reset

) equivalent to

and V

pin. This

sc9s08mz16 Freescale Semiconductor, Inc, sc9s08mz16 Datasheet - Page 27

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