s908qc16vdse Freescale Semiconductor, Inc, s908qc16vdse Datasheet - Page 100

s908qc16vdse

Manufacturer Part Number

s908qc16vdse

Description

M68hc08 Microcontrollers

Manufacturer

Freescale Semiconductor, Inc

Datasheet

1.S908QC16VDSE.pdf (274 pages)

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Oscillator Mode (OSC)

from $FFC0 into OSCTRIM if needed. The factory trim value provides the accuracy required for

communication using force monitor mode. Trimming the device in the user application board will provide

the most accurate trim value. See Oscillator Characteristics in the Electrical Chapter of this data book for

additional information on factory trim.

10.3.2.2 Internal to External Clock Switching

When external clock source (external OSC, RC, or XTAL) is desired, the user must perform the following

steps:

After ECGON set is detected, the OSC module checks for oscillator activity by waiting two external clock

rising edges. The OSC module then switches to the external clock. Logic provides a coherent transition.

The OSC module first sets ECGST and then stops the internal oscillator.

10.3.2.3 External to Internal Clock Switching

After following the procedures to switch to an external clock source, it is possible to go back to the internal

source. By clearing the OSCOPT[1:0] bits and clearing the ECGON bit, the external circuit will be

disengaged. The bus clock will be derived from the selected internal clock source based on the ICFS[1:0]

bits.

10.3.3 External Oscillator

The external oscillator option is designed for use when a clock signal is available in the application to

provide a clock source to the MCU. The OSC1 pin is enabled as an input by the oscillator module. The

clock signal is used directly to create BUSCLKX4 and also divided by two to create BUSCLKX2.

In this configuration, the OSC2 pin cannot output BUSCLKX4. The OSC2EN bit will be forced clear to

enable alternative functions on the pin.

10.3.4 XTAL Oscillator

The XTAL oscillator circuit is designed for use with an external crystal or ceramic resonator to provide an

accurate clock source. In this configuration, the OSC2 pin is dedicated to the external crystal circuit. The

OSC2EN bit has no effect when this clock mode is selected.

In its typical configuration, the XTAL oscillator is connected in a Pierce oscillator configuration, as shown

represent actual circuitry.

100

Figure

1. For external crystal circuits only, configure OSCOPT[1:0] to external crystal. To help precharge an

2. Configure OSCOPT[1:0] and ECFS[1:0] according to

3. Create a software delay to provide the stabilization time required for the selected clock source

4. After the stabilization delay has elapsed, set ECGON.

external crystal oscillator, momentarily configure OSC2 as an output and drive it high for several

cycles. This can help the crystal circuit start more robustly.

if the external crystal option is selected, OSC2 will also be enabled as the clock output. If RC

oscillator option is selected, enabling the OSC2 output may change the bus frequency.

(crystal, resonator, RC). A good rule of thumb for crystal oscillators is to wait 4096 cycles of the

crystal frequency; i.e., for a 4-MHz crystal, wait approximately 1 ms.

10-2. This figure shows only the logical representation of the internal components and may not

MC68HC908QC16 • MC68HC908QC8 • MC68HC908QC4 Data Sheet, Rev. 4

10.8.1 Oscillator Status and Control

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