LFDAS12XSCT Freescale Semiconductor, LFDAS12XSCT Datasheet - Page 49

LFDAS12XSCT

Manufacturer Part Number

LFDAS12XSCT

Description

HARDWARE MC9S12XS 48-PIN

Manufacturer

Freescale Semiconductor

Datasheet

1.LFDAS12XSCT.pdf (738 pages)

Specifications of LFDAS12XSCT

Module/board Type

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With/related Products

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The clock generated by the PLL or oscillator provides the main system clock frequencies core clock and

bus clock. As shown in

the memories, and the peripherals.

The program Flash memory is supplied by the bus clock and the oscillator clock. The oscillator clock is

used as a time base to derive the program and erase times for the NVMs.

The CAN modules may be conﬁgured to have their clock sources derived either from the bus clock or

directly from the oscillator clock. This allows the user to select its clock based on the required jitter

performance.

In order to ensure the presence of the clock the MCU includes an on-chip clock monitor connected to the

output of the oscillator. The clock monitor can be conﬁgured to invoke the PLL self-clocking mode or to

generate a system reset if it is allowed to time out as a result of no oscillator clock being present.

In addition to the clock monitor, the MCU also provides a clock quality checker which performs a more

accurate check of the clock. The clock quality checker counts a predetermined number of clock edges

within a deﬁned time window to insure that the clock is running. The checker can be invoked following

speciﬁc events such as on wake-up or clock monitor failure.

1.4

The MCU can operate in different modes. These are described in

The MCU can operate in different power modes to facilitate power saving when full system performance

is not required. These are described in

Some modules feature a software programmable option to freeze the module status whilst the background

debug module is active to facilitate debugging. This is described in

1.4.1

The different modes and the security state of the MCU affect the debug features (enabled or disabled).

The operating mode out of reset is determined by the state of the MODC signal during reset (see

8). The MODC bit in the MODE register shows the current operating mode and provides limited mode

switching during operation. The state of the MODC signal is latched into this bit on the rising edge of

RESET.

1.4.1.1

This mode is intended for normal device operation. The opcode from the on-chip memory is being

executed after reset (requires the reset vector to be programmed correctly). The processor program is

executed from internal memory.

Freescale Semiconductor

Modes of Operation

Chip Conﬁguration Summary

Normal Single-Chip Mode

Figure

1-6, these system clocks are used throughout the MCU to drive the core,

S12XS Family Reference Manual, Rev. 1.11

Normal single chip

Special single chip

1.4.2 Power

Chip Modes

Table 1-8. Chip Modes

Modes.

MODC

1.4.1 Chip Conﬁguration

1.4.3 Freeze

Mode.

Device Overview S12XS Family

Summary.

Table 1-

LFDAS12XSCT Freescale Semiconductor, LFDAS12XSCT Datasheet - Page 49

LFDAS12XSCT

Specifications of LFDAS12XSCT

Related parts for LFDAS12XSCT