S912XET512J3VALR Freescale Semiconductor, S912XET512J3VALR Datasheet - Page 689

S912XET512J3VALR

Manufacturer Part Number

S912XET512J3VALR

Description

16-bit Microcontrollers - MCU 16 BIT,512K FLASH

Manufacturer

Freescale Semiconductor

Datasheet

1.S912XEG128J2MAL.pdf (1324 pages)

Specifications of S912XET512J3VALR

Rohs

yes

Core

HCS12X

Processor Series

MC9S12XE

Data Bus Width

16 bit

Maximum Clock Frequency

50 MHz

Program Memory Size

512 KB

Data Ram Size

32 KB

On-chip Adc

Yes

Operating Supply Voltage

3.13 V to 5.5 V

Operating Temperature Range

- 40 C to + 105 C

Package / Case

LQFP-112

Mounting Style

SMD/SMT

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18.4.2

Each time-out event can be used to trigger an interrupt service request. For each timer channel, an

individual bit PINTE in the PIT interrupt enable (PITINTE) register exists to enable this feature. If PINTE

is set, an interrupt service is requested whenever the corresponding time-out ﬂag PTF in the PIT time-out

ﬂag (PITTF) register is set. The ﬂag can be cleared by writing a one to the ﬂag bit.

18.4.3

The PIT module contains four hardware trigger signal lines PITTRIG[3:0], one for each timer channel.

These signals can be connected on SoC level to peripheral modules enabling e.g. periodic ATD conversion

(please refer to the device overview for the mapping of PITTRIG[3:0] signals to peripheral modules).

Whenever a timer channel time-out is reached, the corresponding PTF ﬂag is set and the corresponding

trigger signal PITTRIG triggers a rising edge. The trigger feature requires a minimum time-out period of

two bus clock cycles because the trigger is asserted high for at least one bus clock cycle. For load register

values PITLD = 0x0001 and PITMTLD = 0x0002 the ﬂag setting, trigger timing and a restart with force

load is shown in

18.5

18.5.1

Set the conﬁguration registers before the PITE bit in the PITCFLMT register is set. Before PITE is set, the

conﬁguration registers can be written in arbitrary order.

18.5.2

When the PITCE register bits, the PITINTE register bits or the PITE bit in the PITCFLMT register are

cleared, the corresponding PIT interrupt ﬂags are cleared. In case of a pending PIT interrupt request, a

spurious interrupt can be generated. Two strategies, which avoid spurious interrupts, are recommended:

18.5.3

A ﬂag is cleared by writing a one to the ﬂag bit. Always use store or move instructions to write a one in

certain bit positions. Do not use the BSET instructions. Do not use any C-constructs that compile to BSET

instructions. “BSET ﬂag_register, #mask” must not be used for ﬂag clearing because BSET is a read-

Freescale Semiconductor

1. Reset the PIT interrupt ﬂags only in an ISR. When entering the ISR, the I mask bit in the CCR is

2. After setting the I mask bit with the SEI instruction, the PIT interrupt ﬂags can be cleared. Then

set automatically. The I mask bit must not be cleared before the PIT interrupt ﬂags are cleared.

clear the I mask bit with the CLI instruction to re-enable interrupts.

Initialization

Interrupt Interface

Hardware Trigger

Startup

Shutdown

Flag Clearing

Be careful when resetting the PITE, PINTE or PITCE bits in case of pending

PIT interrupt requests, to avoid spurious interrupt requests.

Figure

18-20.

MC9S12XE-Family Reference Manual Rev. 1.25

NOTE

Chapter 18 Periodic Interrupt Timer (S12PIT24B4CV2)

689

S912XET512J3VALR Freescale Semiconductor, S912XET512J3VALR Datasheet - Page 689

S912XET512J3VALR

Specifications of S912XET512J3VALR

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