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MC68340FE16E Datasheet, PDF (124/441 Pages) Freescale Semiconductor, Inc – Integrated Processor with DMA User’s Manual
Freescale Semiconductor, Inc.
PIV7–PIV0—Periodic Interrupt Vector Bits 7–0
These bits contain the value of the vector generated during an IACK cycle in response
to an interrupt from the periodic timer. When the SIM40 responds to the IACK cycle, the
periodic interrupt vector from the PICR is placed on the bus. This vector number is
multiplied by four to form the vector offset, which is added to the vector base register to
obtain the address of the vector.
4.3.2.7 PERIODIC INTERRUPT TIMER REGISTER (PITR). The PITR contains control for
prescaling the software watchdog and periodic timer as well as the count value for the
periodic timer. This register can be read or written at any time. Bits 15–10 are not
implemented and always return zero when read. A write does not affect these bits.
PITR
$024
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
0
0
0
0
0
0
0
SWP PTP PITR7 PITR6 PITR5 PITR4 PITR3 PITR2 PITR1 PITR0
RESET:
0
0
0
0
0
0 MODCK MODCK 0
0
0
0
0
0
0
0
Supervisor Only
Bits 15–10—Reserved
SWP—Software Watchdog Prescale
This bit controls the software watchdog clock source as shown in 4.3.2.5 System
Protection Control Register (SYPCR).
1 = Software watchdog clock prescaled by a value of 512.
0 = Software watchdog clock not prescaled.
The SWP reset value is the inverse of the MODCK bit state on the rising edge of reset.
PTP—Periodic Timer Prescaler Control
This bit contains the prescaler control for the periodic timer.
1 = Periodic timer clock prescaled by a value of 512.
0 = Periodic timer clock not prescaled.
The PTP reset value is the inverse of the MODCK bit state on the rising edge of reset.
PITR7–PITR0—Periodic Interrupt Timer Register Bits 7–0
The remaining bits of the PITR contain the count value for the periodic timer. A zero
value turns off the periodic timer.
MOTOROLA
MC68340 USER’S MANUAL
4-27
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