MC9S12HY64 Datasheet, PDF(154/792 Page) Freescale Semiconductor, Inc – S12 Microcontrollers

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MC9S12HY64 Datasheet, PDF (154/792 Pages) Freescale Semiconductor, Inc – S12 Microcontrollers

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Interrupt Module (S12SINTV1)

Table 4-3. IVBR Field Descriptions

Field

Description

7â0

Interrupt Vector Base Address Bits â These bits represent the upper byte of all vector addresses. Out of

IVB_ADDR[7:0] reset these bits are set to 0xFF (i.e., vectors are located at 0xFF80â0xFFFE) to ensure compatibility to

HCS12.

Note: A system reset will initialize the interrupt vector base register with â0xFFâ before it is used to determine

the reset vector address. Therefore, changing the IVBR has no effect on the location of the three reset

vectors (0xFFFAâ0xFFFE).

Note: If the BDM is active (i.e., the CPU is in the process of executing BDM ï¬rmware code), the contents of

IVBR are ignored and the upper byte of the vector address is ï¬xed as â0xFFâ. This is done to enable

handling of all non-maskable interrupts in the BDM ï¬rmware.

4.4 Functional Description

The INT module processes all exception requests to be serviced by the CPU module. These exceptions

include interrupt vector requests and reset vector requests. Each of these exception types and their overall

priority level is discussed in the subsections below.

4.4.1 S12S Exception Requests

The CPU handles both reset requests and interrupt requests. A priority decoder is used to evaluate the

priority of pending interrupt requests.

4.4.2 Interrupt Prioritization

The INT module contains a priority decoder to determine the priority for all interrupt requests pending for

the CPU. If more than one interrupt request is pending, the interrupt request with the higher vector address

wins the prioritization.

The following conditions must be met for an I bit maskable interrupt request to be processed.

1. The local interrupt enabled bit in the peripheral module must be set.

2. The I bit in the condition code register (CCR) of the CPU must be cleared.

3. There is no SWI, TRAP, or X bit maskable request pending.

NOTE

All non I bit maskable interrupt requests always have higher priority than

the I bit maskable interrupt requests. If the X bit in the CCR is cleared, it is

possible to interrupt an I bit maskable interrupt by an X bit maskable

interrupt. It is possible to nest non maskable interrupt requests, e.g., by

nesting SWI or TRAP calls.

Since an interrupt vector is only supplied at the time when the CPU requests it, it is possible that a higher

priority interrupt request could override the original interrupt request that caused the CPU to request the

vector. In this case, the CPU will receive the highest priority vector and the system will process this

interrupt request ï¬rst, before the original interrupt request is processed.

MC9S12HY/HA-Family Reference Manual, Rev. 1.04

154

Freescale Semiconductor

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