AT91CAP7E Datasheet, PDF(250/520 Page) ATMEL Corporation – Customizable Microcontroller

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AT91CAP7E Datasheet, PDF (250/520 Pages) ATMEL Corporation – Customizable Microcontroller

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Note:

The âIâ bit in SPSR is significant. If it is set, it indicates that the ARM core was on the verge of

masking an interrupt when the mask instruction was interrupted. Hence, when SPSR is restored,

the mask instruction is completed (interrupt is masked).

25.5.5 Fast Interrupt

25.5.5.1

Fast Interrupt Source

The interrupt source 0 is the only source which can raise a fast interrupt request to the processor

except if fast forcing is used. The interrupt source 0 is generally connected to a FIQ pin of the

product, either directly or through a PIO Controller.

25.5.5.2

Fast Interrupt Control

The fast interrupt logic of the AIC has no priority controller. The mode of interrupt source 0 is

programmed with the AIC_SMR0 and the field PRIOR of this register is not used even if it reads

what has been written. The field SRCTYPE of AIC_SMR0 enables programming the fast inter-

rupt source to be positive-edge triggered or negative-edge triggered or high-level sensitive or

low-level sensitive

Writing 0x1 in the AIC_IECR (Interrupt Enable Command Register) and AIC_IDCR (Interrupt

Disable Command Register) respectively enables and disables the fast interrupt. The bit 0 of

AIC_IMR (Interrupt Mask Register) indicates whether the fast interrupt is enabled or disabled.

25.5.5.3

Fast Interrupt Vectoring

The fast interrupt handler address can be stored in AIC_SVR0 (Source Vector Register 0). The

value written into this register is returned when the processor reads AIC_FVR (Fast Vector Reg-

ister). This offers a way to branch in one single instruction to the interrupt handler, as AIC_FVR

is mapped at the absolute address 0xFFFF F104 and thus accessible from the ARM fast inter-

rupt vector at address 0x0000 001C through the following instruction:

LDR PC,[PC,# -&F20]

When the processor executes this instruction it loads the value read in AIC_FVR in its program

counter, thus branching the execution on the fast interrupt handler. It also automatically per-

forms the clear of the fast interrupt source if it is programmed in edge-triggered mode.

25.5.5.4

Fast Interrupt Handlers

This section gives an overview of the fast interrupt handling sequence when using the AIC. It is

assumed that the programmer understands the architecture of the ARM processor, and espe-

cially the processor interrupt modes and associated status bits.

Assuming that:

1. The Advanced Interrupt Controller has been programmed, AIC_SVR0 is loaded with

the fast interrupt service routine address, and the interrupt source 0 is enabled.

2. The Instruction at address 0x1C (FIQ exception vector address) is required to vector

the fast interrupt:

LDR PC, [PC, # -&F20]

3. The user does not need nested fast interrupts.

When nFIQ is asserted, if the bit âFâ of CPSR is 0, the sequence is:

1. The CPSR is stored in SPSR_fiq, the current value of the program counter is loaded in

the FIQ link register (R14_FIQ) and the program counter (R15) is loaded with 0x1C. In

250 AT91CAP7E

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