Atmel ARM-Based Evaluation Kit AT91SAM9N12-EK AT91SAM9N12-EK Data Sheet
Product codes
AT91SAM9N12-EK
Power Management
12-2
Copyright © 2001-2003 ARM Limited. All rights reserved.
ARM DDI0198D
12.1
About power management
The power management facilities provided by the ARM926EJ-S processor are:
•
•
12.1.1
Dynamic power management (wait for interrupt mode)
The ARM926EJ-S processor can be put into a low-power state by the wait for interrupt
instruction:
instruction:
MCR p15,0,<Rd>,c7,c0,4
This instruction switches the ARM926EJ-S processor into a low-power state until either
an interrupt (IRQ or FIQ) or a debug request occurs. The debug request can either be an
external debug request EDBGRQ or a debug request made by the debugger by writing
to the DBGRQ bit of the ARM9EJ-S debug control register using scan chain 2.
an interrupt (IRQ or FIQ) or a debug request occurs. The debug request can either be an
external debug request EDBGRQ or a debug request made by the debugger by writing
to the DBGRQ bit of the ARM9EJ-S debug control register using scan chain 2.
In wait for interrupt mode, all internal ARM926EJ-S clocks can be stopped. The switch
into the low-power state is delayed until all write buffers have been drained, and the
ARM926EJ-S memory system is in a quiescent state.
into the low-power state is delayed until all write buffers have been drained, and the
ARM926EJ-S memory system is in a quiescent state.
The switch into low-power state is indicated by the assertion of the STANDBYWFI
signal. If STANDBYWFI is asserted then it is guaranteed that all of ARM926EJ-S
external interfaces (AHB, TCM, and external coprocessor) are in an idle state. The
STANDBYWFI signal is intended to be used to shut down clocks to other parts of the
system, such as external coprocessors, that do not have to be clocked if the
ARM926EJ-S processor is idle.
signal. If STANDBYWFI is asserted then it is guaranteed that all of ARM926EJ-S
external interfaces (AHB, TCM, and external coprocessor) are in an idle state. The
STANDBYWFI signal is intended to be used to shut down clocks to other parts of the
system, such as external coprocessors, that do not have to be clocked if the
ARM926EJ-S processor is idle.
The STANDBYWFI signal is deasserted in the second cycle following an interrupt or
a debug request. It is guaranteed that no form of access on any external interface is
started until the cycle after STANDBYWFI is deasserted. Figure 12-1 shows the
deassertion of the STANDBYWFI signal after an IRQ interrupt.
a debug request. It is guaranteed that no form of access on any external interface is
started until the cycle after STANDBYWFI is deasserted. Figure 12-1 shows the
deassertion of the STANDBYWFI signal after an IRQ interrupt.
Figure 12-1 Deassertion of STANDBYWFI after an IRQ interrupt
CLK
STANDBYWFI
nIRQ