Power management controller (pmc), 1 description, 2 master clock controller – Rainbow Electronics AT91CAP9S250A User Manual

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6264A–CAP–21-May-07

AT91CAP9S500A/AT91CAP9S250A

29. Power Management Controller (PMC)

29.1

Description

The Power Management Controller (PMC) optimizes power consumption by controlling all sys-
tem and user peripheral clocks. The PMC enables/disables the clock inputs to many of the
peripherals and the ARM Processor.

The Power Management Controller provides the following clocks:

• MCK, the Master Clock, programmable from a few hundred Hz to the maximum operating

frequency of the device. It is available to the modules running permanently, such as the AIC
and the Memory Controller.

• Processor Clock (PCK), switched off when entering processor in idle mode.

• DDRCK, the Double Data Rate Clock, provided to peripherals using double data rate transfer

(e.g., DDR SDR Controller)

• Peripheral Clocks, typically MCK, provided to the embedded peripherals (USART, SSC, SPI,

TWI, TC, MCI, etc.) and independently controllable. In order to reduce the number of clock
names in a product, the Peripheral Clocks are named MCK in the product datasheet.

• UHP Clock (UHPCK), required by USB Host Port operations.

• Programmable Clock Outputs can be selected from the clocks provided by the clock

generator and driven on the PCKx pins.

29.2

Master Clock Controller

The Master Clock Controller provides selection and division of the Master Clock (MCK). MCK is
the clock provided to all the peripherals and the memory controller.

The Master Clock is selected from one of the clocks provided by the Clock Generator. Selecting
the Slow Clock provides a Slow Clock signal to the whole device. Selecting the Main Clock
saves power consumption of the PLLs.

The Master Clock Controller is made up of a clock selector and a prescaler. It also contains a
Master Clock divider which allows the processor clock to be faster than the Master Clock.

The Master Clock selection is made by writing the CSS field (Clock Source Selection) in
PMC_MCKR (Master Clock Register). The prescaler supports the division by a power of 2 of the
selected clock between 1 and 64. The PRES field in PMC_MCKR programs the prescaler. The
Master Clock divider can be programmed through the MDIV field in PMC_MCKR.

A Double Data Rate Clock (DDRCK) is created after the clock selector and before the clock
prescaler. The software must ensure that the DDRCK clock rate is twice the MCK clock rate.

Each time PMC_MCKR is written to define a new Master Clock, the MCKRDY bit is cleared in
PMC_SR. It reads 0 until the Master Clock is established. Then, the MCKRDY bit is set and can
trigger an interrupt to the processor. This feature is useful when switching from a high-speed
clock to a lower one to inform the software when the change is actually done.