PIC24FJ256GB108-I Datasheet, PDF(131/352 Page) Microchip Technology – 64/80/100-Pin, 16-Bit Flash Microcontrollers with USB On-The-Go (OTG)

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PIC24FJ256GB108-I Datasheet, PDF (131/352 Pages) Microchip Technology – 64/80/100-Pin, 16-Bit Flash Microcontrollers with USB On-The-Go (OTG)

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PIC24FJ256GB110 FAMILY

9.0 POWER-SAVING FEATURES

Note:

This data sheet summarizes the features

of this group of PIC24F devices. It is not

intended to be a comprehensive reference

source. For more information, refer to the

âPIC24F Family Reference Manualâ,

Section 10. âPower-Saving Featuresâ

(DS39698).

The PIC24FJ256GB110 family of devices provides the

ability to manage power consumption by selectively

managing clocking to the CPU and the peripherals. In

general, a lower clock frequency and a reduction in the

number of circuits being clocked constitutes lower

consumed power. All PIC24F devices manage power

consumption in four different ways:

â¢ Clock frequency

â¢ Instruction-based Sleep and Idle modes

â¢ Software controlled Doze mode

â¢ Selective peripheral control in software

Combinations of these methods can be used to

selectively tailor an applicationâs power consumption,

while still maintaining critical application features, such

as timing-sensitive communications.

9.1 Clock Frequency and Clock

Switching

PIC24F devices allow for a wide range of clock

frequencies to be selected under application control. If

the system clock configuration is not locked, users can

choose low-power or high-precision oscillators by simply

changing the NOSC bits. The process of changing a

system clock during operation, as well as limitations to

the process, are discussed in more detail in Section 8.0

âOscillator Configurationâ.

9.2 Instruction-Based Power-Saving

Modes

PIC24F devices have two special power-saving modes

that are entered through the execution of a special

PWRSAV instruction. Sleep mode stops clock operation

and halts all code execution; Idle mode halts the CPU

and code execution, but allows peripheral modules to

continue operation. The assembly syntax of the

PWRSAV instruction is shown in Example 9-1.

Sleep and Idle modes can be exited as a result of an

enabled interrupt, WDT time-out or a device Reset.

When the device exits these modes, it is said to

âwake-upâ.

Note:

SLEEP_MODE and IDLE_MODE are con-

stants defined in the assembler include

file for the selected device.

9.2.1 SLEEP MODE

Sleep mode has these features:

â¢ The system clock source is shut down. If an

on-chip oscillator is used, it is turned off.

â¢ The device current consumption will be reduced

to a minimum provided that no I/O pin is sourcing

current.

â¢ The Fail-Safe Clock Monitor does not operate

during Sleep mode since the system clock source

is disabled.

â¢ The LPRC clock will continue to run in Sleep

mode if the WDT is enabled.

â¢ The WDT, if enabled, is automatically cleared

prior to entering Sleep mode.

â¢ Some device features or peripherals may

continue to operate in Sleep mode. This includes

items such as the input change notification on the

I/O ports, or peripherals that use an external clock

input. Any peripheral that requires the system

clock source for its operation will be disabled in

Sleep mode.

The device will wake-up from Sleep mode on any of the

these events:

â¢ On any interrupt source that is individually

enabled

â¢ On any form of device Reset

â¢ On a WDT time-out

On wake-up from Sleep, the processor will restart with

the same clock source that was active when Sleep

mode was entered.

EXAMPLE 9-1: PWRSAV INSTRUCTION SYNTAX

PWRSAV

PWRSAV

#SLEEP_MODE

#IDLE_MODE

; Put the device into SLEEP mode

; Put the device into IDLE mode

ï£ 2009 Microchip Technology Inc.

DS39897C-page 131

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