PIC18F2450 Datasheet, PDF(39/320 Page) Microchip Technology – 28/40/44-Pin, High-Performance, 12 MIPS, Enhanced Flash, USB Microcontrollers with nanoWatt Technology

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PIC18F2450 Datasheet, PDF (39/320 Pages) Microchip Technology – 28/40/44-Pin, High-Performance, 12 MIPS, Enhanced Flash, USB Microcontrollers with nanoWatt Technology

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PIC18F2450/4450

3.3 Sleep Mode

The power-managed Sleep mode in the PIC18F2450/

4450 devices is identical to the legacy Sleep mode

offered in all other PICmicro devices. It is entered by

clearing the IDLEN bit (the default state on device

Reset) and executing the SLEEP instruction. This shuts

down the selected oscillator (Figure 3-5). All clock

source status bits are cleared.

Entering the Sleep mode from any other mode does not

require a clock switch. This is because no clocks are

needed once the controller has entered Sleep. If the

WDT is selected, the INTRC source will continue to

operate. If the Timer1 oscillator is enabled, it will also

continue to run.

When a wake event occurs in Sleep mode (by interrupt,

Reset or WDT time-out), the device will not be clocked

until the clock source selected by the SCS1:SCS0 bits

becomes ready (see Figure 3-6), or it will be clocked

from the internal oscillator if either the Two-Speed

Start-up or the Fail-Safe Clock Monitor are enabled

(see Section 18.0 âSpecial Features of the CPUâ). In

either case, the OSTS bit is set when the primary clock

is providing the device clocks. The IDLEN and SCS bits

are not affected by the wake-up.

3.4 Idle Modes

The Idle modes allow the controllerâs CPU to be

selectively shut down while the peripherals continue to

operate. Selecting a particular Idle mode allows users

to further manage power consumption.

If the IDLEN bit is set to â1â when a SLEEP instruction is

executed, the peripherals will be clocked from the clock

source selected using the SCS1:SCS0 bits; however, the

CPU will not be clocked. The clock source status bits are

not affected. Setting IDLEN and executing a SLEEP

instruction provides a quick method of switching from a

given Run mode to its corresponding Idle mode.

If the WDT is selected, the INTRC source will continue

to operate. If the Timer1 oscillator is enabled, it will also

continue to run.

Since the CPU is not executing instructions, the only

exits from any of the Idle modes are by interrupt, WDT

time-out or a Reset. When a wake event occurs, CPU

execution is delayed by an interval of TCSD

(parameter 38, Table 21-10) while it becomes ready to

execute code. When the CPU begins executing code,

it resumes with the same clock source for the current

Idle mode. For example, when waking from RC_IDLE

mode, the internal oscillator will clock the CPU and

peripherals (in other words, RC_RUN mode). The

IDLEN and SCS bits are not affected by the wake-up.

While in any Idle mode or Sleep mode, a WDT time-out

will result in a WDT wake-up to the Run mode currently

specified by the SCS1:SCS0 bits.

FIGURE 3-5:

TRANSITION TIMING FOR ENTRY TO SLEEP MODE

Q1 Q2 Q3 Q4 Q1

OSC1

CPU

Clock

Peripheral

Clock

Sleep

Program

Counter

PC

PC + 2

FIGURE 3-6:

TRANSITION TIMING FOR WAKE FROM SLEEP (HSPLL)

Q1

Q2 Q3 Q4 Q1 Q2 Q3 Q4 Q1 Q2 Q3 Q4 Q1 Q2 Q3 Q4

OSC1

PLL Clock

Output

TOST(1)

TPLL(1)

CPU Clock

Peripheral

Clock

Program

Counter

PC

PC + 2

Wake Event

OSTS bit Set

Note 1: TOST = 1024 TOSC; TPLL = 2 ms (approx). These intervals are not shown to scale.

PC + 4

PC + 6

Â© 2006 Microchip Technology Inc.

Advance Information

DS39760A-page 37

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