PIC18F2220_07 Datasheet, PDF(31/386 Page) Microchip Technology – 28/40/44-Pin High-Performance, Enhanced Flash Microcontrollers with 10-Bit A/D and nanoWatt Technology

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PIC18F2220_07 Datasheet, PDF (31/386 Pages) Microchip Technology – 28/40/44-Pin High-Performance, Enhanced Flash Microcontrollers with 10-Bit A/D and nanoWatt Technology

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PIC18F2220/2320/4220/4320

3.0 POWER-MANAGED MODES

The PIC18F2X20 and PIC18F4X20 devices offer a total

of six operating modes for more efficient power

management (see Table 3-1). These operating modes

provide a variety of options for selective power

conservation in applications where resources may be

limited (i.e., battery-powered devices).

There are three categories of power-managed modes:

â¢ Sleep mode

â¢ Idle modes

â¢ Run modes

These categories define which portions of the device

are clocked and sometimes, what speed. The Run and

Idle modes may use any of the three available clock

sources (primary, secondary or INTOSC multiplexer);

the Sleep mode does not use a clock source.

The clock switching feature offered in other PIC18

devices (i.e., using the Timer1 oscillator in place of the

primary oscillator) and the Sleep mode offered by all

PICÂ® devices (where all system clocks are stopped) are

both offered in the PIC18F2X20/4X20 devices

(SEC_RUN and Sleep modes, respectively). However,

additional power-managed modes are available that

allow the user greater flexibility in determining what

portions of the device are operating. The power-

managed modes are event driven; that is, some

specific event must occur for the device to enter or

(more particularly) exit these operating modes.

For PIC18F2X20/4X20 devices, the power-managed

modes are invoked by using the existing SLEEP

instruction. All modes exit to PRI_RUN mode when trig-

gered by an interrupt, a Reset, or a WDT time-out

(PRI_RUN mode is the normal full power execution

mode; the CPU and peripherals are clocked by the pri-

mary oscillator source). In addition, power-managed

Run modes may also exit to Sleep mode or their

corresponding Idle mode.

3.1 Selecting Power-Managed Modes

Selecting a power-managed mode requires deciding if

the CPU is to be clocked or not and selecting a clock

source. The IDLEN bit controls CPU clocking while the

SC1:SCS0 bits select a clock source. The individual

modes, bit settings, clock sources and affected

modules are summarized in Table 3-1.

3.1.1 CLOCK SOURCES

The clock source is selected by setting the SCS bits of

the OSCCON register. Three clock sources are avail-

able for use in power-managed Idle modes: the primary

clock (as configured in Configuration Register 1H), the

secondary clock (Timer1 oscillator) and the internal

oscillator block. The secondary and internal oscillator

block sources are available for the power-managed

modes (PRI_RUN mode is the normal full power exe-

cution mode; the CPU and peripherals are clocked by

the primary oscillator source).

TABLE 3-1: POWER-MANAGED MODES

Mode

OSCCON Bits

IDLEN SCS1:SCS0

<7>

<1:0>

Module Clocking

CPU

Peripherals

Available Clock and Oscillator Source

Sleep

0

PRI_RUN

0

00

Off

Off

None â All clocks are disabled

00

Clocked

Clocked Primary â LP, XT, HS, HSPLL, RC, EC, INTRC(1).

This is the normal full power execution mode.

SEC_RUN

0

RC_RUN

0

01

Clocked

Clocked Secondary â Timer1 Oscillator

1x

Clocked

Clocked Internal Oscillator Block(1)

PRI_IDLE

1

00

Off

Clocked Primary â LP, XT, HS, HSPLL, RC, EC

SEC_IDLE

1

01

RC_IDLE

1

1x

Off

Clocked Secondary â Timer1 Oscillator

Off

Clocked Internal Oscillator Block(1)

Note 1: Includes INTOSC and INTOSC postscaler, as well as the INTRC source.

Â© 2007 Microchip Technology Inc.

DS39599F-page 29

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