PIC18F4550-IP Datasheet, PDF(150/438 Page) Microchip Technology – 28/40/44-Pin, High-Performance, Enhanced Flash, USB Microcontrollers with nanoWatt Technology

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PIC18F4550-IP Datasheet, PDF (150/438 Pages) Microchip Technology – 28/40/44-Pin, High-Performance, Enhanced Flash, USB Microcontrollers with nanoWatt Technology

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PIC18F2455/2550/4455/4550

15.4 PWM Mode

In Pulse-Width Modulation (PWM) mode, the CCPx pin

produces up to a 10-bit resolution PWM output. Since

the CCP2 pin is multiplexed with a PORTB or PORTC

data latch, the appropriate TRIS bit must be cleared to

make the CCP2 pin an output.

Note:

Clearing the CCP2CON register will force

the RB3 or RC1 output latch (depending

on device configuration) to the default low

level. This is not the PORTB or PORTC

I/O data latch.

Figure 15-3 shows a simplified block diagram of the

CCP module in PWM mode.

For a step-by-step procedure on how to set up the CCP

module for PWM operation, see Section 15.4.4

âSetup for PWM Operationâ.

FIGURE 15-3:

SIMPLIFIED PWM BLOCK

DIAGRAM

Duty Cycle Registers

CCPxCON<5:4>

CCPRxL

CCPRxH (Slave)

Comparator

TMR2

(Note 1)

R

Q

S

CCPx

Output

Comparator

PR2

Clear Timer,

CCPx pin and

latch D.C.

Corresponding

TRIS bit

Note 1: The 8-bit TMR2 value is concatenated with the 2-bit

internal Q clock, or 2 bits of the prescaler, to create the

10-bit time base.

A PWM output (Figure 15-4) has a time base (period)

and a time that the output stays high (duty cycle). The

frequency of the PWM is the inverse of the period

(1/period).

FIGURE 15-4:

PWM OUTPUT

Period

15.4.1 PWM PERIOD

The PWM period is specified by writing to the PR2

register. The PWM period can be calculated using the

following formula:

EQUATION 15-1:

PWM Period = [(PR2) + 1] â¢ 4 â¢ TOSC â¢

(TMR2 Prescale Value)

PWM frequency is defined as 1/[PWM period].

When TMR2 is equal to PR2, the following three events

occur on the next increment cycle:

â¢ TMR2 is cleared

â¢ The CCPx pin is set (exception: if PWM duty

cycle = 0%, the CCPx pin will not be set)

â¢ The PWM duty cycle is latched from CCPRxL into

CCPRxH

Note:

The Timer2 postscalers (see Section 13.0

âTimer2 Moduleâ) are not used in the

determination of the PWM frequency. The

postscaler could be used to have a servo

update rate at a different frequency than

the PWM output.

15.4.2 PWM DUTY CYCLE

The PWM duty cycle is specified by writing to the

CCPRxL register and to the CCPxCON<5:4> bits. Up

to 10-bit resolution is available. The CCPRxL contains

the eight MSbs and the CCPxCON<5:4> bits contain

the two LSbs. This 10-bit value is represented by

CCPRxL:CCPxCON<5:4>. The following equation is

used to calculate the PWM duty cycle in time:

EQUATION 15-2:

PWM Duty Cycle = (CCPRXL:CCPXCON<5:4>) â¢

TOSC â¢ (TMR2 Prescale Value)

CCPRxL and CCPxCON<5:4> can be written to at any

time, but the duty cycle value is not latched into

CCPRxH until after a match between PR2 and TMR2

occurs (i.e., the period is complete). In PWM mode,

CCPRxH is a read-only register.

Duty Cycle

TMR2 = PR2

TMR2 = PR2

TMR2 = Duty Cycle

DS39632E-page 148

Â© 2009 Microchip Technology Inc.

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