PIC18F25J11-I/PT MICROCHIP [Microchip Technology], PIC18F25J11-I/PT Datasheet - Page 246
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PIC18F25J11-I/PT
Manufacturer Part Number
PIC18F25J11-I/PT
Description
28/44-Pin, Low-Power, High-Performance Microcontrollers with nanoWatt XLP Technology
Manufacturer
MICROCHIP [Microchip Technology]
Datasheet
1.PIC18F25J11-IPT.pdf
(528 pages)
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PIC18F46J11 FAMILY
17.4
In Pulse-Width Modulation (PWM) mode, the CCPx pin
produces up to a 10-bit resolution PWM output.
Figure 17-3 shows a simplified block diagram of the
CCP module in PWM mode.
For a step-by-step procedure on how to set up a CCP
module for PWM operation, see Section 17.4.3
“Setup for PWM Operation”.
FIGURE 17-3:
A PWM output (Figure 17-4) 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 17-4:
DS39932C-page 246
Note:
Note 1:
Latch
Duty Cycle
TMRx = PRx
Set CCPx pin
Reset
Match
TMR2 (TMR4) = PR2 (TMR4)
PWM Mode
The two LSbs of the Duty Cycle register are held by a
2-bit latch that is part of the module’s hardware. It is
physically separate from the CCPRx registers.
Duty Cycle Register
Clearing the CCPxCON register will force
the output latch (depending on device
configuration) to the default low level. This
is not the LATx data latch.
Duty Cycle
9
Comparator
CCPRxL
CCPRxH
Comparator
TMRx
PRx
Period
TMR2 (TMR4) = Duty Cycle
SIMPLIFIED PWM BLOCK
DIAGRAM
PWM OUTPUT
(1)
0
TMR2 (TMR4) = PR2 (PR4)
CCPxCON<5:4>
2 LSbs latched
from Q clocks
S
R
Q
Output Enable
TRIS
CCPx
pin
17.4.1
The PWM period is specified by writing to the PR2
(PR4) register. The PWM period can be calculated
using Equation 17-1:
EQUATION 17-1:
PWM frequency is defined as 1/[PWM period].
When TMR2 (TMR4) is equal to PR2 (PR4), the
following three events occur on the next increment
cycle:
• TMR2 (TMR4) is cleared
• The CCPx pin is set (exception: if PWM duty
• The PWM duty cycle is latched from CCPRxL into
17.4.2
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> contains the
two LSbs. This 10-bit value is represented by
CCPRxL:CCPxCON<5:4>. Equation 17-2 is used to
calculate the PWM duty cycle in time.
EQUATION 17-2:
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 (PR4) and
TMR2 (TMR4) occurs (i.e., the period is complete). In
PWM mode, CCPRxH is a read-only register.
cycle = 0%, the CCPx pin will not be set)
CCPRxH
Note:
PWM Duty Cycle = (CCPR
PWM Period = [(PR2) + 1] • 4 • T
PWM PERIOD
The Timer2 and Timer 4 postscalers (see
Section 13.0
Section 15.0 “Timer4 Module”) 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.
PWM DUTY CYCLE
T
OSC
(TMR2 Prescale Value)
© 2009 Microchip Technology Inc.
• (TMR2 Prescale Value)
“Timer2
X
L:CCP
X
CON<5:4>) •
Module”
OSC
•
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