DSPIC30F6010 MICROCHIP [Microchip Technology], DSPIC30F6010 Datasheet - Page 90
DSPIC30F6010
Manufacturer Part Number
DSPIC30F6010
Description
High-Performance Digital Signal Controllers
Manufacturer
MICROCHIP [Microchip Technology]
Datasheet
1.DSPIC30F6010.pdf
(218 pages)
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dsPIC30F6010
15.1.4
In the Double Update mode (PTMOD<1:0> = 11), an
interrupt event is generated each time the PTMR regis-
ter is equal to zero, as well as each time a period match
occurs. The postscaler selection bits have no effect in
this mode of the timer.
The Double Update mode provides two additional func-
tions to the user. First, the control loop bandwidth is
doubled because the PWM duty cycles can be
updated, twice per period. Second, asymmetrical cen-
ter-aligned PWM waveforms can be generated, which
are useful for minimizing output waveform distortion in
certain motor control applications.
15.1.5
The input clock to PTMR (F
options of 1:1, 1:4, 1:16, or 1:64, selected by control
bits PTCKPS<1:0> in the PTCON SFR. The prescaler
counter is cleared when any of the following occurs:
• a write to the PTMR register
• a write to the PTCON register
• any device Reset
The PTMR register is not cleared when PTCON is
written.
15.1.6
The match output of PTMR can optionally be post-
scaled through a 4-bit postscaler (which gives a 1:1 to
1:16 scaling).
The postscaler counter is cleared when any of the
following occurs:
• a write to the PTMR register
• a write to the PTCON register
• any device Reset
The PTMR register is not cleared when PTCON is written.
15.2
PTPER is a 15-bit register and is used to set the count-
ing period for the PWM time base. PTPER is a double
buffered register. The PTPER buffer contents are
loaded into the PTPER register at the following instants:
• Free Running and Single Shot modes: When the
• Up/Down Counting modes: When the PTMR
The value held in the PTPER buffer is automatically
loaded into the PTPER register when the PWM time
base is disabled (PTEN = 0).
DS70119D-page 88
Note:
PTMR register is reset to zero after a match with
the PTPER register.
register is zero.
PWM Period
DOUBLE UPDATE MODE
Programming a value of 0x0001 in the
period register could generate a continu-
ous interrupt pulse, and hence, must be
avoided.
PWM TIME BASE PRESCALER
PWM TIME BASE POSTSCALER
OSC
/4), has prescaler
Preliminary
The
Equation 15-1:
EQUATION 15-1:
If the PWM time base is configured for one of the Up/
Down Count modes, the PWM period will be twice the
value provided by Equation 15-1.
The maximum resolution (in bits) for a given device
oscillator and PWM frequency can be determined using
Equation 15-2:
EQUATION 15-2:
15.3
Edge aligned PWM signals are produced by the module
when the PWM time base is in the Free Running or Sin-
gle Shot mode. For edge aligned PWM outputs, the out-
put has a period specified by the value in PTPER and a
duty cycle specified by the appropriate duty cycle regis-
ter (see Figure 15-2). The PWM output is driven active
at the beginning of the period (PTMR = 0) and is driven
inactive when the value in the duty cycle register
matches PTMR.
If the value in a particular duty cycle register is zero,
then the output on the corresponding PWM pin will be
inactive for the entire PWM period. In addition, the out-
put on the PWM pin will be active for the entire PWM
period if the value in the duty cycle register is greater
than the value held in the PTPER register.
FIGURE 15-2:
PTPER
0
PWM
Resolution =
Edge Aligned PWM
T
Duty Cycle
PWM
PTMR
Value
period
=
Period
(PTMR Prescale Value)
T
PWM PERIOD
PWM RESOLUTION
EDGE ALIGNED PWM
CY
can
2004 Microchip Technology Inc.
log (2
•
New Duty Cycle Latched
(PTPER + 1)
log (2)
be
•
T
PWM
determined
/ T
CY
)
using
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