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HRPWM with Fine Edge
Placement
dsPIC33/PIC24 Family Reference Manual
Introduction
Note: This family reference manual section is meant to serve as a complement to device data sheets. Depending on
the device variant, this manual section may not apply to all dsPIC33 devices. Please consult the note at the
beginning of the chapter in the specific device data sheet to check whether this document supports the device you
are using.
Device data sheets and family reference manual sections are available for download from the Microchip Worldwide
Website at: www.microchip.com.
This document describes the features and use of the High-Resolution Pulse-Width Modulated (PWM) with Fine Edge
Placement. This flexible module provides features to support many types of Motor Control (MC) and Power Control
(PC) applications, including:
• AC-to-DC Converters
• DC-to-DC Converters
• AC and DC Motor Control: Brushed DC, BLDC, PMSM, ACIM, SRM, Stepper, etc.
• Inverters
• Battery Chargers
• Digital Lighting
• Power Factor Correction (PFC)
High-Level Features
• Up to Eight Independent PWM Generators, each with Dual Outputs
• Operating modes:
– Independent Edge PWM mode
– Variable Phase PWM mode
– Independent Edge PWM mode, Dual Output
– Center-Aligned PWM mode
– Double Update Center-Aligned PWM mode
– Dual Edge Center-Aligned PWM mode
• Output modes:
– Complementary
– Independent
– Push-Pull
• Dead-Time Generator
• Dead-Time Compensation
• Leading-Edge Blanking (LEB)
• Output Override for Fault Handling
• Flexible Period/Duty Cycle Updating Options
• PWM Control Inputs (PCI) for PWM Pin Overrides and External PWM Synchronization
• Advanced Triggering Options
• Combinatorial Logic Output
© 2017-2020 Microchip Technology Inc. Functional Reference Manuals (FRM) DS70005320D-page 1
• PWM Event Outputs
HRPWM with Fine Edge Placement
© 2017-2020 Microchip Technology Inc. Functional Reference Manuals (FRM) DS70005320D-page 2
Table of Contents
Introduction.....................................................................................................................................................1
High-Level Features....................................................................................................................................... 1
1. Registers................................................................................................................................................. 5
2. Register Maps......................................................................................................................................... 6
2.1. Common Functions Register Map................................................................................................7
2.2. PWM Generator Register Map................................................................................................... 21
3. Architecture Overview...........................................................................................................................51
4. Operation.............................................................................................................................................. 54
4.1. PWM Clocking............................................................................................................................54
4.2. PWM Generator (PG) Features..................................................................................................59
4.3. Common Features......................................................................................................................95
4.4. Lock and Write Restrictions......................................................................................................100
5. Application Examples..........................................................................................................................105
5.1. Six-Step Commutation of Three-Phase BLDC Motor...............................................................105
5.2. Three-Phase Sinusoidal Control of PMSM/ACIM Motors.........................................................114
5.3. Simple Complementary PWM Output.......................................................................................117
5.4. Cycle-by-Cycle Current Limit Mode..........................................................................................118
5.5. External Period Reset Mode.................................................................................................... 120
6. Interrupts............................................................................................................................................. 123
7. Operation in Power-Saving Modes..................................................................................................... 124
7.1. Operation in Sleep Mode..........................................................................................................124
7.2. Operation in Idle Mode............................................................................................................. 124
8. Related Application Notes...................................................................................................................125
9. Revision History.................................................................................................................................. 126
9.1. Revision A (August 2017).........................................................................................................126
9.2. Revision B (February 2018)..................................................................................................... 126
9.3. Revision C (February 2019)..................................................................................................... 126
9.4. Revision D (December 2020)................................................................................................... 126
The Microchip Website...............................................................................................................................128
Product Change Notification Service..........................................................................................................128
Customer Support...................................................................................................................................... 128
Microchip Devices Code Protection Feature..............................................................................................128
Legal Notice............................................................................................................................................... 129
Trademarks................................................................................................................................................ 129
Quality Management System..................................................................................................................... 130
HRPWM with Fine Edge Placement
© 2017-2020 Microchip Technology Inc. Functional Reference Manuals (FRM) DS70005320D-page 3
Worldwide Sales and Service.....................................................................................................................131
HRPWM with Fine Edge Placement
© 2017-2020 Microchip Technology Inc. Functional Reference Manuals (FRM) DS70005320D-page 4
1. Registers
There are two categories of Special Function Registers (SFRs) used to control the operation of the PWM module:
• Common, shared by all PWM Generators
• PWM Generator-specific
An ‘x’ in the register name denotes an instance of a PWM Generator.
A ‘y’ in the register name denotes an instance of a common function.
The LOCK bit in the PCLKCON register may be set in software to block writes to certain registers and bits. See 4.2
PWM Generator (PG) Features for more information. Writes to certain data and control registers are not safe at
certain times of a PWM cycle or when the module is enabled.
HRPWM with Fine Edge Placement
Registers
© 2017-2020 Microchip Technology Inc. Functional Reference Manuals (FRM) DS70005320D-page 5
2. Register Maps
Section provides a brief summary of the related common High-Resolution2.1 Common Functions Register Map
PWM with Fine Edge Placement registers. Section provides a brief summary of2.2 PWM Generator Register Map
the PWM Generator registers. The corresponding registers appear after the summaries, followed by a detailed
description of each register.
HRPWM with Fine Edge Placement
Register Maps
© 2017-2020 Microchip Technology Inc. Functional Reference Manuals (FRM) DS70005320D-page 6
2.1 Common Functions Register Map
Note: The number of LOGCONy and PWMEVTy registers are device-dependent. Refer to the device data sheet for
availability.
Name Bit Pos. 7 6 5 4 3 2 1 0
PCLKCON 7:0 DIVSEL[1:0] MCLKSEL[1:0]
15:8 HRRDY HRERR LOCK
FSCL 7:0 FSCL[7:0]
15:8 FSCL[15:8]
FSMINPER 7:0 FSMINPER[7:0]
15:8 FSMINPER[15:8]
MPHASE 7:0 MPHASE[7:0]
15:8 MPHASE[15:8]
MDC 7:0 MDC[7:0]
15:8 MDC[15:8]
MPER 7:0 MPER[7:0]
15:8 MPER[15:8]
LFSR 7:0 LFSR[7:0]
15:8 LFSR[14:8]
CMBTRIGL 7:0 CTA8EN CTA7EN CTA6EN CTA5EN CTA4EN CTA3EN CTA2EN CTA1EN
15:8
CMBTRIGH 7:0 CTB8EN CTB7EN CTB6EN CTB5EN CTB4EN CTB3EN CTB2EN CTB1EN
15:8
LOGCONy 7:0 S1yPOL S2yPOL PWMLFy[1:0] PWMLFyD[2:0]
15:8 PWMS1y[3:0] PWMS2y[3:0]
PWMEVTy 7:0 EVTySEL[3:0] EVTyPGS[2:0]
15:8 EVTyOEN EVTyPOL EVTySTRD EVTySYNC
HRPWM with Fine Edge Placement
Register Maps
© 2017-2020 Microchip Technology Inc. Functional Reference Manuals (FRM) DS70005320D-page 7
2.1.1 PWM Clock Control Register
Name: PCLKCON
Legend: C = Clearable bit
Bit 15 14 13 12 11 10 9 8
HRRDY HRERR LOCK
Access R R/C R/W
Reset 0 0 0
Bit 7 6 5 4 3 2 1 0
DIVSEL[1:0] MCLKSEL[1:0]
Access R/W R/W R/W R/W
Reset 0 0 0 0
Bit 15 – HRRDY High-Resolution Ready
Note: This bit is not present on all devices. Refer to the device-specific data sheet for availability.
Value Description
1The high-resolution circuitry is ready
0The high-resolution circuitry is not ready
Bit 14 – HRERR High-Resolution Error(1,2)
Notes:
1. This bit is not present on all devices. Refer to the device-specific data sheet for availability.
2. User software may write a ‘ ’ to this location to request a reset of the High-Resolution block when HRRDY = .0 1
Value Description
1An error has occurred; PWM signals will have limited resolution
0No error has occurred; PWM signals will have full resolution when HRRDY = 1
Bit 8 – LOCK Lock
Note: A device-specific unlock sequence must be performed before this bit can be cleared. Refer to the device data
sheet for the unlock sequence.
Value Description
1Write-protected registers and bits are locked
0Write-protected registers and bits are unlocked
Bits 5:4 – DIVSEL[1:0] PWM Clock Divider Selection
Value Description
11 Divide ratio is 1:16
10 Divide ratio is 1:8
01 Divide ratio is 1:4
00 Divide ratio is 1:2
Bits 1:0 – MCLKSEL[1:0] PWM Master Clock Selection
Clock sources are device-specific. Refer to the device data sheet for selections.
Note: Do not change the MCLKSEL[1:0] bits while ON (PGxCONL[15]) = .1
HRPWM with Fine Edge Placement
Register Maps
© 2017-2020 Microchip Technology Inc. Functional Reference Manuals (FRM) DS70005320D-page 8
2.1.2 Frequency Scale Register
Name: FSCL
Bit 15 14 13 12 11 10 9 8
FSCL[15:8]
Access R/W R/W R/W R/W R/W R/W R/W R/W
Reset 0 0 0 0 0 0 0 0
Bit 7 6 5 4 3 2 1 0
FSCL[7:0]
Access R/W R/W R/W R/W R/W R/W R/W R/W
Reset 0 0 0 0 0 0 0 0
Bits 15:0 – FSCL[15:0] Frequency Scale Register
The value in this register is added to the frequency scaling accumulator at each pwm_master_clk. When the
accumulated value exceeds the value of FSMINPER, a clock pulse is produced.
HRPWM with Fine Edge Placement
Register Maps
© 2017-2020 Microchip Technology Inc. Functional Reference Manuals (FRM) DS70005320D-page 9
2.1.3 Frequency Scaling Minimum Period Register
Name: FSMINPER
Bit 15 14 13 12 11 10 9 8
FSMINPER[15:8]
Access R/W R/W R/W R/W R/W R/W R/W R/W
Reset 0 0 0 0 0 0 0 0
Bit 7 6 5 4 3 2 1 0
FSMINPER[7:0]
Access R/W R/W R/W R/W R/W R/W R/W R/W
Reset 0 0 0 0 0 0 0 0
Bits 15:0 – FSMINPER[15:0] Frequency Scaling Minimum Period Register
This register holds the minimum clock period (maximum clock frequency) that can be produced by the frequency
scaling circuit.
HRPWM with Fine Edge Placement
Register Maps
© 2017-2020 Microchip Technology Inc. Functional Reference Manuals (FRM) DS70005320D-page 10
2.1.4 Master Phase Register
Name: MPHASE
Bit 15 14 13 12 11 10 9 8
MPHASE[15:8]
Access R/W R/W R/W R/W R/W R/W R/W R/W
Reset 0 0 0 0 0 0 0 0
Bit 7 6 5 4 3 2 1 0
MPHASE[7:0]
Access R/W R/W R/W R/W R/W R/W R/W R/W
Reset 0 0 0 0 0 0 0 0
Bits 15:0 – MPHASE[15:0] Master Phase Register
This register holds the phase offset value that can be shared by multiple PWM Generators.
HRPWM with Fine Edge Placement
Register Maps
© 2017-2020 Microchip Technology Inc. Functional Reference Manuals (FRM) DS70005320D-page 11
2.1.5 Master Duty Cycle Register
Name: MDC
Bit 15 14 13 12 11 10 9 8
MDC[15:8]
Access R/W R/W R/W R/W R/W R/W R/W R/W
Reset 0 0 0 0 0 0 0 0
Bit 7 6 5 4 3 2 1 0
MDC[7:0]
Access R/W R/W R/W R/W R/W R/W R/W R/W
Reset 0 0 0 0 0 0 0 0
Bits 15:0 – MDC[15:0] Master Duty Cycle Register
This register holds the duty cycle value that can be shared by multiple PWM Generators.
Note: Duty cycle values less than 0x0008 should not be used (0x0020 in High-Resolution mode).
HRPWM with Fine Edge Placement
Register Maps
© 2017-2020 Microchip Technology Inc. Functional Reference Manuals (FRM) DS70005320D-page 12
2.1.6 Master Period Register
Name: MPER
Bit 15 14 13 12 11 10 9 8
MPER[15:8]
Access R/W R/W R/W R/W R/W R/W R/W R/W
Reset 0 0 0 0 0 0 0 0
Bit 7 6 5 4 3 2 1 0
MPER[7:0]
Access R/W R/W R/W R/W R/W R/W R/W R/W
Reset 0 0 0 0 0 0 0 0
Bits 15:0 – MPER[15:0] Master Period Register
This register holds the period value that can be shared by multiple PWM Generators.
Note: Period values less than 0x0020 should not be used (0x0080 in High-Resolution mode).
HRPWM with Fine Edge Placement
Register Maps
© 2017-2020 Microchip Technology Inc. Functional Reference Manuals (FRM) DS70005320D-page 13
2.1.7 Linear Feedback Shift Register
Name: LFSR
Bit 15 14 13 12 11 10 9 8
LFSR[14:8]
Access R/W R/W R/W R/W R/W R/W R/W
Reset 0 0 0 0 0 0 0
Bit 7 6 5 4 3 2 1 0
LFSR[7:0]
Access R/W R/W R/W R/W R/W R/W R/W R/W
Reset 0 0 0 0 0 0 0 0
Bits 14:0 – LFSR[14:0] Linear Feedback Shift Register
A read of this register will provide a 15-bit pseudorandom value.
HRPWM with Fine Edge Placement
Register Maps
© 2017-2020 Microchip Technology Inc. Functional Reference Manuals (FRM) DS70005320D-page 14
2.1.8 Combinational Trigger Register Low
Name: CMBTRIGL
Bit 15 14 13 12 11 10 9 8
Access
Reset
Bit 7 6 5 4 3 2 1 0
CTA8EN CTA7EN CTA6EN CTA5EN CTA4EN CTA3EN CTA2EN CTA1EN
Access R/W R/W R/W R/W R/W R/W R/W R/W
Reset 0 0 0 0 0 0 0 0
Bit 7 – CTA8EN Enable Trigger Output from PWM Generator #8 as Source for Combinational Trigger A
Value Description
1Enables specified trigger signal to be OR’d into the Combinatorial Trigger A signal
0Disabled
Bit 6 – CTA7EN Enable Trigger Output from PWM Generator #7 as Source for Combinational Trigger A
Value Description
1Enables specified trigger signal to be OR’d into the Combinatorial Trigger A signal
0Disabled
Bit 5 – CTA6EN Enable Trigger Output from PWM Generator #6 as Source for Combinational Trigger A
Value Description
1Enables specified trigger signal to be OR’d into the Combinatorial Trigger A signal
0Disabled
Bit 4 – CTA5EN Enable Trigger Output from PWM Generator #5 as Source for Combinational Trigger A
Value Description
1Enables specified trigger signal to be OR’d into the Combinatorial Trigger A signal
0Disabled
Bit 3 – CTA4EN Enable Trigger Output from PWM Generator #4 as Source for Combinational Trigger A
Value Description
1Enables specified trigger signal to be OR’d into the Combinatorial Trigger A signal
0Disabled
Bit 2 – CTA3EN Enable Trigger Output from PWM Generator #3 as Source for Combinational Trigger A
Value Description
1Enables specified trigger signal to be OR’d into the Combinatorial Trigger A signal
0Disabled
Bit 1 – CTA2EN Enable Trigger Output from PWM Generator #2 as Source for Combinational Trigger A
Value Description
1Enables specified trigger signal to be OR’d into the Combinatorial Trigger A signal
0Disabled
Bit 0 – CTA1EN Enable Trigger Output from PWM Generator #1 as Source for Combinational Trigger A
Value Description
1Enables specified trigger signal to be OR’d into the Combinatorial Trigger A signal
0Disabled
HRPWM with Fine Edge Placement
Register Maps
© 2017-2020 Microchip Technology Inc. Functional Reference Manuals (FRM) DS70005320D-page 15
2.1.9 Combinational Trigger Register High
Name: CMBTRIGH
Bit 15 14 13 12 11 10 9 8
Access
Reset
Bit 7 6 5 4 3 2 1 0
CTB8EN CTB7EN CTB6EN CTB5EN CTB4EN CTB3EN CTB2EN CTB1EN
Access R/W R/W R/W R/W R/W R/W R/W R/W
Reset 0 0 0 0 0 0 0 0
Bit 7 – CTB8EN Enable Trigger Output from PWM Generator #8 as Source for Combinational Trigger B
Value Description
1Enables specified trigger signal to be OR’d into the Combinatorial Trigger B signal
0Disabled
Bit 6 – CTB7EN Enable Trigger Output from PWM Generator #7 as Source for Combinational Trigger B
Value Description
1Enables specified trigger signal to be OR’d into the Combinatorial Trigger B signal
0Disabled
Bit 5 – CTB6EN Enable Trigger Output from PWM Generator #6 as Source for Combinational Trigger B
Value Description
1Enables specified trigger signal to be OR’d into the Combinatorial Trigger B signal
0Disabled
Bit 4 – CTB5EN Enable Trigger Output from PWM Generator #5 as Source for Combinational Trigger B
Value Description
1Enables specified trigger signal to be OR’d into the Combinatorial Trigger B signal
0Disabled
Bit 3 – CTB4EN Enable Trigger Output from PWM Generator #4 as Source for Combinational Trigger B
Value Description
1Enables specified trigger signal to be OR’d into the Combinatorial Trigger B signal
0Disabled
Bit 2 – CTB3EN Enable Trigger Output from PWM Generator #3 as Source for Combinational Trigger B
Value Description
1Enables specified trigger signal to be OR’d into the Combinatorial Trigger B signal
0Disabled
Bit 1 – CTB2EN Enable Trigger Output from PWM Generator #2 as Source for Combinational Trigger B
Value Description
1Enables specified trigger signal to be OR’d into the Combinatorial Trigger B signal
0Disabled
Bit 0 – CTB1EN Enable Trigger Output from PWM Generator #1 as Source for Combinational Trigger B
Value Description
1Enables specified trigger signal to be OR’d into the Combinatorial Trigger B signal
0Disabled
HRPWM with Fine Edge Placement
Register Maps
© 2017-2020 Microchip Technology Inc. Functional Reference Manuals (FRM) DS70005320D-page 16
2.1.10 Combinatorial PWM Logic Control Register y
Name: LOGCONy
Note: ‘y’ denotes a common instance (A-F); the number of the available combinatorial PWM logic is device-
dependent. Refer to the device data sheet for availability.
Bit 15 14 13 12 11 10 9 8
PWMS1y[3:0] PWMS2y[3:0]
Access R/W R/W R/W R/W R/W R/W R/W R/W
Reset 0 0 0 0 0 0 0 0
Bit 7 6 5 4 3 2 1 0
S1yPOL S2yPOL PWMLFy[1:0] PWMLFyD[2:0]
Access R/W R/W R/W R/W R/W R/W R/W
Reset 0 0 0 0 0 0 0
Bits 15:12 – PWMS1y[3:0] Combinatorial PWM Logic Source #1 Selection
Note: Logic function input will be connected to ‘ ’ if the PWM channel is not present.0
Value Description
1111 PWM8L
1110 PWM8H
1101 PWM7L
1100 PWM7H
1011 PWM6L
1010 PWM6H
1001 PWM5L
1000 PWM5H
0111 PWM4L
0110 PWM4H
0101 PWM3L
0100 PWM3H
0011 PWM2L
0010 PWM2H
0001 PWM1L
0000 PWM1H
Bits 11:8 – PWMS2y[3:0] Combinatorial PWM Logic Source #2 Selection
Note: Logic function input will be connected to ‘ ’ if the PWM channel is not present.0
Value Description
1111 PWM8L
1110 PWM8H
1101 PWM7L
1100 PWM7H
1011 PWM6L
1010 PWM6H
1001 PWM5L
1000 PWM5H
0111 PWM4L
0110 PWM4H
0101 PWM3L
0100 PWM3H
0011 PWM2L
0010 PWM2H
0001 PWM1L
HRPWM with Fine Edge Placement
Register Maps
© 2017-2020 Microchip Technology Inc. Functional Reference Manuals (FRM) DS70005320D-page 17
Value Description
0000 PWM1H
Bit 7 – S1yPOL Combinatorial PWM Logic Source #1 Polarity
Value Description
1Input is inverted
0Input is positive logic
Bit 6 – S2yPOL Combinatorial PWM Logic Source #2 Polarity
Value Description
1Input is inverted
0Input is positive logic
Bits 5:4 – PWMLFy[1:0] Combinatorial PWM Logic Function Selection
Value Description
11 Reserved
10 PWMS1y ^ PWMS2y (XOR)
01 PWMS1y & PWMS2y (AND)
00 PWMS1y | PWMS2y (OR)
Bits 2:0 – PWMLFyD[2:0] Combinatorial PWM Logic Destination Selection
Note: Instances of y = A, C, E of LOGCONy assign logic function output to the PWMxH pin. Instances of y = B, D, F
of LOGCONy assign logic function to the PWMxL pin.
Value Description
111 Logic function is assigned to PWM8
110 Logic function is assigned to PWM7
101 Logic function is assigned to PWM6
100 Logic function is assigned to PWM5
011 Logic function is assigned to PWM4
010 Logic function is assigned to PWM3
001 Logic function is assigned to PWM2
000 No assignment, combinatorial PWM logic function is disabled
HRPWM with Fine Edge Placement
Register Maps
© 2017-2020 Microchip Technology Inc. Functional Reference Manuals (FRM) DS70005320D-page 18
2.1.11 PWM Event Output Control Register y
Name: PWMEVTy
Note: ‘y’ denotes a common instance (A-F); the number of the available combinatorial PWM logic is
device-dependent. Refer to the device data sheet for availability.
Bit 15 14 13 12 11 10 9 8
EVTyOEN EVTyPOL EVTySTRD EVTySYNC
Access R/W R/W R/W R/W
Reset 0 0 0 0
Bit 7 6 5 4 3 2 1 0
EVTySEL[3:0] EVTyPGS[2:0]
Access R/W R/W R/W R/W R/W R/W R/W
Reset 0 0 0 0 0 0 0
Bit 15 – EVTyOEN PWM Event Output Enable
Value Description
1Event output signal is output on the PWMEy pin
0Event output signal is internal only
Bit 14 – EVTyPOL PWM Event Output Polarity
Value Description
1Event output signal is active-low
0Event output signal is active-high
Bit 13 – EVTySTRD PWM Event Output Stretch Disable
Note: The event signal is stretched using peripheral_clk because different PWM Generators may be operating from
different clock sources.
Value Description
1Event output signal pulse width is not stretched
0Event output signal is stretched to eight PWM clock cycles minimum
Bit 12 – EVTySYNC PWM Event Output Sync
Event output signal pulse will be synchronized to peripheral_clk.
Value Description
1Event output signal is synchronized to the system clock
0Event output is not synchronized to the system clock
Bits 7:4 – EVTySEL[3:0] PWM Event Selection
Note: This is the PWM Generator output signal prior to Output mode logic and any output override logic.
Value Description
1111 High-resolution error event signal
1110-1010 Reserved
1001 ADC Trigger 2 signal
1000 ADC Trigger 1 signal
0111 STEER signal (available in Push-Pull Output modes only)
0110 CAHALF signal (available in Center-Aligned modes only)
0101 PCI Fault active output signal
0100 PCI current limit active output signal
0011 PCI feed-forward active output signal
0010 PCI Sync active output signal
0001 PWM Generator output signal
(1)
0000 Source is selected by the [2:0] bitsPGTRGSEL
HRPWM with Fine Edge Placement
Register Maps
© 2017-2020 Microchip Technology Inc. Functional Reference Manuals (FRM) DS70005320D-page 19
Bits 2:0 – EVTyPGS[2:0] PWM Event Source Selection
Note: No event will be produced if the selected PWM Generator is not present.
Value Description
111 PWM Generator #8
110 PWM Generator #7
101 PWM Generator #6
100 PWM Generator #5
011 PWM Generator #4
010 PWM Generator #3
001 PWM Generator #2
000 PWM Generator #1
HRPWM with Fine Edge Placement
Register Maps
© 2017-2020 Microchip Technology Inc. Functional Reference Manuals (FRM) DS70005320D-page 20
2.2 PWM Generator Register Map
Legend: x = PWM Generator #; y = F, CL, FF or S.
Name Bit Pos. 7 6 5 4 3 2 1 0
Reserved
PGxCONL 7:0 HREN CLKSEL[1:0] MODSEL[2:0]
15:8 ON TRGCNT[2:0]
PGxCONH 7:0 Reserved TRGMOD SOCS[3:0]
15:8 MDCSEL MPERSEL MPHSEL MSTEN UPDMOD[2:0]
PGxSTAT 7:0 TRSET TRCLR CAP UPDATE UPDREQ STEER CAHALF TRIG
15:8 SEVT FLTEVT CLEVT FFEVT SACT FLTACT CLACT FFACT
PGxIOCONL 7:0 FLTDAT[1:0] CLDAT[1:0] FFDAT[1:0] DBDAT[1:0]
15:8 CLMOD SWAP OVRENH OVRENL OVRDAT[1:0] OSYNC[1:0]
PGxIOCONH 7:0 PMOD[1:0] PENH PENL POLH POLL
15:8 CAPSRC[2:0] DTCMPSEL
PGxEVTL 7:0 UPDTRG[1:0] PGTRGSEL[2:0]
15:8 ADTR1PS[4:0] ADTR1EN3 ADTR1EN2 ADTR1EN1
PGxEVTH 7:0 ADTR2EN3 ADTR2EN2 ADTR2EN1 ADTR1OFS[4:0]
15:8 FLTIEN CLIEN FFIEN SIEN IEVTSEL[1:0]
PGxyPCIL 7:0 SWTERM PSYNC PPS PSS[4:0]
15:8 TSYNCDIS TERM[2:0] AQPS AQSS[2:0]
PGxyPCIH 7:0 SWPCI SWPCIM[1:0] LATMOD TQPS TQSS[2:0]
15:8 BPEN BPSEL[2:0] ACP[2:0]
Reserved
PGxLEBL 7:0 LEB[10:6] [2:0]
15:8 LEB[18:11]
PGxLEBH 7:0 PHR PHF PLR PLF
15:8 PWMPCI[2:0]
PGxPHASE 7:0 PGxPHASE[7:0]
15:8 PGxPHASE[15:8]
Reserved
PGxDC 7:0 PGxDC[7:0]
15:8 PGxDC[15:8]
PGxDCA 7:0 PGxDCA[7:0]
15:8
PGxPER 7:0 PGxPER[7:0]
15:8 PGxPER[15:8]
PGxTRIGA 7:0 PGxTRIGA[7:0]
15:8 PGxTRIGA[15:8]
PGxTRIGB 7:0 PGxTRIGB[7:0]
15:8 PGxTRIGB[15:8]
PGxTRIGC 7:0 PGxTRIGC[7:0]
15:8 PGxTRIGC[15:8]
PGxDTL 7:0 DTL[7:0]
15:8 DTL[13:8]
PGxDTH 7:0 DTH[7:0]
15:8 DTH[13:8]
PGxCAP 7:0 PGxCAP[6:0]
15:8 PGxCAP[14:7]
HRPWM with Fine Edge Placement
Register Maps
© 2017-2020 Microchip Technology Inc. Functional Reference Manuals (FRM) DS70005320D-page 21
Produktspecifikationer
| Varumärke: | Microchip |
| Kategori: | Inte kategoriserad |
| Modell: | dsPIC33CK256MP606 |
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