PIC24EP64GP202T-I/SS Microchip Technology, PIC24EP64GP202T-I/SS Datasheet - Page 30
PIC24EP64GP202T-I/SS
Manufacturer Part Number
PIC24EP64GP202T-I/SS
Description
16-bit Microcontrollers - MCU 16B MCU 64KB Fl 8KB R 60MHz
Manufacturer
Microchip Technology
Datasheet
1.PIC24EP64MC202-ISS.pdf
(36 pages)
Specifications of PIC24EP64GP202T-I/SS
Rohs
yes
Core
PIC
Processor Series
PIC24
Data Bus Width
16 bit
Motor Control Tuning Guides
Tuning guides describe the procedure and setup necessary for tuning the Motor control algorithms; they simplify motor control
design and optimize solutions.
Power Conversion and Motor Control Application Software
30
Application
Type
Brushless DC
Motor Control
AC Induction
Motor Control
Permanent
Magnet
Syncronous
Motor Control
Stepper Motor
Control
SMPS/
Digital Power
Class B
Software
Description
Sensorless Dual-Shunt FOC with SMO estimator BLDC/PMSM
Sensorless Dual-Shunt FOC with PLL estimator BLDC/PMSM
Sensorless Single-Shunt FOC with SMO estimator BLDC/PMSM
Sensorless BLDC Control with Back-EMF Filtering Using a Majority Function
Stepper Motor Control
16-bit Embedded Control Solutions
Application Solution
Sensored BLDC Motor Control
Sensorless BLDC Motor Control Using the dsPIC30F
of dsPIC33F
Sensorless BLDC Control with Back-EMF Filtering
Using a Majority Function
Vector Control of an ACIM Using Optical Encoder
Introduction to ACIM Control
Sensorless Field Oriented Control (FOC) of an AC
Induction Motor (ACIM)
Sensorless Field Oriented Control (FOC) of an AC
Induction Motor (ACIM) Using Field Weakening
Sinusoidal PMSM Motor Control
Sensorless Field-Oriented Control for PMSM Motors
with Field Weakening Using Slide Mode Controller
Sensorless Field Oriented Control (FOC) of an AC
Induction Motor (ACIM) Using Field Weakening
Sensorless Field Oriented Control (FOC) for a
Permanent Magnet Synchronous Motor (PMSM)
Using a PLL Estimator and Field Weakening (FW)
Integrated Power Factor Correction (PFC) and
Sensorless Field Oriented Control (FOC) System
Single-Shunt Three-Phase Current Reconstruction
Algorithm for Sensorless FOC of a PMSM
Stepper Motor Control with dsPIC DSCs
Switch Mode Power Supply (SMPS) Topologies
(Part I)
Switch Mode Power Supply (SMPS) Topologies
(Part II)
Offline UPS Reference Design
Digital Power Interleaved PFC Reference Design
Quarter Brick DC-DC Reference Design
DC-DC LLC Resonant Converter Reference Design
Grid Connected Solar Microinverter
Class B Safety Software Library for PIC MCUs and
dsPIC DSCs
Number
AN1160
AN1162
AN1206
AN1017
AN1078
AN1206
AN1292
AN1208
AN1299
AN1307
AN1114
AN1207
AN1279
AN1278
AN1335
AN1336
AN1338
AN1229
AN957
AN901
AN908
AN984
AN
Description
This application note describes a fully-tested 3-phase BLDC motor control algorithm with 3 Hall-effect
sensors.
This application note describes how to provide sensorless BLDC motor control with the dsPIC DSC
device.
This application note describes a sensorless Brushless Direct Current (BLDC) motor control algorithm,
implemented using the dsPIC® Digital Signal Controller (DSC).The algorithm works by the use of a
majority function for digitally filtering the Back-Electromotive Force (BEMF). Each phase of the motor is
filtered to determine when to commutate the motor drive voltages.
This application note describes a fully-tested vector, or field oriented, control algorithm for a 3-phase
ACIM. The motor currents, torque and velocity are regulated in control loops.
This application note describes volts per hertz control of an AC Induction Motor.
This application note presents a solution for sensorless Field Oriented Control (FOC) of induction
motors using a dsPIC® Digital Signal Controller (DSC). The benefits of field oriented control can be
directly realized as lower energy consumption, higher efficiency, lower operating costs and reduced
cost of drive components.
This application note presents one solution for sensorless Field Oriented Control (FOC) with Field
Weakening (FW) of induction motors using a dsPIC Digital Signal Controller (DSC).
This application note provides a fully working and highly flexible solution for using the dsPIC DSC to
control a permanent magnet synchronous motor using three hall sensors with sinusoidal voltages.
This application note describes how to apply a dsPIC DSC to control a permanent magnet synchronous
motor using the field oriented control algorithm. Shunt resistors are used to estimate rotor position.
This application note presents one solution for sensorless Field Oriented Control (FOC) with Field
Weakening (FW) of induction motors using a dsPIC Digital Signal Controller (DSC).
This application note desribes the sensorless FOC algorithm for PMSM motor using a Phase Locked
Loop (PLL) position and speed estimators.
This application note describes the process of integrating two complex applications: PFC and
Sensorless FOC. These applications are implemented on a Permanent Magnet Synchronous Motor
(PMSM). In addition, this application note also describes the integration of the algorithms, lists
the necessary hardware requirements, and provides the guidelines to optimize the development
procedure.
This dsPIC33F application note describes a motor control technique where a single-shunt resistor
circuit is used to measure the motor phase current.
This application note describes how to drive a stepper motor with a dsPIC33F motor control family
DSC.
This application note explains the basics of different types of SMPS topologies and their applications.
The pros and cons of different SMPS topologies are also explained to guide the user to select an
appropriate topology for a given application, while providing useful information regarding selection of
components for a given SMPS design.
This application note is the second of a two-part series on Switch Mode Power Supply (SMPS)
topologies. This series expands on the previous material in Part I, and presents the basic tools
needed to design a power converter.
The application note describes the design of an Offline Uninterruptible Power Supply (UPS) using a
Switch Mode Power Supply (SMPS) dsPIC Digital Signal Controller (DSC).
The application note describes the design of an Digital Power Interleaved PFC (IPFC) using a Switch
Mode Power Supply (SMPS) dsPIC Digital Signal Controller (DSC).
This application note describes the design of Quarter Brick DC-DC Reference Design using Switch
Mode Power Supply (SMPS) dsPIC Digital Signal Controller(DSC)
This application note describes the design of DC-DC LLC Resonant Converter Reference Design using
Switch Mode Power Supply (SMPS) dsPIC Digital Signal Controller(DSC)
This application note describes the design of Grid Connected Solar Microinverter Reference Design
using Switch Mode Power Supply (SMPS) dsPIC Digital Signal Controller(DSC)
This application note describes the Class B Safety Software Library routines that detect the
occurrence of Faults in a single channel CPU. These routines have been developed in accordance with
the IEC 60730 standard to support the Class B certification process.
Tuning Guide
AN1078 Tuning Guide
AN1292 Tuning Guide
AN1299 Tuning Guide
AN1160 Tuning Guide
AN1307 Tuning Guide
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