design, analysis and control of sr hub motor
TRANSCRIPT
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DESIGN AND CONTROL OF
SR-HUB MOTOR
By,
Hemang Joshi
Neel Patel
Jaydeep Thoriya
(110110109030)
(110110109029)
(110110109024)
Guided By,
Prof. Ishaq A. Sheikh
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PHASED PROCESS DIAGRAM
Step 2 Step 3
Simulation Production
Mathematical Design
procedure
PIC
Maxwell
Frequency controlled SR motor
Step 1
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INTRODUCTION
Advantages over other motor
Introduction to SR-Hub motor
PWM controlled inverter
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ADVANTAGES OVER OTHER MOTORS
Not dependent on the direction of flow of current
Easy cooling system
Torque-Speed characteristic can be modified easily
Higher starting torque without heavy in-rush current
SC current is very small
Max temperature limit of rotor is higher as no permanent magnet
are used.
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INTRODUCTION TO SR-HUB MOTOR
The stator is made up of the
field windings.
Rotor is made of iron poles.
One type of stepper motor
enclosure
Rotor pole tips Stator
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WORKING OF SR MOTOR
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SR-HUB MOTOR Difference between SR motor
and SR-Hub motor
SR motor
Rotor is inside
Used for
positioning
SR-hub motor
Rotor is outside
Used for EV
Application
Wheel
Iron and poles
Stator
Shaft
Enclosure
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PHASE VOLTAGE SUPPLY SEQUENCE
We are having 30𝑜
phase delay
We are having 15𝑜
Stroke angle
delay
Stroke
Phase A
Phase B
Phase C
Phase D
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PWM AC POWER SUPPLYChopping of voltage
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MOC7811 FOR POSITION SENSING
Opto coupler
IR Led and photo detector
𝑡𝑜𝑛 = 12-60 𝜇𝑠
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INTRODUCTION PIC MICROCONTROLLER Analogue to Digital converter
Analogue and Digital Comparator
Interrupts
In circuit programming
Low operating current (6μA)
Wide operating voltage range (2.0V to 5.5V)
Commercial and Industrial temperature ranges
Selectable oscillator options
Programmable code protection
Watchdog Timer (WDT)
In-Circuit Debug (ICD) via two pins
In-Circuit Serial Programming™ (ICSP™) via two pins
Operating speed: 20 MHz clock input and 200 ns instruction cycle
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COMPARISON OF PIC MICROCONTROLLERS
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IC 4066 AS GATE COUPLER
Range 3V to 15V
High on state resistance 80Ω at 15V
operation
0.1% distortion highly linear
Extremely low “OFF” time current 0.1 nA
Extremely high control input
impedance 1012Ω
Frequency response, switch “ON” 40
MHz
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INTRODUCTION TO PROTON BASIC COMPILER
Very popular
Quick compilation, integrated programmer and
boot loader
For both PC as well as PIC
Commands and syntax fairly simple and English like
Free to use for 16F877 up to 50 lines
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INTRODUCTION TO PROTON BASIC COMPILER
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POWER CIRCUIT BLOCK DIAGRAM
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POWER CIRCUIT
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CHOOSING POLE RATIO
Parameters 8/10 8/6
Stroke angle 9 degree 15 degree
Absolute torque zone 18 degree 30 degree
Time for one working
stroke
15ms 25ms
Frequency of excitation
of one phase
33.33Hz 20Hz
Profile of torque Not flat top Flat top
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MAIN DESIGN PARAMETERS
Stator pole angle (βs)
Rotor pole angle (βr)
Stator pole area (As)
Rotor pole area (Ar)
Stator pole height (hs)
Air gap length (g)
No of turn per phase (Ntps)
Stator pole pitch (𝜆𝑠)
Stator pole arc length (ts)
Aligned instance (La)
Standard size conductor is SWG20
Stator
Rotor
Stator
Winding
Shaft
Outer
Diameter(Do)
Rotor
Pole Arc
(Br)
Rotor
Bore
Diameter
(D)
Stator
Pole Arc
(Bs)
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Stator
Rotor
Stator
Winding
Shaft
Outer
Diameter(Do)
Rotor
Pole Arc
(Br)
Rotor
Bore
Diameter
(D)
Stator
Pole Arc
(Bs)
MAIN MOTOR PARAMETERS
Motor Specification
• Output power = 250W
• Rated Speed = 200 RPM
• Peak value of Current = 7.5A
• Supply Voltage = 48 V
• Stroke angle = 15 degree
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INTRODUCTION TO ANSYS MAXWELL
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TOTAL 6 TYPE OF PROBLEMS THAT CAN BE SOLVED
Magneto Statics
Electrostatic
Transient
Eddy current
AC Conduction
DC Conduction
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HOW MAXWELL SOLVES THE PROBLEM
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TRANSIENT PROBLEM SOLUTION IN MAXWELL 2D
In our simulation
• Speed : 0.5 rpm
• Excitation current : 7.5 A
• Result : Torque → Rotor position plot
• Field Overlays : Flux lines and Flux vector
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OUTPUT CHARACTERISTIC 𝑇𝑜𝑟𝑞𝑢𝑒 → 𝑅𝑜𝑡𝑜𝑟 𝑝𝑜𝑠𝑖𝑡𝑖𝑜𝑛
Max output torque : 16.5 N.m
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RESULTS IN ANSYS MAXWELL 16
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