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Created by:Kiumars Jalali

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Created by:Kiumars Jalali – PowerPoint PPT presentation

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Title: Created by:Kiumars Jalali


1
Preliminary Suspension Design and Stability
Control Strategies for an Electric Vehicle with
Four In-Wheel Motors
  • Created by Kiumars Jalali

2
Vehicle Specifications
3
Vehicle Dynamics
4
Tractive Effort Characteristics
5
Power Characteristics
6
In-Wheel Motor Characteristics
7
Vehicle Acceleration Performance
Driving on a dry road m 0.9
Driving on a wet road m 0.3
Driving on an icy road m 0.05
8
Braking Performance
Ideal Braking Force Distribution vs. Fixed
Distribution
9
Braking Performance
Importance of the Braking Ratio
CG height 0.4 m
CG height 0.4 m
CG height 0.4 m
65 Front 35 Rear
75 Front 25 Rear
80 Front 20 Rear
10
Lateral Dynamics
Steady-State Skidpad Cornering
Bicycle Model
Front rear tire lateral Stiffness Ca
45210 N/rad
CG position a 0.82
m, b 0.98 m
Vehicle moment of inertia
Iz 950 kg.m2
Vehicle curb mass driver MT
100075 kg
Understeer behavior vchar
105 km/h
11
Lateral Dynamics
Transient Skidpad Cornering
Vehicle Characteristics Subjected to Yaw natural
Frequency and Damping Rate
12
Vertical Dynamics
Comfortable Ride
Safety Vehicle Handling
13
Optimization Results
14
Suspension Design
Front Double Wishbone Suspension
Rear Multi-Link Suspension
15
Suspension Characteristics
Caster angle Caster trail
Kingpin inclination Kingpin offset
Design Data Front
Camber angle -0.5 deg Toe angle 0.1 deg Caster
angle 7.5 deg Caster trail 18.4 mm Kingpin
inclination 15.5 deg Kingpin offset -21.7 mm
Design Data Rear
Camber angle -0.5 deg Toe angle 0.1 deg Caster
angle 0 deg Caster trail 0 mm Kingpin
inclination 15.5 deg Kingpin offset -21.7 mm
Front Roll Axis hR,f 89.4 mm
Rear Roll Axis hR,f 94.7 mm
16
Suspension Characteristics
17
Steering Characteristics
55 Ackerman Behaviour
Roll Understeer Behaviour
18
Driving Dynamics Behaviour
ISO Double Lane Change (ISO 3888)
Vehicle position Without Yaw Controller
19
Yaw Rate Controller
Yaw Rate Controller Block Diagram
Bode Diagram of the Closed Loop Yaw Rate Control
System
Vehicle Position without Yaw Controller
20
Traction Controller
Direct Drive PM DC In-Wheel Motor Model
Adhesion Coefficient vs. Longitudinal Slip
21
Traction Controller
Decision Making Algorithm of the Traction
Controller
Traction control loop for a single wheel
22
Traction Controller
Actual Slip During a Slip Controlled Acceleration
on a µ-split Road
Icy road
Dry road
Icy road
Dry road
23
Traction Controller
Target Slip Decision During a Slip Controlled
Acceleration on a µ-split Road
Icy road
Dry road
Icy road
Dry road
24
Traction Controller
Direct Drive PM DC In-Wheel Motor Torque
Icy road
Dry road
Icy road
Dry road
25
Traction Controller
PM DC In-Wheel Motor Voltage
Icy road
Dry road
Icy road
Dry road
26
Traction Controller
Vehicle Position when driving on a m-split road
Without Controller
With Controller
Icy road
Dry road
27
Traction Controller
Vehicle Speed when driving on a m-split road
With Controller
Without Controller
28
Traction Controller
Question?
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