lab 06: aev system analysis 2 (performance analysis) advanced energy vehicle (aev)
TRANSCRIPT
Lab 06: AEV System Analysis 2 (Performance Analysis)
Advanced Energy Vehicle (AEV)
AEV Project Objective(Problem Definition)
INITIAL CONCEPTS(Brainstorming)
EXPERIMENTAL RESEARCH
ANALYZE
DESIGN DECISION
RESEARCH
COMPARE
FINAL DESIGN
Present AEV Design
PT 1PT 2PT 3PT 4
(System Analysis)(Programming)
AEV Data Conversion Convert the EEProm into physical parameters
of:• Time (seconds)• Current (amps)• Voltage (volts)
Analyze the data by calculating:• Power (watts)• Incremental Energy (joules)• Total Energy (joules)
Time, Current, Voltage, & Power Time:
Current:
Voltage:
Power:
Distance
Ett
Volts 185.0
Amp 1**
1024 RE VI
I
1024
*15 EVV
t = time (seconds)tE = EEProm time (milliseconds)
I = current (amps)IE = EEProm equivalent currentVR = Arduino reference voltageV = Voltage (volts)VE = EEProm equivalent voltageIVPin
Pin = Power in (watts)V = Voltage (volts)I = Current (amps)Markss *0124.0
Energy Remember that Energy is the area under the power
versus time curve.
A rectangle approximation of the power and time will be used to calculate the incremental and total energy. There are 3 approximation methods:
Energy The midpoint method will be used to calculate the
energy.
The midpoint method uses the averaged power of 2 neighboring points and multiplied by the time increment:
Sum up the incremental energy for the total value used throughout the operation
1221
1 2tt
PPE inin
Things to Remember Executive Summary for Lab 06
Update Project Portfolio
Study for Lab Proficiency Quiz (LPQ)
Extra Credit Video (Due: Lab 07 (Part 1))
Continue to work on PDR (Due: Lab 09B)