EV-EMCU Electric Vehicle - Economy Mode Control Unit Shauntice Diaz Chris Chadman Vanessa Baltacioglu Group 4
Goals & Objectives Extend range by implementing economy-mode Minimize power usage by attenuating acceleration to an optimum value Use several microcontrollers to allow data recording, vehicle safety, and to calculate optimum power usage Take in user’s inputs such as current, State of charge, RPMs, MPH, temperature, and acceleration USB storage or SD card Intelligent driving system DOT Approved
Specifications & Requirements To increase range by 5-10% 12V auxiliary power supply 144V vehicle power supply 7 electrical sensors 5v power supply for microcontrollers Data recording for 90 minutes C language
Overall Block Diagram
Physics Relate Electric Power to Mechanical Power Find Minimum Acceleration for Economy Mode Minimize Electric Power Loss through Heat by Limiting Current / Acceleration Find Power Needed for Acceleration P in = VI in = v v 3 + vma + vmg*SIN(θ) P r P a Current as a Function of Acceleration and Velocity I = [220.46v v ,789v*sinθ va] / V Max Current ~ 350 A; Attenuate Potentiometer as % of I Test Values
Physics
Peukert’s Law : t = Time of Discharge H = Rated discharge Time (hrs) C = Rated Discharge Time t I = Discharge Current K = Peukert’s Constant
Physics Internal Battery Resistance ▫ EV12A- AGM; R i = 3.2mΩ ▫ Full Power VI = 144V*350A = 50.4 kW ▫ Power 350A = 4.7 kW; 9.5% ▫ Temperature Effects
Sensors Speed ▫ 0 to 70 miles per hour ▫ Pulse Width Modulation RPM ▫ 0 to 5000 Revolutions Per Minute ▫ Pulse Width Modulation Current ▫ -500 to 500 Amps ▫ Analog State Of Charge ▫ 10.5volts – Volts ( 0 to 100%) ▫ Analog Battery Temperature ▫ -40 ̊ C to 60 ̊ C ▫ Analog Potentiometer ▫ 0-12Volts ▫ Analog Accelerometer ▫ ± 2g’s (horizontal) ▫ Analog
Speed Sensor ’94 Transmission, ’04 Vehicle Electrical Sensor added PWM Measured from Transmission or Rear Diff (ABS)
RPM sensor Measured from motor using Hall Effect Recommend by NetGain Operates under 12V(DC) power supply 2.2K integrated resistor Pulse width modulated output 5.5 mA
Current sensor Hall Effect current sensor From EV source recommended by NetGain Series connection to 144V system Measures the range of ±500 Amps Output signal of 1.5 to 4.5 Volts Linearly related
State of Charge PakTrakr 600EV Measures current, SOC, and battery Temp RS-232 output Expensive
Accelerometer Dimensions Engineering Had specs that met the requirements Simple design ±2g to the velocity plane of the vehicle Internal 3.3v voltage regulator Output in volts [ X OUT – (V CC / 2)] / sensitivity = acceleration in the x direction
Potentiometer 0-12v controlled by user Step down to 0-5v Previously installed Controls the motor controller Will adjust output of potbox according to power microcontroller
Microcontroller PIC16F886 Microchip Technologies 28 Pin DIP bit A/D Converters 2 8 bit Timers 2 Analog Comparators 2 Output 10bit PWM Designed for Intelligent Driving System
Development Board 28 Pin LIN Demo Board, Microchip Technologies For Use with Most 28 Pin DIP PIC MCU ’ s Programmed with PICkit 2 Micorcontroller Programmer
Sensor Microcontroller 5 analog inputs (current, accelerometer, potentiometer, Temperature, and state of Charge ) Two PWM (speed, rpm) Reset Heartbeat 7 outputs to power and data microcontrollers
Power Controller 7 inputs from sensor microcontroller Heartbeat Computes optimum acceleration ▫ Test Data ▫ Peukert’s Law ▫ Battery Resistance Outputs to safety microcontroller
Safety Microcontroller 3 Inputs: Potentiometer, Power MCU, and Reset 3 Outputs: Motor controller, WDT, and Data Acts like typical a comparator Prevents runaway acceleration
Data Microcontroller 7 inputs from sensor controller 1 from Power, 1 from safety 1 Reset,1 heartbeat 1 Output from USBwiz to microcontroller ▫ 3 ways UART I2C SPI
Data Microcontroller: USBWiz Fully assembled and tested 2 USB and SD connectors Single 3.3 V regulator Ready for 32 Khz crystal Complete ‘C’ source code library Support fat file system Easy connection with PIC and AVR 40 to 50 mA, power consumption 5v tolerant I/O pins -40 °C to + 85°C temperature operation range Lead free.
WatchDog Timer Used to monitor and minimize errors Timeout period and reset period Two types ▫ Hardware (external) ▫ Software (internal)
Internal Watchdog Timer Positives ▫ Cost is essentially zero ▫ Can save debugging information ▫ Convenient ▫ Can modify timeout ▫ Can vary less with temperature Negatives ▫ Almost all can be disabled by software
External Watchdog Timer Positives ▫ Cant be disable accidentally ▫ Separate clock source ▫ Min/Max timeout period ▫ Reset can connect to other system ▫Timeout period is adjustable Negatives ▫ Cost ▫ Timeout period varies ▫ One I/O line ▫ Timeout must be calculated (both high and low speed)
Our decision External Capacitor adjustable ▫ Voltage monitoring ▫ 1.565v to 5v ▫ Watchdog timeout ▫ 700ms to 70s (100pF to 100nF capacitor) ▫ Reset timeout ▫ Preset, or 0.5 ms to 5s by capacitor
Original Goals & Specifications Solar assisted EV conversion Range of 60+ miles User friendly display (touch screen) DOT approved Wireless applications Regenerative braking Power steering
Changes From Original Design Batteries ▫ 12 12v swap for 24 6v (cost $2400) ▫ Battery weight from 1074 to 1488 pounds (38.5% increase) ▫ Not much engineering design required ▫ Main benefit would be longer battery life Touch Screen Display ▫ Lost computer engineering student in our group who was working on this part Solar Panels ▫ Tecta America (who installs solar roof panels) advised us against using solar panels ▫ Not enough surface area to produce enough energy to be worthwhile
Budget Electric truck from Tecta America - FREE Eagle PCB - $50 Microcontrollers – QTY $2 each = $20 Development board – $40 Op-amps – QTY $0.38 = $8.00 USBWIZ - $50 Speed Sensor – $49 RPM sensor – $99 Hall Effect current sensor – $49 PakTrakr 600 EV sensor (Battery Temp and S.O.C.) – $150 Extra PakTrakr remote - $70 Accelerometer – $23 WatchDog Timer – QTY $1.56 = $24 Soldering Iron with station (Amazon) – $50 Breadboard Kit (Amazon) – $25 Waterproof box – TBA (with final dimensions) Miscellaneous (wiring, bolts, tax, shipping, etc) - $100 Total Estimate: $807 Old total : $3500 (with batteries and touch screen display)
Progress