Project-1: Modelling an electric Car with Li-ion battery
Create a MATLAB model of an electric car which uses a lithium-ion battery and a suitable motor. Choose suitable blocks from Simscape or Powertrain block set. Implement the vehicle speed control usinthe g PI controller and generate brake and accelerator commands. Avoid using readymade driver block for speed control. Prepare…
Mughilan kg
updated on 12 Feb 2023
Create a MATLAB model of an electric car which uses a lithium-ion battery and a suitable motor. Choose suitable blocks from Simscape or Powertrain block set. Implement the vehicle speed control usinthe g PI controller and generate brake and accelerator commands. Avoid using readymade driver block for speed control.
Prepare a report about your model including the following:
Objectives, System level configurations, Model parameters, Results, and Conclusion.
Objectives: Create a MATLAB model of an electric car that uses a lithium-ion battery and a suitable motor. Choose suitable blocks from Simscape or Powertrain block set. Implement the vehicle speed control using the PI controller and generate brake and accelerator commands. Avoid using readymade driblockslock for speed control.
SYSTEM LEVEL CONFIGURATION:
PID CONTROLLER:
Reference velocity is connected to the product in (+,-) and is connected to the PID controller connected to the one upon acceleration and the other oneaccelerationtion and both are connected to the transfer function abs, and the output is accelerration cmd and deacceleration cmd
SUM:
sum is connected to the input and output
BLOCK PARAMETERS:
PID CONTROLLERS:
Pid controller is controlled by the lines starting with the input and end ending output
BLOCK PARAMETERS:
ACCELERATION:
DEACCELERATION:
BLOCK PARAMETERS:
BLOCK PARAMETERS:
DEACCELERATION CMD:
BLOCK PARAMETERS:
The output is deacceleration is 2
MOTOR CONTROLLER1:
H-BRIDGE:
CONTROLLED VOLTAGE SOURCE:
CURRENT SENSOR:
CONFIGURATION:
ELECTRICAL RESISTANCE:
BATTERY:
CONTROLLED CURRENT SOURCE:
SOC:
CLOCK:
CONSTANT:
AVERAGE ENERGY CONSUMED:
MOTOR:
VOLTAGE SENSOR:
DC MOTOR:
MECHANICAL ROTATIONAL REFERENCE:
VEHICLE BODY:
TIRE:
PS TERMINATOR:
INERTIA:
SIMPLE GEAR:
ROTATIONAL FREE END:
VEHICLE BODY:
INPUT:
IDEAL RROTATIONALMOTION SENSOR:
OUTPUT:
MECHANICAL REFFERENCE:
RESULTS PLOT:
RESULT PLOT:
Reference_velocity and vehicle_velocity
Reference_velocity and vehicle_velocity(0-400)(400-1874)
SOC:
soc 100-99.87
CURRENT:
0-0.25-1874
VOLTAGE:
0-56.01
CURRENT:
0-4.5
VOLTAGE:
0-0.25
MOTOR:
MOTOR (0-1874)
VEHICLE_BODY:
VEHICLE_BODY(0-430)in time for 1874.00
CONCLUSION:
create a model forana an eleectrwithith r llithium-ionbattery and motor.
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Read more Projects by Mughilan kg (10)
Project-1: Modelling an electric Car with Li-ion battery
Create a MATLAB model of an electric car which uses a lithium-ion battery and a suitable motor. Choose suitable blocks from Simscape or Powertrain block set. Implement the vehicle speed control usinthe g PI controller and generate brake and accelerator commands. Avoid using readymade driver block for speed control. Prepare…
12 Feb 2023 04:46 AM IST
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1.) The braking energy formula is as follows : Benergy=12⋅m⋅(vi2-vf2)">benery=1/2⋅m⋅(v2i−v2f) Where is the braking energy is Joules (J), m">m is the mass in kg , vi">viis the initial velocity of the vehicle in m/s and vf">vf is the final velocity of the vehicle in m/s. The UDDS cycle is used for this particular calculation.…
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