You do not have permission to edit this page, for the following reason:
The action you have requested is limited to users in one of the groups: Administrators, Bureaucrats.
You can view and copy the source of this page.
Return to E-trailer.
This page provides the steps on how to model e-trailer project from e-Traction. The e-trailer project is a concept project from e-Traction in which e-trailer is a normal trailer that has an electric motor mounted to one of its axle.
The ultimate goal of this project is to increase energy efficiency [kWh/km], which leads to reducing operating cost.
The model is split into four different areas. Those are:
A simple control algorithm has been developed and implemented into the e - trailer model in order to control the energy distribution between the Internal Combustion Engine and the Electric Machine. The control algorithm used the accelerator and brake pedal position to determine the demanded torque by the vehicle so that it can follow the desired driving cycle. The amount of throttle and brake required was calculated by the driver model. The required gear number for a certain moment was calculated by the gear shift logic that located inside the driver model. The electric machine is used together with the I.C.E. to achieve the demanded torque when the ECU determined that the demanded torque is above the maximum capability of what the engine can supply. If the state of charge of the battery is lower than the minimum charge value, the electric machine will be used as a generator to charge the battery during braking motion. The electric machine is also used to brake the vehicle when possible, however, mechanical brakes will be used when the braking torque from the electric machine is not sufficient.
To create the ECU subsystem:
(insert ECU subsystem screenshot)
The plant model for e-trailer project is split up into two group, those are the truck and the trailer.
The components used for the truck group are:
The components used for the truck group are:
To create the Plant_model subsystem:
Notice that there are 2 extra subsystems located at the right-hand side of the e - trailer plant model figure.
The first subsystem (Battery current) is created as follows:
The second subsystem (Combine torque and inertia) is created as follows:
Next, connect the output ports of the created subsystems to the sub_connector, to do this:
The e-trailer project use manual transmission, therefore the driver manual module will be used as the driver model.
To create driver subsystem:
The signal inputs for ECU_module inside the ECU subsystem are:
Input signal | Signal in | Located under | Signal label |
---|---|---|---|
Accelerator pedal position | Driver | vehicle_driver_manual_module → Driver | Drv_AccPedl_Rt |
Brake pedal position | Drv_BrkPedl_Rt | ||
Drive cycle reference speed | Drivecycle_RefSpeed_mps | ||
Clutch pedal position | Drv_CluPedl_Rt | ||
Requested gear number | Drv_nrGearReq | ||
Actual engine speed | Plant_model | ICE_module → ICE_sensor | Eng_nAct_radps |
Crankshaft torque | Eng_tqCrkSftAct_Nm | ||
Indicated torque | Eng_tqindAct_Nm | ||
Engine oil temperature | Eng_tOilAct_K | ||
Battery output current | Battery_module → Battery_sensor | Batt_iAct_A | |
Battery output voltage | Batt_uAct_V | ||
State of charge | Batt_socAct_Rt | ||
Battery temperature | Batt_tAct_K | ||
Clutch disengaged or not | Clutch_module → Clutch_sensor | Clu_flgConnected_B | |
Electric machine output torque | Electric_machine_module → Electric_machine_sensor | ElecMac_tqAct_Nm | |
Electric machine output speed | ElecMac_nAct_radps | ||
Electric machine output current | ElecMac_iAct_A | ||
Electric machine output temperature | ElecMac_tAct_K | ||
Transmission output speed | Transmission_module → Transmission_sensor | Transm_nOutAct_radps | |
Transmission gear number | Transm_nrGearAct | ||
Clutch lock | Transm_flgConnected_B | ||
Transmission input speed | Transm_nInAct_radps | ||
Vehicle velocity | Chassis_module → Chassis_sensor | Chassis_vVehAct_mps | |
Wheel speed | Chassis_nWheelAct_radps | ||
Vehicle mass | Chassis_massVehAct_kg | ||
Road slope | Chassis_slopeRoad_rad | ||
Auxiliary system output current | Electrical_aux_system_module → Electrical_aux_sensor | Aux_iAct_A |
The input signals for each component modules inside Plant_model subsystem are:
ICE module
Input signal | Signal in | Located under | Signal label |
---|---|---|---|
Requested engine speed | ECU | ECU_module → cmd | Eng_nReq_radps |
Switch Speed / torque control | Eng_flgReqSwitch_B | ||
Requested engine torque | Eng_tqReq_Nm | ||
Exhaust brake ON / OFF | Eng_flgExhaustBrake_B | ||
Engine ON / OFF | Eng_flgonoff_B | ||
Starter motor ON / OFF | Eng_flgstrtrReq_B | ||
Fuel cut off | Eng_flgFuelCut_B | ||
Engine rotational speed | Plant_model | Clutch_module → clutch_mechanical_fb_output | phys_speed_radps |
Clutch module
Input signal | Signal in | Located under | Signal label |
---|---|---|---|
Requested clutch pedal position | ECU | ECU_module → cmd | Clu_ratReq_B |
Clutch torque input | plant_model | ICE_module → ICE_mechanical output | phys_torque_Nm |
Clutch inertia input | phys_inertia_kgm2 | ||
Clutch rotational speed input | Mechanical_connection_module → MC_mechanical_fb_output1 | phys_speed_radps |
Mechanical connection module
Input signal | Signal in | Located under | Signal label |
---|---|---|---|
Mechanical connection torque input 1 | plant_model | Clutch_module → clutch_mechanical_output | phys_torque_Nm |
Mechanical connection inertia input 1 | phys_inertia_kgm2 | ||
Mechanical connection torque input 2 | one | - | one |
Mechanical connection inertia input 2 | one | ||
Mechanical connection feedback input | plant_model | Transmission_module → Transmission_mechanical_fb_output | phys_speed_radps |
Transmission module
Input signal | Signal in | Located under | Signal label |
---|---|---|---|
Requested gear number | ECU | ECU_module → cmd | Transm_nrGearReq |
Transmission torque input | plant_model | Mechanical_connection_module → MC_mechanical_output | phys_torque_Nm |
Transmission inertia input | phys_inertia_kgm2 | ||
Transmission rotational speed input | Final_gear_module → Final_gear_mechanical fb output | phys_speed_radps |
Final gear module
Input signal | Signal in | Located under | Signal label |
---|---|---|---|
Final gear torque input | plant_model | Transmission_module → Transmission_mechanical_output | phys_torque_Nm |
Final gear inertia input | phys_inertia_kgm2 | ||
Final gear rotational speed input | Chassis_module → Chassis_mechanical_fb_output | phys_speed_radps |
Chassis module
Input signal | Signal in | Located under | Signal label |
---|---|---|---|
Requested chassis brake torque | ECU | ECU_module → cmd | Chassis_tqBrake_Nm |
Chassis torque input | plant_model | - | Total_vehicle_torque |
Chassis inertia input | Total_vehicle_inertia | ||
Drivecycle slope | Test_scenario | Test_scenario | drivecycle_time_slope |
Battery module
Input signal | Signal in | Located under | Signal label |
---|---|---|---|
Battery current input | plant_model | plant_model | battery_Current_Input |
Battery Actual cooling flow | ECU | ECU_module → cmd | Batt_flowActCooling_kgps |
Electric machine module
Input signal | Signal in | Located under | Signal label |
---|---|---|---|
Requested electric machine speed | ECU | ECU_module → cmd | ElecMac_nReq_radps |
Switch speed / torque control | ElecMac_flgReqSwitch_B | ||
Requested electric machine torque | ElecMac_tqReq_Nm | ||
Electric machine actual cooling flow | ElecMac_flowActCooling_kgps | ||
Electric machine voltage input | plant_model | Battery_module → Battery_electrical output | phys_voltage_V |
Electric machine rotational speed input | Mechanical_connection_module → MC_mechanical_join_output2 | phys_speed_radps |
Electrical aux system module
Input signal | Signal in | Located under | Signal label |
---|---|---|---|
Requested power | ECU | ECU_module → cmd | Aux_pwrElecReq_W |
Voltage input | plant_model | Battery_module → Battery_electrical_output | phys_voltage_V |
The input signals for Vehicle_driver_manual_module inside the Driver subsystem are:
Input signal | Signal in | Located under | Signal label |
---|---|---|---|
Actual vehicle velocity | plant_model | Chassis_module → Chassis_sensor | Chassis_vVehAct_mps |
Transmission input speed | Transmission_module → Transmission_sensor | Transm_nInAct_radps | |
Transmission actual gear number | Transm_nrGearAct | ||
Clutch disengaged or not | Clutch_module → clutch_sensor | Clu_flgConnected_B | |
Accelerator pedal rate | Driver | vehicle_driver_manual_module → Driver | Drv_AccPedl_Rt |
Drive cycle time and speed | Test_scenario | Test_scenario | drivecycle_time_speed |
The simulation settings for e-trailer project:
Settings | Value |
---|---|
Time | 1800 [s] |
Fixed - step size | 0.01 |
Solver type | ode3 (Bogacki - shampine) |
Use this (parameter file) for the e - trailer simulation.
Load the downloaded parameter into the created e - trailer project, this can be done by double-clicking the parameter setting button located on the top level layout of ADVANCE and select the directory of where does the downloaded parameter file is located.
The sequence of running the simulation:
The output from each individual module can be plotted using the Results Plot GUI.
For more information regarding the specification of the battery and electric motor please contact e-Traction
(insert contact person information)