18073042. ELECTRIC MOTOR TORQUE CONTROL FOR ELECTRIC VEHICLES simplified abstract (GM Global Technology Operations LLC)
Contents
ELECTRIC MOTOR TORQUE CONTROL FOR ELECTRIC VEHICLES
Organization Name
GM Global Technology Operations LLC
Inventor(s)
Matthew Stephen Zebiak of Ann Arbor MI (US)
James M. Gessner of Hartland MI (US)
ELECTRIC MOTOR TORQUE CONTROL FOR ELECTRIC VEHICLES - A simplified explanation of the abstract
This abstract first appeared for US patent application 18073042 titled 'ELECTRIC MOTOR TORQUE CONTROL FOR ELECTRIC VEHICLES
The patent application describes an electric vehicle acceleration control system that utilizes an electric motor to drive the wheels of the vehicle, a steering wheel for steering, an acceleration paddle for speed control, and a vehicle control module to manage acceleration.
- Electric motor drives wheels of electric vehicle
- Steering wheel for steering control
- Acceleration paddle for speed adjustment
- Vehicle control module sets target speed and manages acceleration
- Obtains stored torque profile based on target speed and average acceleration
- Controls electric motor by commanding specified torque values at different speed breakpoints
Potential Applications: - Electric vehicle industry - Automotive technology - Sustainable transportation
Problems Solved: - Efficient acceleration control in electric vehicles - Enhanced driving experience - Optimal energy usage
Benefits: - Improved performance - Energy efficiency - Smooth acceleration
Commercial Applications: Title: "Electric Vehicle Acceleration Control System for Enhanced Performance" This technology can be used in electric cars, buses, and other electric vehicles to optimize acceleration control, improve efficiency, and enhance overall driving experience.
Prior Art: There may be existing patents related to electric vehicle acceleration control systems, but further research is needed to determine specific prior art in this field.
Frequently Updated Research: Stay updated on the latest advancements in electric vehicle acceleration control systems to ensure optimal performance and efficiency.
Questions about Electric Vehicle Acceleration Control Systems:
Question 1: How does this technology compare to traditional gas-powered vehicle acceleration systems? Answer: This technology offers more precise control over acceleration and energy usage compared to traditional gas-powered systems.
Question 2: What are the potential safety implications of using an electric vehicle acceleration control system? Answer: Safety features and protocols are implemented to ensure safe operation and driving experience with this technology.
Original Abstract Submitted
An electric vehicle acceleration control system includes an electric motor configured to drive wheels of an electric vehicle, a steering wheel configured to steer the wheels of the electric vehicle, an acceleration paddle adjacent the steering wheel, and a vehicle control module configured to, in response to detecting activation of the acceleration paddle, set a target speed value, determine an average acceleration value to reach the target speed value, obtain a stored torque profile according to the target speed value and the average acceleration value, the stored torque profile including a specified torque value for each of multiple speed breakpoints, and control the electric motor by commanding the specified torque value at each of the multiple speed breakpoints.