With the rising demand for e-motors and the increasing requirements for eMobility, the choice of the right insulating material depending on the motor design and the application technique is crucial to assure high performance and cost-efficient motor manufacturing.
In this session you will learn about:
- Pre-selection of insulation material during the design phase
- Product adjustment to customer need
- Optimization of process parameter using dedicated application labs
The permanent magnet motor and induction machine are both used in automotive traction. But what about cost-price, lifetime and how are they controlled? On the long term, the induction machine tends to be more cost-effective. There is not so much difference between the two machines as you would expect in terms of controlling them. We will explore the basics of the embedded digital control methods and indicate the key components and their functions.
In this session we will look at:
- What type of inverter is used and how is the internal current control of the motor?
- Is the permanent magnet motor more efficient than the induction machine and what is the price difference of the efficiency?
- Is there any difference between the control of an induction motor and a permanent magnet motor?
- What type of sensors are required?
In this session, we cover:
- Accelerated efficiency testing
- Torque ripple and NVH measurements
- Controller validation
- Drive cycle testing
In this session, we take a look at:
- Importance of the acoustic behavior in electric vehicles
- Optimization of noise, vibration and harshness
- Improving noise performance
An advanced solution for the measurement, inspection and quality control of permanent magnet rotors is needed to gain more knowledge of the impact of the magnets on the performance of the motor. Being able to visualize the magnetic fields in detail is crucial in gaining critical insights to achieve optimal rotor designs.
This session reveals:
- A stand-alone scanner using 3D Hall sensing technology used for fast and accurate measurements of the magnetic field distribution of permanent magnet rotors
- Integration of a high accuracy laser distance sensor to accurately measure the dimensions and surfaces of PM rotors under test
- A powerful software with numerous features such as cogging torque analysis, Fourier analysis of harmonics, zero crossing detection, automatic pole count and size measurement, below surface crack detection and much more
In electric vehicle propulsion applications, high power density and fault tolerant capability are commonly required for the machine drive. Because five-phase permanent magnet synchronous motor (PMSM) has fault-tolerant capability, it is widely used in the applications with high reliability requirements, such as electric vehicles (EVs) and hybrid vehicles. This session allows you to Hear about the latest developments in 5-phase PM synchronous machines in traction applications
Wilhelm Hackmann, Principal Expert Electrical Machines, BU Electrification Technologies VT ET IN, Vitesco Technologies/Continental
In this session you will learn about:
- Key technical challenges and risks
- E-motor design solutions to address the challenges and risks
- Opportunities for vehicle level range, function and cost improvements