The benefits of advanced methodologies in battery electric vehicle development and validation
AVL’s Marijn Hollander and Morgan LeCossec explain the benefits of advanced methodologies for E-Drive powertrain development using AVL CAMEO.
Drivetrain
Carbon-free hydrogen powertrains for passenger car and commercial vehicle ICEs
Experts from AVL discuss the layout of hydrogen engines in passenger car and commercial applications, focusing on hybrid solutions for high-efficiency passenger car powertrains.
Achieving first time right in electric powertrain systems using model-based system engineering
KPIT’s Tanmay Agrawal explains how to address electric vehicle engineering challenges by adopting an integrated model-based systems approach.
Long life at maximum efficiency with optimized thermal management
Dr. Alexander Fandakov discusses IAV’s model-based development methodology and how it can be employed for thermal management optimizations benefiting from new technologies.
How to balance electric vehicle attributes without a physical prototype
AVL experts explain how to use vSUITE™ to optimize the energy management of a battery electric SUV and achieve the ideal balance between range and performance in a virtual environment.
Benchmarking the highly-efficient Toyota Yaris hybrid
AVL’s Manfred Kogler and Lukas Leonhartsberger present the results of a comprehensive Toyota Yaris benchmark study, which covered the ICE, component design, vehicle characteristics and performance.
Explore the new path of holistic vehicle development based on simulation
Meet AVL’s experts in this extraordinary virtual launch event and follow the discussion about the use of the vSUITE in complete vehicle development.
Innovative coolant solutions for future electric vehicle applications
Dr Itamar Malkowsky of BASF presents a new coolant product family for electric vehicle applications designed to meet and exceed all essential requirements in safety, performance, and lifetime of the respective powertrain technologies.
Using CAN bus integration to accelerate electric motor testing
Andreas Abel explains how HBK Power analyzers utilize CAN to accelerate testing processes with a high update rate on feedback, data recording, and test control.
The pathways to sustainable electric motor design – part one
Lee Rogers and Ahmed Elmekkawi explain DSD’s approach to engineering sustainable eMachines.
Overcoming challenges in electric vehicle propulsion development
BASF’s Ivy Fang and SweeJin Saw examine the importance of compact and durable design when overcoming challenges in modern electric vehicle propulsion development.
Reducing BEV and xHEV development times with highly efficient system testing
Experts from AVL explain how to overcome the most significant e-Axle, powertrain, and vehicle testing challenges and shorten development time.
The hidden world of the composite chassis
BASF’s Chris Korson explains the benefits of using composite chassis solutions in modern vehicles, especially when developing electric vehicle architectures.
Electric propulsion lubrication system development – spanning the ‘System V’
DSD’s Rob Hoffman and Jared McDowell explain how to couple a design and simulation process with development testing tools and equipment to create a faster pathway to successful electric propulsion system lubrication.
Hardware-in-the-Loop testing for cost-efficient ECU validation
VI-grade’s Christoph Ortmann explains how to enhance the system engineering process for vehicle development using an HiL solution for automotive applications.
Dynamic power measurement and accelerated efficiency mapping for electric drives
Alexander Stock of HBK – Hottinger Brüel & Kjær presents a power analyzer for electric drives calculating power, RMS, cosϕ, and efficiency during steady-state and transient operation.
Not just AC/DC – inverter testing for efficient electric vehicle development
AVL experts present a game-changing test environment where the battery and e-motor are replaced with emulators, which are controlled from a powerful automation system.
Silencing the future: DSD’s approach to electrified powertrain NVH
DSD’s Jordan Craven and Michael Furness discuss how the influence of the E-machine, inverter, and gearbox, and the interactions between them, can impact NVH performance.
Electrifying profits: how Turntide accelerates your electrification journey
Madhu K. Jayaprakash, Stephen Chilton, and Dean Jennings explain how Turntide can ease the journey to an electrified portfolio by partnering with your engineers every step of the way.
Simulation tools for faster electric vehicle development
VI-grade’s Francesco Ambrogi explains how innovative simulation tools can expedite electric vehicle design and development.