TI at PCIM Europe 2024
11-13 June | Nuremberg, Germany
Hall 7, Booth 652
TI at PCIM Europe 2024
Transition to a more sustainable future with reliable high-voltage technology
To deliver the full benefits of greater efficiency, power density and more responsible resource usage, high-voltage devices must be reliable, safe and operate at peak efficiency while generating, converting, delivering and storing energy. Resolving design compromises are just some of the ways our high-voltage technology is helping designers better meet consumer needs in HEV/EV, EV charging, energy storage systems and motor drive applications. See how we’re unlocking the power of high-voltage technology to transition to a more sustainable future at PCIM.
| Day and time (Central European Time) | Session title | Presenter | Session type |
|---|---|---|---|
| 11 June from 13:00-14:30 | Analytical Modeling and Stability Characterization of a Damped VSCC CM Active EMI Filter for Single- and Three-Phase AC-DC Applications | Timothy Hegarty; Co-Author: Ben Chan, Robert Blattner, Texas Instruments, US; Ashish Kumar, Our Next Energy, US | Poster session |
| 11 June from 13:00-14:30 | A Peak Current Mode Control Method for PFC | Sean Yu | Poster session |
| 11 June from 13:00-14:30 | Average Current Mode Control and Its Loop Design | Niklas Schwarz | Poster session |
| 12 June | GaN Wide Bandgap Design, the Future of Power | Harald Parzhuber | Panel discussion |
| 12 June from 13:00-14:30 | Design Consideration of Bi-directional CLLLC Resonant Converter in Energy Storage Systems | Sean Yu; Co-Author: Guangzhi Cui, Texas Instruments, CN | Poster session |
| 12 June from 13:00-14:30 | Comparative Evaluation of the Center Tapped Boost Converter Topology | Bryan Radix; Co-Authors: Moheddin Shaik, Texas Instruments, DE | Poster session |
| 12 June from 13:00-14:30 | Gain Optimization Control Method for CLLLC Resonant Converters under Phase Shift Mode | Sean Yu; Co-Authors: Guangzhi Cui, Texas Instruments, CN; Sheng-Yang Yu, Texas Instruments, US | Poster session |
Read the latest content on high-voltage technology
Technology that captures, converts and distributes energy effectively and efficiently will enable the shift from fossil fuels to renewable energy sources and help create a sustainable future.
There are a lot of challenges to delivering efficient power conversion in high-voltage applications. However, component, topology and system-level innovations can significantly increase the high-voltage power-conversion system’s efficiency and density, while simplifying designs.
Demo videos
Watch videos for the demos we are featuring at PCIM.
Highly efficient 10kW bi-directional DC/DC power converter for EV charging
Watch this video to learn more about this 10kW bi-directional, dual active bridge reference design for Level 3 electric vehicle charging stations.
1.6kW GaN based single phase micro inverter
Watch this video to learn more about this 1.6kW GaN based single phase micro inverter.
EMPEL Systems 800V SiC scalable, high-efficiency traction inverter for 6-phase motors
Watch this demo to learn about this 800V, 6-phase, SiC-based traction inverter system scalable up to 750kW, maximizing efficiency and power density.
Arc fault detection with Edge AI C2000 MCUs
Use Edge AI to detect arc faults in your solar application with C2000 MCUs
Motor fault detection with Edge AI C2000 MCUs
Use Edge AI to detect motor bearing faults in your motor drive application with C2000 MCUs