BorgWarner to Showcase Thermal, Power Electronics, and Battery Solutions at ACT Expo 2026
BorgWarner will demonstrate its commercial vehicle thermal management, power electronics, and battery systems at the Advanced Clean Transportation Expo 2026 in Las Vegas.
May 4-7, 2026
What Happened
BorgWarner will showcase its comprehensive range of commercial vehicle solutions at the Advanced Clean Transportation (ACT) Expo 2026, held at the Las Vegas Convention Center from May 4 to 7. The company's booth #3131 will feature technologies designed to improve fuel efficiency, reduce emissions, and maximize vehicle uptime, including thermal management solutions, power electronics, and battery systems.
“ACT Expo provides an outstanding platform to showcase how BorgWarner partners with commercial vehicle manufacturers on one of their top priorities – maximizing productivity through vehicle uptime. We’re excited to highlight our innovative commercial vehicle solutions that directly support this goal, including advanced inverters and power modules, high-performance battery systems and highly efficie”
- Thermal Management: intercell eCoolers, high voltage heaters, and high voltage eFans to maintain optimal temperatures and improve fuel economy.
- Battery Solutions: safe, modular NMC and LFP battery systems for reliable energy storage.
- Power Electronics: inverters and inverter-motor drive modules, including the iM-575 Integrated Inverter-Motor Drive Module with Viper silicon carbide power module.
Why this matters
The showcase highlights how BorgWarner helps commercial vehicle manufacturers improve efficiency and uptime through electrification components, supporting the industry's shift to cleaner transportation.
Terms in This Story
- NMC
- Lithium nickel manganese cobalt oxide, a type of lithium-ion battery chemistry that offers high energy density.
- LFP
- Lithium iron phosphate, a type of lithium-ion battery chemistry known for safety and long cycle life.
- SiC
- Silicon carbide, a semiconductor material used in power electronics for higher efficiency and thermal performance.
Summarised from the linked release; details can be imperfect — always verify against the original source.