Without an expansive DC fast charging infrastructure to supplement residential and public/workplace access, the projected dramatic rise of EV sales through 2030 may sputter. Numerous factors will influence accelerated development of the global charging network – from public policy to funding initiatives to technology innovation. No matter the charging level device, however, consumers expect reliability and dependability – just like the gas pump. The systems have to work and building them to last will increase trust and encourage more widespread use. Imagine pulling into a charging port to find the connector gun broken or the entire unit out of service; too many experiences like this and the enthusiasm about EV ownership may wane. For our part, Henkel is working to ensure dependability within all types of EV charging devices to shape consumer confidence at the port, just like exists at the pump. Effectively dissipating heat – all the way up to the 400 – 1000 V of fast chargers – is a key piece of the reliability equation, as are protective potting solutions for securing critical wires and coils, and gasketing materials that prevent ingress of environmental contaminants into charging units.
DC fast chargers, which is arguably where expansion is required, system reliability is a must as these units are expected to last as long as 10 years in the field. They are costly to produce and, therefore, performance and durability are critical. Functionality of the device’s workhorse power module – now smaller in size with higher power densities than previous-generation designs - can be optimized by effectively dissipating operational heat; Henkel’s low thermal resistance phase change thermal interface materials are a proven solution and a superior alternative to grease, which can lose effectiveness over time. The importance of sound thermal control cannot be overstated, especially with systems that are managing such high power. Securing the unit’s interior structure to protect its electronics is made possible with UL-certified Sonderhoff Fermapor K31 formed-in-place foam gasketing (FIPFG) system, which allows high automation, fast deposition for complex shapes and changing designs. Units are protected from dust, moisture and other environmental contaminants while delivering fast shape recovery for confident serviceability. And, as drivers will attest, charging connectors take a beating with users plugging and unplugging quickly. High-performance, cost-effective potting materials fully encapsulate the cables and wires within the charging gun connectors to provide rugged durability in changing outdoor environments and manage the stress induced during user plug-ins.