PROTERRA INTRODUCES NEW HIGH POWER INTEROPERABLE EV CHARGING TECHNOLOGYMay 7th, 2018
As 100 percent electric bus fleets become reality across North America, Proterra is making this transition possible with reliable, scalable infrastructure solutions
Tampa, Fla. – May 7, 2018 – Today Proterra, the world’s leading developer of heavy-duty battery electric vehicles and charging systems, introduced new high-power charging options to make a 100 percent electric bus fleet more easily achievable. At the American Public Transportation Association’s (APTA) Bus & Paratransit Conference, Proterra introduced new systems for reliable, smarter charging that are flexible, scalable, and powerful.
Across North America, cities, counties and transit agencies are announcing bold, zero-emission fleet goals. The development of universal technology standards will accelerate this transition, and Proterra is actively working to promote interoperability across technology platforms. Accordingly, all Proterra buses utilize the SAE J1772 CCS (IEC Type 1) standard for plug-in charging, and newer models of Proterra Catalyst® vehicles will now be fully compatible with the emerging SAE J3105 standard for overhead charging.
To supply the best charging options for the industry, Proterra is introducing a new suite of high power DC chargers that comply with these standards. The three new Proterra® Power Control Systems range from 60kW-500kW and are compatible with J1772 CCS plug-in as well as J3105 inverted and roof-mounted overhead charging systems. The chargers will also utilize de facto industry-standard for communication, Open Charge Point Protocol (OCPP 1.6). Proterra’s new charging systems are capable of bi-directional, vehicle-to-grid power flow (V2G), enabling the chargers to be smart-grid ready to maximize the energy management capability of an entire bus fleet. Powering up a Catalyst bus is now as simple as connecting to a Proterra charger or other standards-based charging system.
“With vehicle agnostic charging, we have peace of mind that our electric bus fleet infrastructure investments are future-proof,” said David Carr, Facilities and Fleet Manager at RTC Washoe in Reno. “Scalable, interoperable charging infrastructure supports our long-term mission to sustainably serve Reno and our neighbors, by providing innovative and cost-saving solutions that ensure clean, reliable transit today and for years to come.”
Standardized EV charging will inform future infrastructure decisions and fleet-wide electrification strategies. Proterra’s new charging systems can charge transit fleets today and well into the future, with a range of power levels that can easily scale as infrastructure needs grow, both in-depot and on-route. The Proterra 60kW Power Control System is ideal for fleets with longer available charge times at the depot. Recharge time is approximately six hours for an E2 Catalyst utilizing a J1772-CCS plug-in connection. Fleets with high uptime requirements will benefit most from the Proterra 125kW Power Control System. Operators can simply plug in the charger to achieve a full charge in under three hours at the depot, with a standard E2 battery configuration. The 500kW Power Control System works best for fleets with extended operating hours and high mileage requirements, such as 24-hour circulators. This 500kW system delivers fast overhead charging on-route or at the depot, utilizing the J3105 overhead connection standard, and can recharge up to 38 miles in 10 minutes, depending on battery configuration.
New pantograph-style options will join Proterra’s available charging solutions for overhead charging. Proterra is collaborating with Schunk Carbon Technology, a world-class developer of overhead charging hardware for battery-electric vehicles, to introduce these new systems to its customers.
“We’re thrilled to collaborate with Proterra and bring large-scale fleet charging for electric vehicles to market in North America. We’ve had strong traction in Europe to date equipping the largest electric bus fleet with our roof charging pantograph technology,” said Robert Averkamp President Schunk Carbon Technology US.
Proterra and Schunk Carbon Technology will work together to further develop standards-based, lightweight, state-of-the-art, scalable fleet charging infrastructure for on-route or in-depot charging, that can flexibly support dozens to hundreds to thousands of heavy-duty electric vehicles, utilizing standard overhead pantograph systems offered by Schunk Carbon Technology.
“As more fleets embark on 100 percent electrification, we’re committed to providing a seamless transition that leverages open and universal standards and empowers our customers to effectively scale with confidence,” said Ryan Popple, Proterra CEO. “By leveraging common charging standards for electric buses, the transit industry will avoid vendor lock-in and de-risk infrastructure investments, ultimately accelerating mass adoption of EVs.”
Proterra is a leader in the design and manufacture of zero-emission heavy-duty vehicles, enabling bus fleet operators to significantly reduce operating costs while delivering clean, quiet transportation to local communities across North America. With more than 546 vehicles sold to 67 different municipal, university, airport, federal and commercial transit agencies in 30 states, Proterra is committed to providing state of the art, high performance vehicles to meet today’s growing market demand. The company’s configurable Catalyst platform is capable of serving the full daily mileage needs of nearly every transit route on a single charge. With unmatched durability and energy efficiency based on rigorous U.S. certification testing, Proterra products are proudly designed, engineered and manufactured in America, with offices in Silicon Valley, South Carolina, and Los Angeles. For more information, visit: http://www.proterra.com and follow us on Twitter @Proterra_Inc.
About Schunk Carbon Technology:
As the largest division of the internationally active Schunk Group, Schunk Carbon Technology is a global leader in the development and manufacture of materials and components in the fields Mechanical Carbon, Electrical Carbon, Thermal Carbon and Technical Ceramics. With its highly-specialized product portfolio and core expertise with materials and their customized design, molding and surface treatment, the division is a pioneering development partner across a wide industrial spectrum ranging from the automotive industry, rail technology and aviation via the process industry, system and mechanical engineering and energy management to the ceramics industry, heat treatment and the semiconductor industry.