Download Print Chrysler Group LLC Providing Selected Cities With a Test Fleet of PHEV Ram 1500 Pickup Trucks One hundred forty plug-in hybrid electric vehicles (PHEV) will be supplied to selected cities and states as part of a demonstration project Up to 6.5 million miles to be accumulated on demonstration vehicles over the next three years Fleet of vehicles developed in partnership with U.S. Department of Energy Ram 1500 plug-in hybrid test trucks will be used to evaluate thermal management, charging performance, fuel economy and real-world performance May 24, 2011 , Auburn Hills, Mich. - Chrysler Group LLC, working in partnership with the U.S. Department of Energy (DOE), delivered the first of a demonstration fleet of Ram 1500 plug-in hybrid electric (PHEV) pickup trucks to municipal officials in Yuma, Ariz., today. The 10 PHEV Ram 1500 pickups delivered by Abdullah Bazzi, senior manager of the Chrysler Group’s advanced hybrid vehicle project, are part of a national demonstration fleet of 140 vehicles that will be used during the next three years to evaluate customer usage, drive cycles, charging, thermal management, fuel economy, emissions and impact on the region’s electric grid. In addition to Yuma, 11 other partners across the United States will receive vehicles for demonstration and testing purposes. Strictly a demonstration program, there are no plans for a production version of the PHEV Ram 1500 truck at this time. Cities and states were selected to evaluate temperature extremes, urban traffic cycles and diverse climates and geographies from North Dakota, Massachusetts, Hawaii and Arizona. Cities will include San Francisco and Sacramento, Calif.; Austin, Texas and Kansas City, Mo. The Ram 1500 PHEV includes a liquid-cooled 12.9kWhr lithium ion battery pack and a 6.6 kilowatt (kW) on-board charger. Additional features include AC power generation of up to 6.6kW; directional charging; reverse power flow and full regenerative braking used to capture more energy. For fuel economy improvements, the front axle can be disconnected when not needed. The powertrain also includes a 5.7-liter HEMI® V-8 engine and a two-mode hybrid transmission. The 5.7-liter HEMI is equipped with a Multiple Displacement System (MDS) that improves fuel efficiency at highway speeds by shutting down fuel delivery to up to four cylinders. The battery pack is located under the second-row seat of the pickup and is liquid cooled to help maintain a consistent battery temperature. For on-the-job electrical power tools, a 240 volt/30 amp four-prong outlet and 120volt/20amp duplex outlet power strip is located in the rear box. “Cities have been carefully selected to help the Chrysler Group collect a wide range of data,” explained Abdullah Bazzi, senior manager of Chrysler’s advanced hybrid vehicle project. “Temperature extremes found in the cold of North Dakota or the heat of Arizona can have a severe impact on battery life and charging efficiency.” The choice of a Ram 1500 pickup truck was based upon two-speed transmission technology that was readily available from a previous vehicle electrification project from the Chrysler Group. Urban and rural use also will be tracked to measure battery performance and overall hybrid efficiency with the demonstration fleet of pickups. Other uses include military bases where vehicles will be able to provide power back to the electric grid in what is termed “reverse power flow” of up to 6.6kW. Funding for the program in part is provided by the American Recovery and Reinvestment Act of 2009 through the Transportation Electrification Initiative sponsored by the DOE. The grant, totaling $48 million from DOE and $49.4 million from Chrysler Group, was designed to develop vehicles that will be cost efficient for consumers, satisfy safety concerns of daily travel without recharging and help reduce dependence on foreign oil. The Chrysler Group also is developing a similar fleet of 25 Town & Country minivans with plug-in hybrid technology for demonstration and evaluation that will be allocated to select cities later this year.