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Gamma Technologies Achieves Comprehensive Hybrid Elecric Vehicle Simulation with Integrated Compact Physical Battery Model from Sendyne
Accurately Predicts Power and Thermal Interactions Between Various Subsystems and Numerous Energy Paths

New York, New York, May 14, 2014 –

Gamma Technologies, in cooperation with Sendyne Corp., is introducing a breakthrough technology platform for comprehensive electric and hybrid vehicle simulation. This new platform provides total Electric and Hybrid Vehicle multi-physics simulation including engine, vehicle, electric machines, cooling, and aftertreatment systems, along with a Compact Physical Model (CPM) based virtual battery pack. Gamma Technologies GT-SUITE is a leading tool for total vehicle simulation, selected recently by Robert Bosch GmbH as its preferred tool. Sendyne’s CellMod™ CPM and RTSim™ real time solver provide interactive and detailed simulation of the battery pack to the rest of the vehicle systems.

Total vehicle simulation can reduce time to market, improve performance and cut costs by aiding in the optimization of the power delivery system. In order to ensure high accuracy of complete hybrid powertrain simulations, it is important that models capture the temperature-sensitive behavior of the involved components and the flow of energy between subsystems. By coupling a battery CPM with a hybrid electric vehicle model that includes the propulsion system and the thermal aspect of its components, as well as the entire cooling system, GT-SUITE becomes the first simulator tool to accurately predict the interactions between various subsystems and numerous energy paths. Thus it can be used to reduce battery pack overdesign, as well as for thermal management analysis and control strategy optimization.

To aid in battery pack system design, each cell in the xEV’s battery pack is modeled individually to reflect statistical variations among cells. Thermal interactions among adjacent cells are also modeled. Simulation time is quick; for a battery pack consisting of 100 series connected individual cells, simulation output is produced 20 times faster than simulated time. Typically, battery simulation for hybrid and electric vehicles is performed through the use of look-up tables and uncoupled equivalent-circuit and thermal models, neither of which can provide a reliable level of accuracy. Sendyne’s CellMod, while compact, is nonetheless based on physics as well as measured data. It provides macroscopic behavior modeling of all relevant observable phenomena, including their derivatives and interdependencies, and thus provides good predictability and overall accuracy.

“Reducing costs and improving the performance of power delivery systems is of critical importance to electric vehicle developers,” said Mike Arnett, Senior Engineer and Application Leader for HEVs at Gamma Technologies. “We look forward to working with Gamma to introduce this important technology to the market,” added Ellen Gooch, Sendyne’s Director of Marketing.

The new technology will be presented at the IEEE Transportation and Electrification Conference iTEC2014 on June 15 to 18, 2014.

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About Gamma Technologies

Gamma Technologies Inc. (GTI) develops and licenses a “virtual vehicle and powertrain” CAE software GT-SUITE. This tool is specifically designed for applications in the engine, powertrain and vehicle industries. In addition to supplying software products, GTI provides user support and training and carries out general consulting projects using its proprietary CAE tools.

 

 

 
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