Abstract
This paper presents the design and validation of a novel multi-mode transmission (MMT) for a hybrid electric vehicle (HEV) using a single electric machine (EM), which implies compact and low cost. The topology of the MMT planetary gearset is the same as that of conventional four speed automatic transmissions. The MMT uses two planetary gearsets and four clutches to combine an engine and an EM with the vehicle, and the EM is operated as a motor or a generator. The MMT realizes five power flow modes, which are developed into sixteen operating modes, including one motor-only mode, four engine-only modes, four compound driving modes, six braking modes, and one charging while parking mode. The single EM HEV solution avoids losses from another EM and extra power electronics which are employed in many existing HEVs. The properly arranged clutches transmit power flow more flexibly, allow direct mechanical power transmission from the engine to the drive shaft, and avoid spin loss for the engine and energy conversion loss for the electric components. The fuel consumption of the proposed hybrid vehicle system is compared with a benchmark vehicle which uses a planetary gearset, two EMs and no clutch. Simulation results under New European Driving Cycle show that the fuel consumption of the proposed HEV is comparable to the benchmark vehicle. Reasons for comparable results are explored, which indicates the fuel economy potential of the new concept.
Highlights
Hybrid electric vehicles (HEVs), as one kind of new generation vehicles, are considered to offer the best promise in the short to mid-term [1] to solve the problem of global energy shortage and environment pollution
The torque distribution for the proposed multi-mode transmission (MMT) vehicle is given in section 3.2, and that for the “THS IIlike” vehicle is calculated based on the fundamental torque and speed formulas of planetary gearsets, which are applied to several EVTs with one or more planetary gearsets[15]
A MMT combining two planetary gearsets, four clutches and a single electric machine (EM) is proposed in this paper for a HEV
Summary
Hybrid electric vehicles (HEVs), as one kind of new generation vehicles, are considered to offer the best promise in the short to mid-term [1] to solve the problem of global energy shortage and environment pollution. The single EM cannot work as a motor and a generator at the same time, cannot modulate the engine speed and torque simultaneous ly like in a double EM scheme, which introduces limitation to the HEV performance. In most cases, this comprise in HEV performance can be counterbalanced by the power loss reduction in single EM scheme. This paper presents a novel multi-mode transmission (MMT) for the single EM HEV. The application potential is discussed and concluded based on the simulation results comparison with those of a second generation THS-II HEV under the New European Driving Cycle (NEDC)
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