Abstract: A method for manufacturing a semiconductor structure includes the following: providing a substrate; forming an MTJ structure and a first mask structure in sequence on the substrate; performing a patterning process on the first mask structure to form a first pattern extending in a first direction; transferring the first pattern to the MTJ structure; forming a second mask structure on the MTJ structure; performing a patterning process on the second mask structure to form a second pattern extending in a second direction, the first direction intersecting the second direction and being not perpendicular to the second direction; and performing a patterning process on the MTJ structure by utilizing the second pattern to form a cellular MTJ array, the first pattern and the second pattern together forming a cellular pattern.

Abstract: A torque distribution method for an engine and a motor of an energy-efficient hybrid electric vehicle comprises the following steps: providing an offline specific fuel consumption map of the engine in all operating states; enabling the engine and motor to respond to the required torque T during travelling together, the motor and the engine working in cooperation at the same rotational speed so as to achieve the optimal working efficiency; acquiring a current state of charge (SOC) of the vehicle battery, and distributing the engine torque T and the motor torque T according to the following situation: if the SOC is greater than a first preset value, entering a first distribution mode; if the SOC is less than a second preset value, enter a second distribution mode; and otherwise, maintaining the current working state.

Abstract: A hybrid system torque control method and hybrid automobile using same, the method comprising the following steps: (1) analyzing the torque required by a driver; (2) allocating and coordinating the multiple-source torque. The method ensures a consistent driving feel within the range of real-time power source torque capacity, and facilitates hybrid system matching.

Abstract: A hybrid system torque control method and hybrid automobile using same, the method comprising the following steps: (1) analyzing the torque required by a driver; (2) allocating and coordinating the multiple-source torque. The method ensures a consistent driving feel within the range of real-time power source torque capacity, and facilitates hybrid system matching.

Abstract: A torque distribution method for an engine and a motor of an energy-efficient hybrid electric vehicle comprises the following steps: providing an offline specific fuel consumption map of the engine in all operating states; enabling the engine and motor to respond to the required torque T during travelling together, the motor and the engine working in cooperation at the same rotational speed so as to achieve the optimal working efficiency; acquiring a current state of charge (SOC) of the vehicle battery, and distributing the engine torque T and the motor torque T according to the following situation: if the SOC is greater than a first preset value, entering a first distribution mode; if the SOC is less than a second preset value, enter a second distribution mode; and otherwise, maintaining the current working state.