Patent ID: 9037369
Filing Date: 2015-05-19
Classification: B60K,B60W,Y02T

Abstract:
1. A method of controlling clutch transfer torque in a hybrid vehicle, comprising: estimating clutch characteristics from a relation between a control current for a clutch hydraulic valve and a clutch transfer torque corresponding to the control current for the clutch hydraulic valve, the clutch characteristics including a dead zone of the clutch transfer torque with respect to the control current for the clutch hydraulic valve, and a hysteresis of the clutch transfer torque with respect to the control current for the clutch hydraulic valve; and calculating a clutch friction coefficient using the clutch transfer torque and the hysteresis of the clutch transfer torque, wherein the clutch transfer torque is measured by varying the control current for the clutch hydraulic valve, and the dead zone and the hysteresis are measured based on the measured clutch transfer torque, such that the dead zone is measured as the control current for the clutch hydraulic valve at a time when an rpm of a motor, an rpm of an engine, or the clutch transfer torque undergoes a first change, and hysteresis start and end terminals are measured by further adjusting the control current for the clutch hydraulic valve, and the step of estimating clutch characteristics further includes: increasing the control current for the clutch hydraulic valve from an open state of the clutch and recording as the dead zone of the clutch transfer torque the control current for the clutch hydraulic valve at the time when the rpm of the motor, the rpm of the engine, or the clutch transfer torque is subjected to the first change after the control current for the clutch hydraulic valve is increased; further increasing the control current for the clutch hydraulic valve, controlling the control current for the clutch hydraulic valve to be constant when a slip speed of the clutch reaches a predetermined value, recording the constant value of the control current for the clutch hydraulic valve and the clutch transfer torque corresponding to the control current for the clutch hydraulic valve as a controlled variable for measuring the clutch friction coefficient and a transfer torque (Treal) for measuring the clutch friction coefficient, respectively, and recording the constant value of the control current for the clutch hydraulic valve as a controlled variable of the hysteresis start terminal; decreasing the control current for the clutch hydraulic valve and recording as a controlled variable of the hysteresis end terminal the control current for the clutch hydraulic valve at the time when the clutch transfer torque begins to be reduced; obtaining the hysteresis of the clutch transfer torque by dividing the difference between the controlled variable of the hysteresis start terminal and the controlled variable of the hysteresis end terminal; and obtaining a clutch friction coefficient from the controlled variable for measuring the clutch friction coefficient, the transfer torque for measuring the clutch friction coefficient, and the hysteresis of the clutch transfer torque.