Hybrid vehicle and method of controlling hybrid vehicle
First Claim
1. A hybrid vehicle with an engine, a generator, and a motor mounted thereon, said engine outputting power through combustion of a fuel, said generator generating electric power with at least part of the power output from said engine, said motor outputting power to a drive shaft of said hybrid vehicle, said hybrid vehicle comprising:
- an engine control unit that feedback controls a quantity of the fuel injected to said engine to attain a specified target revolving speed of said engine;
a generative energy computation unit that computes an instantaneous magnitude of generative energy to be generated by said generator by taking into account an energy balance in a system including said engine, said generator, and said motor;
a voltage measurement unit that measures a generative voltage of said generator;
a control variable computation unit that computes a feedback control variable corresponding to a difference between the observed generative voltage and a target generative voltage of said generator;
a generator control unit that feedback controls said generator with the calculated instantaneous magnitude of generative energy and the calculated feedback control variable;
a requirement detection unit that detects a requirement on a drive of said vehicle; and
a motor driving unit that calculates an output torque of said motor based on a direct torque output from said generator, which is under control of said generator control unit, and a required torque related to the detected requirement on the drive of said vehicle, and drives said motor to attain the calculated output torque.
0 Assignments
0 Petitions
Accused Products
Abstract
In a hybrid vehicle of the present invention, an engine EG is subjected to feedback control to attain a target revolving speed NE*. In the case of malfunction of an inverter P1 for a generator GN, operation of the inverter P1 is stopped. When the generator GN is driven to rotate at a predetermined rotational speed, a counter electromotive force arises in a multiphase phase coil of the generator GN. When a motor MG is connected to the generator GN as a loading, electric current runs via a protection diode of the inverter P1 to implement power generation by the generator GN. The electric power generated by the generator GN is directly consumed by the motor MG. This arrangement enables the quantity of power generation to balance the quantity of consumption. Here the revolving speed of the engine EG is varied according to the loading applied to the vehicle. The arrangement of the present invention thus enables the amount of electric power generated by one of the generator GN and the motor MG to balance the amount of electric power consumed by the other of the generator GN and the motor MG, thus attaining a drive of the hybrid vehicle without using a secondary battery.
-
Citations
14 Claims
-
1. A hybrid vehicle with an engine, a generator, and a motor mounted thereon, said engine outputting power through combustion of a fuel, said generator generating electric power with at least part of the power output from said engine, said motor outputting power to a drive shaft of said hybrid vehicle, said hybrid vehicle comprising:
-
an engine control unit that feedback controls a quantity of the fuel injected to said engine to attain a specified target revolving speed of said engine;
a generative energy computation unit that computes an instantaneous magnitude of generative energy to be generated by said generator by taking into account an energy balance in a system including said engine, said generator, and said motor;
a voltage measurement unit that measures a generative voltage of said generator;
a control variable computation unit that computes a feedback control variable corresponding to a difference between the observed generative voltage and a target generative voltage of said generator;
a generator control unit that feedback controls said generator with the calculated instantaneous magnitude of generative energy and the calculated feedback control variable;
a requirement detection unit that detects a requirement on a drive of said vehicle; and
a motor driving unit that calculates an output torque of said motor based on a direct torque output from said generator, which is under control of said generator control unit, and a required torque related to the detected requirement on the drive of said vehicle, and drives said motor to attain the calculated output torque. - View Dependent Claims (2, 3, 6, 7, 8, 9)
-
-
4. A hybrid vehicle with an engine, a generator, and a motor mounted thereon, said engine outputting power through combustion of a fuel, said generator generating electric power with at least part of the power output from said engine, said motor outputting power to a drive shaft of said hybrid vehicle, said hybrid vehicle comprising:
-
an engine control unit that feedback controls a quantity of the fuel injected to said engine to attain a specified target revolving speed of said engine;
a secondary battery that is connectable with both positive and negative power lines of a direct voltage source, which link said generator with said motor;
a first contact that switches on and off connection of said secondary battery with one of the two power lines and links said secondary battery with the power line via a restriction resistor, which restricts electric current flowing out of said secondary battery;
a second contact that is connected to the first contact in parallel and directly links said secondary battery with the power line;
a third contact that switches on and off connection of said secondary battery with the other of the two power lines;
a weld detection unit that detects a weld of the third contact; and
a welding-state driving unit that opens both the first contact and the second contact after activation of said engine in response to detection of the weld of the third contact, and drives said motor with the electric power generated by said generator. - View Dependent Claims (5, 12, 13, 14)
-
-
10. A method of controlling a hybrid vehicle, wherein an engine outputs power through combustion of a fuel, a generator provided with permanent magnets generate electric power with at least part of the power output from said engine, and a motor is driven with at least part of the electric power generated by said generator, so as to output power to a drive shaft of said vehicle, said method comprising the steps of:
-
feedback controlling a quantity of the fuel injected to said engine to attain a specified target revolving speed of said engine;
computing an instantaneous magnitude of generative energy to be generated by said generator by taking into account an energy balance in a system including said engine, said generator, and said motor;
measuring a generative voltage of said generator;
computing a feedback control variable corresponding to a difference between the observed generative voltage and a target generative voltage of said generator;
feedback controlling said generator with the calculated instantaneous magnitude of generative energy and the calculated feedback control variable;
detecting a requirement on a drive of said vehicle; and
calculating an output torque of said motor based on a direct torque output from said generator, which is under control of said generator control unit, and a required torque related to the detected requirement on the drive of said vehicle, and driving said motor to attain the calculated output torque.
-
-
11. A method of controlling a hybrid vehicle, wherein an engine outputs power through combustion of a fuel, a generator provided with permanent magnets generate electric power with at least part of the power output from said engine, and a motor is driven with at least part of the electric power generated by said generator, so as to output power to a drive shaft of said vehicle, said method comprising the steps of:
-
connecting a secondary battery with both positive and negative power lines of a direct voltage source, which link said generator with said motor;
interposing a first contact between said secondary battery and one of the two power lines via a restriction resistor, which restricts electric current flowing out of said secondary battery;
connecting a second contact to the first contact in parallel, the second contact directly linking said secondary battery with the power line;
interposing a third contact between said secondary battery and the other of the two power lines;
feedback controlling a quantity of the fuel injected to said engine to attain a specified target revolving speed of said engine;
detecting a weld of the third contact; and
opening both the first contact and the second contact after activation of said engine in response to detection of the weld of the third contact, and driving said motor with the electric power generated by said generator.
-
Specification