Power supply system for electrically powered vehicle and method for controlling the same
First Claim
1. A power supply system for an electric-powered vehicle having mounted thereon a motor as a motive power source and a power generation mechanism configured to be capable of generating electric power while the vehicle is running, comprising:
- a main power storage device being rechargeable;
a first voltage converter provided between a power feeding line electrically connected to said motor and to said power generation mechanism and said main power storage device, and configured to perform bidirectional voltage conversion;
a plurality of sub power storage devices, each being rechargeable, arranged in parallel to each other;
a second voltage converter provided between said plurality of sub power storage devices and said power feeding line, and configured to perform bidirectional voltage conversion between one of said plurality of sub power storage devices and said power feeding line;
a plurality of switches provided between said plurality of sub power storage devices and said second voltage converter, respectively;
an external charging unit configured to charge said main power storage device and each of said sub power storage devices by a power supply outside the vehicle;
a charged state calculation unit configured to calculate a remaining capacity estimate value of each of said main power storage device and said plurality of sub power storage devices, based on a state detection value of each of said main power storage device and said plurality of sub power storage devices;
a running mode control unit configured to select one of a first running mode of running using stored electric energy of said electric-powered vehicle with priority without maintaining the stored electric energy and a second running mode of maintaining said stored electric energy within a certain range using said power generation mechanism, based on said remaining capacity estimate value of each of said main power storage device and said plurality of sub power storage devices;
a connection control unit configured to control on/off of said plurality of switches in accordance with a selected usage pattern of a plurality of usage patterns defining a connection mode between said plurality of sub power storage devices and said second voltage converter in each of said first running mode and said second running mode; and
a control target setting unit individually setting a control target for a remaining capacity of each of said main power storage device and said plurality of sub power storage devices, in accordance with said selected usage pattern,said connection control unit controlling on/off of said plurality of switches in accordance with said usage pattern in each of said first running mode and said second running mode,said running mode control unit selecting said first running mode until all of said remaining capacity estimate values of said main power storage device and said plurality of sub power storage devices decrease to said control targets, respectively, and selecting said second running mode after all of said remaining capacity estimate values decrease to said control targets, respectively, andsaid control target setting unit changing at least one of said control targets of said main power storage device and said plurality of sub power storage devices among said plurality of usage patterns.
1 Assignment
0 Petitions
Accused Products
Abstract
A power supply system for a hybrid vehicle includes a main power storage device and a plurality of sub power storage devices used selectively. When SOC of each power storage device decreases to an SOC control target, the running mode transitions from a CD mode of running with stored electric energy with an engine stopped to a CS mode of running while maintaining stored electric energy by power generation of the engine. An ECU determines a usage pattern of the power storage devices in the CS mode and the CD mode at startup of the power supply system following the start of vehicle driving. Further, in accordance with the determined usage pattern, the ECU appropriately sets an individual SOC target for each power storage device such that, upon ensuring stored electric energy available at the start of the CS mode, stored electric energy to be used in the CD mode is maximized.
-
Citations
14 Claims
-
1. A power supply system for an electric-powered vehicle having mounted thereon a motor as a motive power source and a power generation mechanism configured to be capable of generating electric power while the vehicle is running, comprising:
-
a main power storage device being rechargeable; a first voltage converter provided between a power feeding line electrically connected to said motor and to said power generation mechanism and said main power storage device, and configured to perform bidirectional voltage conversion; a plurality of sub power storage devices, each being rechargeable, arranged in parallel to each other; a second voltage converter provided between said plurality of sub power storage devices and said power feeding line, and configured to perform bidirectional voltage conversion between one of said plurality of sub power storage devices and said power feeding line; a plurality of switches provided between said plurality of sub power storage devices and said second voltage converter, respectively; an external charging unit configured to charge said main power storage device and each of said sub power storage devices by a power supply outside the vehicle; a charged state calculation unit configured to calculate a remaining capacity estimate value of each of said main power storage device and said plurality of sub power storage devices, based on a state detection value of each of said main power storage device and said plurality of sub power storage devices; a running mode control unit configured to select one of a first running mode of running using stored electric energy of said electric-powered vehicle with priority without maintaining the stored electric energy and a second running mode of maintaining said stored electric energy within a certain range using said power generation mechanism, based on said remaining capacity estimate value of each of said main power storage device and said plurality of sub power storage devices; a connection control unit configured to control on/off of said plurality of switches in accordance with a selected usage pattern of a plurality of usage patterns defining a connection mode between said plurality of sub power storage devices and said second voltage converter in each of said first running mode and said second running mode; and a control target setting unit individually setting a control target for a remaining capacity of each of said main power storage device and said plurality of sub power storage devices, in accordance with said selected usage pattern, said connection control unit controlling on/off of said plurality of switches in accordance with said usage pattern in each of said first running mode and said second running mode, said running mode control unit selecting said first running mode until all of said remaining capacity estimate values of said main power storage device and said plurality of sub power storage devices decrease to said control targets, respectively, and selecting said second running mode after all of said remaining capacity estimate values decrease to said control targets, respectively, and said control target setting unit changing at least one of said control targets of said main power storage device and said plurality of sub power storage devices among said plurality of usage patterns. - View Dependent Claims (2, 3, 4, 5, 6)
-
-
7. A power supply system for an electric-powered vehicle having mounted thereon a motor as a motive power source and a power generation mechanism configured to be capable of generating electric power while the vehicle is running, comprising:
-
a main power storage device being rechargeable; a first voltage converter provided between a power feeding line electrically connected to said motor and to said power generation mechanism and said main power storage device, and configured to perform bidirectional voltage conversion; a plurality of sub power storage devices, each being rechargeable, arranged in parallel to each other; a second voltage converter provided between said plurality of sub power storage devices and said power feeding line, and configured to perform bidirectional voltage conversion between one of said plurality of sub power storage devices and said power feeding line; a connection control unit configured to control a plurality of switches provided between said plurality of sub power storage devices and said second voltage converter, respectively; an external charging unit configured to charge said main power storage device and each of said sub power storage devices by a power supply outside the vehicle; a charged state calculation unit configured to calculate a remaining capacity estimate value of each of said main power storage device and said plurality of sub power storage devices, based on a state detection value of each of said main power storage device and said plurality of sub power storage devices; a running mode control unit configured to select one of a first running mode of running using stored electric energy of said electric-powered vehicle with priority without maintaining the stored electric energy and a second running mode of maintaining said stored electric energy within a certain range using said power generation mechanism, based on said remaining capacity estimate value of each of said main power storage device and said plurality of sub power storage devices; and a control target setting unit configured to set a control target for a remaining capacity of said main power storage device higher than a control target for the remaining capacity of each of said sub power storage devices, said connection control unit controlling said plurality of switches such that a sequentially selected one of said plurality of sub power storage devices is connected to said second voltage converter in said first running mode, and each of said plurality of sub power storage devices is disconnected from said second voltage converter in said second running mode, and said running mode control unit selecting said first running mode until all of said remaining capacity estimate values of said main power storage device and said plurality of sub power storage devices decrease to said control targets, respectively, and selecting said second running mode after all of said remaining capacity estimate values decrease to said control targets, respectively.
-
-
8. A method of controlling a power supply system for an electric-powered vehicle having mounted thereon a motor as a motive power source and a power generation mechanism configured to be capable of generating electric power while the vehicle is running,
said power supply system including a main power storage device being rechargeable, a first voltage converter provided between a power feeding line electrically connected to said motor and to said power generation mechanism and said main power storage device, and configured to perform bidirectional voltage conversion, a plurality of sub power storage devices, each being rechargeable, arranged in parallel to each other, a second voltage converter provided between said plurality of sub power storage devices and said power feeding line, and configured to perform bidirectional voltage conversion between one of said plurality of sub power storage devices and said power feeding line, a plurality of switches provided between said plurality of sub power storage devices and said second voltage converter, respectively, and an external charging unit configured to charge said main power storage device and each of said sub power storage devices by a power supply outside the vehicle, said method of controlling comprising: -
selecting one of a plurality of usage patterns defining a connection mode between said plurality of sub power storage devices and said second voltage converter in each of a first running mode of running using stored electric energy of said electric-powered vehicle with priority without maintaining the stored electric energy and a second running mode of maintaining said stored electric energy within a certain range using said power generation mechanism, in accordance with a state of each of said sub power storage devices; individually setting a control target for a remaining capacity of each of said main power storage device and said plurality of sub power storage devices, in accordance with said usage pattern selected, calculating a remaining capacity estimate value of each of said main power storage device and said plurality of sub power storage devices, based on a state detection value of each of said main power storage device and said plurality of sub power storage devices; and selecting one of said first running mode and said second running mode, based on said remaining capacity estimate value of each of said main power storage device and said plurality of sub power storage devices, on/off of said plurality of switches being controlled in each of said first running mode and said second running mode in accordance with said usage pattern selected, in said selecting step, said first running mode is selected until all of said remaining capacity estimate values of said main power storage device and said plurality of sub power storage devices decrease to said control targets, respectively, and said second running mode is selected after all of said remaining capacity estimate values decrease to said control targets, respectively, and in said setting step, at least one of said control targets of said main power storage device and said plurality of sub power storage devices is changed among said plurality of usage patterns. - View Dependent Claims (9, 10, 11, 12, 13)
-
-
14. A method of controlling a power supply system for an electric-powered vehicle having mounted thereon a motor as a motive power source and a power generation mechanism configured to be capable of generating electric power while the vehicle is running,
said power supply system including a main power storage device being rechargeable, a first voltage converter provided between a power feeding line electrically connected to said motor and to said power generation mechanism and said main power storage device, and configured to perform bidirectional voltage conversion; -
a plurality of sub power storage devices, each being rechargeable, arranged in parallel to each other; a second voltage converter provided between said plurality of sub power storage devices and said power feeding line, and configured to perform bidirectional voltage conversion between one of said plurality of sub power storage devices and said power feeding line; a connection control unit configured to control a plurality of switches provided between said plurality of sub power storage devices and said second voltage converter, respectively; and an external charging unit configured to charge said main power storage device and each of said sub power storage devices by a power supply outside the vehicle, said method of controlling comprising the steps of; setting a control target for a remaining capacity of said main power storage device higher than said control target for the remaining capacity of each of said sub power storage devices at startup of said power supply system; calculating a remaining capacity estimate value of each of said main power storage device and said plurality of sub power storage devices, based on a state detection value of each of said main power storage device and said plurality of sub power storage devices; and selecting one of a first running mode of running using stored electric energy of said electric-powered vehicle with priority without maintaining the stored electric energy and a second running mode of maintaining said stored electric energy within a certain range using said power generation mechanism, based on said remaining capacity estimate value of each of said main power storage device and said plurality of sub power storage devices, said connection control unit controlling said plurality of switches such that a sequentially selected one of said plurality of sub power storage devices is connected to said second voltage converter in said first running mode, and such that each of said plurality of sub power storage devices is disconnected from said second voltage converter in said second running mode, and in said selecting step, said first running mode is selected until all of said remaining capacity estimate values of said main power storage device and said plurality of sub power storage devices decrease to said control targets, respectively, and said second running mode is selected after all of said remaining capacity estimate values decrease to said control targets, respectively.
-
Specification