Energy storage device for loads having variable power rates
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02J-007/00
출원번호
UP-0010016
(2008-01-18)
등록번호
US-7570012
(2009-08-24)
우선권정보
CA-2343489(2001-04-05)
발명자
/ 주소
Dasgupta, Sankar
Jacobs, James K.
Bhola, Rakesh
출원인 / 주소
Electrovaya Inc.
인용정보
피인용 횟수 :
11인용 특허 :
38
초록▼
An electrical energy storage device for storing electrical energy and supplying the electrical energy to a driving motor at different power levels is disclosed. The electrical storage device has an energy battery connected to a power battery. The energy battery has a higher energy density than the p
An electrical energy storage device for storing electrical energy and supplying the electrical energy to a driving motor at different power levels is disclosed. The electrical storage device has an energy battery connected to a power battery. The energy battery has a higher energy density than the power battery. However, the power battery can provide electrical power to the electrical motor at different power rates, thereby ensuring that the motor has sufficient power and current when needed. The power battery can be recharged by the energy storage battery. In this way, the power battery temporarily stores electrical energy received from the energy battery and both batteries can provide electrical energy at the different power rates as required by the motor. The energy storage device can be releasably connected to an external power source in order to recharge both batteries. Both batteries can be recharged independently to optimize the recharging and lifetime characteristics of the batteries.
대표청구항▼
The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows: 1. A power source for supplying electrical power to a driving motor, said driving motor drawing electrical power at different rates, the power source comprising: a first rechargeable ener
The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows: 1. A power source for supplying electrical power to a driving motor, said driving motor drawing electrical power at different rates, the power source comprising: a first rechargeable energy battery having a first total impedance for storing electrical energy and providing electrical power to the electrical motor at a first range of power rates; a second rechargeable power battery having a second total impedance, less than the first total impedance, for storing electrical energy and providing electrical power to the electrical motor at a second range of power rates; wherein the energy battery is directly connected in parallel with the power battery and the driving motor such that the electrical energy stored in the energy battery is provided to the driving motor in combination with electrical energy stored in the power battery; and wherein the energy battery substantially continuously recharges the power battery with any excess power not provided to the driving motor; said power source further comprising a battery controller capable of controlling the substantially continuous recharging of the power battery with electrical energy from the energy battery not require by the driving motor; wherein the battery controller utilizes inherent control of the energy battery and power battery, such that the battery controller initially connects the power battery and energy battery in parallel. 2. The power source as defined in claim 1 wherein the battery controller controls the substantially continuous recharging of the power battery by controlling the electrical energy passing through a first connection from the energy battery to the power battery. 3. The power source as defined in claim 1 wherein the controller initially connects each of the power battery, energy battery and electrical motor in parallel. 4. The power source as defined in claim 1 wherein the power battery and energy battery have a range of overlapping nominal voltages. 5. The power source as defined in claim 4 wherein the energy battery substantially continuously recharges the power battery with any excess power not used by the driving motor. 6. The power source as defined in claim 5 wherein the power battery consists of at least one bank of 8 lead acid batteries in series, each lead acid battery having a nominal voltage of 10.5 volts to 13 volts and the energy battery consists of at least one bank of 27 lithium ion cells connected in series, each lithium ion cell having a nominal voltage of 3 volts to 4.2 volts. 7. The power source as defined in claim 1 wherein the second total impedance is between 10% to 60% of the first total impedance. 8. The power source as defined in claim 7 wherein the second total impedance is between 35% to 50% of the first total impedance. 9. The power source as defined in claim 1 further comprising a switch between the energy battery and the power battery; and wherein the controller initially connects the power battery to the energy battery in parallel by controlling the switch along the first connection. 10. The power source as defined in claim 1 wherein the energy battery is a lithium based battery selected from the group consisting of non-aqueous lithium-ion batteries, lithium air batteries and polymer lithium ion batteries, and, the power battery is a lead-acid battery. 11. The power source as defined in claim 1 wherein the energy battery is a non-aqueous polymer lithium battery pack. 12. The power source as defined in claim 11 wherein the power source has a casing and a portion of the casing is occupied by the non-aqueous polymer lithium battery pack. 13. The power source as defined in claim 3 wherein the driving motor drives a vehicle within which the power battery and energy battery are contained and, wherein the controller can be contained within or removed from the vehicle. 14. A method for storing electrical energy for an electrical load drawing electrical power at different rates, said method comprising: charging a rechargeable energy battery having a first total impedance; charging a rechargeable power battery having a second total impedance, less than the first total impedance; supplying electrical energy from the energy battery and the power battery to the electrical load, said rechargeable power battery, said rechargeable energy battery and said electrical load are connected to each other in parallel such that electrical energy stored in the energy battery is provided to the electrical load in combination with energy stored in the power battery when required by the electrical load, and, when not required by the electrical load electrical energy from the energy battery substantially continuously recharges the power battery; substantially continuously recharging the power battery from the energy battery with electrical energy not required by the electrical load, by utilizing inherent control of the energy battery and power battery. 15. A method as defined in claim 14 further comprising: connecting the energy battery in parallel with the power battery prior to connecting the energy battery to the load. 16. A method as defined in claim 14 wherein the electrical load is a driving motor in a vehicle to drive the vehicle, and, the rechargeable energy battery and the rechargeable power battery are contained in the vehicle with the power battery located nearer the driving motor than the energy battery. 17. A method as defined in claim 16 further comprising: periodically recharging the energy battery, from an external fixed electrical source, when the energy capacity of the energy battery falls below a threshold. 18. A method as defined in claim 14 wherein the rechargeable energy battery is selected from the group consisting of non-aqueous lithium-ion batteries, lithium air batteries, polymer lithium-ion batteries and sodium-sulfur batteries; and wherein the rechargeable power battery is selected from the group consisting of lead-acid batteries, high-rate lithium batteries, lithium-ion batteries, high-rate nickel aqueous batteries, nickel metal batteries, nickel alloy hybrid bearing batteries and nickel cadmium batteries.
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