Managing electric current allocation between charging equipment for charging electric vehicles
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02J-007/00
H02J-007/04
B60L-011/18
B60L-003/00
B60L-003/12
B60L-011/00
G05B-013/02
H02J-003/14
출원번호
US-0913684
(2018-03-06)
등록번호
US-10252633
(2019-04-09)
발명자
/ 주소
Baxter, David
Hagenmaier, Jr., Carl F.
Tormey, Milton T.
Lowenthal, Richard
출원인 / 주소
CHARGEPOINT, INC.
대리인 / 주소
Nicholson De Vos Webster & Elliott LLP
인용정보
피인용 횟수 :
0인용 특허 :
38
초록▼
A first and second charging equipment for charging electric vehicles share a current capacity. A controller coupled with the first and second charging equipment limits a total amount of current drawn through the first charging equipment and the second charging equipment to not exceed the current cap
A first and second charging equipment for charging electric vehicles share a current capacity. A controller coupled with the first and second charging equipment limits a total amount of current drawn through the first charging equipment and the second charging equipment to not exceed the current capacity. A first and second current limit is communicated to a first and second electric vehicle respectively to limit the current draw of first and second electric vehicle to the first and second current limit respectively. A sum of the current drawn at the first and second current limit does not exceed the current capacity.
대표청구항▼
1. A method, comprising: determining a maximum amount of electric current capacity that is shared among at least a first charging equipment and a second charging equipment; anddynamically allocating electric current to the at least the first charging equipment and the second charging equipment such
1. A method, comprising: determining a maximum amount of electric current capacity that is shared among at least a first charging equipment and a second charging equipment; anddynamically allocating electric current to the at least the first charging equipment and the second charging equipment such that the maximum amount of electric current capacity is prevented from being exceeded, wherein dynamically allocating electric current to the at least the first charging equipment and the second charging equipment includes: communicating a first current limit to a first electric vehicle coupled to the first charging equipment to cause the first electric vehicle to limit its current draw to not exceed the first current limit, andcommunicating a second current limit to a second electric vehicle coupled to the second charging equipment to cause the second electric vehicle to limit its current draw to not exceed the second current limit; andwherein a sum of current being drawn at the first current limit and the second current limit does not exceed the maximum amount of electric current capacity. 2. The method of claim 1, further comprising: determining an amount of electric current presently allocated to each of the first charging equipment and the second charging equipment; andwherein dynamically allocating electric current to the at least the first charging equipment and the second charging equipment is further based on an amount of electric current presently allocated to each of the at least the first charging equipment and the second charging equipment. 3. The method of claim 1, wherein dynamically allocating electric current includes dynamically adjusting electric current allocations to the at least the first charging equipment and the second charging equipment including increasing the electric current allocation to the first charging equipment and decreasing the electric current allocation to the second charging equipment while preventing the maximum amount of electric current capacity from being exceeded. 4. The method of claim 1, wherein dynamically allocating electric current is further based on a set of one or more charging session attributes associated with a first charging session for the first electric vehicle and a second charging session for the second electric vehicle, wherein the set of charging session attributes includes for each charging session charging session duration, type of account associated with that charging session, percentage of charging complete, percentage of charging remaining, battery temperature of the electric vehicle, priority of that charging session, time remaining on that charging session, or any combination thereof. 5. The method of claim 1, wherein dynamically allocating electric current includes transmitting the first current limit to the first charging equipment and transmitting the second current limit to the second charging equipment. 6. A method, comprising: receiving, at a first charging equipment, a first message that indicates a first current limit in which the first charging equipment is to limit its current draw to not exceed the first current limit, wherein the first charging equipment shares a current capacity with a second charging equipment, and wherein at a time of receipt of the first message the second charging equipment is not presently allocated electric current;responsive to receiving the first message, the first charging equipment limiting an amount of current to be drawn through the first charging equipment to the first current limit;receiving, at the first charging equipment, a second message that indicates a second current limit in which the first charging equipment is to limit its current draw to not exceed the second current limit, wherein the second current limit is less than the first current limit and is a value that allows the second charging equipment to draw at least some electric current while not exceeding the current capacity; andresponsive to receiving the second message, the first charging equipment limiting the amount of current to be drawn through the first charging equipment to the second current limit. 7. The method of claim 6, wherein the first charging equipment limiting the amount of current to be drawn through the first charging equipment to the first current limit includes communicating a third current limit to an electric vehicle coupled to the first charging equipment that does not exceed the first current limit, and wherein the first charging equipment limiting the amount of current to be drawn through the first charging equipment to the second current limit includes communicating a fourth current limit to the electric vehicle coupled to the first charging equipment that does not exceed the second current limit. 8. The method of claim 7, wherein communicating the second current limit and the fourth current limit includes modulating a signal to the electric vehicle. 9. The method of claim 6, further comprising: receiving, at the first charging equipment, a third message that indicates a third current limit in which the first charging equipment is to limit its current draw to not exceed the third current limit, wherein the third current limit is greater than the second current limit, and wherein the third message is received as a result of the second charging equipment no longer requiring to draw at least some electric current; andresponsive to receiving the third message, the first charging equipment limiting the amount of current to be drawn through the first charging equipment to the third current limit. 10. An apparatus, comprising: a processor of a first charging equipment; anda non-transitory machine-readable storage media of the first charging equipment that contains instructions, that when executed by the processor, cause said processor to perform the following operations: receiving a first message that indicates a first current limit in which the first charging equipment is to limit its current draw to not exceed the first current limit, wherein the first charging equipment shares a current capacity with a second charging equipment, and wherein at a time of receipt of the first message the second charging equipment is not presently allocated electric current;responsive to receiving the first message, limiting an amount of current to be drawn through the first charging equipment to the first current limit;receiving a second message that indicates a second current limit in which the first charging equipment is to limit its current draw to not exceed the second current limit, wherein the second current limit is less than the first current limit and is a value that allows the second charging equipment to draw at least some electric current while not exceeding the current capacity; andresponsive to receiving the second message, limiting the amount of current to be drawn through the first charging equipment to the second current limit. 11. The apparatus of claim 10, wherein limiting the amount of current to be drawn through the first charging equipment to the first current limit includes communicating a third current limit to an electric vehicle coupled to the first charging equipment that does not exceed the first current limit, and wherein limiting the amount of current to be drawn through the first charging equipment to the second current limit includes communicating a fourth current limit to the electric vehicle coupled to the first charging equipment that does not exceed the second current limit. 12. The apparatus of claim 11, wherein communicating the second current limit and the fourth current limit includes modulating a signal to the electric vehicle. 13. The apparatus of claim 10, wherein the non-transitory machine-readable storage media of the first charging equipment further contains instructions, that when executed by the processor, cause said processor to perform the following operations: receiving a third message that indicates a third current limit in which the first charging equipment is to limit its current draw to not exceed the third current limit, wherein the third current limit is greater than the second current limit, and wherein the third message is received as a result of the second charging equipment no longer requiring to draw at least some electric current; andresponsive to receiving the third message, limiting the amount of current to be drawn through the first charging equipment to the third current limit.
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