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    • 5. 发明授权
    • Method and apparatus for effective utilization of energy storage components within a microgid
    • 有效利用微量元素内储能部件的方法和装置
    • US08946929B2
    • 2015-02-03
    • US13289328
    • 2011-11-04
    • Harmohan N. SinghCristian Anghel
    • Harmohan N. SinghCristian Anghel
    • H02J3/28H02J3/32H02J1/14H02J4/00H02J3/38
    • H02J3/32H02J1/14H02J3/28H02J3/387H02J4/00Y02P80/14Y10T307/516Y10T307/549Y10T307/707
    • A method for effectively utilizing energy storage components within a microgrid may include the steps of connecting a first plurality of energy storage components to a DC bus through switches, connecting a second plurality of energy storage components to an AC bus through inverters, connecting controllers to the energy storage components, connecting a first plurality of the controllers to the DC bus to regulate bidirectional flow of energy between the DC bus and the first plurality of energy storage components and connecting a second plurality of the controllers to the AC bus to regulate bidirectional flow of energy between the AC bus and the second plurality of energy storage components. The controllers may be interconnected with a local energy storage system bus and controlled via a master microgrid controller connected to the local energy storage system bus. The controllers may have a state of charge and a state of health algorithm adapted to measure the state of charge and the state of health of the energy storage components under dynamic charge or discharge conditions.
    • 用于有效利用微电网内的能量存储部件的方法可以包括以下步骤:通过开关将第一多个能量存储部件连接到DC总线,通过逆变器将第二多个能量存储部件连接到AC总线,将控制器连接到 能量存储部件,将第一多个控制器连接到DC总线以调节DC总线与第一多个能量存储部件之间的双向能量流动,并将第二多个控制器连接到AC总线以调节双向流动 AC总线与第二多个能量存储部件之间的能量。 控制器可以与本地能量存储系统总线互连,并通过连接到本地能量存储系统总线的主微控制器控制。 控制器可以具有充电状态和适应于在动态充电或放电条件下测量能量存储部件的充电状态和健康状态的健康状态算法。
    • 7. 发明授权
    • Hybrid power source
    • 混合电源
    • US08193761B1
    • 2012-06-05
    • US11937341
    • 2007-11-08
    • Harmohan N. Singh
    • Harmohan N. Singh
    • H02J7/14H02J7/00
    • H02J7/0068B60L3/0046B60L11/005B60L11/1853B60L11/1859B60L11/1862B60L11/1866B60L11/1887B60L2200/42B60L2210/10H02J2001/004Y02T10/7022Y02T10/7044Y02T10/7061Y02T10/7216Y02T10/92Y02T90/34Y10T307/615
    • A hybrid power system is comprised of a high energy density element such as a fuel-cell and high power density elements such as a supercapacitor banks. A DC/DC converter electrically connected to the fuel cell and converting the energy level of the energy supplied by the fuel cell. A first switch is electrically connected to the DC/DC converter. First and second supercapacitors are electrically connected to the first switch and a second switch. A controller is connected to the first switch and the second switch, monitoring charge levels of the supercapacitors and controls the switching in response to the charge levels. A load is electrically connected to the second switch. The first switch connects the DC/DC converter to the first supercapacitor when the second switch connects the second supercapacitor to the load. The first switch connects the DC/DC converter to the second supercapacitor when the second switch connects the first supercapacitor to the load.
    • 混合动力系统由诸如燃料电池的高能量密度元件和诸如超级电容器组的高功率密度元件组成。 电连接到燃料电池并转换由燃料电池供应的能量的能级的DC / DC转换器。 第一开关电连接到DC / DC转换器。 第一和第二超级电容器电连接到第一开关和第二开关。 控制器连接到第一开关和第二开关,监视超级电容器的充电电平并响应于充电电平来控制开关。 负载电连接到第二开关。 当第二开关将第二超级电容器连接到负载时,第一开关将DC / DC转换器连接到第一超级电容器。 当第二开关将第一超级电容器连接到负载时,第一开关将DC / DC转换器连接到第二超级电容器。
    • 8. 发明授权
    • Lithium-ion battery prognostic testing and process
    • 锂离子电池预测测试和工艺
    • US07576545B2
    • 2009-08-18
    • US11550566
    • 2006-10-18
    • Harmohan N. SinghJames S. Johnson
    • Harmohan N. SinghJames S. Johnson
    • G01N27/416
    • H01M10/0525G01R31/3634G01R31/3679H01M10/42H01M10/4285H01M10/48Y02T10/7011
    • In accordance with various embodiments, there are systems and methods for predicting end of life of a Li-ion battery. The method can include at least one of partially charging and partially discharging a battery, measuring an open circuit voltage of the battery before and after at least one of partial charging and partial discharging, and determining a state of charge value of the battery corresponding to the open circuit voltage measured before and after at least one of partial charging and partial discharging. The method can also include correlating at least one of a charge energy and a discharge energy with a change in the state of charge value and extrapolating to get a full battery capacity, tracking the full battery capacity as a function of time, and performing trend analysis of the full battery capacity over time to predict the battery's end of life.
    • 根据各种实施例,存在用于预测锂离子电池的使用寿命的系统和方法。 该方法可以包括部分地充电和部分地放电电池中的至少一个,在部分充电和部分放电中的至少一个之前和之后测量电池的开路电压,以及确定对应于电池的电池的充电状态 在部分充电和部分放电中的至少一个之前和之后测量的开路电压。 该方法还可以包括将充电能量和放电能量中的至少一个与充电状态状态的变化相关联并进行外插以获得完整的电池容量,跟踪作为时间的函数的全部电池容量,以及执行趋势分析 的电池容量随着时间的推移预测电池的使用寿命。
    • 9. 发明申请
    • LITHIUM-ION BATTERY PROGNOSTIC TESTING AND PROCESS
    • 锂离子电池预测试验和工艺
    • US20080094031A1
    • 2008-04-24
    • US11550566
    • 2006-10-18
    • Harmohan N. SinghJames S. Johnson
    • Harmohan N. SinghJames S. Johnson
    • H02J7/00
    • H01M10/0525G01R31/3634G01R31/3679H01M10/42H01M10/4285H01M10/48Y02T10/7011
    • In accordance with various embodiments, there are systems and methods for predicting end of life of a Li-ion battery. The method can include at least one of partially charging and partially discharging a battery, measuring an open circuit voltage of the battery before and after at least one of partial charging and partial discharging, and determining a state of charge value of the battery corresponding to the open circuit voltage measured before and after at least one of partial charging and partial discharging. The method can also include correlating at least one of a charge energy and a discharge energy with a change in the state of charge value and extrapolating to get a full battery capacity, tracking the full battery capacity as a function of time, and performing trend analysis of the full battery capacity over time to predict the battery's end of life.
    • 根据各种实施例,存在用于预测锂离子电池的使用寿命的系统和方法。 该方法可以包括部分地充电和部分地放电电池中的至少一个,在部分充电和部分放电中的至少一个之前和之后测量电池的开路电压,以及确定对应于电池的电池的充电状态 在部分充电和部分放电中的至少一个之前和之后测量的开路电压。 该方法还可以包括将充电能量和放电能量中的至少一个与充电状态状态的变化相关联并进行外插以获得完整的电池容量,跟踪作为时间的函数的全部电池容量,以及执行趋势分析 的电池容量随着时间的推移预测电池的使用寿命。