Electric vehicle power management systems
    1.
    发明授权
    Electric vehicle power management systems 有权
    电动车电源管理系统

    公开(公告)号:US09283862B2

    公开(公告)日:2016-03-15

    申请号:US14338427

    申请日:2014-07-23

    申请人: GridPoint, Inc.

    摘要: A system that enables power flow management for electrical devices, such as electric vehicles. Power flow managers can coordinate charging activities. Power flow decisions may be based on site-level information. Power flow management strategies may be optimized. Power spikes may be avoided by using safe failure modes. Generation stacks may be used for reducing cost. AGC commands are used to control power resources. Power regulation are apportioned to power resources, and power regulation ranges may be determined. Power flow strategies are implemented in response to changes in intermittent power flow. Locations of devices may be determined using network fingerprints. Power flow measurements are determined, and AC power flows are inferred from DC power flows. Network traffic consumption are minimized. Communication protocols are translated. Enhanced vehicle communications are provided that communicate to vehicle subsystems, that arbitrate smart charge points, and that use existing hardware, non-specific hardware, or control extensibility systems.

    摘要翻译: 一种能够对电气设备(如电动汽车)进行电力流量管理的系统。 电力经理可以协调充电活动。 功率流决定可以基于站点级信息。 电力流量管理策略可能会被优化。 使用安全故障模式可以避免电源尖峰。 生成堆可以用于降低成本。 AGC命令用于控制电源。 功率调节分配给电源,可以确定功率调节范围。 功率流策略是为了响应间歇功率流的变化而实现的。 可以使用网络指纹来确定设备的位置。 确定功率流测量,并从直流功率流推断交流电流。 网络流量消耗最小化。 通信协议被翻译。 提供了与车辆子系统通信,仲裁智能充电点以及使用现有硬件,非特定硬件或控制可扩展性系统的增强型车辆通信。

    ELECTRIC VEHICLE POWER MANAGEMENT SYSTEMS
    5.
    发明申请
    ELECTRIC VEHICLE POWER MANAGEMENT SYSTEMS 有权
    电动车辆电力管理系统

    公开(公告)号:US20150202976A1

    公开(公告)日:2015-07-23

    申请号:US14338427

    申请日:2014-07-23

    申请人: GridPoint, Inc.

    IPC分类号: B60L11/18

    摘要: A system that enables power flow management for electrical devices, such as electric vehicles. Power flow managers can coordinate charging activities. Power flow decisions may be based on site-level information. Power flow management strategies may be optimized. Power spikes may be avoided by using safe failure modes. Generation stacks may be used for reducing cost. AGC commands are used to control power resources. Power regulation are apportioned to power resources, and power regulation ranges may be determined. Power flow strategies are implemented in response to changes in intermittent power flow. Locations of devices may be determined using network fingerprints. Power flow measurements are determined, and AC power flows are inferred from DC power flows. Network traffic consumption are minimized. Communication protocols are translated. Enhanced vehicle communications are provided that communicate to vehicle subsystems, that arbitrate smart charge points, and that use existing hardware, non-specific hardware, or control extensibility systems.

    摘要翻译: 一种能够对电气设备(如电动汽车)进行电力流量管理的系统。 电力经理可以协调充电活动。 功率流决定可以基于站点级信息。 电力流量管理策略可能会被优化。 使用安全故障模式可以避免电源尖峰。 生成堆可以用于降低成本。 AGC命令用于控制电源。 功率调节分配给电源,可以确定功率调节范围。 功率流策略是为了响应间歇功率流的变化而实现的。 可以使用网络指纹来确定设备的位置。 确定功率流测量,并从直流功率流推断交流电流。 网络流量消耗最小化。 通信协议被翻译。 提供了与车辆子系统通信,仲裁智能充电点以及使用现有硬件,非特定硬件或控制可扩展性系统的增强型车辆通信。

    SYSTEMS AND METHODS FOR SMART CHARGING TECHNIQUES, VALUE AND GUARANTEE
    6.
    发明申请
    SYSTEMS AND METHODS FOR SMART CHARGING TECHNIQUES, VALUE AND GUARANTEE 审中-公开
    智能充电技术,价值和保证的系统和方法

    公开(公告)号:US20130184886A1

    公开(公告)日:2013-07-18

    申请号:US13731320

    申请日:2012-12-31

    申请人: GRIDPOINT, INC.

    IPC分类号: G05D11/00

    摘要: A system and methods that enables smart charging for electric resources. A smart charging method may include smart charging customer guarantees. The charging behavior guarantee may comprise a guaranteed charging schedule that matches a regular charging schedule of an electric resource and provides power flow flexibility. A smart charging method may also include periodically updated schedules. In addition, a smart charging method may manage electric resources via a smart charging benefit analysis. A smart charging benefit may include an impact resulting from the energy management system which is beneficial to an electric resource. A smart charging method may manage the charging behavior of the electric resources on a grid based on the smart charging benefit. Further, a smart charging method may manage electric resources via a smart charging benefit analysis and smart charging customer guarantees. A smart charging method also may schedules with overrides, and may involve a method for local load management in the presence of uncontrolled loads. A smart charging method for managing electric resources may also provide direct control over prices-to-devices enabled devices.

    摘要翻译: 一种能够为电力资源实现智能充电的系统和方法。 智能充电方法可以包括智能充电客户保证。 充电行为保证可以包括与电力资源的常规计费方案相匹配的保证充电计划,并且提供功率流灵活性。 智能计费方法还可以包括定期更新的计划。 此外,智能充电方法可以通过智能充电收益分析来管理电力资源。 智能充电收益可能包括对电力资源有利的能源管理系统产生的影响。 智能充电方法可以基于智能充电收益来管理电网上的电力资源的充电行为。 此外,智能充电方法可以通过智能充电收益分析和智能充电客户保证来管理电力资源。 智能计费方法还可以用覆盖进行调度,并且可能涉及在存在不受控制的负载的情况下进行本地负载管理的方法。 用于管理电力资源的智能计费方法还可以直接控制价格到设备启用的设备。