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    • 4. 发明授权
    • Power electronic module cooling system and method
    • 电力电子模块冷却系统及方法
    • US07616442B1
    • 2009-11-10
    • US12109849
    • 2008-04-25
    • Mehdi Kaveh
    • Mehdi Kaveh
    • H05K7/20
    • H05K7/20918
    • An improved cooling mechanism for a power electronics device is provided. More specifically, a cooling mechanism is provided wherein an air directing structure with a finite air-flow resistance is deployed in a cooling channel adjacent to a heatsink in a first cooling zone, such that some portion of the cooling air is forced through the heatsink while the rest of the cooling air bypasses the heatsink to provide additional cooling air to a second cooling zone. Additionally, the air-flow resistance of the air directing structure can be chosen so that the fan operates at its optimal point (maximum power input to the air).
    • 提供了一种用于电力电子设备的改进的冷却机构。 更具体地,提供了一种冷却机构,其中具有有限的气流阻力的空气引导结构被布置在与第一冷却区中的散热器相邻的冷却通道中,使得冷却空气的某些部分被迫通过散热器,同时 冷却空气的其余部分绕过散热器以向第二冷却区提供额外的冷却空气。 此外,可以选择空气引导结构的气流阻力,使得风扇以其最佳点(最大功率输入到空气)运行。
    • 5. 发明申请
    • POWER ELECTRONIC MODULE COOLING SYSTEM AND METHOD
    • 电力电子模块冷却系统及方法
    • US20090268405A1
    • 2009-10-29
    • US12109849
    • 2008-04-25
    • Mehdi Kaveh
    • Mehdi Kaveh
    • H05K7/20
    • H05K7/20918
    • An improved cooling mechanism for a power electronics device is provided. More specifically, a cooling mechanism is provided wherein an air directing structure with a finite air-flow resistance is deployed in a cooling channel adjacent to a heatsink in a first cooling zone, such that some portion of the cooling air is forced through the heatsink while the rest of the cooling air bypasses the heatsink to provide additional cooling air to a second cooling zone. Additionally, the air-flow resistance of the air directing structure can be chosen so that the fan operates at its optimal point (maximum power input to the air).
    • 提供了一种用于电力电子设备的改进的冷却机构。 更具体地,提供了一种冷却机构,其中具有有限的气流阻力的空气引导结构被布置在与第一冷却区中的散热器相邻的冷却通道中,使得冷却空气的某些部分被迫通过散热器,同时 冷却空气的其余部分绕过散热器以向第二冷却区提供额外的冷却空气。 此外,可以选择空气引导结构的气流阻力,使得风扇以其最佳点(最大功率输入到空气)运行。