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    • 2. 发明授权
    • Micromagnetic device and method of forming the same
    • 微磁装置及其形成方法
    • US08339232B2
    • 2012-12-25
    • US13076034
    • 2011-03-30
    • Ashraf W. LotfiTrifon M. LiakopoulosRobert W. FilasAmrit Panda
    • Ashraf W. LotfiTrifon M. LiakopoulosRobert W. FilasAmrit Panda
    • H01F5/00
    • H01F27/2804H01F5/00H01F17/0006H01F27/24H01F27/245H01F27/29H01F41/046H01F2017/0066H01F2027/2809Y10T428/24331
    • A micromagnetic device includes a first insulating layer formed above a substrate, a first seed layer formed above the first insulating layer, a first conductive winding layer selectively formed above the first seed layer, and a second insulating layer formed above the first conductive winding layer. The micromagnetic device also includes a first magnetic core layer formed above the second insulating layer, a third insulating layer formed above the first magnetic core layer, and a second magnetic core layer formed above the third insulating layer. The micromagnetic device still further includes a fourth insulating layer formed above the second magnetic core layer, a second seed layer formed above the fourth insulating layer, and a second conductive winding layer formed above the second seed layer and in vias to the first conductive winding layer. The first and second conductive winding layers form a winding for the micromagnetic device.
    • 微电磁器件包括形成在衬底上的第一绝缘层,形成在第一绝缘层之上的第一晶种层,选择性地形成在第一晶种层上方的第一导电绕组层以及形成在第一导电绕组层之上的第二绝缘层。 微磁体装置还包括形成在第二绝缘层上的第一磁芯层,形成在第一磁芯层上方的第三绝缘层和形成在第三绝缘层上的第二磁芯层。 微磁体还包括形成在第二磁芯层上方的第四绝缘层,形成在第四绝缘层之上的第二晶种层,以及形成在第二晶种层上方的第二导电绕组层和通向第一导电绕组层 。 第一和第二导电绕组层形成用于微磁装置的绕组。
    • 3. 发明授权
    • Micromagnetic device and method of forming the same
    • 微磁装置及其形成方法
    • US07920042B2
    • 2011-04-05
    • US11852688
    • 2007-09-10
    • Ashraf W. LotfiTrifon M. LiakopoulosRobert W. FilasAmrit Panda
    • Ashraf W. LotfiTrifon M. LiakopoulosRobert W. FilasAmrit Panda
    • H01F5/00
    • H01F27/2804H01F5/00H01F17/0006H01F27/24H01F27/245H01F27/29H01F41/046H01F2017/0066H01F2027/2809Y10T428/24331
    • A micromagnetic device includes a first insulating layer formed above a substrate, a first seed layer formed above the first insulating layer, a first conductive winding layer selectively formed above the first seed layer, and a second insulating layer formed above the first conductive winding layer. The micromagnetic device also includes a first magnetic core layer formed above the second insulating layer, a third insulating layer formed above the first magnetic core layer, and a second magnetic core layer formed above the third insulating layer. The micromagnetic device still further includes a fourth insulating layer formed above the second magnetic core layer, a second seed layer formed above the fourth insulating layer, and a second conductive winding layer formed above the second seed layer and in vias to the first conductive winding layer. The first and second conductive winding layers form a winding for the micromagnetic device.
    • 微电磁器件包括形成在衬底上的第一绝缘层,形成在第一绝缘层之上的第一晶种层,选择性地形成在第一晶种层上方的第一导电绕组层以及形成在第一导电绕组层之上的第二绝缘层。 微磁体装置还包括形成在第二绝缘层上的第一磁芯层,形成在第一磁芯层上方的第三绝缘层和形成在第三绝缘层上的第二磁芯层。 微磁体还包括形成在第二磁芯层上方的第四绝缘层,形成在第四绝缘层之上的第二晶种层,以及形成在第二晶种层上方的第二导电绕组层和通向第一导电绕组层 。 第一和第二导电绕组层形成用于微磁装置的绕组。
    • 5. 发明授权
    • Method of forming a micromagnetic device
    • 形成微磁装置的方法
    • US07955868B2
    • 2011-06-07
    • US11852689
    • 2007-09-10
    • Ashraf W. LotfiTrifon M. LiakopoulosRobert W. FilasAmrit Panda
    • Ashraf W. LotfiTrifon M. LiakopoulosRobert W. FilasAmrit Panda
    • H01L21/00
    • H01F41/046H01F17/0033H01F41/34H01L2224/11
    • A method of forming a micromagnetic device on a substrate including forming a first insulating layer above the substrate, a first seed layer above the first insulating layer, a first conductive winding layer above the first seed layer, and a second insulating layer above the first conductive winding layer. The method also includes forming a first magnetic core layer above the second insulating layer, a third insulating layer above the first magnetic core layer, and a second magnetic core layer above the third insulating layer. The method still further includes forming a fourth insulating layer above the second magnetic core layer, a second seed layer above the fourth insulating layer, and a second conductive winding layer above the second seed layer and in vias to the first conductive winding layer. The first and second conductive winding layers form a winding for the micromagnetic device.
    • 一种在基板上形成微磁体的方法,包括在基板上形成第一绝缘层,在第一绝缘层上方形成第一晶种层,在第一晶种层上方的第一导电绕组层,以及位于第一导电层上方的第二绝缘层 绕组层。 该方法还包括在第二绝缘层之上形成第一磁芯层,在第一磁芯层上方形成第三绝缘层,以及在第三绝缘层上方形成第二磁芯层。 该方法还包括在第二磁芯层上方形成第四绝缘层,在第四绝缘层之上形成第二种子层,以及在第二种子层上方的第二导电绕组层和通向第一导电绕组层的第二导电绕组。 第一和第二导电绕组层形成用于微磁装置的绕组。
    • 6. 发明授权
    • Power converter employing a micromagnetic device
    • 功率转换器采用微电磁装置
    • US07544995B2
    • 2009-06-09
    • US11852692
    • 2007-09-10
    • Ashraf W. LotfiTrifon M. LiakopoulosRobert W. FilasAmrit Panda
    • Ashraf W. LotfiTrifon M. LiakopoulosRobert W. FilasAmrit Panda
    • H01L29/76H01L31/062
    • H02M7/003H01F17/0033H01F41/046
    • A power converter including a power train, a controller and a driver. In one embodiment, the power train includes a switch that conducts for a duty cycle and provides a regulated output characteristic for the power converter, and a micromagnetic device. The micromagnetic device includes a first conductive winding layer selectively formed above a first seed layer, and first and second magnetic core layers formed thereabove. The micromagnetic device also includes a second seed layer formed above the second magnetic core layer, and a second conductive winding layer formed above the second seed layer and in vias to the first conductive winding layer. The first and second conductive winding layers form a winding for the micromagnetic device. The controller provides a signal to control the duty cycle of the switch, and the driver provides a drive signal to the switch as a function of the signal from the controller.
    • 一种功率转换器,包括传动系,控制器和驱动器。 在一个实施例中,动力传动系包括开关,用于占空比传导并为功率转换器提供稳定的输出特性,以及微型磁性装置。 该微电磁装置包括选择性地形成在第一种子层上的第一导电绕组层,以及在其上形成的第一和第二磁芯层。 微型磁性装置还包括形成在第二磁芯层上方的第二种子层,以及形成在第二籽晶层之上和第二导电绕组层的通孔中的第二导电绕组层。 第一和第二导电绕组层形成用于微磁装置的绕组。 控制器提供一个信号来控制开关的占空比,驱动器根据来自控制器的信号向开关提供驱动信号。
    • 7. 发明申请
    • Method of Forming a Micromagnetic Device
    • 形成微电磁装置的方法
    • US20090068761A1
    • 2009-03-12
    • US11852689
    • 2007-09-10
    • Ashraf W. LotfiTrifon M. LiakopoulosRobert W. FilasAmrit Panda
    • Ashraf W. LotfiTrifon M. LiakopoulosRobert W. FilasAmrit Panda
    • H01L21/00
    • H01F41/046H01F17/0033H01F41/34H01L2224/11
    • A method of forming a micromagnetic device on a substrate including forming a first insulating layer above the substrate, a first seed layer above the first insulating layer, a first conductive winding layer above the first seed layer, and a second insulating layer above the first conductive winding layer. The method also includes forming a first magnetic core layer above the second insulating layer, a third insulating layer above the first magnetic core layer, and a second magnetic core layer above the third insulating layer. The method still further includes forming a fourth insulating layer above the second magnetic core layer, a second seed layer above the fourth insulating layer, and a second conductive winding layer above the second seed layer and in vias to the first conductive winding layer. The first and second conductive winding layers form a winding for the micromagnetic device.
    • 一种在基板上形成微磁体的方法,包括在基板上形成第一绝缘层,在第一绝缘层上方形成第一晶种层,在第一晶种层上方的第一导电绕组层,以及位于第一导电层上方的第二绝缘层 绕组层。 该方法还包括在第二绝缘层之上形成第一磁芯层,在第一磁芯层上方形成第三绝缘层,以及在第三绝缘层上方形成第二磁芯层。 该方法还包括在第二磁芯层上方形成第四绝缘层,在第四绝缘层之上形成第二种子层,以及在第二种子层上方的第二导电绕组层和通向第一导电绕组层的第二导电绕组。 第一和第二导电绕组层形成用于微磁装置的绕组。
    • 8. 发明申请
    • Power Converter Employing a Micromagnetic Device
    • 使用微电磁设备的电源转换器
    • US20090066300A1
    • 2009-03-12
    • US11852692
    • 2007-09-10
    • Ashraf W. LotfiTrifon M. LiakopoulosRobert W. FilasAmrit Panda
    • Ashraf W. LotfiTrifon M. LiakopoulosRobert W. FilasAmrit Panda
    • G05F1/12G05F1/10
    • H02M7/003H01F17/0033H01F41/046
    • A power converter including a power train, a controller and a driver. In one embodiment, the power train includes a switch that conducts for a duty cycle and provides a regulated output characteristic for the power converter, and a micromagnetic device. The micromagnetic device includes a first conductive winding layer selectively formed above a first seed layer, and first and second magnetic core layers formed thereabove. The micromagnetic device also includes a second seed layer formed above the second magnetic core layer, and a second conductive winding layer formed above the second seed layer and in vias to the first conductive winding layer. The first and second conductive winding layers form a winding for the micromagnetic device. The controller provides a signal to control the duty cycle of the switch, and the driver provides a drive signal to the switch as a function of the signal from the controller.
    • 一种功率转换器,包括传动系,控制器和驱动器。 在一个实施例中,动力传动系包括开关,用于占空比传导并为功率转换器提供稳定的输出特性,以及微型磁性装置。 该微电磁装置包括选择性地形成在第一种子层上的第一导电绕组层,以及在其上形成的第一和第二磁芯层。 微型磁性装置还包括形成在第二磁芯层上方的第二种子层,以及形成在第二籽晶层之上和第二导电绕组层的通孔中的第二导电绕组层。 第一和第二导电绕组层形成用于微磁装置的绕组。 控制器提供一个信号来控制开关的占空比,驱动器根据来自控制器的信号向开关提供驱动信号。