公开(公告)号：US07990246B2

公开(公告)日：2011-08-02

申请号：US11991805

申请日：2006-09-18

Applicant: Mikael Rolf Lindholm ,  Bengt Anderberg

Inventor： Mikael Rolf Lindholm ,  Bengt Anderberg

IPC: H01F27/24 ,  H01F27/06 ,  H01F21/04 ,  H01F21/02 ,  H01F27/28 ,  H01F27/29 ,  H01F27/30 ,  H01F7/06

CPC classification number: H01F19/08 ,  H01F27/2847 ,  H01F27/306 ,  H01F30/16 ,  Y10T29/49071

Abstract: A pulse transformer arrangement (100) is built from an uncut pulse transformer core (110) and at least one foil winding (120-A, 120-B) (each) comprising multiple insulated conducting strips arranged around the core and ending in foil winding terminals to form multiple independent primary windings. This new design principle has several advantages. Making the winding(s) of foil eliminates the need to cut the core, because of the ease of insertion of the foil winding(s) onto the core. The work to set up a plurality of primary windings is significantly reduced. In addition to the elimination of the costs for cutting the core, this also brings the further advantages of reduced DC reset current, reduced risk for electrical shorts and avoidance of excessive losses due to potential high frequency AC resistance problems.

Abstract translation: 脉冲变压器布置（100）由未切割的脉冲变压器芯（110）构成，并且至少一个箔绕组（120-A，120-B）（每个）包括布置在芯周围并以箔绕组结束的多个绝缘导电条 端子形成多个独立的初级绕组。 这种新的设计原理有几个优点。 由于易于将箔绕组插入到芯上，使得箔的绕组消除了切割芯的需要。 设置多个初级绕组的工作显着减少。 除了消除了切割核心的成本之外，这还带来了降低直流复位电流，降低电气短路风险和避免由于潜在的高频交流电阻问题引起的过大损耗的进一步优势。

公开(公告)号：US20090322462A1

公开(公告)日：2009-12-31

申请号：US11991805

申请日：2006-09-18

Applicant: Mikael Rolf Lindholm ,  Bengt Anderberg

Inventor： Mikael Rolf Lindholm ,  Bengt Anderberg

IPC: H01F27/28 ,  H01F41/06

CPC classification number: H01F19/08 ,  H01F27/2847 ,  H01F27/306 ,  H01F30/16 ,  Y10T29/49071

Abstract: A pulse transformer arrangement (100) is built from an uncut pulse transformer core (110) and at least one foil winding (120-A, 120-B) (each) comprising multiple insulated conducting strips arranged around the core and ending in foil winding terminals to form multiple independent primary windings. This new design principle has several advantages. Making the winding(s) of foil eliminates the need to cut the core, because of the ease of insertion of the foil winding(s) onto the core. The work to set up a plurality of primary windings is significantly reduced. In addition to the elimination of the costs for cutting the core, this also brings the further advantages of reduced DC reset current, reduced risk for electrical shorts and avoidance of excessive losses due to potential high frequency AC resistance problems.

Abstract translation: 脉冲变压器布置（100）由未切割的脉冲变压器芯（110）构成，并且至少一个箔绕组（120-A，120-B）（每个）包括布置在芯周围并以箔绕组结束的多个绝缘导电条 端子形成多个独立的初级绕组。 这种新的设计原理有几个优点。 由于易于将箔绕组插入到芯上，使得箔的绕组消除了切割芯的需要。 设置多个初级绕组的工作显着减少。 除了消除了切割核心的成本之外，这还带来了降低直流复位电流，降低电气短路风险和避免由于潜在的高频交流电阻问题引起的过大损耗的进一步优势。

公开(公告)号：US06486482B1

公开(公告)日：2002-11-26

申请号：US09462233

申请日：2000-05-30

Applicant: Bengt Anderberg ,  Mikael Lindholm

Inventor： Bengt Anderberg ,  Mikael Lindholm

IPC: G21G500

CPC classification number: G21K5/10 ,  A61L2/08 ,  A61L2/081 ,  A61L2202/122 ,  G21K5/04

Abstract: An arrangement and a method for irradiation of products by charged particles. The arrangement comprises a particle acceleration device and a radiation chamber, in which the products are irradiated from at least two sides, by that the particle beam is deflected with a scanning magnet and redeflected with redeflection magnets. The particle beam impinges on the products substantially parallel to the main normals of the surfaces of the products, which normals are positioned substantially perpendicular to the direction that the radiation axis has immediately before the deflection. An absorption means comprising a particle stopper is arranged in the space between the pole pieces of the redeflection magnets. A transport device for double-sided irradiation transports the products, which during transport are fixed to the transport device, through the irradiation arrangement.

Abstract translation: 带电粒子照射产品的布置和方法。 该装置包括粒子加速装置和辐射室，其中产品从至少两侧照射，粒子束用扫描磁体偏转并用重定向磁体重新折射。 粒子束基本上平行于产品表面的主要法线照射产品，该法线基本上垂直于辐射轴线在偏转之前具有的方向定位。 在重定向磁体的极片之间的空间中布置有包括粒子塞的吸收装置。 用于双面照射的运输装置通过照射装置将运输中的产品运送到运输装置。

公开(公告)号：US4623847A

公开(公告)日：1986-11-18

申请号：US621225

申请日：1984-06-15

Applicant: Bengt Anderberg ,  Mikael Eriksson

Inventor： Bengt Anderberg ,  Mikael Eriksson

IPC: H05H7/06 ,  H05H13/10 ,  H05H13/00 ,  H05H13/04

CPC classification number: H05H13/10 ,  H05H7/06

Abstract: Method and apparatus in a race-track microtron for storing an energy-rich electron beam. Electrons are accelerated by repeatedly passing them through a linear accelerator that is arranged between two bending magnets, which change the electrons path so that they repeatedly pass through the linear accelerator. The electrons thereby move in orbits (3 . . . 8) with a race-track-like configuration and have successively larger orbits. A deflecting magnet (9') and a septum magnet (9") are arranged in conjunction with the greatest orbit (8). The characteristic features of the invention is that the microtron has a storage ring (10) closed in itself, for accelerated electrons. The storage ring is situated outside the septum magnet (9") and in the pole gap of each bending magnet (6, 7). A kicker magnet (16) is arranged in the storage ring (10).

Abstract translation: 用于存储能量丰富的电子束的赛道微电子的方法和装置。 电子通过重复地使它们通过布置在两个弯曲磁体之间的线性加速器而被加速，线性加速器改变电子路径，使得它们重复地通过线性加速器。 因此，电子以轨道状配置的轨道（3 ... 8）移动，并且具有相继较大的轨道。 偏转磁体（9'）和隔膜磁体（9“）与最大轨道（8）结合布置。 本发明的特征在于，微电极本身具有封闭的存储环（10），用于加速电子。 存储环位于隔膜磁体（9“）的外侧和每个弯曲磁体（6,7）的磁极间隙中。 在储存环（10）中布置有踢击磁体（16）。