公开(公告)号：US20070080762A1

公开(公告)日：2007-04-12

申请号：US11633850

申请日：2006-12-04

申请人： Heinz Bohlen ,  Yanxia Li ,  Paul Krzeminski ,  Edmund Davies ,  Robert Tornoe

发明人： Heinz Bohlen ,  Yanxia Li ,  Paul Krzeminski ,  Edmund Davies ,  Robert Tornoe

IPC分类号： H01P7/06

CPC分类号： H01J25/04 ,  H01J23/005 ,  H01J2223/005 ,  H01J2225/04

摘要： An inductive output tube (IOT) operates in a frequency range above 1000 MHz. An output window may be provided to separate a vacuum portion of the IOT from an atmospheric pressure portion of the IOT, the output window being surrounded by a cooling air manifold, the manifold including an air input port and a plurality of apertures permitting cooling air to move from the port, through the manifold and into the atmospheric pressure portion of the IOT. The output cavity may include a liquid coolant input port; a lower circular coolant channel coupled to receive liquid coolant from the liquid coolant input port; a vertical coolant channel coupled to receive liquid coolant from the lower circular coolant channel; an upper circular coolant channel coupled to receive liquid coolant from the vertical coolant channel; and a liquid coolant exhaust port coupled to receive liquid coolant from the upper circular coolant channel.

摘要翻译： 感应输出管（IOT）在1000 MHz以上的频率范围内工作。 可以提供输出窗口以将IOT的真空部分与IOT的大气压部分分离，输出窗被冷却空气歧管包围，歧管包括空气输入端口和多个孔，允许冷却空气 从端口移动通过歧管并进入IOT的大气压力部分。 输出腔可以包括液体冷却剂输入端口; 下部圆形冷却剂通道，其耦合以从液体冷却剂输入端口接收液体冷却剂; 垂直冷却剂通道，其联接以从下部圆形冷却剂通道接收液体冷却剂; 上部圆形冷却剂通道，其联接以从垂直冷却剂通道接收液体冷却剂; 以及液体冷却剂排出口，其联接以从上部圆形冷却剂通道接收液体冷却剂。

公开(公告)号：US20060091831A1

公开(公告)日：2006-05-04

申请号：US10982192

申请日：2004-11-04

申请人： Heinz Bohlen ,  Yanxia Li ,  Paul Krzeminski ,  Edmund Davies ,  Robert Tornoe

发明人： Heinz Bohlen ,  Yanxia Li ,  Paul Krzeminski ,  Edmund Davies ,  Robert Tornoe

IPC分类号： H05H13/00

CPC分类号： H01J25/04 ,  H01J23/005 ,  H01J2223/005 ,  H01J2225/04

摘要： An inductive output tube (IOT) operates in a frequency range above 1000 MHz. An output window may be provided to separate a vacuum portion of the IOT from an atmospheric pressure portion of the IOT, the output window being surrounded by a cooling air manifold, the manifold including an air input port and a plurality of apertures permitting cooling air to move from the port, through the manifold and into the atmospheric pressure portion of the IOT. The output cavity may include a liquid coolant input port; a lower circular coolant channel coupled to receive liquid coolant from the liquid coolant input port; a vertical coolant channel coupled to receive liquid coolant from the lower circular coolant channel; an upper circular coolant channel coupled to receive liquid coolant from the vertical coolant channel; and a liquid coolant exhaust port coupled to receive liquid coolant from the upper circular coolant channel.

公开(公告)号：US20060148290A1

公开(公告)日：2006-07-06

申请号：US11370708

申请日：2006-03-07

申请人： Wilson Toy ,  Christopher Yates ,  Paul Krzeminski ,  Robert Tornoe ,  Edmund Davies

发明人： Wilson Toy ,  Christopher Yates ,  Paul Krzeminski ,  Robert Tornoe ,  Edmund Davies

IPC分类号： H01R13/44

CPC分类号： H01J23/12 ,  E05D15/40 ,  Y10S439/911

摘要： A self-guiding cover assembly for a vacuum electron device (VED) enclosure has a cover, a pair of guide plates, and a pair of guide elements. The cover has a top, a sidewall, an inside and an outside, and at least one electrical connector disposed on the inside of the cover for mating with a VED. The pair of guide plates is disposed on opposite sides of the outside of the sidewall of the cover. The guide plates each have a track. The pair of guide elements is mounted on opposite sides of the outside of the sidewall of the cover. The pair of guide elements each mates with the track. The cover further comprises a breach lock mechanism for seating the VED into the VED enclosure having a base. The breach lock mechanism has guide elements mounted on the VED. A first sleeve is mounted on the base and removably receives the VED. A second sleeve is mounted on the base and removably receives the first sleeve. The second sleeve has tracks for mating with the guide elements. A rotation of the second sleeve pulls the VED into the base for seating the VED.

公开(公告)号：US20060154504A1

公开(公告)日：2006-07-13

申请号：US11370279

申请日：2006-03-07

申请人： Wilson Toy ,  Christopher Yates ,  Paul Krzeminski ,  Robert Tornoe ,  Edmund Davies

发明人： Wilson Toy ,  Christopher Yates ,  Paul Krzeminski ,  Robert Tornoe ,  Edmund Davies

IPC分类号： H01R13/44

CPC分类号： H01J23/12 ,  E05D15/40 ,  Y10S439/911

摘要： A self-guiding cover assembly for a vacuum electron device (VED) enclosure has a cover, a pair of guide plates, and a pair of guide elements. The cover has a top, a sidewall, an inside and an outside, and at least one electrical connector disposed on the inside of the cover for mating with a VED. The pair of guide plates is disposed on opposite sides of the outside of the sidewall of the cover. The guide plates each have a track. The pair of guide elements is mounted on opposite sides of the outside of the sidewall of the cover. The pair of guide elements each mates with the track. The cover further comprises a breach lock mechanism for seating the VED into the VED enclosure having a base. The breach lock mechanism has guide elements mounted on the VED. A first sleeve is mounted on the base and removably receives the VED. A second sleeve is mounted on the base and removably receives the first sleeve. The second sleeve has tracks for mating with the guide elements. A rotation of the second sleeve pulls the VED into the base for seating the VED.

摘要翻译： 用于真空电子器件（VED）外壳的自导向盖组件具有盖，一对引导板和一对引导元件。 盖具有顶部，侧壁，内部和外部，以及至少一个电连接器，其设置在盖的内侧以与VED配合。 一对导板设置在盖的侧壁的外侧的相对侧上。 导板各有轨道。 一对引导元件安装在盖的侧壁的外侧的相对侧上。 一对引导元件与轨道配合。 盖子还包括用于将VED安装到具有底座的VED外壳中的裂口锁定机构。 破裂锁定机构具有安装在VED上​​的引导元件。 第一套筒安装在基座上并可拆卸地接收VED。 第二套筒安装在基座上并可移除地容纳第一套筒。 第二套筒具有用于与导向元件配合的轨道。 第二套筒的旋转将VED拉入底座以便座VED。

公开(公告)号：US20060148289A1

公开(公告)日：2006-07-06

申请号：US11370429

申请日：2006-03-07

申请人： Wilson Toy ,  Christopher Yates ,  Paul Krzeminski ,  Robert Tornoe ,  Edmund Davis

发明人： Wilson Toy ,  Christopher Yates ,  Paul Krzeminski ,  Robert Tornoe ,  Edmund Davis

IPC分类号： H01R13/44

CPC分类号： H01J23/12 ,  E05D15/40 ,  Y10S439/911

摘要： A self-guiding cover assembly for a vacuum electron device (VED) enclosure has a cover, a pair of guide plates, and a pair of guide elements. The cover has a top, a sidewall, an inside and an outside, and at least one electrical connector disposed on the inside of the cover for mating with a VED. The pair of guide plates is disposed on opposite sides of the outside of the sidewall of the cover. The guide plates each have a track. The pair of guide elements is mounted on opposite sides of the outside of the sidewall of the cover. The pair of guide elements each mates with the track. The cover further comprises a breach lock mechanism for seating the VED into the VED enclosure having a base. The breach lock mechanism has guide elements mounted on the VED. A first sleeve is mounted on the base and removably receives the VED. A second sleeve is mounted on the base and removably receives the first sleeve. The second sleeve has tracks for mating with the guide elements. A rotation of the second sleeve pulls the VED into the base for seating the VED.