会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 6. 发明授权
    • Quickly replaceable processing-laser modules and subassemblies
    • 快速更换加工 - 激光模块和组件
    • US08126028B2
    • 2012-02-28
    • US12059426
    • 2008-03-31
    • George M. Clifford, Jr.
    • George M. Clifford, Jr.
    • H01S3/02F16M11/00
    • B23K26/0604B23K26/046B23K26/21B23K26/364B23K26/38H01S3/025H01S3/2383Y10T29/49826Y10T29/49895Y10T29/49904
    • Pre-aligned, kinematically mounted modules including processing lasers, beam trains, and individually calibrated control beams are quickly and easily replaced on subassembly bases with minimal in situ alignment, and can maintain working-spot position to micron tolerances over ambient temperature variations of ±10° C. Subassembly bases, with features for kinematically mating to a plurality of pre-aligned laser modules and to a platform base incorporated in the laser processing tool, enable multi-module subassemblies to be quickly replaced with spare subassemblies of the same type, or swapped for subassemblies of a different type. The mating features and reversible locks are designed to mitigate thermal effects that are often a dominant cause of alignment drift in processing lasers.
    • 预先对准的运动安装模块,包括处理激光器,光束列车和单独校准的控制光束,在组装基座上可以快速轻松地更换,并且可以将工件位置保持在微米公差的环境温度变化±10° 具有用于与多个预对准激光器模块运动学配合的特征以及结合在激光加工工具中的平台基座的子组件基座使多模块组件能够被相同类型的备用子组件快速更换,或 交换为不同类型的子组件。 配合特征和可逆锁被设计为减轻热效应,这些热效应通常是加工激光器中对准漂移的主要原因。
    • 8. 发明授权
    • Servo write method for magnetic tape
    • 磁带伺服写入方式
    • US07206167B2
    • 2007-04-17
    • US10696824
    • 2003-10-30
    • Patricia A. BeckPaul W. PoormanGeorge M. Clifford, Jr.Richard H. Henze
    • Patricia A. BeckPaul W. PoormanGeorge M. Clifford, Jr.Richard H. Henze
    • G11B5/23
    • G11B5/187G11B5/1871G11B5/4893G11B5/584G11B15/62Y10T29/49032Y10T29/49043Y10T29/49048Y10T29/49055Y10T29/4906Y10T29/49789Y10T29/49798
    • A batch fabrication technique is described that increases the manufacturing efficiency of servo write heads and also improves servo pattern definition for fine features, while reducing tape and head wear. Multiple heads are fabricated as a batch from one or more ferrite wafers. A nominally flat, large wafer surface and a contour suitable for uniform photoresist application and planar photolithography permit fine servo pattern definition. A rounded leading edge on the head creates an air bearing to reduce wear of the tape and of the head. Moreover, any head wear occurs at the leading edge rather than in the region of the head where the servo pattern is formed. The servo write head may have a substantially planar head surface. A leading edge is disposed adjacent to the head surface such that the tape contacts the leading edge before passing over the head surface. The leading edge is rounded to form an air bearing between the head surface and the tape. A rounded trailing edge may be disposed adjacent to the head surface such that the tape passes over the trailing edge after passing over the head surface. The head may be formed from an upper ferrite wafer having a non-magnetic spacer. Non-magnetic material is photolithographically defined to produce gaps above the spacer. The non-magnetic material may be photoresist, semiconductor materials, glass, metal or the like. The material may even be removed later to leave air gaps. The non-magnetic material forms a region where the field loops out to intersect the passing tape, thereby transferring a magnetic pattern to tape. Additionally, a lower ferrite wafer may be mated to the upper ferrite wafer to complete a magnetic circuit around the gaps. The upper or lower ferrite wafer may have a channel through which an inductive winding passes. Multiple heads may be formed through batch processing of the upper and lower ferrite wafers.
    • 描述了一种批量制造技术,其提高了伺服写入头的制造效率,并且还改善了精细特征的伺服模式定义,同时减少了磁带和磁头磨损。 多个头部从一个或多个铁氧体晶片制成批次。 标称平坦,大的晶片表面和适用于均匀光刻胶应用和平面光刻的轮廓允许精细的伺服模式定义。 头部圆角的前缘形成一个空气轴承,以减少磁带和磁头的磨损。 此外,任何头部磨损发生在前缘而不是在形成伺服图案的头部的区域中。 伺服写入头可以具有基本平坦的头表面。 前缘邻近头表面设置,使得带在通过头表面之前接触前缘。 前缘是圆形的,以在头表面和带之间形成空气轴承。 圆形的后缘可以邻近头部表面设置,使得带在经过头表面之后越过后缘。 头部可以由具有非磁性间隔物的上部铁氧体晶片形成。 非磁性材料被光刻定义以在间隔物上方产生间隙。 非磁性材料可以是光致抗蚀剂,半导体材料,玻璃,金属等。 材料甚至可以稍后移除以留下空隙。 非磁性材料形成区域,其中磁场循环出来以与通过的磁带相交,从而将磁性图案转印到磁带上。 此外,下部铁氧体晶片可以与上部铁氧体晶片配合,以在该间隙周围形成磁路。 上或下铁素体晶片可以具有感应绕组通过的通道。 可以通过上下铁素体晶片的批量处理形成多个头。
    • 9. 发明授权
    • Apparatus and method for adjusting external-cavity lasers
    • 用于调整外腔激光器的装置和方法
    • US07031353B2
    • 2006-04-18
    • US10374169
    • 2003-02-25
    • George M. Clifford, Jr.Geraint Owen
    • George M. Clifford, Jr.Geraint Owen
    • H01S3/10
    • H01S5/02248H01S3/0812H01S3/105H01S5/143
    • Adjustment of a tunable external-cavity laser is simplified by incorporating a mount that includes a base, a main body, a reflecting surface, a diffracting surface and a hinge coupling the main body to the base. The laser additionally includes a light source, a converging lens located to receive light from the light source, a tuning mirror and a pivoting arm on which the tuning mirror is mounted. The main body is bounded in part by two plane, external surfaces orthogonal to a common reference plane and angularly separated from one another by an angle. The reflecting surface has a spatial orientation defined by one of the external surfaces and is arranged to receive light from the lens. The diffracting surface has a spatial orientation defined by the other of the external surfaces, and diffracts light received from the reflecting surface towards the tuning mirror. The hinge is located opposite the angle and parallel to the reference plane.
    • 通过结合包括底座,主体,反射表面,衍射表面和将主体联接到基座的铰链的安装座来简化可调谐外腔激光器的调整。 激光器还包括光源,位于接收来自光源的光的会聚透镜,调光镜和安装调谐镜的枢转臂。 主体部分地由两个平面限定,外表面与公共参考平面正交并且彼此成角度地分开一角度。 反射表面具有由外表面中的一个限定的空间取向,并且被布置成接收来自透镜的光。 衍射表面具有由另一个外表面限定的空间取向,并且将从反射表面接收的光衍射到调谐镜。 铰链与角度相反并平行于参考平面。
    • 10. 发明授权
    • Alignment marks for tape head positioning
    • 磁带头定位对准标记
    • US06700729B1
    • 2004-03-02
    • US09691646
    • 2000-10-17
    • Patricia A. BeckGeorge M. Clifford, Jr.
    • Patricia A. BeckGeorge M. Clifford, Jr.
    • G11B2020
    • G11B5/4893G11B5/00826G11B5/56G11B5/584
    • A device for precision alignment of a write element of a tape head to a transport direction of a media that is transported across the tape head is disclosed. The tape head includes at least one alignment element that is cofabricated with the write element so that both the write element and the alignment element have a fixed orientation with respect to a magnetic axis of the tape head. The alignment element and the write element can be fabricated on the tape head using standard microelectronic photolithographic processes. Preferably, the tape head includes a plurality of alignment elements. Those alignment elements are operative to write alignment transitions onto the media. The alignment transitions can be observed to determine if they are indicative of the write element having a predetermined orientation with respect to the transport direction. A read transducer can be used to generate signals from the alignment transitions and those signals can be analyzed to determine if the predetermined orientation of the write element has been achieved. The tape head can include horizontal and/or vertical elements for a gross visual alignment of the tape head to the media. The alignment transitions can be read by a data element of a separate data head. A signal from the data element can be used to adjust the azimuth of the data head with respect to a direction of transport. In servo writer applications where servo code is prerecorded on the media, the alignment transitions can be used to align the write elements of a servo write head to the transport direction of the media so that inter band skew between adjacent servo bands is significantly reduced.
    • 公开了一种用于将带头的写入元件精确对准到跨磁带头传送的介质的输送方向的装置。 带头包括与写入元件共同构成的至少一个对准元件,使得写入元件和对准元件相对于磁带头的磁轴具有固定取向。 可以使用标准微电子光刻工艺在带头上制造对准元件和写入元件。 优选地,带头包括多个对准元件。 这些对准元件可操作以将对准转变写入到介质上。 可以观察对准转换以确定它们是否表示相对于输送方向具有预定取向的写入元件。 读取换能器可用于从对准转换产生信号,并且可以分析这些信号以确定是否已经实现了写入元件的预定取向。 带头可以包括水平和/或垂直元件,用于将磁带头与介质的总体视觉对准。 对齐转换可以由单独数据头的数据元素读取。 可以使用来自数据元素的信号来相对于传送方向调整数据头的方位角。 在伺服写入器应用中,伺服代码被预先记录在介质上,对准转换可用于将伺服写入头的写入元件与介质的传输方向对齐,以使相邻伺服带之间的带间偏移明显减小。