快速多通道光子学对准系统

用于对准光纤和光学部件的独特的、方便集成的子系统

压电陶瓷扫描仪可处理要求持久性、动态性和精度的高速、连续性扫描任务。XYZ组合或六轴六足位移台实现了更长行程。高性能控制器利用基于固件的程序控制所有轴,以实现多个输入和输出的同步优化。集成式程序可在可能的最短时间内执行单轴对准甚至复杂的多轴光纤阵列定位。用于启用检测、区域扫描和梯度搜索的有效算法可确保高工业生产率,处理时间最长为<0.6秒。客户可对其应用进行优化,以实现24小时全天候操作的最高生产率。用户友好型PIMikroMove®软件可实现对控制器所有功能的访问。

  • 参数化
  • 优化
  • 可视化

当然,所有这些功能也可通过一切常用编程语言实现,如Python、LabVIEW、C++和Matlab。

Fast Multi-Channel Photonics Alignment Systems

PI’s Fast Multi-Channel Photonics Alignment (FMPA) systems are based on a highly specialized digital motion controller (E-712) and a hybrid active alignment mechanism to achieve the required long travel ranges without sacrificing stability, resolution or alignment speed. FMPA is implemented in the E-712 controller’s modular firmware to enable fast, simultaneous alignment and tracking of multichannel couplings in multiple degrees of freedom. The efficient algorithms for first light detection, area scanning, and gradient search guarantee highest throughput in 24/7 operation.

Hexapods for Alignment

PI‘s hexapod-based photonics alignment systems provide 6 degrees of freedom motion. The hexapod controller has many built-in routines for commands finding first light and optimizing the alignment. An optional analog input can be used with optical power meters. The user-programmable pivot point is a significant advantage – it can be set to any location, for example the tip of a fiber, the waist of a beam or the surface of a SiP wafer.

Modular Alignment Engines

Modular alignment engines are based on a combination of linear stages and goniometers for rotation. In the case of the F-131, a Piezo XYZ scanner is mounted on an XYZ motorized stage for long travel. The piezo scanner allows for ultra-fast scanning and alignment, or for mapping the output characteristics of an optical device in fractions of a second.

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手册

光学元件和硅光子元件的对准

快速多通道光子学系统
版本/日期
BRO57E 2017-10
版本/日期
BRO57CN 2018-11
文件语言
pdf - 8 MB
pdf - 20 MB
白皮书

并联对准自动化的实际示例

版本/日期
WP4010E 2018-04
版本/日期
WP4010CN 2018-12
文件语言
pdf - 1 MB
pdf - 786 KB