2022年对于PI Ceramic来说是特别的一年,因为自1992年公司成立以来,已经过去了三十年。这也是总经理Patrick Pertsch博士回顾过往岁月、审视公司现状并畅谈未来挑战与机遇的恰当时机。
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如何将工业安全理念与六足位移台相结合
自动化生产流程中的手指、手或身体防护
Setting up and Adjusting a Fluorescent Microscope for Reliable Examination Results
PI Supports the GATTAscope Project
Fluorescent microscopy does not only help to make nanometer-small structures visible, but also to examine living cells and therefore explore the cell processes. In addition to preparing the sample, it is of paramount importance to set up and adjust the microscope properly to get usable results. This is exactly what the GATTAscope project is all about.
了解更多What is the Difference between a Piezo Actuator and a Programmable Piezo Shim?
New Tools for Design Engineers of Optics and Precision Mechanical Systems
· Stefan Vorndran
PIRest is a new and unique piezo technology, where the actuator keeps its expansion without a permanently applied voltage. This leads to a simple set-and-forget alignment method without limitation of the lifetime of the actuator.
了解更多New White Paper: Piezo Tip/Tilt Systems
Design – Performance – Tuning
Piezo tip/tilt systems from PI (Physik Instrumente) are versatile positioning systems ─ they are ideal for dynamic operation in applications such as scanning, tracking, for suppressing drift oscillation or dynamic image stabilizing. Piezo tip/tilt systems and scanners offer greater acceleration and dynamic bandwidth than similar actuators such as for example, voice coil or galvanometer scanners. Piezo tip/tilt systems developed by PI are also found in applications for quasistatic positioning of optics with high demands on "pointing stability".
了解更多机械和光学机械组件的稳定而准确的定位
基于压电陶瓷的线性促动器为光学组件的光路提供可靠而自动的对准
· Doris Knauer
如何以高分辨率和高稳定性调整光学组件的光路?基于压电陶瓷的线性促动器在实验中对机械和光学机械组件进行可靠而自动的对准,促动器的使用寿命超过十亿步,步长为20纳米,保持力 > 100牛。
了解更多前所未有:谐振运行中的多层促动器
利用电池电源产生超声波振荡
这篇文章讲解了谐振运行和低电压下多层促动器的这一特殊组合的特别之处。通过电池电源产生超声波振荡对于移动测量设备或医疗器械大有裨益。用于哮喘治疗的雾化器或眼科手术中的所谓超声手术刀是这方面的良好示例。
了解更多如何可靠地测量并评估相机的静态或视频图像质量?
DXOMARK使用PI六足位移台来模拟图像稳定测试中的相机运动
· Doris Knauer
尽管光线条件不佳依然可以拍摄清晰的照片,拍摄快照而不模糊,识别驾驶辅助系统中的交通标志,或识别监视系统中的危险情况-所有这一切如今都可以借助于现代相机而得以实现。然而相机或智能手机的静态和视频图像质量究竟如何?
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