Add to ORKGThis paper presents the development of a novel flexure-based micromanipulator for the alignment of optical components (Figure 1). The realized device is based on a six-axis parallel mechanism and piezo-positioners using stick-slip principle and providing nanometre resolution. Results of this paper show that the flexure-based design allows realizing nanometre steps with the moving platform in all axes
Micro assembly is typically characterised by positioning tolerances below a few micro meters. In the...
Despite major progress in developing brilliant laser sources a huge potential for cost reductions ca...
ABSTRACT A small-scale flexure-based gripper was designed for manipulation tasks requiring precision...
In this paper details on the analysis and optimization of a flexure-based micromanipulator for the a...
This paper presents the design, development, and control of a large range beam flexure-based nano se...
In this paper, a novel micro-scale nano-manipulator capable of positioning in six degrees of freedom...
This paper presents the design, development, and control of a large range beam flexure-based nano se...
For high accuracy alignment of optical components in optical instruments TNO TPD has developed dedic...
A six degree-of-freedom (6-DOF) parallel positioning system with high resolution, high repeatability...
A six degree-of-freedom (6-DOF) parallel positioning system with high resolution, high repeatability...
A six degree-of-freedom (6-DOF) parallel positioning system with high resolution, high repeatability...
The rapidly expanding fields of micro and nano engineering, biotechnology and medical sciences have ...
Based on the requirements from producing miniaturized laser systems, a concept for a flexible robot-...
In this paper, a novel, compact and three de-gree-of-freedoms (DOFs) micropositioner with large trav...
Micromanipulators and micropositioners are used to manipulate movement of minute objects under a mic...
Micro assembly is typically characterised by positioning tolerances below a few micro meters. In the...
Despite major progress in developing brilliant laser sources a huge potential for cost reductions ca...
ABSTRACT A small-scale flexure-based gripper was designed for manipulation tasks requiring precision...
In this paper details on the analysis and optimization of a flexure-based micromanipulator for the a...
This paper presents the design, development, and control of a large range beam flexure-based nano se...
In this paper, a novel micro-scale nano-manipulator capable of positioning in six degrees of freedom...
This paper presents the design, development, and control of a large range beam flexure-based nano se...
For high accuracy alignment of optical components in optical instruments TNO TPD has developed dedic...
A six degree-of-freedom (6-DOF) parallel positioning system with high resolution, high repeatability...
A six degree-of-freedom (6-DOF) parallel positioning system with high resolution, high repeatability...
A six degree-of-freedom (6-DOF) parallel positioning system with high resolution, high repeatability...
The rapidly expanding fields of micro and nano engineering, biotechnology and medical sciences have ...
Based on the requirements from producing miniaturized laser systems, a concept for a flexible robot-...
In this paper, a novel, compact and three de-gree-of-freedoms (DOFs) micropositioner with large trav...
Micromanipulators and micropositioners are used to manipulate movement of minute objects under a mic...
Micro assembly is typically characterised by positioning tolerances below a few micro meters. In the...
Despite major progress in developing brilliant laser sources a huge potential for cost reductions ca...
ABSTRACT A small-scale flexure-based gripper was designed for manipulation tasks requiring precision...