Abstract
This paper proposes a novel hybrid serial-parallel mechanism with 6 degrees of freedom. The new mechanism combines two different parallel modules in a serial form. 3-P̲(PH) parallel module is architecture of 3 degrees of freedom based on higher joints and specializes in describing two planes’ relative pose. 3-P̲SP parallel module is typical architecture which has been widely investigated in recent researches. In this paper, the direct-inverse position problems of the 3-P̲SP parallel module in the couple mixed-type mode are analyzed in detail, and the solutions are obtained in an analytical form. Furthermore, the solutions for the direct and inverse position problems of the novel hybrid serial-parallel mechanism are also derived and obtained in the analytical form. The proposed hybrid serial-parallel mechanism is applied to regulate the immersion hood’s pose in an immersion lithography system. Through measuring and regulating the pose of the immersion hood with respect to the wafer surface simultaneously, the immersion hood can track the wafer surface’s pose in real-time and the gap status is stabilized. This is another exploration to hybrid serial-parallel mechanism’s application.
Highlights
Immersion lithography is a more advanced semiconductor technology compared with the traditional dry lithography
This paper proposes a novel hybrid serial-parallel mechanism with 6 degrees of freedom
The direct-inverse position analysis as the basic issue of the mechanical study is mainly discussed in this paper
Summary
Immersion lithography is a more advanced semiconductor technology compared with the traditional dry lithography. Romdhane [11] proposed a Stewart platform-like hybrid serial-parallel mechanism, obtained a closed-form solution of the forward analysis problem, and analyzed the orientation workspace in 1999. As the HS-PM is generally composed of several parallel mechanisms (regarded as its parallel module) with lower mobility, whether analytical form solutions can be obtained for the HS-PM’s direct-inverse position problem mainly depends on whether its parallel modules can. The analytical solutions for the direct-inverse position problems of 3-PSP PM in the coupled mixed-type mode are still absent. In this paper, according to the high precision regulation and real-time tracking demand of the IHPRM in the immersion lithography system, a new type of hybrid serial-parallel mechanism with 6 DOFs is proposed. The direct-inverse position problems of 3-PSP PM in the coupled mixed-type mode as the basis of the kinematic analysis are fully discussed in this paper.
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