Print MEMS Wire

MEMS Wire 3D Printing
using Robot Electrode

We want to walk with you in the
challenge of how far 3D printed
electronic components can be
shaped through the AMEBA 3D
(S-ECAM for 3D Structure) series of
machines.

Request for Information

MEMS Wire 3D Printing

01

Print Both Horizontal & Vertical Wires

Make MEMS higher Integration & Performance

S-ECAM will be developed to print both Horizontal and Vertical wires with the line width and spacing of 10 ㎛ or less for each, and to enable wires with an Aspect Ratio of 1:3 or more, a Step Difference of 100 ㎛ or more, and an Inclination Angle of 85 degrees or more for MEMS (Micro-Electro Mechanical Systems) module. As described above, S-CAM can significantly contribute to the performance improvement of electrical and electronic components by achieving high integration, high performance, and reduced cross-sectional area of MEMS & semiconductor modules.

Make MEMS higher Integration & Performance

02

Print Wires for MEMS & Devices

Optimization of Wiring Design for 3D Printing

S-ECAM analyzes the 3D CAD data of the surface geometry of MEMS-MEMS or MEMS-other device modules, optimizes
the moving path of the robot electrode by the software algorithm, and finally prints the horizontal and vertical wires
with the ultra-precision multi-axis control system. In order to print far higher-density wires between MEMS and MEMS
or MEMS and other devices such as semiconductors and LSI (Large Scale Integration) using S-ECAM, the wiring design
should be optimized for 3D printing in advance.

Optimization of Wiring Design for 3D Printing