DEVELOPMENT PARTNER FOR
ADVANCED MECHATRONIC SYSTEMS
Mechatronics & Precision Engineering
INGENIQS is a development partner for advanced mechatronic systems, specializing in the design and creation of custom machines, tools, test setups, and scientific instruments. With a strong focus on precision engineering and mechatronics, we guide every project from concept to completion.
Expert in the field
We have more than 10 years of experience in the development of high-tech machines, tools and equipment.
From idea to solution
We offer end-to-end engineering services from the initial idea to a fully tested and integrated system.
Trusted by Industry
Our customers include the world’s leading machine manufacturers who use our knowledge and experience.
Development of mechatronic systems
Feasibility Study
Concept & Design
FEM & Simulation
Realisation & Test
Precision Engineering
We excel in applying precision engineering design principles, ensuring control over degrees of freedom, mitigating hysteresis and micro slip, and incorporating elastic elements, all aimed at achieving sub-micrometer accuracy and repeatability.
Mechatronics
We understand how different components and subsystems interact and influence each other in a complex system. We analyze, design, optimize, and troubleshoot systems that involve mechanical, electrical, and software elements.
System Architecting
Creating multi-disciplinary systems necessitates the expertise of system architecture. With over a decade of experience, we bring a wealth of knowledge to the table.
Simulation & FEM
Utilizing advanced software tools, we can simulate performance during the design phase, thereby minimizing the need for extensive design iterations and ultimately reducing the overall development cost.
Vacuum Technology
We understand the fundamental principles of vacuum technology and the design principles necessary to attain ultra-clean vacuum conditions.
Thermal design & Analysis
Thermal effects impact the performance (accuracy, drift and lifetime) of precision machines and systems. We can model the thermal behavior and improve the design.