FORMING A PASSIVATION COATING FOR MEMS DEVICES

Microelectromechanical System for Moving a Mechanical Part in Two Opposite Directions

BIDIRECTIONAL MEMS DRIVING ARRANGEMENTS WITH A FORCE ABSORBING SYSTEM

Micromechanical structure and method of providing the same

Micromechanical structure, micromechanical system and method of providing a micromechanical structure

FORMING A PASSIVATION COATING FOR MEMS DEVICES

Methods for manufacturing micromechanical components and method for manufacturing a mould insert component

BIDIRECTIONAL MEMS DRIVING ARRANGEMENTS WITH A FORCE ABSORBING SYSTEM

Component especially for horology with surface topology and method for manufacturing the same

Micro electrostatic motor and micro mechanical force transfer devices

Micro electrostatic motor and micro mechanical force transfer devices

Methods for manufacturing micromechanical components and method for manufacturing a mould insert component

PROCESS FOR MANUFACTURING A HYBRID TIMEPIECE COMPONENT

Bidirectional MEMS driving arrangements with a force absorbing system

Mechanism for a timepiece and timepiece comprising such a mechanism

Methods and systems for micro machines

One-piece, hollow micromechanical part with several functional levels formed of a synthetic carbon allotrope based material

Composite timepiece and method for producing same

Low friction coating formed of boron-doped zinc oxide thin film and micromachine

Process for manufacturing a hybrid timepiece component

Method for manufacturing a micromechanical timepiece part and said micromechanical timepiece part

Micromechanical timepiece part comprising a lubricated surface and method for producing such a micromechanical timepiece part

Silicon-based component with at least one chamfer and its fabrication method

Micromechanical component with a reduced contact surface and its fabrication method

One-piece, hollow micromechanical part with several functional levels formed of a synthetic carbon allotrope based material

One-piece electroformed metal component

Method of fabricating a single-piece micromechanical component including at least two distinct functional levels

Functional micromechanical assembly

Method for making a timepiece component

Complex micromechanical part

Mould for galvanoplasty and method of fabricating the same

Method for making a reinforced silicon micromechanical part

Complex pierced micromechanical part

METHOD FOR COATING MICROMECHANICAL COMPONENTS OF A MICROMECHANICAL SYSTEM, IN PARTICULAR A WATCH AND RELATED MICROMECHANICAL COATED COMPONENT

Process for fabricating a monolayer or multilayer metal structure in LIGA technology, and structure obtained

Process for fabricating a monolayer or multilayer metal structure in LIGA technology, and structure obtained

DEVICE FOR CONVERTING A FIRST MOTION INTO A SECOND MOTION RESPONSIVE TO THE FIRST MOTION UNDER A DEMAGNIFICATION SCALE

Composite micromechanical component and method of fabricating the same

Silicon-metal composite micromechanical component and method of manufacturing the same

Mould for galvanoplasty and method of fabricating the same

Method of manufacturing multi-level, silicon, micromechanical parts and parts thereby obtained

Timepiece component and method for making same

Method of manufacturing a micromechanical part

Method of manufacturing a micromechanical part

Nanomachined mechanical components using nanoplates, methods of fabricating the same and methods of manufacturing nanomachines

Process for fabricating a monolayer or multilayer metal structure in LIGA technology, and structure obtained

Micro-structure formed of thin films

Three-dimensional lithographic fabrication technique

Method of producing micro component