Technical Description
The invention introduces a novel method for achieving precision guidance through a double parallelogram flexure mechanism operating in a vertical plane. By optimizing the geometry of the beam pairs and accounting for the weights of the associated masses, this method effectively minimizes parasitic errors, ensuring accurate displacement control even when subjected to transverse forces.
Problems Addressed
- Bulky Device Structure
- Limited Frequency Coverage
- High Fabrication Cost
- Poor Broadband Absorption
- Narrowband Compatibility
- Restricted GHz–THz Absorption
- Incoherent Light Limitations
- Inefficient Loss Medium Design
- Lack of Configurability
Tech Features
- Broadband Absorption
- Graphene-Based Design
- Coherent Perfect Absorption
- Enhanced Impedance Matching
- Compact Non-Metallic Build
- Cost-Effective Fabrication
- Doped Monolayer Graphene
- Low-Frequency Absorption
Target Audience
- Aerospace & Defence Industries
- Automotive & EV Industry Engineers
- Medical Device Manufacturers
- Researchers and Development
Tech ID: P16-1416 TRL 3 Patent Status: Granted Available For Exclusive and Non-exclusive License
Email: tech@ipbazzaar.com