We provide high-performance nanophotonic devices required for next-generation optical interconnects, including microlens arrays, optical coupling components, diffractive optical elements, and waveguide components. Using automotive-grade high-reliability materials, we deliver high precision and high throughput to support the evolution of optical communications in the AI and data-center era.
We achieve high molding accuracy. Pitch in particular can be controlled at the nanometer level.
We use materials that have passed automotive-grade reliability tests, enabling mass production that meets demanding quality standards.
We can fabricate master molds in-house, significantly shortening lead times from prototyping to mass production.
Direct molding into resin without a substrate is possible, minimizing crosstalk.
We provide optical design support using hybrid electromagnetic and ray-tracing simulations.
We can handle contract manufacturing from hundreds of thousands to millions of units per month, supporting everything from production launch to stable supply.
| Item | Specifications / Supported Range |
|---|---|
| Supported Devices | MLA (microlens arrays), diffraction gratings, waveguides, grating couplers |
| Pitch Accuracy | nm-level control |
| Substrate Size | 2″–8″ (please consult us separately for 12″) |
| Materials | Materials compatible with automotive-grade reliability testing |
| Molding Method | Substrate molding / substrate-free direct molding |
| Production Scale | Hundreds of thousands to millions of units per month |
| Lead Time (Prototype) | As fast as 2 weeks |
We also accept fabrication of modules for evaluation purposes. This image shows an example in which a micro LED array and MLA are aligned.
Direct molding into resin eliminates the need for a substrate. Thinning significantly reduces crosstalk.
Left: Micro LED / Right: Image after light collection by MLA
MLA Image for NPO
We will propose a solution tailored to your specifications and production scale. Please feel free to contact us.
