HyperLight is the leading provider of end-to-end Thin-Film Lithium Niobate (TFLN) photonic integrated circuits (PIC) solutions. Our products offer exceptional electro-optic bandwidth, low energy consumption, and volume production capability, giving our customers a significant competitive advantage across a diverse range of market sectors.
From high-volume applications like telecom and datacom, to performance-driven applications such as radio-over-fiber, test and measurement, and quantum information processing, our product portfolio delivers outstanding performance and reliability. Contact us today to learn more about how HyperLight’s TFLN PICs can revolutionize your business.
Key Features
HyperLight provides end-to-end high-performance application-specific PIC solutions with fast turn-around time, through MPW and dedicated wafer runs. We work closely with our customers from conceptualization, design, prototyping, to transferring to volume production. Backed by expertise in both high volume production and low volume prototyping, HyperLight’s custom PICs provide a seamless development path for our customers to build innovative PIC solutions for their applications from ideas to products.
HyperLight provides end-to-end high-performance application-specific PIC solutions with fast turn-around time, through MPW and dedicated wafer runs. We work closely with our customers from conceptualization, design, prototyping, to transferring to volume production. Backed by expertise in both high volume production and low volume prototyping, HyperLight’s custom PICs provide a seamless development path for our customers to build innovative PIC solutions for their applications from ideas to products.
Reliable production-grade Foundry MPW
Cost efficient and short loop option for prototype-grade MPW
Low optical loss
Low coupling loss
Reference high-speed RF design for 100 GHz EO modulation
Fast turn-around time
Custom design options
Wafer-scale measurement and testing options
PDK/DRC support
Quantum photonics
AR/VR
Sensing and Navigation
Emerging optical communication methods
Visible photonics
Research and Development
Prototyping
Technology demonstration
