BUSINESS
Communication
low earth orbit satellite (LEO)
In low Earth orbit (LEO) satellites, RF components must meet several requirements to ensure stable performance.
Radiation resistance prevents performance degradation by offering protection against radiation exposure in space, while temperature stability ensures operation even in extreme high and low temperatures.
Additionally, miniaturization and weight reduction are essential to reduce the size and weight of the satellite, and high reliability is required for long-term operation without maintenance.
Since satellite power resources are limited, low power consumption is critical, and wide frequency bandwidth and high-frequency performance are also necessary to support broad frequency ranges.
RF components from RF-NISSI that meet these requirements enhance the efficiency and reliability of satellite communication and data transmission.
6th-Generation
6G mobile communications are expected to revolutionize our lives by introducing new paradigms beyond ultra-high speeds, ultra-low latency, and ultra-connectivity, including autonomous driving, artificial intelligence, immersive experiences, and digital twins.
To enable these innovative services, it is essential to overcome the limitations of existing communication systems and meet new performance requirements with high-performance RF components.
In preparation for the 6G era, RF-NISSI offers multifunctional beamforming ICs based on proprietary CMOS design technology, enabling high-precision and high-gain communication. They also provide RF front-end module solutions with high power and low noise performance, thanks to their own compound semiconductor design technology. Additionally, RF-NISSI offers adaptive power management solutions for low-power operation of RF front-ends, providing the optimal RF component solutions suited for the 6G mobile communications era.