Press Releases

AmberSemi™ Announces AC Direct Sensing™ in Silicon Chip Architecture
AC Direct Sensing Represents AmberSemi’s Third Pillar of Core, Demonstratable Technologies, and the First Focused on Digital Awareness of Electricity DUBLIN, Calif., June 28, 2022

Amber Solutions Officially Announces Name Change to Amber Semiconductor, Inc.
The Leading Innovator of AC Direct Digital Management of Electricity in a Silicon Chip Updates Company Name to Cement its Presence in the Semiconductor Market

Amber Solutions AC Direct DC Enabler™ Demo Kit Now Available for Technical Evaluation by Product and Semiconductor Companies
Patented technology in silicon chip to extract DC power directly from AC mains for new power conversion architecture with dramatically smaller size, increased reliability, embedded intelligence, global compatibility, and dynamic configurable DC delivery.

New Amber Indestructible AC Switch™ Breaks Digital Barrier with Broad-Based Electrical Protection in Solid-state Architecture
Latest breakthrough protects solid-state architecture against short circuits, overvoltage, inductive load kickback, overcurrent, and overload conditions, creating a single, solid-state power system on a chip (PSOC) for intelligent circuit breakers, outlets, GFCIs, AFCIs, light switches, surge protectors, and more.

TIME Awards a Special Mention to Amber Solution’s AC Switch in its List of Best Inventions of 2021
Special recognition by Time, one of the world’s leading news magazines, caps a remarkable year of progress for the Silicon Valley start-up Amber Solutions that is revolutionizing electricity through its solid-state breakthrough technologies.

Amber Solutions Demonstrates Unique Indestructible Solid-State AC Switching, Digitally Suppressing Inductive Load Circuit Breaker Surge
Amber solid-state technologies are so advanced that they deliver the major advantages of smaller silicon chip-sized form factors, including advanced digital surge protection, arc free switching, increased switching speed by many thousands of times faster, and higher quality with enhanced reliability—even when paired with traditional electro-mechanical architecture, as shown in this video.