![Kodiak Case Study](https://www.vicorpower.com/files/live/sites/vicor/files/images/resources-library/case-studies/automotive/Vicor-casestudy-Kodiak-02-medium.jpg?t=767)
高性能電源モジュールが動かす、自動運転長距離トラックの「目」
コディアック・ロボテックス社は、安全で効率のよい長距離トラック輸送のための自動運転技術に革新をもたらしました。
Bi-directional converter shrinks battery array to one cell for portable x-rays
Different vehicle voltages is accommodated by one solution for digital video recorders
A third more power in just 20% of the space for vehicle GPS applications
Wireless charging delivers next generation productivity for robotics and UAVs
High voltage bus converters significantly reduce installation costs for outdoor stadium lighting
Reliable operation in a tough environment for ore prospecting instrumentation
Fire alarm control unit uses DC‑DC supply and battery backup while increasing functionality
Scientific instrumentation gets twice the power without impacting the size of the equipment
Power solution operates in extreme temperatures for LEDs to display brighter lights, longer
Bi-directional converter shrinks battery array to one cell for portable x-rays
Handling a variety of user-defined output power requirements for medical carts
Industrial welding laser speed and accuracy improves using factorized power architecture
High efficiency converters help maximize run-time for autonomous warehouse robots
Wireless charging delivers next generation productivity for robotics and UAVs
Automated test equipment’s speed and throughput improves with factorized power architecture
高性能電源モジュールが動かす、自動運転長距離トラックの「目」
コディアック・ロボテックス社は、安全で効率のよい長距離トラック輸送のための自動運転技術に革新をもたらしました。
電動化/大電力化が進む産業機器市場に、先端の電源技術で対応するVicor
近年、産業機器市場では電動化やバッテリー駆動などの新技術トレンドが加速しており、Vicorがここ4~5年で特に力を入れて開発してきたHPCや車載技術を大いに活用することが可能です。
Redefining how electricity is distributed
Voltserver employs Vicor’s BCM6123 fixed ratio bus converter in the receiver portion of the Digital voltage system
Combating coastal erosion using renewable energy to expedite coral growth
The combo of the PRM and VTM allows for reasonably high-voltage DC to convert to quite low-voltage DC at relatively high current in a very efficient way