SOSEN Launches New GAINEX Family Products
SOSEN recently introduced the GAINEX family with the CNH/SNH/NHV/NMV series of innovative LED driver for industrial lighting of highbay luminaires.
The CNH/SNH series (100-240W) and NH-V/NM-V series (80-320W) utilize smart programming technology, allowing users to freely set both the total power and the dip switch power.
The GAINEX family achieves an efficiency of up to 97% (277Vac) and 95% (120Vac), with a high-efficiency window of 260-300Vdc, downward compatible with 200Vdc. This reduces thermal loss by about 30%, greatly enhancing the lifetime and reliability of lighting products.
The GAINEX family’s unique intelligent emergency control can automatically detect emergency modes and intelligently switch to emergency settings. It allows users to freely set emergency power and duration, addressing key industry challenges.
The entire series is designed with high-temperature-resistant capacitors rated at 130°C, with a lifetime of up to 50,000 hours. The NH-V/NM-V series features an integrated housing design, significantly improving heat dissipation and reducing component temperature by 10°C.
The CNH/SNH series (100-240W) and NH-V/NM-V series (80-320W) utilize smart programming technology, allowing users to freely set both the total power and the dip switch power.
The GAINEX family achieves an efficiency of up to 97% (277Vac) and 95% (120Vac), with a high-efficiency window of 260-300Vdc, downward compatible with 200Vdc. This reduces thermal loss by about 30%, greatly enhancing the lifetime and reliability of lighting products.
The GAINEX family’s unique intelligent emergency control can automatically detect emergency modes and intelligently switch to emergency settings. It allows users to freely set emergency power and duration, addressing key industry challenges.
The entire series is designed with high-temperature-resistant capacitors rated at 130°C, with a lifetime of up to 50,000 hours. The NH-V/NM-V series features an integrated housing design, significantly improving heat dissipation and reducing component temperature by 10°C.
No comments: