Freely installable on machines! Active as a power supply source for IoT devices in factories such as dimly lit plants.
The "Self-Powered LoRa Wireless Communication Vibration Sensor" can provide sufficient power generation in indoor environments compared to conventional silicon solar cells. It features an intrinsically safe explosion-proof structure using a light power generation element (SQ-DSSC) that can generate power in low-light environments. It is certified for explosion-proof use in Class I hazardous locations (Zone 1). With a sensor part that has a maximum cable length of 3 meters, it can be freely installed on equipment. It serves as a power supply source for IoT devices in dimly lit factories and similar environments. 【Features】 ■ Uses a light power generation element (SQ-DSSC) that can generate power in low-light environments as a self-powered source ■ Certified for explosion-proof use in special hazardous locations (Zone 0) ■ Provides sufficient power generation in indoor environments compared to conventional silicon solar cells ■ Serves as a power supply source for IoT devices in dimly lit factories and similar environments ■ Freely installable on equipment with a sensor part that has a maximum cable length of 3 meters *For more details, please refer to the PDF document or feel free to contact us.
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【Other Features】 ■ Sensor specifications can be freely customized (non-explosion-proof specifications, consultation required) ■ Explosion-proof performance: Ex ia IIC T6 ■ Protection rating: IP66 ■ Usable in 200lx environments *For more details, please refer to the PDF document or feel free to contact us.
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For more details, please refer to the PDF document or feel free to contact us.
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InQs Corporation has developed a material that can generate electricity even from invisible light using high-purity SiO2. Unlike conventional silicon solar cells, which are limited to specific locations, this technology absorbs a wide range of light and generates electricity, allowing for the installation of colorless and transparent photovoltaic elements on windows, exterior walls, and other surfaces of buildings and vehicles. Additionally, we have created ultra-low illuminance photovoltaic elements that can generate electricity efficiently even in indoor environments. We will continue to discover new functionalities from familiar materials and engage in the development and design planning of distinctive products that leverage these characteristics.