This promotional package includes a SQ-610-SS Extended Photosynthetically Active Radiation (ePAR) sensor with a 30 cm cable, a microCache Bluetooth micro-logger, an AA-090 protective Neoprene Case, an extra 2545 microCache battery, and an AM-020 Apogee PVC Sensor Platform. When paired, these two devices are a powerful tool for monitoring total photon flux intensity with research-grade accuracy for optimal specimen growth. The new SQ-610 ePAR was created in 2021 to measure the newly defined 400-750 nm ePAR radiation range that emerging research is showing to be photosynthetically active beyond the traditional 400-700 nm range. Many next generation LED fixtures, the sun, and other light sources emit these extended photosynthetic wavelengths, but they have not been measurable by traditional PAR meters until now. Much of the transformative work to define the ePAR range was conducted by Dr. Shuyang Zhen and Dr. Bruce Bugbee at Utah State University's Crop Physiology Laboratory.
Specifications | |
---|---|
Communication Protocol | Bluetooth® Low Energy (Bluetooth 4.0+) |
Bluetooth Range | ~45 m (line-of-sight) |
Data Log Capacity | Over 400,000 Entries |
Battery Type | 2/3 AA 3.6 Volt Lithium Battery |
Battery Life | 1 year w/ 10-second sampling interval and an average of 5 minutes daily connected time |
Operating Environment | -40 to 85 C |
Dimensions | 66 mm length, 50 mm width, 18 mm height |
This promotional package includes a SQ-610-SS Extended Photosynthetically Active Radiation (ePAR) sensor with a 30 cm cable, a microCache Bluetooth micro-logger, an AA-090 protective Neoprene Case, an extra 2545 microCache battery, and an AM-020 Apogee PVC Sensor Platform. When paired, these two devices are a powerful tool for monitoring total photon flux intensity with research-grade accuracy for optimal specimen growth. The new SQ-610 ePAR was created in 2021 to measure the newly defined 400-750 nm ePAR radiation range that emerging research is showing to be photosynthetically active beyond the traditional 400-700 nm range. Many next generation LED fixtures, the sun, and other light sources emit these extended photosynthetic wavelengths, but they have not been measurable by traditional PAR meters until now. Much of the transformative work to define the ePAR range was conducted by Dr. Shuyang Zhen and Dr. Bruce Bugbee at Utah State University's Crop Physiology Laboratory.
Specifications | |
---|---|
Communication Protocol | Bluetooth® Low Energy (Bluetooth 4.0+) |
Bluetooth Range | ~45 m (line-of-sight) |
Data Log Capacity | Over 400,000 Entries |
Battery Type | 2/3 AA 3.6 Volt Lithium Battery |
Battery Life | 1 year w/ 10-second sampling interval and an average of 5 minutes daily connected time |
Operating Environment | -40 to 85 C |
Dimensions | 66 mm length, 50 mm width, 18 mm height |