BRP715 LED50 WW Solar Pro 5 911401669808
Here is the parameter introduction of PHILIPS BRP715 LED50 WW Solar Pro 5:
Optical Parameters
Luminous Flux: It is usually 5000 lm, which can provide sufficient brightness for outdoor lighting312.
Color Temperature: The color temperature is 5700K, presenting a white - light - like daylight color, which can improve the clarity of the illuminated area2312.
Color Rendering Index: The color rendering index RA>70, which can better restore the true color of objects in the lighting environment2.
Electrical Parameters
Rated Voltage: The system voltage is generally 12.8V, which is the operating voltage of the built - in lithium - iron - phosphate battery312.
PV Power: The photovoltaic panel has a power of 25W, which can effectively convert solar energy into electrical energy312.
Solar Panel Voltage: The voltage of the solar panel is 18V, which is used to charge the battery through the controller312.
Battery Parameters
Battery Type: It uses a lithium - iron - phosphate battery, which has the advantages of high safety, long cycle life, and good high - and low - temperature performance2.
Battery Capacity: The battery capacity is 12Ah, which can store enough electrical energy to ensure the normal operation of the street lamp at night or on cloudy days312.
Performance Parameters
Protection Level: It reaches IP65/IK08. The IP65 protection level means that it has excellent dust - proof and water - jet - proof capabilities, and the IK08 impact - resistance level can resist certain external impacts2.
Operating Temperature: The operating temperature range is - 10 °C - 55 °C, which can adapt to a variety of different climate conditions312.
Structural Features
Integrated Design: The solar panel, lamp head, battery, and controller are integrated into one, which is simple and beautiful, and easy to install2.
Adjustable Angle: Both the lamp head and the solar panel can be adjusted in angle. The lamp head can be adjusted to provide different lighting angles, and the solar panel can be adjusted to an appropriate angle according to the local sunlight conditions to fully absorb solar energy2.
