A solar high mast light system typically includes a high mast pole, solar panels, LED luminaires, a charge controller, and a battery bank. The specifications vary depending on the required illumination area, mounting height, and desired autonomy. Key specifications include pole height (typically ranging from 12 to 30 meters), solar panel capacity (e.g., 400 Wp or higher), LED wattage (e.g., 30W to 200W), battery capacity (e.g., 30AH/light), and lighting color (e.g., cool white with 5500K-6500K color temperature). Here's a more detailed breakdown of the specifications: 1. Pole: Material: Galvanized steel is common, providing corrosion resistance. Height: Ranges from 12 to 35 meters, with custom designs possible for taller structures. Shape: Can be polygonal (e.g., 20-sided) or round. Thickness: Varies depending on height and wind load. Base: Includes a base plate, J-bolts, and nuts for secure mounting. 2. Solar Panel: Type: Typically monocrystalline or polycrystalline. Capacity: Depends on the lighting load and desired autonomy. May range from 400 Wp to several kilowatts. Voltage: Typically operates at a voltage range of 12V or 24V. Mounting: Mounted on top of the mast, often with a structure that allows for tilting for optimal solar exposure. 3. LED Luminaire: Type: LEDs are preferred for their energy efficiency and long lifespan. Wattage: Varies depending on the required illumination level (e.g., 30W, 50W, 100W, or higher). Lumens: LEDs should offer a high lumen output per watt (e.g., >110 lm/W). Color Temperature: Typically 5500K - 6500K (cool white). Viewing Angle: Should provide adequate light distribution for the targeted area (e.g., 120 degrees). IP Rating: Ensures protection against dust and water (e.g., IP66 for outdoor applications). 4. Charge Controller: Type: MPPT (Maximum Power Point Tracking) controllers are common for maximizing solar energy capture. Capacity: Should be appropriately sized for the solar panel and battery bank. Features: Includes protection against overcharging, over-discharging, and short circuits. 5. Battery Bank: Type: Lithium Ferro Phosphate (LiFePO4) batteries are often used for their long life, high cycle count, and safety. Capacity: Sufficient to provide power for the desired operating hours during periods of low or no sunlight (autonomy). Voltage: Matches the system voltage (e.g., 12V or 24V). 6. Other Components: ESE Lightning Arrestor: Provides protection against lightning strikes. Earthing Kit: Ensures proper grounding of the system. Surge Protection Device: Protects the LED floodlights from voltage surges. Mounting Structure: For mounting the solar panels and other components on the pole. 7. Performance: Dusk-to-dawn operation: The system should automatically turn on at dusk and off at dawn. Autonomy: The system should be able to operate for a specified number of days (e.g., 3 days) or hours (e.g., 30 hours) without sunlight. Efficiency: The overall system efficiency should be high to maximize energy usage. 8. Additional Considerations: Wind Load: The pole and mounting structure should be designed to withstand the local wind conditions. Maintenance: Regular inspection and maintenance are crucial for optimal performance and longevity. Customization: The specifications can be customized based on the specific project requirements . Solar high mast light Manufacturers in Nagpur. Solar high mast light Suppliers in Chandrapur. Solar high mast light Suppliers in Gadchiroli . Solar high mast light in Yavatmal.
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Solar high mast light Suppliers in Nagpur.
2025-08-04T04:48:24
A solar high mast light system typically includes a high mast pole, solar panels, LED luminaires, a charge controller, and a battery bank. The specifications vary depending on the required illumination area, mounting height, and desired autonomy. Key specifications include pole height (typically ranging from 12 to 30 meters), solar panel capacity (e.g., 400 Wp or higher), LED wattage (e.g., 30W to 200W), battery capacity (e.g., 30AH/light), and lighting color (e.g., cool white with 5500K-6500K color temperature). Here's a more detailed breakdown of the specifications: 1. Pole: Material: Galvanized steel is common, providing corrosion resistance. Height: Ranges from 12 to 35 meters, with custom designs possible for taller structures. Shape: Can be polygonal (e.g., 20-sided) or round. Thickness: Varies depending on height and wind load. Base: Includes a base plate, J-bolts, and nuts for secure mounting. 2. Solar Panel: Type: Typically monocrystalline or polycrystalline. Capacity: Depends on the lighting load and desired autonomy. May range from 400 Wp to several kilowatts. Voltage: Typically operates at a voltage range of 12V or 24V. Mounting: Mounted on top of the mast, often with a structure that allows for tilting for optimal solar exposure. 3. LED Luminaire: Type: LEDs are preferred for their energy efficiency and long lifespan. Wattage: Varies depending on the required illumination level (e.g., 30W, 50W, 100W, or higher). Lumens: LEDs should offer a high lumen output per watt (e.g., >110 lm/W). Color Temperature: Typically 5500K - 6500K (cool white). Viewing Angle: Should provide adequate light distribution for the targeted area (e.g., 120 degrees). IP Rating: Ensures protection against dust and water (e.g., IP66 for outdoor applications). 4. Charge Controller: Type: MPPT (Maximum Power Point Tracking) controllers are common for maximizing solar energy capture. Capacity: Should be appropriately sized for the solar panel and battery bank. Features: Includes protection against overcharging, over-discharging, and short circuits. 5. Battery Bank: Type: Lithium Ferro Phosphate (LiFePO4) batteries are often used for their long life, high cycle count, and safety. Capacity: Sufficient to provide power for the desired operating hours during periods of low or no sunlight (autonomy). Voltage: Matches the system voltage (e.g., 12V or 24V). 6. Other Components: ESE Lightning Arrestor: Provides protection against lightning strikes. Earthing Kit: Ensures proper grounding of the system. Surge Protection Device: Protects the LED floodlights from voltage surges. Mounting Structure: For mounting the solar panels and other components on the pole. 7. Performance: Dusk-to-dawn operation: The system should automatically turn on at dusk and off at dawn. Autonomy: The system should be able to operate for a specified number of days (e.g., 3 days) or hours (e.g., 30 hours) without sunlight. Efficiency: The overall system efficiency should be high to maximize energy usage. 8. Additional Considerations: Wind Load: The pole and mounting structure should be designed to withstand the local wind conditions. Maintenance: Regular inspection and maintenance are crucial for optimal performance and longevity. Customization: The specifications can be customized based on the specific project requirements . Solar high mast light Manufacturers in Nagpur. Solar high mast light Suppliers in Chandrapur. Solar high mast light Suppliers in Gadchiroli . Solar high mast light in Yavatmal.
2025-08-04T04:48:24
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