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Split Type Solar Light

1.Monocrystalline silicon solar panels with photoelectric conversion efficiency exceeding 23.5%, increasing power generation by 30%.
2.Microcomputer controller with quad-core MCU + AI algorithm, enhancing energy utilization by 40%.
3.Free installation height, modular scenario adaptation, and solutions for extreme environments.

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Description

Product Introduction

With three core advantages-high-efficiency power generation from monocrystalline silicon solar panels, intelligent management via microcomputer controllers, and modular scenario adaptation-Split Type Solar Light breaks through the limitations of traditional integrated street lights, becoming the preferred solution for high-latitude regions, complex terrains, smart cities, and other scenarios.

Monocrystalline Silicon Solar Panels

1. Photoelectric Conversion Efficiency Exceeding 23.5%, 30% Higher Power Generation

PERC+ Bifacial Power Generation Technology:

Uses 182mm/210mm large-size monocrystalline silicon cells with PERC (Passivated Emitter and Rear Cell) and bifacial structures. The front-side efficiency reaches 23.5%, while the back side additionally absorbs ground-reflected light (reflectivity >30%), increasing comprehensive power generation by 30%-40% compared to traditional polycrystalline silicon panels.

2. Anti-Degradation and Weather Resistance

N-type TOPCon Cell Technology (Optional):

Adopts a tunneling oxide passivated contact structure, with a first-year light degradation rate <1% and a 25-year linear degradation rate ≤12% (industry average: 18%). Lifetime power generation is 7%-10% higher than PERC cells.

Anti-PID and Salt Spray Protection:

The panel surface is coated with an anti-PID (Potential Induced Degradation) nano-coating, capable of stable operation for 2,000 hours in 85℃/85% humidity environments. The frame uses 6063-T6 aviation aluminum with anodizing, passing C5-level salt spray testing to suit harsh environments like coastal areas and industrial pollution zones.

3. Flexible Deployment: Angles, Heights, and Shadow Avoidance

Independent Bracket and Angle Adjustment:

Solar panels are installed on independent brackets, supporting 0°-60° pitch angle and 0°-360° azimuth angle adjustments. Tilt angles can be optimized by latitude (e.g., +10° in winter and -10° in summer for 30°N regions), increasing power generation efficiency by 15%-25% compared to fixed angles in integrated street lights.

Shadow Avoidance Design:

In shaded scenarios (trees/buildings), panels can be installed on 5-10m-high independent brackets to bypass shadows. If full obstacle avoidance is impossible, multi-panel parallel connection to the controller allows dynamic power allocation via MPPT (Maximum Power Point Tracking) algorithm, reducing shadow losses to <5%.

Microcomputer Controller

1. Quad-Core MCU + AI Algorithm, 40% Improved Energy Utilization

Uses dual-core DSP chip, supporting dual-channel independent MPPT tracking (voltage accuracy ±0.5V, current accuracy ±0.1A). In partial shading or cloudy conditions, power generation efficiency is 10%-15% higher than traditional single-channel MPPT.
Built-in LSTM neural network model analyzes real-time weather data (cloud cover, wind speed), historical power generation, and load power to dynamically adjust battery charging/discharging strategies.

2. Full-Scenario Intelligent Strategy Library

Supports time-based lighting power settings , achieving annual power savings of over 30% per lamp.
When continuous 3-day rain causes battery SOC <20%, automatically switches to "sleep mode":
Turns off non-critical loads;
Reduces streetlight brightness to 10%;

3. Fault Self-Diagnosis and Remote Operation

Integrates overcharge, over-discharge, over-current, short-circuit, reverse-connection, lightning strike, high/low temperature, and PID protection, with fault response time <50ms and misoperation rate <0.01%.
Uploads data to the operation platform via 4G/NB-IoT modules, with AI algorithms automatically diagnosing fault types (e.g., abnormal battery internal resistance, PV panel hotspots).

Modular Scenario Adaptation

1. Free Installation Height: 3-15m Full Coverage

Customized Pole Structure:

Lamp poles use aluminum + hot-dip galvanized anti-corrosion, supporting specifications like 3m (garden lights), 6m (community roads), 10m (arterial roads), 15m (viaducts), with wind resistance up to level 12 (wind speed 35m/s).

Optical System Matching:

Different light distribution curve lenses configured by installation height:

3-6m: Bat-wing lens (anti-glare, uniformity >0.7);
8-12m: Rectangular light spot lens (illumination width 15-20m);
15m+: Cut-off lens (reduces light pollution, controls illumination range).

2. Extreme Environment Solutions

High-Cold Regions (-20℃):

Battery packs use low-temperature electrolyte (-50℃ charge/discharge capable) + phase-change material insulation layer, with heating film (power consumption <5W), ensuring 100% startup success at -40℃.

Desert Regions (60℃+):

Controllers and battery packs installed in 1.5m underground thermostatic layers (temperature fluctuation <5℃), with light source modules equipped with liquid cooling systems (temperature difference <10℃), extending system lifespan by 3 years compared to above-ground installations.