Split-Mount LED Solar Street Lights
SplitSolar Family: Reliable, Flexible Solar Street Lighting Solutions
The SplitSolar series delivers high-performance split mount solar street lights, featuring a modern design with separate solar panels and light fixtures for enhanced adaptability. With multiple power options to suit residential, commercial, and industrial needs, this family ensures efficient lighting tailored to different environments.
Whether you need cost-efficient neighborhood lighting or heavy-duty illumination for highways, SplitSolar provides durable, low-maintenance, and weather-resistant solar solutions.
Discover the right fit for your project below—explore different series and their unique applications.
SplitSolar-200
Everyday Communities Lighting
The SplitSolar-200 series offers cost-effective, durable solar street lighting with balanced brightness and a compact battery design. Ideal for residential areas and small streets, it delivers consistent performance with minimal maintenance.
Key Features:
✔ 200WH High-Efficiency Battery – Optimized for daily cycles with 5-7 days of backup power.
✔ 3,000-5000LM Balanced Brightness – Uniform illumination for sidewalks and neighborhood roads.
✔ Plug-and-Play Installation – Simplified setup with pre-configured solar panels.
Applications:
- Residential streets
- Park pathways
- School zone lighting
SplitSolar-300
Smarter Streets Lighting
Designed for longevity and enhanced energy efficiency, the SplitSolar-300 series features MPPT charging technology and a 300WH battery, perfect for urban roads requiring longer illumination hours.
Key Features:
✔ 300WH + MPPT Charging – 20% faster recharge and extended battery life.
✔ 6,000-8,000LM Output – Brighter coverage for wider roads and parking lots.
✔ Corrosion-Resistant Body – Withstands harsh weather (IP65 rated).
Applications:
- Municipal roads
- Commercial parking lots
- Bike lanes
SplitSolar-600
Industrial-Grade Lighting
The SplitSolar-600 series combines a high-capacity 600WH battery with dual-core processing, delivering unmatched reliability for industrial zones and high-traffic areas.
Key Features:
✔ 600WH Ultra-Long Endurance – Supports 10+ rainy days without sunlight.
✔ 9,600-12,800LM High-Intensity Light – Clear visibility for large-area lighting.
✔ Smart Remote Monitoring – Real-time diagnostics via IoT compatibility (optional).
Applications:
- Highway service areas
- Factory perimeters
- Logistics hubs
SplitSolar-1500
Critical Infrastructure Lighting
Engineered for extreme conditions, the SplitSolar-1500 series boasts an 1500WH battery and dual solar panels, providing ultra-bright illumination for highways and security-sensitive sites.
Key Features:
✔ 1500WH Dual-Panel System – Uninterrupted power even in low sunlight.
✔ 16,000-20,000LM Ultra-Bright Output – Covers 8-lane highways with uniform light.
✔ Anti-Vandal Design – Reinforced casing for high-security areas.
Applications:
- Expressway lighting
- Airport perimeters
- Military/police facilities
Core Elements of Two-Piece Solar Outdoor Lighting Fixtures
Modular Design for Easy Installation & Maintenance
- The split-mount system separates the solar panel, battery, and light fixture, enabling flexible placement and faster troubleshooting.
- Components can be individually upgraded or replaced, reducing long-term ownership costs.
High-Capacity & Expandable Battery Options
- Available in 300Wh–2000Wh configurations (LiFePO4), supporting 3–10 nights of backup power depending on climate and usage.
- Batteries are weatherproof (IP67) and support parallel expansion for Arctic/extreme-low-sunlight regions.
Ultra-Bright Adaptive Lighting (5,000–15,000 Lumens)
- Customizable brightness with PIR motion sensors and dimming modes (e.g., 30% dim at midnight, 100% on motion detection).
- Wide beam angles (120°–160°) ensure uniform illumination for roads, parking lots, and security zones.
Military-Grade Durability for Extreme Environments
- -30°C to 60°C operating range with corrosion-resistant housings, ideal for coastal, desert, or Arctic deployments.
- Reinforced brackets and IK08+ impact resistance withstand storms, dust, and vandalism.
Smart Remote Monitoring & Energy Optimization
- Optional IoT integration (4G/Bluetooth) allows real-time performance tracking, fault alerts, and scheduled lighting adjustments.
- Self-regulating MPPT charge controllers maximize solar efficiency, even in cloudy or low-light conditions.
All-in-One v.s. Split Mount Solar Street Lights
| Feature | All-in-One Solar Street Lights | Split-Mount Solar Street Lights |
|---|---|---|
| Design Structure | Compact & Stylish – Integrated panel, battery, and LED in a single sleek unit. | Modular & Flexible – Solar panel and light head are separate (optional battery placement). |
| Installation Simplicity | Plug-and-Play – Faster deployment (30–50% quicker than split-mount). | Customizable Positioning – Panel can be adjusted (0°–60°) for optimal sunlight. |
| Maintenance Convenience | One-Unit Handling – Easier troubleshooting (all components in one place). | Modular Repairs – Individual replacement of panel, battery, or LED reduces downtime. |
| Transport & Logistics | Lighter & Easier to Ship – Lower freight costs and fewer parts to manage. | Bulkier Components – Requires careful handling for separate solar panels and batteries. |
| Aesthetic Appeal | Modern & Minimalist – Preferred for urban landscapes and residential areas. | Industrial Design – Best for rural/highway settings where form follows function. |
| Energy Performance | Efficient for Mild Climates – Works well in areas with stable sunlight. | Higher Output in Low Light – Adjustable panels improve winter & cloudy-day performance. |
| Weather Adaptability | Reliable in Standard Conditions (IP65–IP67 waterproof). | Better for Extreme Climates – Battery can be shaded (ideal for desert/alpine regions). |
| Upfront Cost | Budget-Friendly – Lower initial investment (ideal for large-scale projects). | Higher Initial Cost – But long-term savings (easier battery/panel upgrades). |
| Smart Features | Basic to Mid-Range Models – Some support dimming & timers. | IoT-Ready Options – Remote control, adaptive brightness, and energy monitoring. |
| Best Applications | Urban Streets, Parks, Parking Lots – Where looks and speed matter. | Highways, Industrial Zones, Remote Areas – Where output and adjustability are key. |
Key Takeaways
✅ Choose All-in-One if:
- Priority = Fast installation + elegant design.
- Climate = Moderate, with consistent sunlight.
- Budget = Leaner upfront costs.
✅ Choose Split-Mount if:
- Priority = Long-term efficiency & adaptability.
- Climate = Harsh winters/extreme heat.
- Use Case = High-lumen or smart-city projects.
🔹 “Not sure which suits your project? [Get a Free Consultation] based on location, budget, and lighting needs.”
Why Choose Us?
Industry-Leading Core Technology
Unmatched Product Durability
Premium Components for Superior Performance
Global Expertise & Innovation
Smart & Flexible Solutions
Proven Global Trust
Production Facilities
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Complete Buyer’s Guide to All-in-Two LED Solar Street Lights
Balancing Modular Flexibility with Simplified Integration
Table of Contents
Chapter 1
Why should I choose split-mount design over all-in-one solar street lights?
Split-mount systems offer practical advantages that have been validated in our installations across Southeast Asia and Africa. Based on field data from our Indonesia projects (2022), the separated solar panel configuration achieved 18-25% higher daily energy generation compared to all-in-one units in the same location. This is because panels can be optimally angled (15-30° adjustability) rather than fixed horizontally.
For maintenance, our service records show split-mount systems reduce repair time by 60%. Instead of replacing the entire fixture like with all-in-one lights, technicians can access individual components – in Malaysia, this cut average repair downtime from 5 days to 2 days. The modular design also allows phased upgrades; we’ve helped clients in the Philippines gradually replace just the battery units (2020-2023) while keeping existing solar panels and fixtures.
Chapter 2
What battery performance can I realistically expect in different climates?
Our tropical climate data (Thailand 2021-2023) shows standard 500Wh LiFePO4 batteries consistently provide 4 nights backup during monsoon seasons. In colder regions like Jilin, China (-25°C winter), the same battery with self-heating capability maintains 2-3 nights operation, though we recommend 30% capacity oversizing for these conditions.
Third-party testing by SGS (Report No. SHES230415) confirmed our batteries retain >85% capacity after 2,500 cycles at 25°C. Real-world data from Saudi Arabia projects shows 75% capacity retention after 3 years in 45°C average temperatures. For extreme conditions, we provide specific discharge curves – for example, at -20°C, expect 65% of rated capacity until the self-heating system brings cells above -10°C.
Chapter 3
How do you validate weather resistance claims?
We derive specifications from actual testing, not theoretical ratings. Our poles have withstood:
- 160 km/h typhoon winds (verified in Zhuhai 2022)
- Salt spray corrosion equivalent to 15 years coastal exposure (SGS Report MET2022087)
- Sand blasting tests simulating 10-year desert conditions
However, we’re transparent about limitations. While our standard IP68 rating is validated (submerged 1m for 30 minutes), continuous flood conditions require our special submersible models, as learned from Bangladesh flood zones in 2020. We provide failure rate statistics by region – for example, only 2% of lights required post-storm servicing in Florida hurricane zones (2020-2023 data).
Chapter 4
How does the actual lighting performance compare to specifications?
Our lumen output claims are based on LM-79 testing at independent labs, with typical real-world variance of ±7%. A 2023 road project in Vietnam showed:
| Model | Claimed Lumens | Measured Average | Uniformity |
|---|---|---|---|
| SL-8000 | 8,000 lm | 7,850 lm | 0.42 |
| SL-12000 | 12,000 lm | 11,200 lm | 0.38 |
The slightly lower measured values account for lens aging and dust accumulation. We provide expected lumen depreciation curves – typically 5% in first year, then 2%/year thereafter based on Zambia installation data (2019-2023).
Chapter 5
What smart control options have been proven in actual deployments?
Our most implemented smart features with verified results:
- Motion dimming (Nigeria 2022): Reduced energy consumption by 58% while maintaining safety
- Dawn simulation (Morocco 2021): 15% power savings vs sudden on/off
- Fault alerts (Malaysia 2023): Cut diagnostic time from 72 hours to 6 hours avg
However, we advise clients that basic timer controls satisfy 80% of applications. Smart features add 15-25% to system cost and require stable cellular coverage – a lesson from our rural India projects where 4G reliability affected functionality.
Chapter 6
What's the realistic lifespan based on field data?
Component lifespan from actual projects:
- Solar panels: 92% of units maintain >80% output at 8 years (Sri Lanka 2015-2023 data)
- Batteries: 80% capacity retention at 5 years in Thailand (2018-2023)
- LEDs: 95% of fixtures maintain >70% initial lumens at 50,000 hours (Vietnam highway project)
Failures typically occur at controller units (8% replacement rate at 5 years) and connectors (5% failure in coastal areas). We provide region-specific lifespan projections – desert installations typically see 15% shorter battery life due to heat.
Chapter 7
What anti-theft measures actually work?
Effective solutions from our experience:
- Concrete anchor bases reduced theft attempts by 75% in South Africa
- VIN-etched components increased recovery rate to 40% in Mexico
- GSM alarms prevented 90% of battery thefts in Kenya
However, we note that determined thieves can defeat any system. Our security options add 10-20% to project costs, and we help clients evaluate cost/benefit – urban areas often don’t need maximum protection.
Chapter 8
Which certifications do you actually hold and maintain?
Current valid certifications (as of June 2024):
- CE (NB 2837)
- IEC 62471-1:2006
- RoHS (SGS-CSTC)
- IP68 (TUV Rheinland)
We’ve allowed ISO 9001 to lapse in 2023 as it overlapped with our IATF 16943 automotive certification. For markets like Canada, we provide test reports to support local certification rather than maintaining all global marks.
Chapter 9
What do installation timelines realistically look like?
Actual project benchmarks:
| Project Size | Our Estimate | Actual Average |
|---|---|---|
| 100 units | 10 days | 14 days |
| 500 units | 30 days | 38 days |
| 1000+ units | 60 days | 72 days |
Delays typically occur in customs (adding 5-7 days for African imports) and local trenching work. We provide detailed Gantt charts based on real project histories.
Chapter 10
How do you handle low sunlight conditions?
Data from Finland installations shows:
- December generation averages 35% of summer output
- With snow cover, output drops to 15% until cleared
- Our heating systems maintain battery function down to -35°C
We recommend oversizing systems by 40% for <3 peak sun hour regions, as proven necessary in Scottish Highlands projects.
Chapter 11
What customization is practical versus theoretical?
Commonly executed modifications:
- Pole height changes (3-10m with matching footings)
- 3000K/4000K/5000K CCT options
- 10-100% dimming capability
Impractical without major redesign:
- Output beyond 15,000 lumens per fixture
- Non-standard voltages (must choose 12V/24V/48V)
Chapter 12
How is warranty service actually handled?
2023 service metrics:
- 87% of claims resolved within 2 weeks
- 5% required local technician dispatch
- 8% were installation errors, not product faults
We share regional replacement part stock levels upfront – for example, European clients can expect faster resolution than South American ones.
Chapter 13
What are accurate production lead times?
Current capacity (June 2024):
- Standard models: 15-20 days
- Custom solutions: 30-45 days
- Peak season (Sep-Dec): add 10 days
Chapter 14
What after-sales support exists in practice?
Our global support responds 90% of inquiries within 4 hours (2023 average). However, we clarify that:
- On-site support costs extra
- Remote diagnostics require working cellular connection
Chapter 15
Why choose us over local suppliers?
Key differentiators:
- In-house production control (not outsourcing)
- 38% faster lead times than European assemblers
- 15% lower pricing than same-quality competitors
But we acknowledge local suppliers may better handle:
- Very small orders (<20 units)
- Immediate spare parts needs
Request project references matching your region and application for realistic expectations. We’ll share both successful cases and lessons learned from challenging installations.
Contact Us for data-backed proposals with transparent performance guarantees.
