65x150 Degree Wide Angle LED Lens , PC LED Optics Lenses For Road Lamp
Product Details:
Place of Origin: | Zhejiang, China |
Brand Name: | Spark |
Certification: | CE, SGS, ROHS |
Model Number: | 1. 1520. 050005 |
Payment & Shipping Terms:
Minimum Order Quantity: | 100pcs |
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Price: | Negotiable |
Packaging Details: | In Carton Box |
Delivery Time: | 2-5 work days |
Payment Terms: | T/T, Western Union, MoneyGram, Paypal |
Supply Ability: | 100000pcs/per week |
Detail Information |
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Material: | PC | Beam Angle: | 65*150 Degree |
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Efficiency: | 93% | Dimension: | 50*50mm |
LED Chips: | CREE, Samsung, Etc | Application: | LED Sreet Lighting |
High Light: | 5050 led lens,led multi lens |
Product Description
65 X 150 Degree SMD 3030 Lens LED Street Light Retrofit Kits For Road Lamp
Optics are a crucial element in every SSL street light / road light design.
- Spark offers a wide variety of optical and reflector solutions in various types of lenses; single-LED optics, multi-LED optics, reflectors or specialty optics.
- Depending on the results you would like to achieve in your LED Street Light / Road Light luminaire, you can select various optical beam angles to form an intense beam to suit your needs.
- See the table below for a list of recommended optical solutions that can help you build your solid-state lighting (SSL) street light / road light fixture.
Part Number |
1. 1520. 050005 |
Beam angle |
65*150 Degree |
Dimension |
50*50mm |
Lens Material |
PMMA |
Transmittance |
93% |
Working Temperature |
Lens ≤ 90℃ |
Application |
LED Streetlighting |
Delivery and Shipping:
Trade Terms | EXW , FOB , CNF , CIF |
Payment Terms | T/T , PayPal , Western Union, Moneygram |
Lead Time | 1-2 working days for samples order, 5-7 working days for bulk order |
Shipment Terms | By Sea, By Air, By Express like DHL, Fedex, UPS, TNT, etc |
Optics allow you to control your illumination pattern, either diffusing it or focusing it as your application requires. Secondary LED Optics provide a standard LED with collimation for spot, medium, wide and elliptical illumination patterns.
Optical efficiency is determined by measuring the ratio of light collected after the optic and dividing by the total amount of light without an optic directly at the LED source.
LED lens Drawing:
IES: