TYPE5 SMD 3030 LED Multi Lens 152 Degree Optical Lenses For LED Parking Light
Product Details:
Place of Origin: | Zhejiang, China |
Brand Name: | Spark |
Certification: | CE, SGS, ROHS |
Model Number: | 1. 2099. 050004 |
Payment & Shipping Terms:
Minimum Order Quantity: | 100pcs |
---|---|
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 |
|||
Material: | PMMA | Beam Angle: | 152 Degree |
---|---|---|---|
Efficiency: | 93% | Dimension: | 50*50mm |
LED Chips: | Lumen | Application: | LED Parking Light |
High Light: | dome lens smd led,osram led lens |
Product Description
TYPE5 SMD 3030 LED Lens 152 Degree Optical Lenses For Led Parking Light
Lenses are made from transparent materials such as glass, polymers etc which are ground and polished to a desired shape. A Lens can focus light to form an image.
- We have various Patterns of Street Light Lens in single LED Lens as well as Cluster of LED Lenseswhich can be used as per convenience of your PCB Design.
- It’s the lowest total cost solution ,they can replace existing Metal Halide or HPS bulbs, the old housings can be re-used.
- The total cost is significantly reduced compared with using new complete LED fixtures.
- Industry-leading thermal management utilizing technology.
Part Number |
1. 2099. 050004 |
Beam angle |
152 Degree |
Dimension |
50*50mm |
Lens Material |
PMMA |
Transmittance |
93% |
Working Temperature |
Lens ≤ 90℃ |
Application |
LED Parking Light |
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: