Yellow PC LED Tube Lights S
· Materials: Aluminum and plastic
· PC cover: Frosted, Transparent, Strip for options.
· Power: 9/14/18/22/24
· Size: 2ft、3ft、4ft、5ft
· High efficiency: 120 lm/W、140 lm/W
· Angle of beam: 120°
· Input: AC100-240V 50/60Hz、AC100-277V 50/60Hz
· Driver: Inside PF>0.9
· IP Grade: IP20
· Base: G13/R17D/FA8/G13 to G5
· Dimmable optional: 0-10V/Traic/
High CRI Lighting for Precision
In chip manufacturing workshops, high CRI (Color Rendering Index) LED tube lights from the S series play a vital role. They deliver exceptional color accuracy and ensure precision during critical processes. This lighting is crucial for detecting defects and upholding high-quality standards.
Uniform Shadow-Free Illumination
The S series LED tube lights provide uniform, shadow-free illumination, which is essential in photolithography areas. By eliminating shadows, these lights enable workers to easily spot inconsistencies, preventing errors that could compromise the final product.
Ensuring Safety and Quality Standards
Additionally, specialized lighting meets the technical requirements for appropriate wavelengths, protecting photoresist from undesired exposure. Incorporating S series LED tube lights aids in promoting safety for workers while maintaining the precision and quality standards required in chip manufacturing processes.
Product List:
| Model | Power | Size | CCT | Voltage | Lumen | Beam Angle |
| GP-T8-ES- 9W | 9W | 602*Φ26mm | 2700-6500K | AC100-240V/ AC100-277V | 1200lm | 120° |
| GP-T8-ES-14W | 14W | 906*Φ26mm | 2700-6500K | AC100-240V/ AC100-277V | 1960lm | 120° |
| GP-T8-ES-18W | 18W | 1212*Φ26mm | 2700-6500K | AC100-240V/ AC100-277V | 2520lm | 120° |
| GP-T8-ES-22W | 22W | 2700-6500K | AC100-240V/ AC100-277V | 3080lm | 120° | |
| GP-T8-ES-24W | 24W | 1512*Φ26mm | 2700-6500K | AC100-240V/ AC100-277V | 3360lm | 120° |
| GP-T8-ES-30W | 30W | 2700-6500K | AC100-240V/ AC100-277V | 4200lm | 120° |
Test Report:
In semiconductor chip production facilities, yellow light LED tubes are used for several important reasons.
Minimize Interference with Photolithography Process. The photolithography process, a crucial step in semiconductor manufacturing, involves the use of photoresist materials that are sensitive to specific wavelengths of light (typically ultraviolet, UV).
Pattern Accuracy: Photolithography requires precise patterning of circuits onto the silicon wafer. The use of yellow light helps maintain the integrity of the lithographic process, ensuring high-resolution pattern transfer.
Yellow light does not contribute to the same level of scattering as blue or white light, ensuring that the work environment remains visually stable and free from unnecessary light pollution that could affect production quality.
