By Abdul Al-Azzawi
Advanced production for Optical Fibers and built-in Photonic Devices explores the theoretical rules and commercial practices of high-technology production. concentrating on fiber optic, semiconductor, and laser items, this book:
- Explains the basics of normal, high-tech, swift, and additive production workshops
- Examines the construction strains, procedures, and fresh rooms wanted for the producing of products
- Discusses the high-technology production and install of fiber optic cables, connectors, and active/passive devices
- Describes non-stop development, waste aid via 5S program, and management’s tasks in assisting production
- Covers Lean production methods, product development, and office protection, in addition to internal/external and ISO auditing
- Offers a step by step method entire with a number of figures and tables, designated references, and a word list of terms
- Employs the overseas process of devices (SI) during the text
Advanced production for Optical Fibers and built-in Photonic units presents the newest production achievements and their purposes within the high-tech quarter. encouraged by means of the author’s large commercial adventure, the e-book presents a finished assessment of latest production technologies.
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Additional resources for Advanced manufacturing for optical fibers and integrated photonic devices
Splice and cleave the input fiber and insert it into the splice box. Press the PDL button on the meter and the average loss, followed by the PDL, will be displayed. Cleave and resplice both fibers until good agreement in loss is reached between successive cleaves. 3 dBm than loss indicated on the worksheet. 6. Pass or fail the device according to the specifications on the worksheet, and fill out the traveler and worksheet appropriately. Include initials, date, and PS meter number. 7. Place the passed device in a glass petri dish and send for overnight baking.
The system is mounted on the end of the multiaxis robot. The scan device converts the data to produce a highly accurate representation of the surface to be inspected. This robot can be used for quality control on the high-speed data rate. Other robot types and applications. There are many robot types and applications that are used in different manufacturing processes. As mentioned above, the robots can be universal for doing more than one job and can be moved from one production line to another, such as the robots that are used in body car building.
Select the appropriate ring magnet (P/N: 8885) and a polished tube (P/N: WT22 or WT33) according to the product worksheet. ii. Insert the magnet around the fibers. Make sure that the magnet orientation is the same as the one on the magnet used on the alignment jig. This can be verified by sticking the circular magnet to the one 26 Advanced Manufacturing for Optical Fibers and Integrated Photonic Devices on the jig. The arrow on the circular magnet should point in the direction of the light. It may be necessary to flip the magnet on the jig depending on the device.