International Journal of Electrical, Electronics and Data Communication (IJEEDC)
eISSN:2320-2084 , pISSN:2321-2950
.
Follow Us On :
current issue
Volume-12,Issue-9  ( Sep, 2024 )
ARCHIVES
  1. Volume-12,Issue-8  ( Aug, 2024 )
  2. Volume-12,Issue-7  ( Jul, 2024 )
  3. Volume-12,Issue-6  ( Jun, 2024 )

Statistics report
Jan. 2025
Submitted Papers : 80
Accepted Papers : 10
Rejected Papers : 70
Acc. Perc : 12%
Issue Published : 141
Paper Published : 1771
No. of Authors : 4924
  Journal Paper


Paper Title :
Analysis of Fusion Splicing Loss of Smf-28 and R37003 Single Mode Optical Fibers

Author :Weerachai Asawamethapant

Article Citation :Weerachai Asawamethapant , (2024 ) " Analysis of Fusion Splicing Loss of Smf-28 and R37003 Single Mode Optical Fibers " , International Journal of Electrical, Electronics and Data Communication (IJEEDC) , pp. 1-5, Volume-12,Issue-7

Abstract : This paper presents an analysis of fusion splicing loss in SMF-28 and R37003 single-mode optical fibers using Matching mode field theory, Phase-front transformer model, and Fresnel theory. It is found that the loss calculated by Fresnel theory is very low and can be eliminated. As the splicing time increases, the loss calculated by Matching mode field theory decreases, whereas another loss calculated by the Phase-front transformer model increases. Applying the standard fusion splicing conditions and the standard structure of both optical fibers results in a total fusion splicing loss of 1.777 dB, which is high for optical communication systems. To achieve a lower fusion splicing loss, the analysis of fusion splicing loss in SMF-28 and R37003 by adjusting the R37003 core radius is then presented. Finally, by reducing the R37007 core radius from the standard value of 1.45 μm to 0.97 μm and varying the splicing time from 11 sec to 1 sec, the total fusion splicing loss can be reduced from 1.777 dB to 0.0242 dB, which is acceptable for optical communication systems. Keywords - Fusion splicing loss, Single mode optical fiber, Matching mode field theory, Phase-front transformer model, Fresnel theory

Type : Research paper

Published : Volume-12,Issue-7


DOIONLINE NO - IJEEDC-IRAJ-DOIONLINE-21042   View Here

Copyright: © Institute of Research and Journals

| PDF |
Viewed - 24
| Published on 2024-10-15
   
   
IRAJ Other Journals
IJEEDC updates
Volume-12,Issue-9(Sept ,2024) Want to join us ? CLick here http://ijeedc.iraj.in/join_editorial_board.php
The Conference World

JOURNAL SUPPORTED BY

ADDRESS

Technical Editor, IJEEDC
Department of Journal and Publication
Plot no. 30, Dharma Vihar,
Khandagiri, Bhubaneswar, Odisha, India, 751030
Mob/Whatsapp: +91-9040435740