The discovery of optical fiber cause widespread revolution of communication system. Optical fiber communication has excellency on data transmission speed, security, flexibility, and broadly bandwidth. The applying of WDM network can broaden the bandwidth so that the transmission performance becomes more splendid. Although some factors such as dispersion, attenuation, and scattering can hinder the performance of fiber optic on sending data. Moreover dispersion can wreck data and spread pulse as it travels alongs fiber so that causing interference. There is some methods  of dispersion compensation. In this paper, Fiber Raman Amplifier is used on WDM network to strengthen signal which is sent to detector. This research utilize simulation approachment  with various bandwidth and length fiber. The results show lowest BER value and highest Q-factor at bandwidth frequency of 30 GHz and fiber length of 20 km.

Efriyanda, O., Faiza, D., & Hadi, A. (2014). Analisis Kinerja Sistem Komunikasi Serat Optik dengan Menggunakan Metode Power Link Budget dan Rise Time Budget pada PT. Telkom (Studi Kasus Link Batusangkar-Lintau). Jurnal Vokasional Teknik Elektronika & Informatika (VOTEKNIKA), 2(2), 80-86.

Senior, J. M. & Cusworth, S. D. (1989). Devices for Wavelength Multiplexing and Demultiplexing. Optoelectronics, IEEE Proceedings, 136 (3), 183-202.

Keiser, E. G. (1999). A Review of WDM Technology and

Applications. Optical Fiber Technology, 5, 339.

Bujari, S. S. (2012). A survey on simulation of MEMS optical switch for WDM applications. World Journal of Science and Technology, 2(10), 39-43.

Othman, M. A., Ismail M. M., Sulaiman, H. A., Misran, M. H., Said, M. A. M., Rahim, Y. A., Che Pee, A. N., & Motsidi, M. R. (2012). An Analysis of 10 Gbits/s Optical Transmission System using Fiber Bragg Grating (FBG). IOSR Journal of Engineering (IOSRJEN), 2(7), 55-61.

Prashad, B., Mallick, B., & Parida, A. K. (2014). Fiber Bragg Grating as a Dispersion Compensator in an Optical Transmission System using Optisystem Software. International Research Journal of engineering and Technology (IRJET), 2(6), 9-14.

Kumar, K., Jaiswal, A. K., Kumar, M., & Agrawal, N. (2014). Performance Analysis of dispersion compensation using Fiber Bragg Grating (FBG) in Optical Communication. International Journal of Current Engineering and Technology, 4(3), 1527-1531.

Singh, H., Sharma, N., & Bharti, R. (2015). Analysis of Fiber Bragg Grating as Dispersion Compensator. International Journal of Engineering Research (IJOER), 1(3), 31-35.

Sharma, A., Singh, S., & Sharma, B. (2013). Investigations on Dispersion Compensation using Fiber Braggs Grating. International Journal of Computer Applications, 73(2), 34-43.

Mohammadi, S. O., Mozzaffari, S., & Shahidi, M. M. (2011). Simulation of a Transmission System to Compensate Dispersion in an Optical Fiber by Chirp Gratings. International Journal of the Physical Sciences, 6(32), 7354 – 7360.

Lowery, A. J., Du, L., & Armstrong, J. (2006). Orthogonal Frequency Division Multiplexing for Adaptive Dispersion Compensation in Long Haul WDM Systems. OFC OSA

Hossain, M. S., Howlader, S., & Basak, R. (2015). Investigating the Q-factor and BER of a WDM System in Optical Fiber Communication Network by using SOA. International Journal of Innovation and Scientific Research, 13(1), 315-322.

International Telecommunication Union - T G.691; International Telecommunication Union - T G.692; International Telecommunication Union - T G.693