Title :
Remote Upconversion of Radio Over Fiber by Band-Pass Filtering of Ultra-Short Pulse
Author :
He Wen ; Kuantong Chen ; Xiaoping Zheng ; Hanyi Zhang ; Bingkun Zhou
Author_Institution :
Dept. of Electron. Eng., Tsinghua Univ., Beijing, China
Abstract :
A novel remote frequency upconversion of a radio-over-fiber (RoF) signal is proposed and demonstrated. The traditional RoF signal at transmitter is replaced with frequency chirped optical pulse modulated by base-band data. During fiber transmission, the optical pulse evolves into an ultra-short pulse under the effect of fiber dispersion. The upconversion is completed at the remote antenna unit (RAU) by just selecting out the target signal spectrum, which is shifted to the wanted high order harmonics with a band-pass filter. Thereby, the RoF system is simplified by removing the mixer and high-frequency local oscillator at the central office, still keeping RAU as simple as possible. With this approach, a 2-Gbit/s data up-converted to 16 GHz is received with a BER below 10-9 and spectrum efficiency of 1-bit/s/Hz after transmission of 45-km SMF and 7-m air without optical in-line, pre-amplificiation, dispersion compensation, and optical filtering.
Keywords :
band-pass filters; optical fibre dispersion; optical frequency conversion; radio-over-fibre; RoF signal; band-pass filtering; base-band data; bit rate 2 Gbit/s; central office; distance 45 km; fiber dispersion; fiber transmission; frequency 16 GHz; frequency chirped optical pulse; high order harmonics; high-frequency local oscillator; radio-over-fiber signal; remote antenna unit; remote frequency upconversion; remote upconversion; spectrum efficiency; target signal spectrum; ultra-short pulse; Band-pass filters; Optical fiber amplifiers; Optical filters; Optical pulse generation; Optical pulses; Frequency upconversion; analog links; band-pass filtering; pulse compression; radio-over-fiber (RoF);
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2013.2284832
