Title :
Broadband Predistortion Circuit Using Zero Bias Diodes for Radio Over Fiber Systems
Author :
Ran Zhu ; Xiupu Zhang ; Hraimel, B. ; Dongya Shen ; Taijun Liu
Author_Institution :
Dept. of Electr. & Comput. Eng., Concordia Univ., Montreal, QC, Canada
Abstract :
A low-cost broadband analog predistortion circuit (PDC) is designed and experimentally verified in a radio over fiber (RoF) system. A miniature hybrid microwave integrated circuit technique is used to reduce the size and parasitics of PDC. Only two zero bias GaAs beam lead detector diodes and capacitors are used in the PDC. The diodes can be biased at due to zero bias characteristic so that power consumption is reduced. No broadband matching network is required because of high series resistance of the zero bias diodes. The linearization performance is evaluated using an RoF system without and with the PDC. It is shown that the PDC improves the input 1-dB compression power by 0.4-2.2 dB from 7 to 18 GHz; and spurious free dynamic ranges are improved by ~ 10 dB from 7 to 14 GHz and ~ 6 dB from 15 to 18 GHz, limited by fifth order nonlinear distortion.
Keywords :
capacitors; gallium arsenide; integrated circuits; microwave photonics; photodetectors; photodiodes; radio-over-fibre; GaAs; PDC; RoF; beam lead detector diodes; broadband analog predistortion circuit; broadband predistortion circuit; capacitors; compression power; fifth order nonlinear distortion; frequency 15 GHz to 18 GHz; frequency 7 GHz to 14 GHz; hybrid microwave integrated circuit technique; linearization; power consumption; radio over fiber systems; spurious free dynamic ranges; zero bias diodes; Broadband amplifiers; Modulation; Optical distortion; Optical fiber communication; Optical fibers; Optical saturation; RF photonics; broadband analog predistortion circuit; microwave photonics; miniature hybrid microwave integrated circuit; radio over fiber systems; wireless communications;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2013.2281409
