Title :
Demonstration and optimization of an optoelectronic phase-locked phase shifter for optical microwave signals
Author :
Lin, Gong-Ru ; Chang, Yung-Cheng
Author_Institution :
Inst. of Electro-Opt. Eng., Tatung Inst. of Technol., Taipei, Taiwan
Abstract :
We demonstrate the tracking and continuous tuning of the relative phase difference between the free-running microwave clock and the optically distributed microwave signals from laser diode by using a modified optoelectronic phase shifter (OEPS). This is implemented by using a voltage-controlled optoelectronic digital phase-locked loop. The maximum phase deviation is up to 340/spl deg/ under the change in controlling voltage of 4.8 V, which is completely independent of operating frequency. A linear transferred function of the OEPS with responsivity of 69/spl deg//V was measured. The resolution and phase fluctuation of the OEPS can he as small as 0.2/spl deg/ and 0.05/spl deg/, respectively.
Keywords :
microwave phase shifters; microwave photonics; optical phase locked loops; optical phase shifters; optimisation; optoelectronic devices; tuning; 4.8 V; continuous tuning; controlling voltage; free-running microwave clock; laser diode; linear transferred function; modified optoelectronic phase shifter; operating frequency; optical microwave signals; optically distributed microwave signals; optimization; optoelectronic phase-locked phase shifter; phase fluctuation; relative phase difference; tracking; voltage-controlled optoelectronic digital phase-locked loop; Clocks; Diode lasers; Frequency; Laser tuning; Optical filters; Optical modulation; Optical tuning; Optical variables control; Phase shifters; Voltage-controlled oscillators;
Journal_Title :
Photonics Technology Letters, IEEE
