Ultra High-Speed Radio Frequency Switch Based on Photonics

Microwave switches, or Radio Frequency (RF) switches have been intensively used in microwave systems for signal routing. Compared with the fast development of microwave and wireless systems, RF switches have been underdeveloped particularly in terms of switching speed and operating bandwidth. In this paper, we propose a photonics based RF switch that is capable of switching at tens of picoseconds speed, which is hundreds of times faster than any existing RF switch technologies. The high-speed switching property is achieved with the use of a rapidly tunable microwave photonic filter with tens of gigahertz frequency tuning speed, where the tuning mechanism is based on the ultra-fast electro-optics Pockels effect. The RF switch has a wide operation bandwidth of 12 GHz and can go up to 40 GHz, depending on the bandwidth of the modulator used in the scheme. The proposed RF switch can either work as an ON/OFF switch or a two-channel switch, tens of picoseconds switching speed is experimentally observed for both type of switches.

[1]  David Marpaung,et al.  Frequency agile microwave photonic notch filter with anomalously high stopband rejection. , 2013, Optics letters.

[2]  R.A. Minasian,et al.  Photonic signal processing of microwave signals , 2004, IEEE Transactions on Microwave Theory and Techniques.

[3]  F. Baida,et al.  6-micron interaction length electro-optic modulation based on lithium niobate photonic crystal cavity. , 2012, Optics express.

[4]  Jian Wang,et al.  Reconfigurable radio-frequency arbitrary waveforms synthesized in a silicon photonic chip , 2015, Nature communications.

[5]  J. Capmany,et al.  Automatic tunable and reconfigurable fiberoptic microwave filters based on a broadband optical source sliced by uniform fiber Bragg gratings. , 2002, Optics express.

[6]  E. Ippen,et al.  Optical arbitrary waveform generation , 2007, CLEO/QELS: 2010 Laser Science to Photonic Applications.

[7]  J. Mora,et al.  Single-Bandpass Microwave Photonic Filter With Tuning and Reconfiguration Capabilities , 2008, Journal of Lightwave Technology.

[8]  E.H.W. Chan,et al.  Widely Tunable, High-FSR, Coherence-Free Microwave Photonic Notch Filter , 2008, Journal of Lightwave Technology.

[9]  Tunable Photonic Microwave Notch Filter With Negative Coefficient Based on Polarization Modulation , 2007, IEEE Photonics Technology Letters.

[10]  Hanlin Feng,et al.  High-speed tunable microwave photonic notch filter based on phase modulator incorporated loop mirror filter , 2015, 2015 Optical Fiber Communications Conference and Exhibition (OFC).

[11]  José Capmany,et al.  Microwave photonics combines two worlds , 2007 .

[12]  K. Williams,et al.  Microwave photonics , 2002 .

[13]  Gabriel M. Rebeiz RF MEMS: Theory, Design and Technology , 2003 .

[14]  Kun-Yii Tu,et al.  Demonstration of a Tunable Microwave-Photonic Notch Filter Using Low-Loss Silicon Ring Resonators , 2009, Journal of Lightwave Technology.

[15]  Kishor S. Trivedi,et al.  Quantifying Resiliency of IaaS Cloud , 2010, 2010 29th IEEE Symposium on Reliable Distributed Systems.

[16]  Hanlin Feng,et al.  High-speed wavelength tunable DPSK demodulation using a phase modulator based loop mirror filter. , 2014, Optics letters.

[17]  Xiaoke Yi,et al.  Microwave photonic signal processing , 2007, 2011 International Topical Meeting on Microwave Photonics jointly held with the 2011 Asia-Pacific Microwave Photonics Conference.

[18]  Dingshan Gao,et al.  Compact Notch Microwave Photonic Filters Using On-Chip Integrated Microring Resonators , 2013, IEEE Photonics Journal.

[19]  David Marpaung,et al.  Si₃N₄ ring resonator-based microwave photonic notch filter with an ultrahigh peak rejection. , 2013, Optics express.

[20]  Fang Liu,et al.  Tunable and Reconfigurable Bandstop Microwave Photonic Filter Based on Integrated Microrings and Mach–Zehnder Interferometer , 2013, Journal of Lightwave Technology.

[21]  Hanlin Feng,et al.  High-speed tunable microwave photonic notch filter based on phase modulator incorporated Lyot filter. , 2015, Optics letters.

[22]  J. Capmany,et al.  Demonstration of incoherent microwave photonic filters with all-optical complex coefficients , 2006, IEEE Photonics Technology Letters.

[23]  J. Capmany,et al.  Broad-band tunable microwave transversal notch filter based on tunable uniform fiber Bragg gratings as slicing filters , 2001, IEEE Photonics Technology Letters.

[24]  Understanding RF/Microwave Solid State Switches and their Applications , 2010 .

[25]  David Hillerkuss,et al.  Continuously tunable true-time delays with ultra-low settling time. , 2015, Optics express.

[26]  Xihua Zou,et al.  An Approach to the Measurement of Microwave Frequency Based on Optical Power Monitoring , 2008, IEEE Photonics Technology Letters.

[27]  B. Ortega,et al.  A tutorial on microwave photonic filters , 2006, Journal of Lightwave Technology.

[28]  Robert A. Minasian,et al.  Switchable and Tunable Microwave Photonic Brillouin-Based Filter , 2012, IEEE Photonics Journal.

[29]  A. Weiner,et al.  Comb-based radiofrequency photonic filters with rapid tunability and high selectivity , 2011, Nature Photonics.

[30]  J. Capmany,et al.  Photonic microwave tunable single-bandpass filter based on a Mach-Zehnder interferometer , 2006, Journal of Lightwave Technology.

[31]  Jianping Yao,et al.  An Ultra-Wideband Microwave Photonic Phase Shifter With a Full 360$^{\circ}$ Phase Tunable Range , 2013, IEEE Photonics Technology Letters.

[32]  I. Gasulla,et al.  Integrable microwave filter based on a photonic crystal delay line , 2012, Nature Communications.