Presentation is loading. Please wait.

Presentation is loading. Please wait.

M. F. Chiang 1, Z. Ghassemlooy 1, W. P. Ng 1, and H. Le Minh 2 1. Optical Communications Research Group School of Computing, Engineering and Information.

Published byByron Hector Butler Modified over 8 years ago

Similar presentations

Presentation on theme: "M. F. Chiang 1, Z. Ghassemlooy 1, W. P. Ng 1, and H. Le Minh 2 1. Optical Communications Research Group School of Computing, Engineering and Information."— Presentation transcript:

1 M. F. Chiang 1, Z. Ghassemlooy 1, W. P. Ng 1, and H. Le Minh 2 1. Optical Communications Research Group School of Computing, Engineering and Information Sciences Northumbria University, Newcastle upon Tyne, UK 2. Department of Engineering Science, University of Oxford, UK http://soe.unn.ac.uk/ocr/ Simulation of an All-Optical 1  2 SMZ Switch with a High Contrast Ratio

2 Contents  Introduction  Symmetric Mach-Zehnder (SMZ)  Optical inverter based on SMZ  All-Optical 1  2 SMZ Switch with a High Contrast Ratio  Simulation Results  Conclusions

3 Introduction- Research Aim  There is a growing demand for all optical switches and router at very high speed, to avoid the bottleneck imposed by the electronic switches.  All-optical switches, such as SMZs are the key components adopted for switching and routing due to their ultrafast switching time (pico- to sub- picoseconds). However, SMZs have low inter-output CR (< 10 dB).  It is essential to have a high inter-output CR switch for lower value of output crosstalk (CXT).

4 Ref: www.iqe.ethz.ch/photonics SMZ UNI TOAD Ref: (Princeton) Ref: (Japan) Introduction All-Optical Switches

5 Symmetric Mach-Zehnder (SMZ)

6 Semiconductor Optical Amplifier (SOA) Input signals (light) Carrier density & SOA gain (XGM) SOA refractive index & Induced phase (XPM) Input signals P N Injection current SOA

7 Advantages: 1.narrow and square switching window 2.compact size 3.thermal stability and low power operation Drawback: 1. low inter-output CR (< 10 dB) due to the problem of maintaining the same phase shift. Undesired signal Symmetric Mach-Zehnder (SMZ)

8 S’(t+π/2) S’(t) S’’(t) S’’’(t) S’’’(t+π/2) P out,1 (t)=S’’’(t)+S’’’(t+π/2+π/2) P out,2 (t)=S’’’(t+π/2)+S’’’(t+π/2) P in (t)=S(t) Signals emerge from output2 S’(t+π/2) S’(t) S’’(t) S’’(t+π/2) S’’’(t+ π) S’’’(t+π/2) P out,1 (t)=S’’’(t + π)+S’’’(t+π/2+π/2) P out,2 (t)=S’’’(t+π/2 + π)+S’’’(t+π/2) P in (t)=S(t) Signals emerge form output1 CP1 π Case 1: Without CP (SMZ is balanced) Case 2: With CP1 only (SMZ unbalanced)Case 3: With both CP1&CP2 (SMZ is balanced again) CP2 π P out,2 (t)=S’’’(t+π/2 + π)+S’’’(t+π/2 + π) P out,1 (t)=S’’’(t + π)+S’’’(t+π/2+π/2 + π) Signals emerge from output2 again S’’’(t+π/2+ π ) Symmetric Mach-Zehnder (SMZ) Case 1: Without CP (SMZ is balanced) Case 2: With CP1 only (SMZ unbalanced) PC2 Output2 Output1 Coupler4 Coupler3 Coupler2 Coupler1 SOA2 SOA1 PBS PC1 PBS S’’(t+π/2) PC2 Output2 Output1 Coupler4 Coupler3 Coupler2 Coupler1 SOA2 SOA1 PBS PC1 PBS PC 3-dB coupler PBS

9 Inter-output Contrast Ratio (CR) of a 1  2 Switch  The inter-output CR of a 1×2 switch is defined as the power ratio between the switched and non-switched signals at outputs ij where i, j = 1 or 2. Typically the value of inter-output CR observed at the SMZ output 2 (CR 21 ) is less than 10 dB.  Here we propose a 1×2 switch utilizing an optical inverter that offers improved CR 21.

10 All-Optical 1  2 SMZ Switch with a High Contrast Ratio CEM: clock extraction module low inter-output CR (< 10 dB) Improved CR (> 32 dB)

11 All-optical Inverter Based on SMZ AA bar 10 01 SOA Input (CLK) CP 1 (CLK) CP 2 (A) Output (A bar)

12 Simulation Results-Simulation Parameter Simulation Tool: Virtual Photonic Inc. (VPI) TABLE I SOA SIMULATION PARAMETER TABLE II SIGNAL AND CONTROL PULSES DEFAULT PARAMETERS

13 Simulation Results-Time Waveforms Output waveforms observed at the proposed 1  2 switch Input packets Control pulse Output1 Output2

14 Simulation Results-Time Waveforms Output CR ratio observed at the proposed 1  2 switch CR (< 10 dB) The improved CR (> 30 dB)

15 Simulation Results- The contrast ratio (CR) against the input packet power

16 Simulation Results- The contrast ratio (CR) against the control pulse power

17 Conclusion  T he advantages and drawbacks of SMZs were introduced.  The principle of the proposed all-optical 1  2 SMZ switch with a high contrast ratio was explained.  By carefully selecting the power of the control pulses, inter-output CR of > 32 dB was achieved over a wide range of input packet power (12 dB).  The proposed 1  2 switch offered an improvement in the inter-output CR of ~ 25 dB in comparison with a single SMZ switch. The proposed switch could potentially be adopted for high-speed signal processing and packet routing in all-optical networks.

18 Special Thanks Special Thanks for Prof. Z. Ghassemlooy Dr. Wai Pang Ng Dr. Hoa Le Minh All colleagues in NCRLab & Your Attention

19 Questions/Suggestions/Comments, please Thank you for your kind attention.

Download ppt "M. F. Chiang 1, Z. Ghassemlooy 1, W. P. Ng 1, and H. Le Minh 2 1. Optical Communications Research Group School of Computing, Engineering and Information."

Similar presentations

IMPROVING DIRECT TORQUE CONTROL USING MATRIX CONVERTERS Technical University of Catalonia. Electronics Engineering Department. Colom 1, Terrassa 08222,

IMPROVING DIRECT TORQUE CONTROL USING MATRIX CONVERTERS Technical University of Catalonia. Electronics Engineering Department. Colom 1, Terrassa 08222,
1 Razali Ngah, and Zabih Ghassemlooy Optical Communication Research Group School of Engineering & Technology Northumbria University, United Kingdom http:

1 Razali Ngah, and Zabih Ghassemlooy Optical Communication Research Group School of Engineering & Technology Northumbria University, United Kingdom http:
All-optical Packet Router Employing PPM Header Processing Prof. Z. Ghassemlooy Optical Communications Research Group School of.

All-optical Packet Router Employing PPM Header Processing Prof. Z. Ghassemlooy Optical Communications Research Group School of.
M. F. Chiang, Z. Ghassemlooy, Wai Pang Ng,

M. F. Chiang, Z. Ghassemlooy, Wai Pang Ng,
NOC 20071 M. F. Chiang M. F. Chiang, Z. Ghassemlooy, Wai Pang Ng, and H. Le Minh Optical Communication Research Group Northumbria University, United Kingdom.

NOC M. F. Chiang M. F. Chiang, Z. Ghassemlooy, Wai Pang Ng, and H. Le Minh Optical Communication Research Group Northumbria University, United Kingdom.
1 Series Resonant Converter with Series-Parallel Transformers for High Input Voltage Applications C-H Chien 1,B-R Lin 2,and Y-H Wang 1 1 Institute of Microelectronics,

1 Series Resonant Converter with Series-Parallel Transformers for High Input Voltage Applications C-H Chien 1,B-R Lin 2,and Y-H Wang 1 1 Institute of Microelectronics,
CSICS 2013 Monterey, California A DC-100 GHz Bandwidth and 20.5 dB Gain Limiting Amplifier in 0.25μm InP DHBT Technology Saeid Daneshgar, Prof. Mark Rodwell.

CSICS 2013 Monterey, California A DC-100 GHz Bandwidth and 20.5 dB Gain Limiting Amplifier in 0.25μm InP DHBT Technology Saeid Daneshgar, Prof. Mark Rodwell.
Photonics Systems Group

Photonics Systems Group
CHARACTERISATION OF A NOVEL DUAL-CONTROL TOAD SWITCH H Le-Minh, Z Ghassemlooy, and W P Ng Optical Communications Research Group School of Informatics,

CHARACTERISATION OF A NOVEL DUAL-CONTROL TOAD SWITCH H Le-Minh, Z Ghassemlooy, and W P Ng Optical Communications Research Group School of Informatics,
Razali Ngah and Z Ghassemlooy Optical Communications Research Group

Razali Ngah and Z Ghassemlooy Optical Communications Research Group
BY: OTHER AUTHORS:. Presentation Outline Introduction  All-optical packet switching  All-optical router  Mach-Zehnder Interformeter(MZI) SOA structure.

BY: OTHER AUTHORS:. Presentation Outline Introduction  All-optical packet switching  All-optical router  Mach-Zehnder Interformeter(MZI) SOA structure.
EE 230: Optical Fiber Communication Lecture 7 From the movie Warriors of the Net Optical Amplifiers-the Basics.

EE 230: Optical Fiber Communication Lecture 7 From the movie Warriors of the Net Optical Amplifiers-the Basics.
All-Optical Header Recognition M. Dagenais Department of Electrical and Computer Engineering, University of Maryland, College Park, MD 20742, USA e-mail:

All-Optical Header Recognition M. Dagenais Department of Electrical and Computer Engineering, University of Maryland, College Park, MD 20742, USA
Sujan Rajbhandari PGNET2006 1 Performance of Convolutional Coded Dual Header Pulse Interval Modulation in Infrared Links S. Rajbhandari, Z. Ghassemlooy,

Sujan Rajbhandari PGNET Performance of Convolutional Coded Dual Header Pulse Interval Modulation in Infrared Links S. Rajbhandari, Z. Ghassemlooy,
H. Le-Minh, Z. Ghassemlooy, W.P. Ng. and R. Ngah Optical Communication Research Group School of Engineering & Technology Northumbria University, Newcastle,

H. Le-Minh, Z. Ghassemlooy, W.P. Ng. and R. Ngah Optical Communication Research Group School of Engineering & Technology Northumbria University, Newcastle,
All-Optical Header Processing in Optical Packet-Switched Networks Hoa Le Minh, Fary Z Ghassemlooy and Wai Pang Ng Optical Communications Research Group.

All-Optical Header Processing in Optical Packet-Switched Networks Hoa Le Minh, Fary Z Ghassemlooy and Wai Pang Ng Optical Communications Research Group.
1 Improving Chromatic Dispersion Tolerance in Long-Haul Fibre Links using Coherent OOFDM M. A. Jarajreh, Z. Ghassemlooy, and W. P. Ng Optical Communications.

1 Improving Chromatic Dispersion Tolerance in Long-Haul Fibre Links using Coherent OOFDM M. A. Jarajreh, Z. Ghassemlooy, and W. P. Ng Optical Communications.
Prof. Z. Ghassemlooy, IST2005, Shiraz, Iran Crosstalk suppression in an all-optical symmetric Mach-Zehnder (SMZ) switch employing un-equal control pulses.

Prof. Z. Ghassemlooy, IST2005, Shiraz, Iran Crosstalk suppression in an all-optical symmetric Mach-Zehnder (SMZ) switch employing un-equal control pulses.
Simulations of All-Optical Multiple-Input AND- Gate Based on Four Wave Mixing in a Single Semiconductor Optical Amplifier H. Le Minh, Z. Ghassemlooy, Wai.

Simulations of All-Optical Multiple-Input AND- Gate Based on Four Wave Mixing in a Single Semiconductor Optical Amplifier H. Le Minh, Z. Ghassemlooy, Wai.
An Ultrafast with High Contrast Ratio 1  2 All-optical Switch based on Tri-arm Mach- Zehnder Employing All-optical Flip-flop H. Le Minh, Z. Ghassemlooy.

An Ultrafast with High Contrast Ratio 1  2 All-optical Switch based on Tri-arm Mach- Zehnder Employing All-optical Flip-flop H. Le Minh, Z. Ghassemlooy.

Similar presentations

Ads by Google