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  • Recent Advances In Direct Torque and Flux Control of IPMSM Drives

    Conference Room, 147 Dalhousie St, Toronto, M5B 2R2

    Friday August 11, 2017 at 10:00 a.m. IEEE Toronto’s Power & Energy Chapter is honoured to invite you to a seminar by professor M. Nasir Uddin, Senior IEEE member and Professor at Lakehead University, “Recent Advances In Direct Torque and Flux Control of IPMSM Drives”. Day & Time: Friday August 11, 2017 10:00 a.m. – 11:30 a.m. Speaker: M. Nasir Uddin Senior IEEE member Professor at Lakehead University Location: Conference Room 147 Dalhousie St, Toronto, M5B 2R2 Contact: Omid Alizadeh Organizers: IEEE Toronto Power & Energy Chapter Abstract: With the advancements in magnetic materials and semiconductor technology, interior permanent magnet synchronous motor (IPMSM) is becoming more and more popular in industrial applications due to its high energy density, high power factor, low noise and high efficiency as compared to conventional AC motors. Conventional field oriented vector control (VC) techniques have been widely used for high performance motor drives for many years. As an alternative to VC scheme recently direct torque and flux control (DTFC) technique is developed which is faster and simpler than that of the VC scheme as DTFC doesn’t need any coordinate transformation, pulse width modulation and current regulators. The DTFC scheme utilizes hysteresis band comparators for both torque and flux controls. Both torque and flux are controlled simultaneously by the selection of appropriate voltage vectors from the inverter. However, conventional six-sector based DTFC suffers from high torque ripples due to discrete nature of control system and limited voltage vector selection from the inverter. Control techniques have been developed for hysteresis controllers to minimize the torque ripples but the six sectors still limits that improvement. Furthermore, in a conventional DTFC the reference air-gap flux is assumed constant at the rated value to make the control task easier. This produces erroneous results for high performance drives as the air-gap flux changes with the operating conditions and system disturbances. Moreover, if the reference air-gap flux is maintained constant, it is not possible to optimize the efficiency of the drive. Therefore, this talk presents a novel eighteen-sector based DTFC scheme to achieve high dynamic performance with reduced torque ripples as compared to the conventional 6-sector based DTFC. In addition, a model based loss minimization algorithm is integrated with the proposed DTFC scheme in order to optimize the efficiency along with high dynamic performance. Eighteen sectors are developed to overcome the unbalanced voltage vector selection of conventional six-sector based system that minimizes the torque ripples. Further, a nonlinear controller with virtual torque and flux controls is also developed for IPMSM drive to minimize the drive torque ripples. The complete IPMSM drives incorporating the developed control techniques are successfully implemented in real-time using digital signal processor (DSP) board-DS1104 for laboratory 5-hp motor. The effectiveness of the proposed control techniques are verified in both simulation and experiment at different operating conditions. It is found that the nonlinear controller based IPMSM drive provides the best performance in terms of torque ripples among all the DTFC schemes. The results show that the proposed nonlinear/18-sector based DTFC scheme would have the potentiality to apply for real-time industrial drives. Biography: M. Nasir Uddin received the B.Sc. and M. Sc. degrees both in electrical & electronic engineering from Bangladesh University of Engineering and Technology (BUET), Dhaka, Bangladesh, and the Ph.D. degree in electrical engineering from Memorial University of Newfoundland (MUN), Canada in 1993, 1996, and 2000, respectively. He has been serving as a Professor in the Department of Electrical Engineering, Lakehead University (LU), Thunder Bay, ON, Canada since August 2001. He also served as a visiting Prof. at Univ. of Malaya (2013, 2012, 2011), Tokyo University of Science (2010), Japan and North South University (2006), Dhaka, Bangladesh. Previously, he was an Assistant Professor in the Department of Electrical and Computer Engineering, University of South Alabama, USA from January 2001 to May 2001, an Assistant Professor from 1996 to 1997 and a lecturer from 1994 to 1996 at BUET. He possesses more than 21 years of teaching experience and has authored/coauthored over 200 papers in international journals (39 in IEEE Transactions) and conferences. Prof. Uddin is a registered professional engineer in the province of Ontario, Canada. Currently, he is serving as an Executive Board Member of IEEE Industry Applications Society (IAS) and Chair of IEEE-IAS-Manufacturing Systems Development and Applications Department. He also served as one of the Technical Program Committee Chairs for IEEE Energy Conversion Congress and Expo (ECCE) 2015 at Montreal, Canada. He was the Technical Committee Chair for the IEEE-IAS Annual Meetings in 2011 (Orlando) and 2012 (Las Vegas). He served as Papers Review Chair (2009–2010 and 2013–2014) of the IEEE Transactions on Industry Applications (IACC). Earlier he served IEEE IAS IACC for 9 years in different capacities. Due to his outstanding contributions IEEE IAS IACC recognized him with IEEE IAS Service Award 2015. He also received LU Distinguished Researcher Award 2010. He was the recipient of several Prize Paper Awards from IEEE IAS IACC and both 2004 Contributions to Research and Contributions to Teaching Awards from LU. His research interests include power electronics, renewable energy, motor drives, and intelligent controller applications.

  • Response of voltage source HVDC systems to DC-side faults, HVDC fault characterisation and DC protection options

    Bahen Centre, Room BA 7180, 40 St George St, Toronto, M5S 2E4

    Friday August 25, 2017 at 2:00 p.m. Prof. Stephen Finney of University of Edinburgh School of Engineering, will be presenting “Response of voltage source HVDC systems to DC-side faults, HVDC fault characterisation and DC protection options”. Day & Time: Friday August 25, 2017 2:00 p.m. – 3:00 p.m. Speaker: Prof. Stephen Finney University of Edinburgh School of Engineering Location: Bahen Centre, Room BA 7180 40 St George St, Toronto, ON M5S 2E4 Contact: Sanaz Kanani Organizers: IAS & PELS Joint Chapter Register: https://events.vtools.ieee.org/meeting_registration/register/45918 Agenda: 2:00 pm: Light Refreshment 2:10-2:50 pm: Presentation (40min) 2:50 pm – Q&A (20min) Abstract: The emergence of high performance, high voltage, voltage source converters (VSC) such as the modular multi-level converter (MMC ) has resulted in increased deployment of voltage source HVDC transmission both for interconnection of AC networks and integration of remote and offshore renewable energy resources. The improved functionality and suitability for networked operation make VSC-HVDC attractive for future power networks. However, the low impedance of voltage source HVDC makes is highly susceptible dc faults, resulting in rapid collapse of system voltage and extreme over currents. For the majority of converter topologies, fault current cannot be controlled by the converter switching with the potential for high current flows in the anti-parallel diodes. Protection devices are, therefore, required to operate with sufficient speed to avoid device failure. In current point-point connections this may be achieved through shunt protection of converter diodes coupled with AC side fault clearance which must be activated at all VSC terminals. There is growing interest in the exploitation of VSC-HVDC in multi-terminal configurations, with a number of large scale pilot projects. (For example the Zhoushan 5 terminal scheme). Conductor faults in such VSC-HVDC networks will result in rapid network-wide voltage collapse and over currents. In these cases the application of proven point-point protection with AC fault clearance, whilst effective, will result in the loss of power flows at all converter stations. This may be avoided by the use of DC circuit breakers (DCCB), however implementation of such circuit breakers presents challenging compromises in speed, complexity and losses. Biography: Prof. Stephen Jon Finney graduated with a Master’s degree in Electrical and Electronic Engineering from Loughborough University in 1988. He worked for the (U.K) Electricity Council research Centre Laboratories before joining the Power Electronics research team at Heriot-Watt University in 1990, obtaining his PhD in 1994. In 2005 he transferred to the University of Strathclyde where he contributed to the formation of the power electronics, drives and energy conversion group. This research group now includes 4 academic staff, five postdoctoral research fellows and 14 postgraduate researchers. The group’s research spans power semiconductor devices, circuits and system level applications. His work in the area of power electronics has resulted in the supervision 15 PhD completions and publication of over 150 research papers with over 30 in IEEE Transactions. During his time at Strathclyde Professor Finney has been responsible for developing research into the application of power electronic systems energy systems. Work in this field includes HVDC transmission, Multi-terminal HVDC, Renewable generator interface and Energy collection architectures. The group recently completed work on the European Union funded ‘Twenties’ program, a multi-partner project which investigated the use of HVDC for the integration of large scale wind generation. This work will be extended through a number of successor projects focusing on overcoming technical barriers to HVDC networks offshore wind integration. Besides HVDC Professor Finney’s team is involved in a broad range of Power Electronics research which include work on High Voltage IGBT Modules and advanced gate drives and U.K China Collaboration on Power Electronic Devices for the Network Integration of Electric Vehicles.

  • On System-Level Analysis & Design of Cellular Networks: The Magic of Stochastic Geometry

    Room ENG288, George Vari Engineering Building, 245 Church St, Toronto, M5B 1Z4

    Friday September 8, 2017 at 10:00 a.m. Professor Marco Di Renzo from Paris-Saclay University/CNRS, will be presenting “On System-Level Analysis & Design of Cellular Networks: The Magic of Stochastic Geometry”. Day & Time: Friday September 8, 2017 10:00 a.m. – 11:00 a.m. Speaker: Professor Marco Di Renzo Paris-Saclay University/CNRS, France Location: Room ENG288 George Vari Engineering Building (Intersection of Church & Gould) Ryerson University 245 Church St, Toronto, M5B 1Z4 Contact: Alireza Sadeghian, Alex Dela Cruz Organizers: Signals & Computational Intelligence Chapter Abstract: This talk is aimed to provide a comprehensive crash course on the critical and essential importance of spatial models for an accurate system-level analysis and optimization of emerging 5G ultra-dense and heterogeneous cellular networks. Due to the increased heterogeneity and deployment density, new flexible and scalable approaches for modeling, simulating, analyzing and optimizing cellular networks are needed. Recently, a new approach has been proposed: it is based on the theory of point processes and it leverages tools from stochastic geometry for tractable system-level modeling, performance evaluation and optimization. The potential of stochastic geometry for modeling and analyzing cellular networks will be investigated for application to several emerging case studies, including massive MIMO, mmWave communication, and wireless power transfer. In addition, the accuracy of this emerging abstraction for modeling cellular networks will be experimentally validated by using base station locations and building footprints from two publicly available databases in the United Kingdom (OFCOM and Ordnance Survey). This topic is highly relevant to graduate students and researchers from academia and industry, who are highly interested in understanding the potential of a variety of candidate communication technologies for 5G networks. Biography: Marco Di Renzo received the “Laurea” and Ph.D. degrees in Electrical and Information Engineering from the University of L’Aquila, Italy, in 2003 and 2007, respectively. In October 2013, he received the Doctor of Science degree from the University Paris-Sud, France. Since 2010, he has been a “Chargé de Recherche Titulaire” CNRS (CNRS Associate Professor) in the Laboratory of Signals and Systems of Paris-Saclay University – CNRS, CentraleSupélec, Univ Paris Sud, France. He is an Adjunct Professor at the University of Technology Sydney, Australia, a Visiting Professor at the University of L’Aquila, Italy, and a co-founder of the university spin-off company WEST Aquila s.r.l., Italy. He serves as the Associate Editor-in-Chief of IEEE COMMUNICATIONS LETTERS, and as an Editor of IEEE TRANSACTIONS ON COMMUNICATIONS and IEEE TRANSACTIONS ON WIRELESS COMMUNICATIONS. He is a Distinguished Lecturer of the IEEE Vehicular Technology Society and IEEE Communications Society. He is a recipient of several awards, and a frequent tutorial and invited speaker at IEEE conferences.

  • Engineering Employment Events

    OSPE will be running Engineering Employment Events on September 14, 2017 and September 30, 2017. The September 14th E3 is in partnership with OACETT and will focus on recent grads, associates and individuals with EIT, P.Eng., C.E.T. and C.Tech. designations. The September 30th E3 is in partnership with Transport Canada and will focus on recent grads, associates and individuals with EIT and P.Eng. designations. Thursday September 14, 2017 Session Registration Link: https://www.ospe.on.ca/events#521/E3-EMP-0917 Time: 11:00 A.M. – 5:00 P.M. Location: Parkview Manor, 55 Barber Greene Rd, Toronto. Saturday September 30, 2017 Session Registration Link: https://www.ospe.on.ca/events#911/TCE3-JSK-0930 Time: 9:00 A.M. – 5:00 P.M. Location: Corporate Event Centre at CHSI – 5110 Creekbank Road, Mississauga, Ontario

  • Canadian Manufacturing Technology Show 2017

    The International Centre, Mississauga (Toronto), ON, Canada

    September 25-28, 2017, the national Canadian Manufacturing Technology Show 2017 offers a diverse mix of live technology on display, with unrivaled keynotes, panel discussions and technical sessions. CMTS includes several signature networking events where the industry comes together to connect, share and celebrate manufacturing. Day & Time: September 25-28, 2017 September 25: 10 a.m. – 5 p.m. September 26: 10 a.m. – 5 p.m. September 27: 10 a.m. – 8 p.m. September 28: 10 a.m. – 4 p.m. Location: The International Centre Mississauga (Toronto), ON, Canada Register to Attend: http://cmts.ca/

  • Molecular Communication in Mobile Systems

    Room BA 2165, 40 St George St, Toronto, M5S 2E4

    Tuesday September 26, 2017 at 3:00 p.m. Professor Robert Schober, Institute for Digital Communications, will be presenting “Molecular Communication in Mobile Systems”. Day & Time: Tuesday September 26, 2017 3:00 p.m. – 4:00 p.m. Speaker: Professor Robert Schober Institute for Digital Communications Friedrich-Alexander-University Erlangen-Nuremberg, Germany Location: Room BA 2165 Bahen Centre for Information Technology 40 St George St, Toronto, ON M5S 2E4 Contact: Arin Minasian Organizers: IEEE Communications Society Event Link: https://events.vtools.ieee.org/m/47028 Abstract: Molecular communication (MC) is an emerging research area offering many interesting and challenging new research problems for communication engineers, biologists, chemists, and physicists. MC is widely considered to be an attractive option for communication between nanodevices such as (possibly artificial) cells and nanosensors. Possible applications of the resulting nanonetworks include targeted drug delivery, health monitoring, environmental monitoring, and “bottom-up” manufacturing. In this talk, we give first a brief introduction to MC and nanonetworking. The main focus of the talk is on stochastic channel modelling for mobile MC systems where the transmitter and/or receiver are not fixed but move subject to diffusion and flow. Metrics such as the mean, autocorrelation function, and probability density function of the channel impulse response will be investigated and the notion of coherence time in MC is introduced. Subsequently, the implications of time-variant channels for MC system design are studied, and corresponding channel estimation and non-coherent detection schemes are developed. The talk concludes with a summary of potential topics for future work. Biography: Robert Schober (S’98, M’01, SM’08, F’10) was born in Neuendettelsau, Germany, in 1971. He received the Diplom (Univ.) and the Ph.D. degrees in electrical engineering from the Friedrich-AlexanderUniversity of Erlangen-Nurnberg (FAU), Germany, in 1997 and 2000, respectively. From May 2001 to April 2002 he was a Postdoctoral Fellow at the University of Toronto, Canada, sponsored by the German Academic Exchange Service (DAAD). From 2002-2011, he was a Professor at the University of British Columbia (UBC), Vancouver, Canada. Since January 2012 he is an Alexander von Humboldt Professor and the Chair for Digital Communication at FAU. His research interests fall into the broad areas of Communication Theory, Wireless Communications, and Statistical Signal Processing. Dr. Schober received several awards for his work including the 2002 Heinz Maier-Leibnitz Award of the German Science Foundation (DFG), the 2004 Innovations Award of the Vodafone Foundation for Research in Mobile Communications, the 2006 UBC Killam Research Prize, the 2007 Wilhelm Friedrich Bessel Research Award of the Alexander von Humboldt Foundation, the 2008 Charles McDowell Award for Excellence in Research from UBC, a 2011 Alexander von Humboldt Professorship, and a 2012 NSERC E.W.R. Stacie Fellowship. In addition, he received several best paper awards. Dr. Schober is a Fellow of the Canadian Academy of Engineering and a Fellow of the Engineering Institute of Canada. From 2012-2015 he served as Editor-in-Chief of the IEEE Transactions on Communications. He is currently the Chair of the Steering Committee of the new Communication Society (ComSoc) journal IEEE Transactions on Molecular, Biological and Multiscale Communication and serves on the Editorial Board of the Proceedings of the IEEE. Furthermore, he is a Member-at-Large of the Board of Governors and a Distinguished Lecturer of ComSoc.

  • Molecular Bringing Precision to Measurements for Millimeter-wave 5G Wireless: Conducted and free-field modulated-signal measurements

    Room BA 4287, 40 St George St, Toronto M5S 2E4

    Wednesday September 27, 2017 at 12:00 p.m. Dr. Kate A. Remley from Wireless Systems Group, NIST, will be presenting “Molecular Bringing Precision to Measurements for Millimeter-wave 5G Wireless: Conducted and free-field modulated-signal measurements”. Day & Time: Wednesday September 27, 2017 12:00 p.m. – 1:00 p.m. (Light lunch will be served) Speaker: Dr. Kate A. Remley Wireless Systems Group, NIST Location: Room BA 4287 Bahen Centre for Information Technology 40 St George St, Toronto, ON M5S 2E4 Contact: Arin Minasian Organizers: IEEE Communications Society Event Link: https://events.vtools.ieee.org/m/47045 Abstract: At millimeter-wave frequencies and for wide modulation bandwidths, the hardware performance of both modulated-signal sources and vector receivers becomes increasingly nonideal. These nonidealities make test and validation of devices, circuits and systems not only more important, but also more difficult. This is especially true because future systems will likely push the limits of modulation complexity and bandwidth to increase data throughput. We will discuss calibration and measurement techniques to correct millimeter-wave modulated-signal measurements illustrating that traditional assumptions at microwave frequencies may not be adequate at millimeter-wave frequencies. Biography: Kate A. Remley (S’92-M’99-SM’06-F’13) was born in Ann Arbor, MI. She received the Ph.D. degree in Electrical and Computer Engineering from Oregon State University, Corvallis, in 1999. From 1983 to 1992, she was a Broadcast Engineer in Eugene, OR, serving as Chief Engineer of an AM/FM broadcast station from 1989-1991. In 1999, she joined the RF Technology Division of the National Institute of Standards and Technology (NIST), Boulder, CO, as an Electronics Engineer. She is currently the leader of the Metrology for Wireless Systems Group at NIST, where her research activities include development of calibrated measurements for microwave and millimeter-wave wireless systems, characterizing the link between nonlinear circuits and system performance, and developing standardized test methods for RF equipment used by the public-safety community. Dr. Remley was the recipient of the Department of Commerce Bronze and Silver Medals, an ARFTG Best Paper Award, and is a member of the Oregon State University Academy of Distinguished Engineers. She was the Chair of the MTT-11 Technical Committee on Microwave Measurements from 2008 – 2010 and the Editor-in-Chief of IEEE Microwave Magazine from 2009 – 2011, and is the Chair of the MTT Fellow Nominating Committee.

  • An Introduction to Free-Field Measurements of Wireless Devices in Reverberation Chambers

    University College, 15 King's College Circle, Toronto, Ontario. Room: 179

    Wednesday September 27, 2017 at 4:00 p.m. Dr. Kate A. Remley, leader of the Metrology for Wireless Systems Group at NIST, will be presenting “An Introduction to Free-Field Measurements of Wireless Devices in Reverberation Chambers”. Day & Time: Wednesday September 27, 2017 4:00 p.m. – 5:00 p.m. Speaker: Dr. Kate A. Remley Metrology for Wireless Systems Group at NIST Location: University College 15 King’s College Circle Toronto, Ontario Room: 179 Contact: George V. Eleftheriades Organizers: EM & Radiation Chapter, IEEE Toronto Abstract: When the antenna is integrated into the body of a wireless device, as it is for cell phones and many other portable devices, performance testing is typically done under free-field conditions. In this overview presentation, we will discuss free-field characterization of some key wireless-device parameters by use of reverberation chambers. We will discuss recent research and some of the issues related to the use of these chambers for testing devices that transmit modulated signals. Biography: Kate A. Remley (S’92-M’99-SM’06-F’13) was born in Ann Arbor, MI. She received the Ph.D. degree in Electrical and Computer Engineering from Oregon State University, Corvallis, in 1999. From 1983 to 1992, she was a Broadcast Engineer in Eugene, OR, serving as Chief Engineer of an AM/FM broadcast station from 1989-1991. In 1999, she joined the RF Technology Division of the National Institute of Standards and Technology (NIST), Boulder, CO, as an Electronics Engineer. She is currently the leader of the Metrology for Wireless Systems Group at NIST, where her research activities include development of calibrated measurements for microwave and millimeter-wave wireless systems, characterizing the link between nonlinear circuits and system performance, and developing standardized test methods for RF equipment used by the public-safety community. Dr. Remley was the recipient of the Department of Commerce Bronze and Silver Medals, an ARFTG Best Paper Award, and is a member of the Oregon State University Academy of Distinguished Engineers. She was the Chair of the MTT-11 Technical Committee on Microwave Measurements from 2008 – 2010 and the Editor-in-Chief of IEEE Microwave Magazine from 2009 – 2011, and is the Chair of the MTT Fellow Nominating Committee.

  • Thales Project Arduino Competition

    Ryerson University, Toronto, ON

    You probably know all about the Arduino open-source electronics prototyping platform already. Maybe you’ve used one before or perhaps you’re just interested in getting your hands on one to see just how innovative you can be. Now’s your chance! Register for the Arduino Workshop and you could soon be exploring the powerful capabilities of Arduino, with a Thales expert on hand to show you the ropes, and the chance to win some great prizes including a fitbit altaHR and the opportunity to visit a Thales Research Centre in one of the participating regions. Day & Time: Tuesday October 10, 2017 12:00 p.m. – 5:00 p.m. Location: Ryerson University Toronto, ON Contact: Maryam Davoudpour Organizers: IEEE Toronto WIE & Instrumentation/Measurement Chapter, Girls on the Move Register: https://www.thalesarduino.com/arduino

  • Industrial Relations and Toronto ComSoc Chapter: Site Visit G&W/Survalent

    7965 Heritage Rd, Brampton, ON L6Y 0B3

    Note: This event has been rescheduled from the original date. The new day and time is Thursday, October 12, 2017. IEEE Toronto is thrilled to present a tour of the Manufacturing Facility of G&W Canada and Survalent in Brampton. This event is a joint event between IEEE Toronto Industrial Relations and Toronto ComSoc Chapter. Day & Time: Thursday, October 12, 2017 9:30 a.m. – 11:30 a.m. Location: 7965 Heritage Rd, Brampton, ON L6Y 0B3 Contact: Maryam Alsomahi Organizers: Industrial Relations, Communication Society Chapter RVSP: https://events.vtools.ieee.org/m/47131 Abstract: G&W Electric has been a global supplier of electric power equipment since 1905. Our product offerings include overhead and underground distribution switches, Lazer® Automation solutions, reclosers, distribution and transmission cable accessories, and current limiting system protection devices. Combining cutting-edge design and manufacturing technology with world-class ISO certified quality systems; G&W specializes in custom solutions to meet specific customer requirements. So whether you are searching for cable terminations and joints, simple manual switching, automation for smart grid applications, or the latest in renewable energy solutions, join G&W for a tour of their SF6 and Solid Dielectric manufacturing process. Fees & Notes: $10 for non-IEEE members and free for IEEE members. 1. Attendees are required to bring their own safety shoes and glasses. However, G&W can loan glasses and toe caps for those who don’t have them. For safety purposes, attendees are not allowed to wear shorts or open shoes. 2. Please add a note if you are able to drive/carpool or if you need a ride.

  • Cyber Security of the Digital Substation: Hands-on Training

    Room BA 7180, Bahen Centre for Information Technology, 40 St George St

    IEEE Toronto Industrial Relationships, Communication Society chapter and University of Toronto Electrical Engineering Department are excited to invite all interested to a two-days hands-on workshop on: Cyber Security of the Digital Substation: Hands-on Training Facilitated by Steel McCreery, Integration Application Specialist II Communications, Schweitzer Engineering Laboratories Day & Time: Saturday & Sunday, October 21-22, 2017 4-hour workshop (10:00 a.m. – 3:00 p.m.) on Saturday 6-hour workshop (9:00 a.m. – 4:00 p.m.) on Sunday Location: Room BA 7180 Bahen Centre for Information Technology 40 St George St, Toronto, ON M5S 2E4 Cost: $10.00 + Tax (event is of limited capacity to 24 seats because of equipment limitations). Register at https://events.vtools.ieee.org/m/47504. Requirements: Participants should bring their own laptop that has a 10/100 Base T Ethernet port and have administrator rights for their computer to configure the Ethernet port IP address. Workshop Agenda: Saturday Oct. 21 (10:00 a.m. – 3:00 p.m.) – Ethernet Fundamentals This four hour session will focus on the practical aspects of implementing Ethernet-based LANs within the substation. Topics include: – OSI model – Ethernet media and topologies commonly used within substations – Ethernet hub operation and CSMA/CD – Switch learning and operation – SEL-2730M Managed 24-Port Ethernet Switch hardware overview and ordering options – Hands-on lab exercises using the SEL-2730M Switches include: – Login and account management – Configuration of QoS (VLANs and priority) – Configuration and testing of Rapid Spanning Tree protocol (RSTP) – Time permitting the class will have a brief overview of the routing process: ( IPv4 addressing , DHCP , DNS, ARP, routing process) Sunday Oct. 22 (9:00 a.m. – 4:00 p.m.) – Cyber security In this session, participants will: – Discover that sensible cybersecurity is not difficult. – Learn how to set up a virtual private network (VPN) to provide confidential communications and maintain data integrity. – Understand the importance of authentication. – Configure firewall rules to prevent malicious traffic from entering or exiting private networks to protect cyber assets. – Understand the role of syslog to report and collect device events. – Learn the methods to secure both Ethernet and wireless communications. Trainer Biography: Steel McCreery Integration Application Specialist II Communications with Schweitzer Engineering Laboratories since May 2012. McCreery provides communications and automation applications engineering support to sales, consultants, utility and industrial customers in addition to SEL’s internal Engineering Services team. Professional Experience Summary: – Professional with thirty three years of applications experience in the areas of data communication, automation and training. – Developed national and international training centres for GE Multilin, Siemens and Omron. – The Sales Applications Engineer for Data Communications, Automation and Networking products. – Extensive experience in the design and commissioning of control systems and communication networks for industrial and electrical power utility applications.

  • IEEE Toronto Section Annual General Meeting 2017

    21 Old Mill Rd, Toronto, ON, Canada

    All members, along with their guest, are invited to attend the IEEE Toronto Section Annual General Meeting (AGM). The AGM is an occasion to celebrate the achievements of the Toronto Section, made possible by its dedicated volunteers and members. This year, the AGM will also include elections for a new set of Section Officers, to serve in 2018 – 2019. Date: Saturday, October 21, 2017 Time: 6:30 p.m. – 10:00 p.m. RVSP: https://events.vtools.ieee.org/m/47392 Cost: Life members (inc. one guest): $50.00 CAD. Other members (inc. one guest): $70.00 CAD. Contact our section secretary, Ali Nabavi for details. Location: 21 Old Mill Rd, Toronto, ON, Canada Building: Brûlé C Please notice the following: • Dress code is Elegant Casual. • Seats are limited; RSVP is mandatory. We look forward to seeing you all on October 21, 2017!