EMC & Wireless Device Requirements and Compliance Design Seminar

EMC & Wireless Device Requirements and Compliance Design Seminar Learn how to reduce the time and cost of product compliance Get in-depth training on: Wireless and digital device approvals process Current and future regulatory trends Designing right for faster EMC compliance Dates May 9th, 10th and 11th, 2018 Presented by

EMC Regulatory Requirements 1. Regulatory Requirements Intro. to regulatory requirements Agencies in North America Agencies in Europe Structure of regulatory agencies Participation in standards making 2. North America FCC Part 2 - Including updated rules FCC KDB overview FCC Authorization Methods - including SDoC FCC Part 15 - Unintentional Radiators FCC Part 15 - Intentional Radiators ISM - Industrial, Scientific, Medical ANSI / CISPR deviations Innovation, Science and Economic Development Canada (ISED) ICES-003 Radio Standards Specifications 4. Testing - Standards and methods Requirements on accreditation Emissions Immunity Radio parameters Compare & Contrast Conclusion 3. European Union (EU) New Legislative Framework - NLF Compliance paths to CE marking Declaration of Conformity EU type examination EU Directives EMC Directive 2014/30/EU Radio Equipment Directive 2014/53/EU Harmonised Standards Types of Standards

Design, Part 1 1. Introduction Terms & definitions EMI situations Modes of noise propagation Noise transmission paths Units of EMI measurement Radiated and conducted noise Electric & magnetic field sources Wave impedance and plane waves Common-mode vs differential Near-field vs far-field Narrowband and broadband noise Freq. vs wavelength relationship Transmission of signal energy Chassis as noise source, or sink? Faraday cage concept 2. Noise Emission Evaluation Purpose of EMC analysis Analysis as a design tool Basis for RFI generation Application of fourier transforms Signal transition time and bandwidth Conducted emission levels Setup for conducted emissions test Radiated emission levels Noise suppression computation 4. Case Shielding Basics of shielding process Reflection and multiple reflection Absorption loss computation Wave and characteristic impedance Computing reflection loss Total shielding effectiveness Effectiveness of Faraday Cage Apertures and seams leakage Computing leakage Leakage through conductors 5. Cable Shielding and Filtering Induced noise and return path Shielding effectiveness of cables Capacitive coupling on cables Cable as a transmission line Reflections on a transmission line Ribbon vs round cable Isolation techniques for cables λ Isolation transformers λ Differential drivers/receivers λ Fiber optics λ Coaxial or triaxial cables λ Common mode chokes Powerline filtering 3. Grounding Techniques Considerations for grounding Grounding definitions Personnel safety objectives EMC grounding objectives Ground loop problems Single-point grounding -When? Multi-point grounding - Why? Audio-frequency grounding Digital / RF grounding Grounding according to noise level Ground as a return path Mutual inductance of ground path Common-mode coupling Ground reference for RF

Design, Part 2 6. System Packaging and PWB System design considerations Suppression at the source Compartmentalized shielding Power distribution on PWB Selection of decoupling capacitors Effect of trace inductance Power distribution for 2 layer system Signal layout for high frequencies Optimizing Multilayer Boards λ Ground near IC pins λ Ground through connectors λ Ground near PWB edge Four-layer PWB λ Ground as shield λ Feed-throughs and layers λ Pin escape length λ Use of decoupling capacitors λ Signal routing, best practices λ Buried clock layout λ Guard band for clocks Six-layer PWB λ Maintain trans-line form λ Correct order of layers λ Thickness of dielectric Routing of high frequencies Preferred layer groups Eight-layer Plus Transmission line Too many layers? Demonstration 7. ESD & RF Susceptibility ESD as RF noise ESD test setup ESD characteristics Direct and indirect ESD ESD through cables RF Susceptibility λ Noise paths for RF λ Conducted susceptibility λ Powerline transients 8. Diagnostic Procedures & Tools Spectrum energy Near field probes Wire antennas Cable antennas Shielding materials Filtering materials 9. Special Topics Telephone line Local area networks Medical devices Transmitters & Receivers 10. Demonstrations EMC testing and debugging Seminar Objectives Acquire a comprehensive and detailed knowledge of EMC design techniques Learn terms used for test, measurement, and design related to EMC requirements Understand how to control noise at the source, and thereby control costs of suppression components Utilize circuit design requirements to complement compliance goals Learn requirements for domestic and international regulatory agencies, and new trends in the industry Understand the radio approvals process content may be modified to address attendee interests

A word from some of our past students... I wanted to thank you and your company for the EMI/EMC/Product Safety seminar in San Diego. I honestly was not expecting to learn so much during the four days when so many of these types of company-sponsored seminars are little more than a sales pitch with some info thrown in for good measure. On the contrast, the Compatible Electronics seminar was chock full of information, good design techniques, lessons in how not to do things, and how to apply the current and forth-coming standards. Upon my return to work I immediately found problems with a PC board we are having made for us - a ground plane directly under a common mode choke. These types of things used to not concern me, but now I understand why you shouldn t do that. Thanks again for a job well done! Best regards, -Robert- Robert Morgan Sr. Hardware Engineer Cubic This 4-day seminar was very well outlined. The knowledge and experience of the course instructors along with their practical examples were a valuable part of the lecture. The written course material will also be a valuable reference. Best Regards, Kevin (SIEMENS) I have attended many seminars over the past years and I must say this one with Compatible Electronics has been the best. I must say that Jeff and Shirish were both outstanding. Both of them gave answers to real world problems. If someone asked a question, both Jeff and Shirish would take the time to think about their answer and equate the answer to a real world problem that each of them has had to deal with in solving problems. In the most part I would recommend this seminar to my colleagues. I am using examples from the seminar to enhance the design of our product. Regards Tom Grotkin Pulmonetic Systems Inc

Compatible Electronics is a commercial EMC test laboratory in Southern California with four divisions. The divisions combined operate 10 open area test sites (OATS) and 7 semi-anechoic chambers. In the last 35 years, Compatible Electronics has assisted many manufacturers, worldwide, in getting their products to market quickly. These manufacturers have relied on Compatible Electronics for accurate testing and cost-effective solutions to make their products EMC compliant. By popular demand, Compatible Electronics has put together this seminar on regulatory requirements and proven design techniques. Course Instructors Your principal course instructor will be Mr. Shirish Shah. He is the President of Compatible Electronics. He has a BSEE from the Indian Institute of Technology (IIT), Bombay, and a MSEE degree from the University of Hawaii. Mr. Shah is an inarte certified EMC Engineer, and has over 40 years of experience designing equipment and systems, including 35 years of design and consulting in the field of electromagnetic compatibility. Mr. Shah s extensive design experience includes analog, digital, RF, power circuits, and systems in commercial, military, and avionics product development. Mr. Jeff Klinger is Compatible Electronics Director of Engineering. He has over 24 years experience in the field of EMI / EMC compliance, and specializes in domestic and international regulatory issues product testing and approvals. Mr. Klinger is a Telecommunication Certification Body Certifier (TCB) for FCC part 15, and a Notified Body (NB) type examiner for the European EMC and Radio Equipment Directives. He holds a degree in Electronics Engineering technology, is a former IEEE Orange County EMC society chapter Chair - (2007-2012), holds certification as an inarte EMC ATL Engineer and is a member of the ANSI C63 standards committee. Cost: $1280 for day one through three (EMC Regulations & Design Seminar) $840 for day two & three (EMC Design Seminar) $480 for day one only (EMC Regulations & product approvals) continental breakfast, lunch and seminar handbook included. 10% DISCOUNT ON PAYMENT RECEIVED 30 DAYS IN ADVANCE Group discounts are also available. Please call. Accommodation: Cancellation: Substitution: Contact the hotel directly to reserve your room. Minimum 14 days notice before the starting date of the seminar is required for cancellation. Cancellation received after this date is subject to a 20% cancellation fee. Substitutions are welcome and can be done at anytime.

This seminar is intended for design engineers and technical project managers involved in FCC and international compliance of digital equipment, Information Technology equipment, and radio frequency devices. Design fundamentals related to EMC, and digital circuit design, will be explained thoroughly. Digital design engineers & project managers EMI test engineers & technicians PWB layout persons Marketing managers Who should attend? Those who think EMC compliance is difficult A brief test to help determine if this course is useful for you. 1. A 115V, 60 Hz power cable cannot radiate 30 MHz noise. True 2. Metallic enclosures will always lower radiated emissions. or 3. Powerline filters can t increase the noise emissions. False? 4. Five 0.02 uf capacitors are equivalent to one 0.1 uf capacitor for a power bus bypass. 5. Signal ground should be totally isolated from the chassis ground to prevent chassis noise from getting onto the signal. All of the statements are false ; if you answered true to any of the above, you should consider attending the seminar. Seminar schedule and registration information Days: May 9 th, 10 th and 11 th, 2018 Time: Location: 8:00 am to 5:00 pm HYATT REGENCY WESTLAKE 880 S. Westlake Blvd., Westlake Village, CA 91361 web address: https://westlake.regency.hyatt.com/

114 Olinda Drive, Brea, CA 92823 RETURN SERVICE REQUESTED If addressee is unavailable, please forward to Engineering Manager To enroll, please call: (714) 579-0500 or fax this form to (714) 528-1992 or if you prefer, register online at https://www.celectronics.com/training/seminars/ Registration Form Please enroll me for the seminar I am unable to attend on these dates, but please include me in future mailings I am not interested, please remove me from the mailing list Name Title Company Email Address City State Zip Telephone Fax Signature Date 1. EMI / EMC / (All three days) Fee $1280 x (Number of registrants) Total 2. EMI / EMC Seminar (Days two & three) Fee $840 x (Number of registrants) Total 3. Regulatory requirements (Day one only) Fee $480 x (Number of registrants) Total Less early registration discount (10%, requires advance payment) After Discount Total Purchase Order # Visa / Mastercard accepted