This document discusses electromagnetic compatibility (EMC) considerations for smart appliance designs globally. EMC includes regulating electromagnetic emissions from appliances to prevent radio interference, as well as ensuring immunity to electromagnetic disturbances. Regulations vary by region but generally focus on emissions testing, though the European Union also mandates immunity testing. Key design strategies for EMC compliance include using efficient circuitry, compact layouts, shielding, and line filters/chokes.
Lightning and surge transfer to systems presentation by jmv lpsMahesh Chandra Manav
Lightning and Surge Strike and Protection Information from JMV LPS Architect/Electrical Consultants/MEP Consultants/EPC Companies/CEA/REC/PGCIL/Wapcos/Electrical Contractor
Link vue system offer safety for human and assets (alert 24 x7)Mahesh Chandra Manav
Now Technologies Support Infrastructure offering Human Safety and Industrial Safety and Control Monitoring of Valuable Assets.
Indian Govt is very keen to ensure safety of Human Lives Installation of CCTV and LED Street Light for maximum place to reduce Darkness and this will help to stop criminal activities.
All Public Place , Public Transportation , Shopping Malls , Cinema Halls, Hotels ,Hospitals , Devotional Place , School ,Colleges, Universities, Govt and Pvt Offices, Defense Infra , Railway Station ,Metro Station , Airport Infra, Industrial Plants,
Govt of India Instructed all Liquor Manufacturing , Bottling, Storage and Selling Outlets to Install CCTV which will be access to Excise Central Offices.
Further Advise All Railway Coaches and Station Building should be equipped CCTV .
We request all Architect, MEP and Electrical Consultants, EPC Project and Electrical Contract Companies to send us inquiries and advise for Webinar .
Mahesh Chandra Manav
HOD
Link Vue System Pvt Ltd
India Australia
M-9811247237
manav.chandra@linkvuesystem.com
Practical EMC and EMI Control for Engineers and TechniciansLiving Online
This workshop focuses on the issues of interest to you if you are working in design, operation or maintenance of analog or digital systems involving sensors, data acquisition, process control, cables, signal processing, programmable logic controllers, power distribution, high speed logic etc. The circuit board layout section concentrates on design and layout of circuits and components on a printed circuit board. The overall focus is on useful design and systems issues; not about regulations and standards. The idea is that you will take this material back with you to your work and apply the key principles immediately to your design and troubleshooting challenges.
WHO SHOULD ATTEND?
Electrical and electronic engineers and technicians
Engineers and technicians involved in the design and manufacture of electrical and electronic equipment which produce electromagnetic disturbances and may be susceptible to electromagnetic interference
Engineers and technicians involved with the maintenance and service of electrical and electronic equipment
Instrumentation and control engineers and technicians
Those that need to ensure that goods conform to the required standards
Those involved in the marketing and sale of goods that need to comply with the required standards
MORE INFORMATION: http://www.idc-online.com/content/practical-emc-and-emi-control-engineers-and-technicians-2
Electromagnetic Interference and Electromagnetic Compatibility (EMI/EMCAishwary Singh
• Characterizing the threat
• Setting standards for emission and susceptibility levels
• Testing of Equipment on heavy Vibrations
• Testing for standards compliance
For queries,
Aishwarya
palsinghaishwarya@gmail.com
Lightning and surge transfer to systems presentation by jmv lpsMahesh Chandra Manav
Lightning and Surge Strike and Protection Information from JMV LPS Architect/Electrical Consultants/MEP Consultants/EPC Companies/CEA/REC/PGCIL/Wapcos/Electrical Contractor
Link vue system offer safety for human and assets (alert 24 x7)Mahesh Chandra Manav
Now Technologies Support Infrastructure offering Human Safety and Industrial Safety and Control Monitoring of Valuable Assets.
Indian Govt is very keen to ensure safety of Human Lives Installation of CCTV and LED Street Light for maximum place to reduce Darkness and this will help to stop criminal activities.
All Public Place , Public Transportation , Shopping Malls , Cinema Halls, Hotels ,Hospitals , Devotional Place , School ,Colleges, Universities, Govt and Pvt Offices, Defense Infra , Railway Station ,Metro Station , Airport Infra, Industrial Plants,
Govt of India Instructed all Liquor Manufacturing , Bottling, Storage and Selling Outlets to Install CCTV which will be access to Excise Central Offices.
Further Advise All Railway Coaches and Station Building should be equipped CCTV .
We request all Architect, MEP and Electrical Consultants, EPC Project and Electrical Contract Companies to send us inquiries and advise for Webinar .
Mahesh Chandra Manav
HOD
Link Vue System Pvt Ltd
India Australia
M-9811247237
manav.chandra@linkvuesystem.com
Practical EMC and EMI Control for Engineers and TechniciansLiving Online
This workshop focuses on the issues of interest to you if you are working in design, operation or maintenance of analog or digital systems involving sensors, data acquisition, process control, cables, signal processing, programmable logic controllers, power distribution, high speed logic etc. The circuit board layout section concentrates on design and layout of circuits and components on a printed circuit board. The overall focus is on useful design and systems issues; not about regulations and standards. The idea is that you will take this material back with you to your work and apply the key principles immediately to your design and troubleshooting challenges.
WHO SHOULD ATTEND?
Electrical and electronic engineers and technicians
Engineers and technicians involved in the design and manufacture of electrical and electronic equipment which produce electromagnetic disturbances and may be susceptible to electromagnetic interference
Engineers and technicians involved with the maintenance and service of electrical and electronic equipment
Instrumentation and control engineers and technicians
Those that need to ensure that goods conform to the required standards
Those involved in the marketing and sale of goods that need to comply with the required standards
MORE INFORMATION: http://www.idc-online.com/content/practical-emc-and-emi-control-engineers-and-technicians-2
Electromagnetic Interference and Electromagnetic Compatibility (EMI/EMCAishwary Singh
• Characterizing the threat
• Setting standards for emission and susceptibility levels
• Testing of Equipment on heavy Vibrations
• Testing for standards compliance
For queries,
Aishwarya
palsinghaishwarya@gmail.com
Presentation on emc testing and measurementRajat Soni
discuss the options for EMC testing for compliance with the EMC Directive from the point of view of a manufacturer who wishes to achieve as much progress as possible, in-house, on a limited budget. It is not addressed to test houses nor to those manufacturers who have the resources to emulate most or all of the facilities of an accredited test house in their own premises. There are many small-to-medium sized enterprises who are able to dedicate a modest budget of several thousands or tens of thousands of pounds to an in-house EMC test set-up and who wish to gain the maximum benefit from so doing.
Ntpc unchar boiler accident and reasonand my condolence and adviseMahesh Chandra Manav
Govt Of India /PMO Office/State Govt/Ministry of Industries and Power/Power Generation Companies ,Companies using Boiler ,Coal and Handling Ash. /Consultants Govt and PVT ,MNC
High speed electric sky pods for passenger and cargo presentation by link vueMahesh Chandra Manav
India is Witness and adopting High Speed, Comfort with Safety Surface and SKY High Transportation Like Bullet Train ,Hyper Loop(Capsule Type) POD Taxi Ground and Sky Elevated this will help us to reduce Time for Journey .
Technology and Science ,Innovation and Successful Trail and Safety Certification all to gather many time High Investor who are in capable to take Risk in the Business.
India Still no a Rich and capable to do Such risky investment always looking for international Partner .
We have recent 4 Year Experience for Project on paper Hyper Loop ,and POD TAXI which is not shown any development .
Plz Find Picture of SKY High SPEED POD Passenger Taxi Trail Run for 2.4 KM also planning for Cargo .
Link Vue System Continues in process to gather latest technology updating and Share to our valued Customers.
You can Invite us for Following for Design , Engineering , Selection of Genuine and Right Components which meet Technical and Economical ,Supply along with Installation Support.
Electrical Safety
Earthing ,Lightning ,Surge Protection , Industrial Plug Socket , Building Electrical Internal Wiring Free Joint Connectors, Socket for Power ,Data and Communication.
Networking LAN, Fiber and Wireless
Building Automation ,Data Logger , Protocol Convertor
CCTV ,Fire Alarm ,Access Controls, Security Systems ,PIDS
Solar PV Power Plant , High Energy Battery Storage Systems, Electric Vehicle Charging Infra.
You can send Inquiry ,Web meeting manav.chandra@linkvuesystem.com
M-9811247237
Mahesh Chandra Manav HOD
Link Vue System Pvt Ltd
India/Australia
Future india smart india green&carbon free india presentation by jmv lpsMahesh Chandra Manav
Futhure India Smart Projects for Power Generation , T&D, Railways Transportation, Road Transportation ,Smart Cities, and Infra Project Help India Clean and green Environment.
Govt Industrial Developments ,Urban Infra Projects, Renewables Solar and High Energy Storage, EV Car Public Charging Stataion ,Street Light LED , IOT EPD Companies, Consultants MEP and Electrical Contractors
Modelling and Implementation of Microprocessor Based Numerical Relay for Prot...Kashif Mehmood
This paper includes the design and implementation of Numerical Relay that can protect the equipment against over-voltage, over-current and under voltage. Although, every power system is subjected to faults and these faults can severe damage to the power system. Therefore, it is necessary
to observe and resolve in time to avoid a large damage such as blackouts. For this purpose, there
should be some sensing devices, which give signals to the circuit breakers for preventing of power
system damages. The multipurpose relays have much importance role in power system for sensing
and measuring the amplitude of faults. Numerical relay provides settings of over-current, overvoltage and under voltage values. Simulations have been carried out using Proteus software along
with tested on hardware with Arduino Uno Microcontroller that proves the working and operation of
numerical relay.
Solar PV Power Project India and International Companies Kindly go through Important and Helpful Topic.
Solar PV Power Generation is Preference Now Days by any Country for Investment in Power Generation it's Economical and Silent Green Carbon Free Power Generation System.
Installation of Solar PV Panel is Possible Pole Mounted ,Roof Top Mounted Residential and Industrial , Ground Mounted ,Canal TOP also Water Floating .
Many Solar PV Power Developers is Accepting Very Low Tariff and due to this EPC Companies ,Solar PV Panels, Invertors and Balance Of Plants Equipment's Supply ,Design ,Engineering and Installation have to work with very Low Margin.
The Maintenance of These Plant Costing is Total Depend Selection Of Component Quality ,Design ,Engineering and Professional Approach for Installation otherwise Developer will lose Revenue because of Failure or Low Generation this incurred high cost for Maintenance.
Earthing Design for Total Plant AC and DC Array , Lightning Protection (Threat Cloud Charge Strike) and Installation of Surge Protection with DC Cable and MC4 Connectors are ignorance part in projects Later Face big Problem many time lead Fire Accidents.
Selection OF Solar PV Panels Structure and Design also very important many failure showing Selection Structure Quality and Poor Installation .
Another Challenge is Cleaning of PV Panels and Monitoring of Large Installed Solar PV Panels now days recommendation Robotics Dry Cleaning of PV Panels and Inspection through DRONE .
Solar PV Plant Size is very Large and maintained by less Staff very Difficult to Control Tree Passing and Steel /Damage by un Identify Person so Industries recommend to do Installation CCTV with Day Nigh Monitoring , Fencing of Plant (PIDS), Security System added Fire Alarm and Access Controls Systems.
Networking of Solar PV Power Plant using Fiber Optics and Wireless Infra and Extending Data ,Monitoring of plant Local and Central Level .
Link Vue System Experience to Offer Design ,Engineering ,Selection of Genuine and Right Components, Supply Support for Installation and AMC if customer require .
Electrical Safety Maintenance Free Earthing , ESE Type Lightning Protection ,Surge Protection ,Industrial Out Door Plug Sockets.
LED Street Light , CCTV Camera, Fire Alarm ,Access Controls, Security Systems, PIDS .
High Energy Battery Storage Systems
MC4 Connectors with and Without Fuse ,DC Fuse 1500V-1800 V, Current 30 Amps.
Plz go through and give feedback ,Inquiry , time for Web Presentation.
useful for Solar PV Power Plant Developer, EPC and Electrical Contractors.
MNRE /SECI/NTPC/NHPC/State Renewable Departments/Smart City/Ministry of Power/REC Ltd/BHEL/CEL/REIL/RECML
Private Solar Power Leading EPC Companies.
Visit our Website www.linkvuesystem.com
Call M-9811247237 Mahesh Chandra Manav
manav.chandra@linkvuesystem.com
DLPS is a kind of automatic lightning protection control system, which is applied to automatically calculate and carry out the dynamic preventive actions for a Smart Grid/power grid.
Fundamentals of electromagnetic compatibility (EMC)Bruno De Wachter
Electromagnetic interference, EMI, has become very important in the last few decades as the amount of electronic equipment in use has increased enormously. This has led to an increase in the sources of interference, e.g. digital equipment and switching power supplies, and an increase in the sensitivity of equipment to interference, due to higher data rates.
This development demands high quality electrical installations in all buildings where electromagnetic non-compatibility leads to either higher costs or to an unacceptable decrease in safety standards.
This application note gives an overview and a basic understanding of the major physical principles of electromagnetic interference and an introduction to the principles of mitigation of disturbing effects. As a result, the measures required to achieve an EMC-compliant installation should be easily understood.
TAKO SINCE 1979 STOP RM250 MILLION LOSSES WITH MS IEC 62305 LIGHTNING PROTECT...TAKO Lightning System
The large losses suffered as a result of lightning-related damage to electronic equipment highlight how crucial it is to have strong lightning protection for electronic equipment in place in order to reduce risks and protect priceless assets. Purchasing TAKO’s top-notch lightning protection for electronic equipment, including those that meet MS IEC 62305 standards, can lessen the effects that lightning strikes have on a company’s finances and operations. For more information, visit https://takolightningsystem.com/.
Presentation on emc testing and measurementRajat Soni
discuss the options for EMC testing for compliance with the EMC Directive from the point of view of a manufacturer who wishes to achieve as much progress as possible, in-house, on a limited budget. It is not addressed to test houses nor to those manufacturers who have the resources to emulate most or all of the facilities of an accredited test house in their own premises. There are many small-to-medium sized enterprises who are able to dedicate a modest budget of several thousands or tens of thousands of pounds to an in-house EMC test set-up and who wish to gain the maximum benefit from so doing.
Ntpc unchar boiler accident and reasonand my condolence and adviseMahesh Chandra Manav
Govt Of India /PMO Office/State Govt/Ministry of Industries and Power/Power Generation Companies ,Companies using Boiler ,Coal and Handling Ash. /Consultants Govt and PVT ,MNC
High speed electric sky pods for passenger and cargo presentation by link vueMahesh Chandra Manav
India is Witness and adopting High Speed, Comfort with Safety Surface and SKY High Transportation Like Bullet Train ,Hyper Loop(Capsule Type) POD Taxi Ground and Sky Elevated this will help us to reduce Time for Journey .
Technology and Science ,Innovation and Successful Trail and Safety Certification all to gather many time High Investor who are in capable to take Risk in the Business.
India Still no a Rich and capable to do Such risky investment always looking for international Partner .
We have recent 4 Year Experience for Project on paper Hyper Loop ,and POD TAXI which is not shown any development .
Plz Find Picture of SKY High SPEED POD Passenger Taxi Trail Run for 2.4 KM also planning for Cargo .
Link Vue System Continues in process to gather latest technology updating and Share to our valued Customers.
You can Invite us for Following for Design , Engineering , Selection of Genuine and Right Components which meet Technical and Economical ,Supply along with Installation Support.
Electrical Safety
Earthing ,Lightning ,Surge Protection , Industrial Plug Socket , Building Electrical Internal Wiring Free Joint Connectors, Socket for Power ,Data and Communication.
Networking LAN, Fiber and Wireless
Building Automation ,Data Logger , Protocol Convertor
CCTV ,Fire Alarm ,Access Controls, Security Systems ,PIDS
Solar PV Power Plant , High Energy Battery Storage Systems, Electric Vehicle Charging Infra.
You can send Inquiry ,Web meeting manav.chandra@linkvuesystem.com
M-9811247237
Mahesh Chandra Manav HOD
Link Vue System Pvt Ltd
India/Australia
Future india smart india green&carbon free india presentation by jmv lpsMahesh Chandra Manav
Futhure India Smart Projects for Power Generation , T&D, Railways Transportation, Road Transportation ,Smart Cities, and Infra Project Help India Clean and green Environment.
Govt Industrial Developments ,Urban Infra Projects, Renewables Solar and High Energy Storage, EV Car Public Charging Stataion ,Street Light LED , IOT EPD Companies, Consultants MEP and Electrical Contractors
Modelling and Implementation of Microprocessor Based Numerical Relay for Prot...Kashif Mehmood
This paper includes the design and implementation of Numerical Relay that can protect the equipment against over-voltage, over-current and under voltage. Although, every power system is subjected to faults and these faults can severe damage to the power system. Therefore, it is necessary
to observe and resolve in time to avoid a large damage such as blackouts. For this purpose, there
should be some sensing devices, which give signals to the circuit breakers for preventing of power
system damages. The multipurpose relays have much importance role in power system for sensing
and measuring the amplitude of faults. Numerical relay provides settings of over-current, overvoltage and under voltage values. Simulations have been carried out using Proteus software along
with tested on hardware with Arduino Uno Microcontroller that proves the working and operation of
numerical relay.
Solar PV Power Project India and International Companies Kindly go through Important and Helpful Topic.
Solar PV Power Generation is Preference Now Days by any Country for Investment in Power Generation it's Economical and Silent Green Carbon Free Power Generation System.
Installation of Solar PV Panel is Possible Pole Mounted ,Roof Top Mounted Residential and Industrial , Ground Mounted ,Canal TOP also Water Floating .
Many Solar PV Power Developers is Accepting Very Low Tariff and due to this EPC Companies ,Solar PV Panels, Invertors and Balance Of Plants Equipment's Supply ,Design ,Engineering and Installation have to work with very Low Margin.
The Maintenance of These Plant Costing is Total Depend Selection Of Component Quality ,Design ,Engineering and Professional Approach for Installation otherwise Developer will lose Revenue because of Failure or Low Generation this incurred high cost for Maintenance.
Earthing Design for Total Plant AC and DC Array , Lightning Protection (Threat Cloud Charge Strike) and Installation of Surge Protection with DC Cable and MC4 Connectors are ignorance part in projects Later Face big Problem many time lead Fire Accidents.
Selection OF Solar PV Panels Structure and Design also very important many failure showing Selection Structure Quality and Poor Installation .
Another Challenge is Cleaning of PV Panels and Monitoring of Large Installed Solar PV Panels now days recommendation Robotics Dry Cleaning of PV Panels and Inspection through DRONE .
Solar PV Plant Size is very Large and maintained by less Staff very Difficult to Control Tree Passing and Steel /Damage by un Identify Person so Industries recommend to do Installation CCTV with Day Nigh Monitoring , Fencing of Plant (PIDS), Security System added Fire Alarm and Access Controls Systems.
Networking of Solar PV Power Plant using Fiber Optics and Wireless Infra and Extending Data ,Monitoring of plant Local and Central Level .
Link Vue System Experience to Offer Design ,Engineering ,Selection of Genuine and Right Components, Supply Support for Installation and AMC if customer require .
Electrical Safety Maintenance Free Earthing , ESE Type Lightning Protection ,Surge Protection ,Industrial Out Door Plug Sockets.
LED Street Light , CCTV Camera, Fire Alarm ,Access Controls, Security Systems, PIDS .
High Energy Battery Storage Systems
MC4 Connectors with and Without Fuse ,DC Fuse 1500V-1800 V, Current 30 Amps.
Plz go through and give feedback ,Inquiry , time for Web Presentation.
useful for Solar PV Power Plant Developer, EPC and Electrical Contractors.
MNRE /SECI/NTPC/NHPC/State Renewable Departments/Smart City/Ministry of Power/REC Ltd/BHEL/CEL/REIL/RECML
Private Solar Power Leading EPC Companies.
Visit our Website www.linkvuesystem.com
Call M-9811247237 Mahesh Chandra Manav
manav.chandra@linkvuesystem.com
DLPS is a kind of automatic lightning protection control system, which is applied to automatically calculate and carry out the dynamic preventive actions for a Smart Grid/power grid.
Fundamentals of electromagnetic compatibility (EMC)Bruno De Wachter
Electromagnetic interference, EMI, has become very important in the last few decades as the amount of electronic equipment in use has increased enormously. This has led to an increase in the sources of interference, e.g. digital equipment and switching power supplies, and an increase in the sensitivity of equipment to interference, due to higher data rates.
This development demands high quality electrical installations in all buildings where electromagnetic non-compatibility leads to either higher costs or to an unacceptable decrease in safety standards.
This application note gives an overview and a basic understanding of the major physical principles of electromagnetic interference and an introduction to the principles of mitigation of disturbing effects. As a result, the measures required to achieve an EMC-compliant installation should be easily understood.
TAKO SINCE 1979 STOP RM250 MILLION LOSSES WITH MS IEC 62305 LIGHTNING PROTECT...TAKO Lightning System
The large losses suffered as a result of lightning-related damage to electronic equipment highlight how crucial it is to have strong lightning protection for electronic equipment in place in order to reduce risks and protect priceless assets. Purchasing TAKO’s top-notch lightning protection for electronic equipment, including those that meet MS IEC 62305 standards, can lessen the effects that lightning strikes have on a company’s finances and operations. For more information, visit https://takolightningsystem.com/.
India is now Exceeding Demand of Power adopting more and More Value Addition Equipment's and Building and Other Infrastructure Like Road Transportation Electric Vehicles 2/3/4 and Heavy Fleet Transportation .
These requirement demand More Power ,Clean and Un-trip Power ,Decentralize of Power Distribution also taking care Environment Pollution Free Solar PV Power ,Wind Power and High Energy Storage Battery Systems .
We have to develop separate Power Distribution EV Charging Infrastructure as per Government promotion and Subsidy for EV Charging Utilization of Power Demand .
We should also do installation Power Transformer supply 800V-1000V AC along with Panels and Battery Storage in all Commercial Charging Station in Highways and Parking Place because power demand will be more than 2 MW if Consider Buses, Car and Other Fleet Transportation .
Our Telecom Infra should be more Strengthen to support these network to help to monitor and Payment Gateway.
Diesel Generators are already BAN in India for Commercial Activities only allow in emergency place like Hospitals and advisory issued to adopt High Energy Power Storage System which can be delivery power in absence of grid for longer duration as per storage of Power and easy to charge when grid is available with lower tariff.
We all have to use maximum Electronic Gadgets help to reduce your working staff and easy to protect , Monitoring ,Control and Access Remotely .
Installation of Networking ,CCTV ,Fire Alarm ,Access Control and other Security System is become mandatory along with Electrical Safety (Earthing .Lightning and Surge Protection).
We have to ensure Cable Installation , Routing and Jointing as per recommendation and monitor periodical with lodge history work done in record.
Maximum Failure Reported found Negligence and Over Sight and Temporary action to resolve problem in break down by Maintenance TEAM.
We have also complaint with all power distribution companies who's duty to ensure 24X7 Power to consumers in the Building and Other infra Dilute major Safety and playing with Human Lives witness many accidents .
Every Fire accidents in Buildings reported Short Circuit how this will be possible when we design all this consideration in the Projects .
This is only increasing Load with out considering safety and Building encroachments extending building near by HT Power Cables mounted on Poles for Power Distribution.
Link Vue System having experience in Electrical Safety ,Automation, Building Automation , Networking, CCTV, Fire Alarm ,Access Control ,Security Systems, PIDS , Industrial Plug and Sockets and Free Electrical Connectors for Building Wiring.
Plz send inquiry , contact us for webinar presentation.
Mahesh Chandra Manav M-9811247237 manav.chandra@linkvuesystem.com
Electrical and Electronics Engineering (EEE) is a brilliant combination of Electrical Engineering and Electronics Engineering that are brought together for offering an excellent career path for the aspiring engineers. Our day-to-day lives have become more and more dependent on electrical and electronic devices like refrigerators, washing machines, microwave ovens, TV etc.
The influence of EMF (electro magnetic field) on data centerEdarat Group
Why EMF?
World population growth and its trend to computerize everything in the globe, which can be easily noticed from the quantity and type of internet-dependent appliances i.e. smart phones, tablets, many type of laptops and personal computers are invading our normal life, where most of known manufacturers are racing to provide the globe markets with the highest technology, and all of these devices are power-dependent which found their way to the end users with high demand.
Concepts of Electrostatic Discharge in Surface Mount TechnologyPaul Akinde
The intent of this paper is to present an analysis of electrostatic discharge and electrical overstress in surface mount technology. It recognises the recent development in modern electronics and emergence of solid state device in small and miniaturised forms as its building blocks which are electrostatic sensitive by nature. It began with an overview of electrostatic discharge and electrical stress, classification of ESD sensitivity, its effects on solid state devices and the various sources of ESD.
3.0 Project 2_ Developing My Brand Identity Kit.pptxtanyjahb
A personal brand exploration presentation summarizes an individual's unique qualities and goals, covering strengths, values, passions, and target audience. It helps individuals understand what makes them stand out, their desired image, and how they aim to achieve it.
As a business owner in Delaware, staying on top of your tax obligations is paramount, especially with the annual deadline for Delaware Franchise Tax looming on March 1. One such obligation is the annual Delaware Franchise Tax, which serves as a crucial requirement for maintaining your company’s legal standing within the state. While the prospect of handling tax matters may seem daunting, rest assured that the process can be straightforward with the right guidance. In this comprehensive guide, we’ll walk you through the steps of filing your Delaware Franchise Tax and provide insights to help you navigate the process effectively.
Unveiling the Secrets How Does Generative AI Work.pdfSam H
At its core, generative artificial intelligence relies on the concept of generative models, which serve as engines that churn out entirely new data resembling their training data. It is like a sculptor who has studied so many forms found in nature and then uses this knowledge to create sculptures from his imagination that have never been seen before anywhere else. If taken to cyberspace, gans work almost the same way.
What are the main advantages of using HR recruiter services.pdfHumanResourceDimensi1
HR recruiter services offer top talents to companies according to their specific needs. They handle all recruitment tasks from job posting to onboarding and help companies concentrate on their business growth. With their expertise and years of experience, they streamline the hiring process and save time and resources for the company.
The world of search engine optimization (SEO) is buzzing with discussions after Google confirmed that around 2,500 leaked internal documents related to its Search feature are indeed authentic. The revelation has sparked significant concerns within the SEO community. The leaked documents were initially reported by SEO experts Rand Fishkin and Mike King, igniting widespread analysis and discourse. For More Info:- https://news.arihantwebtech.com/search-disrupted-googles-leaked-documents-rock-the-seo-world/
RMD24 | Retail media: hoe zet je dit in als je geen AH of Unilever bent? Heid...BBPMedia1
Grote partijen zijn al een tijdje onderweg met retail media. Ondertussen worden in dit domein ook de kansen zichtbaar voor andere spelers in de markt. Maar met die kansen ontstaan ook vragen: Zelf retail media worden of erop adverteren? In welke fase van de funnel past het en hoe integreer je het in een mediaplan? Wat is nu precies het verschil met marketplaces en Programmatic ads? In dit half uur beslechten we de dilemma's en krijg je antwoorden op wanneer het voor jou tijd is om de volgende stap te zetten.
Premium MEAN Stack Development Solutions for Modern BusinessesSynapseIndia
Stay ahead of the curve with our premium MEAN Stack Development Solutions. Our expert developers utilize MongoDB, Express.js, AngularJS, and Node.js to create modern and responsive web applications. Trust us for cutting-edge solutions that drive your business growth and success.
Know more: https://www.synapseindia.com/technology/mean-stack-development-company.html
Remote sensing and monitoring are changing the mining industry for the better. These are providing innovative solutions to long-standing challenges. Those related to exploration, extraction, and overall environmental management by mining technology companies Odisha. These technologies make use of satellite imaging, aerial photography and sensors to collect data that might be inaccessible or from hazardous locations. With the use of this technology, mining operations are becoming increasingly efficient. Let us gain more insight into the key aspects associated with remote sensing and monitoring when it comes to mining.
Improving profitability for small businessBen Wann
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Business Valuation Principles for EntrepreneursBen Wann
This insightful presentation is designed to equip entrepreneurs with the essential knowledge and tools needed to accurately value their businesses. Understanding business valuation is crucial for making informed decisions, whether you're seeking investment, planning to sell, or simply want to gauge your company's worth.
1. Effects of EMC on Smart
Appliance Designs
Written by Roland Gubisch
www.intertek.com
1-800-WORLDLAB icenter@intertek.com
2. Effects of EMC
on Smart Appliance Designs
Contents
Introduction ..............................................................................................................1
EMC - Electromagnetic compatibility .........................................................................1
Background .......................................................................................................3
EMC ..................................................................................................................3
Emissions - USA .................................................................................................5
Emissions - Japan ...............................................................................................6
Emissions - Australia...........................................................................................7
Designs for emissions compliance.......................................................................8
Emissions and Susceptibility - EU ........................................................................8
Designs for disturbance power compliance.......................................................11
Harmonic and flicker emissions ........................................................................11
Designs for harmonic and flicker emissions compliance.....................................12
Appliance susceptibility and EN 55014-2 ..........................................................12
Designs for susceptibility/immunity compliance.................................................14
Communications..............................................................................................15
Powerline communications...............................................................................15
Radio ...............................................................................................................16
Designs for communications compliance ..........................................................18
Product safety ..................................................................................................18
Functional safety ..............................................................................................19
Electromagnetic exposure ................................................................................19
EU low-frequency EMF limits: EN 50366 ...........................................................20
Designs for EMF compliance.............................................................................21
RF exposure from radios...................................................................................21
Designs for RF exposure compliance .................................................................23
www.intertek.com 2
3. Effects of EMC
on Smart Appliance Designs
Introduction
When we hear the term “appliance” we think of common household devices such as
air conditioners, blenders, coffee makers, dishwashers, electric knives, fans,
microwave ovens, refrigerators and vacuum cleaners. These examples contain among
them motors, switches, thermostats and electrically-actuated valves – all well-known
electromechanical technologies, with perhaps some simple solid-state electronics
added.
Newer appliance designs are reducing cost, expanding
functionality and increasing reliability by adopting
programmable electronics such as application specific
integrated circuits (ASICs), microprocessors, and intelligent
sensors, transmitters and actuators. In addition, such “smart”
appliances are adopting powerline and wireless
communication techniques to enhance their utility even
further – for remote control over a “smart grid,” or for
remote recordkeeping, for example.
The migration of appliance technology from electromechanical to programmable
electronic and wireless has significant consequences for EMC design and regulatory
compliance. Even for simple appliances, the designer may be faced with unfamiliar
standards governing user safety and radio interference. For more complex appliances,
stringent “functional safety” requirements may affect EMC testing.
This document is intended to help the reader become aware of global EMC issues and
design considerations for “smart” appliances. It is not intended as a comprehensive
catalog or toolkit. EMC consultants and test laboratories can provide targeted
assistance with up-to-date information on regulations and compliance procedures.
EMC - Electromagnetic compatibility
Electromagnetic compatibility is defined as the condition which exists when
equipment is performing its designed functions without causing or suffering
unacceptable degradation due to electromagnetic interference to or from other
equipment. EMC refers to a kind of environmental equilibrium. In this case, the
environment is an electromagnetic one - consisting of invisible disturbances which
travel through the air or through metal cabinets or wires.
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4. Effects of EMC
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EMC has two components, illustrated in the diagram below:
1) Electromagnetic emissions, from the appliance itself; emissions from the
appliance can interfere with radio and TV broadcasting or sensitive services
such as radio navigation or radio astronomy. The term EMI
(Electromagnetic Interference) refers to electromagnetic energy which
interrupts, obstructs, or otherwise degrades or limits the effective
performance of equipment; and
2) Electromagnetic susceptibility of the appliance to disturbances in its
environment, resulting in appliance malfunctions caused by static
discharges, radio transmitters, cell phones or other nearby electrical or
electronic devices. The term Immunity refers to the condition which exists
when equipment operates within acceptable limits when exposed to
electromagnetic environments imposed by an external source.
When a particular appliance is not generating excessive disturbances, and when it is
operating correctly in the presence of such disturbances, the condition of
electromagnetic compatibility is satisfied. Whether or not EMC is subject to
government regulations in a particular market, EMC is an important design goal to
assure reliable appliance operation and to avoid interference to nearby devices and
radio services.
Over time, the nature of EMC considerations in the residential environment has
changed. The introduction of digital circuitry into appliance designs has added
narrowband, high frequency emissions to the possibility of broadband interference
from DC motors and electromechanical switches. Electromagnetic susceptibility has
been affected both by the use of potentially sensitive semiconductors in appliances,
and by a residential environment that now includes many more disturbance sources
such as cell phones, portable phones, remote controls and home entertainment
electronics.
Electromagnetic Compatibility
Electromagnetic emissions Electromagnetic susceptibility
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5. Effects of EMC
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Regulatory requirements
Background
The regulation of electromagnetic emissions started with commercial radio
broadcasting, so that interference with broadcast reception would be minimized. In
the United States, the Federal Communications Commission (FCC) was established in
1934 to regulate broadcasting and interference. In the same year, the German “High-
frequency device law” was published. Spectrum regulators in other parts of the world
were established around this same time to deal with the rapid growth of the
broadcast industry. To this day, emissions are regulated worldwide to prevent
interference to radio and TV broadcasting, and sensitive services such as radio
navigation and radio astronomy.
Immediately after radio receivers found their way into automobiles in the 1930’s, the
subject of susceptibility arose – those receivers picked up interference from
automotive ignitions and even static from the tires. Both sources of interference were
quickly resolved, but the concept of EMC had been established. During the Second
World War, the dense packaging and high power of military electronics accelerated
the development of standards for both emissions and susceptibility.
Regulation of emissions from consumer devices grew mid-century with the advent of
electrical household appliances and semiconductors, the latter enabling low-cost
wireless remote controls and portable telephones. The digital electronics contained in
personal computers that became popular during the 1970’s was found to generate
potent radio interference. As a result, digital device regulations were established
around the world – in the USA under FCC Part 15 Subpart J in 1979, internationally
by the IEC standard CISPR 22 in 1985, and in the European Union under the EMC
Directive in 1989.
EMC regulations now play an essential part in both governmental and private
standards – to prevent radio interference and assure equipment functionality in
aerospace, automotive, commercial, medical, military and residential applications. We
will explore how “smart” appliances pose unique EMC challenges for both design and
regulatory compliance.
EMC
The regulation of EMC varies around the world by product use and jurisdiction. In the
United States of America (USA), only the emissions of residential and commercial
appliances are specified – adequate levels of susceptibility or immunity are left to the
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marketplace to determine. Emissions-only regulations for residential and commercial
products are also found in Australia, Canada, China and Japan. Some common
residential and commercial emissions standards are listed in Table 1 below:
Product type USA European Union International
Household appliances - EN 55014-1 CISPR 14-1
Audio/visual, broadcast receiver 47 CFR Part 15 EN 55013 CISPR 13
Information technology (ITE) 47 CFR Part 15 EN 55022 CISPR 22
ISM (Industrial, Scientific, Medical)
that generates radio-frequency 47 CFR Part 18 EN 55011 CISPR 11
energy
Table 1 – Common residential and commercial emissions standards
In the European Union (EU), regulation of both emissions and immunity for residential,
commercial and industrial products of all types is in force, to assure the free
movement of goods among member states. South Korea has also adopted the more
comprehensive approach of the EU. The most common residential and commercial
susceptibility/immunity standards are listed in Table 2 below:
Disturbance type Common source European Union International
ESD (Electrostatic
Static buildup EN 61000-4-2 IEC 61000-4-2
Discharge)
Broadcast stations,
Radio-frequency
consumer wireless > 80 EN 61000-4-3 IEC 61000-4-3
Radiated Immunity
MHz
EFT/B (Electrical Fast
ac branch switch arcing EN 61000-4-4 IEC 61000-4-4
Transient Burst)
Surge Lightning-induced EN 61000-4-5 IEC 61000-4-5
Broadcast stations,
Radio-frequency
consumer wireless < 80 EN 61000-4-6 IEC 61000-4-6
conducted Immunity
MHz
Power line magnetic
ac power wiring EN 61000-4-8 IEC 61000-4-8
immunity
Power line variations Ac branch load switching EN 61000-4-11 IEC 61000-4-11
Table 2 – Common residential and commercial immunity standards
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Emissions - USA
In the USA, the FCC exempts from its technical regulations
appliances that contain “incidental radiators” such as switches and
motors. Only appliances containing radio frequency (RF) or digital
circuitry – defined as having clocks or oscillators operating above 9
kHz – fall under Part 15 rules, and even then there are additional
exemptions under which the digital circuitry in appliances may fall:
• Power consumption below 6 nanowatts (nW); this would apply to most
calculators and some digital clocks.
• Battery-operated only, and having an operating frequency below 1.705 MHz.
• Used exclusively in transportation vehicles; these are subject to other industry
standards.
• Digital devices used in large motor-driven appliances such as dishwashers and
air conditioners.
This last exemption to Part 15 regulation – digital circuitry used exclusively in
appliances – was intended only for large appliances, but has been widely
misinterpreted to apply to all appliances. The FCC allowed the exemption on the basis
that their large motors effectively mask any emissions produced by the low frequency
microprocessors they employ. There is no such basis for exempting a hair dryer, rice
cooker or massager.
Notwithstanding any or all of the exemptions listed above, the appliance
manufacturer is obliged to assure that his devices do not cause interference to radio
or TV. FCC Part 15.103 states:
The operator of the exempted device shall be required to stop operating the
device upon a finding by the Commission or its representative that the device is
causing harmful interference. Operation shall not resume until the condition
causing the harmful interference has been corrected. Although not
mandatory, it is strongly recommended that the manufacturer of an
exempted device endeavor to have the device meet the specific
technical standards in this part.
The simplest way for the appliance manufacturer to comply with the intent of 15.103
is to have the appliance tested for compliance with either the Class A (non-residential
limits) or Class B (residential limits), if there is any possibility that the appliance may be
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8. Effects of EMC
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causing interference. Appliances intended for use in the home would, of course, be
subject to Class B emission limits.
Appliances that use RF energy to do some kind of work (such as heating or ionization)
are subject to FCC Part 18 (ISM devices) rather than Part 15. Examples of such
appliances are microwave ovens, wireless battery chargers and compact fluorescent
lamps. The emission limits and measurement procedures under Part 18 are different
from those of Part 15, and the product labeling is different too. FCC regulations for
appliances are summarized in Table 3 below.
FCC EMC regulations, appliances:
emissions immunity example
no digital circuitry n/a* n/a hair dryer
with digital circuitry 15 subpart B** n/a setback thermostat
with ISM function Part 18 n/a microwave oven
wireless charger
RF lighting
* but cannot cause interference.
** only large appliances are exempt.
Table 3 - FCC regulations applicable to appliances in the USA
FCC rules, including Parts 15 and 18, are available online at:
http://ecfr.gpoaccess.gov/cgi/t/text/text-idx?&c=ecfr&tpl=/ecfrbrowse/Title47/47tab_02.tpl
Emissions - Japan
As with the FCC in the USA, residential appliances intended for use
in Japan are subject to compliance only with emission
requirements; susceptibility is not regulated but is left to the
marketplace. Self-declaration of conformity to the Electrical
Appliance and Material Safety Law ("DENAN") is appropriate for
most electrical appliances. Transition deadlines of March 31, 2006 to March 31, 2011
from the prior Material Control Law to the present DENAN are largely past. The
emission limits are drawn from IEC CISPR standards and are summarized in Table 4.
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9. Effects of EMC
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Japan EMC regulations, appliances:
emissions immunity example
no digital circuitry CISPR n/a hair dryer
14:1993/A1:1996
audio-visual CISPR n/a CD player
13:1996/A1:1998
with digital circuitry CISPR n/a computer
22:1993/A1:1995
with ISM function High-frequency n/a microwave oven
appliances (ISM)
Table 4 - EMC regulations applicable to appliances in Japan
Appliances in Japan are not subject to the low-frequency harmonics (EN/IEC 61000-3-
2) and flicker (EN/IEC 61000-3-2) emission limits that apply in the EU. These standards
are discussed more fully in the EU section below.
Emissions - Australia
Australia does not impose susceptibility or immunity
requirements under its EMC Framework. Rather, the
Australian Communications and Media Authority (ACMA)
recognizes a wide variety of joint Australian/New Zealand
(AS/NZS), IEC, CISPR and CENELEC standards for self-
declaration and C-tick marking connoting EMC compliance. Earlier versions of
standards are superseded on clearly-defined dates posted on ACMA’s EMC Standards
List at http://www.acma.gov.au/WEB/STANDARD/pc=PC_310707. AS/NZS CISPR 14.1
(appliances emissions) and AS/NZS 61000.6.3 (generic) are the most appropriate
standards for compliance, as well as AS/NZS CISPR 22. As with Japan, appliances in
Australia and New Zealand are not subject to the low-frequency harmonics (EN/IEC
61000-3-2) and flicker (EN/IEC 61000-3-2) emission limits that apply in the EU.
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10. Effects of EMC
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Designs for emissions compliance
“Smart” appliances will contain some digital circuitry. The key design features to meet
emissions compliance are:
For AC conducted compliance:
• consider bypass capacitors across the ac line, or a modular line filter for more
severe noise
• use a common-mode choke to attenuate higher frequency conducted
emissions.
• assure that any third-party switching power supplies already meet emission
limits
For RF radiated emission compliance:
• use the lowest-power and slowest speed logic circuitry possible
• keep the circuit layout as compact as possible
• physically separate clock/driver circuits from I/O circuits as much as possible
• use capacitive bypassing or ferrite beads on lines leaving the circuit board
• use the appliance enclosure for shielding or signal grounding, if it is metallic
• for non-metallic enclosures, use an internal shield for severe interference
Emissions and Susceptibility - EU
In the European Union, both appliance emissions and susceptibility
or immunity are regulated under the EMC Directive 2004/108/EC
for the purpose of CE-marking by “harmonized” standards that are
listed periodically by the European Commission at:
http://ec.europa.eu/enterprise/newapproach/standardization/harmstds/reflist/emc.html
These standards are drawn largely from those published by the European
Organization for Electrical Standardization CENELEC. It should be noted that these
standards are not mandatory, but if they are used to demonstrate compliance then
conformity is presumed.
The EMC Directive and its official interpretations allow many fewer exemptions than
FCC rules, but appliances that contain inherently “benign” components do not need
to be tested. Such “benign” components include passive resistance loads, ac
induction motors, simple quartz watches, incandescent lamps, home and building
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11. Effects of EMC
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switches that do not contain any active electronic components and passive antennas
used for TV and radio broadcast reception.
The harmonized emission and immunity standards in the EU that are commonly
applied to appliances are shown in Table 5 below.
RF interference and immunity, EU appliances
emissions immunity example
general EN 55014-1 EN 55014-2 hair dryer
EN 61000-3-2
EN 61000-3-3
with ISM function EN 55011 EN 55014-2 microwave oven
EN 61000-3-2
EN 61000-3-3
with digital function EN 55014-1 EN 55014-2 setback thermostat
EN 61000-3-2
EN 61000-3-3
Table 5 - CENELEC standards applicable to appliances in the EU
The emissions standard EN 55014-1 requires ac conducted measurements similar to
FCC Part 15, EN 55011 and EN 55022. However, it uses as a proxy for radiated
emission measurement above 30 MHz an absorbing clamp or ferrite transformer that
is moved along each appliance cable, including the ac power cable. Use of the
absorbing clamp to measure disturbance power is predicated on the assumption that
most of the radiated interference from appliances smaller than 1m on a side
propagates along its cables and not out from the enclosure.
Appliance measurements using the absorbing clamp are further detailed in the IEC
standard CISPR 16-2-3. The method is quicker than radiated emissions measurements,
and the test site requirements are also simpler. A diagram of disturbance power
emissions measurement on an appliance using the absorbing clamp is shown in Fig. 1:
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12. Effects of EMC
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Figure 1 – Absorbing clamp used to measure appliance emissions.
The emissions standard EN 55014-1 allows for the possibility of digital circuitry in the
“smart” appliance, but the possibility of digital emissions above 300 MHz is not
foreseen in the standard. It does include radiated emissions limits and methods, but
only for toys.
If the appliance contains sources of emissions above 300 MHz, not necessarily a
“smart” appliance but more likely in that case than otherwise, it is prudent to include
EMC testing to a radiated emissions standard in addition to EN 55014-1. Reasonable
choices would be either EN 55022 (for information technology equipment) or EN
61000-6-3 (generic emissions for residential, commercial and light industrial
environments – the radiated emission limits are identical to EN 55022).
Several years ago a British importer of hair dryers was fined
£6000 because two hair dryers, when tested for compliance
to the “essential requirements” of the EMC Directive, failed
the disturbance power limits of EN 55014-1 by up to 8 dB,
but they also failed generic radiated emission limits by 19 dB.
The hair dryers also caused visible interference to TV
reception. Many in the EMC community at this time were
surprised that the UK authorities chose to apply an EMC test
(radiated emissions) over and above the appropriate product
family standard EN 55014-1 for the hair dryers. The UK
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13. Effects of EMC
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authorities considered that EN 55014-1 was not sufficient. Therefore, careful
consideration needs to be given to the appropriate EMC testing of “smart” appliances
that are likely to generate high-frequency emissions.
Designs for disturbance power compliance
The absorbing clamp used to measure disturbance power is sensing common-mode
signals in the cable being tested. In order to reduce these common-mode signals:
• consider bypass capacitors across the ac line, or a modular line filter for more
severe noise
• use ferrite beads or common-mode chokes on signal lines
• for any shielded (screened) cables, minimize the impedance between cable
shield and appliance enclosure or ground; improve termination of cable shield
to connector, and connector to appliance enclosure or ground.
Harmonic and flicker emissions
Table 5 contains references to the low-frequency (< 2 kHz) standards EN 61000-3-2
(harmonic emissions) and EN 61000-3-3 (flicker emissions). These standards only apply
to equipment in the EU drawing less than 16 A/phase. Related standards cover
equipment with higher current consumption. EN 61000-3-2 and EN 61000-3-3 are
so-called “horizontal standards,” in that they apply to all types of equipment within
their scopes, including home appliances, in addition to other EMC standards.
Harmonic emissions occur when the appliance power supply imposes a distorted
current waveform onto the ac line, typically through diode rectification or electronic
switching. The effect of high harmonic emissions is not so much the disturbance of
other equipment connected to the same ac line, but rather the potential for
overheating of a branch circuit feeding other equipment that also generates harmonic
emissions. EN 61000-3-2 specifies that appliances drawing less than 75 W are
exempt, from testing, and that “professional” equipment rated above 1 kW is also
exempt.
Flicker emissions occur when the appliance presents a slowly- and quickly-
varying load to the ac line. Limits are based on the threshold of annoying
flicker caused by a 60 W incandescent lamp connected to the same ac
branch as the appliance. Note that flicker emissions are not regulated in
the EU on the basis of disturbance to other appliances, but rather on the
irritability to bystanders. EN 61000-3-3 specifies that tests need not be
made on equipment which is unlikely to produce significant voltage fluctuations or
flicker.
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In the example of a setback thermostat in Table 3, testing to neither EN 61000-3-2
nor EN 61000-3-3 would be applied, because either: (a) the thermostat is battery-
powered and not connected to the ac line, or (b) if ac-powered it consumes less than
75 W and by itself is unlikely to produce significant flicker emissions.
Designs for harmonic and flicker emissions compliance
For harmonic emissions compliance:
• do not use a linear ac power supply > 75 W; use a power-factor-corrected
(PFC) switching supply.
For flicker emissions compliance:
• use solid-state and soft-start techniques for switching loads
• where real loads must be switched on and off, consider transferring to
equivalent dummy loads.
Appliance susceptibility and EN 55014-2
The harmonized product family standard EN 55014-2 draws on most of the common
EMC disturbance tests and applies them selectively, depending on the technology in
the appliance. Four categories are defined, as shown in Table 6 below:
Category I Category II Category III Category IV
Electronic control
No electronic Battery-powered,
circuitry circuitry, clocks < Everything else
control circuitry clocks < 15 MHz
15 MHz
Tools, Motor-operated
examples Electronic toys
thermostats appliances, toys
Table 6 – Appliance categories defined in EN 55014-2
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Based on these categories, EN 55014-2 then defines which disturbance phenomena
are to be applied to the appliance during testing, which performance criteria must be
met, and the levels of the disturbances. The tests to be applied by category are shown
in Table 7 below:
disturbance Category I Category II Category III Category IV
B (C, some
ESD n/a B toys) B
RF radiated n/a n/a A A
EFT/B n/a B n/a B
Surge n/a B n/a B
RF conducted n/a A (230) n/a A (80)
Mains
variations n/a C n/a C
Table 7 – Applicability of susceptibility tests by appliance category
If the appliance contains no electronic control circuitry, no disturbances are applied.
The appliance is deemed to comply without testing. The performance criteria are:
A - performs as intended during and after test
A (80) - criterion A, with upper limit of testing 80 MHz.
A (230) - criterion B, with upper limit of testing 230 MHz.
B - may degrade during test, returns to normal after test.
C - test may cause loss of function, which may be self-recoverable or by
operator action
Examples of permissible degradations in performance, in terms of measurable
appliance parameters such as speed, torque, etc. are also given in EN 55014-2.
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The reference standards and test levels specified in EN 55014-2 are given in Table 8
below:
EMC disturbance reference standard test level
ESD EN 61000-4-2 4 kV contact, 8 kV air
RF radiated EN 61000-4-3 3 V/m. 80% modulated
EFT/B transients EN 61000-4-4 0.5 kV signal lines, 1 kV ac lines
Surge EN 61000-4-5 1 kV differential, 2 kV common mode
RF conducted EN 61000-4-6 1 V signal lines, 3 V ac lines
Mains variations EN 61000-4-11 100% interrupt, 0.01s; 60% dip, 0.2s; 30%
dip, 1s.
Table 8 – Overview of EN 55014-2 EMC tests and levels
Just as we saw with the appliance emissions standard EN 55014-1, when “smart”
functions are added to the appliance, additional susceptibility tests to those listed
above may be needed to assure reliable operation and compliance with the essential
requirements of the EMC Directive.
Designs for susceptibility/immunity compliance
ESD
• for metallic enclosures, assure good contact all along seams
• for non-conductive enclosures, assure no gaps
• keep sensitive wiring away from conductive enclosure
• provide capacitive bypassing and clamping components for wiring entering
circuit boards
RF radiated
• use metallic enclosure for shielding, or provide internal shielding
• provide ferrite beads and/or capacitive bypassing for sensitive wiring on or
entering circuit board
• keep circuit wiring and boards as short as possible
EFT/B
• use capacitive bypassing or modular filter on ac power entry and cables > 3m
• place bypassing or filtering of ac power entry as close as possible to enclosure
boundary
• use capacitive bypassing or ferrite beads on internal wiring that is susceptible
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Surge
• use capacitive bypassing or modular filter on ac power entry
• use clamping components at power entry, to limit surge energy
RF conducted
• use capacitive bypassing or modular filter on ac power entry and cables > 3m
Mains variations
• assure adequate frequency response and energy storage in power supply
Communications
One way to enhance the functionality of home appliances is to endow them with the
capability of communicating with a home computer, phone line or each other. The
designer’s choice of whether radio or powerline communications is the medium is
constrained by the performance characteristics of each and national regulations that
vary from place to place. In any case, it is usually possible to embed an approved or
compliant communications module into the appliance, minimizing the design time
and regulatory compliance effort. There are often additional EMC or radio tests
necessary to assure compliance of the “smart” appliance with the installed
communications module.
Powerline communications
Power wiring is everywhere in the home, and products have been developed to use it
as a communications bus. However, the ac wiring generally carries a great deal of
induced noise from network switching equipment, other home appliances and
electronics and radio transmitting sources that couple into the wiring. As a result,
reliable powerline communications (PLC) with the home typically use robust encoding
such as spread spectrum technology to superimpose control or data signals on the ac
line. Industry standards govern the signaling protocols, but regulatory compliance falls
under spectrum regulators such as the FCC.
In the USA, home powerline communications falls under the Part 15 category of
carrier current systems. They are regarded as “unintentional radiators” subject to the
rules in 15.109(a), (e), and (g) and the general radiated emission limits in 15.209. The
FCC’s Class B radiated emission limits can be used to assess compliance of an installed
system, or CISPR 22 Class B as an FCC-accepted alternative. The only ac conducted
emission limit is 1000µV (60 dBµV) over the AM broadcast frequency range 535 –
1705 kHz. There are no regulatory compliance requirements for susceptibility or
immunity.
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18. Effects of EMC
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In Canada, residential and office powerline communications are regulated under ICES-
006. For systems operating above 1.705 MHz the radiated emission limits are identical
to FCC limits. However, below 535 kHz ICES-006 imposes limits on carrier current
output voltages that do not exist in FCC rules. Both the FCC and Industry Canada
require verification of carrier current systems in three separate locations.
The regulatory situation for powerline communications in the EU presently divides at
the signaling frequency of 148.5 kHz. Harmonized standards exist for both emissions
and susceptibility below that frequency, but for broadband powerline
communications above 1 MHz only an immunity standard is available as shown in
Table 9 below:
Signaling range Harmonized emissions standard Harmonized immunity standard
95 – 148.5 kHz EN 50065-1 EN 50065-2-1
1.6 – 30 MHz none EN 50412-2-1
Table 9 – EU powerline communications standards
EN 50065-1 is a complex emissions standard that divides the operating range 95 –
148.kHz into several sub bands, two of which require a signaling protocol. Thus it is
limited to low-frequency control and data applications.
While the European Commission has emphasized that all such systems must meet the
essential requirements of the EMC Directive, little guidance is available on how to do
that for systems operating above 1 MHz. Amendments to CISPR 22 are underway to
accommodate higher levels of conducted emissions for PLC systems than those
allowed by the present ac conducted limits.
Radio
For the “smart” appliance designer looking at wireless communications, there are
several system architectures of interest:
Short/medium range low-power radio link(s) appliance-to-appliance or appliance-
to-PC
Long range low-power radio link(s) in appliance(s) to public telephone
(PSTN) gateway
low-power radio link(s) in appliance(s) to PC-to-Internet
low-power radio link(s) in appliance(s) to cellular modem in
PC or freestanding cellular modem(s) in appliance(s)
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19. Effects of EMC
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By exploiting the use of a PSTN or Internet gateway,
wireless links (and also powerline buses) allow appliances
to be interrogated by the owner at any location over a
secure path; or permit the appliance to report impending
or actual failure modes to a central repair facility; or to be
shut down by the local utility over a “smart grid” to reduce
peak demand or take advantage of off-peak pricing.
If powerline communications is hampered by differing national regulations, radio
communications is similarly burdened, except that:
• there are a few short-range radio bands available more-or-less globally, such as
2.4 GHz (including such IEEE 802 protocols as Bluetooth, Wi-Fi and Zigbee)
• embedded cellular modems are available to individually satisfy most national
spectrum allocations
Some generally available wireless frequency bands and regulations are listed in Table
10 below
Frequency band FCC Industry Canada EU
Low-power, short distance (1 – 10m)
433.92 MHz 15.231* RSS-210 A.1* EN 300 220
2.45 GHz 15.249 RSS-210 A2.9 EN 300 440
Low-power, medium range (10 – 100m) high-speed data
2.45 GHz 15.247 RSS-210 A.8 EN 300 328
EN 300 440
5 GHz 15.401 A.9 EN 301 893
* Protocol requirements on type of communication and transmission rate.
Table 10 – A sample of wireless regulations for common frequency bands
The corresponding standards for some public telephone (PSTN) interfaces are:
FCC 47 CFR Part 68, TIA-968-B
Canada CS-03
EU ES 203 021-1, -2 and -3
Under the EU Radio and Telecom Terminal Equipment (RTTE) Directive 1999/5/EC, the
only essential requirements for terminal interfaces are EMC and safety. Therefore the
ETSI ES standards listed above are discretionary but recommended. For a telephone
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20. Effects of EMC
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terminal interface in the EU the typical mandatory standards would be EN 55022
(emissions) and EN 55024 (immunity) and EN 60950-1 (safety).
The essential requirements for radio equipment under the RTTE Directive include
EMC, safety and spectrum protection. Therefore in addition to the spectrum
standards listed in Table 10 for the EU, there are these additional EMC standards:
Spectrum standard EMC standards
EN 300 220, EN 300 440 EN 301 489-1, -3
EN 300 328 EN 301 489-1, -17
EN 301 893 EN 301 489-1, -17
EN 301 489-1 is the core EU EMC standard for radio equipment that defines
applicable EMC tests by equipment type, and performance criteria. The EMC tests are
largely those listed in Tables 1 and 2 above. The EMC standards EN 301 489-3 and -
17 apply specific setup and operating conditions appropriate to the frequency band
and equipment.
There are no susceptibility/immunity requirements under FCC rules for the wireless
bands above.
Designs for communications compliance
• Assure that transmitter modules are already certified for the jurisdiction;
“compliant with” is not the same as “certified.”
• Appliances containing cellular modems will generally require approval by the
cellular network operator, in addition to modem certification.
• Use the transmitter module in accordance with any user guidance or
certification conditions; antenna choices may be restricted.
• Exercise care in selecting operating frequency bands; there are very few bands
that are acceptable worldwide. On the other hand, a region-specific band may
be less subject to interference than a more popular global one.
Product safety
Appliance safety standards concern the hazards of shock, fire, heating, and similar
physical phenomena. “Smart” appliances present no unusual EMC hazards except in
four categories:
1. wireless appliances that can be used during life safety emergencies; related
safety standards generally contain additional tests to assure the integrity of the
wireless communications.
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21. Effects of EMC
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2. appliances for use in the EU that can generate strong and potentially
hazardous low-frequency electromagnetic fields.
3. “smart” appliances with embedded radios, where the combination of
radiofrequency output power and proximity to the user is potentially
hazardous.
4. “smart” appliances that use electronic circuitry for safety-critical functions such
as motion or power shutoff.
Category 4 is addressed in the section below on Functional safety, and categories 2
and 3 are addressed in the section below on Electromagnetic exposure.
Functional safety
The IEC standard series IEC 62508-1…-7 is directed at the structures for defining and
reducing the hazards and risks associated with electrical/electronic/programmable
electronic (E/E/PE) safety-related systems. The impact of functional safety on EMC is
perhaps best captured in IEC 51508-2 clause 7.2.3.2(e), bold added:
e) the electromagnetic immunity limits (see IEC 61000-1-1) which are required
to achieve electromagnetic compatibility – the electromagnetic immunity
limits should be derived taking into account both the electromagnetic
environment (see IEC 61000-2-5) and the required safety integrity levels;
NOTE 1: It is important to recognize that the safety integrity level is a factor in
determining electromagnetic immunity limits, especially since the level of
electromagnetic disturbance in the environment is subject to a statistical distribution. …For
higher safety integrity levels it may be necessary to have a higher level of confidence,
which means that the margin by which the immunity limit exceeds the
compatibility level should be greater for higher safety integrity levels.
Thus the susceptibility/immunity levels specified in Tables 5, 7, 8 and 9 above may not
be sufficient for safety-related functions implemented in “smart” appliances. The IEC
61508 series provides guidance for evaluating and designing to the appropriate
requirements.
Electromagnetic exposure
Strictly speaking, EMC refers to the harmonious operations of equipment with each
other in the context of an electromagnetic environment. In many cases persons are
part of that environment, and consideration must be given for “smart” appliances to
any adverse effect of electromagnetic exposure on users and operators of that
equipment. The nature of any electromagnetic threat varies by disturbance frequency,
from skin surface currents at very low frequencies to cell heating at frequencies in the
MHz and GHz ranges.
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22. Effects of EMC
on Smart Appliance Designs
National regulations for electromagnetic exposure generally divide
by considering whether the exposure results as a natural byproduct
of the operation of the appliance (such as a heating blanket) or
whether there is an intentional radiating source of radio frequency
(RF) energy present (radio transmitter). Table 11 details this division.
USA EU
Microwave ovens: 21 CFR 1030: EU Council
Electromagnetic
Leakage limit 1 mW/cm2 new, 5 Recommendation
fields (EMF) as a
mW/cm2 afterward. 1999/519/EC; harmonized
byproduct of
Otherwise: only guidelines (IEEE standard EN 50366 for
normal operation
C95.1) appliances.
EU Council
47CFR 1.1310, 2.1091, 2.1093.
Radiated fields Recommendation
SAR evaluation for user
produced 1999/519/EC; harmonized
distances < 20 cm.
intentionally for standards for radios such as
MPE evaluation for user
communications EN 50360, EN 50371, EN
distances > 20 cm
50385
Table 11 – Overview of USA and EU regulations for electromagnetic exposure
In practice, appliance EMF evaluation under EN 50366 in the EU is limited to
frequencies below 400 kHz and therefore considers low-frequency effects. Radiated
fields from transmitters in the USA, EU and many jurisdictions elsewhere are typically
evaluated above 300 MHz, and involve high-frequency effects.
EU low-frequency EMF limits: EN 50366
The test procedures in EN 50366 measure magnetic flux density emanating from the
appliance over the range 10 Hz to 400 kHz. The magnetic flux density limit at 50 Hz is
100 microTeslas (µT). For comparison, the earth’s magnetic field generates a steady-
state or DC magnetic flux density from 30 µT to 60 µT.
The measurement distances for evaluation differ according to the typical separation
between the appliance and the user, as in Table 12 below:
Measurement Appliance type
distance, cm
0 Electric blanket, dental hygiene, hair clipper, indoor whirlpool bath
10 Facial sauna, hair dryer, water bed heater
30 Dishwasher, washing machine, hand tool, microwave oven,
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23. Effects of EMC
on Smart Appliance Designs
refrigerator
50 Air conditioning unit, heater, clock, vacuum cleaner
Table 12 – measurement distances in EN 50366 for evaluation of EMF
Compliance with EN 50366 is mandatory for appliances to meet CE-marking
requirements for safety. There are no corresponding requirements in the USA.
Designs for EMF compliance
Appliances with motors; working at high frequencies to 400 kHz; working with very
high currents; evaluated at 0 cm
• Assure adequate magnetic shielding; twist or shield ac power feed and internal
wiring
RF exposure from radios
Owing to the popularity of cell phones, Bluetooth, Wi-Fi and other wireless devices,
there are concerns about the health effects of such radios in close proximity to the
user. Many jurisdictions have RF exposure rules for transmitters in place, including the
USA, Canada, the EU, and Australia. Most of the rules are based on the heating effect
of the RF energy on human cells, as the RF energy is non-ionizing and no other
potential sources of cell damage have been conclusively observed.
The method of evaluation of RF exposure from a radio transmitter depends on its
typical proximity to the user or others nearby. The information in Table 13 below is for
US parameters but other jurisdictions are similar.
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24. Effects of EMC
on Smart Appliance Designs
User
Evaluation type method
distance
1. Appliance with transmitter is placed near the body
simulator filled with fluid approximating dielectric
properties of brain or muscle.
2. Electric field inside body simulator is scanned to
Specific
determine maximum power density or SAR from
< 20 cm Absorption Rate
transmitter outside.
(SAR)
3. SAR limits do not vary with frequency, but with body
part exposed. Hands, wrists and legs can dissipate
heat better than head or body and have higher SAR
limits.
1. RF power to antenna is measured.
Maximum
2. Gain of antenna is considered to calculate maximum
> 20 cm Permissible
power density at 20 cm or larger user distance.
Exposure (MPE)
3. MPE limits vary with RF frequency.
Table 13 – RF exposure evaluation of appliances containing radio transmitters
The graphical results of a typical SAR scan on a cellular handset are shown in Figure 2
below. Note that the place of highest SAR is at the base of the handset antenna:
Figure 2 – SAR scan of a cellular handset
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25. Effects of EMC
on Smart Appliance Designs
In most regulatory regimes, average transmitter powers of 20 mW or less do not
require SAR evaluation regardless of the user distance. Transmitter power above 0.6
W approaches the upper limits of SAR for head-held devices such as cellular handsets.
Transmitters operating > 20 cm from users (and most installations in fixed appliances
would fall in this category) would meet FCC 1.1310 MPE limits with 1 W power
output and no antenna gain (0 dBi) from 30 to 300 MHz. Allowed power to meet
MPE limits rises to 5 W from 300 to 1500 MHz and remains flat at 5 W above 1500
MHz. These power levels are reduced if the antenna gain is greater than 0 dBi.
Designs for RF exposure compliance
• Use the lowest transmitter power consistent with reliable operation
• Multiple radio transmitter modules in one appliance may require additional RF
exposure evaluation
For more information on specific testing and certification information, please contact Intertek at
1-800-WORLDLAB, email icenter@intertek.com, or visit our website at www.intertek.com.
This publication is copyright Intertek and may not be reproduced or transmitted in any form in whole or in part without the prior
written permission of Intertek. While due care has been taken during the preparation of this document, Intertek cannot be held
responsible for the accuracy of the information herein or for any consequence arising from it. Clients are encouraged to seek
Intertek’s current advice on their specific needs before acting upon any of the content.
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