Electrical safety

Yesterday I passed SFS6002 electrical safety course and got SFS 6002 käytännössä book. SFS 6002 electrical safety training is for all electrical work in Finland engaged in compulsory education, which must be renewed every five years. Now I know somewhat more than before on electrical safety related to electrical installations.

SFS6002 is a Finnish standard how electrical work should be performed safely. It is based on European general standard EN 50110-1 (Operation of electrical installations – Part 1: General requirements) plus Finnish national additions to it.

If you want to get your hands on the original European EN 50110-1 standard, you need to buy it. There are also free information on standard available: British edition of the standard BS EN 50110-1:2004 can be found on-line.

 

779 Comments

  1. Tomi Engdahl says:

    “The way of earth leakage” by INDU-ELECTRIC Power Distribution
    https://www.youtube.com/watch?v=AEgaBdpHnMM

    General Information on earth leakage and how to adjust a RCD with variable settings.

    INDU-ELECTRIC is looking forward to educating our Customer on earth leakage protection and how to field program adjustable RCD / monitors.

    It will be essential to carefully study and memorize the terminology we are explaining.

    This will enable us to serve you better in field you need to fall back on our expertise during a live event.

    Reply
  2. Tomi Engdahl says:

    https://www.tampere.fi/en/event-organizers/event-planning-guide/electricity-and-water-events

    Draft a list of all the operations and activities at your event that require electricity. This will help the experts to estimate your electricity needs and supply enough electricity for your event. A temporary mains connection must be ordered at least two weeks before the connection is required. Ordering it at a shorter notice will result in additional costs.

    Pay extra attention to electrical safety at outdoor events. Electrical devices must be protected against rain and vandalism. Keep the cables away from walkways and driveways and cover them with cable protectors, if necessary. All electrical installations must be carried out by a qualified electrician.

    Reply
  3. Tomi Engdahl says:

    https://www.hse.gov.uk/event-safety/electrical-safety.htm
    https://www.quornparishcouncil.org.uk/wp-content/uploads/sites/118/2021/02/outdoor_events_electrical_safety_policy.pdf
    https://antrimandnewtownabbey.gov.uk/getmedia/de3a81fd-32f3-45e2-9ebc-a90710540c31/Health-and-Safety-for-Outdoor-Community-Events.pdf.aspx
    https://www.sa.gov.au/__data/assets/pdf_file/0008/269144/161213-Electrical-safety-at-festivals-and-events-A5.pdf
    https://eade.uk.com/wp-content/uploads/A-laymans-guide-to-electrical-safety-at-events.pdf
    https://www.richmond.gov.uk/media/7467/bs7909_filming_electrical_safety.pdf
    https://esasafe.com/business-and-property-owners/special-events/
    https://www.gateshead.gov.uk/media/8354/Electrical-Safety-Guidance-Notes/pdf/Electrical_Safety_at_Events_Rev04.pdf?m=637093305469630000
    https://ehs.cornell.edu/campus-health-safety/event-management/event-electrical-safety

    Maintenance and Safe Use of Equipment in Live Events Production
    https://www.astralsound.com/safety.htm

    Most live productions present a variety of potential hazards and risks. Probably the easiest way to identify these (and get some perspective on your priorities) is to carry out a Risk Assessment.
    https://www.hse.gov.uk/simple-health-safety/risk/index.htm

    A bit of what you should know about event power and electrical safety
    https://cdm.link/2016/12/short-guide-know-event-power-safety/

    If you produce events and you don’t have a multimeter – get a multimeter, and make sure it can measure enough amperage to meet your needs. Don’t skimp here – a $45 multimeter will not serve you. Ask the people at the store to help you choose one that meets your local power needs.

    IMHO, skip the multimeter and buy a 10 dollar outlet tester, the kind that plugs into a wall outlet with 2 yellow lamps and one red lamp in the handle. You can find them at any decent hardware store in the electrical tools section. This will help you make sure your outlets are wired with the correct polarity and that your ground connection is intact back to the electrical panel.

    There’s a couple options present for measuring an outlet – you can measure voltage, or you can measure amps. Measuring voltage will ensure that the outlet you’re testing is properly connected back to the main breakers. Measuring amps is a bit more tricky, and not necessary if you don’t intend to use the majority of the power available on a given circuit. This is why it’s important to measure the amp requirements of your gear using the available specification sheets.

    If you need to measure amps you need to have specialized equipment, and you need to follow a special process.

    Read the instructions that come with your multimeter. Before you use it in a venue experiment with the multimeter at home, on a circuit with nothing of value plugged in. Multimeter use is a skill like any other – you can do it right, or you can do it wrong. In this case “doing it wrong” will lead to tripped breakers or nasty zaps. If you’re uncomfortable learning this skill it’s best to call an electrician and have hem meet you at the venue.

    Measure the outlets in the space, and if you have breaker access/it’s acceptable to the venue start confirming that outlets are on a given circuit by throwing breakers. Follow this up with a visual inspection of ALL wiring. If you see any bare metal this is an unsafe venue. If you see outlets with multiple power strips you want to be wary, and you should investigate to see if it’s possible to unwire the multiple strips and more evenly distribute needs.

    Wires and electrical safety

    Some good points too from John McIntyre in comments:

    Don’t go cutting the ground on your extension cables in order to plug something in. Grounds are a critical component of electrical safety. For similar reasons you should avoid putting a ground lift in line with gear – if you really need to lift the ground on your soundsystem do it at the XLR connector, with an in-line XLR ground lift.

    When choosing extension cables don’t go cheap – go for thick, wide-gauge cable (if you see two cables running next to each other in two separate channels put the cable back on the shelf.) You also don’t want to use more cable than you need – I always bring a selection of 25 foot, 50 foot and 100 foot Edison cables with me. This is an example of an acceptable cable for bringing power to equipment that needs a large power supply.

    Signage

    The last thing I’d like to leave you with is the simplest – provide lighted exit signs when your venue lacks such signs.

    Generators

    Special note on generators – sometimes you need to bring your power supply with you, typically for an outdoor event. The big thing to keep in mind is that consumer generators get hot (sometimes very hot) and they are never waterproof. You’ll want to keep your generator well out of the way of your guests – they look like a good bench, but they are not a good bench. If there’s a danger of rain you’ll want to put the generator in a portable shed, or even better from a safety perspective just turn the generator off and send folks home.

    A Special Note To Our European Techno Family: power voltage in your neck of the woods is generally 230V. Your Amps equation for the lights would look like Amps = 108W/(230*0.8). This solves out to 0.6A. This does not mean you can squeeze in twice as many lights! You still need to confirm that you have the amperage available coming out of the wall.

    Introduction to Outdoor Electrical Safety
    https://pdhonline.com/courses/e285/e285content.pdf

    Event Planning: Electrical Installations and Lighting
    https://www.dover.gov.uk/Community/EventPlanning/A-Z/ElectricalInstallationsandLighting.aspx

    If you need a temporary supply of electricity for your event, you need to make sure that:

    All the wiring must be installed by a suitably competent electrician in a safe manner who should give you a written certificate to prove that this has been done
    That the supply is protected by suitable earth fault device (Residual Circuit Breaker (RCB) of maximum 30 amp per trip)
    There are the correct types of connectors for external conditions, cables should be the correct standard with no damage to the insulation
    Supply cables must be positioned safely, to ensure that they will not suffer physical damage e.g. through door openings, across surface of walkways/roads
    Cables should be positioned to ensure they do not cause trip or other hazard
    The safety standard of the installation should be at least that of the current 17th Edition of IEE Wiring Regulations
    Any generator should have a certificate with it to show that it is electrically safe. A safety fence must surround the working parts of the generator.

    When designing an installation Consider…

    The location of any existing overhead power lines or buried cables
    The total power requirements for the site
    Access to a network power supply
    The use of generators
    Earthing
    Positioning of temporary overhead or underground cables
    The location of the stage(s)
    The main isolators controlling the electrical supplies to stage lighting, sound, special effects, emergency lighting and lifting equipment
    The location of mixer positions
    Special power supplies for certain equipment (example: imported from US)
    Power supplies required for portable tools etc
    The electrical requirements for emergency lighting and exit signs
    Power supplies for catering, first-aid posts, control room

    All electrical installations and equipment must comply with the Electricity at Work Regulations 1989.

    A temporary electrical installation report should be completed before any event commences.

    Electrical installations at live outdoor venues
    https://electrical.theiet.org/wiring-matters/years/2016/61-summer-2016/electrical-installations-at-live-outdoor-venues/

    In the second article of a series looking at electrotechnical job roles in the entertainment industry, Wiring Matters talks to ABTT member Shaun Pearce about designing and installing electrical installations for live outdoor venues.

    https://energydistributionhire.co.uk/the-importance-of-bs7909-in-events-and-production/

    https://bbcdevwebfiles.blob.core.windows.net/webfiles/Leisure%20Parks%20and%20Sport/Parks%20and%20open%20spaces/Guide_to_organising_safe_events.pdf

    Reply
  4. Tomi Engdahl says:

    Page 1 of 190
    Health and Safety
    Executive
    The event safety guide (Second
    edition)
    A guide to health, safety and welfare at music and similar
    events
    https://www.whatdotheyknow.com/request/467810/response/1119620/attach/2/event%20safety%20guide.pdf

    Reply
  5. Tomi Engdahl says:

    https://tcfurlong.com/electrical-safety-tools-for-event-technicians/

    Disclaimer: Extreme care should be taken with electricity. A/C voltages have the potential to cause serious harm, or even kill. The advice and guidance provided in this article cannot fully anticipate or predict the situations you may experience on a show site.

    Reply
  6. Tomi Engdahl says:

    DIYer Electrocuted After Drilling Through Underground Cable
    https://www.youtube.com/watch?v=35mWJvZ6vKw

    A Swindon man is electrocuted after drilling into a mains electricity cable under his garden…
    We reveal the three greatest hazards to electrical contractors installing solar panels…
    The fake branded tools aimed at getting unsuspecting electricians to part with their cash…
    And the easy-to-install Wallbox Pulsar Max EV charging point finally arrives in the UK…

    =======================================
    00:00 Electrical News Weekly 13th June 2022
    00:48 Swindon electrocution
    01:26 Solar panel installation dangers
    02:36 BS7671 Arc fault detection
    03:17 The Installer Show 2022
    05:05 Pulsar Max from Wallbox
    05:40 Vehicle to Grid (V2G) tech from Octopus Energy
    06:46 Uk Power Networks Young Mums support
    07:18 New Schneider Electric industrial UPS
    07:44 FLIR IR Camera
    08:34 Fake CK tools
    09:32 Pace plus panel light from Ansell
    10:29 Alistair Grant, new Select President
    11:00 Aico City & Guilds training
    11:38 ECA Apprentice of the Year
    12:02 Screwfix customer service ward
    12:14 Schneider Electric partners with Tradify
    13:06 Virtual ECS Card
    13:44 Coming up eFIXX this week
    14:26 Challenge words winner
    ==========================================

    Reply
  7. Tomi Engdahl says:

    How to Prevent a Dog from Chewing Electrical Cords
    https://www.rover.com/blog/how-to-prevent-a-dog-from-chewing-electrical-cords/

    Dogs—especially puppies—like to chew. That comes as no surprise to us dog lovers. Some pups outgrow it. Others don’t.

    Reply
  8. Tomi Engdahl says:

    Kahdessa sähkö­tuotteessa vakava vaara: Viran­omainen poistaa markkinoilta https://www.is.fi/digitoday/art-2000008904217.html

    Johtokela ja liitäntäkaapeli poistetaan myynnistä, koska ne voivat aiheuttaa sähköiskun.

    Reply
  9. Tomi Engdahl says:

    Kiinalaisessa nettiostoksessa piilee riski – saatat joutua vastuuseen jälkikäteen https://www.is.fi/digitoday/art-2000005500270.html

    Halpa nettiostos EU:n ulkopuolelta päätyy usein kirpputorille. Myyty esine voi kuitenkin palata kummittelemaan ikävillä tavoilla.

    Euroopan unionin ulkopuolelta, kuten Kiinasta, ostetut tavarat voivat sisältää monia päällepäin näkymättömiä vaaroja. Vaikka uhka ei kohdallasi toteudu, se voi toteutua tavaran seuraavalla omistajalla, jos tuote myydään eteenpäin.

    – Kuluttajat aika huolettomasti ostavat ja tilaavat tuotteita EU:n ulkopuolisista nettikaupoista. Usein ajatellaan, että tuotteille on pakollisia ennakkotarkastuksia, ja turvallisuutta valvotaan muutenkin kuin pistokokein, Turvallisuus- ja kemikaalivirasto Tukesin tuoteyksikön johtaja Tuiri Kerttula harmittelee.

    Kuluttaja on vastuussa
    Tukes julkaisi hiljattain kattavan artikkelin aiheesta. Sen kantavana teemana on kuluttajan vastuu. Vastuun selvittäminen eteenpäin myydystä tuotteesta voi kuitenkin olla konstikasta.

    – Se riippuu aika paljon tuotteesta ja tuotteen lainsäädännöstä. On joitakin tuotealueita, kuten sähkölaitteet ja kemikaalit, joissa myyjä vastaa tuotteen turvallisuudesta riippumatta siitä, harjoittaako myyntiä liiketoimintana tai yksityisesti, Kerttula sanoo.

    Älä luota yksin CE-merkkiin
    Kun ostat tuotteen EU:n ulkopuolelta, altistat itsesi tai sen myöhemmän omistajan monelle ongelmalle. Lievimmässä tapauksessa et koskaan saa tuotetta, tai sinulla ei ole mahdollisuutta palauttaa puutteelliseksi osoittautunutta tuotetta.

    Pahimmillaan voit saada sähköiskun vaarallisesta sähkölaitteesta tai lapsesi voi tukehtua väärällä ikärajalla varustetun lelun sisältämiin nappiparistoihin.

    Tarkista ainakin, että tuotteessa on CE-merkintä. Sen avulla valmistaja vakuuttaa, että tuote täyttää kaikki EU:n tuotteelle asettamat vaatimukset.

    Vaarana ovat kuitenkin väärennetyt CE-merkinnät. Tämän takia pelkkään merkintään ei voi luottaa, ja ostajan tulisi selvittää, millaiset käyttöohjeet tuotteen mukana tulevat. Ovatko ne esimerkiksi suomeksi ja onko suomen kieli suhteellisen virheetöntä?

    Reply
  10. Tomi Engdahl says:

    The Difference Between Class 2 and Class II Power Supplies
    https://slpower.com/archives/11643

    Reply
  11. Tomi Engdahl says:

    A Guide to the 2023 National Electrical Safety Code Updates cover how to incorporate 5G and other technologies
    https://spectrum.ieee.org/2023-national-electrical-safety-code

    Reply
  12. Tomi Engdahl says:

    https://www.facebook.com/124628051515678/posts/pfbid0sq1HvdHF2cs5wBozijYtkReVxRYhMG9F41pXryNEBATM6K7PysxhbvvpyLgTm5gtl/

    AB Switch = Air Break switch
    ACB = Air Circuit Breaker
    VCB = Vacuum Circuit Breaker
    MCB = Miniature Circuit Breaker
    MCCB = Molded case circuit breaker
    MPCB = Motor Protection Circuit Breaker
    EMPR = Electronic Motor Protection RELAY
    RCCB = Residual Current Circuit Breaker
    RCBO = Residual Current Circuit Breaker With Over-Current Protection
    ELCB = Earth Leakage Circuit Breaker
    HRC = Fuse High Rupture Capacity Fuse
    OLTC = On Load Tap Change
    SF6 Circuit Breaker = Sulphur Hexafluoride Circuit Breaker
    MPDB = Main Power Distribution Board
    ACDB = Alternating Current Distribution Board
    HT = High tension > Transformer HT Side
    LT = Low tension
    DO Fuse = Drop Out Fuse
    DCDB = Direct current Distribution Board
    PDB = Power Distribution Board
    PCC = Power Control Center
    MCC = Motor Control Centre
    MCP = Motor Control Panel
    VVVF = Variable Voltage Variable Frequency Drive
    VFD = Variable Frequency Drive
    DOL = Direct On line
    RDOL = Reverse Duty on Line
    MLDB = Main Light Distribution Board
    SLDB = Secondary Lighting Distribution Board
    EMLDB = Emergency Light Distribution Board
    CPSS = Construction Power Substation
    DSS = Distributed Power Substation
    RCC = Remote Control Cables
    FCMA = Flux Compensated Magnetic Amplifier
    UPS = Un-Interrupted Power Supply
    SMF Battery = Sealed Maintenance Free
    JB = Junction Box
    PB = Push Button
    TB = Terminal Box
    LCB = Local Control Board
    LCS = Local Control Station
    SPNDB = Short Circuit Protection Neutral Distribution Board
    TPNDB = Phase Three and Neutral Distribution Board
    CT = Current Transformer
    PT = Potential Converter
    SCIM = Squirrel Cage Induction Motor
    ACVS = Air-conditioning and Ventilation System
    FDA = Fire Detection & Alarm
    PCS = Pull Cord Switch
    ZSS = Zero Speed ​​Switch
    BSS = Belt Sway switch
    NO = Normally opened
    NC = Normally Closed
    TEFC = Total Enclosed Fan Cooled
    TESC = Totally Enclosed Surface Cooled
    GI Bus bar = Galvanized Iron Bus Bar For Farthing
    PLC = Programmable Logic Controller
    DCS = Distributed Control System
    MPI = Multi Point Interface
    DP = Distributed parameters
    SCADA = Supervisory and Data Acquisition
    HART = Highway Addressable Remote Transducer
    HMI = Human Machine Identifier
    MMI = Man Machine Identifier
    VDU = Visual Display Unit
    RIO = Remote input Output
    TCP / IP = Transmission Control Protocol – Internet Protocol
    CFC =Continuous Function Chart
    SFC = Sequential Function Chart
    PID Control = Proportional Integral And Derivative Control
    RAM = Random Access Memory
    ROM = Read Only Memory
    PROM = Programmable Read Only Memory
    EPROM = Erasable Programmable Read Only Memory
    EEPROM = Electrically Erasable Programmable Read Only Memory

    Reply
  13. Tomi Engdahl says:

    Kurkkaa television taakse – yllättävä palo­riski kytee monessa kodissa https://www.is.fi/digitoday/art-2000008980645.html

    Reply
  14. Tomi Engdahl says:

    Jatkojohtojen käyttämisessä tehdään usein virheitä, joissa on ihan selkeä riski, asiantuntija sanoo: ”Nämä television takana olevat rysät…” https://www.is.fi/asuminen/art-2000008589882.html

    Reply
  15. Tomi Engdahl says:

    Top ten software for electrical design, analysis and simulation of T&D networks
    https://electrical-engineering-portal.com/electrical-design-analysis-simulation-td-networks

    In this article, we will briefly introduce the most important and most used .

    It should be noted that different companies also use proprietary software that is not discussed.

    Reply
  16. Tomi Engdahl says:

    Inside a failed safety lamp holder.
    https://www.youtube.com/watch?v=7NY5KGZ-Qqg

    These lampholders are designed to disconnect power to the lamp contacts when the lamp is removed. It’s to prevent kids getting a shock from an open lamp holder. Thankfully eBay, wish and amazon have addressed this by supplying lamps with live connections all over the outside.

    This one had failed in manner that caused random arcing and flickering of the lamp. I thought it would be interesting to see what had failed, and the general internal construction of the holder.

    It’s worth noting that modern lamps pose much less thermal stress on traditional lamp holders. But it wouldn’t surprise me if they start making cost-optimised “LED-only” lamp holders.

    Reply
  17. Tomi Engdahl says:

    Which Splicing Device is Best? Push Ins Vs. Wago Vs. Wirenuts
    https://www.youtube.com/watch?v=gC3PI2Plw98

    In this video I talk about the pros and cons of some of the most popular splicing devices used today. I also talk about some of the places I use them, along with where some of the pros in the field that I talked with, use them as well.

    Reply
  18. Tomi Engdahl says:

    I tested 7 Wago Knock-Offs Wire Connectors so you don’t have to! (Surprising Results)
    https://www.youtube.com/watch?v=C8Xpjj47vgU

    Reply
  19. Tomi Engdahl says:

    How to Make Your WAGO 221 Connectors Waterproof
    https://www.youtube.com/watch?v=1iyVHIAoQMI

    The Wago Gelbox range has now been extended to include the larger Wago 221 connectors.
    In this video, we show how a waterproof electrical connection can be made using the Wago Gel box. What are the advantages compared to resin joints and traditional electrical junction boxes?

    00:00 Wago Gelbox, including the larger 1430 series.
    00:50 Using the Gelbox to create a waterproof electrical connection.
    02:10 Enclosure inside an enclosure
    02:45 Silicon free encapsulant
    03:15 Re-enterable design
    03:55 Gelbox 221 connector compatibility
    05:00 Beware of other gel-type boxes
    05:40 Does the Wago Gel box work?

    Reply
  20. Tomi Engdahl says:

    Wago 221 vs Ideal Gen II Connectors
    https://www.youtube.com/watch?v=EoU_n_zVqS4

    Sam takes a closer look at two of the fastest-to-fit electrical cable connectors currently on the market (January 2022). Sam uses his professional expertise as an electrician to compare the Wago 221 and Ideal Gen II connectors. Which is the best and how do they stack up against each other?

    Reply
  21. Tomi Engdahl says:

    Pulling Cable Underground? You Need one of These.
    https://www.youtube.com/watch?v=xZoH8iV40Wk

    The Runpotec Profi Set cable pulling equipment makes it easier to pull cable or wire through underground ducting. The Profiset also works with the Runpo meter to measure the exact length of cable or ducting.

    Gary Hayers lifts the lid on some cable ducts to see how the Profi set works.

    ====================================
    00:00 Runpotec Profi Set of cable rods
    00:28 3 sets in the range
    01:12 It’s like silly string
    01:30 50m cable run
    02:01 Rumpotec meter
    03:09 Counting the metres of rod
    03:42 Measuring in both directions
    04:07 Cable attachment
    04:47 I love the X board
    == AD ===============================

    Reply
  22. Tomi Engdahl says:

    Universally Dangerous Socket Outlet – The Holiday Shocker
    https://www.youtube.com/watch?v=7LKcvl7n09U

    Is it worth the risk of an electric shock or fire to avoid taking travel adaptors on holiday? Hotels are installing universal electrical socket outlets (or receptacles if you’re tuning in from the USA). These universal sockets look similar to British Standard BS1363 sockets. However, with universal sockets, you can insert almost any plug the world offers.

    After the plug on a hair dryer melted, Gordon Routledge put down his Pina Colada and headed off to the local market to discover the problems.

    We purchased a Legrand universal socket outlet and a version from Keffy. Neither socket outlet has any instructions of warnings about the potential for electric shock.

    ========================================
    00:00 Dangerous holiday hotel electrics
    00:19 A trip to the market to buy a socket
    00:50 Locals don’t bother with plugs
    01:25 Where would we be without electrical standards – Mauritius (and other places)
    01:59 The real reason the UK left the EU
    02:33 Universal electrical socket outlets
    03:00 Electric Shock Risk 1 – Exposed live parts
    04:10 Electric Shock Risk 2 – No earth connection
    06:10 Fire Risk – Poor connection
    06:30 Breaking news from Unilight
    06:55 Inside a universal socket outlet – Keffy
    10:00 Poor connections
    10:50 The Legrand version
    11:40 Look away, now Gary’s got shorts on!
    ===========================================

    Reply
  23. Tomi Engdahl says:

    Sähköasennustandardi SFS 6000 päivittyi
    https://etn.fi/index.php/13-news/13916-saehkoeasennustandardi-sfs-6000-paeivittyi

    Pienjännitesähköasennuksia koskevasta SFS 6000 -standardista on julkaistu päivitetty versio. Yhteensä 41-osaisessa standardisarjassa on kaksi kokonaan uutta osaa: SFS 6000-5-57 koskee kiinteiden akustojen asennuksia ja SFS 6000-7-716 Pienoisjännitteisen tasasähkötehon jakelua tietotekniikan ja tietoliikennetekniikan kaapeloinnin kautta.

    Vuoden 2022 standardipäivitys ei sisällä radikaaleja uusia vaatimuksia, kuten edellisiltä päivityskierroksilta tuttu vikavirtasuojausvaatimuksen asteittainen laajentaminen.

    Standardin termistöä on päivitetty ja lisäsuojauksen vaatimuksia täsmennetty. Myös usean syötön järjestelmät on otettu paremmin huomioon. Uuden standardin mukaan myös kontaktorin käyttö hätäpoiskytkentään on sallittu, mikäli käytetään kontaktoria, jonka mitoitusvirta on vähintään 1,5-kertainen kuormitusvirtaan nähden tai asennetaan kaksi mitoitusvirtaista kontaktoria sarjaan.

    Standardisarjaan on myös lisätty esimerkkejä toiminnallisen maadoituksen käytöstä ja tarkennettu maallikoiden liitettäväksi tarkoitettujen valaisinten liitäntätarvikkeiden vaatimuksia.

    Sähköautojen lataus huomioitu paremmin

    Nollaluokan pistorasiat historiaan – mutta varo huijareita!

    Uuden standardin mukaan vanhoihinkaan asennuksiin ei saa enää asentaa uusia nollaluokan pistorasioista. Vanhan rikkinäisen 0-luokan pistorasian saa edelleen vaihtaa ehjään. Olemassa olevat nollaluokan pistorasiat ovat edelleen laillisia, eikä niitä tarvitse korvata ilman erityistä syytä. Nollaluokan pistorasiat eivät ole siis jatkossakaan ”laittomia”, vaikka esimerkiksi turhia sähköremontteja etenkin vanhuksille kaupittelevat niin joskus uskottelevatkin.

    Voi noudattaa vaikka heti

    Päivitettyä standardia voi hyödyntää asennus- ja suunnittelutöissä vaikka heti. Pakolliseksi sen noudattaminen tulee, kun sähköturvallisuusviranomainen on päivittänyt standardin sähköturvallisuuslain mukaiseen standardiluetteloon (Tukes-luettelo S10). Tämä on perinteisesti tapahtunut vuoden vaihteessa.

    Sähköalan standardointi on kansainvälistä

    Sähköalalla pyritään välttämään päällekkäistä ja turhaa työtä. Suomessa käytössä oleva sähköasennusstandardikin perustuu eurooppalaiseen HD 60364 -standardisarjaan, joka puolestaan perustuu kansainväliseen IEC 60364 -standardisarjaan.

    Reply
  24. Tomi Engdahl says:

    https://sesko.fi/sesko-akatemia/eraiden-maiden-sahkoasennusstandardeja/

    IEC 60364-pohjaiset standardit ovat käytössä monessa maassa Euroopan ulkopuolella. USA ja Kanada ovat selkeitä poikkeuksia ja niissä on käytössä omanlaiset standardit.

    Reply
  25. Tomi Engdahl says:

    https://en.wikipedia.org/wiki/IEC_60364

    IEC 60364 Electrical Installations for Buildings is the International Electrotechnical Commission (IEC)’s international standard on electrical installations of buildings. This standard is an attempt to harmonize national wiring standards in an IEC standard and is published in the European Union by CENELEC as “HD 60364″. The latest versions of many European wiring regulations (e.g., BS 7671 in the UK) follow the section structure of IEC 60364 very closely, but contain additional language to cater for historic national practice and to simplify field use and determination of compliance by electricians and inspectors. National codes and site guides are meant to attain the common objectives of IEC 60364, and provide rules in a form that allows for guidance of persons installing and inspecting electrical systems.

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  26. Tomi Engdahl says:

    What did the circuit say to the careless technician?
    “You complete me”

    Reply
  27. Tomi Engdahl says:

    EEVblog 1481 – Dodgy Dangerous Heater REPAIR
    https://www.youtube.com/watch?v=myqiqUE00fo

    A heater that doesn’t heat up should be an easy and quick repair, right? RIGHT?
    This Arlec space heater also has a rather dodgy and product recall worthy dangerous construction!

    00:00 – Arlec space heater
    03:20 – PRODUCT RECALL TIME!
    05:12 – Heater element measurement
    07:31 – PCB inspection
    11:31 – Verifying the fault
    12:50 – Relay bypass
    13:21 – Thou shall measure voltages
    15:00 – Diode bridge
    15:48 – Gotcha!
    17:34 – Parts salvage time
    18:48 – Jaycar visit
    20:49 – Mains capacitive divider
    23:02 – X and Y class capacitors

    Part 2 looking at the mains Zener regulator circuit :

    EEVblog 1482 – Mains Capacitor Zener Regulator Circuit
    https://www.youtube.com/watch?v=vJ4pW6LKJWU

    A follow up to the previous video on repairing the heater.
    A viewer asked how the capacitor diode rectifier gave a 24V output. The key is in the zener regulator, so this vidoe looks at how mains powered zener voltage regulators work, and their limitations.
    X class capacitor and self healing.

    The Zener regulator makes perfect sense with the series resistance impedance on the AC side and low current loads.
    Good that you give the safety warnings, they’re absolutely essential with this type of circuits.

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  28. Tomi Engdahl says:

    Double-death gay Dalek camping light. (Fatal shock risk.)
    https://www.youtube.com/watch?v=7tMuXuIYkco

    Another dangerous mains voltage rechargeable camping light that has high risk of fatal electrocution due to inappropriate charging circuitry.
    If you have one of these then you’re going to have to make a decision about whether it should be destroyed, made safe by blocking the 110V/240V charging port or if you are a technical loner like me then you can acknowledge the risk and just make sure the unit is completely unplugged when plugging anything into the USB port or changing batteries.

    Note that using alkaline cells in the base is not a good idea. Especially if plugging the unit in to charge, as they will vent or explode after a random time delay.

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  29. Tomi Engdahl says:

    Automatic Disconnection of Supply (ADS)
    https://professional-electrician.com/technical/automatic-disconnection-supply-ads/

    The protective measure Automatic Disconnection of Supply (ADS) is used in most electrical installations to provide protection against electric shock. This article provides an overview of how ADS is achieved in a typical domestic premises.

    Basic protection is required to prevent contact with live parts and is generally verified by inspection. In domestic premises, contact with live parts may occur as a result of damage to cable insulation or enclosures or because barriers are missing.

    Fault protection

    For the protective measure ADS, fault protection should be provided in accordance with Regulation Group 411.3. The requirements for protective earthing, protective equipotential bonding and automatic disconnection in case of fault should be satisfied. For domestic premises, earth fault loop impedance testing is the most common method used to verify circuit disconnection.

    For protection against electric shock, the magnitude of the fault current needs to be sufficient to cause the protective device to automatically disconnect the circuit within the relevant maximum time specified in BS 7671. In order to verify compliance with BS 7671, knowledge of the earth fault loop impedance is required for each circuit that relies on ADS as the protective measure against electric shock (Regulation 612.9 refers).

    Where it is safe to do so, earth fault loop impedance tests should be carried out at the following points within an installation:

    The origin
    The furthest point of every distribution circuit
    The furthest point of every final circuit A test is carried out at the origin of the installation to determine the external earth fault loop impedance Ze which, forms part of the earth fault loop impedance of every circuit connected to the installation (Fig 2 refers).

    The purpose of the test is to confirm that the intended means of earthing is present and its measured impedance value is appropriate for the type of supply.

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  30. Tomi Engdahl says:

    Energia-alalla suojavaatteet ovat elinehto
    https://www.enertec.fi/natiivi/3473/energia-alalla-suojavaatteet-ovat-elinehto?fbclid=IwAR1a0P8t6Cnta78JF7Io7WtD7dbcX8DbFOgqjJkVtrMTc_al0y9yvk8ZCjA

    Energia-alan ammattilaiset tietävät, että asianmukaisten suojavaatteiden käyttö kentällä ei ole muotiasia, vaan ääritapauksessa elämän ja kuoleman asia.

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  31. Tomi Engdahl says:

    PARTIAL DISCHARGES: WHO NEEDS TO DETECT THEM AND WHY?
    https://nlacoustics.com/partial-discharges-who-needs-to-detect-them-and-why%ef%bf%bc%ef%bf%bc/

    In addition to the industry and energy sectors, undetected partial discharges pose a threat to the operational safety and continuity of many critical areas of business and society. This article outlines how commonplace the occurrence of partial discharges actually is, and which operatives should pay extra attention to early-stage detection.

    Partial discharges or PDs, as they are often referred to, are widely recognized as a serious threat in electrical systems. In fact, it has been estimated that up to 85% of electrical failures are related to partial discharges. While the existence of and need to detect partial discharges in industries like energy production and distribution seems fairly obvious, there are many sectors where the need for early stage detection is less apparent but equally critical. Do you know if the equipment that is vital for your business is prone to partial discharges? And if so, what kinds of risks your operations are exposed to and how are you best able to mitigate them?

    Reply
  32. Tomi Engdahl says:

    Scary eBay Chinese factory test equipment
    https://www.youtube.com/watch?v=hz7X7WQIau4

    Having seen the “tame” version of this in some eBay listings (just a box with a switch and speaker terminals), I went on eBay looking for one, and found something much more exciting.

    This is a lamp tester for use in Chinese factories where they assemble the lamps and then test them to see if they light. This unit also does a fast power test that will beep a warning if the lamp deviates from a preset power range.

    It’s really exciting feature is the auxiliary mains voltage test facility that gives you the option of stuffing wires into speaker connectors or just using flying test probes with full mains voltage on the tips. It makes me wonder how many innocent Chinese factory workers have passed pant-filling amounts of electrical current, or simply had the probes explode on contact with either faulty equipment or random metalwork in the vicinity. Not helped by the unpolarised power connector.

    Soldering the detached wire back on proved to be a bit tricky, as the wire is definitely not copper and would not take solder well.

    Note that for obvious reasons this is not suitable for use in factories in the majority of other countries. Test equipment normally has to have safety systems built in to avoid accidental electrical contact.

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