Office and Home Electrical Wiring and Safety Session 10

U.S. Consumer Product Safety Commission Has Found: Electrical Fires – Majority Caused by Aging Wiring and Misuse of Surge Protectors In the U.S. Over 750 People Are Killed Every Year by Electrical Fires Extension Cords - Leading Cause of Home Electrical Fires in the U.S. – An Extension Cord Related Fire Occurs Every 6 Minutes

General Electrical Safety Replace Damaged Electrical Cords Do Not Run Electrical Cords Through Doorways and Under Carpets Avoid Overloading Electrical Outlets If Switches/Outlets Feel Warm – Contact service ASAP

General Electrical Safety Appliances, Extension Cords, Power Strips,– Certified By an Independent Testing Laboratory, Use Ground-Fault Circuit Interrupter (GFCI) Plugs Around Water – Test the GFCI Plug Every Month

Power/Extension Cord Safety Never Remove the Ground Pin (3rd Prong) to Fit into a Two-Prong Outlet Extension Cords: Use On a Temporary Basis – Not Intended for Use as Permanent Wiring – Heavy Use of Extension Cords Means There are Too Few Outlets to Meet Your Needs

Power Strips Only Allow the User to Plug in More Products into the Same Outlet -

Avoid Exceeding the Capacity of the Electrical Outlet Never Overload the Capacity of the Power Strip Only Plug One Power Strip into a Single Duplex Electrical Outlet Never Plug Power Strip into Another Power Strip

Electrical Wiring – Basic Concepts NEVER work on a live circuit it can be dangerous. In every junction box there is generally only one hot wire bringing power into the box. Separate all the wires first so none touch each other.

Installing home-electrical-wiring for breakers and fuses inside a breaker box

Use Right Size of Electrical Wire! Wire Size Wire Rating (Amps) Breaker Rating (Amps) Common Use #1415 Amps Lighting Circuits #1220 Amps Outlet Circuits Dedicated Microwave Circuits #1030 Amps Heavier duty electrical appliance (oven, dryer, etc) #840 Amps Sub-panel feed line Specialty equipment with a big motor #655 Amps50 AmpsMain service feed – older home #1105 Amps100 Amps Main service feed – newer home

How to Determine the Capacity of a Power Cord or Power Strip Assume 125 Watts per Amp to Calculate the Conversion Total Watts Should Not Exceed 80% (0.80) of the Rated Capacity Example – Surge Protector Rated at 15 Amps 15 Amps X 125 Watts/Amp = 1875 Watts 1875 Watts X 0.80 = 1500 Watts Capacity of the Surge Protector

Example of Multiple Items Plugged into a Surge Protector Multiple Items Plugged into a 15 Amp Surge Protector: – Computer – 2 amps = 250 Watts – Monitor – 1.2 amps = 150 Watts – Coffee Maker – 650 Watts – Laser Printer Idle – 2 amps = 250 Watts Printing – 9.4 amps = 1175 watts

Example of Items Plugged into a 15 Amp Surge Protector (Continued) Total Wattage While Printer is Idle: 250 (Computer) (Monitor) (Coffee Maker) (Printer in Idle) = 1300 Watts Total Wattage While Printer is Printing: 250 (Computer) (Monitor) (Coffee Maker) (Printer Printing) = 2225 Watts While Printing, the 1500 Watt Surge Protector Capacity is Exceeded! – Plug the Printer into a Separate Surge Protector & a Different Duplex Plug

Mapping Electrical Circuits in Your Home

Record the amperage rating for each circuit (identified on the breaker or fuse) as well. Record the gage (diameter or thickness) of the wiring in each circuit, typically marked on the plastic outer jacket containing the wires. If it’s 14 AWG, the circuit should be protected by a breaker or fuse no larger than 15 amps. If it’s 12 AWG — 20 amps at most. If it’s 10 AWG (such as most clothes-dryer circuits) — 30 amps maximum.

It is critical the circuit breaker that protects a circuit be of the right amps rating for the size of the wire. Most circuits in your home are 15 amp and 20 amp, but no matter what, it is again CRITICAL that breaker rating be appropriate for the wire rating. If the breaker rating is too low, the breaker will trip before the wire capacity is close to being reached. If the breaker rating is too high, the wire can get too hot and potentially start a fire.

inspecting the electrical panel: 1. Incoming wire size 10. Breaker types that don’t match panel type 2. Panel amperage rating (size)11. Rusting/Corroding 3. Size of Main Breaker 4. Wire size/breaker size not proper13. Over-fused wires 5. Type of wires—aluminum or copper14. Breakers turned off 6. Loose connections15. Breakers “tripped” off 7. Re-identified conductors 8. Damaged wires 9. Water intrusion