Federal Pacific Electric Panels
Potentially Could Fail to Provide Proper Safety and Protection for Homes
Federal Pacific Electric Company (FPE) was one of the most common manufacturers of circuit breaker panels in North America from the 1950s to the 1980s. Millions of their panels were installed in homes across the country. Yet, as the years passed, electricians and home inspectors often found Federal Pacific Electric panels failed to provide proper protection to homeowners and their families. Experts now say that FPE panels can appear to work fine for years, but after one overcurrent or short circuit, they can overheat and become fire hazards.
In a class action lawsuit, a New Jersey State Court ruled that the Federal Pacific Electric (FPE) Company “violated the Consumer Fraud Act because FPE knowingly and purposefully distributed circuit breakers which were not tested to meet UL standards…” (To see the Class Action Settlement Notice issued for New Jersey Residents, click here.) An expert who investigated the potential hazards of Federal Pacific Electric panels stated under UL 489 test conditions, that FPE panels fail to trip at a much higher rate than standard panels.
When a breaker fails to trip, an extreme amount of power from the outside electrical supply surges into a home’s panel and circuits. Once that happens, it cannot be stopped or shut off manually. Electricity will burn until it runs out of fuel or the wires melt. The panel could overheat and catch fire, causing serious harm to a home and its occupants. Many Federal Pacific Electric panels and breakers can operate properly for years. But if and when they do malfunction, a disaster could occur.
A Federal Pacific Electric (FPE) circuit breaker panel can appear to be working properly for years. BUT experts warn that if a Federal Pacific Electric panel experiences an overcurrent or short circuit, it may not keep the electrical circuits from overheating and could possibly pose a fire hazard.
According to a report, some Federal Pacific Electric panels failed to operate properly nearly 60% of the time in the event of a power surge.