The Importance of Transfer Switches in Standby Generators

An important component of any generator system for backup power to a building is the transfer switch. The transfer switch provides a number of functions that make it a necessary part of any emergency backup power system.

Standby generators use an Automatic Transfer Switch (ATS). An Automatic Transfer Switch can provide power from the standby generator during an outage. Transfer switches connect and disconnect utility and generator lines in a “Break—Make” operation. They “break” the current connection before they “make” the new connection.

Normal Operation: The transfer switch isolates the generator from the utility distribution grid. The generator is disconnected from the building’s electrical system and all power is supplied by the utility.

Outage Operation: As the transfer switch moves from utility (Line) to generator (Gen) mode, the utility connection is broken, then the generator connection is made. When Normal Operation is resumed, the generator connection is first broken, then the utility connection is made again.

An automatic transfer switch performs these operations without human intervention, as shown below.

How Transfer Switches Work

 

Utility Worker Protection

Transfer switches protect utility workers against electrocution by preventing unexpected current at high voltage on the local utility lines.

The electric utility distributes power in neighborhoods and to businesses at a high voltage. Common neighborhood voltage levels may be 4,000 volts, 13,000 volts, or as high as 33,000 volts. Before it is supplied to the building, the utility steps down the voltage with a transformer to 240 volts for most homes and small businesses. Some commercial buildings require higher voltages.

The transformer can work in either direction. It can step 13,000 volts down to 240 volts, or it can work in reverse and step 240 volts up to 13,000 volts.

A line energized by a generator that wasn’t properly connected will carry the higher voltage stepped up by the transformer. A utility worker that suddenly encounters 13,000 volts on a line they thought was safe could be injured, badly burned, or even killed.

Transfer switches prevent this from happening.

 

Generator and Building Protection

Although the generator and the electric utility both produce AC power, it is very unlikely that the frequency cycles are matched. The combination of electricity from both the utility and from generator at the same time will cause the equivalent of an unprotected short circuit.

In a best-case scenario, the generator’s main breaker will trip and take the unit off line. In the world of electricity however, the time it takes for a main breaker to trip is a lifetime. Main breakers are designed to allow a certain level of overload current for a very short period of time in order to allow motors and similar equipment to start.

During this short period, the generator could be damaged beyond repair.

Any condition that could damage the generator could also damage the home’s electrical system or the appliances connected to it. Motors can burn out and electronics can overheat.

Transfer switches eliminate the need for multiple extension cords (a possible safety hazard) and allow hard-wired appliances to operate on generator power.

 

(Source: Transfer Switch Importance in Standby and Portable Generator Systems, Norwall Power Systems)
2018-02-15T11:48:12+00:00 September 28th, 2015|Automatic Standby Generators|0 Comments

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