Harmonic distortion is the alteration of the normal voltage pattern (sine wave) due to "non-linear" loads (like electronic equipment). All electronic devices (those having transistors, for example) draw electricity differently than non-electronic equipment and distort the normal voltage pattern.
- Operation of non-linear loads such as fluorescent ballasts and computer power supplies
- Operation of battery chargers
To keep your business up and running with reliable power, some of the following equipment may be useful.
A momentary outage is a very short loss of power lasting from 1/120th of a second to three seconds. This is often seen as a "blink" in your lights.
- Accidents, acts of nature, etc. that require the proper automatic operation of utility protective equipment
Noise is an unwanted electrical signal of high frequency that alters the normal voltage pattern (sine wave). An example of the result of noise would be the distorted picture you may get on a computer screen when a microwave is turned on.
- Electronic equipment
- Radar transmitters
- Radio and television broadcasts
- Operation of welding equipment
- Heaters, thermostats and loose wiring
An outage is a complete loss of power. A temporary outage lasts anywhere from three seconds to one minute. A long-term outage would last longer than one minute.
- Accidents, acts of nature, etc. that require the proper operation of utility equipment (like fuses)
- Internal short circuit resulting in the proper operation of a customer's breakers and fuses
A sag or swell is any short-term (lasting less than one minute) decrease (sag) or increase (swell) in voltage.
- Major equipment startup or shutdown
- Short circuits
- Improper electrical connections
- Sudden load reduction
A surge or transient is a sudden change in voltage up to several thousand volts lasting a few microseconds (a microsecond is one one-millionth of a second).
- Proper operation of utility fuses, reclosers and breakers
- Turning on or off large equipment
- Operation of welding equipment
An undervoltage or overvoltage is any long-term change (lasting more than a minute) below or above normal voltage.
- Overloaded wiring or equipment
- Poor voltage control possibly due to large load swings or improper transformer settings
- Voltage drop due to undersized wiring and faulty or poor electrical connections
Designed to maintain a constant voltage output over a wide range of input voltages. As a result, input voltage variations do not pass through the transformer.
Designed to limit the periodic or continuous distortions of the normal voltage wave pattern (sine wave) caused by non-linear loads. Non-linear loads (like all electronic equipment) draw electricity differently than linear loads and distort the normal voltage pattern.
Protects sensitive electronic equipment by buffering electrical noise.
Designed to come between the power from the utility system and critical equipment within the business. The motor takes power from the utility system and then generates power for critical equipment. Acting as a buffer, motor-generator sets provide regulated, conditioned power to connected equipment.
Eliminates interference that may interrupt the proper operation of electrical or electronic equipment. This interference is known as electromagnetic interference (EMI). Electronic devices can be a source of this interference.
An alternate power supply usually driven by a gas or diesel engine.
Designed to limit instantaneous high voltages. Also known by a number of names, such as surge suppressor, surge arrestor and surge diverter.
Designed to improve the quality of power supplied to critical loads and to generate the required voltage and current when power interruptions, voltage variations or frequency variations occur. A UPS has batteries as an internal source of energy and uses this energy to provide AC power to selected equipment even if the utility power is interrupted.
Maintains voltage output within a desired limit despite varying input voltage. Regulators provide little or no protection against surges or noise.