AC frequency is the number of cycles per second in an alternating current (ac) sine wave.
Said another way, frequency is the rate at which current changes direction per second. It is measured in hertz (Hz), an international unit of measure where 1 hertz is equal to 1 cycle per second.
At its most basic, frequency is how often something repeats. In the case of electrical current, frequency is the number of times a sine wave repeats, or completes, a positive-to-negative cycle.
Example: If an alternating current is said to have a frequency of 5 Hz (see diagram below), that indicates its waveform repeats 5 times in 1 second.
The more cycles that occur per second, the higher the frequency.
The following is some of the terminology of frequency:
Hertz (Hz): One hertz is equal to one cycle per second.
Cycle: One complete wave of alternating current or voltage.
Alternation: One half of a cycle.
Period: The time required to produce one complete cycle of a waveform.
Frequency is typically used to describe electrical equipment operation. Below are some common frequency ranges:
Circuits and equipment are often designed to operate at a fixed or variable frequency.
Equipment designed to operate at a fixed frequency performs abnormally if operated at a different frequency than specified.
Example: An ac motor designed to operate at 60 Hz runs slower if the frequency drops below 60 Hz, faster if it exceeds 60 Hz.
For ac motors, any change in frequency causes a proportional change in motor speed.
Example: A 5% reduction in frequency produces a 5% reduction in motor speed.
A digital multimeter (DMM) that includes a Frequency Counter mode can measure the frequency of alternating current signals. A DMM may also offer these modes:
Power grids vary by nation. In the United States, the grid is based on a highly stable 60-hertz signal, meaning it cycles 60 times per second.
In the U.S., household electrical power is based on a single-phase, 120-volt AC power supply. Power measured at a wall outlet in a U.S. home will yield sine waves that oscillate between 170 and minus-170 volts, with the true-rms voltage measuring at 120 volts. The rate of oscillation will be 60 cycles per second.
Hertz is named after German physicist Heinrich Hertz (1857-1894), first to broadcast and receive radio waves. Radio waves travel at one cycle per second (1 Hz). (Similarly, a clock ticks at 1 Hz.)
Explaining electricity’s fundamental components