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Potentiometers, or "Pots" for short, have three terminals with the center terminal being a center tap contact or "wiper" that slides across an element of constant resistance. As the wiper moves along the element, the resistance from the end terminals to the wiper changes. If the total resistance of the pot is R and the resistance from the left terminal to the wiper is Rleft and from the right terminal to the wiper is Rright, then we have that R = Rleft + Rright is always satisfied, and each of Rleft and Rright can vary from 0 to R. Some rotary pots are "multi-turn," meaning that the knob must be turned several rotations to move the wiper its full range, and some are "single-turn." The former are common for fine gain adjustments on circuit boards, and the latter are common in sensors of shaft angle and knobs for human input. Some pots have a "linear taper," meaning that the resistance from the terminals to the wiper changes linearly with the amount of rotation (for a rotary pot) or translation (for a linear or slide pot), and others have a "logarithmic" or "audio taper," meaning that the amount of resistance changes logarithmically with the motion. This is useful for audio equipment, as our perception of sound volume increases linearly with a logarithmic increase in sound power. Make sure the pot you use has the correct kind of taper for your application![[Image:potentiometersymbol.png|left]] Potentiometers, or "Pots" for short, have three terminals with the center terminal being a center tap contact or "wiper" that slides across an element of constant resistance. As the wiper moves along the element, the resistance from the end terminals to the wiper changes. If the total resistance of the pot is R and the resistance from the left terminal to the wiper is Rleft and from the right terminal to the wiper is Rright, then we have that R = Rleft + Rright is always satisfied, and each of Rleft and Rright can vary from 0 to R. Some rotary pots are "multi-turn," meaning that the knob must be turned several rotations to move the wiper its full range, and some are "single-turn." The former are common for fine gain adjustments on circuit boards, and the latter are common in sensors of shaft angle and knobs for human input. Some pots have a "linear taper," meaning that the resistance from the terminals to the wiper changes linearly with the amount of rotation (for a rotary pot) or translation (for a linear or slide pot), and others have a "logarithmic" or "audio taper," meaning that the amount of resistance changes logarithmically with the motion. This is useful for audio equipment, as our perception of sound volume increases linearly with a logarithmic increase in sound power. Make sure the pot you use has the correct kind of taper for your application![[Image:Potsarevariableresistors.jpg]][[Image:Potsarevariableresistorstypes.png]]* '''Hollow-Shaft Pots''' - These are used in place of shaft potentiometers when space is limited. They are very thin (~3mm) and mount around a rotating shaft. * '''Hollow-Shaft Pots''' - These are used in place of shaft potentiometers when space is limited. They are very thin (~3mm) and mount around a rotating shaft. [[Image:Potsarevariableresistorstypes.png]]=== Linear and Audio Taper ===The taper of a pot refers to the way its resistance changes as the shaft is rotated. A linear taper pot is exactly what you would guess it to be, a graph of resistance (from one end to center) versus shaft rotation would be a straight line. If you tried to use a linear taper pot as a volume control you would be most unhappy with its performance. The sound level would go from nothing to almost full volume in about the first ten degrees of rotation and the rest would have almost no audible effect. This is because the ear responds to sound logarithmically rather than linearly. That's why sound engineers use the decibel which is a logarithmic function of power. An audio taper pot has a function which approximates a logarithmic function.The way to identify an audio taper pot is to set it to half rotation and measure from center to each end with an ohmmeter. If the resistances are approximately equal you have a linear pot. If the resistance from the counter clockwise end to center is about 10% of the total and the resistance from the clockwise end to the center is about 90% then you are holding an audio taper pot.[[Category:Electronics]][[Category:Electronic Components]]