Rotary Potentiometers, Rheostats

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Mfr Part #	Quantity Available	Price	Series	Package	Product Status	Resistance (Ohms)	Tolerance	Power (Watts)	Built in Switch	Number of Turns	Features	Taper	Number of Gangs	Adjustment Type	Temperature Coefficient	Rotation	Resistive Material	Termination Style	Actuator Type	Actuator Length	Actuator Diameter	Bushing Thread	Mounting Type
026TB32R501B1A1 POT 500 OHM 5W WIREWOUND LINEAR CTS Electrocomponents	755 In Stock	1 : £3.98000 Bulk	026	Bulk	Active	500	±20%	5W	None	1.0	-	Linear	1	User Defined	-	300°	Wirewound	Solder Lug	Round	1.000" (25.40mm)	0.250" (6.35mm)	3/8-32	Panel Mount
3590S-2-501L POT 500 OHM 2W WIREWOUND LINEAR Bourns Inc.	112 In Stock	1 : £12.86000 Bulk	3590	Bulk	Active	500	±5%	2W	None	10.0	-	Linear	1	User Defined	±50ppm/°C	3600°	Wirewound	Solder Lug	Slotted	0.812" (20.63mm)	0.2497" (6.34mm)	3/8-32	Panel Mount
PC16SH-07IP04-201A2020-TA POT 200 OHM 1/5W CARBON LINEAR Amphenol Piher Sensing Systems	517 In Stock	1 : £2.22000 Bulk	PC-16	Bulk	Active	200	±20%	0.2W, 1/5W	None	1.0	-	Linear	1	Side Adjustment	±300ppm/°C	300°	Carbon	PC Pins	Knurled	1.772" (45.00mm)	0.157" (4.00mm)	M7 x 0.75	Panel Mount
450D501KSD4 POT 500 OHM 1/2W CARBON LINEAR CTS Electrocomponents	0 In Stock Value Added Item	1 : £2.51000 Bulk	Stock Pot™ 450	Bulk	Active	500	±20%	0.5W, 1/2W	None	1.0	-	Linear	1	User Defined	-	300°	Carbon	Solder Lug	Slotted	0.500" (12.70mm)	0.250" (6.35mm)	3/8-32	Panel Mount

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About Rotary Potentiometers and Rheostats

A rheostat is a type of adjustable resistor used to control current flow in an electrical circuit by varying resistance. Often referred to as a variable resistor, a rheostat is typically constructed using a wire-wound resistive element—usually made of materials like nichrome or another high-resistivity alloy—wrapped around a ceramic or insulating core. A sliding contact called a wiper moves along the resistive wire to change the effective resistance between two terminals, allowing more or less current to flow. Rheostats are commonly rotary or linear in design and are manually adjusted using a shaft or slider. Though similar in appearance to a potentiometer, a rheostat is typically used with just two terminals to control current (not voltage division), making it better suited for high-power applications like motor speed control or dimming incandescent lamps.

When selecting a rheostat, key factors include resistance range (measured in ohms), power rating (in watts), adjustment type (rotary or linear), and mechanical durability. For high-current applications, look for wire-wound models that can dissipate significant heat. Rheostats are generally used in AC and DC circuits, but they must be rated appropriately for the type and magnitude of the voltage and current involved.

It’s important to note that rheostats are not as precise or compact as digital alternatives, and their mechanical nature makes them less suited to automated or embedded systems. However, they remain useful for hands-on control, adjustment during prototyping, and high-power load variation where fine-tuned analog control is necessary. When comparing to potentiometers, remember: all rheostats are variable resistors, but not all variable resistors are rheostats—potentiometers usually act as voltage dividers, while rheostats typically control current directly.