Rotary Potentiometers, Rheostats

Part Number	Description / PDF	Quantity
3360P-1-503 J.W. Miller / Bourns	POT 50K OHM 1/4W PLASTIC LINEAR	0
PDB183-GTR32-504A2 J.W. Miller / Bourns	POT 500K OHM 1/10W CARBON LOG	0
73JA20K Honeywell Sensing and Productivity Solutions	POT 20K OHM 2W WIREWOUND LINEAR	28
408NS10K Honeywell Sensing and Productivity Solutions	POT 10K OHM 1/2W PLASTIC LINEAR	10
SPRU1051S28 Precision Electronics Corporation	POT 1M OHM 1/2W CARBON LINEAR	21
RHS10KE Ohmite	POT 10K OHM 25W WIREWOUND LINEAR	22
P160KNP-0QC20B500K TT Electronics / BI Technologies	POT 500K OHM 1/5W PLASTIC LINEAR	2151
EVU-E3AF25D24 Panasonic	POT 20K OHM 1/20W LOGARITHMIC	1626
590SX1N56S102SP Honeywell Sensing and Productivity Solutions	POT 1K OHM 1/2W PLASTIC LINEAR	231
PDB181-K420K-102A2 J.W. Miller / Bourns	POT 1K OHM 1/10W CARBON LOG	639
3549H-1AA-102A J.W. Miller / Bourns	POT 1K OHM 2W HYBRITRON LINEAR	38
3549S-2AA-103/103B J.W. Miller / Bourns	POT 10K OHM 2W WIREWOUND LINEAR	0
23ESA223MMF50AF TE Connectivity AMP Connectors	POT 22K OHM 0.4W CARBON LINEAR	0
308NPC1K Honeywell Sensing and Productivity Solutions	POT 1K OHM 1/2W PLASTIC LINEAR	6
23ESB472MMF50NF TE Connectivity AMP Connectors	POT 4.7K OHM 1/5W CARBON LOG	258
PDB12-M4251-105BF J.W. Miller / Bourns	POT 1M OHM 0.08W CARBON LINEAR	0
3310H-001-103L J.W. Miller / Bourns	POT 10K OHM 1/4W PLASTIC LINEAR	99
91A1A-B28-E20L J.W. Miller / Bourns	POT PLASTIC LINEAR 1 WATT 25K	479
PTV09A-4015F-B202 J.W. Miller / Bourns	POT 2K OHM 1/20W CARBON LINEAR	0
PCW1D-C24-BAB503L J.W. Miller / Bourns	POT 50K OHM 3/4W PLASTIC LINEAR	0

Rotary Potentiometers, Rheostats

1. Overview

Rotary potentiometers and rheostats are variable resistors used to control electrical resistance in circuits. Potentiometers function as voltage dividers, while rheostats regulate current flow. These components enable precise manual control in electronics, making them critical in applications ranging from audio equipment to industrial machinery. Their ability to provide analog signal adjustment remains indispensable despite the rise of digital controls.

2. Main Types and Functional Classification

Type	Functional Features	Application Examples
Carbon Composition Potentiometers	Low-cost, medium precision, durable	Consumer electronics volume controls
Cermet Potentiometers	High temperature stability, long lifespan	Industrial measurement devices
Conductive Plastic Potentiometers	Smooth rotation, high resolution	Medical imaging equipment
Wirewound Rheostats	High power handling, coarse adjustment	Motor speed controllers
Digital Potentiometers	Programmable resistance, non-volatile memory	Automotive sensor calibration

3. Structure and Components

Typical rotary potentiometer construction includes: 1) A resistive element (circular track of carbon film, cermet, or wirewound material), 2) A wiper contact assembly with spring-loaded arm, 3) Rotational shaft with detent mechanisms, 4) Insulated housing (usually plastic or ceramic), 5) Terminal connections (solder lugs or PCB pins). Rheostats often use thicker wirewound elements for higher current capacity.

4. Key Technical Specifications

Parameter	Description	Importance
Resistance Range	Typical: 10 - 10M	Determines control resolution
Tolerance	1% to 20%	Signal accuracy indicator
Power Rating	0.1W - 50W	Thermal performance limit
Mechanical Lifespan	5,000-1,000,000 rotations	Product durability metric
Taper Type	Linear, logarithmic, or custom	Response curve matching

5. Application Fields

Main industries include: - Consumer electronics (smartphones, audio equipment) - Industrial automation (process control systems) - Automotive (HVAC controls, pedal position sensors) - Medical devices (diagnostic equipment calibration) - Aerospace (flight control systems) - Audio engineering (mixing console faders)

6. Leading Manufacturers and Products

Manufacturer	Key Products	Specializations
Bourns Inc.	3352/3386 series	High-precision trimmers
Vishay Precision Group	3006/3008 series	Military-grade ruggedization
TT Electronics	PO15 series	Custom industrial sensors
Alps Alpine	RK09 series	Compact audio controls
Curtis Industries	835 series	Heavy-duty vehicle controls

7. Selection Guidelines

Key considerations: 1. Match resistance range to circuit requirements 2. Choose taper type (linear for voltage measurement, logarithmic for audio) 3. Consider environmental factors (temperature, vibration) 4. Evaluate electrical noise specifications 5. Determine required mechanical durability Example: Audio mixing boards typically use 100k logarithmic potentiometers with conductive plastic elements for smooth fading performance.

8. Industry Trends

Current developments include: - Miniaturization for portable devices (sub-10mm rotary controls) - Integration with digital interfaces (smart potentiometers) - Increased use of conductive polymer materials for smoother operation - Rising demand in EV applications (regenerative braking control) - Environmental regulations driving halogen-free materials adoption - Military/aerospace demand for radiation-hardened components