PL IA N T Features The Model PDV Series is obsolete and not recommended for new designs. CO M ■ Carbon element *R oH S ■ 10-30 mm travel ■ Center detent option ■ Single or dual gang ■ RoHS compliant* PDV Series - Open Frame Slide Potentiometer Product Dimensions Electrical Characteristics Taper .................................... Linear, audio Standard Resistance Range ....................... 1 K ohms to 1 M ohms Standard Resistance Tolerance.....±20 % Residual Resistance ....................100 ohms or ±5 % max. PDVxx-x1P PDVxx-x2P 20 "T" + (.78) 7.3 (.287) 4.0 (.157) "T" + 7.3 (.287) TRAVEL "T" 5.0 (.196) 20 (.78) TRAVEL "T" 4.0 (.157) 5.0 (.196) Environmental Characteristics Operating Temperature ...-10 °C to +50 °C Power Rating Linear .....................................0.1 watt Audio ....................................0.05 watt Maximum Operating Voltage - Linear 10 mm Travel.........................100 VAC 15 mm Travel.........................100 VAC 20 mm Travel.........................200 VAC 30 mm Travel.........................200 VAC Maximum Operating Voltage - Audio 10 mm Travel...........................50 VAC 15 mm Travel...........................50 VAC 20 mm Travel.........................150 VAC 30 mm Travel.........................150 VAC Sliding Noise ........................ 47 mV max. Mechanical Characteristics 13.0 (.511) 13.0 (.511) E T E L O S B O Operating Force ............. 20 to 300 g-cm Detent Torque ................. 50 to 400 g-cm Lever Stop Strength ........... 3 kg-cm min. Sliding Life ......................... 10,000 cycles Std. Stroke Length ..... 10, 15, 20, 30 mm Soldering Condition Wave .............. 260 °C for 3 sec. max. Manual .................... Not recommended 1.5 (.059) 0.5 (.019) 3.6 (.141) 2.1 (.082) 2.0 (.078) 2.1 (.082) 1.8 (.070) 2.0 (.078) 0.5 (.019) 0.5 (.019) RECOMMENDED PCB LAYOUT 2 1 1.5 DIA. 6 PLCS. (.059) RECOMMENDED PCB LAYOUT 3 2 3.0 (.118) "T" + How To Order PDV 10 - 2 1 P - 102 A Model Length of Travel • 10 = 10 mm • 15 = 15 mm • 20 = 20 mm • 30 = 30 mm Detent Option • 2 = No Detent • 3 = Center Detent Number of Gangs • 1 = Single Gang • 2 = Dual Gang Mounting Type (refer to drawings) • P = Vertical Pins • M = Horizontal Pins Resistance Code (See Table) Resistance Taper • A = Audio Taper • B = Linear Taper Other styles available. 1.8 (.070) 1.5 (.059) 0.5 (.019) 3.6 (.141) 1 1 10 (.39) 3.0 (.118) SINGLE GANG 2 1 1.5 DIA. 6 PLCS. (.059) 3 2 3 10 "T" + (.39) 3.0 (.118) DUAL GANG 2 3 SCHEMATIC DIMENSIONS: MM (INCHES) 1 3 1 3 2 SCHEMATIC *RoHS Directive 2002/95/EC Jan. 27, 2003 including annex and RoHS Recast 2011/65/EU June 8, 2011. Specifications are subject to change without notice. The device characteristics and parameters in this data sheet can and do vary in different applications and actual device performance may vary over time. Users should verify actual device performance in their specific applications. Applications ■ Audio/TV sets ■ Car radio ■ Amplifiers/mixers/drum machines/ synthesizers ■ PCs/monitors ■ Appliances PDV Series - Open Frame Slide Potentiometer Product Dimensions Standard Resistance Table PDVxx-x1M PDVxx-x2M 7.3 (.287) 4.0 (.157) Resistance (Ohms) 1,000 2,000 5,000 10,000 20,000 50,000 100,000 200,000 500,000 1,000,000 7.3 (.287) 4.0 (.157) 5.0 (.196) 5.0 (.196) 1.0 (.039) 1.0 (.039) 13.0 (.511) 13.0 (.511) Resistance Code 102 202 502 103 203 503 104 204 504 105 Derating Curve 3.6 (.141) 2.1 (.082) 2.0 (.078) 2.3 (.090) 1.0 DIA. (.039) 6 PLCS. 2 3 1 N/C 8.5 (.334) 2.3 (.090) 3.0 (.118) 1.0 DIA. (.039) 5 PLCS. 2 2.0 (.078) 80 60 40 33 20 0 0 10 20 30 40 50 60 70 80 90 100 Ambient Temperature (°C) 3 1 8.5 (.334) “T” + 10 (“T” + .393) 3.0 (.118) 1 N/C 2 3 “T” + 10 (“T” + .393) DUAL GANG 2 SINGLE GANG 2 1 1 100 RECOMMENDED PCB LAYOUT RECOMMENDED PCB LAYOUT 3.0 (.118) E T E L O S B O 2.1 (.082) 1.8 (.070) 1.8 (.070) Rating Power Ratio (%) 3.6 (.141) 3 3 SCHEMATIC 1 3 2 SCHEMATIC DIMENSIONS: MM (INCHES) REV. 02/14 Specifications are subject to change without notice. The device characteristics and parameters in this data sheet can and do vary in different applications and actual device performance may vary over time. Users should verify actual device performance in their specific applications.