oH V SC AV ER OM AI SIO PL LA N IA BL S NT E Features RoHS compliant* (see How to Order “Termination” option) ■ Custom circuits available per factory *R ■ For information on thin film applications, download Bourns’ Thin Film Application Note. 4100T - Thin Film Molded DIP Environmental Characteristics TESTS PER MIL-STD-202........ ∆R MAX. Thermal Shock .............................. 0.1 % Low Temperature Operation ....... 0.25 % Short Time Overload ..................... 0.1 % Resistance to Soldering Heat ....... 0.1 % Moisture Resistance ..................... 0.1 % Mechanical Shock....................... 0.25 % Life ................................................ 0.5 % High Temperature Storage ............ 0.2 % Low Temperature Storage............. 0.1 % Physical Characteristics Lead Frame Material ..........................Copper, solder coated Body Material Flammability ...........................Conforms to UL94V-0 Body Material ..................Novolac Epoxy Package Power Temp. Derating Curve ( ) 3.00 2.50 4118T 2.25 4116T 2.00 4114T .89 ± .25 (.035 ± .010) TYP. 1.75 Consult factory for other available options. 4.57 + .12/ - .28 (.180 + .005/ - .011) 8.40 MAX. (.331) 1.25 4108T 1.00 0 25 70 125 150 AMBIENT TEMPERATURE ( ° C ) 2.54 ± .25 (.100 ± .010*) TYP. NON-ACCUM. RESISTANCE CODE (4 DIGIT) PIN ONE INDICATOR CIRCUIT TC CODE 4116T-2-2203BC YYWW 3.43 + .38/ - .25 (.135 + .015/ - .010) 1.65 + .12/ - .07 (.065 + .005/ - .003) 7.87 ± .25 (.310 ± .010) TO OUTSIDE WHEN PINS ARE PARALLEL Typical Part Marking Represents total content. Layout may vary. 2.03 ± .12 (.080 ± .005) .438 ± .050 TYP. (.019 ± .002) Package Power Ratings at 70 °C 4108T ......................................1.09 watts 4114T ......................................2.00 watts 4116T ......................................2.25 watts 4118T ......................................2.50 watts 4120T ......................................2.80 watts 41 16 T - 2 - 2222 F A B __ Model (41 = Molded Dip) Number of Pins Physical Config. •T = Thin Film Electrical Configuration •2 = Bussed •1 = Isolated Resistance Code •First 3 digits are significant •Fourth digit represents the number of zeros to follow. Absolute Tolerance Code •B = ±0.1% •F = ±1% •D = ±0.5% Temperature Coefficient Code •A = ±100ppm/°C •C = ±25ppm/°C •B = ±50ppm/°C Ratio Tolerance (Optional) •A = ±0.05% to R1 •B = ±0.1% to R1 •D = ±0.5% to R1 Terminations • L = Tin-plated (RoHS compliant version) • Blank = Tin/Lead-plated 27.05 MAX. (1.065) 24.51 MAX. (.965) 21.97 MAX. (.865) 19.43 MAX. (.765) 11.81 (.465) MAX. 1.50 PART NUMBER How To Order Product Dimensions .635 (.025) PIN #1 REF. 4120T 2.75 WATTS Product Characteristics Resistance Range ........50 to 100K ohms Resistance Tolerance ..........................±0.1 %, ±0.5 %, ±1 % Temperature Coefficient ..................±100 ppm/°C, ±50 ppm/°C, ±25 ppm/°C Temperature Range .................................-55 °C to +125 °C Insulation Resistance ..................10,000 megohms minimum TCR Tracking .........................±5 ppm/°C Maximum Operating Voltage............50 V 6.71 ± .10 (.264 ± .004) .254 ± .050 (.010 ± .002) 8.64 ± .50 (.340 ± .020) ABSOLUTE TOLERANCE CODE Governing dimensions are in metric. Dimensions in parentheses are inches and are approximate. DATE CODE *Terminal centerline to centerline measurements made at point of emergence of the lead from the body. MANUFACTURER'S TRADEMARK Isolated Resistors (1 Circuit) Available in 8, 14, 16, 18, and 20 Pin 14 8 1 7 Bussed Resistors (2 Circuit) Available in 8, 14, 16, 18, and 20 Pin 14 8 1 7 These models incorporate 4, 7, 8, 9, or 10 thin-film resistors of equal value, each connected between a separate pin. These models incorporate 7, 13, 15, 17, or 19 thin-film resistors of equal value, each connected by a common pin. Power Rating per Resistor..........0.2 watt Resistance Range .......50 to 100K ohms Power Rating per Resistor........0.12 watt Resistance Range .........50 to 50K ohms *RoHS Directive 2002/95/EC Jan 27 2003 including Annex Specifications are subject to change without notice. Customers should verify actual device performance in their specific applications. REV. 12/06