*R oH V SC AV ER OM AI SIO PL LA N IA BL S NT E Features Cost-effective R-C construction Insulation resistance testing for reliability RoHS compliant version available ("L" part number suffix) Molded surface mount or DIP packaging Compatible with automatic assembly equipment Custom value capability For information on EMI/RFI Filters, download Bourns' EMI/RFI Filters Application Note. 601 Series - RC Network T-Filters General Description Continual advances in digital IC technology are creating stringent demands on EMI/RFI levels in equipment. Product Dimensions 4420P 7.493 .076 (.295 .003) EMI/RFI low pass filters are required in personal computers, data terminals, test equipment and process controllers for high frequency suppression into or out of electronic equipment. Electrical Specifications - Resistors Standard Resistance Range* ...........................................................10 ohms - 100 ohms Series Resistance Tolerance ................................................................................. 10 % Temperature Coefficient of Resistance ....................................................... 300 ppm/C Operating Voltage ................................................................................ 25 volts maximum Operating Temperatures ....................................................................... +10 C to +85 C 10.34 .25 (.407 .010) 12.95 .07 (.510 .003) 1.27 .076 TYP. (.050 .003*) .127 + .127/ - .000 (.005 + .005/ - .000) 2.65 MAX. (.104) *Other Resistance Values Available, 10 ohms - 1 megohm Electrical Specifications - Capacitors Standard Capacitance Range ................................................................ 50 pF to 200 pF Capacitance Tolerance ........................................................................................... 30 % Temperature Characteristic .......................................................................................Z5U Operating Temperatures ........................................................................ +10 C to +85 C Voltage Rating ...................................................................................................... 25 volts Dielectric Withstand Voltage ...............................................................2.5 x rated voltage Insulation Resistance ........................................................... 10,000 megohms minimum Environmental Specifications - Resistors R MAXIMUM Thermal Shock ..................................................................................................... 0.5 % Resistance to Solder Heat .................................................................................... 0.5 % Terminal Strength ................................................................................................. 0.5 % Mechanical Specifications Flammability ..................................................................................Conforms to UL94 V-0 Leadframe .................................................................................... Copper, solder coated Body Material............................................................................................ Epoxy/Novolac Lead Solderability .................................Meet requirements of MIL-STD-202 Method 208 For Standard Values Used in Capacitors, Inductors, and Resistors, click here. .432 .056 TYP. (.017 .002) .305 + .000/ - .076 (.012 + .000/ - .003) 8 MAX. .940 + .355 (.037 .014) 4118R AND 4120R .635 (.025) PIN #1 REF. .89 .25 (.035 .010) TYP. 27.05 (1.065) MAX. 24.51 MAX. (.965) 2.54 .25 (.100 .010*) TYP. NON-ACCUM. 4.57 + .12/ - .28 (.180 + .005/ - .011) 8.40 MAX. (.331) 2.03 .12 (.080 .005) 1.65 + .12/ - .07 (.065 + .005/ - .003) .438 .050 TYP. (.019 .002) 7.87 .25 (.310 .010) TO OUTSIDE WHEN PINS ARE PARALLEL .254 .050 (.010 .002) 3.43 + .38/ - .25 (.135 + .015/ - .010) 6.71 .10 (.264 .004) .76 .25 (.030 .010) 8.64 .50 (.340 .020) Governing dimensions are metric. Dimensions in parentheses are inches and are approximate. *Terminal centerline to centerline measurements made at point of emergence of the lead from the body. *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. 601 Series - RC Network T-Filters Attenuation Vs. Frequency - Typical Capacitor Values With R= 25 Ohms Attenuation vs. Frequency Model 4120R-601-250/500 Model 4420-601-250/500 50pF - 3dB @ 84 MHz +5dB 0dB 50pF -5dB Attenuation vs. Frequency Model 4120R-601-250/201 Model 4420P-601-250/201 200pF - 3dB @ 21 MHz 200pF -10dB -15dB -20dB -25dB -30dB -35dB -40dB indicates - 3dB rolloff frequency (fc ) DC 100Hz 1kHz 10kHz .1MHz 1MHz 10MHz 100MHz 1GHz These low-pass filters are ideal for installation between I/O drivers and RS 232 connectors. Typical Circuit 4120R-601-RC/CC 4420R-601-RC/CC How To Order EMI/RFI Filter Networks 44 20 P - 601 - RC/CC __ 1 20 R R C Model (44 = SMD SOIC Pkg) (41 = Molded DIP) Terminations L = RoHS compliant (tin-plated) Blank = Tin-lead plated Number of Pins Resistance/Capacitance Code * First 2 digits are significant * Third digit represents the number of zeros to follow Physical Configuration P = Surface Mount Device (SMD) R = Molded DIP R Insert RC/CC Code from table below to form part number. 10 11 RC 250 270 470 820 101 R 25 27 47 82 100 CC 500 101 181 201 C 50 pF 100 pF 180 pF 200 pF Consult factory for values not listed. Electrical Configuration For tube packaging, use code "T06" Packages Available 4420P-601-*RC/CC-SMD 4120R-601-*RC/CC-DIP 4118R-601-*RC/CC-DIP *First two digits are significant. Third digit represents the number of zeros to follow. Seven circuits in an 18-pin package. Eight circuits in a 20-pin package. REV. 09/14 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.