Magnetics Make Possible Surface Mount Common Mode Chokes Model HM67 Series Features Operating Temperature Range -40°C to +125°C Temperature Rise, Maximum 40°C Dielectric Withstanding Voltage 300Vdc RoHS Compliant Schematics Specification Terminals Common Mode Inductance @100 kHz - 0.1 V (1-4 or 2-3) μH Inductance Leakage @100 kHz - 0.1 Vrms (1-4)(1) Typ. μH Rated Current mA DCR (2) Max Ω Marking Code Figure HM67-B5R0LF HM67-B110LF 1-4, 2-3 1-4, 2-3 5.0 ± 30% 11.0 ± 30% 0.08 0.10 1000 500 0.12 0.15 A B 1 1 HM67-S250LF 1-4, 2-3 25.0 ± 30% 1.60 500 0.18 C 1 HM67-B510LF HM67-S510LF HM67-B471LF HM67-B102(3)LF HM67-B222(3)LF HM67-B472(3)LF HM67-10510LF 1-4, 2-3 1-4, 2-3 1-4, 2-3 1-4, 2-3 1-4, 2-3 1-4, 2-3 1-4, 2-3 51.0 ± 30% 51.0 ± 30% 470.0 ± 30% 1000.0 +50%, -30% 2200.0 +50%, -30% 4700.0 +50%, -30% 51.0 ± 30%(4) 1.90 2.80 0.80 0.16 0.16 0.24 2.40(4) 500 500 500 500 400 200 200 0.10 0.25 0.28 0.30 0.42 0.67 0.403 D E F G H I 0510 1 1 1 1 1 1 2 Part Number Notes: (1) Leakage inductance is measured with pin 2 & 3 shorted. (2) DC resistance is measured at 25°C. (3) Maximum operating temperature is +85°C. (4) Common mode inductance & leakage inductance of HM67-10510LF are measured at 100 kHz, 0.05V Packaging Embossed Tape and Reel Diameter: Standard: Reel: Capacity: Figure 1 & 2 = 13” (330.2mm) Figure 1 = 400 Units Figure 2 = 2000 Units General Note TT Electronics reserves the right to make changes in product specification without notice or liability. All information is subject to TT Electronics’ own data and is considered accurate at time of going to print. www.ttelectronicsmagnetics.com © TT Electronics plc Rev. 01 Surface Mount Common Mode Chokes Make Possible Model HM67 Series Ordering Information HM67 - B 110 LF TR13 Model Series TR - Tape & Reel Packing 13 - 13” reel Winding Type: B = Bifilar S /10= Sector Lead Free Inductance Code: First 2 digits are significant. Last digit denotes the number of trailing zeros. For values below 10μH, “R” denotes the decimal point. Outline Dimensions (Inch/mm) Figure 1 Figure 2 Bottom View Side View .024 0.60 Typ. .138 3.50 Max. .155 3.9 Max. .197 5.00 Max. Seating Plane .004/0.10 Max. Side View Top View Top View .37 Max. 9.4 Marking Location 1 4 2 3 .140 Max. 3.55 .10 ± .004 .236 Max. 6.0 2.5 ± 0.1 .138 3.5 Marking (Refer to Max. Table) Recommended Solder Pad Layout Recommended Solder Pad Layout .090 .098 2.3 2.5 .047 1.2 .067 1.7 .177 .087 4.5 2.2 .40 10.2 .232 5.9 General Note TT Electronics reserves the right to make changes in product specification without notice or liability. All information is subject to TT Electronics’ own data and is considered accurate at time of going to print. www.ttelectronicsmagnetics.com © TT Electronics plc Rev. 01 Surface Mount Common Mode Chokes Make Possible Model HM67 Series Electrical Characteristics @ 25°C (A) Attenuation vs. Frequency Graphs HM67-B5R0LF HM67-S250LF HM67-B110LF HM67-B510LF HM67-B110 General Note TT Electronics reserves the right to make changes in product specification without notice or liability. All information is subject to TT Electronics’ own data and is considered accurate at time of going to print. www.ttelectronicsmagnetics.com © TT Electronics plc Rev. 01 Surface Mount Common Mode Chokes Make Possible Model HM67 Series Electrical Characteristics @ 25°C (Continued) HM67-S510LF HM67-B102LF HM67-B471LF HM67-B222LF HM67-B222 HM67-B472LF General Note TT Electronics reserves the right to make changes in product specification without notice or liability. All information is subject to TT Electronics’ own data and is considered accurate at time of going to print. www.ttelectronicsmagnetics.com © TT Electronics plc Rev. 01 Surface Mount Common Mode Chokes Make Possible Model HM67 Series Electrical Characteristics @ 25°C (Continued) (B) Insertion Loss vs. Frequency Graph HM67-10510LF Common Mode Insertion Loss (dB) Common Mode Differential Mode Differential Mode Frequency (MHz) (C) Current Derating Curve I o/p / I Rated HM67-10510LF Ambient Temperature (0C) General Note TT Electronics reserves the right to make changes in product specification without notice or liability. All information is subject to TT Electronics’ own data and is considered accurate at time of going to print. www.ttelectronicsmagnetics.com © TT Electronics plc Rev. 01