1 of 3 Creation Date : July 24, 2017 (GMT) Inductors (Coils) MLG0402Q4N7HT000 Applications Commercial Grade Multilayer Multilayer Feature Non-Mag Core Non-Magnetic Core (Dielectric Ceramic) High Q High Q Series | Type MLG-Q Status Brand Production TDK Size Length(L) 0.40mm ±0.02mm Width(W) 0.20mm ±0.02mm Thickness(T) 0.20mm ±0.02mm Recommended Land Pattern (A) 0.15mm to 0.20mm Recommended Land Pattern (B) 0.20mm Nom. Recommended Land Pattern (C) 0.18mm to 0.20mm Electrical Characteristics Inductance 4.7nH ±3% at 100MHz Rated Current 160mA DC Resistance [Typ.] 880mΩ DC Resistance [Max.] 1.3Ω Self Resonant Frequency [Min.] 6GHz Self Resonant Frequency [Typ.] 8.1GHz Q [Min.] 2 at 100MHz Q [Typ.] 3 at 100MHz Other Operating Temp. Range (Including Self-Temp. Rise) -55 to 125°C Soldering Method Reflow AEC-Q200 No Packing Punched (Paper)Taping [180mm Reel] Package Quantity 20000pcs Weight 0.00007g ! Images are for reference only and show exemplary products. ! This PDF document was created based on the data listed on the TDK Corporation website. ! All specifications are subject to change without notice. Copyright(c) TDK Corporation. All rights reserved. 2 of 3 Creation Date : July 24, 2017 (GMT) Inductors (Coils) MLG0402Q4N7HT000 Characteristic Graphs(This is reference data, and does not guarantee the products characteristics.) Impedance MLG0402Q4N7HT000 Rac MLG0402Q4N7HT000 Inductance MLG0402Q4N7HT000 ! Images are for reference only and show exemplary products. ! This PDF document was created based on the data listed on the TDK Corporation website. ! All specifications are subject to change without notice. Copyright(c) TDK Corporation. All rights reserved. Q MLG0402Q4N7HT000 Inductors (Coils) MLG0402Q4N7HT000 Associated Images Land Pattern (Terminal Connection) ! Images are for reference only and show exemplary products. ! This PDF document was created based on the data listed on the TDK Corporation website. ! All specifications are subject to change without notice. Copyright(c) TDK Corporation. All rights reserved. 3 of 3 Creation Date : July 24, 2017 (GMT)