Spec Sheet MLCC (High dielectric type) for Automotive (BODY & CHASSIS, INFOTAINMENT) Applications JMK212B7475MGHT Features Item Summary 4.7uF20%, 6.3V, X7R, 0805/2012 (EIA/JIS) Lifecycle Stage Mass Production (Preferred) AEC-Q200 qualified Standard packaging quantity (minimum) Taping Embossed 3000pcs Products characteristics table External Dimensions Dimension L 2.0 0.10 mm Capacitance 4.7 uF 20 % Dimension W 1.25 0.10 mm Case Size (EIA/JIS) 0805/2012 Dimension T 1.25 0.10 mm Rated Voltage 6.3 V Dimension e 0.50 0.25 mm tan (max) 10 % Temperature Characteristic (EIA) X7R Operating Temp. Range (EIA) -55 to +125 High Temperature Loading 150 % (% Rated Voltage) Insulation Resistance (min) 100 MF RoHS Compliance (10 subst.) Yes REACH Compliance (205 subst.) Yes Halogen Free Yes Soldering Reflow 2020.04.28 The data is reference only. Electrical characteristics vary depending on environment or measurement condition. TAIYO YUDEN reserves the right to make change to the data at any time without notice. Before making final selection, please check product specification. Multi Layer Ceramic Capacitor -Electrical Characteristics Data- 17LA10 RoHS compliance product JMK212B7475MGHT JMK212B7475MGHT Capacitance Freq. 6.3V 2012 X7R 4.7uF +/- 20% t=1.35mmMAX 1000 6.3V 0805 X7R 4.7uF +/- 20% t=0.053inchMAX 100 10 1 0.1 0.001 0.01 0.1 1 10 100 1000 10000 Frequency MHz JMK212B7475MGHT JMK212B7475MGHT DC Bias Char. Impedance,ESR Freq. 10 1000 ESR 0 100 Z -10 10 -20 1 -30 0.1 -40 0.01 -50 0.001 0 1 2 3 4 5 6 0.001 0.01 0.1 1 10 100 1000 10000 DC Bias Voltage V Frequency MHz JMK212B7475MGHT JMK212B7475MGHT Capacitance Temp. Ripple Current 10 100 0 -10 10 10kHz -20 100kHz 1MHz -30 1 -55 -35 -15 5 25 45 65 85 105 125 0 0.5 1 1.5 2 2.5 3 3.5 4 Temperature degreeC Ripple Current Arms The data is reference only. Electrical characteristics vary depending on environment or measurement condition. TAIYO YUDEN reserves the right to make change to the data at any time without notice. Before making final selection, please check product specification. dC/C % dC/C % dTemp. degreeC Z,ESR OHM Capacitance uF