x 2y f Iretl & d uoce Pl Ign c a Pca Isrot X2Y filter capacitors employ a unique, patented low inductance design featuring two balanced capacitors that are immune to temperature, voltage and aging performance differences. These components offer superior decoupling and EMI filtering performance, virtually eliminate parasitics, and can replace multiple capacitors and inductors saving board space and reducing assembly costs. a d Vegatna S a noitacilpp S One device for EMI suppression or decoupling Amplifier FIlter & Decoupling Replace up to 7 components with one X2Y High Speed Data Filtering Differential and common mode attenuation EMC I/O Filtering Matched capacitance line to ground, both lines FPGA / ASIC / -P Decoupling Low inductance due to cancellation effect DDR Memory Decoupling EMI Filtering (1 Y-Cap.) Power Bypass (2 Y-Caps.) SIZE NPO 50 50 50 50 50 50 50 0402 (X07) X7R 50 50 50 50 50 50 16 NPO 100 100 100 100 100 50 50 50 X7R 100 100 100 100 100 100 100 100 50 25 25 16 10 6.3 0603 (X14) X5R 16 10 10 10 NPO 100 100 100 100 100 100 100 50 0805 (X15) X7R 100 100 100 100 100 100 100 100 50 50 50 25 10 NPO VOLTAGE 100 RATINGS 1206 (X18 X7R 6.3 = 6.3 VDC 100 100 100 100 100 16 16 10 10 = 10 VDC X7R 16 = 16 VDC 500 100 100 100 25 16 1210 (X41) 25 = 25 VDC X7R 50 = 50 VDC 500 100 1410 (X44) 100 = 100 VDC X7R 500 = 500 VDC 500 100 1812 (X43) Contact factory for part combinations not shown. Filtering capacitance is specified as Line-to-Ground ( Terminal A or B to G) Power Bypass capacitance is specified Power-to-Ground (A + B to G) Rated voltage is from line to ground in Circuit 1, power to ground in Circuit 2 . P/N written: 101X14W102MV4T Hwo ot o redr X2y c roticapa S 100 X14 W 102 M V 4 T VOLTAGE SIZE DIELECTRIC CAPACITANCE TOLERANCE TERMINATION MARKING PACKING 6R3 = 6.3 V X07=0402 N = NPO 1st two digits are signifi- M = 20% V = NI Barrier with 100% 4 = Unmarked E =Embossed 7 100 = 10 V X14=0603 W = X7R cant third digit denotes * D = 0.50 pF Tin Plating (Matte) T =Punched 7 (Not available) 160 = 16 V X15=0805 X = X5R number of zeros, R = *Values < 10 pF only F = Polyterm No code = bulk 250 = 25 V X18=1206 decimal. flexible termination 500 = 50 V X41=1210 102 = 1000 pF Tape specs. 101 = 100 V X44=1410 104 = 0.10 F T = SnPb per EIA RS481 501 = 500 V X43=1812 5R6 = 5.6pF X2Y technology patents and registered trademark under license from X2Y ATTENUATORS, LLC 10 www.johansondielectrics.com CAP. CODE XRX <20pF <10pF 100 20pF 10pF 220 44pF 22pF 270 54pF 27pF 330 66pF 33pF 470 94pF 47pF 101 200pF 100pF 221 440pF 220pF 471 940pF 470pF 102 2000pF 1000pF 152 3000pF 1500pF 222 4400pF 2200pF 472 9400pF 4700pF 103 .020F .010F 153 .030F .015F 223 .044F .022F 393 .078F .039F 473 .094F .047F 104 0.20F 0.10F 184 0.36F 0.18F 224 0.44F 0.22F 334 0.68F 0.33F 404 0.80F 0.40F 474 0.94F 0.47F 105 2.0F 1.0F x 2y f Iretl & d uoce Pl Ign c a Pca Isrot EMI Filtering S21 Power Bypass S21 Signal-to-Ground Power-to-Ground Labeled capacitance values below follow the P/N order code (single Y cap value) Effective capacitance measured in Circuit 2 is 2X of the labled single Y cap value. 10.0 10.0 1.00 1.00 0.10 0.10 0.01 0.01 e lacirtcel NPO X7R X5R c Hiretcara Scit S 15% (-55 to +125C) 15% (-55 to +125C) 15% (-55 to +85C) TEMPERATuRE COEFFICIENT: Vrated 100VDC: DWV = 2.5 X WVDC, 25C, 50mA max. Vrated = 500VDC: DWV = 1.5 X WVDC, DIELECTRIC STRENGTH: 25C, 50mA max. WVDC 50 VDC: 2.5% max. WVDC = 25 VDC: 3.5% max. WVDC 50 VDC: 5% max. 0.1% max. DISSIPATION FACTOR: WVDC = 10-16 VDC: 5.0% max. WVDC 25 VDC: 10% max. WVDC = 6.3 VDC: 10% max. INSuLATION RESISTANCE C 0.047F: 1000 F or 100 G, w hichever is less (MIN. 25C, WVDC) C> 0.047F: 500 F or 10 G, w hichever is less C > 100 pF 1kHz 50Hz 1.00.2 VRMS TEST CONDITIONS: 1.0kHz50Hz 1.00.2 Vrms C 100 pF 1Mhz 50kHz 1.00.2 VRMS CB OTHER: See main catalog page 35 for additional dielectric specifications. W Equivalent Circuits Cross-sectional View Dimensional View A G CB EB A G1 G2 T B W L G B EB c a Se Sezi T L 0402 (X07) 0603 (X14) 0805 (X15) 1206 (X18) 1210 (X41) 1410 (X44) 1812 (X43) IN MM IN MM IN MM IN MM IN MM IN MM IN MM 0.045 1.143 0.064 1.626 0.080 2.032 0.124 3.150 0.125 3.175 0.140 3.556 0.174 4.420 L 0.003 0.076 0.005 0.127 0.008 0.203 0.010 0.254 0.010 0.254 0.010 0.254 0.010 0.254 0.025 0.635 0.035 0.889 0.050 1.270 0.063 1.600 0.098 2.489 0.098 2.490 0.125 3.175 W 0.003 0.076 0.005 0.127 0.008 0.203 0.010 0.254 0.010 0.254 0.010 0.254 0.010 0.254 0.020 0.508 0.026 0.660 0.040 1.016 0.050 1.270 0.070 1.778 0.070 1.778 0.090 2.286 T max max max max max max max max max max max max max max 0.008 0.203 0.010 0.254 0.012 0.305 0.016 0.406 0.018 0.457 0.018 0.457 0.022 0.559 EB 0.003 0.076 0.006 0.152 0.008 0.203 0.010 0.254 0.010 0.254 0.010 0.254 0.012 0.305 0.012 0.305 0.018 0.457 0.022 0.559 0.040 1.016 0.045 1.143 0.045 1.143 0.045 1.143 CB 0.003 0.076 0.004 0.102 0.005 0.127 0.005 0.127 0.005 0.127 0.005 0.127 0.005 0.127 11 www.johansondielectrics.com Approximate Impedance () Approximate Impedance ()