SMC Series-Stacked Capacitors Holy Stone Multilayer Ceramic Chip Capacitors [Stacked Capacitors] SMC Series MLCC Design, Suitable for Switchmode Power Supply Filters Features Application Stacked design offers the high capacitance similar to Tantalum but with extremely low ESR advantage. ‘J’, ‘L’ and ‘N’ Leaded configuration provide mechanical and thermal stress relief. Capacitance values up to 57µF Voltage from 50V to 1000V. Available in NP0 and X7R dielectrics . HIREL screening available. RoHS compliant. Summary of Specifications Power supplies DC-DC converters Surge protection Industrial control circuits Snubbers Filtering, smoothing, and decoupling application HIREL applications Custom applications ℃ Operating Temperature -55 to +125 Rated Voltage 50Vdc to 1000Vdc Temperature Coefficient of Capacitance NPO : ≤ Capacitance Range NPO: 1.0nF to 700nF ± 30ppm/ ℃ X7R : ≤ ± 15% ℃ (EIA Class Ι ) , -55 to +125 ℃ (EIA Class Ⅱ ) , -55 to +125 X7R : 27nF to 57uF ≧ 1000 at 1KHz Dissipation Factor : NPO : Q X7R : 2.5%max. at 1KHz Ω or 500/C Ω whichever is smaller Insulation Resistance 10G Aging NPO : 0% , X7R : 2.5% per decade of time Dielectric Withstanding Voltage V ≤50V ; 250% Rated Voltage 100V ≤ V <500V ; 200% Rated Voltage 500V ≤ V <1KV ; 150% Rated Voltage 1000V = 120% Rated Voltage ± 1% & ± 2% tolerances are only available in NPO Tolerance How To Order SMC SMC 49 49 JJ XX Lead Material Configuration Product Code Stack and Size SMC: Commercial Size Switchmode Stack Capacitor Ex.: The first Ex.: digit: J : J Lead for N: NP0 X: X7R # of chips in h=0.070” stack L: L Lead for B: X5R h=0.070” R: X7S Second Digit: N: Straight H: X8R Lead Chip Size 5: 1210 P :J Lead for 6: 1812 h=0.045” 7: 2220 S : L Lead for 8: 1825 h=0.045” 9: 2225 A: Flat type Lead 224 224 KK Capacitance Tolerance (pF) 501 501 TT Rated Voltage Packaging Ex.: Ex.: B: Bulk Ex.: 103:10x103 F: +/-1.0% 050: 50Vdc T:Tape&Reel 224:22x104 G: +/-2.0% 101: 100Vdc W: Waffle 475:47x105 J: +/-5.0% 201: 200Vdc pack K: +/- 10% 501: 500Vdc M: +/- 20% 102:1000Vdc - 71 - HH 01 01 Special test Special Requirement Requirement Blank: Standard electrical test H: Hi-Rel Testing Blank: No special requirement 01~99: Customer special requirement Revision date : 2012.05.18 SMC Series-Stacked Capacitors Holy Stone Dimensions 1210 Size 1825/2225 J Type 1812 Size 1825/2225 L Type - 72 - 2220 Size 1825/2225 N Type SMC Series-Stacked Capacitors Holy Stone Unit : mm [inches] EIA Size Code Size Code L W (max.) H(max.) S 1210 1812 1825 15 25 16 26 17 27 3.80 Max [.150 Max] 2.90 [.114] 2.20 [.087] 1.65±0.50 [.065±.020] 3.80 Max [.150 Max] 2.90 [.114] 4.40 [.173] 1.65±0.50 [.065±.020] 1.30 [.051] 1.30 [.051] 5.50 Max [.217 Max] 4.00 [.157] 2.60 [.102] 1.65±0.50 [.065±.020] 2.54±0.25 [.100±.010] 1.30 [.051] 5.50 Max [.217 Max] 4.00 [.157] 5.20 [.205] 1.65±0.50 [.065±.020] 2.54±0.25 [.100±.010] 1.30 [.051] 6.50 Max [.256 Max] 5.50 [.217] 3.00 [.118] 1.65±0.50 [.065±.020] 2.54±0.25 [.100±.010] 1.30 [.051] 6.50 Max [.256 Max] 5.50 [.217] 6.00 [.236] 1.65±0.50 [.065±.020] 2.54±0.25 [.100±.010] 1.30 [.051] P h* (Typical) 2220 t # of leads per side EIA Size Code Size Code L W (max.) H(max.) S P h* (Typical) h* (P/S Type) LL** (min.) t # of leads per side 28 2.54 [.100] 0.50±0.10 [.020±.004] 5.35±0.50 [.210±.020] 6.85 [.270] 3.00 [.118] 1.65±0.50 [.065±.020] 2.54±0.25 [.100±.010] 1.78 [.070] 1.14 [.045] 2.54 [.100] 0.50±0.10 [.020±.004] 5.35±0.50 [.210±.020] 6.85 [.270] 6.00 [.236] 1.65±0.50 [.065±.020] 2.54±0.25 [.100±.010] 1.78 [.070] 1.14 [.045] 2.54 [.100] 0.50±0.10 [.020±.004] 3 3 h* (P/S Type) 2.25±0.1 [.089±.004] 2.25±0.1 [.089±.004] 0.50±0.05 [.020±.002] 0.50±0.05 [.020±.002] 2.54 [.100] 0.50±0.10 [.020±.004] 1 1 2 2 2 2 38 1825 48 58 19 29 2225 39 LL** (min.) 18 49 59 5.35±0.50 [.210±.020] 6.85 [.270] 9.00 [.354] 1.65±0.50 [.065±.020] 2.54±0.25 [.100±.010] 1.78 [.070] 1.14 [.045] 2.54 [.100] 0.50±0.10 [.020±.004] 5.35±0.50 [.210±.020] 6.85 [.270] 12.00 [.472] 1.65±0.50 [.065±.020] 2.54±0.25 [.100±.010] 1.78 [.070] 1.14 [.045] 2.54 [.100] 0.50±0.10 [.020±.004] 5.35±0.50 [.210±.020] 6.85 [.270] 15.00 [.591] 1.65±0.50 [.065±.020] 2.54±0.25 [.100±.010] 1.78 [.070] 1.14 [.045] 2.54 [.100] 0.50±0.10 [.020±.004] 6.35±0.50 [.250±.020] 6.85 [.270] 3.00 [.118] 1.65±0.50 [.065±.020] 2.54±0.25 [.100±.010] 1.78 [.070] 1.14 [.045] 2.54 [.100] 0.50±0.10 [.020±.004] 6.35±0.50 [.250±.020] 6.85 [.270] 6.00 [.236] 1.65±0.50 [.065±.020] 2.54±0.25 [.100±.010] 1.78 [.070] 1.14 [.045] 2.54 [.100] 0.50±0.10 [.020±.004] 6.35±0.50 [.250±.020] 6.85 [.270] 9.00 [.354] 1.65±0.50 [.065±.020] 2.54±0.25 [.100±.010] 1.78 [.070] 1.14 [.045] 2.54 [.100] 0.50±0.10 [.020±.004] 6.35±0.50 [.250±.020] 6.85 [.270] 12.00 [.472] 1.65±0.50 [.065±.020] 2.54±0.25 [.100±.010] 1.78 [.070] 1.14 [.045] 2.54 [.100] 0.50±0.10 [.020±.004] 6.35±0.50 [.250±.020] 6.85 [.270] 15.00 [.591] 1.65±0.50 [.065±.020] 2.54±0.25 [.100±.010] 1.78 [.070] 1.14 [.045] 2.54 [.100] 0.50±0.10 [.020±.004] 3 3 3 3 3 3 3 3 * ‘h’ varies depends on the lead style. See lead configuration above ** “LL” Applies only to Straight (N) leads Capacitance Range EIA Chip Size 1210 15 (1×Cap) 25 (2×Cap) 1812 16 (1×Cap) 26 (2×Cap) 2220 17 (1×Cap) 27 (2×Cap) 18 (1×Cap) 28 (2×Cap) 1825 38 (3×Cap) 48 (4×Cap) 58 (5×Cap) 19 (1×Cap) 29 (2×Cap) 2225 NPO Maximum Capacitance Size Code 39 (3×Cap) 49 (4×Cap) 59 (5×Cap) X7R Maximum Capacitance 50V 100V 200V/250V 500V 1000V 50V 100V 200V/250V 500V 1000V 223 473 833 164 104 224 104 224 334 454 574 134 274 394 524 704 123 253 273 553 523 104 523 104 164 224 274 703 154 224 284 364 682 133 123 253 273 553 273 553 823 124 154 323 653 973 134 174 332 672 572 123 103 223 103 223 333 453 573 163 333 483 653 823 102 222 472 103 822 173 822 163 253 333 423 133 273 423 543 683 475 106 685 136 106 226 106 226 336 456 576 106 226 336 456 576 225 475 225 475 475 106 475 106 156 226 276 475 106 156 226 276 474 105 824 165 105 225 105 225 335 455 575 105 225 335 455 575 104 224 154 304 274 544 274 554 824 125 155 274 554 824 125 155 273 543 683 134 473 104 473 104 154 224 274 473 104 154 224 274 Other Stacked configuration on other sizes, capacitance values and voltages rating are available. Please contact HEC. *Soldering And Handling Precautions: The recommended method for soldering large SMC capacitor, is reflow soldering. Wave soldering and manual soldering with Iron is not recommended. Ceramic capacitors must be preheated with less than 2ºC/sec rate to about 50ºC below the reflow temperature. Sudden increase, or decrease in temperature more than the recommended rate, during soldering, may cause internal thermal cracks. - 73 -