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  • 制造商: AVX
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06035J0R1PBSTR产品简介:

ICGOO电子元器件商城为您提供06035J0R1PBSTR由AVX设计生产,在icgoo商城现货销售,并且可以通过原厂、代理商等渠道进行代购。 06035J0R1PBSTR价格参考。AVX06035J0R1PBSTR封装/规格:薄膜电容器, 0.1pF Thin Film Capacitor 50V 0603 (1608 Metric)。您可以下载06035J0R1PBSTR参考资料、Datasheet数据手册功能说明书,资料中有06035J0R1PBSTR 详细功能的应用电路图电压和使用方法及教程。

产品参数 图文手册 常见问题
参数 数值
产品目录

电容器

描述

CAP THIN FILM 0.1PF 50V 0603

产品分类

薄膜电容器

品牌

AVX Corporation

数据手册

点击此处下载产品Datasheet

产品图片

产品型号

06035J0R1PBSTR

rohs

无铅 / 符合限制有害物质指令(RoHS)规范要求

产品系列

Accu-P®

产品培训模块

http://www.digikey.cn/PTM/IndividualPTM.page?site=cn&lang=zhs&ptm=21795

产品目录绘图

产品目录页面

点击此处下载产品Datasheet

其它名称

478-4437-6

包装

Digi-Reel®

大小/尺寸

0.063" 长 x 0.032" 宽(1.60mm x 0.81mm)

安装类型

表面贴装

容差

±0.02pF

封装/外壳

0603(1608 公制)

工作温度

-55°C ~ 125°C

工具箱

/product-detail/zh/ACCU-P%200603KIT01T/478-4471-ND/1551294

标准包装

1

特性

RF,高 Q 值,低损耗

电压-额定

50V

电容

0.10pF

高度-安装(最大值)

0.029"(0.73mm)

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PDF Datasheet 数据手册内容提取

Accu-P® Thin-Film Technology THE IDEAL CAPACITOR This accuracy sets apart these Thin-Film capacitors from ceramic capacitors so that the term Accu has been The non-ideal characteristics of a real capacitor can be employed as the designation for this series of devices, an ignored at low frequencies. Physical size imparts inductance abbreviation for “accurate.” to the capacitor and dielectric and metal electrodes result in resistive losses, but these often are of negligible effect on the circuit. At the very high frequencies of radio communication THIN-FILM TECHNOLOGY (>100MHz) and satellite systems (>1GHz), these effects Thin-film technology is commonly used in producing semi- become important. Recognizing that a real capacitor will conductor devices. In the last two decades, this technology exhibit inductive and resistive impedances in addition to has developed tremendously, both in performance and in capacitance, the ideal capacitor for these high frequencies is process control. Today’s techniques enable line definitions of an ultra low loss component which can be fully characterized below 1μm, and the controlling of thickness of layers at 100Å in all parameters with total repeatability from unit to unit. (10-2μm). Applying this technology to the manufacture of Until recently, most high frequency/microwave capacitors capacitors has enabled the development of components were based on fired-ceramic (porcelain) technology. Layers where both electrical and physical properties can be tightly of ceramic dielectric material and metal alloy electrode paste controlled. are interleaved and then sintered in a high temperature oven. The thin-film production facilities at AVX consist of: This technology exhibits component variability in dielectric quality (losses, dielectric constant and insulation resistance), • Class 1000 clean rooms, with working areas under variability in electrode conductivity and variability in physical laminar-flow hoods of class 100, (below 100 particles size (affecting inductance). An alternate thin-film technology per cubic foot larger than 0.5μm). has been developed which virtually eliminates these vari- • High vacuum metal deposition systems for high-purity ances. It is this technology which has been fully incorporated electrode construction. into Accu-P® and Accu-P® to provide high frequency capaci- • Photolithography equipment for line definition down to tors exhibiting truly ideal characteristics. 2.0μm accuracy. The main features of Accu-P®may be summarized as follows: • Plasma-enhanced CVD for various dielectric deposi- • High purity of electrodes for very low and repeatable tions (CVD=Chemical Vapor Deposition). ESR. • High accuracy, microprocessor-controlled dicing saws • Highly pure, low-K dielectric for high breakdown field, for chip separation. high insulation resistance and low losses to frequencies • High speed, high accuracy sorting to ensure strict above 40GHz. tolerance adherence. • Very tight dimensional control for uniform inductance, unit to unit. • Very tight capacitance tolerances for high frequency signal applications. Orientation Marking Alumina (AlO) 2 3 Electrode Seal (SiNO) Dielectric (SiO / SiNO) 2 Electrode Alumina (AlO) 2 3 Terminations ACCU-P® CAPACITOR STRUCTURE 6 050118

Accu-P® Thin-Film Chip Capacitors ACCU-P® TECHNOLOGY APPLICATIONS The use of very low-loss dielectric materials, silicon dioxide and Cellular Communications Radar Systems silicon oxynitride, in conjunction with highly conductive elec- CT2/PCN (Cordless Video Switching trode metals results in low ESR and high Q. These Telephone/Personal Comm. Test & Measurements high-frequency characteristics change at a slower rate with Networks) increasing frequency than for ceramic microwave capacitors. Filters Satellite TV Because of the thin-film technology, the above-mentioned VCO's Cable TV frequency characteristics are obtained without significant Matching Networks compromise of properties required for surface mounting. GPS (Global Positioning Systems) RF Amplifiers The main Accu-P®properties are: Vehicle Location Systems • Internationally agreed sizes with excellent dimensional Vehicle Alarm Systems APPROVALS control. Paging • Ultra small size chip capacitors (01005) are available. Military Communications ISO 9001 • Ultra tight capacitance tolerances. • Low ESR at VHF, UHF and microwave frequencies. • Enhanced RF power handling capablity. • High stability with respect to time, temperature, frequency and voltage variation. • Nickel/solder-coated terminations to provide excellent sol- derability and leach resistance. ACCU-P® FEATURES Accu-P® meets the fast-growing demand for low-loss (high-Q) capacitors for use in surface mount technology espe- cially for the mobile communications market, such as cellular radio of 450 and 900 MHz, UHF walkie-talkies, UHF cordless telephones to 2.3 GHz, low noise blocks at 11-12.5 GHz and for other VHF, UHF and microwave applications. Accu-P® is currently unique in its ability to offer very low capacitance values (0.05pF) and very tight capacitance tolerances (±0.01pF). • The RF power handling capability of the Accu-P® allows for its usage in both small signal and RF power applica- tions. • Thin Film Technology guarantees minimal batch to batch variability of parameters at high frequency. • Inspection test and quality control procedures in accor- dance with ISO 9001, CECC, IECQ and USA MIL Standards yield products of the highest quality. • Hand soldering Accu-P®: Due to their construction utilizing relatively high thermal conductivity materials, Accu-P’s have become the preferred device in R & D labs and pro- duction environments where hand soldering is used. 050118 7

Accu-P® Thin-Film Chip Capacitors for RF Signal and Power Applications ACCU-P® (Signal and Power Type Capacitors) 01005* 0201* 0402* 0603* 0805* 1210 0.405±0.020 0.60±0.05 1.00±0.1 1.60±0.1 2.01±0.1 3.02±0.1 L (0.016±0.001) (0.023±0.002) (0.039±0.004) (0.063±0.004) (0.079±0.004) (0.119±0.004) 0.215 ± 0.020 0.325±0.050 0.55±0.07 0.81±0.1 1.27±0.1 2.5±0.1 W (0.0085 ± 0.001) (0.0128±0.002) (0.022±0.003) (0.032±0.004) (0.050±0.004) (0.100±0.004) 0.145 ± 0.020 0.225±0.050 0.40±0.1 0.63±0.1 0.93±0.2 0.93±0.2 T (0.006 ± 0.001) (0.009±0.002) (0.016±0.004) (0.025±0.004) (0.036±0.008) (0.036±0.008) 0.00 + 0 . 1 0.10±0.10 0.00 + 0 .1 0.35±0.15 0.30±0.1 0.43±0.1 B 1 (0.000+- 00 ..0 0 0 4 ) (0.004±0.004) (0.000 +- 0 0. .0004) (0.014±0.006) (0.012±0.004) (0.017±0.004) -0.000 -0.000 0.10 ± 0.03 0.15±0.05 0.20±0.1 0.35±0.15 0.30±0.1 0.43±0.1 B 2 (0.004 ± 0.001) (0.006±0.002) (0.008±0.004) (0.014±0.006) (0.012±0.004) (0.017±0.004) *Mount Black Side Up DIMENSIONS: millimeters (inches) HOW TO ORDER 0402 3 J 4R7 A B S TR \500 Size Voltage Temperature Capacitance Tolerance Specification Termination Packaging Option C005 2 = 200V Coefficient (1) Capacitance for Code Code Code 0201 1 = 1 0 0 V J = 0±30ppm/°C expressed in pF. C≤2.0pF* B = Accu-P® W = Nickel/Solder Coated TR = Tape & Reel 0402 5 = 50V (-55°C to (2 significant Z = ±0.01pF technology Accu-P®0402 Sn90, 0603 3 = 25V +125°C) digits + number P = ±0.02pF Pb10*** 0805 Y = 16V K = 0±60ppm/°C of zeros) Q = ±0.03pF T = Nickel/High Temperature 1210* Z = 10V (-55°C to for values <10pF, A = ±0.05pF Solder Coated +125°C) letter R denotes B = ±0.1pF Accu-P®0805**, 1210** decimal point. C = ±0.25pF Sn96, Ag4 Example: for C≤3.0pF Nickel/Solder Coated 68pF = 680 Q = ±0.03pF Accu-P®0603*** 8.2pF = 8R2 A = ±0.05pF Sn63, Pb37 B = ±0.1pF **S = Nickel/Lead Free The following 3 digit capacitance codes should C = ±0.25pF Solder Coated be used for ordering AVX Accu-P®capacitors for C≤5.6pF Accu-P®01005, 0201, A = ±0.05pF 0402, 0603 CAPACITANCE EXAMPLE B = ±0.1pF Sn100 CODE C = ±0.25pF 0.00 to 0.99pF Rxx 0.15pF = 04023JR15ABSTR **RoHS compliant 1.00 to 1.99pF Axx 1.55pF = 04023JA55PBSTR for 5.6pF<C<10pF *** Not RoHS Compliant 2.00 to 2.99pF Bxx 2.85pF = .....B85... B = ±0.1pF 3.00 to 3.99pF Cxx 3.85pF = .....C85... C = ±0.25pF 4.00 to 4.99pF Dxx 4.85pF = .....D85... D = ±0.5pF 5.00 to 5.99pF Exx 5.85pF = .....E85... for C≥10pF 6.00 to 6.99pF Fxx 6.85pF = .....F85... F = ±1% 7.00 to 7.99pF Gxx 7.85pF = .....G85... G = ±2% 8.00 to 8.99pF Hxx 8.85pF = .....H85... J = ±5% 9.00 to 9.99pF Jxx 9.85pF = .....J85... LEAD-FREE COMPATIBLE 10.0 to 19.9pF Kxx 13.8pF = ....K38... COMPONENT 20.0 to 29.9pF Lxx 22.5pF = ....L25... For RoHS compliant products, 30.0 to 39.9pF Mxx 33.8pF = ....M38... please select correct termination style. 40.0 to 49.9pF Nxx 43.5pF = ....N35... (1)TC’s shown are per EIA/IEC Specifications. Engineering Kits Available * Tolerances as tight as ±0.01pF are available. see pages 118-119 Please consult the factory. ELECTRICAL SPECIFICATIONS Operating and Storage Temperature Range -55°C to +125°C Temperature Coefficients(1) 0 ± 30ppm/°C dielectric code “J” / 0 ± 60ppm/°C dielectric code “K” Capacitance Measurement 1 MHz, 1 Vrms Insulation Resistance (IR) ≥1011Ohms (≥1010Ohms for 0201 and 0402 size) Proof Voltage 2.5 U for 5 secs. R Aging Characteristic Zero Dielectric Absorption 0.01% 8 050118

Accu-P® Signal and Power Type Capacitors Accu-P® Capacitance Ranges (pF) TEMP. COEFFICIENT CODE “J” = 0±30ppm/°C (-55°C to+125°C)(2) “K” = 0±60ppm/°C (-55°C to+125°C)(2) Size Size Code C005 0201 0402 0603 0805 1210 Voltage 16 100 50 25 16 10 200 100 50 25 16 10 200 100 50 25 100 50 25 100 50 Cap in Cap pF(1) code 0.1 — 0R1 0.2 — 0R2 0.3 — 0R3 0.4 — 0R4 0.5 — 0R5 0.6 — 0R6 0.7 — 0R7 0.8 — 0R8 0.9 — 0R9 1.0 — 1R0 1.1 — 1R1 1.2 — 1R2 1.3 — 1R3 1.4 — 1R4 1.5 — 1R5 1.6 — 1R6 1.7 — 1R7 1.8 — 1R8 1.9 — 1R9 2.0 — 2R0 2.1 — 2R1 2.2 — 2R2 2.3 — 2R3 2.4 — 2R4 2.5 — 2R5 2.6 — 2R6 2.7 — 2R7 2.8 — 2R8 2.9 — 2R9 3.0 — 3R0 3.1 — 3R1 3.2 — 3R2 3.3 — 3R3 3.4 — 3R4 3.5 — 3R5 3.6 — 3R6 3.7 — 3R7 3.8 — 3R8 3.9 — 3R9 4.0 — 4R0 4.1 — 4R1 4.2 — 4R2 4.3 — 4R3 4.4 — 4R4 4.5 — 4R5 4.6 — 4R6 4.7 — 4R7 5.1 — 5R1 5.6 — 5R6 6.2 — 6R2 6.8 — 6R8 7.5 — 7R5 8.2 — 8R2 9.1 — 9R1 10.0 — 100 11.0 — 110 12.0 — 120 13.0 — 130 14.0 — 140 15.0 — 150 16.0 — 160 17.0 — 170 18.0 — 180 19.0 — 190 20.0 — 200 21.0 — 210 22.0 — 220 24.0 — 240 27.0 — 270 30.0 — 300 33.0 — 330 39.0 — 390 47.0 — 470 56.0 — 560 68.0 — 680 (1)For capacitance values higher than listed in table, please consult factory. (2)TC shown is per EIA/IEC Specifications. These values are produced with “K” temperature coefficient code only. Intermediate values are available within the indicated range. 050118 9

Accu-P® 0201 Typical Electrical Tables Capacitance Self Q Standard Value Frequency Frequency Frequency @ 1MHz Resonance @ 1GHz 900MHz 1900MHz 2400MHz and Tolerance Frequency (GHz) C(eff) Q ESR C(eff) Q ESR C(eff) Q ESR C (pF) Tol. Typ. Min. Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. 0.05 ±0.02 20.9 599 402 0.055 650 3220 0.056 265 4010 0.057 195 4450 0.1 ±0.02 19.4 574 316 0.110 614 2682 0.112 246 3036 0.113 188 3113 0.15 ±0.02 17.9 510 280 0.163 550 2087 0.166 220 2404 0.168 170 2441 0.2 ±0.02 16.4 445 245 0.216 520 1693 0.220 210 1971 0.223 160 1970 0.25 ±0.02 15.5 436 240 0.262 510 1371 0.268 204 1604 0.272 153 1646 0.3 ±0.02 14.6 427 235 0.309 500 1149 0.316 199 1337 0.320 146 1421 0.35 ±0.02 14.1 423 232 0.360 494 1001 0.369 196 1177 0.374 144 1265 0.4 ±0.02 12.5 418 230 0.411 489 874 0.421 193 1038 0.427 142 1129 0.45 ±0.02 11.9 413 227 0.461 484 819 0.473 191 972 0.481 140 1066 0.5 ±0.02 11.3 408 224 0.512 478 765 0.526 188 906 0.535 138 1003 0.55 ±0.02 10.9 403 222 0.563 473 710 0.578 186 840 0.588 137 940 0.6 ±0.02 10.4 398 219 0.614 468 667 0.631 183 791 0.642 135 882 0.65 ±0.02 10.0 394 217 0.664 462 624 0.683 181 742 0.695 133 825 0.7 ±0.02 9.5 389 214 0.715 457 580 0.735 178 693 0.749 131 767 0.75 ±0.02 9.3 384 211 0.766 452 557 0.788 176 664 0.802 129 729 0.8 ±0.02 9.1 379 209 0.817 446 534 0.840 173 635 0.856 127 692 0.85 ±0.02 8.9 374 206 0.868 441 511 0.893 171 606 0.909 126 654 0.9 ±0.02 8.8 370 203 0.918 436 487 0.945 168 577 0.963 124 616 0.95 ±0.02 8.6 365 201 0.969 430 464 0.998 166 548 1.016 122 579 1 ±0.02 8.4 360 198 1.020 425 441 1.050 163 519 1.070 120 541 1.05 ±0.02 8.2 358 197 1.078 421 426 1.112 161 502 1.134 119 523 1.1 ±0.02 8.0 355 195 1.135 418 410 1.173 159 486 1.199 117 505 1.15 ±0.02 7.8 353 194 1.193 414 395 1.235 157 469 1.263 116 488 1.2 ±0.02 7.6 350 193 1.251 411 379 1.296 155 452 1.327 115 470 1.25 ±0.02 7.5 348 191 1.308 407 364 1.358 153 436 1.392 114 452 1.3 ±0.02 7.4 345 190 1.366 403 348 1.419 151 419 1.456 112 434 1.35 ±0.02 7.3 343 189 1.424 400 333 1.481 149 402 1.520 111 416 1.4 ±0.02 7.2 340 187 1.481 396 317 1.542 147 386 1.585 110 398 1.45 ±0.02 7.1 338 186 1.539 393 302 1.604 145 369 1.649 109 381 1.5 ±0.02 7.0 335 184 1.597 389 287 1.665 144 353 1.713 107 363 1.55 ±0.02 6.8 332 183 1.642 386 282 1.714 142 347 1.764 106 358 1.6 ±0.02 6.7 330 181 1.687 382 277 1.762 141 342 1.815 105 352 1.65 ±0.02 6.6 327 180 1.732 378 272 1.810 140 337 1.866 104 347 1.7 ±0.02 6.5 324 178 1.777 375 267 1.859 138 331 1.917 103 342 1.75 ±0.02 6.4 321 176 1.822 371 262 1.907 137 326 1.968 102 337 1.8 ±0.02 6.3 318 175 1.866 367 257 1.955 136 321 2.018 101 331 1.85 ±0.02 6.2 315 173 1.911 364 252 2.003 134 316 2.069 100 326 1.9 ±0.02 6.2 312 172 1.956 360 247 2.052 133 310 2.120 99 321 1.95 ±0.02 6.1 309 170 2.001 357 242 2.100 132 305 2.171 98 316 2 ±0.03 6.0 306 168 2.046 353 237 2.148 131 300 2.222 97 310 2.1 ±0.03 5.9 301 166 2.150 348 232 2.263 128 293 2.344 95 303 2.2 ±0.03 5.7 296 163 2.254 343 227 2.377 125 287 2.467 93 296 2.3 ±0.03 5.6 292 160 2.358 337 222 2.491 122 281 2.590 91 289 2.4 ±0.03 5.5 287 158 2.462 332 217 2.606 120 274 2.712 89 282 2.5 ±0.03 5.4 282 155 2.566 327 212 2.720 117 268 2.835 87 275 2.6 ±0.03 5.3 277 152 2.670 322 207 2.834 114 262 2.958 85 268 2.7 ±0.03 5.2 272 150 2.773 317 202 2.949 112 255 3.080 83 261 2.8 ±0.03 5.1 269 148 2.878 312 199 3.066 110 252 3.209 81 258 2.9 ±0.03 5.0 265 146 2.983 308 196 3.184 108 248 3.337 80 254 3 ±0.03 4.9 261 144 3.088 304 193 3.301 106 245 3.465 78 251 3.1 ±0.05 4.8 257 141 3.192 299 190 3.419 105 241 3.593 77 247 3.2 ±0.05 4.7 253 139 3.297 295 187 3.536 103 238 3.722 76 244 3.3 ±0.05 4.6 250 137 3.402 291 185 3.654 101 234 3.850 74 240 3.4 ±0.05 4.6 246 135 3.506 286 182 3.771 99 231 3.978 73 237 3.5 ±0.05 4.5 242 133 3.611 282 179 3.889 98 227 4.107 71 233 3.6 ±0.05 4.5 238 131 3.716 278 176 4.006 96 224 4.235 70 230 3.7 ±0.05 4.4 234 129 3.820 273 173 4.124 94 220 4.363 69 226 3.8 ±0.05 4.4 230 127 3.925 269 170 4.241 92 217 4.492 67 223 3.9 ±0.05 4.3 227 125 4.030 265 167 4.359 91 213 4.620 66 219 10 050118

Accu-P® 0201 Typical Electrical Tables Capacitance Self Q Standard Value Frequency Frequency Frequency @ 1MHz Tesonance @ 1GHz 900MHz 1900MHz 2400MHz and Tolerance Frequency (GHz) C(eff) Q ESR C(eff) Q ESR C(eff) Q ESR C (pF) Tol. Typ. Min. Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. 4 ±0.05 4.3 224 123 4.138 262 165 4.484 89 210 4.760 65 216 4.1 ±0.05 4.2 222 122 4.247 259 162 4.610 88 207 4.901 64 213 4.2 ±0.05 4.2 220 121 4.356 257 159 4.735 87 204 5.041 63 210 4.3 ±0.05 4.1 218 120 4.464 254 157 4.860 86 201 5.181 62 207 4.4 ±0.05 4.1 216 119 4.573 252 154 4.986 85 198 5.322 61 204 4.5 ±0.05 4.0 214 118 4.682 249 152 5.111 83 195 5.462 60 201 4.6 ±0.05 4.0 212 116 4.790 246 149 5.237 82 192 5.602 59 198 4.7 ±0.05 3.9 209 115 4.899 244 147 5.362 81 189 5.743 58 195 5.1 ±0.05 3.8 201 110 5.334 233 136 5.863 76 178 6.304 54 183 5.6 ±0.05 3.6 190 105 5.877 220 124 6.490 70 163 7.006 49 168 6.2 ±0.1 3.5 177 97 6.488 208 126 7.290 65 167 7.993 45 174 6.8 ±0.1 3.3 164 90 7.100 195 128 8.090 60 171 8.980 41 179 7.5 ±0.1 3.2 153 84 7.901 182 125 9.129 56 166 10.27 38 173 8.2 ±0.1 3.0 142 78 8.701 168 121 10.17 52 160 11.56 34 167 9.1 ±0.1 2.9 135 74 9.676 159 118 11.57 49 154 13.49 32 161 10 ±1% 2.8 128 70 10.65 151 114 12.96 45 148 15.41 29 155 11 ±1% 2.7 120 66 11.73 141 110 14.52 42 142 17.55 27 148 12 ±1% 2.5 112 62 12.82 132 105 16.07 39 135 19.68 24 141 13 ±1% 2.4 105 58 13.92 124 104 17.82 36 135 22.38 22 142 14 ±1% 2.4 98 54 15.02 116 103 19.57 32 135 25.08 19 142 15 ±1% 2.3 91 50 16.12 108 102 21.32 29 135 27.78 17 143 16 ±1% 2.2 86 47 17.37 102 103 24.04 27 135 NA NA NA 17 ±1% 2.2 81 44 18.63 96 105 26.76 25 136 NA NA NA 18 ±1% 2.1 76 42 19.88 90 106 29.48 23 136 NA NA NA 19 ±1% 2.1 71 39 21.14 83 108 32.20 21 136 NA NA NA 20 ±1% 2.1 65 36 22.39 77 109 34.92 19 136 NA NA NA 22 ±1% 2.0 55 30 24.90 65 112 40.36 15 137 NA NA NA 050118 11

Accu-P® 0402 Typical Electrical Tables Capacitance Self Q Standard Value Frequency Frequency Frequency @ 1MHz Resonance @ 1GHz 900MHz 1900MHz 2400MHz and Tolerance Frequency (GHz) C(eff) Q ESR C(eff) Q ESR C(eff) Q ESR C (pF) Tol. Typ. Min. Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. 0.05 ±0.02 20.9 856 471 0.06 881 1411 0.06 562 1216 0.06 498 983 0.1 ±0.02 19.4 848 466 0.11 873 1316 0.11 554 1115 0.11 490 914 0.15 ±0.02 17.9 840 462 0.16 866 1222 0.16 547 1013 0.16 482 845 0.2 ±0.02 16.4 832 457 0.21 858 1128 0.21 539 912 0.22 474 776 0.25 ±0.02 15.5 823 453 0.26 850 1033 0.27 532 810 0.27 465 707 0.3 ±0.02 14.6 815 448 0.31 842 939 0.32 525 708 0.32 457 638 0.35 ±0.02 14.1 807 444 0.36 834 844 0.37 517 607 0.37 449 569 0.4 ±0.02 12.5 799 439 0.41 827 750 0.42 510 505 0.42 441 500 0.45 ±0.02 11.9 791 435 0.46 819 667 0.47 502 458 0.48 432 453 0.5 ±0.02 11.3 783 430 0.51 811 583 0.52 495 410 0.53 424 407 0.55 ±0.02 10.9 774 426 0.57 803 500 0.57 487 363 0.58 416 360 0.6 ±0.02 10.4 766 421 0.62 796 465 0.62 480 343 0.63 408 339 0.65 ±0.02 10.0 758 417 0.67 788 431 0.67 472 322 0.68 399 317 0.7 ±0.02 9.5 750 413 0.72 780 396 0.72 465 302 0.73 391 296 0.75 ±0.02 9.3 746 410 0.77 776 375 0.78 456 290 0.79 381 285 0.8 ±0.02 9.1 743 408 0.82 772 354 0.83 447 277 0.84 370 273 0.85 ±0.02 9.0 739 406 0.87 768 334 0.88 438 265 0.89 360 262 0.9 ±0.02 8.8 735 404 0.92 764 313 0.93 429 253 0.95 350 250 0.95 ±0.02 8.4 732 402 0.97 760 292 0.98 420 240 1.00 339 239 1 ±0.02 8.0 728 400 1.02 756 271 1.04 411 228 1.05 329 227 1.05 ±0.02 7.9 725 398 1.07 752 258 1.09 406 221 1.11 323 221 1.1 ±0.02 7.8 721 397 1.12 749 245 1.14 401 214 1.16 318 214 1.15 ±0.02 7.6 718 395 1.17 745 232 1.20 396 207 1.22 312 208 1.2 ±0.02 7.4 714 393 1.22 742 218 1.25 391 200 1.27 306 202 1.25 ±0.02 7.2 711 391 1.27 738 205 1.31 386 193 1.32 301 195 1.3 ±0.02 7.0 707 389 1.32 734 192 1.36 381 185 1.38 295 189 1.35 ±0.02 6.9 704 387 1.37 731 179 1.41 376 178 1.43 289 183 1.4 ±0.02 6.8 700 385 1.42 727 165 1.47 371 171 1.49 283 177 1.45 ±0.02 6.7 697 383 1.47 724 152 1.52 366 164 1.54 278 170 1.5 ±0.02 6.5 693 381 1.52 720 139 1.58 361 157 1.60 272 164 1.55 ±0.02 6.5 690 379 1.56 716 135 1.62 358 153 1.65 269 159 1.6 ±0.02 6.5 686 377 1.61 713 130 1.67 355 148 1.70 267 155 1.65 ±0.02 6.5 683 375 1.66 709 126 1.72 352 143 1.76 264 150 1.7 ±0.02 6.4 679 373 1.71 705 122 1.77 349 139 1.81 261 146 1.75 ±0.02 6.3 676 372 1.75 702 118 1.82 347 134 1.86 259 141 1.8 ±0.02 6.2 672 370 1.80 698 113 1.87 344 130 1.92 256 137 1.85 ±0.02 6.1 669 368 1.85 694 109 1.92 341 125 1.97 253 132 1.9 ±0.02 6.0 665 366 1.90 690 105 1.97 338 121 2.02 251 128 1.95 ±0.02 5.9 662 364 1.94 687 101 2.01 335 116 2.08 248 123 2 ±0.03 5.7 658 362 1.99 683 96 2.06 332 112 2.13 245 119 2.1 ±0.03 5.4 651 358 2.10 676 93 2.18 326 108 2.26 241 115 2.2 ±0.03 5.1 643 354 2.21 669 89 2.30 321 104 2.38 236 112 2.3 ±0.03 5.0 636 350 2.31 662 85 2.42 315 101 2.51 231 109 2.4 ±0.03 4.9 629 346 2.42 656 81 2.54 309 97 2.64 226 106 2.5 ±0.03 4.7 622 342 2.53 649 77 2.65 303 94 2.76 221 102 2.6 ±0.03 4.6 614 338 2.64 642 74 2.77 298 90 2.89 216 99 2.7 ±0.03 4.5 607 334 2.75 635 70 2.89 292 86 3.02 211 96 2.8 ±0.03 4.5 600 330 2.85 628 68 3.01 288 83 3.15 207 92 2.9 ±0.03 4.4 592 326 2.95 621 66 3.13 283 80 3.28 203 88 3 ±0.03 4.4 585 322 3.06 614 64 3.24 279 76 3.41 200 84 3.1 ±0.05 4.4 578 318 3.16 607 62 3.36 274 73 3.54 196 80 3.2 ±0.05 4.3 570 314 3.27 600 60 3.48 270 70 3.67 192 76 3.3 ±0.05 4.3 563 310 3.37 593 58 3.60 265 67 3.80 188 72 3.4 ±0.05 4.3 556 306 3.47 586 57 3.71 261 63 3.93 184 68 3.5 ±0.05 4.2 548 302 3.58 579 55 3.83 256 60 4.06 180 64 3.6 ±0.05 4.2 541 298 3.68 572 53 3.95 252 57 4.19 177 60 3.7 ±0.05 4.1 534 294 3.78 565 51 4.06 247 54 4.32 173 56 3.8 ±0.05 4.0 526 289 3.89 558 49 4.18 243 50 4.45 169 52 3.9 ±0.05 3.9 519 285 3.99 551 47 4.30 238 47 4.58 165 48 12 050118

Accu-P® 0402 Typical Electrical Tables Capacitance Self Q Standard Value Frequency Frequency Frequency @ 1MHz Resonance @ 1GHz 900MHz 1900MHz 2400MHz and Tolerance Frequency (GHz) C(eff) Q ESR C(eff) Q ESR C(eff) Q ESR C (pF) Tol. Typ. Min. Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. 4 ±0.05 3.9 513 282 4.10 545 47 4.42 235 47 4.73 162 48 4.1 ±0.05 3.8 507 279 4.20 539 47 4.55 232 46 4.87 160 48 4.2 ±0.05 3.8 501 275 4.30 534 46 4.67 228 46 5.01 157 48 4.3 ±0.05 3.7 495 272 4.41 528 46 4.79 225 46 5.16 154 48 4.4 ±0.05 3.7 489 269 4.51 522 46 4.92 222 46 5.30 151 47 4.5 ±0.05 3.6 483 265 4.61 516 46 5.04 219 45 5.44 149 47 4.6 ±0.05 3.6 477 262 4.72 511 45 5.16 216 45 5.59 146 47 4.7 ±0.05 3.5 471 259 4.82 505 45 5.29 213 45 5.73 143 47 5.1 ±0.05 3.4 446 245 5.23 482 44 5.78 200 43 6.30 133 47 5.6 ±0.05 3.3 416 229 5.75 453 43 6.40 184 42 7.02 119 46 6.2 ±0.1 3.0 388 213 6.41 427 44 7.26 167 44 8.11 107 47 6.8 ±0.1 2.8 360 198 7.07 400 44 8.12 150 45 9.19 95 48 7.5 ±0.1 2.7 338 186 7.85 378 45 9.17 139 47 10.57 86 49 8.2 ±0.1 2.6 315 173 8.62 356 45 10.22 128 48 11.95 77 50 9.1 ±0.1 2.5 292 160 9.63 333 45 11.75 115 47 14.23 69 50 10 ±1% 2.4 268 148 10.65 310 45 13.28 103 47 16.50 61 49 11 ±1% 2.3 242 133 11.77 285 44 14.98 89 46 19.04 51 49 12 ±1% 2.2 217 119 12.90 259 44 16.68 75 45 21.57 42 48 13 ±1% 2.2 202 111 14.03 241 44 18.83 68 47 25.73 38 49 14 ±1% 2.1 187 103 15.17 223 44 20.97 62 49 29.89 33 49 15 ±1% 2.1 172 94 16.30 204 45 23.12 56 51 34.05 29 50 16 ±1% 2.0 157 87 17.53 187 44 25.91 50 49 41.44 25 49 17 ±1% 1.9 143 79 18.75 169 43 28.70 45 46 48.82 21 47 18 ±1% 1.8 129 71 19.98 152 42 31.49 39 44 56.21 17 46 19 ±1% 1.8 121 67 21.11 143 42 33.51 36 44 60.92 15 47 20 ±1% 1.8 110 61 22.25 131 41 35.53 33 43 65.63 14 48 22 ±1% 1.8 98 54 24.51 116 41 39.57 26 42 75.05 10 51 24 ±1% 1.8 87 48 27.51 104 37 54.94 21 35 NA NA NA 27 ±1% 1.7 70 39 32.01 85 32 77.98 13 23 NA NA NA 30 ±1% 1.7 65 36 35.89 78 28 106.50 10 12 NA NA NA 33 ±1% 1.7 60 33 40.05 74 27 NA NA NA NA NA NA 36 ±1% 1.7 58 32 45.13 71 28 NA NA NA NA NA NA 39 ±1% 1.7 56 31 50.21 69 28 NA NA NA NA NA NA 43 ±1% 1.6 53 29 56.98 66 29 NA NA NA NA NA NA 47 ±1% 1.6 50 28 63.75 63 30 NA NA NA NA NA NA 51 ±1% 1.6 48 26 70.53 60 31 NA NA NA NA NA NA 56 ±1% 1.6 44 24 78.99 56 33 NA NA NA NA NA NA 58 ±1% 1.6 42 23 83.54 54 34 NA NA NA NA NA NA 68 ±1% 1.6 32 18 106.28 42 40 NA NA NA NA NA NA 050118 13

Accu-P® 0603 Typical Electrical Tables Capacitance Self Q Standard Value Frequency Frequency Frequency @ 1MHz Resonance @ 1GHz 900MHz 1900MHz 2400MHz and Tolerance Frequency (GHz) C(eff) Q ESR C(eff) Q ESR C(eff) Q ESR C (pF) Tol. Typ. Min. Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. 0.05 ±0.02 25.6 1200 660 0.06 1333 945 0.06 556 832 0.06 397 880 0.1 ±0.02 18.1 1156 636 0.11 1284 675 0.11 535 628 0.11 382 667 0.15 ±0.02 14.8 1111 611 0.16 1235 555 0.16 514 533 0.16 367 567 0.2 ±0.02 12.8 1067 587 0.21 1185 483 0.21 494 474 0.22 353 505 0.25 ±0.02 11.4 1022 562 0.26 1136 433 0.27 473 433 0.27 338 462 0.3 ±0.02 10.4 978 538 0.31 1086 397 0.32 453 402 0.32 323 430 0.35 ±0.02 9.7 933 513 0.36 1037 368 0.37 432 378 0.37 309 404 0.4 ±0.02 9.0 889 489 0.41 988 345 0.42 412 358 0.42 294 383 0.45 ±0.02 8.5 844 464 0.46 938 326 0.47 391 341 0.48 279 365 0.5 ±0.02 8.1 800 440 0.51 889 310 0.52 370 327 0.53 265 350 0.55 ±0.02 7.7 788 434 0.57 875 296 0.57 363 315 0.58 261 337 0.6 ±0.02 7.4 777 427 0.62 860 283 0.62 356 304 0.63 258 326 0.65 ±0.02 7.1 765 421 0.67 846 273 0.67 348 294 0.68 255 315 0.7 ±0.02 6.8 754 414 0.72 832 263 0.72 341 285 0.73 252 306 0.75 ±0.02 6.6 742 408 0.77 817 254 0.78 334 277 0.79 248 298 0.8 ±0.02 6.4 730 402 0.82 803 247 0.83 326 270 0.84 245 290 0.85 ±0.02 6.2 719 395 0.87 789 239 0.88 319 264 0.89 242 283 0.9 ±0.02 6.0 707 389 0.92 775 233 0.93 312 258 0.95 239 277 0.95 ±0.02 5.9 696 383 0.97 760 227 0.98 304 252 1.00 235 271 1 ±0.02 5.7 684 376 1.019 746 216 1.061 297 242 1.101 232 260 1.05 ±0.02 5.6 667 367 1.076 731 213 1.126 290 239 1.171 226 256 1.1 ±0.02 5.4 649 357 1.134 717 210 1.190 282 236 1.241 220 253 1.15 ±0.02 5.3 632 347 1.192 702 206 1.254 275 233 1.311 214 250 1.2 ±0.02 5.2 614 338 1.250 687 203 1.318 267 230 1.381 209 247 1.25 ±0.02 5.1 605 333 1.307 677 200 1.382 262 227 1.451 203 244 1.3 ±0.02 5.0 596 328 1.365 667 197 1.446 257 224 1.521 197 241 1.35 ±0.02 4.9 587 323 1.423 658 194 1.511 252 221 1.591 191 238 1.4 ±0.02 4.8 578 318 1.481 648 190 1.575 247 218 1.661 185 235 1.45 ±0.02 4.8 569 313 1.538 638 187 1.639 242 215 1.731 179 232 1.5 ±0.02 4.7 560 308 1.596 628 184 1.703 237 212 1.801 173 229 1.55 ±0.02 4.6 551 303 1.645 620 181 1.760 233 209 1.866 170 226 1.6 ±0.02 4.5 542 298 1.694 611 178 1.817 228 206 1.930 166 222 1.65 ±0.02 4.5 534 293 1.743 603 175 1.874 224 203 1.995 163 219 1.7 ±0.02 4.4 525 289 1.792 595 172 1.931 219 200 2.060 159 216 1.75 ±0.02 4.3 516 284 1.841 587 169 1.988 215 197 2.124 156 213 1.8 ±0.02 4.2 507 279 1.890 578 166 2.045 211 194 2.189 153 209 1.85 ±0.02 4.2 498 274 1.939 570 163 2.102 206 191 2.253 149 206 1.9 ±0.02 4.1 490 269 1.988 562 160 2.158 202 188 2.318 146 203 1.95 ±0.02 4.1 481 264 2.037 553 157 2.215 197 185 2.383 142 199 2 ±0.03 4.0 472 260 2.086 545 154 2.272 193 182 2.447 139 196 2.1 ±0.03 3.9 462 254 2.190 535 151 2.402 187 180 2.604 134 193 2.2 ±0.03 3.8 452 249 2.295 524 148 2.532 181 177 2.761 129 191 2.3 ±0.03 3.8 442 243 2.400 514 145 2.662 175 175 2.917 124 188 2.4 ±0.03 3.7 433 238 2.504 503 143 2.793 168 172 3.074 118 186 2.5 ±0.03 3.6 423 232 2.609 493 140 2.923 162 170 3.230 113 183 2.6 ±0.03 3.6 413 227 2.714 482 137 3.053 156 167 3.387 108 181 2.7 ±0.03 3.5 403 222 2.818 472 134 3.183 150 165 3.543 103 178 2.8 ±0.03 3.4 395 217 2.933 463 133 3.336 147 164 3.742 100 177 2.9 ±0.03 3.4 388 213 3.047 453 131 3.489 144 162 3.940 97 175 3 ±0.03 3.3 380 209 3.162 444 130 3.642 140 161 4.139 95 174 3.1 ±0.05 3.2 372 205 3.276 435 129 3.795 137 160 4.337 92 172 3.2 ±0.05 3.2 365 201 3.391 425 127 3.947 134 159 4.536 89 171 3.3 ±0.05 3.1 357 196 3.506 416 126 4.100 131 157 4.734 86 169 3.4 ±0.05 3.1 349 192 3.620 407 125 4.253 128 156 4.933 84 168 3.5 ±0.05 3.1 342 188 3.735 397 123 4.406 125 155 5.131 81 166 3.6 ±0.05 3.0 334 184 3.849 388 122 4.559 121 154 5.330 78 165 3.7 ±0.05 3.0 326 179 3.964 379 121 4.712 118 152 5.528 75 164 3.8 ±0.05 3.0 318 175 4.078 369 119 4.865 115 151 5.727 73 162 3.9 ±0.05 2.9 311 171 4.193 360 118 5.018 112 150 5.925 70 161 14 050118

Accu-P® 0603 Typical Electrical Tables Capacitance Self Q Standard Value Frequency Frequency Frequency @ 1MHz Resonance @ 1GHz 900MHz 1900MHz 2400MHz and Tolerance Frequency (GHz) C(eff) Q ESR C(eff) Q ESR C(eff) Q ESR C (pF) Tol. Typ. Min. Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. 4 ±0.05 2.9 307 169 4.301 355 117 5.188 110 149 6.188 68 160 4.1 ±0.05 2.8 303 167 4.410 351 116 5.358 108 148 6.450 67 159 4.2 ±0.05 2.8 299 164 4.518 347 116 5.528 106 148 6.713 65 158 4.3 ±0.05 2.7 295 162 4.627 342 115 5.698 104 147 6.975 64 157 4.4 ±0.05 2.7 291 160 4.735 338 114 5.867 102 146 7.238 62 157 4.5 ±0.05 2.7 287 158 4.843 333 113 6.037 100 146 7.500 61 156 4.6 ±0.05 2.6 283 156 4.952 329 112 6.207 98 145 7.763 59 155 4.7 ±0.05 2.6 279 154 5.060 324 112 6.377 96 144 8.025 58 154 5.1 ±0.05 2.5 263 145 5.494 307 109 7.057 88 142 9.075 52 151 5.6 ±0.05 2.4 244 134 6.035 285 105 7.906 78 138 10.39 44 147 6.2 ±0.1 2.3 228 126 6.865 267 102 9.517 72 133 13.66 40 141 6.8 ±0.1 2.2 213 117 7.694 250 100 11.13 66 128 16.93 35 135 7.5 ±0.1 2.1 195 107 8.367 227 98 12.63 57 125 20.91 28 132 8.2 ±0.1 2.0 176 97 9.041 205 96 14.14 49 123 24.88 21 129 9.1 ±0.1 1.9 161 89 10.20 188 96 18.09 42 122 40.00 16 128 10 ±1% 1.8 146 80 11.37 171 95 22.05 36 121 70.00 12 127 11 ±1% 1.7 129 71 12.66 153 95 26.44 29 120 140.0 6 126 12 ±1% 1.6 112 62 13.95 134 94 30.83 22 119 231.3 1 125 13 ±1% 1.6 102 56 15.31 122 93 40.37 18 118 n/a n/a n/a 14 ±1% 1.5 92 51 16.67 111 92 49.91 15 118 n/a n/a n/a 15 ±1% 1.5 82 45 18.03 99 90 59.44 11 117 n/a n/a n/a 16 ±1% 1.4 79 43 19.61 96 90 80.00 8 117 n/a n/a n/a 17 ±1% 1.4 76 42 21.18 92 90 120.0 6 116 n/a n/a n/a 18 ±1% 1.3 73 40 22.76 89 90 190.0 4 116 n/a n/a n/a 19 ±1% 1.3 69 38 24.37 84 89 n/a n/a n/a n/a n/a n/a 20 ±1% 1.2 65 36 25.98 80 89 n/a n/a n/a n/a n/a n/a 22 ±1% 1.2 57 31 29.21 72 87 n/a n/a n/a n/a n/a n/a 24 ±1% 1.2 48 26 34.44 62 87 n/a n/a n/a n/a n/a n/a 27 ±1% 1.1 43 24 41.87 56 86 n/a n/a n/a n/a n/a n/a 30 ±1% 1.0 37 21 49.29 49 85 n/a n/a n/a n/a n/a n/a 33 ±1% 1.0 32 18 56.72 43 84 n/a n/a n/a n/a n/a n/a 36 ±1% 1.0 27 15 64.15 37 83 n/a n/a n/a n/a n/a n/a 39 ±1% 1.0 21 12 71.57 30 82 n/a n/a n/a n/a n/a n/a 050118 15

Accu-P® 0805 Typical Electrical Tables Capacitance Self Q Standard Value Frequency Frequency Frequency @ 1MHz Resonance @ 1GHz 900MHz 1900MHz 2400MHz and Tolerance Frequency (GHz) C(eff) Q ESR C(eff) Q ESR C(eff) Q ESR C (pF) Tol. Typ. Min. Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. 0.1 ±0.02 17.2 880 484 0.125 890 3296 0.125 545 2417 0.126 447 2265 0.15 ±0.02 14.1 872 480 0.176 885 2073 0.178 530 1626 0.181 434 1546 0.2 ±0.02 12.3 864 475 0.228 880 1492 0.231 516 1227 0.235 420 1178 0.25 ±0.02 11.0 857 471 0.279 874 1156 0.284 501 986 0.290 407 955 0.3 ±0.02 10.1 849 467 0.331 869 938 0.337 487 825 0.344 394 804 0.35 ±0.02 9.4 841 462 0.382 864 787 0.390 472 710 0.399 380 695 0.4 ±0.02 8.8 833 458 0.433 859 675 0.443 458 623 0.453 367 613 0.45 ±0.02 8.3 825 454 0.485 853 590 0.496 443 555 0.508 353 549 0.5 ±0.02 7.9 817 450 0.536 848 523 0.549 429 501 0.562 340 497 0.55 ±0.02 7.5 811 446 0.584 843 469 0.600 420 456 0.616 331 454 0.6 ±0.02 7.2 805 443 0.631 838 425 0.651 411 419 0.670 322 418 0.65 ±0.02 6.9 798 439 0.679 834 387 0.702 402 387 0.724 313 388 0.7 ±0.02 6.7 792 436 0.726 829 356 0.753 393 360 0.778 304 362 0.75 ±0.02 6.5 786 432 0.774 824 329 0.804 384 337 0.832 295 339 0.8 ±0.02 6.3 779 429 0.822 819 306 0.855 375 316 0.886 286 319 0.85 ±0.02 6.1 773 425 0.869 814 285 0.906 366 298 0.940 277 301 0.9 ±0.02 5.9 767 422 0.917 810 267 0.957 357 282 0.994 268 285 0.95 ±0.02 5.8 760 418 0.964 805 251 1.008 348 267 1.049 260 271 1 ±0.02 5.6 754 415 1.012 800 231 1.059 339 235 1.103 251 242 1.05 ±0.02 5.5 747 411 1.065 794 223 1.120 335 228 1.170 247 235 1.1 ±0.02 5.4 740 407 1.119 788 215 1.181 330 221 1.237 244 228 1.15 ±0.02 5.3 732 403 1.172 782 208 1.242 326 214 1.304 240 220 1.2 ±0.02 5.1 725 399 1.225 776 200 1.304 322 207 1.371 237 213 1.25 ±0.02 5.0 718 395 1.279 770 192 1.365 318 200 1.438 233 206 1.3 ±0.02 4.9 711 391 1.332 764 184 1.426 313 193 1.505 230 199 1.35 ±0.02 4.9 704 387 1.386 758 176 1.487 309 186 1.573 226 192 1.4 ±0.02 4.8 696 383 1.439 752 169 1.548 305 179 1.640 223 184 1.45 ±0.02 4.7 689 379 1.492 746 161 1.609 300 172 1.707 219 177 1.5 ±0.02 4.6 682 375 1.546 740 153 1.670 296 165 1.774 216 170 1.55 ±0.02 4.6 675 371 1.600 733 151 1.734 292 163 1.850 212 168 1.6 ±0.02 4.5 668 367 1.654 726 148 1.799 287 161 1.927 208 165 1.65 ±0.02 4.4 660 363 1.708 719 146 1.864 283 159 2.003 204 163 1.7 ±0.02 4.3 653 359 1.762 712 143 1.928 278 157 2.079 200 160 1.75 ±0.02 4.3 646 355 1.816 705 141 1.993 274 155 2.156 197 158 1.8 ±0.02 4.2 639 351 1.870 698 139 2.058 269 152 2.232 193 155 1.85 ±0.02 4.2 632 347 1.924 691 136 2.122 265 150 2.308 189 153 1.9 ±0.02 4.1 624 343 1.978 684 134 2.187 260 148 2.385 185 150 1.95 ±0.02 4.1 617 339 2.033 677 131 2.252 256 146 2.461 181 148 2 ±0.03 4.0 610 336 2.087 670 129 2.316 251 144 2.537 177 145 2.1 ±0.03 3.9 597 328 2.183 658 127 2.440 245 142 2.690 171 143 2.2 ±0.03 3.8 584 321 2.280 646 124 2.563 239 139 2.843 165 141 2.3 ±0.03 3.8 571 314 2.377 634 122 2.687 233 137 2.996 159 139 2.4 ±0.03 3.6 557 307 2.474 623 119 2.810 227 135 3.149 154 136 2.5 ±0.03 3.6 544 299 2.571 611 117 2.934 221 133 3.301 148 134 2.6 ±0.03 3.6 531 292 2.668 599 114 3.057 215 130 3.454 142 132 2.7 ±0.03 3.4 518 285 2.764 587 112 3.181 209 128 3.607 136 130 2.8 ±0.03 3.4 507 279 2.875 575 111 3.348 204 127 3.850 132 129 2.9 ±0.03 3.4 497 273 2.987 564 110 3.514 199 125 4.093 129 127 3 ±0.03 3.3 486 267 3.098 552 109 3.681 194 124 4.335 125 126 3.1 ±0.05 3.3 475 261 3.209 540 108 3.848 189 123 4.578 121 125 3.2 ±0.05 3.2 465 256 3.320 528 107 4.014 183 122 4.821 118 123 3.3 ±0.05 3.1 454 250 3.431 517 106 4.181 178 120 5.064 114 122 3.4 ±0.05 3.1 443 244 3.542 505 105 4.348 173 119 5.307 110 121 3.5 ±0.05 3.1 433 238 3.653 493 104 4.515 168 118 5.549 107 119 3.6 ±0.05 3.0 422 232 3.764 481 103 4.681 163 116 5.792 103 118 3.7 ±0.05 3.0 412 226 3.875 470 102 4.848 158 115 6.035 99 116 3.8 ±0.05 3.0 401 220 3.986 458 101 5.015 153 114 6.278 96 115 3.9 ±0.05 2.9 390 215 4.097 446 100 5.182 148 113 6.521 92 114 16 050118

Accu-P® 0805 Typical Electrical Tables Capacitance Self Q Standard Value Frequency Frequency Frequency @ 1MHz Resonance @ 1GHz 900MHz 1900MHz 2400MHz and Tolerance Frequency (GHz) C(eff) Q ESR C(eff) Q ESR C(eff) Q ESR C (pF) Tol. Typ. Min. Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. 4 ±0.05 2.9 384 211 4.214 440 99 5.378 144 112 6.861 89 113 4.1 ±0.05 2.9 378 208 4.331 434 98 5.574 141 112 7.201 86 113 4.2 ±0.05 2.8 372 205 4.448 428 98 5.769 138 111 7.541 84 112 4.3 ±0.05 2.7 366 202 4.564 422 97 5.965 134 111 7.881 81 111 4.4 ±0.05 2.7 360 198 4.681 415 96 6.161 131 110 8.222 78 111 4.5 ±0.05 2.7 355 195 4.798 409 96 6.357 128 110 8.562 75 110 4.6 ±0.05 2.7 349 192 4.915 403 95 6.553 124 109 8.902 72 110 4.7 ±0.05 2.6 343 188 5.032 397 94 6.749 121 109 9.242 69 109 5.1 ±0.05 2.5 319 175 5.499 373 91 7.533 108 107 10.60 58 107 5.6 ±0.05 2.4 289 159 6.083 342 88 8.513 91 104 12.30 44 104 6.2 ±0.1 2.3 264 145 6.842 313 86 10.43 79 102 18.03 36 103 6.8 ±0.1 2.2 239 131 7.601 283 84 12.35 68 101 23.76 28 102 7.5 ±0.1 2.1 218 120 8.468 259 83 14.84 61 100 37.25 21 101 8.2 ±0.1 2.0 198 109 9.334 234 82 17.32 55 100 50.74 15 100 9.1 ±0.1 1.9 179 99 10.57 213 82 24.90 46 100 n/a n/a n/a 10 ±1% 1.8 160 88 11.80 191 81 32.48 37 100 n/a n/a n/a 11 ±1% 1.7 139 77 13.17 167 81 40.90 26 101 n/a n/a n/a 12 ±1% 1.6 119 65 14.54 143 80 49.32 16 101 n/a n/a n/a 13 ±1% 1.6 110 60 16.17 134 80 n/a n/a n/a n/a n/a n/a 14 ±1% 1.5 101 55 17.79 125 80 n/a n/a n/a n/a n/a n/a 15 ±1% 1.5 92 51 19.42 116 80 n/a n/a n/a n/a n/a n/a 16 ±1% 1.4 87 48 21.13 110 79 n/a n/a n/a n/a n/a n/a 17 ±1% 1.4 83 46 22.85 104 78 n/a n/a n/a n/a n/a n/a 18 ±1% 1.3 78 43 24.57 99 77 n/a n/a n/a n/a n/a n/a 19 ±1% 1.3 73 40 26.41 92 77 n/a n/a n/a n/a n/a n/a 20 ±1% 1.3 67 37 28.26 85 76 n/a n/a n/a n/a n/a n/a 22 ±1% 1.2 57 31 31.95 72 76 n/a n/a n/a n/a n/a n/a 24 ±1% 1.2 46 25 35.64 59 75 n/a n/a n/a n/a n/a n/a 27 ±1% 1.1 41 22 44.94 54 74 n/a n/a n/a n/a n/a n/a 30 ±1% 1.0 36 20 54.24 48 73 n/a n/a n/a n/a n/a n/a 33 ±1% 1.0 30 17 63.54 42 72 n/a n/a n/a n/a n/a n/a 36 ±1% 0.9 25 14 72.84 37 71 n/a n/a n/a n/a n/a n/a 39 ±1% 0.9 20 11 82.14 31 70 n/a n/a n/a n/a n/a n/a 43 ±1% 0.9 16 9 102.9 27 66 n/a n/a n/a n/a n/a n/a 47 ±1% 0.8 12 7 123.7 23 63 n/a n/a n/a n/a n/a n/a 050118 17

Accu-P® 1210 Typical Electrical Tables Capacitance Self Q Standard Value Frequency Frequency Frequency @ 1MHz Resonance @ 1GHz 900MHz 1900MHz 2400MHz and Tolerance Frequency (GHz) C(eff) Q ESR C(eff) Q ESR C(eff) Q ESR C (pF) Tol. Typ. Min. Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. 0.1 ±0.02 15.6 1190 654 0.136 1176 3633 0.136 606 2149 0.136 450 2068 0.15 ±0.03 12.7 1179 648 0.190 1166 2129 0.190 597 1407 0.191 444 1370 0.2 ±0.02 11.0 1168 642 0.244 1156 1457 0.244 589 1042 0.246 438 1023 0.25 ±0.02 9.8 1156 636 0.297 1145 1086 0.299 581 826 0.301 432 816 0.3 ±0.02 8.9 1145 630 0.351 1135 854 0.353 573 683 0.356 426 678 0.35 ±0.02 8.3 1134 624 0.405 1125 697 0.408 565 581 0.411 421 580 0.4 ±0.02 7.7 1123 618 0.459 1115 584 0.462 557 505 0.466 415 506 0.45 ±0.02 7.3 1112 612 0.513 1105 500 0.516 549 447 0.521 409 449 0.5 ±0.02 6.9 1101 606 0.567 1095 435 0.571 541 400 0.576 403 404 0.55 ±0.02 6.6 1090 599 0.617 1084 384 0.621 532 362 0.627 397 366 0.6 ±0.02 6.3 1079 593 0.666 1074 342 0.672 524 331 0.679 391 335 0.65 ±0.02 6.0 1068 587 0.716 1064 308 0.723 516 304 0.731 385 309 0.7 ±0.02 5.8 1057 581 0.765 1054 279 0.774 508 282 0.783 379 287 0.75 ±0.02 5.6 1046 575 0.815 1044 255 0.824 500 262 0.834 374 267 0.8 ±0.02 5.4 1035 569 0.864 1034 234 0.875 492 245 0.886 368 250 0.85 ±0.02 5.3 1023 563 0.914 1024 216 0.926 484 230 0.938 362 236 0.9 ±0.02 5.1 1012 557 0.963 1013 201 0.976 476 217 0.989 356 222 0.95 ±0.02 5.0 1001 551 1.013 1003 187 1.027 467 205 1.041 350 210 1 ±0.02 5.0 992 546 1.062 983 167 1.078 459 170 1.093 344 177 1.05 ±0.02 4.9 981 539 1.107 975 163 1.124 451 167 1.141 338 174 1.1 ±0.02 4.8 969 533 1.152 966 158 1.170 443 165 1.189 331 172 1.15 ±0.02 4.7 958 527 1.196 958 154 1.217 435 162 1.236 325 169 1.2 ±0.02 4.6 946 521 1.241 950 150 1.263 427 160 1.284 318 167 1.25 ±0.02 4.5 935 514 1.285 942 146 1.309 419 157 1.332 312 164 1.3 ±0.02 4.4 923 508 1.330 933 142 1.355 410 155 1.380 305 162 1.35 ±0.02 4.3 912 502 1.375 925 138 1.402 402 152 1.428 299 159 1.4 ±0.02 4.2 900 495 1.419 917 134 1.448 394 150 1.476 293 156 1.45 ±0.02 4.1 889 489 1.464 908 129 1.494 386 147 1.524 286 154 1.5 ±0.02 4.1 877 483 1.508 900 125 1.541 378 144 1.572 280 151 1.55 ±0.02 4.0 862 474 1.567 890 123 1.618 371 143 1.638 274 150 1.6 ±0.02 3.9 846 465 1.626 881 122 1.694 363 142 1.704 268 149 1.65 ±0.02 3.9 831 457 1.685 871 120 1.771 356 140 1.770 262 148 1.7 ±0.02 3.8 815 448 1.743 862 118 1.848 349 139 1.836 256 147 1.75 ±0.02 3.7 800 440 1.802 852 116 1.925 342 138 1.902 250 145 1.8 ±0.02 3.7 784 431 1.861 843 114 2.002 334 136 1.968 244 144 1.85 ±0.02 3.6 769 423 1.920 833 112 2.079 327 135 2.034 239 143 1.9 ±0.02 3.5 753 414 1.978 824 110 2.156 320 134 2.100 233 142 1.95 ±0.02 3.4 737 406 2.037 814 108 2.233 313 132 2.167 227 141 2 ±0.03 3.3 722 397 2.096 805 107 2.310 305 131 2.233 221 139 2.1 ±0.03 3.2 691 380 2.213 786 103 2.464 291 128 2.365 209 137 2.2 ±0.03 3.0 660 363 2.331 767 99 2.618 276 126 2.497 198 135 2.3 ±0.03 2.9 644 354 2.420 747 97 2.681 268 123 2.613 191 132 2.4 ±0.03 2.9 629 346 2.508 728 96 2.744 259 121 2.729 185 130 2.5 ±0.03 2.8 614 338 2.597 709 94 2.807 251 118 2.845 179 128 2.6 ±0.03 2.8 598 329 2.686 689 93 2.870 242 116 2.961 173 126 2.7 ±0.03 2.7 583 321 2.775 670 91 2.933 234 114 3.077 167 123 2.8 ±0.03 2.7 574 316 2.875 659 90 3.047 230 113 3.205 164 122 2.9 ±0.03 2.7 566 311 2.975 647 89 3.162 227 112 3.334 161 121 3 ±0.03 2.7 557 306 3.075 636 88 3.276 223 111 3.462 157 121 3.1 ±0.05 2.7 548 302 3.174 625 87 3.390 220 110 3.590 154 120 3.2 ±0.05 2.6 540 297 3.274 613 87 3.504 216 109 3.718 151 119 3.3 ±0.05 2.6 531 292 3.374 602 86 3.619 213 108 3.847 148 118 3.4 ±0.05 2.6 522 287 3.474 591 85 3.733 209 107 3.975 145 117 3.5 ±0.05 2.6 514 283 3.574 579 84 3.847 206 106 4.103 141 116 3.6 ±0.05 2.5 505 278 3.674 568 83 3.961 202 105 4.231 138 115 3.7 ±0.05 2.5 496 273 3.773 556 82 4.076 198 104 4.359 135 114 3.8 ±0.05 2.5 488 268 3.873 545 81 4.190 195 103 4.488 132 113 3.9 ±0.05 2.4 479 264 3.973 534 80 4.304 191 102 4.616 129 112 18 050118

Accu-P® 1210 Typical Electrical Tables Capacitance Self Q Standard Value Frequency Frequency Frequency @ 1MHz Resonance @ 1GHz 900MHz 1900MHz 2400MHz and Tolerance Frequency (GHz) C(eff) Q ESR C(eff) Q ESR C(eff) Q ESR C (pF) Tol. Typ. Min. Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. (pF) Typ. Typ. (mOhm) Typ. 4 ±0.05 2.4 473 260 4.083 528 79 4.435 189 101 4.768 127 112 4.1 ±0.05 2.4 467 257 4.192 522 78 4.565 186 100 4.919 125 111 4.2 ±0.05 2.4 462 254 4.302 516 78 4.695 183 100 5.071 123 110 4.3 ±0.05 2.3 456 251 4.411 511 77 4.825 180 99 5.223 121 110 4.4 ±0.05 2.3 450 247 4.521 505 76 4.956 178 98 5.375 119 109 4.5 ±0.05 2.3 444 244 4.630 499 75 5.086 175 98 5.526 117 108 4.6 ±0.05 2.3 438 241 4.740 493 75 5.216 172 97 5.678 115 108 4.7 ±0.05 2.2 432 238 4.849 487 74 5.347 170 96 5.830 113 107 5.1 ±0.05 2.1 408 225 5.288 464 71 5.868 159 93 6.437 106 105 5.6 ±0.05 2.0 379 208 5.835 435 67 6.519 145 90 7.195 96 102 6.2 ±0.1 1.9 355 195 6.440 408 65 7.176 137 86 7.897 91 96 6.8 ±0.1 1.8 330 182 7.044 380 62 7.832 129 83 8.599 85 91 7.5 ±0.1 1.7 308 169 7.823 351 61 8.927 115 81 10.08 74 89 8.2 ±0.1 1.7 285 157 8.601 322 60 10.02 100 78 11.55 63 87 9.1 ±0.1 1.6 266 146 9.600 304 58 11.55 93 77 13.93 57 85 10 ±1% 1.5 247 136 10.60 285 57 13.09 85 76 16.30 50 84 11 ±1% 1.5 225 124 11.71 265 56 14.79 76 74 18.94 43 82 12 ±1% 1.4 204 112 12.82 244 54 16.49 68 73 21.57 36 81 13 ±1% 1.3 193 106 13.97 230 53 18.64 61 72 26.09 32 80 14 ±1% 1.3 181 99 15.13 215 53 20.80 55 71 30.61 28 79 15 ±1% 1.2 169 93 16.28 200 52 22.95 48 70 35.13 24 78 16 ±1% 1.2 164 90 17.51 195 51 26.01 46 69 46.51 22 76 17 ±1% 1.2 159 88 18.75 189 50 29.07 43 67 57.90 19 75 18 ±1% 1.1 154 85 19.98 183 49 32.14 41 66 69.29 17 73 19 ±1% 1.1 150 82 21.21 178 49 36.34 39 66 n/a n/a n/a 20 ±1% 1.1 145 80 22.43 172 49 40.55 38 65 n/a n/a n/a 22 ±1% 1.0 136 75 24.88 162 49 48.96 34 64 n/a n/a n/a 24 ±1% 1.0 126 70 27.34 151 48 57.38 31 63 n/a n/a n/a 27 ±1% 0.9 112 62 31.02 135 48 70.00 26 62 n/a n/a n/a 30 ±1% 0.9 101 56 36.14 121 48 n/a n/a n/a n/a n/a n/a 33 ±1% 0.8 90 50 41.27 108 48 n/a n/a n/a n/a n/a n/a 36 ±1% 0.8 79 44 46.39 95 48 n/a n/a n/a n/a n/a n/a 39 ±1% 0.8 68 38 51.52 82 48 n/a n/a n/a n/a n/a n/a 43 ±1% 0.7 54 30 58.35 64 48 n/a n/a n/a n/a n/a n/a 47 ±1% 0.7 39 21 65.18 46 48 n/a n/a n/a n/a n/a n/a 82 ±1% 0.7 17 10 148.400 24 48 n/a n/a n/a n/a n/a n/a 050118 19

Accu-P® High Frequency Characteristics Accu-P® 01005 Typical SRF vs Capacitance 2.5 2 z) 1.5 H G F ( R 1 S 0.5 0 5 10 15 20 25 30 35 Capacitance (pF) Measured on HP8720ES Accu-P® 01005 Typical ESR vs Frequency 10000 0.5pF Ω) 0.8pF m 1000 1.0pF R ( 1.2pF S E 1.8pF 100 800 1000 1200 1400 1600 1800 2000 2200 2400 2600 Frequency (MHz) Measured on Agilent 4278A/4991A Accu-P® 01005 Typical Q vs Frequency 1000 1.0pF 0.8pF 2.4pF Q 100 10 800 1000 1200 1400 1600 1800 2000 2200 2400 2600 Frequency (MHz) Measured on Agilent 4278A/4991A 20 050118

Accu-P® High Frequency Characteristics Accu-P® 0201 Typical SRF vs Capacitance 35.0 30.0 25.0 z) H 20.0 G F ( 15.0 R S 10.0 5.0 0.0 0 5 10 15 20 25 Capacitance (pF) Measured on HP8720ES Accu-P® 0201 Typical ESR vs Frequency 1000 0.8pF 1.2pF Ω) 1.8pF m 2.2pF R ( 3.3pF S 4.7pF E 6.8pF 15pF 100 800 1000 1200 1400 1600 1800 2000 2200 2400 2600 Frequency (MHz) Measured on Agilent 4278A/4991A Accu-P® 0201 Typical Q vs Frequency 1000 0.8pF 1.2pF 1.8pF 2.2pF Q 100 3.3pF 4.7pF 6.8pF 15pF 10 800 1000 1200 1400 1600 1800 2000 2200 2400 2600 Frequency (MHz) Measured on Agilent 4278A/4991A 050118 21

Accu-P® High Frequency Characteristics Accu-P® 0402 Typical SRF vs Capacitance 30.0 25.0 20.0 z) H G 15.0 F ( R S 10.0 5.0 0.0 0 10 20 30 40 50 60 70 Capacitance (pF) Measured on HP8720ES Accu-P® 0402 Typical ESR vs Frequency 1000 0.8pF 1.2pF Ω) 1.8pF m 100 2.2pF R ( 3.3pF S E 4.7pF 50 800 1000 1200 1400 1600 1800 2000 2200 2400 2600 Frequency (MHz) Measured on Agilent 4278A/4991A Accu-P® 0402 Typical Q vs Frequency 1000 0.8pF 1.2pF Q 100 1.8pF 2.2pF 3.3pF 4.7pF 10 800 1000 1200 1400 1600 1800 2000 2200 2400 2600 Frequency (MHz) Measured on Agilent 4278A/4991A 22 050118

Accu-P® High Frequency Characteristics Accu-P® 0603 Typical SRF vs Capacitance 30.0 25.0 20.0 z) H G 15.0 F ( R S 10.0 5.0 0.0 0 5 10 15 20 25 30 35 40 Capacitance (pF) Measured on HP8720ES Accu-P® 0603 Typical ESR vs Frequency 350 300 0.8pF 250 1.2pF Ω) 1.8pF m 200 2.2pF R ( 3.3pF S E 4.7pF 150 6.8pF 100 50 800 1000 1200 1400 1600 1800 2000 2200 2400 2600 Frequency (MHz) Measured on Agilent 4278A/4991A Accu-P® 0603 Typical Q vs Frequency 1000 0.8pF 1.2pF 1.8pF Q 100 2.2pF 3.3pF 4.7pF 6.8pF 10 800 1000 1200 1400 1600 1800 2000 2200 2400 2600 Frequency (MHz) Measured on Agilent 4278A/4991A 050118 23

Accu-P® High Frequency Characteristics Accu-P® 0805 Typical SRF vs Capacitance 20 18 16 14 z) 12 H G 10 RF ( 8 S 6 4 2 0 0 10 20 30 40 50 Capacitance (pF) Measured on HP8720ES Accu-P® 0805 Typical ESR vs Frequency 350 300 0.8pF 250 1.2pF Ω) 1.8pF m 2.2pF 200 R ( 3.3pF S 4.7pF E 150 8.2pF 100 50 800 1000 1200 1400 1600 1800 2000 2200 2400 2600 Frequency (MHz) Measured on Agilent 4278A/4991A Accu-P® 0805 Typical Q vs Frequency 1000 0.8pF 1.2pF 1.8pF Q 100 2.2pF 3.3pF 4.7pF 6.8pF 8.2pF 10 800 1000 1200 1400 1600 1800 2000 2200 2400 2600 Frequency (MHz) Measured on Agilent 4278A/4991A 24 050118

Accu-P® High Frequency Characteristics Accu-P® 1210 Typical SRF vs Capacitance 20 18 16 14 12 z) H 10 G F ( 8 R S 6 4 2 0 0 5 10 15 20 25 30 35 40 45 50 Capacitance (pF) Measured on HP8720ES Accu-P® 1210 Typical ESR vs Frequency 300 250 0.8pF 200 1.2pF Ω) 1.8pF m 2.2pF 150 R ( 3.3pF S 4.7pF E 100 6.8pF 15pF 50 0 800 1000 1200 1400 1600 1800 2000 2200 2400 2600 Frequency (MHz) Measured on Agilent 4278A/4991A Accu-P® 1210 Typical Q vs Frequency 1000 0.8pF 1.2pF 1.8pF 2.2pF Q 100 3.3pF 4.7pF 6.8pF 15pF 10 800 1000 1200 1400 1600 1800 2000 2200 2400 2600 Frequency (MHz) Measured on Agilent 4278A/4991A 050118 25

Accu-P® Environmental / Mechanical Characteristics ENVIRONMENTAL CHARACTERISTICS TEST CONDITIONS REQUIREMENT Life (Endurance) 125°C, 2U ,1000 hours No visible damage R MIL-STD-202F Method 108A Δ C/C ≤ 2% for C≥5pF Δ C ≤ 0.25pF for C<5pF Accelerated Damp 85°C, 85% RH, U , 1000 hours No visible damage R Heat Steady State Δ C/C ≤ 2% for C≥5pF MIL-STD-202F Method 103B Δ C ≤ 0.25pF for C<5pF Temperature Cycling -55°C to +125°C, 15 cycles – Accu-P® No visible damage MIL-STD-202F Method 107E Δ C/C ≤ 2% for C≥5pF MIL-STD-883D Method 1010.7 Δ C ≤ 0.25pF for C<5pF Resistance to Solder Heat 260°C ± 5°C for 10 secs C remains within initial limits IEC-68-2-58 MECHANICAL CHARACTERISTICS TEST CONDITIONS REQUIREMENT Solderability Components completely immersed in a Terminations to be well tinned, minimum 95% IEC-68-2-58 solder bath at 235°C for 2 secs. coverage Leach Resistance Components completely immersed in a Dissolution of termination faces ≤15% of area IEC-68-2-58 solder bath at 260±5°C for 60 secs. Dissolution of termination edges ≤25% of length Adhesion A force of 5N applied for 10 secs. No visible damage MIL-STD-202F Method 211A Termination Bond Strength Tested as shown in diagram No visible damage IEC-68-2-21 Amend. 2 Δ C/C ≤ 2% for C≥5pF Δ C ≤ 0.25pF for C<5pF D = 3mm Accu-P D = 1mm Accu-F Robustness of Termination A force of 5N applied for 10 secs. No visible damage IEC-68-2-21 Amend. 2 High Frequency Vibration 55Hz to 2000Hz, 20G No visible damage MIL-STD-202F Method 201A, 204D(Accu-P®only) Storage 12 months minimum with components Good solderability stored in “as received” packaging QUALITY & RELIABILITY Average capacitance with histogram printout for capacitance distribution; Accu-P® is based on well established thin-film technology IR and Breakdown Voltage distribution; and materials. Temperature Coefficient; • ON-LINE PROCESS CONTROL Solderability; This program forms an integral part of the production cycle Dimensional, mechanical and temperature stability. and acts as a feedback system to regulate and control production processes. The test procedures, which are QUALITY ASSURANCE integrated into the production process, were developed The reliability of these thin-film chip capacitors has been after long research work and are based on the highly studied intensively for several years. Various measures developed semiconductor industry test procedures and have been taken to obtain the high reliability required today equipment. These measures help AVX to produce a con- by the industry. Quality assurance policy is based on well sistent and high yield line of products. established international industry standards. The reliability of the capacitors is determined by accelerated testing • FINAL QUALITY INSPECTION under the following conditions: Finished parts are tested for standard electrical parameters Life (Endurance) 125°C, 2UR, 1000 hours and visual/mechanical characteristics. Each production lot Accelerated Damp is 100% evaluated for: capacitance and proof voltage at Heat Steady State 85°C, 85% RH, U , 2.5 U . In addition, production is periodically evaluated for: R R 1000 hours. 26 050118

Accu-P® Performance Characteristics RF Power Applications RF POWER APPLICATIONS ESR and therefore RF heating. Values of ESR for Accu-P® capacitors are significantly less than those of In RF power applications capacitor losses generate heat. Two ceramic MLC components currently available. factors of particular importance to designers are: • Minimizing the generation of heat. HEAT DISSIPATION • Dissipating heat as efficiently as possible. • Heat is dissipated from a capacitor through a variety of paths, but the key factor in the removal of heat is the CAPACITOR HEATING thermal conductivity of the capacitor material. • The major source of heat generation in a capacitor in RF • The higher the thermal conductivity of the capacitor, the power applications is a function of RF current (I) and ESR, more rapidly heat will be dissipated. from the relationship: • The table below illustrates the importance of thermal Power dissipation = I2 x ESR conductivity to the performance of Accu-P® in power RMS applications. • Accu-P® capacitors are specially designed to minimize PRODUCT MATERIAL THERMAL CONDUCTIVITY W/mK Accu-P® Alumina 18.9 Microwave MLC Magnesium Titanate 6.0 Power Handling Accu-P®10pF Data used in calculating the graph: Thermal impedance of capacitors: 0402 17°C/W 0603 12°C/W 0805 6.5°C/W 1210 5°C/W Thermal impedance measured using RF generator, amplifier and strip-line transformer. ESR of capacitors measured on Boonton 34A THERMAL IMPEDANCE The thermal impedance expresses the temperature difference in °C between chip center and termination caused by Thermal impedance of Accu-P® chips is shown below com- a power dissipation of 1 watt in the chip. It is expressed in pared with the thermal impedance of Microwave MLC’s. °C/W. CAPACITOR TYPE CHIP SIZE THERMAL IMPEDANCE (°C/W) Accu-P® 0805 6.5 1210 5 Microwave MLC 0505 12 1210 7.5 ADVANTAGES OF ACCU-P® PRACTICAL APPLICATION IN RF POWER CIRCUITS IN RF POWER CIRCUITS The optimized design of Accu-P® offers the designer of RF • There is a wide variety of different experimental methods power circuits the following advantages: for measuring the power handling performance of a • Reduced power losses due to the inherently low ESR of capacitor in RF power circuits. Each method has its Accu-P®. own problems and few of them exactly reproduce the conditions present in “real” circuit applications. • Increased power dissipation due to the high thermal conductivity of Accu-P®. • Similarly, there is a very wide range of different circuit appli- cations, all with their unique characteristics and operating • THE ONLY TRUE TEST OF A CAPACITOR IN ANY PARTICULAR conditions which cannot possibly be covered by such APPLICATION IS ITS PERFORMANCE UNDER OPERATING “theoretical” testing. CONDITIONS IN THE ACTUAL CIRCUIT. 050118 27

Accu-P® Application Notes GENERAL HANDLING Accu-P®SMD capacitors are designed for soldering to printed SMD capacitors should be handled with care to avoid damage circuit boards or other substrates. The construction of the or contamination from perspiration and skin oils. The use of components is such that they will withstand the time/temper- plastic tipped tweezers or vacuum pick-ups is strongly recom- ature profiles used in both wave and reflow soldering meth- mended for individual components. Bulk handling should ods. ensure that abrasion and mechanical shock are minimized. For automatic equipment, taped and reeled product gives the ideal medium for direct presentation to the placement machine. CIRCUIT BOARD TYPE COMPONENT PAD DESIGN The circuit board types which may be used with Accu-P® are Component pads must be designed to achieve good as follows: joints and minimize component movement during reflow All flexible types of circuit boards soldering. Pad designs are given below for both wave and (eg. FR-4, G-10) and also alumina. reflow soldering. For other circuit board materials, please consult factory. The basis of these designs is: a. Pad width equal to component width. It is permissible to decrease this to as low as 85% of component width but it is not advisable to go below this. b. Pad overlap 0.5mm beneath large components. Pad overlap about 0.3mm beneath small components. c. Pad extension of 0.5mm for reflow of large components and pad extension about 0.3mm for reflow of small com- ponents. Pad extension about 1.0mm for wave soldering. REFLOW SOLDERING PAD DIMENSIONS: millimeters (inches) 01005 0201 0402 0603 0805 1210 Accu-P® Accu-P® Accu-P® Accu-P® Accu-P® Accu-P® 0.17 (0.007) 0.22 0.26 (0.009) 0.20 0.78 (-00..02160) (00.0.624) (00..08353) 1.0 1.0 (0.008) (0.030)(-0.010) (0.039) (0.039) 0.26 (-0.010) 1.7 0.5 (0.068) (0.020) 2.3 0.6 0.34 (0.091) (0.024) (0.013) (00.0.624) 0.85 (03.1.018) (01.0.039) (0.033) 4.0 2.0 0.55 (0.157) (0.079) (0.022) 0.8 (0.031) 1.0 (0.039) 1.25 (0.049) 1.0 (0.039) 2.5 (0.098) 28 050118

Accu-P® Application Notes PREHEAT & SOLDERING CLEANING RECOMMENDATIONS The rate of preheat in production should not exceed 4°C/ Care should be taken to ensure that the devices are second and a recommended maximum is about 2°C/second. thoroughly cleaned of flux residues, especially the space Temperature differential from preheat to soldering should not beneath the device. Such residues may otherwise become exceed 100°C. conductive and effectively offer a lossy bypass to the device. For further specific application or process advice, please consult Various recommended cleaning conditions (which must be AVX. optimized for the flux system being used) are as follows: Cleaning liquids. . . . . . . i-propanol, ethanol, acetylacetone, COOLING water and other standard PCB cleaning liquids. After soldering, the assembly should preferably be allowed Ultrasonic conditions . . power-20w/liter max. to cool naturally. In the event of assisted cooling, similar frequency-20kHz to 45kHz. conditions to those recommended for preheating should be Temperature. . . . . . . . . 80°C maximum (if not otherwise used. limited by chosen solvent system). Time. . . . . . . . . . . . . . . 5 minutes max. HAND SOLDERING & REWORK Hand soldering is permissible. Preheat of the PCB to 150°C is STORAGE CONDITIONS required. The most preferable technique is to use hot air sol- dering tools. Where a soldering iron is used, a temperature Recommended storage conditions for Accu-P® prior to use controlled model not exceeding 30 watts should be used and are as follows: set to not more than 260°C. Temperature. . . . . . . . . . 15°C to 35°C Humidity. . . . . . . . . . . . . ≤65% Air Pressure . . . . . . . . . . 860mbar to 1060mbar RECOMMENDED REFLOW RECOMMENDED REFLOW SOLDERING PROFILE SOLDERING PROFILE COMPONENTS WITH LEAD FREE SnPb TERMINATIONS COMPONENTS WITH Sn100 TERMINATIONS 330 Peak Temperature = 260ºC 260 250 200 C) p (º 150 m Te 100 50 0 0:00 0:43 1:28 2:10 2:53 3:36 4:19 5:02 5:48 6:29 Time 050118 29

Accu-P® Automatic Insertion Packaging TAPE & REEL All tape and reel specifications are in compliance with EIA 481-1-A. (equivalent to IEC 286 part 3). • 8mm carrier • Reeled quantities: Reels of 3,000 per 7" reel or 10,000 pieces per 13" reel 01005, 0201 and 0402 = 5,000 pieces per 7" reel and 20,000 pieces per 13" reel REEL DIMENSIONS: millimeters (inches) A(1) B C D E F G 180±1.0 1.5 min. 13±0.2 20.2 min. 50 min. 9.6±1.5 14.4 max. (7.087±0.039) (0.059 min.) (0.512 ± 0.008) (0.795 min.) (1.969 min.) (0.370 ± 0.050) (0.567 max.) Metric dimensions will govern. Inch measurements rounded and for reference only. (1) 330mm (13 inch) reels are available. CARRIER DIMENSIONS: millimeters (inches) A B C D E F 8.0 ± 0.3 3.5 ± 0.05 1.75±0.1 2.0 ± 0.05 4.0 ± 0.1 1.5 + 0 .1 -0.0 (0.315 ± 0.012) (0.138 ± 0.002) (0.069 ± 0.004) (0.079 ± 0.002) (0.157 ± 0.004) (0.059 + 0. 0 04) -0.000 The nominal dimensions of the component compartment (W,L) are derived from the component size. P = 4mm for 0603, 0805, 1210 P = 2mm for C005, 0201 and 0402 AVX reserves the right to change the information published herein without notice. 30 050118