Thin-Film Technology. Accu-F / Accu-P Thin-Film RF/Microwave Capacitors.

Thin-Film Technology Accu-F / Accu-P Thin-Film RF/Microwave Capacitors 5

Accu-F / Accu-P Thin-Film Technology THE IDEAL CAPACITOR The non-ideal characteristics of a real capacitor can be ignored at low frequencies. Physical size imparts inductance 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 (>00MHz) and satellite systems (>GHz), these effects become important. Recognizing that a real capacitor will exhibit inductive and resistive impedances in addition to capacitance, the ideal capacitor for these high frequencies is an ultra low loss component which can be fully characterized in all parameters with total repeatability from unit to unit. Until recently, most high frequency/microwave capacitors were based on fired-ceramic (porcelain) technology. Layers of ceramic dielectric material and metal alloy electrode paste are interleaved and then sintered in a high temperature oven. This technology exhibits component variability in dielectric quality (losses, dielectric constant and insulation resistance), variability in electrode conductivity and variability in physical size (affecting inductance). An alternate thin-film technology has been developed which virtually eliminates these variances. It is this technology which has been fully incorporated into Accu-F and Accu-P to provide high frequency capacitors exhibiting truly ideal characteristics. The main features of Accu-F and Accu-P may be summarized as follows: High purity of electrodes for very low and repeatable ESR. Highly pure, low-k dielectric for high breakdown field, high insulation resistance and low losses to frequencies above 40GHz. Very tight dimensional control for uniform inductance, unit to unit. Very tight capacitance tolerances for high frequency signal applications. This accuracy sets apart these Thin-Film capacitors from ceramic capacitors so that the term Accu has been employed as the designation for this series of devices, an abbreviation for accurate. THIN-FILM TECHNOLOGY Thin-film technology is commonly used in producing semiconductor devices. In the last two decades, this technology has developed tremendously, both in performance and in process control. Today s techniques enable line definitions of below µm, and the controlling of thickness of layers at 00Å (0-2 µm). Applying this technology to the manufacture of capacitors has enabled the development of components where both electrical and physical properties can be tightly controlled. The thin-film production facilities at AVX consist of: Class 000 clean rooms, with working areas under laminar-flow hoods of class 00, (below 00 particles per cubic foot larger than 0.5µm). High vacuum metal deposition systems for high-purity electrode construction. Photolithography equipment for line definition down to 2.0µm accuracy. Plasma-enhanced CVD for various dielectric depositions (CVD=Chemical Vapor Deposition). High accuracy, microprocessor-controlled dicing saws for chip separation. High speed, high accuracy sorting to ensure strict tolerance adherence. TERMINATION ALUMINA ELECTRODE SEAL ELECTRODE DIELECTRIC ALUMINA ACCU-P CAPACITOR 6

Accu-F / Accu-P Thin-Film Chip Capacitors ACCU-F TECHNOLOGY The use of very low-loss dielectric materials, silicon dioxide and silicon oxynitride, in conjunction with highly conductive electrode metals results in low ESR and high Q. These high-frequency characteristics change at a slower rate with increasing frequency than for ceramic microwave capacitors. Because of the thin-film technology, the above-mentioned frequency characteristics are obtained without significant compromise of properties required for surface mounting. The main Accu-F properties are: Internationally agreed sizes with excellent dimensional control. Small size chip capacitors (0603) are available. Tight capacitance tolerances. Low ESR at VHF, UHF and microwave frequencies. High stability with respect to time, temperature, frequency and voltage variation. Nickel/solder-coated terminations to provide excellent solderability and leach resistance. ACCU-F FEATURES Accu-F meets the fast-growing demand for low-loss (high-q) capacitors for use in surface mount technology especially 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 -2.5 GHz and for other VHF, UHF and microwave applications. Accu-F is currently unique in its ability to offer very low capacitance values (0.pF) and very tight capacitance tolerances (±0.05pF). Typically Accu-F will be used in small signal applications in VCO s, matching networks, filters, etc. Inspection test and quality control procedures in accordance with ISO 900, CECC, IECQ and USA MIL Standards yield products of the highest quality. APPLICATIONS Cellular Communications CT2/PCN (Cordless Telephone/Personal Comm. Networks) Satellite TV Cable TV GPS (Global Positioning Systems) Vehicle Location Systems Vehicle Alarm Systems Paging Military Communications Radar Systems Video Switching Test & Measurements Filters VCO s Matching Networks APPROVALS ISO 900 ACCU-P TECHNOLOGY As in the Accu-F series the use of very low-loss dielectric materials (silicon dioxide and silicon oxynitride) in conjunction with highly conductive electrode metals results in low ESR and high Q. At high frequency these characteristics change at a slower rate with increasing frequency than conventional ceramic microwave capacitors. Using thin-film technology, the above-mentioned frequency characteristics are obtained without significant compromise of properties required for surface mounting. The use of high thermal conductivity materials results in excellent RF power handling capabilities. The main Accu-P properties are: Enhanced RF power handling capability. Improved mechanical characteristics. Internationally agreed sizes with excellent dimensional control. Ultra Small size chip capacitors (020) are available. Tight capacitance tolerances. Low ESR at UHF, VHF, and microwave frequencies. High-stability with respect to time, temperature, frequency and voltage variation. High temperature nickel/solder-coated terminations as standard to provide excellent solderability and leach resistance. ACCU-P FEATURES Minimal batch to batch variability of parameters at high frequency. The Accu-P has the same unique features as the Accu-F capacitor such as low ESR, high Q, availability of very low capacitance values and very tight capacitance tolerances. The RF power handling capability of the Accu-P allows for its usage in both small signal and RF power applications. Inspection, test and quality control procedures in accordance with ISO 900, CECC, IECQ and USA MIL Standards guarantee product 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 production environments where hand soldering is used. Accu-P s are available in all sizes and are electrically identical to their Accu-F counterparts. APPLICATIONS Cellular Communications CT2/PCN (Cordless Telephone/Personal Comm. Networks) Satellite TV Cable TV GPS (Global Positioning Systems) Vehicle Location Systems Vehicle Alarm Systems Paging Military Communications Radar Systems Video Switching Test & Measurements Filters VCO's Matching Networks RF Amplifiers APPROVALS ISO 900 7

Accu-F */ Accu-P Thin-Film Chip Capacitors for RF Signal and Power Applications B W T L W T B L ACCU-F *(Signal Type Capacitors) 0402 B 2 0603 0805.60±0. 2.0±0. (0.063±0.004) (0.079±0.004) 0.8±0..27±0. (0.032±0.004) (0.050±0.004) 0.63±0. 0.63±0. (0.025±0.004) (0.025±0.004) 0.30±0. 0.30±0. (0.02±0.004) (0.02±0.004) Not recommended for new designs. * Accu-P s are recommended. HOW TO ORDER 3 J DIMENSIONS: millimeters (inches) 4R7 ACCU-P (Signal and Power Type Capacitors) 020 0402* 0603* 0805* 20 0.60±0.05.00±0..60±0. 2.0±0. 3.02±0. L (0.023±0.002) (0.039±0.004) (0.063±0.004) (0.079±0.004) (0.9±0.004) 0.325±0.050 0.55±0.07 0.8±0..27±0. 2.5±0. W (0.028±0.002) (0.022±0.003) (0.032±0.004) (0.050±0.004) (0.00±0.004) 0.225±0.050 0.40±0. 0.63±0. 0.93±0.2 0.93±0.2 T (0.009±0.002) (0.06±0.004) (0.025±0.004) (0.036±0.008) (0.036±0.008) +0. 0.0±0.0 0.00-0.0 0.35±0.5 0.30±0. 0.43±0. B +0.004 (0.004±0.004) (0.000-0.000) (0.04±0.006) (0.02±0.004) (0.07±0.004) 0.5±0.05 0.20±0. 0.35±0.5 0.30±0. 0.43±0. B 2 (0.006±0.002) (0.008±0.004) (0.04±0.006) (0.02±0.004) (0.07±0.004) Mount Black Side Up DIMENSIONS: millimeters (inches) * A B S TR Size 020* 0402* 0603 0805 20* * Accu-P ONLY Voltage = 00V 5 = 50V 3 = 25V Y = 6V Z = 0V Temperature Coefficient () J = 0±30ppm/ C (-55 C to +25 C) K = 0±60ppm/ C (-55 C to +25 C) () TC s shown are per EIA/IEC Specifications. RoHS COMPLIANT Pb: Free Please select correct termination style Capacitance Capacitance expressed in pf. (2 significant digits + number of zeros) for values <0pF, letter R denotes decimal point. Example: 68pF = 680 8.2pF = 8R2 ELECTRICAL SPECIFICATIONS Tolerance for C 2.0pF* P = ±0.02pF Q = ±0.03pF A = ±0.05pF B = ±0.pF C = ±0.25pF for C 3.0pF Q = ±0.03pF A = ±0.05pF B = ±0.pF C = ±0.25pF for C 5.6pF A = ±0.05pF B = ±0.pF C = ±0.25pF for 5.6pF<C<0pF B = ±0.pF C = ±0.25pF D = ±0.5pF for C 0pF F = ±% G = ±2% J = ±5% Specification Code A = Accu-F technology B = Accu-P technology Termination Packaging Code Code W = Nickel/Solder Coated TR = Tape & Reel Accu-F Sn63, Pb37 Accu-P 0402 Sn90, Pb0 T = Nickel/High Temperature Solder Coated Accu-P 0805**, 20** Sn96, Ag4 Nickel/Solder Coated Accu-P 0603 Sn63, Pb37 **S = Nickel/Lead Free Solder Coated Accu-P 020, 0402, 0603 Sn00 **RoHS Compliant Engineering Kits Available see pages 90-9 * Tolerances as tight as ±0.0pF are available. Please consult the factory. Operating and Storage Temperature Range -55 C to +25 C Temperature Coefficients () 0 ± 30ppm/ C dielectric code J / 0 ± 60ppm/ C dielectric code K Capacitance Measurement MHz, Vrms Insulation Resistance (IR) 0 Ohms ( 0 0 Ohms for 020 and 0402 size) Proof Voltage 2.5 U R for 5 secs. Aging Characteristic Zero Dielectric Absorption 0.0% () TC s shown are per EIA/IEC Specifications. 8

Accu-F * Signal Type Capacitors Accu-F Capacitance Ranges (pf) TEMP. COEFFICIENT CODE J = 0±30ppm/ C (-55 C to +25 C) (2) Size Size Code 0603 0805 Voltage 00 50 25 00 50 25 Cap in pf () Cap code 0. 0R 0.2 0R2 0.3 0R3 0.4 0R4 0.5 0R5 0.6 0R6 0.7 0R7 0.8 0R8 0.9 0R9.0 R0.2 R2.5 R5.8 R8 2.2 2R2 2.7 2R7 3.3 3R3 3.9 3R9 4.7 4R7 5.6 5R6 6.8 6R8 8.2 8R2 0 00 2 20 5 50 8 80 22 220 27 270 33 330 39 390 47 470 56 560 68 680 82 820 00 0 20 2 50 5 () For capacitance values higher than listed in table, please consult factory. (2) TC shown is per EIA/IEC Specifications. TEMP. COEFFICIENT CODE K = 0±60ppm/ C (-55 C to +25 ) (2) Size Size Code 0603 0805 Voltage 00 50 25 00 50 25 Cap in pf (() Cap code 0. 0R 0.2 0R2 0.3 0R3 0.4 0R4 0.5 0R5 0.6 0R6 0.7 0R7 0.8 0R8 0.9 0R9.0 R0.2 R2.5 R5.8 R8 2.2 2R2 2.7 2R7 3.3 3R3 3.9 3R9 4.7 4R7 5.6 5R6 6.8 6R8 8.2 8R2 0 00 2 20 5 50 8 80 22 220 27 270 33 330 39 390 47 470 56 560 68 680 82 820 00 0 20 2 50 5 () For capacitance values higher than listed in table, please consult factory. (2) TC shown is per EIA/IEC Specifications. Intermediate values are available within the indicated range. * Not recommended for new designs. Accu-P s are recommended. 9

Accu-P Signal and Power Type Capacitors Accu-P Capacitance Ranges (pf) TEMP. COEFFICIENT CODE J = 0±30ppm/ C (-55 C to +25 C) (2) Size Size Code 020 0402 0603 0805 20 Voltage 00 50 25 6 0 00 50 25 6 0 00 50 25 00 50 25 00 50 Cap in Cap pf () code 0. 0R 0.2 0R2 0.3 0R3 0.4 0R4 0.5 0R5 0.6 0R6 0.7 0R7 0.8 0R8 0.9 0R9.0 R0. R.2 R2.3 R3.4 R4.5 R5.6 R6.7 R7.8 R8.9 R9 2.0 2R0 2. 2R 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. 3R 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. 4R 4.2 4R2 4.3 4R3 4.4 4R4 4.5 4R5 4.6 4R6 4.7 4R7 5. 5R 5.6 5R6 6.2 6R2 6.8 6R8 7.5 7R5 8.2 8R2 9. 9R 0.0 00.0 0 2.0 20 3.0 30 4.0 40 5.0 50 6.0 60 7.0 70 8.0 80 9.0 90 20.0 200 2.0 20 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 () 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. TEMP. COEFFICIENT CODE K = 0±60ppm/ C (-55 C to +25 C) (2) Size Size Code 805 20 Voltage 00 50 25 00 50 (3) Cap in Cap pf () code 0. 0R 0.2 0R2 0.3 0R3 0.4 0R4 0.5 0R5 0.6 0R6 0.7 0R7 0.8 0R8 0.9 0R9.0 R0. R.2 R2.3 R3.4 R4.5 R5.6 R6.7 R7.8 R8.9 R9 2.0 2R0 2. 2R 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. 3R 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. 4R 4.2 4R2 4.3 4R3 4.4 4R4 4.5 4R5 4.6 4R6 4.7 4R7 5. 5R 5.6 5R6 6.2 6R2 6.8 6R8 7.5 7R5 8.2 8R2 9. 9R 0.0 00.0 0 2.0 20 3.0 30 4.0 40 5.0 50 6.0 60 7.0 70 8.0 80 9.0 90 20.0 200 2.0 20 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 () For capacitance values higher than listed in table, please consult factory. (2) TC shown is per EIA/IEC Specifications. (3) For 50 volt range, please consult factory. 0 Intermediate values are available within the indicated range.

Accu-P 020 Typical Electrical Tables Self Capacitance Resonance 250MHz 500MHz 750MHz 000MHz 250MHz @ MHz Frequency Typ. Typ. Typ. Typ. Typ. Typ. Typ. Typ. Typ. Typ. Typ. Typ. Typ. Typ. Typ. (pf) (GHz) C(eff) Q ESR C(eff) Q ESR C(eff) Q ESR C(eff) Q ESR C(eff) Q ESR Typical (pf) ( Ω) (pf) ( Ω) (pf) ( Ω) (pf) ( Ω) (pf) ( Ω) 0.8 9. 0.84 254 360 0.84 630 603 0.85 424 594 0.85 327 577 0.86 255 588.2 7.6.2 375 405.2 525 57.22 34 527.23 267 503.23 208 55.8 6.3.84 298 27.85 520 34.86 337 347.87 270 326.88 20 347 2.2 5.7 2.23 355 24 2.24 52 28 2.25 335 284 2.27 264 270 2.29 99 284 3.3 4.6 3.29 295 56 3.3 430 230 3.33 285 230 3.36 220 223 3.40 59 242 3.9 4.3 3.9 902 93 3.93 460 8 3.97 298 85 4.02 227 8 4.08 63 98 4.7 3.9 4.7 677 84 4.74 39 74 4.80 252 78 4.87 8 83 4.97 30 200 5.6 3.6 5.62 39 84 5.67 370 54 5.74 257 48 5.83 95 44 5.95 40 57 6.8 3.3 6.77 35 84 6.83 34 49 6.9 27 42 7.03 64 39 7.8 8 5 Self Capacitance Resonance 500MHz 750MHz 2250MHz 2500MHz 2750MHz @ MHz Frequency Typ. Typ. Typ. Typ. Typ. Typ. Typ. Typ. Typ. Typ. Typ. Typ. Typ. Typ. Typ. (pf) (GHz) C(eff) Q ESR C(eff) Q ESR C(eff) Q ESR C(eff) Q ESR C(eff) Q ESR Typical (pf) ( Ω) (pf) ( Ω) (pf) ( Ω) (pf) M ( Ω) (pf) ( Ω) 0.8 9. 0.86 204 6 0.87 68 63 0.88 4 587 0.89 26 57 0.90 22 532.2 7.6.24 55 565.26 29 577.28 92 570.30 89 566.3 8 558.8 6.3.90 48 388.92 23 395.96 96 395.99 83 396 2.02 74 397 2.2 5.7 2.32 45 320 2.34 23 322 2.4 93 329 2.46 8 328 2.50 72 330 3.3 4.6 3.45 9 266 3.50 0 263 3.63 74 277 3.73 64 276 3.84 55 28 3.9 4.3 4.6 22 26 4.25 03 24 4.46 75 224 4.63 64 223 4.79 56 225 4.7 3.9 5.08 99 23 5.23 83 22 5.55 60 22 5.83 50 222 6.0 43 224 5.6 3.6 6. 08 66 6.3 9 64 6.76 64 74 7.6 53 75 7.56 45 4 6.8 3.3 7.38 93 55 7.63 76 58 8.22 54 66 8.74 44 69 9.29 37 73

Accu-P 0402 Typical Electrical Tables Capacitance Self & Tolerance* Resonance Ref Typ. Typ. Typ. Ref Typ. Typ. Typ. Ref Typ. Typ. Typ. Ref Typ. Typ. Typ. Ref Typ. Typ. Typ. @ MHz Frequency Freq C(eff) Q ESR Freq C(eff) Q ESR Freq C(eff) Q ESR Freq C(eff) Q ESR Freq C(eff) Q ESR (pf) (GHz) (MHz) (pf) (Ω) (MHz) (pf) (Ω) (MHz) (pf) (Ω) (MHz) (pf) (Ω) (MHz) (pf) (Ω) Typical 0.±0.05 9.4 n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a 0.2±0.05 6.4 n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a 0.3±0.05 4.6 n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a 0.4±0.05 2.5 n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a 0.5±0.05.3 n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a 0.6±0.05 0.4 n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a 0.7±0.05 9.5 n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a 0.8±0.05 9. n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a 0.9±0.05 8.8 n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a.00±0.05 8 247.6 635 0.34 494.5 283 0.22 742.3 870 0.22 99.2 620 0.23 240.4 474 0.25.0±0.05 7.8 246.25 58 0.32 492.22 29 0.2 740.2 79 0.22 989.9 56 0.24 238.2 425 0.25.20±0.05 7.4 245.34 538 0.30 49.33 53 0.2 738.3 727 0.22 986.3 503 0.25 234.33 372 0.25.30±0.05 7 244.42 502 0.29 490.42 09 0.2 736.4 70 0.2 983.35 480 0.24 230.4 350 0.25.40±0.05 6.8 243.53 476 0.28 488.54 06 0.20 733.52 680 0.2 980.49 46 0.23 229.53 333 0.25.50±0.05 6.5 242.63 454 0.28 486.63 002 0.20 73.58 638 0.2 978.6 438 0.23 226.65 36 0.25.60±0.05 6.5 242.7 448 0.27 485.76 986 0.20 729.69 622 0.2 986.7 429 0.23 224.77 309 0.24.70±0.05 6.4 24.85 444 0.27 483.8 970 0.9 728.75 62 0.20 985.75 422 0.22 223.86 305 0.23.80±0.05 6.2 240.93 430 0.26 482.86 93 0.9 727.83 597 0.20 983.8 43 0.22 220.9 299 0.23.90±0.05 6 239 2.0 42 0.25 48.93 897 0.9 726.9 583 0.20 972.9 40 0.2 29.97 294 0.22 2.00±0.05 5.7 239 2. 40 0.24 480 2.06 896 0.8 722 2. 582 0.9 969 2.0 400 0.20 25 2. 293 0.2 2.0±0.05 5.4 238 2.2 406 0.23 478 2.4 893 0.7 720 2.2 58 0.8 966 2. 398 0.9 23 2.22 29 0.20 2.20±0.05 5. 237 2.28 406 0.22 476 2.27 893 0.6 78 2.26 58 0.7 964 2.27 396 0.8 22 2.35 289 0.9 2.30±0.05 5 237 2.32 405 0.20 475 2.36 870 0.6 76 2.4 549 0.7 962 2.3 379 0.8 209 2.4 262 0.20 2.40±0.05 4.9 236 2.45 404 0.9 473 2.48 845 0.6 75 2.5 50 0.7 960 2.4 358 0.9 208 2.53 253 0.20 2.50±0.05 4.7 235 2.49 404 0.8 472 2.6 82 0.6 74 2.62 486 0.7 959 2.52 349 0.9 205 2.7 240 0.20 2.60±0.05 4.6 234 2.6 402 0.6 470 2.7 799 0.5 72 2.73 477 0.7 958 2.65 33 0.9 204 2.85 23 0.20 2.70±0.05 4.5 233 2.84 399 0.5 469 2.83 778 0.5 7 2.82 464 0.7 956 2.86 33 0.9 203 3 224 0.20 2.80±0.05 4.5 233 2.85 395 0.5 468 2.94 769 0.5 70 2.9 458 0.6 954 2.9 308 0.8 202 3.2 220 0.20 2.90±0.05 4.4 232 2.87 395 0.5 467 3. 75 0.5 70 2.99 450 0.6 953 3.5 303 0.8 20 3.24 28 0.9 3.00±0.05 4.4 23 2.88 392 0.4 466 3.39 746 0.5 709 3. 440 0.6 952 3.4 299 0.8 20 3.33 22 0.9 3.0±0.05 4.4 230 2.9 392 0.4 465 3.45 733 0.5 708 3.22 429 0.6 95 3.48 29 0.8 99 3.45 207 0.9 3.20±0.05 4.3 230 2.9 39 0.4 464 3.6 725 0.5 707 3.3 42 0.6 950 3.68 285 0.7 98 3.58 203 0.9 3.30±0.05 4.3 229 2.92 39 0.4 462 3.72 7 0.4 707 3.42 45 0.6 949 3.8 282 0.7 97 3.6 98 0.9 3.40±0.05 4.3 228 2.93 390 0.4 46 3.78 705 0.4 706 3.53 407 0.5 948 3.79 276 0.7 96 3.78 95 0.9 3.50±0.05 4.2 227 2.95 389 0.3 460 3.82 693 0.4 705 3.6 402 0.5 947 3.85 273 0.6 95 3.9 9 0.8 3.60±0.05 4.2 226 2.97 382 0.3 459 3.87 688 0.4 704 3.7 395 0.5 946 3.89 270 0.6 94 4 86 0.8 3.70±0.05 4. 226 2.99 38 0.3 458 3.93 667 0.4 702 3.8 389 0.5 945 3.95 262 0.6 93 4. 8 0.8 3.80±0.05 4 225 4 380 0.3 458 4 658 0.3 699 3.9 386 0.5 944 4.02 256 0.6 92 4.23 77 0.8 3.90±0.05 3.9 224 4.0 379 0.3 457 4.0 649 0.3 697 4.02 384 0.5 943 4. 25 0.6 9 4.37 72 0.8 4.00±0.05 3.9 224 4.09 372 0.2 457 4.07 650 0.3 696 4. 38 0.4 942 4.8 250 0.6 90 4.46 70 0.8 4.0±0.05 3.8 223 4.8 370 0.2 456 4.8 655 0.3 696 4.2 380 0.4 94 4.23 248 0.5 90 4.52 69 0.7 4.20±0.05 3.8 223 4.27 356 0.2 455 4.27 658 0.2 695 4.29 379 0.4 940 4.37 247 0.5 99 4.66 67 0.7 4.30±0.05 3.7 222 4.36 355 0.2 454 4.34 657 0.2 694 4.43 373 0.4 939 4.58 246 0.5 95 4.75 68 0.7 4.40±0.05 3.7 222 4.44 35 0. 453 4.45 660 0.2 693 4.5 369 0.4 939 4.62 246 0.4 92 4.82 62 0.6 4.50±0.05 3.6 22 4.53 350 0. 452 4.52 665 0.2 692 4.6 364 0.3 938 4.7 245 0.4 90 4.96 6 0.6 4.60±0.05 3.6 22 4.62 347 0. 45 4.62 670 0. 69 4.72 359 0.3 938 4.79 244 0.4 88 5.07 6 0.6 4.70±0.05 3.5 220 4.75 343 0. 450 4.74 673 0. 690 4.74 35 0.3 937 4.86 244 0.4 86 5.8 59 0.6 5.0±0.05 3.4 27 5.9 30 0. 447 5.6 589 0. 687 5.23 348 0.3 934 5.53 230 0.4 84 5.82 3 0.6 5.60±0.05 3.3 24 5.74 297 0. 443 5.75 576 0. 684 5.8 342 0.2 932 6.0 20 0.4 82 6.62 29 0.6 6.2±0. 3 2 6.3 244 0.0 440 6.09 585 0.0 68 6.33 339 0. 928 6.68 202 0.2 80 7.34 28 0.5 6.8±0. 2.8 208 6.92 202 0.09 436 6.94 59 0.09 678 7.04 334 0.0 926 7.39 203 0. 77 8.22 27 0.4 7.5±0. 2.7 205 7.57 55 0.08 433 7.5 567 0.09 675 7.85 320 0.0 924 8.7 9 0.0 76 9.0 20 0.3 8.2±0. 2.6 202 8.35 6 0.08 430 8.36 542 0.08 673 8.48 306 0.09 922 8.93 86 0.0 74 0.04 8 0.3 9.±0. 2.5 99 9.23 059 0.09 428 9.28 458 0.09 670 9.87 249 0.0 920 0.2 52 0. 72.98 88 0.3 0.0±% 2.4 96 0.4 936 0.09 424 0.24 385 0.0 668 0.55 202 0. 99.49 8 0.3 7 3.75 70 0.2.0±% 2.3 93.9 92 0.08 42.7 363 0.09 666.8 85 0. 97 2.87 03 0.2 70 5.3 6 0.2 2.0±% 2.2 89 2.6 889 0.08 48 2.3 348 0.09 664 2.77 73 0. 95 4.6 95 0.3 68 7.63 52 0.2 3.0±% 2.2 86 3.3 984 0.07 46 3.32 363 0.08 66 4. 83 0.09 92 5.8 0 0. 64 23.9 47 0.2 4.0±% 2. 84 4.26 802 0.08 44 4.44 298 0.09 660 5.03 49 0.2 93 6.72 76.7 0.4 67 23. 40 0.5 5.0±% 2. 82 5.34 79 0.07 43 5.46 283 0.08 660 6.6 38 0.0 92 8.5 82 0.6 66 23.6 44 0.3 6.0±% 2 79 6.3 780 0.07 40 6.4 270 0.08 657 7.6 29 0. 909 20.2 68 0.3 6 34.7 28 0.4 7.0±%.9 78 7.6 765 0.07 40 7.7 263 0.08 657 8.2 30 0. 909 2.3 70 0.2 63 34.9 28 0.4 8.0±%.8 76.5 8.3 754 0.07 409 8.42 258 0.07 657 9.5 30 0.0 90 22.7 75.5 0. 64 35.2 29 0.4 9.0±%.8 75 9.2 680 0.08 407 9.4 24 0.07 655 20.5 5 0. 908 24.5 62 0. 63 37.5 24 0.4 20.0±%.8 73 20.32 520 0.08 405 20.43 95 0.06 655 22. 2 0. 908 26.5 57 0.2 62 39. 9 0.4 22.0±%.75 70.04 22.42 497.5 0.09 404 23.05 74 0.54 654 25 85.5 0.2 907 30.95 44 0.3 6 00.5 5 0.4 * Other tolerances are available, see page 8 2

Accu-P 0402 Typical Electrical Tables Capacitance Self & Tolerance* Resonance Ref Typ. Typ. Typ. Ref Typ. Typ. Typ. Ref Typ. Typ. Typ. Ref Typ. Typ. Typ. Ref Typ. Typ. Typ. @ MHz Frequency Freq C(eff) Q ESR Freq C(eff) Q ESR Freq C(eff) Q ESR Freq C(eff) Q ESR Freq C(eff) Q ESR (pf) (GHz) (MHz) (pf) (Ω) (MHz) (pf) (Ω) (MHz) (pf) (Ω) (MHz) (pf) (Ω) (MHz) (pf) (Ω) Typical 0.±0.05 9.4 n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a 0.2±0.05 6.4 n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a 0.3±0.05 4.6 n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a 0.4±0.05 2.5 n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a 0.5±0.05.3 n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a 0.6±0.05 0.4 n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a 0.7±0.05 9.5 n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a 0.8±0.05 9. n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a 0.9±0.05 8.8 n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a.00±0.05 8 489.8 380 0.25 739.25 34 0.25 988.32 265 0.24 2240.38 229 0.23 2493.4 200 0.23.0±0.05 7.8 485.29 342 0.25 735.33 275 0.25 986.4 232 0.24 2238.49 20 0.24 2490.55 77 0.25.20±0.05 7.4 483.37 307 0.25 732.45 25 0.25 982.54 208 0.24 2234.59 73 0.25 2488.62 49 0.27.30±0.05 7 479.45 289 0.25 729.58 240 0.25 980.66 96 0.24 2230.73 66 0.25 2485.76 37 0.27.40±0.05 6.8 477.6 265 0.25 726.7 22 0.25 977.78 79 0.24 2229.88 54 0.25 2483.89 25 0.26.50±0.05 6.5 474.72 252 0.25 724.82 203 0.25 974.94 69 0.24 2227 2.0 43 0.25 248 2.03 5 0.27.60±0.05 6.5 472.8 246 0.24 722.9 20 0.24 97 2.0 68 0.23 2226 2. 42 0.24 2479 2. 9 0.25.70±0.05 6.4 470.92 24 0.23 79.99 99 0.23 970 2. 67 0.22 2225 2.23 4 0.23 2478 2.23 20 0.24.80±0.05 6.2 469.98 240 0.22 78 2.06 98 0.22 969 2.24 66 0.2 2223 2.34 4 0.22 2477 2.35 22 0.22.90±0.05 6 468 2.06 239 0.22 77 2.9 97 0.2 968 2.33 65 0.2 2222 2.4 40 0.2 2476 2.42 23 0.2 2.00±0.05 5.7 466 2.2 233 0.2 76 2.22 90 0.2 968 2.5 60 0.20 2220 2.62 38 0.2 2475 2.65 8 0.2 2.0±0.05 5.4 463 2.3 230 0.20 74 2.43 85 0.2 966 2.62 55 0.20 229 2.76 32 0.2 2474 2.8 5 0.20 2.20±0.05 5. 46 2.47 228 0.20 7 2.65 83 0.20 964 2.83 49 0.20 227 2.9 26 0.9 2473 2.9 08 0.20 2.30±0.05 5 460 2.5 24 0.20 709 2.8 68 0.20 963 2.98 32 0.9 226 3.5 2 0.9 247 3.6 99 0.22 2.40±0.05 4.9 459 2.6 96 0.20 708 3 5 0.20 962 3.6 20 0.9 225 3.42 09 0.2 2469 3.42 9 0.23 2.50±0.05 4.7 458 2.77 82 0.20 706 3.2 44 0.20 960 3.32 2 0.9 224 3.58 92 0.2 2468 3.66 8 0.23 2.60±0.05 4.6 455 2.85 73 0.20 705 3.25 32 0.20 957 3.5 97 0.9 222 3.73 85 0.22 2467 3.73 72 0.24 2.70±0.05 4.5 453 3.8 64 0.20 703 3.47 22 0.20 956 3.75 94 0.20 22 3.89 78 0.24 2466 3.89 66 0.25 2.80±0.05 4.5 45 3.25 59 0.20 702 3.62 20 0.20 956 3.93 88 0.20 220 3.97 75 0.24 2466 4.03 65 0.25 2.90±0.05 4.4 450 3.33 56 0.9 702 3.77 7 0.20 956 4.02 84 0.20 220 4.2 73 0.24 2466 4.7 63 0.25 3.00±0.05 4.4 449 3.49 50 0.9 70 3.99 4 0.20 955 4.2 8 0.20 2209 4.26 72 0.24 2465 4.2 6 0.25 3.0±0.05 4.4 448 3.6 48 0.9 700 4.6 09 0.20 952 4.4 79 0.20 2209 4.45 70 0.24 2465 4.33 59 0.25 3.20±0.05 4.3 447 3.7 45 0.9 700 4.3 05 0.20 952 4.62 77 0.9 2208 4.62 69 0.23 2464 4.49 58 0.25 3.30±0.05 4.3 446 3.79 43 0.9 699 4.47 0 0.20 95 4.76 76 0.20 2207 4.8 68 0.23 2464 4.66 55 0.25 3.40±0.05 4.3 446 4.0 38 0.9 698 4.62 0 0.20 950 4.92 75 0.20 2206 4.93 66 0.22 2464 4.92 52 0.24 3.50±0.05 4.2 445 4. 33 0.9 697 4.78 95 0.20 950 5.8 73 0.9 2206 5.2 65 0.23 2463 5.5 5 0.24 3.60±0.05 4.2 445 4.2 30 0.9 697 4.9 94 0.20 949 5.34 7 0.20 2205 5.4 63 0.22 2463 5.25 5 0.24 3.70±0.05 4. 444 4.28 26 0.9 696 5.05 92 0.9 949 5.5 69 0.20 2205 5.62 62 0.22 2462 5.4 49 0.24 3.80±0.05 4 443 4.44 25 0.9 696 5. 90 0.9 948 5.6 67 0.20 2204 5.78 6 0.22 2462 5.66 48 0.24 3.90±0.05 3.9 442 4.72 2 0.9 695 5.26 89 0.9 948 5.77 66 0.2 2204 5.94 60 0.22 246 5.82 47 0.24 4.00±0.05 3.9 44 4.8 2 0.8 694 5.38 88 0.9 947 5.8 66 0.20 2203 6.03 60 0.2 246 5.86 48 0.23 4.0±0.05 3.8 440 4.92 2 0.8 693 5.5 87 0.9 947 5.93 65 0.9 2203 6. 60 0.2 2460 5.9 49 0.23 4.20±0.05 3.8 440 5.0 20 0.8 692 5.63 87 0.8 946 6.05 65 0.8 2203 6.24 59 0.2 2460 5.95 49 0.2 4.30±0.05 3.7 439 5.7 20 0.8 692 5.78 85 0.8 946 6. 64 0.8 2202 6.35 58 0.2 2459 6.0 50 0.20 4.40±0.05 3.7 439 5.28 9 0.8 69 5.9 85 0.8 945 6.23 64 0.8 2202 6.4 57 0.2 2459 6.2 52 0.20 4.50±0.05 3.6 438 5.4 9 0.8 69 6.04 8 0.8 945 6.45 64 0.9 220 6.52 56 0.9 2458 6.23 52 0.9 4.60±0.05 3.6 438 5.49 8 0.7 69 6. 80 0.8 944 6.66 63 0.7 220 6.67 55 0.8 2458 6.29 54 0.9 4.70±0.05 3.5 437 5.6 8 0.7 690 6.23 80 0.8 944 6.72 63 0.7 2200 6.7 56 0.8 2457 6.35 54 0.9 5.0±0.05 3.4 435 6.59 05 0.7 689 7.48 75 0.8 943 7.97 60 0.9 2200 8. 45 0.2 2456 8. 39 0.2 5.60±0.05 3.3 434 7.43 90 0.7 687 8.75 6 0.7 942 0.03 5 0.2 299 0.42 37 0.22 2456 0.07 28 0.23 6.2±0. 3 432 8.27 9 0.5 686 0.2 60 0.5 94.52 48 0.8 298.88 36 0.8 2455.02 33 0.9 6.8±0. 2.8 430 9.4 88 0.3 684.43 58 0.3 940 3.36 45 0.4 296 3.72 37 0.4 2454 2.85 36 0.4 7.5±0. 2.7 429 0.05 85 0.3 683 2.25 56 0.4 939 5.06 40 0.3 295 5.24 35 0.5 2454 3.66 33 0.4 8.2±0. 2.6 428.64 79 0.3 682 4.43 52 0.3 938 6.85 38 0.3 295 6.65 32 0.4 2453 5.32 3 0.4 9.±0. 2.5 427 3.39 60 0.3 68 9.07 33 0.4 937 28.35 25 0.5 294 3.08 5 0.6 2452 29.9 5 0.6 0.0±% 2.4 425 7.6 4 0.4 680 26.5 2 0.6 936 40.6 0.7 294 45.46 8 0.8 2452 39.54 8 0.8.0±% 2.3 424 20.09 36 0.5 679 32.66 9 0.5 935 66.25 8 0.7 292 8.07 5 0.2 245 6.28 6 0.8 2.0±% 2.2 423 24.4 29 0.5 678 43.5 3 0.4 934 92.97 5 0.8 292 23.9 3 0.2 2450 82.44 4 0.9 3.0±% 2.2 47 48.3 8 0.3 67 63.2 5 0.7 934 25 3 0.8 29 0.2 4.0±% 2. 422 39.55 7 0.5 677 22 2 0.2 934 80.3 0.9 29 0.8 5.0±% 2. 42 38.93 20 0.4 676 54 2 0.7 933 244.5 0.6 29 0.6 6.0±% 2 46 79.3 2 0.4 670 0.7 932 0.6 29 0.6 7.0±%.9 45 77.6 0.4 670 0.7 932 0.6 29 0.6 8.0±%.8 4 83.3 9 0.5 675 0.7 932 0.6 282 0.6 9.0±%.8 45 79.6 7 0.5 673 0.6 932 0.6 28 0.6 20.0±%.8 45 78.5 5 0.5 673 0.6 930 0.6 280 0.6 22.0±%.75 45.3 78.8 4 0.5 670.5 0.5 927.5 0.6 278 0.55 * Other tolerances are available, see page 8 3

Accu-F / Accu-P 0603 Typical Electrical Tables Capacitance Self Ref Effective Max Ref Effective Max Ref Effective Max Ref Effective Max & Tolerance* Resonance Freq. Capacitance ESR Freq. Capacitance ESR Freq. Capacitance ESR Freq. Capacitance ESR @ MHz Frequency MHz Max/Min (Ω) MHz Max/Min (Ω) MHz Max/Min (Ω) MHz Max/Min (Ω) (pf) (GHz) (pf) (pf) (pf) (pf) 0.±0.05 8.0 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 0.2±0.05 2.7 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 0.3±0.05 0.4 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 0.4±0.05 9.0 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 0.5±0.05 8. N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 0.6±0.0 7.4 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 0.7±0.0 6.8 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 0.8±0.0 6.4 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 0.9±0.0 6.0 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A.0±0.0 5.7 245.5/0.90.280 49.0/0.90.220 738.0/0.90.220 987.5/0.90.300.±0.0 5.4 244.25/.00.270 490.25/.00.20 736./.00.20 985.25/.00.290.2±0.0 5.2 243.35/.0.260 487.35/.05.200 734.40/.05.20 98.35/.05.280.3±0.0 5.0 242.45/.5.260 486.45/.5.200 732.45/.5.200 974.45/.5.270.4±0.0 4.8 24.55/.25.250 485.55/.25.90 73.45/.25.200 977.55/.25.260.5±0.0 4.7 24.65/.35.250 484.65/.35.80 729.65/.35.90 976.70/.35.250.6±0.0 4.5 240.75/.45.240 483.75/.45.80 727.75/.45.90 973.80/.50.250.7±0.0 4.4 240.85/.55.230 482.85/.60.70 725.85/.60.80 97.90/.60.250.8±0.0 4.2 239 2.0/.70.220 479 2.0/.70.60 723 2.0/.70.70 969 2.5/.70.250.9±0.0 4. 239 2.5/.78.20 478 2.5/.80.60 72 2.5/.80.67 967 2.20/.80.240 2.0±0.0 4.0 238 2./.80.205 477 2./.80.55 720 2./.80.65 966 2.25/.90.230 2.±0.0 3.9 237 2.25/.95.200 475 2.25/.98.50 78 2.35/.98.62 964 2.35/2.00.220 2.2±0.0 3.8 236 2.40/2.05.90 474 2.45/2.05.45 77 2.42/2.05.60 962 2.45/2.0.20 2.4±0.25 3.7 234 2.70/2.5.75 47 2.75/2.5.40 73 2.80/2.5.50 958 2.80/2.5.200 2.7±0.25 3.5 232 3.00/2.45.60 468 3.0/2.45.25 709 3.0/2.45.45 954 3.5/2.48.90 3.0±0.25 3.3 230 3.40/2.75.50 465 3.40/2.75.20 706 3.40/2.75.40 95 3.60/2.80.70 3.3±0.25 3. 226 3.60/3.05.30 459 3.70/3.05.20 699 3.70/3.05.30 945 3.80/3.0.65 3.6±0.25 3.0 224 3.90/3.30.28 456 4.25/3.35.9 697 3.90/3.35.25 942 4.0/3.40.60 3.9±0.25 2.9 223 4.20/3.65.25 455 4.35/3.70.5 695 4.90/3.75.20 940 5.5/3.75.50 4.3±0.25 2.7 220 4.60/4.00.22 45 4.80/4.05.7 692 5.0/4.05.5 937 5.30/4.05.50 4.7±0.25 2.6 28 5.00/4.45.20 448 5.20/4.45.0 689 5.30/4.50.5 935 5.50/4.55.45 5.±0.25 2.5 26 5.40/4.85.5 445 5.70/4.89.05 686 6.00/4.90.5 93 6.20/5.00.40 5.6±0.25 2.4 24 5.90/5.35.0 443 6.0/5.35.00 684 6.5/5.40.0 929 6.50/5.50.35 6.2±0.25 2.3 2 6.50/5.95.05 439 6.90/5.95.099 680 7.0/6.00.0 927 8.00/6.0.30 6.8±0.25 2.2 208 7.20/6.55.00 435 7.25/6.55.099 677 7.50/6.60.0 925 9.00/6.65.30 7.5±0.50 2. 205 8.0/7.00.095 432 8.0/7.00.099 675 8.20/7.00.0 925 9.50/7.05.25 8.2±0.50 2.0 202 8.80/7.70.090 429 8.80/7.70.098 672 9.00/7.70.0 92 0.00/7.80.25 9.±0.50.9 200 9.80/8.60.090 425 0.95/8.65.098 670 2.00/9.00.0 99 3.00/9.0.20 0±5%.8 95 0.70/9.50.085 422.60/9.50.097 667 2.50/9.60.0 97 6.00/9.90.20 ±5%.7 9.60/0.90.085 420 2.20/0.60.095 665 3.20/0.50.0 96 7.00/0.00.20 2±5%.6 89 2.90/.40.085 48 3.40/.50.095 663 4.60/.90.0 94 8.00/2.00.20 3±5%.6 87 3.0/2.90.080 46 4.00/3.00.095 66 6.00/3.50.0 93 2.00/4.00.20 4±5%.5 85 4.90/3.25.080 44 6.90/4.00.090 660 9.00/5.00.0 92 26.00/5.00.20 5±5%.5 82 5.90/4.25.080 42 7.50/5.30.090 659 2.00/6.50.00 9 29.00/7.00.20 6±5%.4 79 7.00/5.5.070 40 8.00/5.90.085 657 22.00/7.00.00 90 30.00/8.00.20 8±5%.3 76 9.50/7.00.070 408 20.20/7.0.085 656 23.70/9.00.00 908 33.00/2.00.20 22±5%.2 70 24.00/20.90.066 404 25.00/20.90.080 654 28.00/2.00.0 906 39.00/2.50.20 24±5%.2 68 26.00/22.80.066 403 30.00/23.00.080 653 N/A.0 905 N/A.20 27±5%. 65 29.00/25.60.065 402 36.00/27.00.080 652 N/A.0 905 N/A.20 30±5%.0 63 32.00/28.50.064 40 40.00/30.00.080 65 N/A.0 904 N/A.20 33±5%.0 60 37.65/3.35.064 400 45.00/33.00.080 650 N/A.0 904 N/A.20 * Other tolerances are available, see page 8 4

Accu-F / Accu-P 0805 Typical Electrical Tables Capacitance Self Ref Effective Max Ref Effective Max Ref Effective Max Ref Effective Max & Tolerance* Resonance Freq. Capacitance ESR Freq. Capacitance ESR Freq. Capacitance ESR Freq. Capacitance ESR @ MHz Frequency MHz Max/Min (Ω) MHz Max/Min (Ω) MHz Max/Min (Ω) MHz Max/Min (Ω) (pf) (GHz) (pf) (pf) (pf) (pf) 0.±0.05 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 0.2±0.05 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 0.3±0.05 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 0.4±0.05 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 0.5±0.05 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 0.6±0.0 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 0.7±0.0 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 0.8±0.0 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 0.9±0.0 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A.0±0.0 5.6 250.20/0.90.320 500.20/0.90.300 750.20/0.90.270 999.20/0.90.300.±0.0 5.4 248.30/.00.290 496.30/.00.270 754.30/.00.250 993.30/.00.290.2±0.0 5. 245.40/.0.270 492.40/.0.250 739.40/.0.240 987.40/.0.280.3±0.0 4.9 243.50/.20.260 488.50/.20.230 734.50/.0.230 980.50/.20.270.4±0.0 4.8 242.60/.30.240 487.60/.20.220 733.60/.20.220 979.60/.30.260.5±0.0 4.6 242.70/.40.230 486.70/.40.20 73.70/.40.220 977.70/.40.260.6±0.0 4.5 24.80/.50.220 484.85/.50.20 729 2.00/.50.220 975 2.00/.50.250.7±0.0 4.3 240.90/.60.20 483.95/.60.200 728 2.05/.60.20 974 2.20/.60.240.8±0.0 4.2 239 2.00/.70.200 482 2.05/.70.90 726 2.0/.70.20 972 2.30/.70.230.9±0.0 4. 239 2.0/.80.200 48 2.5/.80.90 724 2.25/.80.200 970 2.40/.80.230 2.0±0.0 4.0 238 2.20/.90.90 479 2.30/.90.80 722 2.40/.90.200 967 2.60/.95.220 2.±0.0 3.9 237 2.30/2.00.90 477 2.40/2.00.70 720 2.60/2.00.90 964 2.80/2.06.20 2.2±0.0 3.8 236 2.40/2.0.80 475 2.60/2.0.70 76 2.80/2.4.90 962 3.06/2.7.20 2.4±0.25 3.6 235 2.85/2.5.70 473 3.3/2.29.70 74 3.7/2.30.90 960 3.3/2.3.20 2.7±0.25 3.4 233 3.9/2.45.60 470 3.47/2.55.50 7 3.52/2.60.70 957 3.67/2.60.200 3.0±0.25 3.3 23 3.5/2.75.50 465 3.76/2.86.40 707 3.84/2.93.60 952 4.00/3.00.90 3.3±0.25 3. 229 3.83/3.05.40 463 4.04/3.0.40 704 4.5/3.9.60 948 4.38/3.30.90 3.6±0.25 3.0 228 4.6/3.35.40 462 4.35/3.42.30 704 4.50/3.53.50 947 4.80/3.60.90 3.9±0.25 2.9 227 4.48/3.65.30 459 4.67/3.72.20 70 4.85/3.86.50 944 5.23/3.90.80 4.3±0.25 2.7 223 4.9/4.05.30 456 5./4.3.20 697 5.32/4.25.50 940 5.79/4.50.80 4.7±0.25 2.6 220 5.35/4.45.20 45 5.52/4.53.0 69 5.79/4.60.40 936 6.36/4.80.70 5.±0.25 2.5 28 5.78/4.85.20 447 5.94/4.94.0 688 6.25/5.20.40 934 7.6/5.74.60 5.6±0.25 2.4 25 6.00/5.35.00 444 6.82/5.40.00 684 7.27/5.60.20 930 8.25/5.90.50 6.2±0.25 2.3 22 7.00/5.95.00 442 7.52/6.00.00 683 8.08/6.0.20 927 9.35/6.80.50 6.8±0.25 2.2 208 7.20/6.55.00 435 8.2/6.88.00 677 8.90/6.96.20 925 0.46/7.32.50 7.5±0.05 2. 206 8.64/7.00.00 434 9.02/7.0.00 675 9.85/7.50.20 924.75/8.42.50 8.2±0.05 2.0 203 9.40/7.70.090 432 9.83/7.90.080 673 0.80/8.25.0 922 3.04/9.53.50 9.±0.05.9 99 0.37/8.60.080 429 0.88/8.76.080 670 2.02/9.0.0 920 4.70/0.70.50 0±5%.8 96.00/9.50.080 423.92/9.76.080 668 3.24/0.00.0 98 5.37/.80.40 ±5%.8 93 2.50/0.45.080 420 3.23/0.50.080 665 5.07/.00.0 96 6.00/2.20.40 2±5%.6 90 3.6/.40.070 48 4.50/.90.080 663 6.90/2.82.0 95 N/A.40 3±5%.6 87 4.75/2.35.070 46 5.80/3.00.080 662 8.87/4.00.0 94 N/A.40 4±5%.5 84 5.88/3.30.070 44 7.22/4.00.080 66 20.84/6.00.0 93 N/A.40 5±5%.5 82 7.02/4.25.070 44 8.56/5.9.080 660 22.62/9.3.0 92 N/A.30 6±5%.4 79 8.6/5.20.070 4 9.90/6.28.080 659 27.00/20.89.00 9 N/A.30 8±5%.3 76 20.42/7.0.070 408 22.69/8.57.070 657 33.00/22.0.00 90 N/A.30 20±5%.3 73 22.70/9.00.060 406 25.38/20.78.070 656 38.00/23.5.00 908 N/A.30 22±5%.2 7 24.95/20.90.060 405 28.08/2.00.070 655 42.00/24.00.00 907 N/A.30 24±5%.2 68 27.20/22.80.060 403 3.3/25.6.070 654 N/A.090 907 N/A.30 27±5%. 65 30.78/25.69.060 40 36.0/32.20.070 652 N/A.090 906 N/A.30 30±5%.0 63 34.23/28.50.050 400 40.58/33.20.070 65 N/A.090 905 N/A.30 33±5%.0 59 37.85/3.35.050 399 46.65/35.00.070 650 N/A.090 904 N/A.20 36±5% 0.9 57 4.9/34.20.050 397 52.22/38.00.070 649 N/A.090 903 N/A.20 39±5% 0.9 55 44.79/37.05.050 396 59.08/47.08.070 648 N/A.090 902 N/A.20 43±5% 0.9 53 49.99/40.85.050 395 70.50/53.04.060 647 N/A.090 90 N/A.20 47±5% 0.8 52 55.9/44.65.050 394 8.99/59.00.060 646 N/A.090 900 N/A.0 * Other tolerances are available, see page 8 5

Accu-P 20 Typical Electrical Tables Capacitance Self Ref Effective Max Ref Effective Max Ref Effective Max Ref Effective Max & Tolerance* Resonance Freq. Capacitance ESR Freq. Capacitance ESR Freq. Capacitance ESR Freq. Capacitance ESR @ MHz Frequency (MHz) Max/Min (Ω) (MHz) Max/Min (Ω) (MHz) Max/Min (Ω) (MHz) Max/Min (Ω) (pf) (GHz) (pf) (pf) (pf) (pf).0±0.25 4.98 247.23/0.75.350 495.34/0.86.260 745.46/0.94.280 995.6/0.99.350.2±0.25 4.55 245.32/0.95.30 49.45/.00.240 739.64/..260 987 2.00/.2.320.5±0.25 4.07 242.6/.23.250 486.75/.3.230 73.82/.95.250 978 2./.4.270.8±0.25 9.7 240 2./.55.200 482 2.2/.56.200 73 2.4/.6.200 978 2.54/.7.20 2.2±0.25 9.96 237 2.48/.95.70 476 2.68/2.00.70 727 2.85/2..80 969 3.02/2.2.200 2.7±0.25 2.70 233 3.42/2.45.40 466 3.49/2.55.40 708 3.73/2.63.50 952 3.89/2.70.70 3.3±0.25 2.60 229 4.02/3.05.40 463 4.09/3.5.30 704 4.33/3.23.40 948 4.49/3.30.60 3.6±0.25 2.50 228 4.8/3.35.30 462 4.32/3.43.30 704 4.50/3.32.40 947 4.78/3.45.60 3.9±0.25 2.40 227 4.53/3.65.30 458 4.66/3.73.20 70 4.85/3.75.40 944 5.8/3.90.50 4.3±0.25 2.30 223 5.0/4.05.20 456 5./4.4.0 697 5.32/4.29.30 940 5.72/4.30.40 4.7±0.25 2.20 220 5.48/4.45.20 45 5.62/4.50.0 69 5.94/4.60.30 936 6.56/4.70.40 5.±0.25 2.0 28 5.88/4.85.0 447 6.04/4.90.0 683 6.36/5.0.30 933 7.20/5.40.40 5.6±0.25 2.00 25 6.49/5.35.0 44 6.72/5.56.00 68 7.7/5.67.20 928 8.5/6.00.40 6.2±0.25.90 22 7.9/5.95.00 442 7.26/6.07.00 679 7.99/6.0.0 927 9.8/7.00.30 6.8±0.25.80 208 7.38/6.55.00 435 8.6/6.42.00 677 8.8/6.93.0 925 0.20/7.42.30 7.5±0.25.70 206 8.60/7.90.00 434 8.90/7.25.00 675 9.58/7.60.00 924.36/8.00.30 8.2±0.25.70 203 9.36/7.70.00 432 9.76/7.96.090 673 0.68/8.3.00 922 3.00/9.0.30 9.±0.25.60 99 0.34/8.60.090 429 0.87/8.88.090 670 2.0/9.66.090 920 5./0.25.30 0±5%.50 96.33/9.50.090 423.97/9.79.090 668 3.5/0.05.090 98 7.22/.06.30 ±5%.50 93 2.50/0.45.090 420 3.23/0.83.090 665 5.07/.33.090 96 N/A.30 2±5%.40 90 3.6/.40.080 48 4.59/.90.080 663 6.90/2.82.090 95 N/A.20 3±5%.30 85 4.75/2.35.080 46 5.64/3.00.080 662 8.80/3.60.090 94 N/A.20 4±5%.30 83 5.89/3.30.080 45 7.22/4.00.080 66 20.85/6.00.090 93 N/A.20 5±5%.20 82 7.02/4.25.080 44 8.56/5.9.080 660 22.62/7.00.090 92 N/A.0 6±5%.20 80 8.6/5.20.080 4 9.90/6.28.080 659 25.2/8.00.090 9 N/A.0 8±5%.0 76 20.42/7.0.070 408 22.69/8.57.080 657 30.00/24.00.080 909 N/A.0 20±5%.0 73 22.70/9.00.070 406 25.36/20.78.080 656 35.00/26.00.080 908 N/A.0 22±5%.00 7 24.95/20.90.070 405 28.06/22.96.080 655 42.00/27.00.080 908 N/A.0 24±5% 0.98 68 27.20/22.60.070 403 3.3/25.60.080 654 N/A.080 907 N/A.0 25±5% 0.96 66 26.39/23.75.070 402 32.9/26.00.080 653 N/A.080 907 N/A.0 27±5% 0.92 64 30.78/25.65.070 40 36.0/28.00.070 652 N/A.080 906 N/A.0 28±5% 0.9 63 3.93/26.50.070 40 37.60/30.76.070 65 N/A.080 906 N/A.0 30±5% 0.88 62 34.23/28.50.070 400 40.50/33.20.070 65 N/A.080 905 N/A.0 32±5% 0.85 6 36.5/30.40.070 399 44.63/34.50.070 650 N/A.080 905 N/A.0 33±5% 0.84 59 37.65/3.35.060 399 46.65/35.00.070 650 N/A.080 905 N/A.0 34±5% 0.82 58 38.83/32.30.060 398 48.5/37.00.070 649 N/A.080 904 N/A.0 36±5% 0.80 57 4.20/34.20.060 397 52.22/4.00.070 649 N/A.070 904 N/A.0 39±5% 0.77 55 44.79/37.05.060 396 59.00/43.00.070 649 N/A.070 904 N/A.0 43±5% 0.73 53 49.99/40.85.060 396 70.00/46.00.070 648 N/A.070 904 N/A.0 47±5% 0.70 52 55.69/44.65.060 395 8.00/53.00.070 648 N/A.070 903 N/A.0 * Other tolerances are available, see page 8 6

Accu-F / Accu-P High Frequency Characteristics ESR (mω) 000 900 800 700 600 500 400 300 200 0.8pF.8pF 2.2pF 3.3pF 4.7pF 6.8pF Typical ESR vs. Frequency Accu-P 020 00 0 500 000 500 Frequency (MHz) 2000 2500 3000 Capacitance (pf) 8 7 6 5 4 3 2 Typical SRF vs. Capacitance Accu-P 020 0 3 4 5 6 7 SRF (GHz) 8 9 0 Typical Q vs. Frequency Accu-P 020 000 Q 00 0.8pF.8pF 3.9pF 4.7pF 6.8pF 0 500 000 500 2000 2500 3000 Frequency (MHz) 7

Accu-F / Accu-P High Frequency Characteristics Typical ESR vs. Frequency Accu-P 0402 Typical ESR vs. Frequency Accu-F /Accu-P 0603 0.25 ESR (Ohms).0pF 0.2 2.2pF 0.5 4.7pF 0. 0pF 0.05 Ohm 0. 2.7pF 0pF 22pF 0 0 500 000 500 2000 2500 Measured on Boonton 34A Frequency (MHz) 0.0 0 0.5.5 2 2.5 3GHz Measured on Boonton 34-A (34-A limits measurements to 3GHz) 0000 Typical Q vs. Frequency Accu-P 0402 0000 Typical Q vs. Frequency Accu-F /Accu-P 0603 Q (Logarithmic Scale) 000 00 0 0 500 000 500 Frequency (MHz) pf 2.2 pf 4.7 pf 0 pf 2000 2500 3000 000 00 22pF 0pF 2.7pF 0 0 0.5.5 2 2.5 3GHz Measured on Boonton 34-A (34-A limits measurements to 3GHz) Typical Self Resonant Frequency vs. Capacitance Accu-P 0402 Typical Self Resonant Frequency vs. Capacitance Accu-F /Accu-P 0603 GHz 0 SRF (GHz) 8 7 6 5 4 3 2 0 0 2 4 6 CAPACITANCE (pf) Measured on Wiltron 360 Vector Analyzer 8 0 2 0. 0 00 pf L (self inductance)~ 0.78 nh NOTE L and SRF are obtained from the measured increase in effective capacitance as the frequency is increased Measured on the Boonton 34-A 8

Accu-F / Accu-P High Frequency Characteristics Typical ESR vs. Frequency Accu-F /Accu-P 0805 Typical ESR vs. Frequency Accu-P 20 Ohm 0. pf 3.3pF Ohm 0. pf 3.3pF 0pF 33pF 33pF 0.0 0 0.5.5 2 2.5 3GHz Measured on Boonton 34-A (34-A limits measurements to 3GHz) 0.0 0 0.5.5 2 2.5 3GHz Measured on Boonton 34-A (34-A limits measurements to 3GHz) 0000 Typical Q vs. Frequency Accu-F /Accu-P 0805 0000 Typical Q vs. Frequency Accu-P 20 000 000 00 33pF 0pF 0 0 0.5.5 2 2.5 3GHz Measured on Boonton 34-A (34-A limits measurements to 3GHz) 3.3pF pf 00 pf 0pF 3.3pF 33pF 0 0 0.5.5 2 2.5 3GHz Measured on Boonton 34-A (34-A limits measurements to 3GHz) Typical Self Resonant Frequency vs. Capacitance Accu-F /Accu-P 0805 GHz 0 Typical Self Resonant Frequency vs. Capacitance Accu-P 20 GHz 0 0. 0 00 pf L (self inductance)~ 0.82 nh NOTE L and SRF are obtained from the measured increase in effective capacitance as the frequency is increased Measured on the Boonton 34-A 0. 0 00 pf L (self inductance)~.02 nh NOTE L and SRF are obtained from the measured increase in effective capacitance as the frequency is increased Measured on the Boonton 34-A 9

Accu-F / Accu-P Environmental / Mechanical Characteristics ENVIRONMENTAL CHARACTERISTICS TEST CONDITIONS REQUIREMENT Life (Endurance) 25 C, 2U R,000 hours No visible damage MIL-STD-202F Method 08A C/C 2% for C 5pF C 0.25pF for C<5pF Accelerated Damp 85 C, 85% RH, U R, 000 hours No visible damage Heat Steady State C/C 2% for C 5pF MIL-STD-202F Method 03B C 0.25pF for C<5pF Temperature Cycling -55 C to +25 C, 5 cycles Accu-P No visible damage MIL-STD-202F Method 07E -55 C to +25 C, 5 cycles Accu-F C/C 2% for C 5pF MIL-STD-883D Method 00.7 C 0.25pF for C<5pF Resistance to Solder Heat 260 C ± 5 C for 0 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 IEC-68-2-58 Components completely immersed in a solder bath at 260±5 C for 60 secs. Dissolution of termination faces 5% of area Dissolution of termination edges 25% of length Adhesion MIL-STD-202F Method 2A A force of 5N applied for 0 secs. No visible damage Termination Bond Strength Tested as shown in diagram No visible damage IEC-68-2-2 Amend. 2 C/C 2% for C 5pF D C 0.25pF for C<5pF D = 3mm Accu-P D = mm Accu-F 45mm 45mm Robustness of Termination IEC-68-2-2 Amend. 2 A force of 5N applied for 0 secs. No visible damage High Frequency Vibration MIL-STD-202F Method 20A, 55Hz to 2000Hz, 20G No visible damage 204D (Accu-P only) Storage 2 months minimum with components stored in as received packaging Good solderability QUALITY & RELIABILITY Accu-P is based on well established thin-film technology and materials. ON-LINE PROCESS CONTROL This program forms an integral part of the production cycle and acts as a feedback system to regulate and control production processes. The test procedures, which are integrated into the production process, were developed after long research work and are based on the highly developed semiconductor industry test procedures and equipment. These measures help AVX to produce a consistent and high yield line of products. FINAL QUALITY INSPECTION Finished parts are tested for standard electrical parameters and visual/mechanical characteristics. Each production lot is 00% evaluated for: capacitance and proof voltage at 2.5 U R. In addition, production is periodically evaluated for: 20 Average capacitance with histogram printout for capacitance distribution; IR and Breakdown Voltage distribution; Temperature Coefficient; Solderability; Dimensional, mechanical and temperature stability. QUALITY ASSURANCE The reliability of these thin-film chip capacitors has been studied intensively for several years. Various measures have been taken to obtain the high reliability required today by the industry. Quality assurance policy is based on well established international industry standards. The reliability of the capacitors is determined by accelerated testing under the following conditions: Life (Endurance) 25 C, 2U R, 000 hours Accelerated Damp Heat Steady State 85 C, 85% RH, U R, 000 hours.

Accu-F / Accu-P Performance Characteristics RF Power Applications RF POWER APPLICATIONS In RF power applications capacitor losses generate heat. Two factors of particular importance to designers are: Minimizing the generation of heat. Dissipating heat as efficiently as possible. CAPACITOR HEATING The major source of heat generation in a capacitor in RF power applications is a function of RF current (I) and ESR, from the relationship: Power dissipation = I 2 RMS x ESR Accu-P capacitors are specially designed to minimize ESR and therefore RF heating. Values of ESR for Accu-P capacitors are significantly less than those of ceramic MLC components currently available. HEAT DISSIPATION Heat is dissipated from a capacitor through a variety of paths, but the key factor in the removal of heat is the thermal conductivity of the capacitor material. The higher the thermal conductivity of the capacitor, the more rapidly heat will be dissipated. The table below illustrates the importance of thermal conductivity to the performance of Accu-P in power applications. Amps 8 6 4 2 PRODUCT MATERIAL THERMAL CONDUCTIVITY W/mK Accu-P Alumina 8.9 Microwave MLC Magnesium Titanate 6.0 Power Handling Accu-P 0pF 20 0805 0805 0603 0402 Data used in calculating the graph: Thermal impedance of capacitors: 0402 7 C/W 0603 2 C/W 0805 6.5 C/W 20 5 C/W Thermal impedance measured using RF generator, amplifier and strip-line transformer. ESR of capacitors measured on Boonton 34A 0 0 200 400 600 800 000 200 400MHz THERMAL IMPEDANCE Thermal impedance of Accu-P chips is shown below compared with the thermal impedance of Microwave MLC s. CAPACITOR TYPE CHIP SIZE THERMAL IMPEDANCE ( C/W) Accu-P 0805 6.5 20 5 Microwave MLC 0505 2 20 7.5 ADVANTAGES OF ACCU-P IN RF POWER CIRCUITS The optimized design of Accu-P offers the designer of RF power circuits the following advantages: Reduced power losses due to the inherently low ESR of Accu-P. Increased power dissipation due to the high thermal conductivity of Accu-P. THE ONLY TRUE TEST OF A CAPACITOR IN ANY PARTICULAR APPLICATION IS ITS PERFORMANCE UNDER OPERATING CONDITIONS IN THE ACTUAL CIRCUIT. The thermal impedance expresses the temperature difference in C between chip center and termination caused by a power dissipation of watt in the chip. It is expressed in C/W. PRACTICAL APPLICATION IN RF POWER CIRCUITS There is a wide variety of different experimental methods for measuring the power handling performance of a capacitor in RF power circuits. Each method has its own problems and few of them exactly reproduce the conditions present in real circuit applications. Similarly, there is a very wide range of different circuit applications, all with their unique characteristics and operating conditions which cannot possibly be covered by such theoretical testing. 2

Accu-F / Accu-P Application Notes GENERAL Accu-F and Accu-P SMD capacitors are designed for soldering to printed circuit boards or other substrates. The construction of the components is such that they will withstand the time/temperature profiles used in both wave and reflow soldering methods. CIRCUIT BOARD TYPE The circuit board types which may be used with Accu-F and Accu-P are as follows: Accu-F : All flexible types of circuit boards (eg. FR-4, G-0). Accu-P : All flexible types of circuit boards (eg. FR-4, G-0) and also alumina. For other circuit board materials, please consult factory. WAVE SOLDERING DIMENSIONS: millimeters (inches) HANDLING SMD capacitors should be handled with care to avoid damage or contamination from perspiration and skin oils. The use of plastic tipped tweezers or vacuum pick-ups is strongly recommended for individual components. Bulk handling should 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. COMPONENT PAD DESIGN Component pads must be designed to achieve good joints and minimize component movement during reflow soldering. Pad designs are given below for both wave and reflow soldering. 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 components. Pad extension about.0mm for wave soldering..5 (0.059).5 (0.059).06 (0.042) 0.40 (0.06) 0.40 (0.06) 0.26 (0.00) 0.34 (0.03) 2. (0.083) 0.8 (0.03) 0.8 (0.03) 0.5 (0.020) 0.55 (0.022) 3. (0.22).2 (0.047).2 (0.047) 0.7 (0.028) 0.8 (0.03) 3. (0.22).25 (0.049).25 (0.049) 0.6 (0.024) 0.8 (0.03) 4.0 (0.57).0 (0.039) 020 0402 0603 0603 0805 Accu-P Accu-P Accu-F Accu-P Accu-F REFLOW SOLDERING DIMENSIONS: millimeters (inches).5 (0.059).25 (0.049) Accu-P 5.0 (0.97) 2.0 (0.079).5 (0.059).0 (0.039) 2.5 (0.098) 20 Accu-P 0.78 (0.030) 22 0.26 (0.00) 0.26 (0.00) 020 Accu-P 0.26 (0.00) 0.34 (0.03).7 (0.068) 0.6 (0.024) 0.6 (0.024) 0.5 (0.020) 0.55 (0.022) 0402 Accu-P 2.3 (0.09) 0.8 (0.03) 0.7 (0.028) 0.8 (0.03) 0.8 (0.03) 2.3 (0.09) 0.85 (0.033) 0.6 (0.024) 0.85 (0.033) 0.8 (0.03).0 (0.039) 3.0 (0.8).0 (0.039).0 (0.039).25 (0.049) 0603 0603 0805 Accu-F Accu-P Accu-F Accu-P 4.0 (0.57) 2.0 (0.079).0 (0.039) 2.5 (0.098) 20 Accu-P