NR-4018T100M-K中文资料

A FEATURES● Shielded Construction with low DCR ● Inductance ratings to 330 µH● Widely applications, highly recommend to use as DC/DC converters● Operating Temperature range from -40°C to +125°C (Including Self-heating) ● 260°C reflow peak temperature qualifiedB PART NUMBER SYSTEM1ME 3010 - 100 M F ❶ ❷❸❹❺❶Series❷Dimension Code (L*W*H) (mm)1ME Series Code 252010(2.5×2.0×1.0) 252012 (2.5×2.0×1.2) 3010(3.0×3.0×1.0) 3012(3.0×3.0×1.2)❸ Inductance Code 3015(3.0×3.0×1.5) 4010(4.0×4.0×1.0)e.g. Calculation4012(4.0×4.0×1.2)4018(4.0×4.0×1.8)2R2 2.2μH 4020(4.0×4.0×2.0) 4026(4.0×4.0×2.6) 100 10×100μH = 10μH 4030(4.0×4.0×3.0) 5012(5.0×5.0×1.2) 101 10×101μH = 100μH 5020(5.0×5.0×2.0) 5040(5.0×5.0×4.0)6020(6.0×6.0×2.0)6028(6.0×6.0×2.8)❹Inductance Tolerance6045(6.0×6.0×4.5) 8040(8.0×8.0×4.0)M ±20% N ±30% ❺ RoHS Compliant联系电话: 0755‐89455252QQ: 1654690110自动化生产,物美价廉,完美替代太诱/顺络! 欢迎广大同行前来调货!C DRAWINGS AND DIMENSIONSXXX = Inductance valueCase SizeDimensions (mm)Fig.ABC maxDE F H ref.I ref.J ref.1ME252010 2.5±0.1 2.0±0.1 1.0 1.5±0.20.8±0.20.8±0.2 2.00.85 0.8 A 1ME252012 2.5±0.1 2.0±0.1 1.2 1.5±0.20.8±0.20.8±0.2 2.00.85 0.8 A 1ME3010 3.0±0.2 3.0±0.2 1.0 2.5±0.20.75±0.2 1.5±0.2 2.70.8 1.5 B 1ME3012 3.0±0.2 3.0±0.2 1.2 2.5±0.20.75±0.2 1.5±0.2 2.70.8 1.5 B 1ME3015 3.0±0.2 3.0±0.2 1.5 2.5±0.20.75±0.2 1.5±0.2 2.70.8 1.5 B 1ME4010 4.0±0.2 4.0±0.2 1.0 3.3±0.20.95±0.2 2.1±0.2 3.7 1.1 1.9 B 1ME4012 4.0±0.2 4.0±0.2 1.2 3.3±0.20.95±0.2 2.1±0.2 3.7 1.1 1.9 B 1ME4018 4.0±0.2 4.0±0.2 1.8 3.3±0.20.95±0.2 2.1±0.2 3.7 1.1 1.9 B 1ME4020 4.0±0.2 4.0±0.2 2.0 3.3±0.20.95±0.2 2.1±0.2 3.7 1.1 1.9 B 1ME4026 4.0±0.2 4.0±0.2 2.6 3.3±0.20.95±0.2 2.1±0.2 3.7 1.1 1.9 B 1ME4030 4.0±0.2 4.0±0.2 3.0 3.3±0.20.95±0.2 2.1±0.2 3.7 1.1 1.9 B 1ME5012 5.0±0.2 5.0±0.2 1.2 4.0±0.2 1.25±0.2 2.5±0.2 4.4 1.5 2.1 C 1ME5020 5.0±0.2 5.0±0.2 2.0 4.0±0.2 1.25±0.2 2.5±0.2 4.2 1.4 2.3 C 1ME5040 5.0±0.2 5.0±0.2 4.0 4.0±0.2 1.25±0.2 2.5±0.2 4.2 1.4 2.3 C 1ME6020 6.0±0.3 6.0±0.3 2.0 4.9±0.2 1.55±0.3 2.9±0.2 5.7 1.7 2.8 B 1ME6028 6.0±0.3 6.0±0.3 2.8 4.9±0.2 1.55±0.3 2.9±0.2 5.7 1.7 2.8 B 1ME6045 6.0±0.3 6.0±0.3 4.5 4.9±0.2 1.55±0.3 2.9±0.2 5.7 1.7 2.8 B 1ME8040 8.0±0.3 8.0±0.3 4.2 6.3±0.2 2.00±0.34.0±0.27.52.23.8 B联系电话: 0755‐89455252QQ: 1654690110自动化生产,物美价廉,完美替代太诱/顺络! 欢迎广大同行前来调货!D SPECIFICATIONSInductance1DCR2Drawing Part Number μH Tolerance Typ.(Ω)Max.(Ω)Irms3(A)Isat4(A) Fig.1ME252010-R47NF 0.47 ±30% 0.047 0.056 2.35 3.35 A 1ME252010-R68NF 0.68 ±30% 0.062 0.074 2.00 2.75 A 1ME252010-1R0NF 1.0 ±30% 0.090 0.108 1.65 2.20 A 1ME252010-1R5NF 1.5 ±30% 0.152 0.182 1.30 2.10 A 1ME252010-2R2NF 2.2 ±30% 0.174 0.209 1.20 1.60 A 1ME252010-3R3MF 3.3 ±20% 0.273 0.328 0.90 1.30 A 1ME252010-4R7MF 4.7 ±20% 0.469 0.563 0.70 1.15 A 1ME252010-6R8MF 6.8 ±20% 0.747 0.896 0.59 0.92 A 1ME252010-100MF 10 ±20% 0.910 1.092 0.50 0.78 A 1ME252012-R47NF 0.47 ±30% 0.047 0.056 2.15 4.27 A 1ME252012-R68NF 0.68 ±30% 0.057 0.068 1.95 3.68 A 1ME252012-1R0NF 1.0 ±30% 0.069 0.083 1.93 2.90 A 1ME252012-1R2NF 1.2 ±30% 0.099 0.119 1.46 2.67 A 1ME252012-1R5MF 1.5 ±20% 0.113 0.136 1.40 2.51 A 1ME252012-2R2MF 2.2 ±20% 0.166 0.199 1.15 2.07 A 1ME252012-2R7MF 2.7 ±20% 0.184 0.221 1.09 1.92 A 1ME252012-3R3MF 3.3 ±20% 0.203 0.244 1.04 1.80 A1ME252012-3R6MF 3.6 ±20% 0.268 0.322 0.90 1.64 A 1ME252012-4R3MF 4.3 ±20% 0.290 0.348 0.87 1.53 A 1ME252012-4R7MF 4.7 ±20% 0.290 0.348 0.84 1.25 A 1ME252012-5R1MF 5.1 ±20% 0.385 0.462 0.75 1.37 A 1ME252012-5R6MF 5.6 ±20% 0.414 0.497 0.73 1.25 A 1ME252012-6R2MF 6.2 ±20% 0.417 0.500 0.73 1.16 A 1ME252012-6R8MF 6.8 ±20% 0.447 0.536 0.69 1.09 A 1ME252012-7R5MF 7.5 ±20% 0.470 0.564 0.68 1.09 A 1ME252012-8R2MF 8.2 ±20% 0.506 0.607 0.65 1.10 A 1ME252012-9R1MF 9.1 ±20% 0.531 0.637 0.62 1.02 A 1ME252012-100MF 10 ±20% 0.531 0.637 0.62 0.88 A 1ME252012-120MF 12 ±20% 0.827 0.992 0.51 0.88 A 1ME252012-150MF 15 ±20% 1.224 1.469 0.42 0.77 A 1ME252012-220MF 22 ±20% 1.520 1.824 0.38 0.59 A 1ME3010-1R0NF 1.0 ±30% 0.065 0.085 1.45 1.40 B 1ME3010-1R5NF 1.5 ±30% 0.080 0.104 1.30 1.27 B 1ME3010-2R2NF 2.2 ±30% 0.110 0.143 1.09 1.15 B 1ME3010-2R7NF 2.7 ±30% 0.130 0.169 1.02 1.00 B 1ME3010-3R3NF 3.3 ±30% 0.145 0.189 0.96 0.97 B 1ME3010-3R6MF 3.6 ±20% 0.165 0.215 0.90 0.95 B 1ME3010-4R7MF 4.7 ±20% 0.225 0.293 0.77 0.75 B 1ME3010-6R8MF 6.8 ±20% 0.305 0.397 0.66 0.55 B0.400 0.520 0.58 0.55 B 1ME3010-100MF 10 ±20%0.505 0.657 0.52 0.43 B 1ME3010-120MF 12 ±20%0.610 0.793 0.47 0.42 B 1ME3010-150MF 15 ±20%0.930 1.209 0.38 0.35 B 1ME3010-220MF 22 ±20%1.080 1.404 0.35 0.30 B 1ME3010-270MF 27 ±20%1.5502.015 0.30 0.29 B 1ME3010-330MF 33 ±20%1.7502.275 0.28 0.28 B 1ME3010-390MF 39 ±20%1.8002.340 0.27 0.23 B 1ME3010-430MF 43 ±20%1.9502.535 0.26 0.22 B 1ME3010-470MF 47 ±20%2.200 2.860 0.25 0.21 B 1ME3010-510MF 51 ±20%2.3203.016 0.24 0.21 B 1ME3010-560MF 56 ±20%1ME3012-R82NF 0.82 ±30% 0.030 0.039 2.47 2.05 B 1ME3012-1R0NF 1.0 ±30% 0.040 0.052 2.20 1.87 B 1ME3012-1R2NF 1.2 ±30% 0.045 0.059 2.01 2.22 B1ME3012-2R2NF 2.2 ±30% 0.075 0.098 1.55 1.20 B 1ME3012-2R4NF 2.4 ±30% 0.068 0.088 1.60 1.15 B 1ME3012-2R7NF 2.7 ±30% 0.085 0.111 1.48 1.14 B 1ME3012-3R3MF 3.3 ±20% 0.100 0.130 1.36 1.05 B 1ME3012-3R9MF 3.9 ±20% 0.145 0.189 1.24 1.00 B 1ME3012-4R7MF 4.7 ±20% 0.120 0.156 1.24 0.90 B 1ME3012-6R8MF 6.8 ±20% 0.190 0.247 0.98 0.75 B 1ME3012-100MF 10 ±20% 0.265 0.345 0.83 0.60 B 1ME3012-120MF 12 ±20% 0.345 0.449 0.73 0.48 B 1ME3012-150MF 15 ±20% 0.360 0.468 0.71 0.45 B 1ME3012-180MF 18 ±20% 0.545 0.709 0.58 0.43 B 1ME3012-220MF 22 ±20% 0.645 0.839 0.53 0.42 B 1ME3012-270MF 27 ±20% 0.870 1.131 0.47 0.36 B 1ME3012-330MF 33 ±20% 0.875 1.138 0.46 0.35 B 1ME3012-360MF 36 ±20% 0.950 1.235 0.44 0.34 B 1ME3012-390MF 39 ±20% 1.330 1.729 0.37 0.30 B 1ME3012-470MF 47 ±20% 1.450 1.885 0.35 0.27 B 1ME3012-680MF 68 ±20% 1.670 2.171 0.33 0.24 B 1ME3012-820MF 82 ±20% 2.540 3.302 0.27 0.17 B 1ME3012-101MF 100 ±20% 2.860 3.718 0.25 0.21 B 1ME3015-1R0NF 1.0 ±30% 0.030 0.039 2.35 2.32 B 1ME3015-1R2NF 1.2 ±30% 0.040 0.052 1.95 2.21 B 1ME3015-1R5NF 1.5 ±30% 0.050 0.065 1.70 2.30 B 1ME3015-1R8NF 1.8 ±30% 0.050 0.065 1.70 1.75 B 1ME3015-2R2NF 2.2 ±30% 0.060 0.078 1.60 1.60 B 1ME3015-2R7NF 2.7 ±30% 0.075 0.098 1.43 1.52 B 1ME3015-3R3MF 3.3 ±20% 0.080 0.104 1.36 1.32 B 1ME3015-3R6MF 3.6 ±20% 0.105 0.137 1.20 1.28 B 1ME3015-4R3MF 4.3 ±20% 0.115 0.150 1.14 1.20 B 1ME3015-4R7MF 4.7 ±20% 0.125 0.163 1.09 1.10 B 1ME3015-5R1MF 5.1 ±20% 0.133 0.173 1.05 1.00 B 1ME3015-6R2MF 6.2 ±20% 0.195 0.254 0.86 1.00 B 1ME3015-6R8MF 6.8 ±20% 0.200 0.260 0.85 0.85 B 1ME3015-100MF 10 ±20% 0.250 0.325 0.77 0.72 B 1ME3015-120MF 12 ±20% 0.320 0.416 0.68 0.70 B 1ME3015-150MF 15 ±20% 0.350 0.455 0.65 0.66 B 1ME3015-180MF 18 ±20% 0.430 0.559 0.59 0.56 B 1ME3015-220MF 22 ±20% 0.460 0.598 0.57 0.52 B 1ME3015-270MF 27 ±20% 0.730 0.949 0.45 0.48 B 1ME3015-330MF 33 ±20% 0.820 1.066 0.43 0.44 B 1ME3015-390MF 39 ±20% 0.995 1.294 0.39 0.41 B 1ME3015-430MF 43 ±20% 1.060 1.378 0.37 0.37 B 1ME3015-470MF 47 ±20% 1.250 1.625 0.35 0.35 B 1ME3015-560MF 56 ±20% 1.280 1.664 0.34 0.33 B 1ME3015-620MF 62 ±20% 1.610 2.093 0.30 0.30 B 1ME3015-680MF 68 ±20% 2.700 3.510 0.23 0.28 B 1ME4010-1R0NT 1.0 ±30% 0.0560.0671.902.00 B 1ME4010-1R5NT 1.5 ±30% 0.0700.084 1.70 1.68 B 1.10 B 0.95 B0.80 B 0.62 B 0.54 B 0.45 B 联系电话: 0755‐89455252QQ: 1654690110 自动化生产,物美价廉,完美替代太诱/顺络!欢迎广大同行前来调货!1ME4012-1R5NF 1.5 ±30% 0.0650.085 1.46 2.10 B 1ME4012-1R8NF 1.8 ±30% 0.0800.104 1.32 2.12 B 1ME4012-2R2NF 2.2 ±30% 0.0800.104 1.32 1.76 B 1ME4012-2R7NF 2.7 ±30% 0.0900.117 1.25 1.90 B 1ME4012-3R3NF 3.3 ±30% 0.110 0.143 1.12 1.72 B 1ME4012-3R6NF 3.6 ±30% 0.110 0.143 1.12 1.20 B 1ME4012-4R3NF 4.3 ±30% 0.140 0.182 1.00 1.58 B 1ME4012-4R7NF 4.7 ±30% 0.125 0.163 1.05 1.15 B 1ME4012-5R1NF 5.1 ±30% 0.155 0.202 0.95 1.55 B 1ME4012-5R6NF 5.6 ±30% 0.140 0.182 1.00 1.00 B 1ME4012-6R8MF 6.8 ±20% 0.198 0.257 0.84 0.85 B0.265 0.345 0.77 0.80 B 1ME4012-100MF 10 ±20%0.290 0.377 0.70 0.66 B 1ME4012-120MF 12 ±20%0.340 0.442 0.64 0.56 B 1ME4012-150MF 15 ±20%0.470 0.611 0.55 0.55 B 1ME4012-180MF 18 ±20%0.587 0.763 0.49 0.46 B 1ME4012-220MF 22 ±20%1ME4012-270MF 27 ±20%0.720 0.936 0.45 0.50 B0.810 1.053 0.42 0.42 B 1ME4012-330MF 33 ±20%1ME4012-360MF 36 ±20%0.900 1.170 0.40 0.40 B1.100 1.430 0.37 0.55 B 1ME4012-390MF 39 ±20%1.100 1.430 0.37 0.35 B 1ME4012-470MF 47 ±20%1.250 1.625 0.33 0.33 B 1ME4012-560MF 56 ±20%1.9502.535 0.27 0.38 B 1ME4012-680MF 68 ±20%2.140 2.782 0.26 0.28 B 1ME4012-820MF 82 ±20%2.210 2.873 0.25 0.25 B 1ME4012-101MF 100 ±20%1ME4018-1R0NF 1.0 ±30% 0.025 0.033 2.00 4.80 B 1ME4018-1R5NF 1.5 ±30% 0.030 0.039 1.80 3.35 B 1ME4018-2R2MF 2.2 ±20% 0.045 0.059 1.65 2.70 B 1ME4018-3R3MF 3.3 ±20% 0.070 0.091 1.23 2.45 B 1ME4018-4R7MF 4.7 ±20% 0.090 0.117 1.20 1.70 B 1ME4018-6R8MF 6.8 ±20% 0.110 0.143 1.06 1.45 B 1ME4018-100MF 10 ±20%0.180 0.234 0.84 1.30 B0.250 0.325 0.65 0.94 B 1ME4018-150MF 15 ±20%0.360 0.468 0.59 0.80 B 1ME4018-220MF 22 ±20%0.530 0.689 0.49 0.56 B 1ME4018-330MF 33 ±20%0.650 0.845 0.42 0.57 B 1ME4018-470MF 47 ±20%1.000 1.300 0.32 0.47 B 1ME4018-680MF 68 ±20%1.7502.275 0.25 0.40 B 1ME4018-101MF 100 ±20%2.5003.250 0.22 0.31 B 1ME4018-151MF 150 ±20%4.0005.200 0.17 0.27 B 1ME4018-221MF 220 ±20%0.029 0.038 2.15 4.78 B 1ME4020-1R0NF 1 ±30%1ME4020-1R2NF 1.2 ±30% 0.029 0.038 2.15 5.10 B 1ME4020-1R5NF 1.5 ±30% 0.035 0.046 1.98 4.45 B 1ME4020-2R2NF 2.2 ±30% 0.040 0.052 1.85 3.40 B 1ME4020-3R3MF 3.3 ±20% 0.070 0.091 1.40 3.20 B 1ME4020-3R6MF 3.6 ±20% 0.055 0.072 1.54 2.80 B 1ME4020-4R7MF 4.7 ±20% 0.075 0.098 1.34 2.35 B 1ME4020-5R1MF 5.1 ±20% 0.085 0.111 1.27 2.30 B 1ME4020-5R6MF 5.6 ±20% 0.090 0.117 1.22 2.20 B 1ME4020-6R2MF 6.2 ±20% 0.115 0.150 1.08 2.15 B 1ME4020-6R8MF 6.8 ±20% 0.125 0.163 1.04 2.20 B 1ME4020-7R5MF 7.5 ±20% 0.115 0.150 1.08 1.85 B 1ME4020-8R2MF 8.2 ±20% 0.125 0.163 1.04 1.75 B0.165 0.215 0.90 1.60 B 1ME4020-100MF 10 ±20%0.175 0.228 0.88 1.50 B 1ME4020-120MF 12 ±20%1ME4020-220MF 22 ±20% 0.350 0.455 0.62 1.05 B 1ME4020-270MF 27 ±20% 0.545 0.709 0.50 1.02 B 1ME4020-330MF 33 ±20% 0.550 0.715 0.49 0.85 B 1ME4020-390MF 39 ±20% 0.650 0.845 0.46 0.82 B 1ME4020-430MF 43 ±20% 0.660 0.858 0.45 0.77 B 1ME4020-470MF 47 ±20% 0.710 0.923 0.44 0.74 B 1ME4020-510MF 51 ±20% 0.750 0.975 0.42 0.70 B 1ME4020-560MF 56 ±20% 0.800 1.040 0.41 0.66 B 1ME4020-620MF 62 ±20% 0.900 1.170 0.39 0.65 B 1ME4020-680MF 68 ±20% 1.060 1.378 0.36 0.61 B 1ME4020-750MF 75 ±20% 1.160 1.508 0.35 0.70 B 1ME4020-820MF 82 ±20% 1.170 1.521 0.34 0.50 B 1ME4020-101MF 100 ±20% 1.550 2.015 0.31 0.48 B 1ME4026-1R2NF 1.2 ±30% 0.030 0.039 2.30 3.10 B 1ME4026-1R5NF 1.5 ±30% 0.030 0.039 2.30 2.40 B 1ME4026-2R2MF 2.2 ±20% 0.040 0.052 2.00 2.10 B 1ME4026-3R3MF 3.3 ±20% 0.050 0.065 1.70 1.80 B 1ME4026-4R7MF 4.7 ±20% 0.055 0.072 1.60 1.45 B 1ME4026-6R8MF 6.8 ±20% 0.065 0.085 1.50 1.30 B 1ME4026-100MF 10 ±20% 0.085 0.111 1.30 1.00 B 1ME4026-150MF 15 ±20% 0.110 0.143 1.10 0.90 B 1ME4026-220MF 22 ±20% 0.165 0.215 0.90 0.60 B 1ME4026-330MF 33 ±20% 0.270 0.351 0.70 0.55 B 1ME4026-470MF 47 ±20% 0.300 0.390 0.65 0.40 B 1ME4030-R91NF 0.91 ±30% 0.013 0.017 4.00 6.25 B 1ME4030-1R2NF 1.2 ±30% 0.015 0.020 3.82 5.80 B 1ME4030-1R5NF 1.5 ±30% 0.020 0.026 3.34 4.84 B 1ME4030-1R8NF 1.8 ±30% 0.028 0.036 3.00 4.80 B 1ME4030-2R2NF 2.2 ±30% 0.030 0.039 2.95 4.40 B 1ME4030-3R3MF 3.3 ±20% 0.040 0.052 2.40 3.30 B 1ME4030-4R3MF 4.3 ±20% 0.055 0.072 2.10 2.95 B 1ME4030-4R7MF 4.7 ±20% 0.060 0.078 2.00 2.90 B 1ME4030-5R6MF 5.6 ±20% 0.065 0.085 1.95 2.60 B 1ME4030-6R8MF 6.8 ±20% 0.090 0.117 1.60 2.75 B 1ME4030-7R5MF 7.5 ±20% 0.085 0.111 1.65 2.20 B 1ME4030-8R2MF 8.2 ±20% 0.090 0.117 1.60 2.10 B 1ME4030-100MF 10 ±20% 0.100 0.130 1.50 1.95 B 1ME4030-120MF 12 ±20% 0.135 0.176 1.30 1.70 B 1ME4030-150MF 15 ±20% 0.190 0.247 1.11 1.65 B 1ME4030-180MF 18 ±20% 0.200 0.260 1.10 1.40 B 1ME4030-220MF 22 ±20% 0.225 0.293 1.00 1.30 B 1ME4030-330MF 33 ±20% 0.330 0.429 0.84 1.10 B 1ME4030-360MF 36 ±20% 0.335 0.436 0.83 1.05 B 1ME4030-390MF 39 ±20% 0.435 0.566 0.73 1.03 B 1ME4030-470MF 47 ±20% 0.445 0.579 0.72 0.95 B 1ME4030-510MF 51 ±20% 0.470 0.611 0.70 0.90 B 1ME4030-560MF 56 ±20% 0.555 0.722 0.65 0.85 B 1ME4030-620MF 62 ±20% 0.585 0.761 0.63 0.80 B 1ME4030-680MF 68 ±20% 0.868 1.128 0.52 0.72 B 1ME4030-750MF 75 ±20% 1.020 1.326 0.48 0.70 B 0.65 B 0.60 B0.55 B4.40 C 3.70 C 联系电话: 0755‐89455252QQ: 1654690110 自动化生产,物美价廉,完美替代太诱/顺络1ME5012-4R7NF 4.7 ±30% 0.164 0.213 1.50 2.20 C1ME5012-6R8MF 6.8 ±20% 0.245 0.319 1.25 1.75 C0.3440.447 1.05 1.40 C 1ME5012-100MF 10 ±20%0.567 0.92 1.25 C0.4361ME5012-150MF 15 ±20%1ME5020-R47NF 0.47 ±30% 0.013 0.017 4.60 6.15 C1ME5020-R75NF 0.75 ±30% 0.017 0.022 4.00 5.50 C1ME5020-1R0NF 1.0 ±30% 0.020 0.026 3.80 4.10 C1ME5020-1R2NF 1.2 ±30% 0.022 0.029 3.55 4.50 C1ME5020-1R5NF 1.5 ±30% 0.026 0.034 3.20 4.10 C1ME5020-2R2NF 2.2 ±30% 0.032 0.042 2.90 3.20 C1ME5020-2R7NF 2.7 ±30% 0.038 0.049 2.70 2.90 C1ME5020-3R0NF 3.0 ±30% 0.038 0.049 2.70 2.55 C1ME5020-3R3NF 3.3 ±30% 0.043 0.056 2.50 2.55 C1ME5020-3R6NF 3.6 ±30% 0.043 0.056 2.50 2.80 C1ME5020-3R9NF 3.9 ±30% 0.043 0.056 2.50 2.30 C1ME5020-4R3MF 4.3 ±20% 0.057 0.074 2.20 2.50 C1ME5020-4R7MF 4.7 ±20% 0.057 0.074 2.20 2.50 C1ME5020-5R1MF 5.1 ±20% 0.064 0.083 2.05 2.25 C1ME5020-5R6MF 5.6 ±20% 0.064 0.083 2.05 2.30 C1ME5020-6R8MF 6.8 ±20% 0.083 0.108 1.80 2.05 C1ME5020-7R5MF 7.5 ±20% 0.090 0.117 1.75 1.85 C1ME5020-8R2MF 8.2 ±20% 0.098 0.127 1.65 1.85 C1ME5020-9R1MF 9.1 ±20% 0.110 0.143 1.55 1.70 C0.1100.143 1.55 1.70 C 1ME5020-100MF 10 ±20%0.182 1.40 1.50 C0.1401ME5020-120MF 12 ±20%0.215 1.25 1.35 C0.1651ME5020-150MF 15 ±20%0.260 1.15 1.25 C0.2001ME5020-180MF 18 ±20%0.294 1.10 1.15 C0.2261ME5020-220MF 22 ±20%1ME5040-1R0NF 1.0 ±30% 0.012 0.016 4.90 7.35 C1ME5040-1R5NF 1.5 ±30% 0.015 0.020 4.30 6.30 C1ME5040-2R2NF 2.2 ±30% 0.019 0.025 3.80 4.90 C1ME5040-2R7NF 2.7 ±30% 0.022 0.029 3.60 4.30 C1ME5040-3R3NF 3.3 ±30% 0.024 0.031 3.40 3.95 C1ME5040-3R9NF 3.9 ±30% 0.027 0.035 3.20 3.55 C1ME5040-4R7NF 4.7 ±30% 0.030 0.039 3.00 3.50 C1ME5040-6R8MF 6.8 ±20% 0.043 0.056 2.50 2.90 C0.083 2.10 2.35 C 1ME5040-100MF 10 ±20%0.0640.0860.112 2.00 2.00 C 1ME5040-150MF 15 ±20%0.168 1.50 1.60 C0.1291ME5040-220MF 22 ±20%0.1880.244 1.20 1.30 C 1ME5040-330MF 33 ±20%0.354 1.00 1.10 C0.2721ME5040-470MF 47 ±20%0.520 0.80 0.90 C 1ME5040-680MF 68 ±20%0.4000.560 0.728 0.70 0.75 C 1ME5040-101MF 100 ±20%1ME6020-R50NF 0.50 ±30% 0.014 0.018 3.30 4.50 B1ME6020-R68NF 0.68 ±30% 0.017 0.022 3.80 6.55 B1ME6020-R82NF 0.82 ±30% 0.017 0.022 3.80 5.30 B1ME6020-1R0NF 1.0 ±30% 0.020 0.026 3.50 4.15 B1ME6020-1R2NF 1.2 ±30% 0.022 0.029 3.20 5.90 B1ME6020-1R5NF 1.5 ±30% 0.022 0.029 3.20 4.25 B1ME6020-1R8NF 1.8 ±30% 0.028 0.036 2.75 4.85 B1ME6020-2R0NF 2.0 ±30% 0.035 0.046 2.60 4.10 B1ME6020-2R2NF 2.2 ±30% 0.028 0.036 3.75 3.75 B1ME6020-2R7NF 2.7 ±30% 0.035 0.046 2.60 3.90 B1ME6020-3R3NF 3.3 ±30% 0.035 0.046 2.60 3.15 B1ME6020-3R9NF 3.9 ±30% 0.049 0.064 2.10 3.25 B1ME6020-5R6NF 5.6 ±30% 0.058 0.075 1.90 2.40 B 1ME6020-6R2NF 6.2 ±30% 0.079 0.103 1.80 2.30 B 1ME6020-6R8NF 6.8 ±30% 0.079 0.103 1.80 2.20 B 1ME6020-8R2NF 8.2 ±30% 0.105 0.137 1.40 2.10 B 1ME6020-100MF 10 ±20% 0.105 0.137 1.40 1.75 B 1ME6020-120MF 12 ±20% 0.120 0.156 1.30 1.45 B 1ME6020-150MF 15 ±20% 0.145 0.189 1.20 1.20 B 1ME6020-180MF 18 ±20% 0.180 0.234 1.08 1.20 B 1ME6020-220MF 22 ±20% 0.204 0.265 1.00 1.05 B 1ME6028-1R0NF 1.0 ±30% 0.010 0.013 5.20 5.75 B 1ME6028-1R5NF 1.5 ±30% 0.013 0.017 4.58 6.00 B 1ME6028-2R2NF 2.2 ±30% 0.020 0.026 3.75 5.10 B 1ME6028-2R7NF 2.7 ±30% 0.020 0.026 3.75 3.80 B 1ME6028-3R3NF 3.3 ±30% 0.025 0.033 3.48 4.15 B 1ME6028-4R7NF 4.7 ±30% 0.030 0.039 3.08 3.00 B 1ME6028-5R1NF 5.1 ±30% 0.043 0.056 2.60 3.20 B 1ME6028-6R2MF 6.2 ±20% 0.047 0.061 2.40 3.05 B 1ME6028-6R8MF 6.8 ±20% 0.047 0.061 2.40 2.60 B 1ME6028-8R2MF 8.2 ±20% 0.055 0.072 2.25 2.30 B 1ME6028-9R1MF 9.1 ±20% 0.074 0.096 2.15 2.55 B 1ME6028-100MF 10 ±20% 0.072 0.094 1.95 2.04 B 1ME6028-120MF 12 ±20% 0.080 0.104 1.85 1.80 B 1ME6028-150MF 15 ±20% 0.125 0.163 1.45 1.75 B 1ME6028-180MF 18 ±20% 0.120 0.156 1.45 1.52 B 1ME6028-220MF 22 ±20% 0.140 0.182 1.40 1.45 B 1ME6028-270MF 27 ±20% 0.155 0.202 1.32 1.50 B 1ME6028-330MF 33 ±20% 0.185 0.241 1.22 1.35 B 1ME6028-360MF 36 ±20% 0.215 0.280 1.13 1.25 B 1ME6028-390MF 39 ±20% 0.225 0.293 1.10 1.25 B 1ME6028-470MF 47 ±20% 0.315 0.410 1.06 1.15 B 1ME6028-680MF 68 ±20% 0.360 0.4680.86 0.90B 1ME6028-750MF 75 ±20% 0.410 0.533 0.81 0.90 B 1ME6028-820MF 82 ±20% 0.500 0.650 0.70 0.80 B 1ME6028-101MF 100 ±20% 0.500 0.650 0.70 0.65 B 1ME6045-R82NF 0.82 ±30% 0.008 0.010 5.90 10.40 B 1ME6045-1R0NF 1.00 ±30% 0.011 0.014 5.14 9.85 B 1ME6045-1R2NF 1.20 ±30% 0.010 0.013 5.40 8.35 B 1ME6045-1R5NF 1.50 ±30% 0.012 0.016 4.95 8.80 B 1ME6045-1R8NF 1.80 ±30% 0.012 0.016 4.95 7.60 B 1ME6045-2R2NF 2.20 ±30% 0.014 0.018 4.60 6.75 B 1ME6045-2R3NF 2.30 ±30% 0.021 0.027 3.50 6.00 B 1ME6045-2R7NF 2.70 ±30% 0.015 0.020 4.30 5.75 B 1ME6045-3R0NF 3.00 ±30% 0.020 0.026 3.80 5.60 B 1ME6045-3R3NF 3.30 ±30% 0.021 0.027 3.70 5.90 B 1ME6045-3R6NF 3.60 ±30% 0.021 0.027 3.70 5.25 B 1ME6045-4R3MF 4.30 ±20% 0.023 0.030 3.50 4.45 B 1ME6045-4R7MF 4.70 ±20% 0.026 0.034 3.30 4.97 B 1ME6045-5R1MF 5.10 ±20% 0.026 0.034 3.30 4.40 B 1ME6045-5R6MF 5.60 ±20% 0.029 0.038 3.15 4.15 B 1ME6045-6R2MF 6.20 ±20% 0.031 0.040 3.00 4.43B1ME6045-6R8MF 6.80 ±20% 0.031 0.040 3.00 3.90 B 1ME6045-7R5MF 7.50 ±20% 0.034 0.044 2.90 3.50 B 1ME6045-8R2MF 8.20 ±20% 0.043 0.056 2.60 3.90 B1ME6045-9R1MF 9.10 ±20% 0.043 0.056 2.60 3.35 B1ME6045-100MF 10.0 ±20% 0.048 0.062 2.453.20 B联系电话: 0755‐89455252 QQ: 1654690110 自动化生产,物美价廉,完美替代太诱/顺络! 欢迎广大同行前来调货!1ME6045-180MF 18.0 ±20% 0.081 0.105 1.85 2.20 B 1ME6045-220MF 22.0 ±20% 0.089 0.116 1.80 2.05 B 1ME6045-270MF 27.0 ±20% 0.102 0.133 1.65 1.90 B 1ME6045-300MF 30.0 ±20% 0.132 0.172 1.50 1.70 B 1ME6045-330MF 33.0 ±20% 0.137 0.178 1.45 1.65 B 1ME6045-360MF 36.0 ±20% 0.173 0.225 1.40 1.62 B 1ME6045-390MF 39.0 ±20% 0.180 0.234 1.25 1.50 B 1ME6045-430MF 43.0 ±20% 0.200 0.260 1.20 1.63 B 1ME6045-470MF 47.0 ±20% 0.200 0.260 1.20 1.40 B 1ME6045-510MF 51.0 ±20% 0.207 0.269 1.15 1.35 B 1ME6045-560MF 56.0 ±20% 0.221 0.287 1.10 1.30 B 1ME6045-620MF 62.0 ±20% 0.235 0.306 1.10 1.25 B 1ME6045-680MF 68.0 ±20% 0.289 0.376 1.00 1.20 B 1ME6045-750MF 75.0 ±20% 0.305 0.397 0.95 1.15 B 1ME6045-820MF 82.0 ±20% 0.341 0.443 0.90 1.05 B 1ME6045-910MF 91.0 ±20% 0.359 0.467 0.85 1.00 B 1ME6045-101MF 100.0 ±20% 0.433 0.563 0.80 0.95 B 1ME6045-121MF 120.0 ±20% 0.484 0.629 0.77 0.85 B1ME6045-151MF 150.0 ±20% 0.580 0.754 0.70 0.80 B 1ME6045-221MF 220.0 ±20% 0.834 1.084 0.59 0.70 B 1ME6045-331MF 330.0 ±20% 1.270 1.651 0.57 0.57 B 1ME8040-R82NF 0.82 ±30% 0.008 0.010 6.30 13.80 B 1ME8040-1R0NF 1.00 ±30% 0.008 0.010 6.30 9.85 B 1ME8040-1R5NF 1.50 ±30% 0.010 0.013 5.65 8.15 B 1ME8040-2R0NF 2.00 ±30% 0.012 0.016 5.15 9.25 B 1ME8040-2R2NF 2.20 ±30% 0.012 0.016 5.15 7.10 B 1ME8040-3R0NF 3.00 ±30% 0.014 0.018 4.70 6.10 B 1ME8040-3R3NF 3.30 ±30% 0.017 0.022 4.40 6.50 B 1ME8040-3R6NF 3.60 ±30% 0.017 0.022 4.35 7.52 B 1ME8040-3R9NF 3.90 ±30% 0.017 0.022 4.35 5.75 B 1ME8040-4R7NF 4.70 ±30% 0.019 0.025 4.10 5.90 B 1ME8040-5R1NF 5.10 ±30% 0.019 0.025 4.05 4.70 B 1ME8040-5R6NF 5.60 ±30% 0.021 0.027 3.85 6.00 B 1ME8040-6R2NF 6.20 ±30% 0.021 0.027 3.85 4.45 B 1ME8040-6R8MF 6.80 ±20% 0.024 0.031 3.60 4.55 B 1ME8040-8R2MF 8.20 ±20% 0.026 0.034 3.45 4.20 B 1ME8040-100MF 10.0 ±20% 0.029 0.038 3.30 3.60 B 1ME8040-150MF 15.0 ±20% 0.047 0.061 2.60 2.95 B 1ME8040-180MF 18.0 ±20% 0.053 0.069 2.40 2.70 B 1ME8040-220MF 22.0 ±20% 0.069 0.090 2.10 2.40 B 1ME8040-270MF 27.0 ±20% 0.078 0.101 2.00 2.15 B 1ME8040-330MF 33.0 ±20% 0.097 0.126 1.80 2.05 B 1ME8040-360MF 36.0 ±20% 0.102 0.133 1.75 2.00 B 1ME8040-390MF 39.0 ±20% 0.107 0.139 1.70 1.95 B 1ME8040-430MF 43.0 ±20% 0.113 0.147 1.65 1.90 B 1ME8040-470MF 47.0 ±20% 0.136 0.177 1.55 1.75 B 1ME8040-510MF 51.0 ±20% 0.142 0.185 1.50 1.70 B 1ME8040-560MF 56.0 ±20% 0.148 0.192 1.45 1.55 B 1ME8040-620MF 62.0 ±20% 0.182 0.237 1.30 1.50 B 1ME8040-680MF 68.0 ±20% 0.196 0.255 1.25 1.45 B 1ME8040-750MF 75.0 ±20% 0.211 0.274 1.20 1.35 B 1ME8040-820MF 82.0 ±20% 0.225 0.293 1.15 1.30 B 1ME8040-910MF 91.0 ±20% 0.272 0.354 1.05 1.20 B 1ME8040-101MF 100.0 ±20% 0.290 0.377 1.00 1.15 B 1ME8040-121MF 120.0 ±20% 0.334 0.434 0.95 1.05 B1ME8040-221MF 220.0 ±20% 0.599 0.779 0.80 0.85 B 1ME8040-331MF 330.0 ±20% 0.889 1.156 0.64 0.68 B1. Inductance measured @ 100KHz, 0.3V at 25°C temperature.2. DCR measured @ 25°C.3. Irms for an approximate 40°C rise from 20°C ambient temperature.4. Isat for approximate 30% roll off at 25°C.5. Specifications subject to change without notice please check our website for latest information.E TAPE AND REEL SPECIFICATIONS220Case Size Parts per ReelReel Dimensions(REF)Tape Dimensions(REF)ABCDEW P P 0P1H T 1ME252010 2000 178 58 13 13 9.08442 1.20.31ME252012 2000 178 58 13 13 9.08442 1.40.31ME3010 2000 178 58 13 13 9.08442 1.40.31ME3012 2000 178 58 13 13 9.08442 1.60.31ME3015 2000 178 58 13 13 9.08442 1.90.31ME4010 4500 330 100 13 19 12.412842 1.60.31ME4012 4500 330 100 13 19 12.412842 1.60.31ME4018 3000 330 100 13 19 12.412842 2.40.31ME4020 3000 330 100 13 19 12.412842 2.40.31ME4026 2000 330 100 13 19 12.412842 3.40.31ME4030 2000 330 100 13 19 12.412842 3.40.31ME5012 4000 330 100 13 22 12.412842 1.60.31ME5020 2500 330 100 13 22 12.412842 3.00.31ME5040 1500 330 100 13 22 12.412842 4.40.31ME6020 2500 330 100 13 22 12.412842 2.50.41ME6028 2000 330 100 13 19 12.412842 3.30.41ME6045 1500 330 100 13 19 12.412842 4.70.41ME80401000330 100 13 22 16.41612424.40.4联系电话: 0755‐89455252 QQ: 1654690110自动化生产,物美价廉,完美替代太诱/顺络! 欢迎广大同行前来调货!1ME SeriesLow Profile Shielded Power InductorAccetek Electronics (Shenzhen) Co., Ltd. Ver.:1ME ‐2012BAccetekF RECOMMENDED SOLDER REFLOW PROFILEProfile Feature Recommended Conditions Average ramp-up rate 3°C/second max. (Tsmax to Tp)PreheatTemperature Min (Ts min ) 100°C Temperature Max (Ts max ) 150°CTime (Ts min to Ts max )(ts) 60-180 seconds Time maintained above:Temperature (T L ) 217°C Time (t L ) 60-150 secondsPeak Temperature (Tp)See Table2Time within 5°C of actual Peak20-40 seconds Temperature (tp)2Ramp-down Rate6°C/second max.Time 25°C to Peak Temperature8 minutes maxPackage Volume mm 3Volume mm 3 Volume mm 3Thickness <350350 - 2000>2000< 1.6mm 260°C 260°C 260°C 1.6mm - 2.5mm260°C 250°C 245°C>2.5mm 250°C 245°C 245°CTable 2Table 11. The above profiles are based on IPC/JEDEC J-STD-020C.2. Exceeding these conditions may cause lowered product reliability.联系电话: 0755‐89455252QQ: 1654690110自动化生产,物美价廉,完美替代太诱/顺络! 欢迎广大同行前来调货!。

Wire Wound SMD Power Inductors–SNR SeriesOperating temperature range: -40℃~+125℃ (Including self-heating)FEATURESAPPLICATIONSPRODUCT IDENTIFICATION SNR 3012 S 1R0 N T① ② ③ ④ ⑤ ⑥②External Dimensions (L×W×H) [mm]252010 2.5×2.0×1.0 252012 2.5×2.0×1.23010 3.0×3.0×1.0 3012 3.0×3.0×1.2 3015 3.0×3.0×1.5 4010 4.0×4.0×1.04012 4.0×4.0×1.2 4018 4.0×4.0×1.8 4020 4.0×4.0×2.0 4026 4.0×4.0×2.6 4030 4.0×4.0×3.0 5012 5.0×5.0×1.2 5020 5.0×5.0×2.0 5040 5.0×5.0×4.0 6020 6.0×6.0×2.0 6028 6.0×6.0×2.8 6040 6.0×6.0×4.06045 6.0×6.0×4.5 8040 8.0×8.0×4.0③ Feature TypeS Standard⑤ Inductance ToleranceK ±10%M ±20% N ±30%Packing ⑥TTape Carrier Packagez LED Lighting z Next-generation mobile devices with multifunction such as mobile TV and digital movie cameras z Flat-screen TVs, blue-ray disc recorders, set top box z Notebooks, desktop computers, servers, graphic cards cards z Portable gaming devices, personal navigation systems, personal multimedia devices z Automotive systems z T elecomm base stations z Magnetic-resin shielded conruction reduces buzz noise to ultra-low levelsz Metallization on ferrite core results in excellent shock resistance and damage-free durability z Closed magnetic circuit design reduces leakage flux and Electro Magnetic Interference (EMI) z 30% higher current rating than conventional inductors of equal size z T akes up less PCB real estate and save more power④ Nominal InductanceExample Nominal Value1R5 1.5μH 100 10μH① TypeSNRWire Wound SMD Power InductorSHAPE AND DIMENSIONSFig.1 Fig.2Fig.3Unit: mmSeriesShapeABCD E F a Typ.b Typ.c Typ.SNR252010S Fig.1 2.5±0.1 2.0±0.1 1.0Max. 1.5±0.20.80±0.20.80±0.2 0.80 0.85 2.0 SNR252012S Fig.1 2.5±0.1 2.0±0.1 1.2Max. 1.5±0.20.80±0.20.80±0.20.80 0.85 2.0SNR3010S Fig.2 3.0±0.2 3.0±0.2 1.0Max. 2.5±0.20.75±0.2 1.5±0.2 1.5 0.8 2.7 SNR3012S Fig.2 3.0±0.2 3.0±0.2 1.2Max. 2.5±0.20.75±0.2 1.5±0.2 1.5 0.8 2.7 SNR3015S Fig.2 3.0±0.2 3.0±0.2 1.5Max. 2.5±0.20.75±0.2 1.5±0.2 1.5 0.8 2.7 SNR4010S Fig.3 4.0±0.2 4.0±0.2 1.0Max. 3.3±0.20.95±0.2 2.1±0.2 1.9 1.1 3.7 SNR4012S Fig.2 4.0±0.2 4.0±0.2 1.2Max. 3.3±0.20.95±0.2 2.1±0.2 1.9 1.1 3.7 SNR4018S Fig.2 4.0±0.2 4.0±0.2 1.8Max. 3.3±0.20.95±0.2 2.1±0.2 1.9 1.1 3.7 SNR4020S Fig.2 4.0±0.2 4.0±0.2 2.0Max. 3.3±0.20.95±0.2 2.1±0.2 1.9 1.1 3.7 SNR4026S Fig.3 4.0±0.2 4.0±0.2 2.6Max. 3.3±0.20.95±0.2 2.1±0.2 1.9 1.1 3.7 SNR4030S Fig.2 4.0±0.2 4.0±0.2 3.0Max. 3.3±0.20.95±0.2 2.1±0.2 1.9 1.1 3.7 SNR5012S Fig.3 5.0±0.2 5.0±0.2 1.2Max. 4.0±0.2 1.25±0.2 2.5±0.2 2.1 1.5 4.4 SNR5020S Fig.3 5.0±0.2 5.0±0.2 2.0Max. 4.0±0.2 1.25±0.2 2.5±0.2 2.3 1.4 4.2 SNR5040S Fig.3 5.0±0.2 5.0±0.2 4.0Max. 4.0±0.2 1.25±0.2 2.5±0.2 2.3 1.4 4.2 SNR6020S Fig.2 6.0±0.3 6.0±0.3 2.0Max. 4.9±0.3 1.55±0.3 2.9±0.3 2.8 1.7 5.7 SRN6028S Fig.2 6.0±0.3 6.0±0.3 2.8Max. 4.9±0.3 1.55±0.3 2.9±0.3 2.8 1.7 5.7 SNR6040S Fig.2 6.0±0.3 6.0±0.3 4.0Max. 4.9±0.3 1.55±0.3 2.9±0.3 2.8 1.7 5.7 SNR6045S Fig.2 6.0±0.3 6.0±0.3 4.5Max. 4.9±0.3 1.55±0.3 2.9±0.3 2.8 1.7 5.7 SNR8040S Fig.2 8.0±0.3 8.0±0.3 4.2Max.6.3±0.32.00±0.34.0±0.3 3.8 2.2 7.5※*1: All products are printed with Marking except the 252010S, 252012S, 3010S, 3012S and 3015S series.Recommended Land PatternSPECIFICATIONS SWPA252010S SeriesPart NumberInductance@100kHz,1VDC ResistanceMin.Self-resonantFrequencySaturation CurrentHeat RatingCurrent- - Max. Typ. Min. Max. Typ. Typ.Units μH ΩΩMHz A A ASymbol L DCR S.R.F Isat Irms SWPA252010SR47NT 0.47±30% 0.056 0.047202 2.50 3.35 2.35 SWPA252010SR68NT 0.68±30% 0.074 0.062138 2.20 2.75 2.00 SWPA252010S1R0NT 1.0±30% 0.108 0.090100 1.85 2.20 1.65 SWPA252010S1R5NT 1.5±30% 0.182 0.15279 1.80 2.10 1.30 SWPA252010S2R2NT 2.2±30% 0.209 0.17461 1.20 1.60 1.20 SWPA252010S3R3MT 3.3±20% 0.328 0.27348 1.05 1.30 0.90 SWPA252010S4R7MT 4.7±20% 0.563 0.46940 0.95 1.15 0.70 SWPA252010S6R8MT 6.8±20% 0.896 0.74732 0.78 0.92 0.59 SWPA252010S100MT 10±20% 1.092 0.91026 0.65 0.78 0.50SWPA252012S SeriesPart NumberInductance@100kHz,1VDC ResistanceMin.Self-resonantFrequencySaturation CurrentHeat RatingCurrent- - Max. Typ. Min. Max. - -Units μH ΩΩMHz A Units μHSymbol L DCR S.R.F Isat Irms SWPA252012SR47NT 0.47±30% 0.056 0.047160 3.82 4.27 2.15 SWPA252012SR68NT 0.68±30% 0.068 0.057140 3.28 3.68 1.95 SWPA252012S1R0NT 1.0±30% 0.083 0.069110 2.59 2.90 1.93 SWPA252012S1R2NT 1.2±30% 0.119 0.099100 2.38 2.67 1.46 SWPA252012S1R5MT 1.5±20% 0.136 0.113 97 2.24 2.51 1.40 SWPA252012S2R2MT 2.2±20% 0.199 0.16669 1.85 2.07 1.15 SWPA252012S2R7MT 2.7±20% 0.221 0.18463 1.72 1.92 1.09 SWPA252012S3R3MT 3.3±20% 0.244 0.20362 1.61 1.80 1.04 SWPA252012S3R6MT 3.6±20% 0.322 0.26853 1.46 1.64 0.90 SWPA252012S4R3MT 4.3±20% 0.348 0.29051 1.37 1.53 0.87 SWPA252012S4R7MT 4.7±20% 0.348 0.29047 1.12 1.25 0.84 SWPA252012S5R1MT 5.1±20% 0.462 0.38544 1.23 1.37 0.75 SWPA252012S5R6MT 5.6±20% 0.497 0.41438 1.11 1.25 0.73 SWPA252012S6R2MT 6.2±20% 0.500 0.41738 1.03 1.16 0.73 SWPA252012S6R8MT 6.8±20% 0.536 0.44738 0.98 1.09 0.69 SWPA252012S7R5MT 7.5±20% 0.564 0.47035 0.97 1.09 0.68 SWPA252012S8R2MT 8.2±20% 0.607 0.50636 0.98 1.10 0.65 SWPA252012S9R1MT 9.1±20% 0.637 0.53134 0.91 1.02 0.62 SWPA252012S100MT 10±20% 0.637 0.53134 0.79 0.88 0.62 SWPA252012S120MT 12±20% 0.992 0.82728 0.78 0.88 0.51 SWPA252012S150MT 15±20% 1.469 1.22425 0.68 0.77 0.42 SWPA252012S220MT 22±20% 1.824 1.52020 0.53 0.59 0.38Part Number@100kHz,1V (±30%) Self-resonantFrequencyCurrent CurrentUnits μH ΩMHz A ASymbol L DCR S.R.F Isat Irms SWPA3010S1R0NT 1.0±30% 0.065 180 1.40 1.45 SWPA3010S1R5NT 1.5±30% 0.080 120 1.27 1.30 SWPA3010S2R2NT 2.2±30% 0.110 100 1.15 1.09 SWPA3010S2R7NT 2.7±30% 0.130 90 1.00 1.02 SWPA3010S3R3NT 3.3±30% 0.145 74 0.97 0.96 SWPA3010S3R6MT 3.6±20% 0.165 67 0.95 0.90 SWPA3010S4R7MT 4.7±20% 0.225 59 0.75 0.77 SWPA3010S6R8MT 6.8±20% 0.305 42 0.55 0.66 SWPA3010S100MT 10±20% 0.400 39 0.55 0.58 SWPA3010S120MT 12±20% 0.505 36 0.43 0.52 SWPA3010S150MT 15±20% 0.610 30 0.42 0.47 SWPA3010S220MT 22±20% 0.930 28 0.35 0.38 SWPA3010S270MT 27±20% 1.080 25 0.30 0.35 SWPA3010S330MT 33±20% 1.550 18 0.29 0.30 SWPA3010S390MT 39±20% 1.750 18 0.28 0.28 SWPA3010S430MT 43±20% 1.800 18 0.23 0.27 SWPA3010S470MT 47±20% 1.950 18 0.22 0.26 SWPA3010S510MT 51±20% 2.200 18 0.21 0.25 SWPA3010S560MT 56±20% 2.320 16 0.21 0.24SWPA3012S SeriesPart NumberInductance@100kHz,1VDC Resistance(±30%)Min.Self-resonantFrequencySaturationCurrentHeat RatingCurrentUnits μH ΩMHz A A Symbol L DCR S.R.F Isat Irms SWPA3012SR82NT 0.82±30% 0.030 180 2.05 2.47 SWPA3012S1R0NT 1.0±30% 0.040 120 1.87 2.20 SWPA3012S1R2NT 1.2±30% 0.045 120 2.22 2.01 SWPA3012S1R5NT 1.5±30% 0.045 110 1.62 2.01 SWPA3012S1R8NT 1.8±30% 0.063 90 1.30 1.65 SWPA3012S2R2NT 2.2±30% 0.075 84 1.20 1.55 SWPA3012S2R4NT 2.4±30% 0.068 100 1.15 1.60 SWPA3012S2R7NT 2.7±30% 0.085 65 1.14 1.48 SWPA3012S3R3MT 3.3±20% 0.100 64 1.05 1.36 SWPA3012S3R9MT 3.9±20% 0.145 61 1.00 1.24 SWPA3012S4R7MT 4.7±20% 0.120 61 0.90 1.24 SWPA3012S6R8MT 6.8±20% 0.190 61 0.75 0.98 SWPA3012S100MT 10±20% 0.265 42 0.60 0.83 SWPA3012S120MT 12±20% 0.345 32 0.48 0.73 SWPA3012S150MT 15±20% 0.360 27 0.45 0.71 SWPA3012S180MT 18±20% 0.545 25 0.43 0.58 SWPA3012S220MT 22±20% 0.645 23 0.42 0.53 SWPA3012S270MT 27±20% 0.870 21 0.35 0.47 SWPA3012S330MT 33±20% 0.875 18 0.36 0.46 SWPA3012S360MT 36±20% 0.950 18 0.34 0.44 SWPA3012S390MT 39±20% 1.330 18 0.30 0.37 SWPA3012S470MT 47±20% 1.450 14 0.27 0.35 SWPA3012S680MT 68±20% 1.670 12 0.24 0.33Part Number@100kHz,1V (±30%) Self-resonantFrequencyCurrent CurrentUnits μH ΩMHz A ASymbol L DCR S.R.F Isat Irms SWPA3012S820MT 82±20% 2.540 12 0.17 0.27 SWPA3012S101MT 100±20% 2.860 12 0.21 0.25SWPA3015S SeriesPart NumberInductance@100kHz,1VDC Resistance(±30%)Min.Self-resonantFrequencySaturationCurrentHeat RatingCurrentUnits μH ΩMHz A ASymbol L DCR S.R.F Isat Irms SWPA3015S1R0NT 1.0±30% 0.030 150 2.32 2.35 SWPA3015S1R2NT 1.2±30% 0.040 110 2.21 1.95 SWPA3015S1R5NT 1.5±30% 0.050 100 2.30 1.70 SWPA3015S1R8NT 1.8±30% 0.050 92 1.75 1.70 SWPA3015S2R2NT 2.2±30% 0.060 86 1.60 1.60 SWPA3015S2R7NT 2.7±30% 0.075 64 1.52 1.43 SWPA3015S3R3MT 3.3±20% 0.080 68 1.32 1.36 SWPA3015S3R6MT 3.6±20% 0.105 59 1.28 1.20 SWPA3015S4R3MT 4.3±20% 0.115 53 1.20 1.14 SWPA3015S4R7MT 4.7±20% 0.125 46 1.10 1.09 SWPA3015S5R1MT 5.1±20% 0.133 49 1.00 1.05 SWPA3015S6R2MT 6.2±20% 0.195 46 1.00 0.86 SWPA3015S6R8MT 6.8±20% 0.200 39 0.85 0.85 SWPA3015S100MT 10±20% 0.250 41 0.72 0.77 SWPA3015S120MT 12±20% 0.320 32 0.70 0.68 SWPA3015S150MT 15±20% 0.350 30 0.66 0.65 SWPA3015S180MT 18±20% 0.430 23 0.56 0.59 SWPA3015S220MT 22±20% 0.460 23 0.52 0.57 SWPA3015S270MT 27±20% 0.730 22 0.48 0.45 SWPA3015S330MT 33±20% 0.820 20 0.44 0.43 SWPA3015S390MT 39±20% 0.995 14 0.41 0.39 SWPA3015S430MT 43±20% 1.060 16 0.37 0.37 SWPA3015S470MT 47±20% 1.250 14 0.35 0.35 SWPA3015S560MT 56±20% 1.280 13 0.33 0.34 SWPA3015S620MT 62±20% 1.610 13 0.30 0.30 SWPA3015S680MT 68±20% 2.700 11 0.28 0.23 SWPA4010S SeriesPart NumberInductance@100kHz,1VDC Resistance(±20%)Min.Self-resonantFrequencySaturationCurrentHeat RatingCurrentUnits μH ΩMHz A A Symbol L DCR S.R.F Isat Irms SWPA4010S1R0NT 1.0±30% 0.056 116 2.00 1.90 SWPA4010S1R5NT 1.5±30% 0.070 94 1.68 1.70 SWPA4010S2R2MT 2.2±20% 0.085 73 1.20 1.50 SWPA4010S3R3MT 3.3±20% 0.100 58 1.10 1.40 SWPA4010S4R7MT 4.7±20% 0.140 47 0.95 1.20 SWPA4010S6R8MT 6.8±20% 0.200 38 0.80 1.00Part NumberInductance@100kHz,1VDC Resistance(±20%)Min.Self-resonantFrequencySaturationCurrentHeat RatingCurrentUnits μH ΩMHz A ASymbol L DCR S.R.F Isat Irms SWPA4010S100MT 10±20% 0.300 31 0.62 0.75 SWPA4010S150MT 15±20% 0.430 24 0.54 0.60 SWPA4010S220MT 22±20% 0.570 19 0.45 0.50SWPA4012S SeriesPart NumberInductance@100kHz,1VDC Resistance(±30%)Min.Self-resonantFrequencySaturationCurrentHeat RatingCurrentUnits μH ΩMHz A ASymbol L DCR S.R.F Isat Irms SWPA4012SR82NT 0.82±30% 0.050 150 3.02 1.65 SWPA4012S1R0NT 1.0±30% 0.050 120 2.61 1.65 SWPA4012S1R5NT 1.5±30% 0.065 90 2.10 1.46 SWPA4012S1R8NT 1.8±30% 0.080 88 2.12 1.32 SWPA4012S2R2NT 2.2±30% 0.080 74 1.76 1.32 SWPA4012S2R7NT 2.7±30% 0.090 71 1.90 1.25 SWPA4012S3R3NT 3.3±30% 0.110 60 1.72 1.12 SWPA4012S3R6NT 3.6±30% 0.110 57 1.20 1.12 SWPA4012S4R3NT 4.3±30% 0.140 54 1.58 1.00 SWPA4012S4R7NT 4.7±30% 0.125 50 1.15 1.05 SWPA4012S5R1NT 5.1±30% 0.155 50 1.55 0.95 SWPA4012S5R6NT 5.6±30% 0.140 42 1.00 1.00 SWPA4012S6R8MT 6.8±20% 0.198 40 0.85 0.84 SWPA4012S100MT 10±20% 0.265 33 0.80 0.77 SWPA4012S120MT 12±20% 0.290 32 0.66 0.70 SWPA4012S150MT 15±20% 0.340 25 0.56 0.64 SWPA4012S180MT 18±20% 0.470 23 0.55 0.55 SWPA4012S220MT 22±20% 0.587 20 0.46 0.49 SWPA4012S270MT 27±20% 0.720 18 0.50 0.45 SWPA4012S330MT 33±20% 0.810 17 0.42 0.42 SWPA4012S360MT 36±20% 0.900 14 0.40 0.40 SWPA4012S390MT 39±20% 1.100 16 0.55 0.37 SWPA4012S470MT 47±20% 1.100 12 0.35 0.37 SWPA4012S560MT 56±20% 1.250 11 0.33 0.33 SWPA4012S680MT 68±20% 1.950 11 0.38 0.27 SWPA4012S820MT 82±20% 2.140 11 0.28 0.26 SWPA4012S101MT 100±20% 2.210 9.4 0.25 0.25SWPA4018S SeriesPart NumberInductance@100kHz,1VDC Resistance(±30%)Min.Self-resonantFrequencySaturationCurrentHeat RatingCurrentUnits μH ΩMHz A A Symbol L DCR S.R.F Isat Irms SWPA4018S1R0NT 1.0±30% 0.025 80 4.80 2.00 SWPA4018S1R5NT 1.5±30% 0.030 65 3.35 1.80 SWPA4018S2R2MT 2.2±20% 0.045 52 2.70 1.65Part Number@100kHz,1V (±30%) Self-resonantFrequencyCurrent CurrentUnits μH ΩMHz A ASymbol L DCR S.R.F Isat Irms SWPA4018S3R3MT 3.3±20% 0.070 44 2.45 1.23 SWPA4018S4R7MT 4.7±20% 0.090 34 1.70 1.20 SWPA4018S6R8MT 6.8±20% 0.110 29 1.45 1.06 SWPA4018S100MT 10±20% 0.180 24 1.30 0.84 SWPA4018S150MT 15±20% 0.250 19 0.94 0.65 SWPA4018S220MT 22±20% 0.360 16 0.80 0.59 SWPA4018S330MT 33±20% 0.530 12 0.56 0.49 SWPA4018S470MT 47±20% 0.650 10 0.57 0.42 SWPA4018S680MT 68±20% 1.000 8.3 0.47 0.32 SWPA4018S101MT 100±20% 1.750 6.5 0.40 0.25 SWPA4018S151MT 150±20% 2.500 5.5 0.31 0.22 SWPA4018S221MT 220±20% 4.000 4.0 0.27 0.17SWPA4020S SeriesPart NumberInductance@100kHz,1VDC Resistance(±30%)Min.Self-resonantFrequencySaturationCurrentHeat RatingCurrentUnits μH ΩMHz A ASymbol L DCR S.R.F Isat Irms SWPA4020S1R0NT 1.0±30% 0.029 75 4.78 2.15 SWPA4020S1R2NT 1.2±30% 0.029 72 5.10 2.15 SWPA4020S1R5NT 1.5±30% 0.035 71 4.45 1.98 SWPA4020S2R2NT 2.2±30% 0.040 49 3.40 1.85 SWPA4020S3R3MT 3.3±20% 0.070 44 3.20 1.40 SWPA4020S3R6MT 3.6±20% 0.055 49 2.80 1.54 SWPA4020S4R7MT 4.7±20% 0.075 42 2.35 1.34 SWPA4020S5R1MT 5.1±20% 0.085 42 2.30 1.27 SWPA4020S5R6MT 5.6±20% 0.090 30 2.20 1.22 SWPA4020S6R2MT 6.2±20% 0.115 36 2.15 1.08 SWPA4020S6R8MT 6.8±20% 0.125 33 2.20 1.04 SWPA4020S7R5MT 7.5±20% 0.115 30 1.85 1.08 SWPA4020S8R2MT 8.2±20% 0.125 27 1.75 1.04 SWPA4020S100MT 10±20% 0.165 26 1.60 0.90 SWPA4020S120MT 12±20% 0.175 26 1.50 0.88 SWPA4020S150MT 15±20% 0.230 24 1.35 0.77 SWPA4020S220MT 22±20% 0.350 15 1.05 0.62 SWPA4020S270MT 27±20% 0.545 14 1.02 0.50 SWPA4020S330MT 33±20% 0.550 11 0.85 0.49 SWPA4020S390MT 39±20% 0.650 11 0.82 0.46 SWPA4020S430MT 43±20% 0.660 10 0.77 0.45 SWPA4020S470MT 47±20% 0.710 10 0.74 0.44 SWPA4020S510MT 51±20% 0.750 10 0.70 0.42 SWPA4020S560MT 56±20% 0.800 10 0.66 0.41 SWPA4020S620MT 62±20% 0.900 9.6 0.65 0.39 SWPA4020S680MT 68±20% 1.060 7.7 0.61 0.36 SWPA4020S750MT 75±20% 1.160 7.7 0.70 0.35 SWPA4020S820MT 82±20% 1.170 7.2 0.50 0.34 SWPA4020S101MT 100±20% 1.550 6.3 0.48 0.31Part Number@100kHz,1V (±30%) Self-resonantFrequencyCurrent CurrentUnits μH ΩMHz A ASymbol L DCR S.R.F Isat IrmsSWPA4026S1R2NT 1.2±20% 0.030120 3.10 2.30 SWPA4026S1R5NT 1.5±20% 0.030 100 2.40 2.30 SWPA4026S2R2MT 2.2±30% 0.040 96 2.10 2.00 SWPA4026S3R3MT 3.3±30% 0.050 58 1.80 1.70 SWPA4026S4R7MT 4.7±30% 0.055 46 1.45 1.60 SWPA4026S6R8MT 6.8±30% 0.065 33 1.30 1.50 SWPA4026S100MT 10±30% 0.085 26 1.00 1.30 SWPA4026S150MT 15±30% 0.110 19 0.90 1.10 SWPA4026S220MT 22±30% 0.165 13 0.60 0.90 SWPA4026S330MT 33±30% 0.270 9 0.55 0.70 SWPA4026S470MT 47±30% 0.300 6 0.40 0.65SWPA4030S SeriesPart NumberInductance@100kHz,1VDC Resistance(±30%)Min.Self-resonantFrequencySaturationCurrentHeat RatingCurrentUnits μH ΩMHz A ASymbol L DCR S.R.F Isat Irms SWPA4030SR91NT 0.91±30% 0.013 100 6.25 4.00 SWPA4030S1R2NT 1.2±30% 0.015 80 5.80 3.82 SWPA4030S1R5NT 1.5±30% 0.020 62 4.84 3.34 SWPA4030S1R8NT 1.8±30% 0.028 60 4.80 3.00 SWPA4030S2R2NT 2.2±30% 0.030 52 4.40 2.95 SWPA4030S3R3MT 3.3±20% 0.040 38 3.30 2.40 SWPA4030S4R3MT 4.3±20% 0.055 37 2.95 2.10 SWPA4030S4R7MT 4.7±20% 0.060 31 2.90 2.00 SWPA4030S5R6MT 5.6±20% 0.065 30 2.60 1.95 SWPA4030S6R8MT 6.8±20% 0.090 24 2.75 1.60 SWPA4030S7R5MT 7.5±20% 0.085 26 2.20 1.65 SWPA4030S8R2MT 8.2±20% 0.090 26 2.10 1.60 SWPA4030S100MT 10±20% 0.100 21 1.95 1.50 SWPA4030S120MT 12±20% 0.135 18 1.70 1.30 SWPA4030S150MT 15±20% 0.190 16 1.65 1.11 SWPA4030S180MT 18±20% 0.200 10 1.40 1.10 SWPA4030S220MT 22±20% 0.225 10 1.30 1.00 SWPA4030S330MT 33±20% 0.330 10 1.10 0.84 SWPA4030S360MT 36±20% 0.335 9.8 1.05 0.83 SWPA4030S390MT 39±20% 0.435 10 1.03 0.73 SWPA4030S470MT 47±20% 0.445 8.4 0.95 0.72 SWPA4030S510MT 51±20% 0.470 8.4 0.90 0.70 SWPA4030S560MT 56±20% 0.555 8.4 0.85 0.65 SWPA4030S620MT 62±20% 0.585 7 0.80 0.63 SWPA4030S680MT 68±20% 0.868 7 0.72 0.52 SWPA4030S750MT 75±20% 1.020 6.3 0.70 0.48 SWPA4030S820MT 82±20% 1.060 5.6 0.66 0.47 SWPA4030S910MT 91±20% 1.100 5.6 0.65 0.46 SWPA4030S101MT 100±20% 1.150 5.6 0.60 0.45 SWPA4030S121MT 120±20% 1.350 5.4 0.55 0.42Part Number@100kHz,1V (±30%) Self-resonantFrequencyCurrent CurrentUnits μH ΩMHz A ASymbol L DCR S.R.F Isat Irms SWPA5012S1R0NT 1.0±20% 0.057 103 4.40 2.40 SWPA5012S1R5NT 1.5±20% 0.072 69 3.70 2.25 SWPA5012S2R2NT 2.2±20% 0.090 51 3.10 2.00 SWPA5012S3R3NT 3.3±20% 0.126 35 2.45 1.70 SWPA5012S4R7NT 4.7±20% 0.164 32 2.20 1.50 SWPA5012S6R8MT 6.8±30% 0.245 24 1.75 1.25 SWPA5012S100MT 10±30% 0.344 20 1.40 1.05 SWPA5012S150MT 15±30% 0.436 13 1.25 0.92 SWPA5020S SeriesPart NumberInductance@100kHz,1VDC Resistance(±20%)Min.Self-resonantFrequencySaturationCurrentHeat RatingCurrentUnits μH ΩMHz A A Symbol L DCR S.R.F Isat Irms SWPA5020SR47NT 0.47±30% 0.013 160 6.15 4.60 SWPA5020SR75NT 0.75±30% 0.017 117 5.50 4.00 SWPA5020S1R0NT 1.0±30% 0.020 114 4.10 3.80 SWPA5020S1R2NT 1.2±30% 0.022 83 4.50 3.55 SWPA5020S1R5NT 1.5±30% 0.026 68 4.10 3.20 SWPA5020S2R2NT 2.2±30% 0.032 57 3.20 2.90 SWPA5020S2R7NT 2.7±30% 0.038 52 2.90 2.70 SWPA5020S3R0NT 3.0±30% 0.038 49 2.55 2.70 SWPA5020S3R3NT 3.3±30% 0.043 46 2.55 2.50 SWPA5020S3R6NT 3.6±30% 0.043 43 2.80 2.50 SWPA5020S3R9NT 3.9±30% 0.043 40 2.30 2.50 SWPA5020S4R3MT 4.3±20% 0.057 37 2.50 2.20 SWPA5020S4R7MT 4.7±20% 0.057 37 2.50 2.20 SWPA5020S5R1MT 5.1±20% 0.064 32 2.25 2.05 SWPA5020S5R6MT 5.6±20% 0.064 32 2.30 2.05 SWPA5020S6R8MT 6.8±20% 0.083 30 2.05 1.80 SWPA5020S7R5MT 7.5±20% 0.090 26 1.85 1.75 SWPA5020S8R2MT 8.2±20% 0.098 26 1.85 1.65 SWPA5020S9R1MT 9.1±20% 0.110 24 1.70 1.55 SWPA5020S100MT 10±20% 0.110 24 1.70 1.55 SWPA5020S120MT 12±20% 0.140 22 1.50 1.40 SWPA5020S150MT 15±20% 0.165 20 1.35 1.25 SWPA5020S180MT 18±20% 0.200 16 1.25 1.15 SWPA5020S220MT 22±20% 0.226 14 1.15 1.10Part Number@100kHz,1V (±20%) Self-resonantFrequencyCurrent CurrentUnits μH ΩMHz A A Symbol L DCR S.R.F Isat Irms SWPA5040S1R0NT 1.0±30% 0.012 117 7.35 4.90 SWPA5040S1R5NT 1.5±30% 0.015 86 6.30 4.30 SWPA5040S2R2NT 2.2±30% 0.019 50 4.90 3.80 SWPA5040S2R7NT 2.7±30% 0.022 37 4.30 3.60 SWPA5040S3R3NT 3.3±30% 0.024 32 3.95 3.40 SWPA5040S3R9NT 3.9±30% 0.027 29 3.55 3.20 SWPA5040S4R7NT 4.7±30% 0.030 28 3.50 3.00 SWPA5040S6R8MT 6.8±20% 0.043 21 2.90 2.50 SWPA5040S100MT 10±20% 0.064 18 2.35 2.10 SWPA5040S150MT 15±20% 0.086 13 2.00 2.00 SWPA5040S220MT 22±20% 0.129 11 1.60 1.50 SWPA5040S330MT 33±20% 0.188 9.1 1.30 1.20 SWPA5040S470MT 47±20% 0.272 6.7 1.10 1.00 SWPA5040S680MT 68±20% 0.400 5.7 0.90 0.80 SWPA5040S101MT 100±20% 0.560 4.7 0.75 0.70 SWPA6020S SeriesPart NumberInductance@100kHz,1VDC Resistance(±30%)Min.Self-resonantFrequencySaturationCurrentHeat RatingCurrentUnits μH ΩMHz A ASymbol L DCR S.R.F Isat Irms SWPA6020SR50NT 0.50±30% 0.014 120 4.50 3.30 SWPA6020SR68NT 0.68±30% 0.017 115 6.55 3.80 SWPA6020SR82NT 0.82±30% 0.017 110 5.30 3.80 SWPA6020S1R0NT 1.0±30% 0.020 100 4.15 3.50 SWPA6020S1R2NT 1.2±30% 0.022 88 5.90 3.20 SWPA6020S1R5NT 1.5±30% 0.022 79 4.25 3.20 SWPA6020S1R8NT 1.8±30% 0.028 68 4.85 2.75 SWPA6020S2R0NT 2.0±30% 0.035 65 4.10 2.60 SWPA6020S2R2NT 2.2±30% 0.028 61 3.75 2.75 SWPA6020S2R7NT 2.7±30% 0.035 56 3.90 2.60 SWPA6020S3R3NT 3.3±30% 0.035 51 3.15 2.60 SWPA6020S3R9NT 3.9±30% 0.049 45 3.25 2.10 SWPA6020S4R3NT 4.3±30% 0.049 44 2.70 2.10 SWPA6020S4R7NT 4.7±30% 0.058 41 3.00 2.00 SWPA6020S5R6NT 5.6±30% 0.058 36 2.40 1.90 SWPA6020S6R2NT 6.2±30% 0.079 31 2.30 1.80 SWPA6020S6R8NT 6.8±30% 0.079 31 2.20 1.80 SWPA6020S8R2NT 8.2±30% 0.105 27 2.10 1.40 SWPA6020S100MT 10±20% 0.105 27 1.75 1.40 SWPA6020S120MT 12±20% 0.120 25 1.45 1.30 SWPA6020S150MT 15±20% 0.145 21 1.20 1.20 SWPA6020S180MT 18±20% 0.180 18 1.20 1.08 SWPA6020S220MT 22±20% 0.204 16 1.05 1.00Part Number@100kHz,1V (±30%) Self-resonantFrequencyCurrent CurrentUnits μH ΩMHz A ASymbol L DCR S.R.F Isat Irms SWPA6028S1R0NT 1.0±30% 0.010 70 5.75 5.20 SWPA6028S1R5NT 1.5±30% 0.013 65 6.00 4.58 SWPA6028S2R2NT 2.2±30% 0.020 48 5.10 3.75 SWPA6028S2R7NT 2.7±30% 0.020 48 3.80 3.75 SWPA6028S3R3NT 3.3±30% 0.025 41 4.15 3.48 SWPA6028S4R7NT 4.7±30% 0.030 35 3.00 3.08 SWPA6028S5R1NT 5.1±30% 0.043 32 3.20 2.60 SWPA6028S6R2MT 6.2±20% 0.047 30 3.05 2.40 SWPA6028S6R8MT 6.8±20% 0.047 27 2.60 2.40 SWPA6028S8R2MT 8.2±20% 0.055 24 2.30 2.25 SWPA6028S9R1MT 9.1±20% 0.074 24 2.55 2.15 SWPA6028S100MT 10±20% 0.072 23 2.04 1.95 SWPA6028S120MT 12±20% 0.080 18 1.80 1.85 SWPA6028S150MT 15±20% 0.125 18 1.75 1.45 SWPA6028S180MT 18±20% 0.120 15 1.52 1.45 SWPA6028S220MT 22±20% 0.140 14 1.45 1.40 SWPA6028S270MT 27±20% 0.155 13 1.50 1.32 SWPA6028S330MT 33±20% 0.185 12 1.35 1.22 SWPA6028S360MT 36±20% 0.215 11 1.25 1.13 SWPA6028S390MT 39±20% 0.225 11 1.25 1.10 SWPA6028S470MT 47±20% 0.315 9.5 1.15 1.06 SWPA6028S680MT 68±20% 0.360 7.7 0.80 0.86 SWPA6028S750MT 75±20% 0.410 7.7 0.90 0.81 SWPA6028S820MT 82±20% 0.500 7.7 0.80 0.70 SWPA6028S101MT 100±20% 0.500 7.1 0.65 0.70SWPA6040S SeriesPart NumberInductance@100kHz,1VDC Resistance(±30%)Min.Self-resonantFrequencySaturationCurrentHeat RatingCurrentUnits μH ΩMHz A A Symbol L DCR S.R.F Isat Irms SWPA6040S330KT 33±10% 0.137 7.8 1.65 1.45SWPA6045S SeriesPart NumberInductance@100kHz,1VDC Resistance(±30%)Min.Self-resonantFrequencySaturationCurrentHeat RatingCurrentUnits μH ΩMHz A A Symbol L DCR S.R.F Isat Irms SWPA6045SR82NT 0.82±30% 0.008 140 10.40 5.90 SWPA6045S1R0NT 1.0±30% 0.011 100 9.85 5.14 SWPA6045S1R2NT 1.2±30% 0.010 100 8.35 5.40 SWPA6045S1R5NT 1.5±30% 0.012 65 8.80 4.95 SWPA6045S1R8NT 1.8±30% 0.012 74 7.60 4.95 SWPA6045S2R2NT 2.2±30% 0.014 52 6.75 4.60 SWPA6045S2R3NT 2.3±30% 0.021 60 6.00 3.50 SWPA6045S2R7NT 2.7±30% 0.015 38 5.75 4.30Part Number@100kHz,1V (±30%) Self-resonantFrequencyCurrent CurrentUnits μH ΩMHz A ASymbol L DCR S.R.F Isat Irms SWPA6045S3R0NT 3.0±30% 0.020 35 5.60 3.80 SWPA6045S3R3NT 3.3±30% 0.021 32 5.90 3.70 SWPA6045S3R6NT 3.6±30% 0.021 28 5.25 3.70 SWPA6045S4R3MT 4.3±20% 0.023 23 4.45 3.50 SWPA6045S4R7MT 4.7±20% 0.026 24 4.97 3.30 SWPA6045S5R1MT 5.1±20% 0.026 23 4.40 3.30 SWPA6045S5R6MT 5.6±20% 0.029 23 4.15 3.15 SWPA6045S6R2MT 6.2±20% 0.031 26 4.43 3.00 SWPA6045S6R8MT 6.8±20% 0.031 20 3.90 3.00 SWPA6045S7R5MT 7.5±20% 0.034 18 3.50 2.90 SWPA6045S8R2MT 8.2±20% 0.043 21 3.90 2.60 SWPA6045S9R1MT 9.1±20% 0.043 17 3.35 2.60 SWPA6045S100MT 10±20% 0.048 15 3.20 2.45 SWPA6045S120MT 12±20% 0.058 13 2.80 2.20 SWPA6045S150MT 15±20% 0.068 12 2.50 2.05 SWPA6045S180MT 18±20% 0.081 10 2.20 1.85 SWPA6045S220MT 22±20% 0.089 10 2.05 1.80 SWPA6045S270MT 27±20% 0.102 9.2 1.90 1.65 SWPA6045S300MT 30±20% 0.132 7.8 1.70 1.50 SWPA6045S330MT 33±20% 0.137 7.8 1.65 1.45 SWPA6045S360MT 36±20% 0.173 7.8 1.62 1.40 SWPA6045S390MT 39±20% 0.180 7.8 1.50 1.25 SWPA6045S430MT 43±20% 0.200 7.7 1.63 1.20 SWPA6045S470MT 47±20% 0.200 6.4 1.40 1.20 SWPA6045S510MT 51±20% 0.207 6.4 1.35 1.15 SWPA6045S560MT 56±20% 0.221 6.4 1.30 1.10 SWPA6045S620MT 62±20% 0.235 6.4 1.25 1.10 SWPA6045S680MT 68±20% 0.289 6.4 1.20 1.00 SWPA6045S750MT 75±20% 0.305 5.0 1.15 0.95 SWPA6045S820MT 82±20% 0.341 4.9 1.05 0.90 SWPA6045S910MT 91±20% 0.359 4.9 1.00 0.85 SWPA6045S101MT 100±20% 0.433 4.2 0.95 0.80 SWPA6045S121MT 120±20% 0.484 4.2 0.85 0.77 SWPA6045S151MT 150±20% 0.580 4.2 0.80 0.70 SWPA6045S221MT 220±20% 0.834 3.5 0.70 0.59 SWPA6045S331MT 330±20% 1.270 2.8 0.57 0.57SWPA8040S SeriesPart NumberInductance@100kHz,1VDC Resistance(±30%)Min.Self-resonantFrequencySaturationCurrentHeat RatingCurrentUnits μH ΩMHz A A Symbol L DCR S.R.F Isat Irms SWPA8040SR82NT 0.82±30% 0.008 94 13.8 6.30 SWPA8040S1R0NT 1.0±30% 0.008 89 9.85 6.30 SWPA8040S1R5NT 1.5±30% 0.010 67 8.15 5.65 SWPA8040S2R0NT 2.0±30% 0.012 43 9.25 5.15 SWPA8040S2R2NT 2.2±30% 0.012 41 7.10 5.15 SWPA8040S3R0NT 3.0±30% 0.014 32 6.10 4.70Part Number@100kHz,1V (±30%) Self-resonantFrequencyCurrent CurrentUnits μH ΩMHz A ASymbol L DCR S.R.F Isat Irms SWPA8040S3R3NT 3.3±30% 0.017 27 6.50 4.40 SWPA8040S3R6NT 3.6±30% 0.017 30 7.52 4.35 SWPA8040S3R9NT 3.9±30% 0.017 26 5.75 4.35 SWPA8040S4R7NT 4.7±30% 0.019 24 5.90 4.10 SWPA8040S5R1NT 5.1±30% 0.019 22 4.70 4.05 SWPA8040S5R6NT 5.6±30% 0.021 24 6.00 3.85 SWPA8040S6R2NT 6.2±30% 0.021 20 4.45 3.85 SWPA8040S6R8MT 6.8±20% 0.024 20 4.55 3.60 SWPA8040S8R2MT 8.2±20% 0.026 17 4.20 3.45 SWPA8040S100MT 10±20% 0.029 15 3.60 3.30 SWPA8040S150MT 15±20% 0.047 12 2.95 2.60 SWPA8040S180MT 18±20% 0.053 11 2.70 2.40 SWPA8040S220MT 22±20% 0.069 9.5 2.40 2.10 SWPA8040S270MT 27±20% 0.078 9.2 2.15 2.00 SWPA8040S330MT 33±20% 0.097 7.8 2.05 1.80 SWPA8040S360MT 36±20% 0.102 7.8 2.00 1.75 SWPA8040S390MT 39±20% 0.107 7.8 1.95 1.70 SWPA8040S430MT 43±20% 0.113 7.8 1.90 1.65 SWPA8040S470MT 47±20% 0.136 6.4 1.75 1.55 SWPA8040S510MT 51±20% 0.142 6.4 1.70 1.50 SWPA8040S560MT 56±20% 0.148 6.4 1.55 1.45 SWPA8040S620MT 62±20% 0.182 6.4 1.50 1.30 SWPA8040S680MT 68±20% 0.196 4.9 1.45 1.25 SWPA8040S750MT 75±20% 0.211 4.9 1.35 1.20 SWPA8040S820MT 82±20% 0.225 5.9 1.30 1.15 SWPA8040S910MT 91±20% 0.272 4.9 1.20 1.05 SWPA8040S101MT 100±20% 0.290 4.2 1.15 1.00 SWPA8040S121MT 120±20% 0.334 3.5 1.05 0.95 SWPA8040S151MT 150±20% 0.410 3.5 1.10 0.85 SWPA8040S221MT 220±20% 0.599 3.5 0.85 0.80 SWPA8040S331MT 330±20% 0.889 2.8 0.68 0.64※1: All test data is referenced to 20°C ambient;※2: Rated current: Isat or Irms, whichever is smaller;※*3: Isat: DC current at which the inductance drops approximate 30% from its value without current;※*4: Irms: DC current that causes the temperature rise (△T =40°C) from 20°C ambient.。

S1000/S1000B低CTE中Tg板2005年3月25日p S1000/S1000B主要内容：1、背景介绍 2、行业同类产品一览表 3、我司产品介绍 3 我司产品介绍 4、PCB应用考察 5、S1000材料的使用定位 6、S1000注意事项 6 S1000注意事项 6、使用建议®p S1000/S1000B一、背景介绍在PCB终端的可靠性测试 中，以日本为代表越来越多 的客户采用冷热循环测试， 的客户采用冷热循环测试 多次试验表明我司常规产品 无法满足这种测试要求，如65℃ --125℃ /1000 l 因 125℃ /1000cycle。

因 此急需开发性能更为优越的 产品满足此要求。

®p S1000/S1000B二、行业同类产品介绍PropertiesTg (DSC) ℃ Td (TGA) ℃ Peel Strength(1oz) N/mm DK@1MHz Df@1MHz Thermal stress@288℃ solder dip) sec. T260 (TMA) min T288 (TMA) min Z-CTE (<Tg) g ppm/℃ Z-CTE (>Tg) ppm/℃ Z-CTE(50 260℃) Z-CTE(50~260℃) % CAF resistanceShengyi S1000 150 335 1.4 14 4.7 0.011 0 011 >100 >60 10 43 245 33 YesIsola IS400 145-150 325 >1.3 13 4.8-5.1 0.0130.015 >10 60 10 38 200 3.0 YesNelco N4000-7 155 330 1.3 13 4.5(RC50%) 0.018(RC50 %) N/A 16 N/A 50 260 3.7 YesHitachi 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/AITEQ IT158 155 345 1.6 16 4.8 0.016 0 016 >10 >60 >20 40 240 3.3 YesTUC TU-622-le 150 340 1.4-1.9 14 19 4.6(RC50%) 0.014(RC50 %) >60 >60 15 N/A N/A 3.4 Yes®p S1000/S1000BIPC-4101B与我司产品标准IPC-4101B IPC-4101B/ 99(含填料 T >150℃) IPC 4101B/ 99(含填料，Tg>150℃) IPC-4101B/ 101(含填料，Tg>110℃) IPC-4101B/ 121(无填料，Tg>110℃) (无填料， g ) IPC-4101B/ 124(无填料，Tg>150℃) IPC-4101B/ 126(含填料，Tg>170℃) IPC-4101B/ 129(无填料，Tg>170℃) 产品对应 S1000/S1000-2 S1000/S1000 2 --S1141KF S1170 S1000-3 S1180®p S1000/S1000B三、产品介绍产品型号/Dsg. 产品性能表编号/Specification Sheet# 产品描述/Description 产品应用/Applications 无铅兼容性/Lead Free Compatible 耐离子迁移能力/Anti-CAF 环境管理要求/ROHS & WEEE 无卤兼容性/Halongen Free 热冲击可靠性/Thermal Shock Resistance 玻璃化转变温度/DSC Tg(℃) 热分解温度/Decomposition Temp（℃） 热分层时间/T-260（Minutes） 热分层时间/T-288（Minutes） Z轴热膨胀系数/Z-CTE before Tg（PPm/℃） Z轴热膨胀系数/Z-CTE after Tg（PPm/℃） Z轴热膨胀率/Z-CTE under 50℃ to 260℃（％） S1000/S1000B IPC-4101/99,101 Phenolic Cured Filled Tg150 High Performance &Lead Free Compliant Yes Yes Yes No High(Q1000&IST) 155 335 60 11 40 240 3.3%®p S1000/S1000B ●中TgMid Tg ：Tg(DSC) =159.06℃/157.68℃样品: 大小: 方法: 注释: S10009 25.6000 mg DSC210 周期1：蓝色曲线；周期2：红色曲线DSC目录: D:\检验结果\DSC检验结果\开发室\曾宪平 运行日期: 2005-03-30 16:54 仪器: DSC Q10 V9.0 Build 2750.0 00-0.1热 (W 流 /g)-0.2-0.3157.68°C(I) 159.06°C(I)-0.480向上放热100120140温度(°C)160180200Universal V4.1D TA Instruments®p S1000/S1000B ●热分解温度 Td (TGA,5% Wt Loss ，10 ℃/min)=335℃100––––––– S1000 1,6(10.00 °C-N2).001 –––– S114190335 ℃ 5.00%LossWeight (%)Lead-free FR-480DICY cured FR-47060 100200300400500600700Universal V2.6D TA InstrumentsTemperature (°C)®p S1000/S1000B ●热分层时间 De-lamination Time(TMA, 10 ℃/min)Normal FR-4 T260 T288 15 min 2 minS1000 >60 10®p S1000/S1000B ●热分层时间T260 T260（TMA:10℃/min ）样品: S10009 大小: 1.0459 mm 方法: T-260TMA目录: D:\检验结果\TMA测试结果\技术开发\曾宪平 运行日期: 2005-03-31 08:04 仪器: TMA Q400 V7.0 Build 804030T260分层时间>60min尺 变 (µm) 寸 化2010®0 10 20 30 40时间(min)50607080Universal V4.1D TA Instrumentsp S1000/S1000B ●热分层时间 T288（ TMA:10℃/min ）样品: S10009 大小: 1.0379 mm 方法: T-288TMA目录: D:\检验结果\TMA测试结果\技术开发\曾宪平 运行日期: 2005-03-30 15:27 仪器: TMA Q400 V7.0 Build 8026.44min 287.05°C37.54min40T288分层时间: 11.10min 尺 变 (µm) 寸 化2005101520时间(min)253035Universal V4.1D TA Instruments®p S1000/S1000B ●热膨胀系数 CTE (Coefficient of Thermal Expansion) ( p ) Items It Before Tg Z-axis CTE After Tg 30-260℃ 30 260℃ Rate (50-260℃) X/Y-axis CTE Actual l A t l value 37~45 220~240 130~140 130 140 3.3% 12~16®Units U itμm/m℃p S1000/S1000B ● Z轴热膨胀系数 Z-Axis CTE (Coefficient of Thermal Expansion) ( )样品: S1000 大小: 2.2337 mm 方法: T-288TMA目录: D:\检验结果\TMA测试结果\技术开发\曾宪平 运行日期: 2005-04-20 18:16 仪器: TMA Q400 V7.0 Build 8080259.78°C60259.78°C 259 78°C Alpha=228.1µm/(m·°C)尺 变 (µm 寸 化 )4064.60µm 2.892%20175.16°C 130.88°C Alpha=43.55µm/(m·°C) 29.62°C 50.07°C60 80 100 120 140温度(°C)040160180200220240260Universal V4.1D TA Instruments®p S1000/S1000BS1000 Dk、Df值1MHz Type 7628(46%) 2116(55%) 1080(67%) 106(73%) Dk 4.72 4.54 4 54 4.23 4.11 Df 0.0152 0.0201 0 0201 0.0219 0.0229 Dk 4. 31 4.04 4 04 3.76 3.64 1GHz Df 0.0118 0.0135 0 0135 0.0163 0.0186®p S1000/S1000B四、产品性能考察1、Q1000测试 2、CAF测试 3、耐热冲击性 3 耐热冲击性 4、高压锅测试 5、高温高湿考察®p S1000/S1000B ●冷热冲击实验Q1000 Thermal Shock Q1000Thermal shock test condition:A）Pre-treat: 125℃/2hour in the oven. oven B）Thermal shock condition: -40℃(30min)~temp. change(<2min)~+125℃(30min), 1000cycles.Chart Ch rt 1 R i t n Resistance change r t h n rate10.00%Resistance Change Rate(%)8.00% 8 00%6.00%4.00%2.00%0.00%0pre-treat1002003004005006007008009001000-2.00%Cycles1 2 3 4 5 6®p S1000/S1000B ● 孔壁切片分析(Q1000测试后) Micro-section after Q1000X200 micro-sectionX50 micro-section®p S1000/S1000B ●耐热冲击性 Thermal Shock Resistance Normal FR 4 l FR-4 Dipping@288/10sec→25 ℃ N Di i @288/10 25 cycles y 3 S1000 15Test condition: 288 ±5℃→25 ℃ /dipping; pp g; Construction: 8 layers (1oZ+7628+0.41/1+7628+0.41/1+7628+0.41/1+7628+1oZ) Sample size:50mm×50mm®p S1000/S1000B ●耐CAF性能测试 Anti-CAF TestS1000 R Resistanc ce(MΏ)35000 25000 15000 5000 0 100 200 300 400 500 600 700 800 900 1000Time(hr)Test condition：TH-to-TH,Pitch=0.8mm, ф=0.30mm 100V/40℃/92%RH®p S1000/S1000B ●高压锅测试 PCT( High Pressure Cooker Test) ( g ) Dipping@288℃/10 sec Normal FR-4 30 min 60 min 120 min OK OK NG S1000 OK OK OKPCT（E-105℃/105KPa）Test T t condition: 1.6mm(no cu ）100*100 diti 16 ( ）100*100mm，®p S1000/S1000B●高温高湿考察Water AbsorptionWater Absorption处理后热冲击S1000普通FR-4 80/90%,96h，>62次分层288/10s/次dip>63次分层288/10s/次，dip>61次分层Sample: 1.6mm(unclad ）50mm*50mmp S1000/S1000B五、PCB应用考察1、改善焊盘起翘和树脂收缩问题整板厚度1.6mm，288 ℃/10S/3次S1000材料普通FR-4材料®p S1000/S1000B五、PCB 应用考察2、改善密集BGA 孔或散热孔爆板问题S1000材料®p S1000/S1000B五、PCB应用考察3、解决HDI埋孔眉毛裂问题用于生产HDI填埋孔试验，发现S1000能有效改善埋孔眉毛裂问题。

(13) SCHEDULE(14) to EC-Type Examination Certificate KEMA 09ATEX0048 Issue No. 4(15) DescriptionDifferential Pressure Transmitters DELTABAR M Model PMD55 and Pressure transmittersCERABAR M Model PMC51, Model PMP51 and Model PMP55 and DELTAPILOT M Model FMB50, Model FMB51, Model FMB52 and Model FMB53 are used in potentially explosive atmospheres caused by the presence of flammable gases, liquids, vapours or dusts for the measurement of level, flow, differential pressure, over- and under pressure.The pressure signal at the ceramic or metal sensor is converted into an electrical signal.The output of the Pressure or Differential Pressure Transmitter is a 4 - 20 mA current output signal with or without a superimposed HART digital signal, or the transmitter is intended to be connected to a fieldbus system (Profibus PA or Foundation Fieldbus).The several versions of the Pressure and Differential Pressure Transmitters differ in type of sensor, type of enclosure, process connection etc.Optionally all versions of the Pressure and Differential Pressure Transmitters may be provided with an indicator.Optionally, the display connector can be used for temporary connection of a service tool (e.g.Endress+Hauser Commubox type FXA191 or type FXA195).Optionally the Pressure Transmitters that are intended for application in explosive gas atmospheres, may be provided with a sensor with extension cable.Ambient temperature range -50 ºC to +70 ºC.The relation between temperature class, ambient temperature and process temperature is given in the following table.temperatureclassambienttemperatureprocess temperatureFMB50 FMB51 FMB52,FMB53PMD55 PMP55 1),PMC51, PMP51T6 ≤ 40 °C ≤ 80 °C ≤ 80 °C ≤ 80 °C ≤ 80 °C ≤ 80 °CT4 ≤ 70 °C ≤ 100 °C ≤ 85 °C ≤ 80 °C ≤ 120 °C ≤ 100 °C 2)T3 ≤ 70 °C ≤ 150 °CNOTE 1: Depending on the diaphragm seal used in model PMP55, a higher process temperature is permitted. For details, refer to the relevant equipment manual.NOTE 2: Process temperature for Models PMC51 and PMP51 with hygienic process connection ≤ 130 °C.. The maximum surface temperature of the enclosure T75 °C, respectively T500 100 °C (transmitters with interface 4 - 20 mA) or T500 105 °C (transmitters with Fieldbus interface) is b ased on the maximum ambient temperature of 70 °C for a dust lay er with a maximum thickness of 5 mm respectively 500 mm.(13) SCHEDULE(14) to EC-Type Examination Certificate KEMA 09ATEX0048 Issue No. 4Electrical dataTransmitters in type of protection intrinsic safety Ex iaInterface 4 - 20 mA (with or without HART communication):Supply and output circuit (terminals + and - or connector):in type of protection intrinsic safety Ex ia IIC, only for connection to a certified intrinsically safe circuit, with the following maximum values:U i = 30 V; I i = 300 mA; P i = 1 W; L i = 0 mH; C i = 10 nF.Interface Profibus PA or Foundation Fieldbus:Supply and data circuit (terminals + and - or connector):in type of protection intrinsic safety Ex ia IIC, only for connection to a certified intrinsically safecircuit, with the following maximum values:U i = 24 V; I i = 250 mA; P i = 1,2 W; L i = 10 µH; C i = 5 nF;or to an intrinsically safe fieldbus in accordance with FISCO, with the following maximum values: U i = 17,5 V; I i = 500 mA; P i = 5,5 W; L i = 10 µH; C i = 5 nF.Display connector:in type of protection intrinsic safety Ex ia IIC, for connection to a certified intrinsically safe circuit, with following maximum values:U o = 8,6 V; I o = 39 mA; P o = 124 mW andU i = 8,5 V; I i = 7 mA; P i = 10 mW; C i = 0 nF; L o = 0 mH.Transmitters in type of protection Ex tU max = 45 V (interface 4 - 20 mA), respectively 32 V (fieldbus interface).Installation instructionsThe instructions provided with the equipment shall be followed in detail to assure safe operation. (16) Test ReportNo. NL/KEM/ExTR09.0017/**.(17) Special conditions for safe useNone.(18) Essential Health and Safety RequirementsCovered by the standards listed at (9).(19) Test documentationAs listed in Test Report No. NL/KEM/ExTR09.0017/**.。

CSTK产品资料UPS电源相关知识UPS电源有那几个方面构成UPS电源可分为逆变器，蓄电池，整流器，静态开关等主要构成。

什么是UPS不断电电源系统(Uninterruptible Power System(or Supply))。

其功能为保护贵重的仪器设备，延长紧急安全逃生设备之电力，避免电力中断或电力不稳的现象减短设备的寿命，防止电源的高突波危害与损坏设备等。

UPS的种类后备式UPS、在线式UPS、在线互动式UPS。

后备式UPS：采用抗干扰分级调压稳压技术，当市电供应正常或电压变化时，均能向负载提供高频干扰的稳压电源，当电网供电故障时，电池逆变供电需要4-10ms转化时间，对于一些对供电质量要求较高的设备来说不太合适。

在线式UPS：电网供电故障时,UPS的输出不需要开关转换时间，其负载电能供应平滑稳定。

一般用在金融、证券即电信等部门。

在线互动式UPS：集中后备式UPS效率高和在线式UPS供电质量高的优点，但稳频特性不理想，不适合做常延时的UPS电源。

UPS电池UPS（不间断电源）之所以能够在断电后，继续为计算机等设备供电，就是因为它的里面有一种储存电能的装置在起作用，这种储能的装置就是UPS电池。

其主要功能是：１当市电正常时，将电能转换成化学能储存在电池内部。

２当市电故障时，将化学能转换成电能提供给逆变器或负载。

UPS电池的优劣直接关系到整个UPS系统的可靠程度，然而蓄电池却又是整个UPS系统中平均无故障时间（MTBF）最短的一种器件。

如果用户能够正确使用和维护，就能够延长其使用寿命，反之其使用寿命会显著缩短，蓄电池的种类一般分力铅酸电池、铅酸免维护电池及镍镉电池等。

蓄电池是UPS的心脏，不管UPS系统多么复杂，其性能最终取决于它的电池，如果电池失效，再好的UPS也无法提供后备电源。

如何监视电池以精确地预测其临界失效期和如何延长电池的有效寿命，是保证UPS供电系统稳定、可靠的关键。

考虑到负载条件、使用环境、使用寿命及成本等因素，一般选择铅酸免维护电池。

⏹封装功能 大容量增强型，基于ARM 安全智能卡内核的国密安全芯片内嵌SM1、SM2、SM3、SM4国密加密算法RJMU401数据手册⏹内核：高性能32位ARM SC100 CPU — 双总线架构，DMA 加速，快速中断响应— 支持ARM 和Thumb 指令集— 三级流水线— 采用软内核技术，防止外部对其进行扫描 — 采用小端存储格式— 主频为32MHz ，可进行3、4分频，系统默认工作频率8M ⏹存储器— 8KB ROM— 18K RAM— 128～550KB 的FLASH 存储器⏹时钟、复位和电源管理— 1.6V~5.5V 供电— CPU 时钟可由软件配置为内部时钟— 内置32 MHz 高速RC 振荡器，支持3/4分频 — 内置多功能时钟发生电路— 内置32 KHz 低功耗RC 振荡器 ⏹多达6个定时器— 3个16位通用定时器、— 1个ETU 定时器— 1个Wake-up 定时器— 1个32位看门狗定时器⏹多种密码算法— 对称算法：DES 、T-DES 、AES 、SM1、SM4— 非对称算法：RSA 、SM2— 摘要算法：SM3、SHA-256⏹安全特性— 存储保护单元（MPU ）— 频率检测功能— 存储总线检测功能，防FIA 攻击 — 抗EMA/DEMA 攻击 — 硬件CRC16/32电路校验 — 硬件真随机发生器 — 防篡改检测电路 ⏹外围接口— 1路智能卡接口，符合ISO7816标准，支持T=0/T=1协议— 1路SWP 接口，速率高达1.2Mbps — 1路SPI 主从接口— 1路UART 接口— 高达15路GPIO ，支持多种中断方式，多达12路GPIO 可复用 ⏹应用市场— 城市一卡通PBOC 终端、一卡通、银行POS 机、移动无线支付等金融支付— SIM 卡、JA VA 卡、ESIM 卡等领域 — 嵌入式软件安全保护— 手机、通信模块、路由器、对讲机等数据加密 — 监控设备、自动化控制 VSOP8LSSOP20L1.1概述 (3)1.2系统架构 (4)2、性能参数 (6)2.1处理器系统 (6)2.2存储单元 (6)2.3中断控制器 (7)2.4时钟与定时器 (7)2.5安全性及物理防护 (8)2.6对外接口 (10)2.7算法性能 (11)2.8模块功耗性能 (12)2.9其他模块 (14)2.10模拟模块 (14)3、引脚定义 (15)3.1引脚定义图：SSOP_20L (15)3.2引脚定义图：VSOP_8L (16)4、接口电气特性 (17)4.1测试条件 (17)4.1.1 最小和最大数值 (17)4.1.2 典型数值 (17)4.27816接口电气特性 (17)4.2.1绝对最大额定值 (18)4.3SPI接口电气参数 (18)4.3.1绝对最大额定值 (19)5、电源模块设计及工作条件 (21)5.1电源电路模块设计 (21)5.2推荐工作参数 (22)6 、SPI功能描述 (23)6.1概述 (23)6.2时钟信号的相位和极性 (23)7、应用电路图 (25)7.1RJMU401FHO与STM32F103的7816参考电路 (25)7.2RJMU401FHO的SPI参考电路 (25)7.3RJMU401EHV与STM32F103的7816参考电路 (26)8、电气特性 (27)9、芯片封装信息 (28)10、订货信息 (30)附录一：简称及缩略语 (32)1、简介1.1 概述RJMU401安全芯片是一个基于32位RISC处理器的SOC芯片，具备高处理能力、高安全性、低功耗、低成本等特点。

ADAM-4018/4018M/4018+快速入门手册一、 ADAM-4018/4018M/4018+概述ADAM-4018支持6路差分，2路单端信号，电压输入范围+/-15mV，+/-50mV，+/-100mV，+/-500mV，+/-1V，+/-2.5V，+/-20mA。

热电偶支持：J 0-760℃ R500-1750℃K 0-1370℃ S500-1750℃T -100-400℃ B500-1800℃E 0-1000℃如果测试电流信号，需在该通道的输入端口并联一125欧姆的精密电阻。

ADAM-4018M 是一个16位8通道而且能记录数据的模拟量输入模块，所有通道都提供了可编程地输入范围，这个模块可以保存测量结果超过38000条，而且可以20年不丢失。

4018M可以测量多种不同的模拟量信号，例如热电偶、mV，V，和mA，而且提供了三种记录设置模式：标准记录、事件记录和最小记录的模式，它提供了500VDC 的输入隔离来保护模块。

它是工业测量和监控应用的很好的一个解决方案。

ADAM-4018+支持8路差分信号，还支持Modbus协议。

各通道可独立设置其输入范围， 同时在模块右侧使用了一个拨码开关来设置INIT* 和正常工作状态的切换，4018+除支持上述热电偶输入外，还支持+/-0-20mA和+4~20mA的输入范围，测量电流时，不需要外接电阻，只需打开盒盖，设置跳线到△即可。

ADAM-4018通道：六通道差分，两通道单端输入：－J,K,T,E,R,S和B热电偶－毫伏输入：15mV, 50mV ,±±±100mV 和 ±500mV -电压输入：1V, 2.5V±±-电流输入：20mA(外接125电阻)±Ω－模块按工程单位的方式给主机数据（V，Mv，mA）ADAM-4018M通道：六通道差分，两通道单端 输入：－J,K,T,E,R,S和B热电偶－毫伏输入：15mV, 50mV ,±±±100mV 和 ±500mV -电压输入：1V, 2.5V±±-电流输入：20mA(外接125电阻)±Ω－模块按工程单位的方式给主机数据（,V，mV，mA） C °存储容量：－128KB闪存ADAM-4018+ADAM-4018+通道数8输入类型热电偶 T/C类型 和温度范围J 0～760C K 0～1000C T -100～400C E 0～1000C R 500～1750C S 500～1750CB 500～1800C 隔离电压 3000VDC 最高额定电压 ＋/-35V采样速率 10个采样点/秒(总的) 输入阻抗 20M Ω 精确度 ≤+/-0.1% 功率1.2WI/0连接器类型十针连接器二、 ADAM-4018/4018M/4018+硬件连接1.ADAM-4018/4018M/4018+模块简单控制接线图2. ADAM-4018/4018M 差分通道输入（0通道～5通道）3. ADAM-4018/4018M单端输入（6通道，7通道）4. ADAM-4018+ 8通道模拟量输入模块接线图三、 ADAM-4000 Utility的使用1.ADAM-4000的应用软件-ADAM Utility 的安装把ADAM4000 随机附带光盘放入计算机的光驱中，出现如下画面：选择ADAM4000 Utility 安装选项，出现如下安装界面：根据后续的软件安装提示，完成ADAM4000 Utility 的安装。

ADAM-4018/4018M/4018+快速入门手册一、 ADAM-4018/4018M/4018+概述ADAM-4018支持6路差分，2路单端信号，电压输入范围+/-15mV，+/-50mV，+/-100mV，+/-500mV，+/-1V，+/-2.5V，+/-20mA。

热电偶支持：J 0-760℃ R500-1750℃K 0-1370℃ S500-1750℃T -100-400℃ B500-1800℃E 0-1000℃如果测试电流信号，需在该通道的输入端口并联一125欧姆的精密电阻。

ADAM-4018M 是一个16位8通道而且能记录数据的模拟量输入模块，所有通道都提供了可编程地输入范围，这个模块可以保存测量结果超过38000条，而且可以20年不丢失。

4018M可以测量多种不同的模拟量信号，例如热电偶、mV，V，和mA，而且提供了三种记录设置模式：标准记录、事件记录和最小记录的模式，它提供了500VDC 的输入隔离来保护模块。

它是工业测量和监控应用的很好的一个解决方案。

ADAM-4018+支持8路差分信号，还支持Modbus协议。

各通道可独立设置其输入范围， 同时在模块右侧使用了一个拨码开关来设置INIT* 和正常工作状态的切换，4018+除支持上述热电偶输入外，还支持+/-0-20mA和+4~20mA的输入范围，测量电流时，不需要外接电阻，只需打开盒盖，设置跳线到△即可。

ADAM-4018通道：六通道差分，两通道单端输入：－J,K,T,E,R,S和B热电偶－毫伏输入：15mV, 50mV ,±±±100mV 和 ±500mV -电压输入：1V, 2.5V±±-电流输入：20mA(外接125电阻)±Ω－模块按工程单位的方式给主机数据（V，Mv，mA）ADAM-4018M通道：六通道差分，两通道单端 输入：－J,K,T,E,R,S和B热电偶－毫伏输入：15mV, 50mV ,±±±100mV 和 ±500mV -电压输入：1V, 2.5V±±-电流输入：20mA(外接125电阻)±Ω－模块按工程单位的方式给主机数据（,V，mV，mA） C °存储容量：－128KB闪存ADAM-4018+ADAM-4018+通道数8输入类型热电偶 T/C类型 和温度范围J 0～760C K 0～1000C T -100～400C E 0～1000C R 500～1750C S 500～1750CB 500～1800C 隔离电压 3000VDC 最高额定电压 ＋/-35V采样速率 10个采样点/秒(总的) 输入阻抗 20M Ω 精确度 ≤+/-0.1% 功率1.2WI/0连接器类型十针连接器二、 ADAM-4018/4018M/4018+硬件连接1.ADAM-4018/4018M/4018+模块简单控制接线图2. ADAM-4018/4018M 差分通道输入（0通道～5通道）3. ADAM-4018/4018M单端输入（6通道，7通道）4. ADAM-4018+ 8通道模拟量输入模块接线图三、 ADAM-4000 Utility的使用1.ADAM-4000的应用软件-ADAM Utility 的安装把ADAM4000 随机附带光盘放入计算机的光驱中，出现如下画面：选择ADAM4000 Utility 安装选项，出现如下安装界面：根据后续的软件安装提示，完成ADAM4000 Utility 的安装。

®Adaptor boardIGBT Driver CoreBoard 93 GB SKYPER 42 R Preliminary Data Features•Two output channels •Gold nickel finish •Failure managementTypical Applications*•Adaptor board for SKYPER 42 IGBT drivers in bridge circuits for industrial applications •PCB with gold plating •DC bus up to 1200VFootnotesIsolation test voltage with external high voltage diodeThe isolation test is not performed as a series test at SEMIKRONThe driver power can be expanded to 50µC with external boost capacitorsIsolation coordination in compliance with EN50178 PD2Operating temperature is real ambient temperature around the driver core Degree of protection: IP00This is an electrostatic discharge sensitive device (ESDS), international standard IEC 60747-1, Chapter IX* The specifications of our components may not be considered as an assurance of component characteristics. Components have to be tested for the respective application. Adjustments may be necessary. The use of SEMIKRON products in life support appliances and systems is subject to prior specification and written approval by SEMIKRON. We therefore strongly recommend prior consultation of our staff.Absolute Maximum Ratings SymbolConditionsValuesUnitV s Supply voltage primary 16V Iout PEAK Output peak current 30A Iout AVmax Output average current 150mA f max Max. switching frequency100kHz V CECollector emitter voltage sense across the IGBT1700V V isol IO Isolation test voltage input - output (AC, rms, 2s)4000V V isolPD Partial discharge extinction voltage, rms, Q PD ≤ 10pC1500V V isol12Isolation test voltage output 1 - output 2 (AC, rms, 2s)1500V R Gon min Minimum rating for external R Gon 0.8ΩR Goff min Minimum rating for external R Goff 0.8ΩT op Operating temperature -40...85°C T stgStorage temperature-40 (85)°CCharacteristics SymbolConditionsmin.typ.max.UnitV s Supply voltage primary side 14.41515.6V V i Input signal voltage on / off 15 / 0V V IT+Input treshold voltage HIGH 12.3V V IT-Input threshold voltage (LOW) 4.6V V G(on)Turn on output voltage 15V V G(off)Turn off output voltage-8V t d(on)IO Input-output turn-on propagation time 1.1µs t d(off)IOInput-output turn-on propagation time1.1µsAdaptor Board 93 SKYPER® 42 RTechnical ExplanationsRevision 04------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------ This Technical Explanation is valid for the following parts:Related documents:Prepared by: Johannes Krapp------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------ ContentApplication and Handling Instructions (2)Further application support (2)General Description (2)Dimensions (3)PIN Array (3)Setting Dynamic Short Circuit Protection (4)Collector Series Resistance (4)Adaptation Gate Resistors (5)Boost Capacitors (6)Environmental conditions (6)Mounting Notes (6)Please note:All values in this technical explanation are typical values. Typical values are the average values expected in large quantities and are provided for information purposes only. These values can and do vary in different applications. All operating parameters should be validated by user’s technical experts for each application.Application and Handling Instructions▪Please provide for static discharge protection during handling. As long as the hybrid driver is not completely assembled, the input terminals have to be short-circuited. Persons working with devices have to wear a grounded bracelet. Any synthetic floor coverings must not be statically chargeable. Even during transportation the input terminals have to be short-circuited using, for example, conductive rubber. Worktables have to be grounded. The same safety requirements apply to MOSFET- and IGBT-modules.▪Any parasitic inductances within the DC-link have to be minimised. Over-voltages may be absorbed by C- or RCD-snubber networks between main terminals for PLUS and MINUS of the power module.▪When first operating a newly developed circuit, SEMIKRON recommends to apply low collector voltage and load current in the beginning and to increase these values gradually, observing the turn-off behaviour of the free-wheeling diode and the turn-off voltage spikes generated across the IGBT. An oscillographic control will be necessary. Additionally, the case temperature of the module has to be monitored. When the circuit works correctly under rated operation conditions, short-circuit testing may be done, starting again with low collector voltage.▪It is important to feed any errors back to the control circuit and to switch off the device immediately in failure events.Repeated turn-on of the IGBT into a short circuit with a high frequency may destroy the device.▪The inputs of the hybrid driver are sensitive to over-voltage. Voltages higher than V S +0,3V or below -0,3V may destroy these inputs. Therefore, control signal over-voltages exceeding the above values have to be avoided.▪The connecting leads between hybrid driver and the power module should be as short as possible (max. 20cm), the driver leads should be twisted.Further application supportLatest information is available at . For design support please read the SEMIKRON Application Manual Power Modules available at .General DescriptionThe Board 93 GB SKYPER® 42 is an adaptor board for the IGBT module SKiM® 93 (spring contact). The board is paralleling three channels so the SKiM module can be used in half bridge configuration. The board can be customized allowing adaptation and optimization to the used IGBT module.The switching characteristic of the IGBT can be influenced through user settings, e.g. changing turn-on and turn-off speed by variation of R Gon and R Goff. Furthermore, it is possible to adjust the monitoring level and blanking time for the DSCP (see Technical Explanations SKYPER® 42 R).Please note:This technical explanation is based on the Technical Explanations for SKYPER®42 R. Please read the Technical Explanations SKYPER® 42 R before using the Adaptor Board.Dimensions116 PIN ArraySetting Dynamic Short Circuit ProtectionThe Vce formula for the Vce monitoring is described in the technical explanation of SKYPER 42 R. Collector Series ResistanceDesignation Shape SettingR105 MiniMELF (SMD) R VCE*Factory setting: not equippedTOPR205 MiniMELF (SMD) R VCE *Factory setting: not equippedBOTAdaptation Gate ResistorsBoost CapacitorsEnvironmental conditionsPlease refer to the technical explanation of SKYPER 42 R for the environmental conditions.Mounting NotesDISCLAIMERSEMIKRON reserves the right to make changes withoutfurnished in this document is believed to be accurate and reliable. However, no representation or warranty is given and no liability is assumed with respect to the accuracy or use of such information. SEMIKRON does not assume any liability arising out of the application or use of any product or circuit described herein. Furthermore,。

Radio Systems Division Technical PublicationsTable of ContentsT ABLE OF C ONTENTS (1)R ADIO S YSTEMS D IVISION T ECHNICAL P UBLICATIONS (2)T800 Series Basestation Technical Publications (2)New Manuals (2)Existing Manuals (3)T800 Technical Notes (5)Fitting Instructions (7)TaitNet MPT Trunking Systems Technical Publications (9)MiniSystem Local System Manuals (9)T1530 Regional Network System Manuals (9)T1540 National Network System Manuals (10)TaitNet Technical Notes (11)Rural Telephone Documentation (14)Intersite Modem Documentation (14)Radio Systems Division Technical PublicationsT800 Series Basestation Technical PublicationsNew Manuals The manuals listed below are included on the Radio Systems DivisionDocumentation CD ROM as Adobe Acrobat PDF files. Hardcopy manualscan be ordered from TEL.The order number column also denotes in which folder on the CD ROM therelevant manual PDF files are stored.Product number TitleM800-00-101T800 Series II Ancillary Equipment Service ManualIssue 101M830-00-201T830 Series II Base Station Equipment 136-174MHzService Manual Issue 201R830-00-201T830 Series II Base Station Equipment 136-174 MHzRevision Pack Issue 201M850-00-201T850 Series II Base Station Equipment 400-520MHzService Manual Issue 201R850-00-201T850 Series II Base Station Equipment 400-520mhzRevision Pack Issue 201M860-00-200T860 Series II Base Station Equipment 220-285MHzService Manual(continued)Existing Manuals The manuals listed below are not included on the Radio Systems Division Documentation CD ROM. Hardcopy manuals can be ordered from TEL. Product number DescriptionM223-02T223-02 desk top remote control unit service manual(includes T007-00 decoder)M274-75T274 &T275 base station remote control systemservice manualM318-04T318-04 AM/FM Tx/Rx monitor service manual(include. T1551 line termination unit)M375-00T375 Service ManualM377-00T377 exciter & PA service manualM801-00T801 frequency reference module service manualM801-10T801-10 frequency reference module service manual M802-00T802 remote monitor service manualM805-00-102T805 Quasi-Synchronous System Service ManualM805-06-100T805 Quasi-Synchronous System Service Manual(US version)M806-00T806 base station power supply service manualM820-00-100T820 Series I Service ManualM820-02-100T820 Series I Service Manual (French language)M820-06-100T820 Series I Service Manual (US version)Continued on next page(continued)Existing Manuals The manuals listed below are not included on the Radio Systems Division Documentation CD ROM. Hardcopy manuals can be ordered from TEL. Product number DescriptionM830-00-100T830 Series I Service ManualM850-00-101T850 Series I Service Manual (T855/6/7/8/9)M850-02-100T850 Series I Service Manual(French language version)M860-00-100T860 Series I Service Manual (T865/7/9)M870-00-100T870 Series I Service Manual (T875/7/8)M881-00T881 transmitter service manualM885-00T885 receiver service manualM889-00-100T889 PA service manualM800-00-100T800 Series I Ancilliary Products Service Manual M800-06-100T800 Series I Ancilliary Products Service Manual(US version)R800-00-101Revision package for M800-00-100 manualR805-00-101Revision package for M805-00-100 manualR805-00-102Revision package for M805-00-101 manual(continued)Technical Notes The newer Technical Notes and older Technical Instructions are included on the Radio Systems Division Documentation CD ROM as Adobe Acrobat PDFfiles.Note: Technical Notes and Technical Instructions can also be downloadedfrom the Taitworld Customer Support Web site /DescriptionTechnical InstructionNumberTechnical Instruction 356D T800-07 Multichannel Memory PCBTechnical Instruction 398A T856 To Convert To Low Power OperationTechnical Instruction 415T826 & T857 Short Key Time OptionTechnical Instruction 418T800 Selcall Sigtec S1530 InstallationTechnical Instruction 422T800 Receivers Rx De-Sense by AuxiliaryBoardsTechnical Instruction 425T825-10 VHF Receivers Sinad MuteModificationsTechnical Instruction 431T800 Series Pre-Tinning Of Power TransistorTabsTechnical Instruction 455T800-30/35 & T800 Transmitters DFSKWaveform ImprovementsTechnical Instruction 457T830 Series I / II CompatibilityTechnical Instruction 458T875-25, T877-25K & T859-10KModifications For KukjaeTechnical Instruction 459Best Practice For Installing T800 Series PowerAmplifiersContinued on next page(continued)Technical Notes (continued)The newer Technical Notes and older Technical Instructions are included on the Radio Systems Division Documentation CD ROM as Adobe Acrobat PDF files.Technical NoteNumberDescriptionTechnical Note 505Modifications Required For T800 Series II Paging AndQuasi-Sync TransmittersTechnical Note 507DFSK Waveform Improvements In T800 Series IITransmitters Fitted With T800-30-0001/0003 PCBs Technical Note 508Fitting A Sigtec S1530 Selcall Unit To A T800 Series IITransmitterTechnical Note 509T800 Low Line Level ModificationTechnical Note 510To Convert A T856 Series II Module To Low PowerOperationTechnical Note 511T800 Product Planning StatusTechnical Note 512Combining Third Party Equipment With The T800Series II Radio PlatformTechnical Note 518Using T800 Series II with Zetron Model 49 LTRTrunking LogicTechnical Note 524T859-30 Power Amplifier Swap outTechnical Note 529T800-02 Modification to allow reverse burst detectionwhen used with Motorola HT1000 portables Technical Note 532T859-30 100 Watt Power AmplifiersTechnical Note 544Improving The Noise Mute Performance In Series IIT855 ReceiversTechnical Note 546T800 Series II - Fixed Equipment ChartTechnical Note 547Radio Frequency Planner ChartTechnical Note 566T800-02 CTCSS Encoder/DecoderTechnical Note 581T800 Fixed Equipment ModulesTechnical Note 582T800 Ancillary EquipmentTechnical Note 585T800-07 Multichannel Memory (updating TI 356D)(continued)Fitting Instructions T800 Fitting Instructions are included on the Radio Systems Division Documentation CD ROM as Adobe Acrobat PDF files.Note: Fitting Instructions can also be downloaded from the Taitworld Customer Support Web sitehttp:// /IPN Description418-15052-00T1500-52-0000 Fitting Instructions TxAlarm/Multi-channel Kit419-83200-00T800-32-0000 Fitting Instructions T800-32-0000Paging Board419-83210-00T800-32-0010 Fitting Instructions T800-32-0010Paging Board458-80100-00T800-01-0010 Calibration Test Unit User’s Guide 419-80035-02T800-35 Fitting Instruction DFSK Modulator forT800 transmitters459-80140-00T800-01-0004 Programming Module InterfaceUser’s Guide419-80600-01T800-06-0000/0001 Fitting Instructions419-80600-00T800-06-0000/0001 Fitting Instructions419-80007-00T800-07 Plug-in Multichannel Memory PCBFitting Instructions419-81700-00T800-17-0010 Fitting Instructions419-82300-00T800-23-0000 Slimline Repeater Kit FittingInstructionsContinued on next page(continued)Fitting Instructions (continued)T800 Optional Equipment Fitting Instructions are included on the Radio Systems Division Documentation CD ROM as Adobe Acrobat PDF files.IPN Description419-83000-00T800-30-0000 Fitting Instructions419-80055-00T800-55 Fitting Instructions419-80060-03T800-60 Fitting Instructions419-80081-00T800-81 Fitting Instructions419-80082-00T800-82 Fitting Instructions419-80083-00T800-83 Fitting Instructions419-80084-00T800-84 Fitting InstructionsMiniSystem Local System Manuals The manuals listed below are included on the Radio Systems Division Documentation CD ROM as Adobe Acrobat PDF files. Hardcopy manuals can be ordered from TEL. The order number column also denotes in which folder on the CD ROM the relevant manual PDF files are stored.Product No DescriptionM1704-SS-811Taitnet Mnisystem System ManualM1704-SS-812Taitnet Minisystem Service ManualM1704-SS-823Minisystem Feature LibraryM1504-00-805T1504-00 Network Management Terminal NetworkOperations ManualT1530 Regional System Manuals The manuals listed below are included on the Radio Systems Division Documentation CD ROM as Adobe Acrobat PDF files. Hardcopy manuals can be ordered from TEL. The order number column also denotes in which folder on the CD ROM the relevant manual PDF files are stored.Product No DescriptionM1504-00-805T1504-00 Network Management TerminalNetwork Operations ManualM1504-FR-805Terminal de Gestion du Réseau Guide de l’utilisateur M1530-SS-812T1530 Trunked Radio Network Node Service Manual M1530-SS-823T1530 Single-Node Systems Feature LibraryM15XX-S1-812Site Service Manual(Series I T1510-01 CCM & T1550-02 LTU)M15XX-S2-812Site Service Manual (Series II T1511 CCMM1530-NS-811TaitNet Regional Network Support Manual(continued)T1540 National System Manuals The manuals listed below are included on the Radio Systems Division Documentation CD ROM as Adobe Acrobat PDF files. Hardcopy manuals can be ordered from TEL.The order number column also denotes in which folder on the CD ROM the relevant manual PDF files are stored.Product No DescriptionM1540-20-805T1540-20 Network Management Terminal NetworkOperations ManualM1540-35-805Network Provider Package Operations ManualM1540-71-315T1540 Line Despatcher Equipment Installation andConfiguration ManualM1540-71-315-130T1540 Line Despatcher version 1.30 Installation andConfiguration ManualM1540-71-315-131T1540-71 Line Despatcher Terminal version 1.31Operations ManualM1540-71-805T1540-71 Line Despatcher Terminal Operations Manual M1540-SS-811T1540 Trunked Radio Network Node Support Manual M1540-SS-812T1540 Trunked Radio Network Node Service Manual M1540-SS-823T1540 Multi-Node Systems Feature LibraryM15XX-S1-812Site Service Manual(Series I T1510 CCM & T1550 LTU)M15XX-S2-812Site Service Manual (Series II T1511 CCM)M1540-HS-805TaitNet Hot Standby Equipment Operations ManualM1540-NS-811TaitNet National Network Support ManualM1540-HA-811TaitNet High Availability Support Manual(continued)Technical Notes The newer Technical Notes and older Technical Instructions are included on the Radio Systems Division Documentation CD ROM as Adobe Acrobat PDFfiles.Note: Technical Notes and Technical Instructions can also be downloadedfrom the Taitworld Customer Support Web site /Technical Instruction /DescriptionTechnical Note NumberTechnical Instruction 401T1560-04 DAS RS-485 TerminatingImpedance's 32 Port SwitchTechnical Instruction 404Upgrade of DAS Equipment to 57.6 kbaudCommunication RateTechnical Instruction 407T1510 and T1520 reset header PCBTechnical Instruction 411T1560-03 Improvements to Tone DecodersTechnical Instruction 419T1520-02 Battery Backup not Functioning LongEnoughTechnical Instruction 423T1560-20 Reducing the Possibility of a DCSReset OccurringTechnical Instruction 430To Upgrade the CCM Main EPROM to 64KTechnical Instruction 433T1560-08 MFC UpgradeTechnical Instruction 435T1520-15 & T1520-20 SCU Memory MapUpgradeTechnical Instruction 438T1520-00 Upgrade to Use the T1520-15 MainBoardContinued on next page(continued)Technical Notes (continued)The newer Technical Notes and older Technical Instructions are included on the Radio Systems Division Documentation CD ROM as Adobe Acrobat PDF files.Technical Instruction /Technical Note NumberDescriptionTechnical Instruction 442T1520-15 Resetting VALRAM and RAM Banks Technical Instruction 444T1510-01 Site Bus ConnectivityTechnical Instruction 445T1520 D4 Silk Screen IncorrectTechnical Instruction 447T1530ISC SCU logon problemTechnical Instruction 448T1510-01 Site Bus Power Down Modification Technical Instruction 449Incorrect display by T1520 SCU with 24channelsTechnical Instruction 450Upgrade of SCU to improve node-sitecommunicationsTechnical Instruction 451T1510-00/01 Control Channel Compatibility Technical Instruction 452Noisy intersite linksTechnical Instruction 453Excessive delays in intersite linksTechnical Instruction 457Upgrade of SCU to improve node-sitecommunicationsTechnical Instruction 458Resetting SCUs and clearing RAM andVALRAM banks from the NMTTechnical Instruction 460Modification of CompuSpec four-wire modemsContinued on next page(continued)Technical Notes (continued)The newer Technical Notes and older Technical Instructions are included on the Radio Systems Division Documentation CD ROM as Adobe Acrobat PDF files.Technical Instruction /Technical Note NumberDescriptionTechnical Instruction 461Establishment of node-site communications linkusing CompuSpec four-wire modems Technical Instruction 462Upgrade of memory map for T1520-00 SCUs Technical Instruction 463Compiling Kits for Upgrading Sites to V5.00FirmwareTechnical Note 506Modification of CompuSpec four-wire modems Technical Note 513Index Switch Protocol Converter Installation Technical Note 516LMS Numbering System ConfigurationChecklistTechnical Note 517Application of LMS numbering in the softwarefor T1510 and T1511 CCMsTechnical Note 519T1540 Node Configuration for LMS Operation Technical Note 525Mobile Data on TaitNet SystemsTechnical Note 527MPT1343 Dynamic RegroupingTechnical Note 548Number Translation for Telephone-to-RadioCalls on TaitNet SystemsTechnical Note 551Modification of initial-production CCMs Technical Note 562Modifications to ensure compatibility Technical Note 571DAS II Krone Block WiringTechnical Note 573T1540 Node Controller Version 5.0.0 Release Technical Note 574T1540-20 Network Management TerminalVersion 5.0.0 ReleaseTechnical Note 575Line Despatcher Version 1.2 Release Technical Note 576Index Switch Protocol Convertor Version 1.9Release ApprovalTechnical Note 577Hot Standby Version 2.2 Release Approval Technical Note 580Trunking EPROM Configuration Software Technical Note 583Modifying and Installing an RS-485 Card Technical Note 584T1510 MAX and T1511 MAX ProcessorSoftware Version 5.09 Release Approval(continued)Rural Telephone Documentation The manuals listed below are included on the Radio Systems Division Documentation CD ROM as Adobe Acrobat PDF files. Hardcopy manuals can be ordered from TEL.The order number column also denotes in which folder on the CD ROM the relevant manual PDF files are stored.Product No DescriptionM1555-01-315T1555-01 Radio Telephone Card InstallationManualM1555-01-812T1555-01 Radio Telephone CardService ManualIntersite Modem Documentation The manuals listed below are included on the Radio Systems Division Documentation CD ROM as Adobe Acrobat PDF files. Hardcopy manuals can be ordered from TEL.The order number column also denotes in which folder on the CD ROM the relevant manual PDF files are stored.Product No DescriptionM1556-02-315T1556-02 Intersite Modem CardInstallation Manual。

聚氯乙烯工艺计算及生产问答1、70.5m3聚合反应放热计算：单体加入量为27.8 m3（按25吨单体，单体密度900Kg/m3,每千克氯乙烯聚合热为1540KJ/Kg）转化率C为80% 则Q总=Vp C×1540=27.8×900×80%×1600=3.2×107(KJ)= 7.66×106千卡/釜80%2、70.5m3聚合釜连续注水工艺计算：5型树脂反应温度为57℃（注入温度为20℃投入单体量为25吨反应结束时的转化率为80%，试求：反应结束时总放热量和注入水直接吸收热量占反应总热量的百分之几？（注入水Cp为1kcal/kg. ℃）氯乙烯聚合热为1600Kj/kg,树脂相对密度1.4，57℃时单体的相对密度0.8671）反应结束时物料体积收缩量（注入水量）为V注=△V=单体入料量×转化率（1/单体比重-1/树脂比重）=25×0.8（1/0.8371-1/1.4）=20×（1.195-0.714）=9.62 m3注入水吸收的热量为Q=W注Cp(t釜-t注)=9.62×1000×4.174（57-20）=1.486×106（KJ）反应结束时总反应热为Q总=Vp C×1540=27.8×900×80%×1600=3.2×107(KJ)注入水直接吸收热量占总反应热的百分数为：（1.486/3.2）×100/100=4.64%反应半小时注水量（温度在55℃左右、反应时间为270min，反应结束停止注水）注水量为1.2吨×4=4.8吨水；缓冲剂冲水量为0.2吨；GH-20、L-10（槽和管线）冲水量为0.4吨；分散剂HPMC（槽和管线）冲水量为0.35吨；引发剂（槽和管线）冲水量为0.6吨；轴封水：500kg/小时（反应周期6小时）=3吨则总的连续注入水量为4.8+0.2+0.4+0.35+0.6+3=9.35 m33、70.5m3聚合釜引发剂用量计算：生产SG-5型树脂时，在4.5小时内可结束反应，聚合时单体投入量25000Kg,聚合温度为57℃，加入引发剂的量大约多少？（使用EHP为引发剂分子量为346，理论引发剂用量Nr=1.1mol/TVC,57℃时EHP的半衰期为t1/2=1.1h）根据公式NrNr=No(1-e-0.693/ t1/2)则No=-------------=1.17（mol/TVC）1- e-0.693/ t1/2所以加入引发剂的量为W=25×1.17×346÷1000=10.12Kg=10.2Kg生产SG-2树脂时，在6时内可结束反应，聚合时单体投入量25000Kg,聚合温度为50℃，加入引发剂的量大约多少？（使用EHP为引发剂分子量为346，理论引发剂用量Nr=1.1mol/TVC,50℃时EHP的半衰期为t1/2=4.3h）根据公式NrNr=No(1-e-0.693/ t1/2)则No=-------------=1.78（mol/TVC）1- e-0.693/ t1/2所以加入引发剂的量为W=25×1.78×346÷1000=15.4Kg4、干燥计算:物料由水分25%（湿基）干燥到3%（湿基），假定加速管入口热风温度150℃，干燥管出口温度65℃，产品温度55℃，PVC物料比热容1.8396kj/(kg.干品℃)。

CVSD（连续可变斜率增量调制）编译码系统CVSD(连续可变斜率增量调制)编译码系统一、实验原理和电路说明CVSD 编码系统分别由CVSD 发送模块和CVSD 译码模块模块完成。

CVSD 编码器模块将模拟信号进行CVSD 编码，转换为数字信号在信道上进行传输。

CVSD 译码器模块将信道上接收到的数字信号进行CVSD 码字译码处理，还原出模拟信号。

CVSD 编译码器使用了莫托洛拉公司生产的大规模集成电路MC34115芯片，该芯片可用于CVSD 编码，又可用作CVSD 解码，其取决于芯片第15脚的使能信号：“1”电平为编码方式，“0”电平为译码方式。

CVSD 编译码器电路组成框图参见下图：图3.4.1CVSD 编译码模块框图输入输出 U802A放大器U801 CVSD 编码器U902A 放大器U901 CVSD 编码器传输信道模拟信号数字信号1、 CVSD 发送模块主要由CVSD 编码集成电路U801(MC34115)、运放U802(TL082)、本地译码器、音节滤波器和非线性网络组成，CVSD 发送模块原理框图见图3.4.2所示。

外部输入的话音信号经U802A 缓冲放大之后，送U801的1脚进行CVSD 话音编码（CLKT_Data 为32KHz 的编码时钟），CVSD 编码之后的数据经9脚输出（CVSD_ENOUT ）。

R806、R807、R808、C805和C804组成的积分网络完成本地译码；TP803是恢复的原始模拟信号（近似值），该信号通过2脚送入比较器与输入信号进行比较。

在TP804可以观测到连码一致性脉冲信号，R813、R814和C806构成音节滤波器，用于对连码一致性脉冲进行平滑。

U802B 、D801、D802和周围电阻组成非线性网络，使在大信号输入时，量化TP803 图3.4.2 CVSD 发送模块原理框图 U802B 跳线器K801 放大器比较器量化编码脉幅调制三连码检测双积分器音节滤波器非线性网络U801：MC34115U802ATP802TP801TP805 TP806TP804TP807输出时钟输出数据PAM 模块测试信号PAM T 本地译码阶自适应的增加，实现斜率连续可变的自适应增量调制。