SGL40N150中文资料

STN101050B301TVS Diode ESD suppressorProduct features• Protects one I/O or power line • Low clamping voltage • Working voltage: 5 V• High ESD withstand in compact footprint • Meets moisture sensitivity level (MSL) 3•Molding compound flammability rating: UL 94V-0•Termination finish: Ni/Pd/AuApplications• Cellular handsets & accessories • Wearables• Notebooks & handhelds • Portable instrumentation • Digital cameras •Handheld electronicsEnvironmental compliance and general specifications•IEC61000-4-2 (ESD):• ±30 kV (air)•±30 kV (contact)•IEC61000-4-5 (Lightning) 20 A (8/20 µs)Pb HALOGENHF FREEST N10 1 050 B 301FamilyPackage (N10- DFN1006)Number of channels (1)Operating voltage (050- 5 V) Ordering part numberBi/Uni directional (B- Bi)Capacitance (301- 30 pF)Pin out/functional diagram2Technical Data 11140Effective September 2020STN101050B301 TVS Diode ESD suppressor/electronicsSTN101050B301 ParameterSymbolValueUnitPeak pulse power dissipation on 8/20 μs waveform Ppp 300W ESD per IEC 61000-4-2 (Air)ESD per IEC 61000-4-2 (Contact)V ESD +/-30 +/-30kVLead soldering temperature T L +260 (10 seconds)°C Operating junction temperature range T J -55 to +125°C Storage temperature rangeT STG-55 to +150°CElectrical characteristics(+25 °C)STN101050B301 ParameterTest condition Minimum Typical Maximum Symbol (Units)Reverse working voltage --- 5.0V RWM (V)Reverse breakdown voltage I T = 1 mA 5.5--V BR (V)Reverse holding voltage I H = 50 mA 5.5--V h Reverse leakage current V RWM = 5 V -- 1.0I R (μA)Peak pulse current t p = 8/20 μs --20I PP (A)Clamping voltage I PP = 1 A, t p = 8/20 μs I PP = 20 A, t p = 8/20 μs --9131216V C (V)V C (V)Junction capacitanceV RWM = 0 V, f = 1 MHz-3075C J (pF)Absolute maximum ratings(+25 °C, RH=45%-75%, unless otherwise noted)Mechanical parameters, pad layout- mmPart marking:Millimeter DimensionMinimumTypicalMaximumA 0.450.500.55A1-0.020.05b 0.450.500.55C 0.120.150.18D 0.95 1.00 1.05e 0.65 BSC E 0.550.600.65L 0.200.250.30L10.05 REF h0.070.120.173Technical Data 11140Effective September 2020STN101050B301TVS Diode ESD suppressor /electronics Packaging information mm/inchesDrawing not to scale.Supplied in tape and reel packaging, 10,000 parts per 7” EIA-481 diameter reel4Technical Data 11140Effective September 2020STN101050B301 TVS Diode ESD suppressor/electronicsRatings and V-I characteristic curves(+25 °C unless otherwise noted)V- I curve characteristics (Bi-directional)Pulse waveform (8/20 µs)Pulse derating curve ESD waveformEatonElectronics Division 1000 Eaton Boulevard Cleveland, OH 44122United States/electronics© 2020 EatonAll Rights Reserved Printed in USAPublication No. 11140 BU-MC20122September 2020Technical Data 11140Effective September 2020STN101050B301TVS Diode ESD suppressor Life Support Policy: Eaton does not authorize the use of any of its products for use in life support devices or systems without the express writtenapproval of an officer of the Company. Life support systems are devices which support or sustain life, and whose failure to perform, when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in significant injury to the user.Eaton reserves the right, without notice, to change design or construction of any products and to discontinue or limit distribution of any products. Eaton also reserves the right to change or update, without notice, any technical information contained in this bulletin.Solder reflow profileT e m p e r a t u r eT LT PEaton is a registered trademark.All other trademarks are property of their respective owners.Follow us on social media to get the latest product and support information.Reference J-STD-020Profile featureStandard SnPb solderLead (Pb) free solderPreheat and soak • Temperature min. (T smin )100 °C 150 °C • Temperature max. (T smax )150 °C 200 °C • Time (T smin to T smax ) (t s )60-120 seconds 60-120 seconds Ramp up rate T L to T p 3 °C/ second max. 3 °C/ second max.Liquidous temperature (T l ) Time (t L ) maintained above T L183 °C60-150 seconds 217 °C60-150 seconds Peak package body temperature (T P )*Table 1Table 2Time (t p )* within 5 °C of the specified classification temperature (T c )20 seconds*30 seconds*Ramp-down rate (T p to T L ) 6 °C/ second max. 6 °C/ second max.Time 25 °C to peak temperature6 minutes max.8 minutes max.* Tolerance for peak profile temperature (T p ) is defined as a supplier minimum and a user maximum.Table 1 - Standard SnPb solder (T c )Package thicknessVolume mm3 <350Volume mm3 ≥350<2.5 mm 235 °C 220 °C ≥2.5 mm220 °C220 °CTable 2 - Lead (Pb) free solder (T c )Package thicknessVolume mm 3 <350Volume mm 3350 - 2000Volume mm 3 >2000<1.6 mm 260 °C 260 °C 260 °C 1.6 – 2.5 mm 260 °C 250 °C 245 °C >2.5 mm250 °C245 °C245 °C。

Wire Wound SMD Power Inductors – SWPA SeriesOperating temperature range: -40℃~+125℃ (Including self-heating)FEATURES● Magnetic-resin shielded construction reduces buzz noise to ultra-low levels● Metallization on ferrite core results in excellent shock resistance and damage-free durability ● Closed magnetic circuit design reduces leakage flux and Electro Magnetic Interference (EMI) ● 30% higher current rating than conventional inductors of equal size ● Takes up less PCB real estate and save more powerAPPLICATIONS● Smart phone, smart TV, set top box, notebook ● Car navigation systems, telecomm base stations ● VR, AR ● LED lightingPRODUCT IDENTIFICATIONSWPA3012 S 1R0 N T□□□① ② ③ ④ ⑤ ⑥ ⑦②External Dimensions (L×W×H) [mm] 252010 2.5×2.0×1.0 252012 2.5×2.0×1.2 3010 3.0×3.0×1.03012 3.0×3.0×1.2 3015 3.0×3.0×1.5 4010 4.0×4.0×1.0 4012 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 6.0×6.0×4.0 6045 6.0×6.0×4.5 8040 8.0×8.0×4.0 8050 8.0×8.0×5.0 8060 8.0×8.0×6.08065 8.0×8.0×6.5 ① Type SWPAWire Wound SMD Power Inductor③ Feature TypeS Standard ④ Nominal InductanceExample Nominal Value1R0 1.0μH 100 10μH⑤ Inductance ToleranceK ±10%M ±20% N ±30% ⑥ PackingTTape Carrier Package⑦ Design Code □□□Standard product is blankFig.1 Fig.2Unit: mmSeriesShapeABCD E Fa Typ.b Typ.c Typ.SWPA252010S Fig.1 2.5±0.1 2.0±0.1 1.0 Max. 2.0±0.20.80±0.20.80±0.2 0.80 0.85 2.0 SWPA252012S Fig.1 2.5±0.1 2.0±0.1 1.2 Max. 2.0±0.20.80±0.20.80±0.2 0.80 0.85 2.0 SWPA3010S Fig.2 3.0±0.2 3.0±0.2 1.0 Max. 2.5±0.20.75±0.2 1.5±0.2 1.5 0.8 2.7 SWPA3012S Fig.2 3.0±0.2 3.0±0.2 1.2 Max. 2.5±0.20.75±0.2 1.5±0.2 1.5 0.8 2.7 SWPA3015S Fig.2 3.0±0.2 3.0±0.2 1.5 Max. 2.5±0.20.75±0.2 1.5±0.2 1.5 0.8 2.7 SWPA4010S Fig.2 4.0±0.2 4.0±0.2 1.0 Max. 3.3±0.20.95±0.2 2.1±0.2 1.9 1.1 3.7 SWPA4012S Fig.2 4.0±0.2 4.0±0.2 1.2 Max. 3.3±0.20.95±0.2 2.1±0.2 1.9 1.1 3.7 SWPA4018S Fig.2 4.0±0.2 4.0±0.2 1.8 Max. 3.3±0.20.95±0.2 2.1±0.2 1.9 1.1 3.7 SWPA4020S Fig.2 4.0±0.2 4.0±0.2 2.0 Max. 3.3±0.20.95±0.2 2.1±0.2 1.9 1.1 3.7 SWPA4026S Fig.2 4.0±0.2 4.0±0.2 2.6 Max. 3.3±0.20.95±0.2 2.1±0.2 1.9 1.1 3.7 SWPA4030S Fig.2 4.0±0.2 4.0±0.2 3.0 Max. 3.3±0.20.95±0.2 2.1±0.2 1.9 1.1 3.7 SWPA5012S Fig.3 5.0±0.2 5.0±0.2 1.2 Max. 4.0±0.2 1.25±0.2 2.5±0.2 2.3 1.4 4.2 SWPA5020S Fig.3 5.0±0.2 5.0±0.2 2.0 Max. 4.0±0.2 1.25±0.2 2.5±0.2 2.3 1.4 4.2 SWPA5040S Fig.3 5.0±0.2 5.0±0.2 4.0 Max. 4.0±0.2 1.25±0.2 2.5±0.2 2.3 1.4 4.2 SWPA5045S Fig.3 5.0±0.2 5.0±0.2 4.5 Max. 4.0±0.2 1.30±0.2 2.5±0.2 2.3 1.4 4.2 SWPA6020S Fig.2 6.0±0.3 6.0±0.3 2.0 Max. 4.9±0.3 1.55±0.3 2.9±0.3 2.8 1.7 5.7 SWPA6028S Fig.2 6.0±0.3 6.0±0.3 2.8 Max. 4.9±0.3 1.55±0.3 2.9±0.3 2.8 1.7 5.7 SWPA6040S Fig.2 6.0±0.3 6.0±0.3 4.0 Max. 4.9±0.3 1.55±0.3 2.9±0.3 2.8 1.7 5.7 SWPA6045S Fig.2 6.0±0.3 6.0±0.3 4.5 Max.4.9±0.3 1.55±0.3 2.9±0.3 2.8 1.75.7 SWPA8040S Fig.2 8.0±0.3 8.0±0.3 4.2 Max.6.3±0.3 2.00±0.3 4.0±0.3 3.8 2.27.5SWPA8050S Fig.3 8.0±0.3 8.0±0.3 5.0 Max. 6.3±0.3 2.00±0.3 4.0±0.3 3.8 2.2 7.5 SWPA8060S Fig.3 8.0±0.3 8.0±0.3 6.0 Max 6.3±0.3 2.00±0.3 4.0±0.3 3.8 2.2 7.5 SWPA8065S Fig.3 8.0±0.3 8.0±0.3 6.5 Max.6.3±0.32.00±0.34.0±0.3 3.8 2.2 7.5SHAPE AND DIMENSIONS SWPA252010S SeriesPart NumberInductance DC ResistanceSelf-resonantFrequencySaturation Current*3Heat Rating Current*4@100kHz,1V Max. Typ.Min. Max. Typ. Max. Typ.Units μH ΩMHz A A Symbol L DCRS.R.F Isat Irms SWPA252010SR47NT 0.47±30% 0.056 0.047206 2.50 3.35 2.35 2.56 SWPA252010SR56NT 0.56±30% 0.072 0.060160 2.90 3.20 2.00 2.18 SWPA252010SR68NT 0.68±30% 0.074 0.062129 2.20 2.75 2.00 2.18 SWPA252010S1R0NT 1.0±30% 0.1080.090100 1.85 2.20 1.65 1.80 SWPA252010S1R5NT 1.5±30% 0.182 0.15281 1.80 2.10 1.30 1.42 SWPA252010S2R2NT 2.2±30% 0.209 0.17461 1.20 1.60 1.20 1.31 SWPA252010S3R3MT 3.3±20% 0.328 0.27347 1.05 1.30 0.90 0.98 SWPA252010S4R7MT 4.7±20% 0.563 0.46942 0.95 1.15 0.70 0.76 SWPA252010S5R6MT 5.6±20% 0.563 0.46935 0.80 0.95 0.73 0.80 SWPA252010S6R8MT 6.8±20% 0.896 0.74731 0.78 0.92 0.59 0.64 SWPA252010S100MT 10±20% 1.092 0.91027 0.65 0.78 0.50 0.55SWPA252012S SeriesPart NumberInductance DC Resistance Self-resonant FrequencySaturation Current*3Heat Rating Current*4@100kHz,1V Max.Typ.Min. Max.Typ. Max. Typ.Units μH Ω MHz A A Symbol L DCR S.R.F Isat IrmsSWPA252012SR47NT 0.47±30% 0.0610.047160 3.82 4.27 2.15 2.34 SWPA252012SR68NT 0.68±30% 0.0740.057140 3.28 3.68 1.95 2.13 SWPA252012S1R0NT 1.0±30% 0.0900.069110 2.59 2.90 1.93 2.10 SWPA252012S1R2NT 1.2±30% 0.1290.099100 2.38 2.67 1.46 1.59 SWPA252012S1R5MT 1.5±20% 0.1470.11397 2.24 2.51 1.40 1.53 SWPA252012S1R5NTY01 1.5±30% 0.1300.10 63 1.80 2.00 1.45 1.58 SWPA252012S2R2MT 2.2±20% 0.2160.16669 1.85 2.07 1.15 1.25 SWPA252012S2R2NTY02 2.2±30% 0.1530.11853 1.55 1.75 1.30 1.42 SWPA252012S2R7MT 2.7±20% 0.2390.18463 1.72 1.92 1.09 1.19 SWPA252012S3R3MT 3.3±20% 0.2640.20362 1.61 1.80 1.04 1.13 SWPA252012S3R6MT 3.6±20% 0.3480.26853 1.46 1.64 0.90 0.98 SWPA252012S4R3MT 4.3±20% 0.3770.29051 1.37 1.53 0.87 0.95 SWPA252012S4R7MT 4.7±20% 0.3770.29047 1.12 1.25 0.84 0.92 SWPA252012S5R1MT 5.1±20% 0.5000.38544 1.23 1.37 0.75 0.82SWPA252012S5R6MT 5.6±20%0.5380.41438 1.11 1.25 0.73 0.80SWPA252012S6R2MT 6.2±20% 0.5420.41738 1.03 1.16 0.73 0.80 SWPA252012S6R8MT 6.8±20% 0.5810.44738 0.98 1.09 0.69 0.75 SWPA252012S7R5MT 7.5±20% 0.6110.47035 0.97 1.09 0.68 0.74SWPA252012S8R2MT 8.2±20% 0.6580.50636 0.98 1.10 0.65 0.71 SWPA252012S9R1MT 9.1±20%0.6900.53134 0.91 1.02 0.62 0.68SWPA252012S100MT 10±20% 0.6900.53134 0.79 0.88 0.62 0.68SWPA252012S120MT 12±20%1.0750.82728 0.78 0.88 0.51 0.56 SWPA252012S150MT 15±20%1.591 1.22425 0.68 0.77 0.42 0.46SWPA3010S Series Part NumberInductanceDC ResistanceSelf-resonant FrequencySaturation Current*3Heat Rating Current*4@100kHz,1V Max.Typ.Min. Max.Typ. Max. Typ.Units μH ΩMHz A A Symbol L DCR S.R.F Isat IrmsSWPA3010S1R0NT 1.0±30% 0.0850.065180 1.40 2.10 1.45 1.80 SWPA3010S1R2NT 1.2±30% 0.0850.065137 1.25 1.70 1.45 1.80 SWPA3010S1R5NT 1.5±30% 0.1040.080120 1.27 1.70 1.30 1.60 SWPA3010S2R2NT 2.2±30% 0.1430.110100 1.15 1.50 1.09 1.40 SWPA3010S2R7NT 2.7±30% 0.1690.13090 1.00 1.20 1.02 1.40 SWPA3010S3R3NT 3.3±30% 0.1890.14574 0.97 1.20 0.96 1.20 SWPA3010S3R6MT 3.6±20% 0.2150.16567 0.95 1.20 0.90 1.10 SWPA3010S4R7MT 4.7±20% 0.2930.22559 0.75 1.05 0.77 1.10 SWPA3010S5R6MT 5.6±20% 0.322 0.248 40 0.58 0.65 0.70 1.05 SWPA3010S6R8MT 6.8±20% 0.3970.30542 0.55 0.72 0.66 0.96 SWPA3010S8R2MT 8.2±20% 0.520 0.40 23 0.55 0.70 0.58 0.70 SWPA3010S100MT 10±20% 0.5200.40 39 0.55 0.75 0.58 0.70 SWPA3010S120MT 12±20% 0.6570.50536 0.43 0.65 0.52 0.67 SWPA3010S150MT 15±20% 0.7930.61030 0.42 0.57 0.47 0.57 SWPA3010S220MT 22±20% 1.2090.93028 0.35 0.48 0.38 0.52 SWPA3010S270MT 27±20% 1.404 1.08025 0.30 0.45 0.35 0.50 SWPA3010S330MT 33±20% 2.015 1.55018 0.29 0.42 0.30 0.55 SWPA3010S390MT 39±20% 2.275 1.75018 0.28 0.38 0.28 0.53 SWPA3010S430MT 43±20% 2.340 1.80 18 0.23 0.36 0.27 0.52 SWPA3010S470MT 47±20% 2.535 1.95018 0.22 0.35 0.26 0.52 SWPA3010S510MT 51±20% 2.860 2.20 18 0.21 0.33 0.25 0.48SWPA3010S560MT 56±20% 3.016 2.32016 0.21 0.280.24 0.35SWPA3012S SeriesPart NumberInductanceDC ResistanceSelf-resonant FrequencySaturation Current*3Heat Rating Current*4@100kHz,1V Max.Typ. Min. Max.Typ. Max. Typ.Units μH ΩMHz A A Symbol L DCR S.R.F Isat Irms SWPA3012SR22NT 0.22±30% 0.022 0.017 321 5.30 6.00 3.00 3.30 SWPA3012SR82NT 0.82±30% 0.039 0.030 180 2.05 2.80 2.47 3.00 SWPA3012S1R0NT 1.0±30% 0.052 0.040 120 1.87 2.80 2.20 2.70 SWPA3012S1R2NT 1.2±30% 0.059 0.045 120 2.22 2.50 2.01 2.20 SWPA3012S1R5NT 1.5±30% 0.0590.045 110 1.62 1.90 2.01 2.20 SWPA3012S1R8NT 1.8±30% 0.0820.063 90 1.30 1.90 1.65 1.80 SWPA3012S2R2NT 2.2±30% 0.0980.075 84 1.20 1.90 1.55 1.70 SWPA3012S2R4NT 2.4±30% 0.0880.068 100 1.15 1.50 1.60 1.70 SWPA3012S2R7NT 2.7±30% 0.1100.085 65 1.14 1.50 1.48 1.50 SWPA3012S3R3MT 3.3±20% 0.1300.10 64 1.05 1.50 1.36 1.40 SWPA3012S3R6MT 3.6±20% 0.1300.10 36 1.05 1.50 1.36 1.40 SWPA3012S3R9MT 3.9±20% 0.189 0.145 61 1.00 1.30 1.24 1.30 SWPA3012S4R7MT 4.7±20% 0.1560.120 61 0.90 1.00 1.24 1.30 SWPA3012S5R6MT 5.6±20% 0.2260.17461 0.80 1.10 1.13 1.24 SWPA3012S6R8MT 6.8±20% 0.2470.190 61 0.75 0.90 0.98 1.10 SWPA3012S100MT 10±20% 0.3450.265 42 0.60 0.88 0.83 0.90 SWPA3012S120MT 12±20% 0.4490.345 32 0.48 0.67 0.73 0.84SWPA3012S SeriesPart NumberInductanceDC ResistanceSelf-resonant FrequencySaturation Current*3Heat Rating Current*4@100kHz,1V Max.Typ. Min. Max.Typ. Max. Typ.Units μH Ω MHz A A Symbol L DCR S.R.F Isat Irms SWPA3012S220MT 22±20% 0.839 0.645 23 0.42 0.52 0.53 0.59 SWPA3012S270MT 27±20% 1.131 0.870 21 0.35 0.48 0.47 0.51 SWPA3012S330MT 33±20% 1.138 0.875 18 0.36 0.46 0.46 0.50 SWPA3012S360MT 36±20% 1.235 0.950 18 0.34 0.44 0.44 0.48 SWPA3012S390MT 39±20% 1.729 1.330 18 0.30 0.39 0.37 0.41 SWPA3012S470MT 47±20% 1.885 1.450 14 0.27 0.35 0.35 0.40 SWPA3012S560MT 56±20% 1.794 1.380 9 0.26 0.33 0.28 0.40 SWPA3012S680MT 68±20% 2.171 1.670 7 0.24 0.29 0.33 0.37 SWPA3012S820MT 82±20% 3.302 2.540 7 0.17 0.27 0.27 0.31 SWPA3012S101MT 100±20% 3.718 2.860 5 0.21 0.23 0.25 0.29SWPA3015S SeriesPart NumberInductanceDC ResistanceSelf-resonant Frequency Saturation Current*3Heat Rating Current*4@100kHz,1V Max.Typ.Min.Max.Typ. Max. Typ.Units μH ΩMHz A ASymbol L DCR S.R.F Isat Irms SWPA3015SR50NT 0.5±30% 0.039 0.030 162 3.90 4.20 2.60 2.80 SWPA3015S1R0NT 1.0±30% 0.039 0.030 150 2.32 2.80 2.35 2.50 SWPA3015S1R2NT 1.2±30% 0.052 0.040 110 2.21 3.10 1.95 2.30 SWPA3015S1R5NT 1.5±30% 0.065 0.050 100 2.30 2.70 1.70 2.20 SWPA3015S1R8NT 1.8±30% 0.065 0.050 92 1.75 2.20 1.70 2.20 SWPA3015S2R2NT 2.2±30% 0.078 0.060 86 1.60 2.00 1.60 2.00 SWPA3015S2R7NT 2.7±30% 0.098 0.075 64 1.52 1.90 1.43 1.90 SWPA3015S3R3MT 3.3±20% 0.104 0.080 68 1.32 1.81 1.36 1.60 SWPA3015S3R6MT 3.6±20% 0.137 0.105 59 1.28 1.60 1.20 1.50 SWPA3015S3R9MT 3.9±20% 0.137 0.105 47 1.20 1.40 1.20 1.50 SWPA3015S4R3MT 4.3±20% 0.150 0.115 53 1.20 1.40 1.14 1.30 SWPA3015S4R7MT 4.7±20% 0.163 0.125 46 1.10 1.40 1.09 1.30 SWPA3015S5R1MT 5.1±20% 0.173 0.133 49 1.00 1.20 1.05 1.20 SWPA3015S6R2MT 6.2±20% 0.254 0.195 46 1.00 1.20 0.86 1.00 SWPA3015S6R8MT 6.8±20% 0.260 0.20 39 0.85 1.10 0.85 1.10 SWPA3015S100MT 10±20% 0.325 0.250 41 0.72 0.92 0.77 0.90 SWPA3015S120MT 12±20% 0.416 0.320 32 0.70 0.90 0.68 0.89 SWPA3015S150MT 15±20% 0.455 0.350 30 0.66 0.88 0.65 0.72 SWPA3015S180MT 18±20% 0.559 0.430 23 0.56 0.72 0.59 0.72 SWPA3015S220MT 22±20% 0.598 0.46023 0.52 0.68 0.57 0.69 SWPA3015S270MT 27±20% 0.949 0.730 22 0.48 0.56 0.45 0.56 SWPA3015S330MT 33±20% 1.066 0.820 20 0.44 0.53 0.43 0.51 SWPA3015S390MT 39±20% 1.294 0.995 14 0.41 0.55 0.39 0.44 SWPA3015S430MT 43±20% 1.378 1.060 16 0.37 0.43 0.37 0.48 SWPA3015S470MT 47±20% 1.625 1.250 14 0.35 0.43 0.35 0.44 SWPA3015S560MT 56±20% 1.664 1.280 13 0.33 0.42 0.34 0.41 SWPA3015S620MT 62±20% 2.093 1.610 13 0.30 0.40 0.30 0.41 SWPA3015S680MT 68±20% 3.510 2.700 110.28 0.37 0.23 0.31 SWPA3015S101MT 100±20% 4.043 3.110 6.3 0.23 0.25 0.21 0.25SWPA4010S SeriesPart NumberInductanceDC ResistanceSelf-resonant FrequencySaturation Current*3Heat Rating Current*4@100kHz,1V Max.Typ.Min.Max.Typ. Max. Typ.Units μH ΩMHz AASymbol L DCR S.R.F Isat Irms SWPA4010S1R0NT 1.0±30% 0.067 0.056 116 2.00 2.30 1.90 2.40 SWPA4010S1R5NT 1.5±30% 0.084 0.070 94 1.68 2.00 1.70 2.00 SWPA4010S2R2MT 2.2±20% 0.102 0.085 73 1.20 1.50 1.50 2.00 SWPA4010S3R3MT 3.3±20% 0.120 0.10 58 1.10 1.40 1.40 1.80 SWPA4010S4R7MT 4.7±20% 0.168 0.140 47 0.95 1.10 1.20 1.50 SWPA4010S6R8MT 6.8±20% 0.240 0.20 38 0.80 0.95 1.00 1.20 SWPA4010S100MT 10±20% 0.360 0.30 31 0.62 0.75 0.75 1.00 SWPA4010S150MT 15±20% 0.516 0.43024 0.54 0.610.60 0.85 SWPA4010S220MT 22±20% 0.684 0.570 19 0.45 0.520.50 0.75SWPA4012S SeriesPart NumberInductance DC ResistanceSelf-resonant FrequencySaturation Current*3Heat Rating Current*4@100kHz,1V Max.Typ.Min.Max.Typ. Max. Typ.Units μH ΩMHz A ASymbol L DCR S.R.F Isat Irms SWPA4012SR82NT 0.82±30% 0.065 0.050 150 3.02 3.30 1.65 2.50 SWPA4012S1R0NT 1.0±30% 0.065 0.050 120 2.61 3.20 1.65 2.50 SWPA4012S1R5NT 1.5±30% 0.085 0.065 90 2.10 2.70 1.46 2.20 SWPA4012S1R8NT 1.8±30% 0.104 0.080 88 2.12 2.60 1.32 1.90 SWPA4012S2R2NT 2.2±30% 0.104 0.080 74 1.76 2.30 1.32 1.90 SWPA4012S2R7NT 2.7±30% 0.117 0.090 71 1.90 2.30 1.25 1.70 SWPA4012S3R3NT 3.3±30% 0.143 0.110 60 1.72 2.10 1.12 1.60 SWPA4012S3R6NT 3.6±30% 0.143 0.110 57 1.20 1.70 1.12 1.60 SWPA4012S4R3NT 4.3±30% 0.182 0.140 54 1.58 1.70 1.00 1.50 SWPA4012S4R7NT 4.7±30% 0.163 0.125 50 1.15 1.80 1.05 1.50 SWPA4012S5R1NT 5.1±30% 0.201 0.155 50 1.55 1.60 0.95 1.50 SWPA4012S5R6NT 5.6±30% 0.182 0.140 42 1.00 1.60 1.00 1.20 SWPA4012S6R8MT 6.8±20% 0.257 0.198 40 0.85 1.40 0.84 1.20 SWPA4012S100MT 10±20% 0.345 0.265 33 0.80 1.10 0.77 1.00 SWPA4012S120MT 12±20% 0.377 0.290 32 0.66 1.00 0.70 0.95 SWPA4012S150MT 15±20% 0.442 0.340 25 0.56 0.80 0.64 0.85 SWPA4012S180MT 18±20% 0.611 0.470 23 0.55 0.75 0.55 0.80 SWPA4012S220MT 22±20% 0.763 0.587 20 0.46 0.70 0.49 0.75 SWPA4012S270MT 27±20% 0.936 0.720 18 0.50 0.70 0.45 0.60 SWPA4012S330MT 33±20% 1.053 0.810 17 0.42 0.60 0.42 0.58 SWPA4012S360MT 36±20% 1.170 0.90 14 0.40 0.50 0.40 0.56 SWPA4012S390MT 39±20% 1.430 1.10 16 0.55 0.66 0.37 0.50 SWPA4012S470MT 47±20% 1.430 1.10 12 0.35 0.50 0.37 0.50 SWPA4012S560MT 56±20% 1.625 1.250 11 0.33 0.45 0.33 0.46 SWPA4012S680MT 68±20% 2.535 1.950 11 0.38 0.45 0.27 0.45 SWPA4012S820MT 82±20% 2.782 2.140 11 0.28 0.40 0.26 0.36SWPA4018S SeriesPart NumberInductance DC ResistanceSelf-resonantFrequencySaturation Current*3Heat RatingCurrent*4@100kHz,1V Max.Typ.Min. Max.Typ. Max. Typ.Units μH ΩMHz A ASymbol L DCR S.R.F Isat Irms SWPA4018SR47NT 0.47±30% 0.0180.014155 4.30 5.20 4.00 4.50 SWPA4018SR68NT 0.68±30% 0.0260.020128 4.90 5.60 3.30 3.80 SWPA4018S1R0NT 1.0±30% 0.0330.02580 4.80 5.20 2.00 3.30 SWPA4018S1R5NT 1.5±30% 0.0390.03065 3.35 4.00 1.80 3.20 SWPA4018S1R8NT 1.8±30% 0.0440.03454 3.00 3.40 2.00 2.80 SWPA4018S2R2MT 2.2±20% 0.0590.04552 2.70 3.20 1.65 2.60 SWPA4018S3R3MT 3.3±20% 0.0910.07044 2.45 2.90 1.23 2.10 SWPA4018S4R7MT 4.7±20% 0.1170.09034 1.70 2.20 1.20 1.80 SWPA4018S6R8MT 6.8±20% 0.1430.11029 1.45 2.00 1.06 1.50 SWPA4018S100MT 10±20% 0.2340.18024 1.30 1.60 0.84 1.20 SWPA4018S150MT 15±20% 0.3250.25019 0.94 1.10 0.65 1.00 SWPA4018S220MT 22±20% 0.4680.36016 0.80 0.88 0.59 0.85 SWPA4018S270MT 27±20% 0.6110.47027 0.47 0.62 0.52 0.90 SWPA4018S330MT 33±20% 0.6890.53012 0.56 0.75 0.49 0.72 SWPA4018S470MT 47±20% 0.8450.65010 0.57 0.70 0.42 0.65 SWPA4018S680MT 68±20% 1.30 1.0 8.3 0.47 0.51 0.32 0.52 SWPA4018S101MT 100±20% 2.275 1.750 6.5 0.40 0.44 0.25 0.41 SWPA4018S151MT 150±20% 3.250 2.50 5.5 0.31 0.34 0.22 0.36 SWPA4018S221MT 220±20% 5.20 4.0 4 0.27 0.30 0.17 0.27SWPA4020S SeriesPart NumberInductance DC ResistanceSelf-resonantFrequencySaturation Current*3Heat RatingCurrent*4@100kHz,1V Max.Typ. Min. Max.Typ. Max. Typ.Units μH ΩMHz A ASymbol L DCR S.R.F Isat IrmsSWPA4020SR24MT 0.24±20% 0.0140.011283 10.5 12.5 4.50 5.20 SWPA4020SR33NT 0.33±30% 0.0160.013223 7.50 8.50 3.30 4.90 SWPA4020SR47NT 0.47±30% 0.0290.022160 7.00 7.50 3.30 3.70 SWPA4020SR68NT 0.68±30% 0.0360.028120 6.40 6.60 2.80 3.30 SWPA4020S1R0NT 1.0±30% 0.0380.02975 4.78 5.20 2.15 3.20 SWPA4020S1R2NT 1.2±30% 0.0380.02972 5.10 5.60 2.15 3.20 SWPA4020S1R5NT 1.5±30% 0.0460.03571 4.45 4.90 1.98 3.00 SWPA4020S2R2NT 2.2±30% 0.0520.04049 3.40 3.70 1.85 2.80 SWPA4020S3R3MT 3.3±20% 0.0910.07044 3.20 3.50 1.40 2.50 SWPA4020S3R6MT 3.6±20% 0.0720.05549 2.80 3.00 1.54 2.50 SWPA4020S4R7MT 4.7±20% 0.0980.07542 2.35 2.50 1.34 2.00 SWPA4020S5R1MT 5.1±20% 0.111 0.08542 2.30 2.50 1.27 1.80 SWPA4020S5R6MT 5.6±20% 0.1170.09030 2.20 2.40 1.22 1.80 SWPA4020S6R2MT 6.2±20% 0.1500.11536 2.15 2.30 1.08 1.60 SWPA4020S6R8MT 6.8±20% 0.1630.12533 2.20 2.40 1.04 1.60 SWPA4020S7R5MT 7.5±20% 0.1500.11530 1.85 2.00 1.08 1.50 SWPA4020S8R2MT 8.2±20% 0.1630.12527 1.75 1.90 1.04 1.40 SWPA4020S100MT 10±20% 0.2150.16526 1.60 1.70 0.90 1.20 SWPA4020S120MT 12±20% 0.2280.17526 1.50 1.60 0.88 1.20 SWPA4020S150MT 15±20% 0.2990.23024 1.35 1.50 0.77 1.10SWPA4020S SeriesPart NumberInductance DC ResistanceSelf-resonantFrequencySaturation Current*3Heat RatingCurrent*4@100kHz,1V Max.Typ.Min. Max.Typ. Max. Typ.Units μH ΩMHz A ASymbol L DCR S.R.F Isat Irms SWPA4020S330MT 33±20% 0.7150.55011 0.850.930.490.68SWPA4020S390MT 39±20% 0.8450.65011 0.820.900.460.64SWPA4020S430MT 43±20% 0.8580.66010 0.770.850.450.63SWPA4020S470MT 47±20% 0.9230.71010 0.740.810.440.61SWPA4020S510MT 51±20% 0.9750.75010 0.700.770.420.59SWPA4020S560MT 56±20% 1.0400.80 10 0.660.720.410.57SWPA4020S620MT 62±20% 1.1700.90 9.6 0.650.710.390.52SWPA4020S680MT 68±20% 1.380 1.0607.7 0.610.670.360.50SWPA4020S750MT 75±20% 1.510 1.1607.7 0.700.770.350.49SWPA4020S820MT 82±20% 1.520 1.1707.2 0.500.550.340.47SWPA4020S101MT 100±20% 2.020 1.550 6.3 0.480.530.310.43 SWPA4026S SeriesPart NumberInductance DC ResistanceSelf-resonantFrequencySaturation Current*3Heat RatingCurrent*4@100kHz,1V Max.Typ. Min. Max.Typ. Max. Typ.Units μH ΩMHz A ASymbol L DCR S.R.F Isat Irms SWPA4026S1R0NT 1.0±30% 0.0310.024151 3.303.803.003.30SWPA4026S1R2NT 1.2±30% 0.0390.030120 3.103.402.303.30SWPA4026S1R5NT 1.5±30% 0.0390.030100 2.402.902.303.10SWPA4026S2R2MT 2.2±20% 0.0520.04096 2.102.402.003.80SWPA4026S3R3MT 3.3±20% 0.0650.05058 1.802.001.702.50SWPA4026S4R7MT 4.7±20% 0.0720.05546 1.451.701.602.30SWPA4026S6R8MT 6.8±20% 0.0850.06533 1.301.501.502.00SWPA4026S100MT 10±20% 0.1100.08526 1.001.201.301.90SWPA4026S150MT 15±20% 0.1430.11019 0.901.001.101.50SWPA4026S220MT 22±20% 0.2140.16513 0.600.800.901.40SWPA4026S330MT 33±20% 0.3510.2709 0.550.650.701.00SWPA4026S470MT 47±20% 0.3900.30 6 0.400.550.650.90 SWPA4030S SeriesPart NumberInductance DC ResistanceSelf-resonantFrequencySaturation Current*3Heat RatingCurrent*4@100kHz,1V Max.Typ. Min. Max.Typ. Max. Typ.Units μH ΩMHz A ASymbol L DCR S.R.F Isat Irms SWPA4030SR68NT 0.68±30% 0.0130.010130 6.80 8.00 4.56 5.10 SWPA4030SR91NT 0.91±30% 0.0170.013100 6.25 6.80 4.15 4.70 SWPA4030S1R0NT 1.0±30% 0.0180.01470 5.26 5.70 4.15 4.70 SWPA4030S1R2NT 1.2±30% 0.0200.01580 5.80 6.30 3.82 4.20 SWPA4030S1R5NT 1.5±30% 0.0260.02062 4.84 5.30 3.34 3.60 SWPA4030S1R8NT 1.8±30% 0.0330.02560 5.40 5.80 3.20 3.30 SWPA4030S2R2NT 2.2±30% 0.0390.03052 4.90 5.80 2.95 3.20SWPA4030S SeriesPart NumberInductanceDC ResistanceSelf-resonant Frequency Saturation Current*3Heat Rating Current*4@100kHz,1V Max.Typ.Min. Max.Typ. Max. Typ.Units μH ΩMHz AA Symbol L DCR S.R.F Isat Irms SWPA4030S4R3MT 4.3±20% 0.072 0.05537 2.95 3.20 2.10 2.30 SWPA4030S4R7MT 4.7±20% 0.078 0.06031 2.90 3.20 2.00 2.30 SWPA4030S5R6MT 5.6±20% 0.085 0.06530 2.60 2.80 1.95 2.10 SWPA4030S6R8MT 6.8±20% 0.1170.09024 2.75 3.00 1.60 1.70 SWPA4030S7R5MT 7.5±20% 0.110 0.08526 2.20 2.40 1.65 1.80 SWPA4030S8R2MT 8.2±20% 0.117 0.09026 2.10 2.30 1.60 1.70 SWPA4030S100MT 10±20% 0.1300.10 21 1.95 2.40 1.50 1.60 SWPA4030S120MT 12±20% 0.1750.13518 1.70 1.80 1.30 1.40 SWPA4030S150MT 15±20% 0.2470.19016 1.65 1.80 1.11 1.20 SWPA4030S180MT 18±20% 0.2600.20 10 1.40 1.50 1.10 1.20 SWPA4030S220MT 22±20% 0.2920.22510 1.30 1.40 1.00 1.20 SWPA4030S270MT 27±20% 0.3380.26010 1.15 1.35 0.90 1.05 SWPA4030S330MT 33±20% 0.4290.33010 1.10 1.20 0.84 0.92 SWPA4030S360MT 36±20% 0.4360.3359.8 1.05 1.10 0.83 0.91 SWPA4030S390MT 39±20% 0.5660.43510 1.03 1.10 0.73 0.80 SWPA4030S470MT 47±20% 0.5790.4458.4 0.95 1.00 0.72 0.80 SWPA4030S510MT 51±20% 0.6110.4708.4 0.90 1.13 0.70 0.80 SWPA4030S560MT 56±20% 0.7220.5558.4 0.85 0.94 0.65 0.71 SWPA4030S620MT 62±20% 0.7610.5857 0.80 0.99 0.63 0.70 SWPA4030S680MT 68±20% 1.1280.8687 0.72 0.80 0.52 0.57 SWPA4030S750MT 75±20% 1.326 1.020 6.3 0.70 0.88 0.48 0.53 SWPA4030S820MT 82±20% 1.378 1.060 5.6 0.66 0.72 0.47 0.52 SWPA4030S910MT 91±20% 1.430 1.10 5.6 0.65 0.71 0.46 0.50 SWPA4030S101MT 100±20% 1.495 1.150 5.6 0.60 0.73 0.45 0.49 SWPA4030S121MT 120±20% 1.755 1.350 5.4 0.55 0.60 0.42 0.46 SWPA4030S151MT 150±20% 2.340 1.80 4 0.50 0.55 0.30 0.35 SWPA4030S221MT 220±20% 3.250 2.50 4.2 0.40 0.50 0.35 0.40 SWPA4030S331MT 330±20% 5.20 4.0 6.8 0.30 0.40 0.25 0.26 SWPA4030S471KT 470±10% 9.3607.20 2 0.30 0.35 0.20 0.23 SWPA4030S501MT 500±20% 9.027 6.9442 0.28 0.30 0.15 0.20 SWPA4030S681MT 680±20% 9.8547.580 1.2 0.190.200.14 0.18SWPA5012S SeriesPart NumberInductanceDC ResistanceSelf-resonant FrequencySaturation Current*3Heat Rating Current*4@100kHz,1V Max.Typ.Min. Max.Typ. Max. Typ.Units μH ΩMHz A A Symbol L DCR S.R.F Isat Irms SWPA5012SR22NT 0.22±30% 0.0340.028315 8.10 9.30 3.00 3.30 SWPA5012S1R0NT 1.0±30% 0.0680.057103 4.40 4.70 2.00 2.40 SWPA5012S1R5NT 1.5±30% 0.0860.07268 3.70 3.80 1.90 2.20 SWPA5012S2R2NT 2.2±30% 0.1080.09050 3.10 3.20 1.70 2.00 SWPA5012S3R3NT 3.3±30% 0.1510.12634 2.40 2.60 1.40 1.70SWPA5012S4R7NT 4.7±30% 0.1970.16431 2.20 2.30 1.30 1.50SWPA5012S6R8MT 6.8±20% 0.2940.24522 1.70 1.90 1.00 1.20SWPA5012S SeriesPart NumberInductanceDC ResistanceSelf-resonantFrequencySaturation Current*3Heat Rating Current*4@100kHz,1V Max.Typ. Min.Max.Typ. Max. Typ.Units μH ΩMHz AA Symbol L DCR S.R.FIsat IrmsSWPA5012S220MT 22±20% 0.858 0.780 16 0.88 0.980.60 0.68SWPA5020S SeriesPart NumberInductanceDC ResistanceSelf-resonant FrequencySaturation Current*3Heat Rating Current*4@100kHz,1V Max.Typ. Min. Max.Typ. Max. Typ.Units μH ΩMHz A A Symbol L DCR S.R.F Isat Irms SWPA5020SR22NT 0.22±30% 0.0110.009280 9.00 12.00 5.30 6.00 SWPA5020SR24NT 0.24±30% 0.0110.009248 8.00 10.00 5.30 6.00 SWPA5020SR47NT 0.47±30% 0.0170.013160 6.15 6.70 4.60 5.00 SWPA5020SR56NT 0.56±30% 0.0220.017137 8.50 9.60 3.80 4.20 SWPA5020SR68MT 0.68±30% 0.0220.017120 5.50 6.00 4.00 4.40 SWPA5020SR75NT 0.75±30% 0.0220.017117 5.50 6.00 4.00 4.40 SWPA5020S1R0NT 1.0±30% 0.0260.020114 4.10 5.00 3.80 4.10 SWPA5020S1R2NT 1.2±30% 0.0290.02283 4.50 4.90 3.55 3.90 SWPA5020S1R5NT 1.5±30% 0.0340.02668 4.10 4.50 3.20 3.50 SWPA5020S2R2NT 2.2±30% 0.0420.03257 3.20 4.00 2.90 3.10 SWPA5020S2R7NT 2.7±30% 0.0490.03852 2.90 3.50 2.70 2.90 SWPA5020S3R0NT 3.0±30% 0.0490.03849 2.55 2.80 2.70 2.90 SWPA5020S3R3NT 3.3±30% 0.0560.04346 2.55 3.00 2.50 2.70 SWPA5020S3R6NT 3.6±30% 0.0560.04343 2.80 3.00 2.50 2.70 SWPA5020S3R9NT 3.9±30% 0.0560.04340 2.30 2.80 2.50 2.70 SWPA5020S4R3MT 4.3±20% 0.0740.05737 2.50 3.00 2.20 2.40 SWPA5020S4R7MT 4.7±20% 0.0740.05737 2.50 2.70 2.20 2.40 SWPA5020S5R1MT 5.1±20% 0.0830.06432 2.25 2.60 2.05 2.20 SWPA5020S5R6MT 5.6±20% 0.0830.06432 2.30 2.50 2.05 2.20 SWPA5020S6R8MT 6.8±20% 0.1080.08330 2.05 2.20 1.80 1.90 SWPA5020S7R5MT 7.5±20% 0.1170.09026 1.85 2.00 1.75 1.90 SWPA5020S8R2MT 8.2±20% 0.1270.09826 1.85 2.00 1.65 1.80 SWPA5020S9R1MT 9.1±20% 0.1430.11024 1.70 1.80 1.55 1.70 SWPA5020S100MT 10±20% 0.1430.11024 1.70 1.80 1.55 1.70 SWPA5020S120MT 12±20% 0.1820.14022 1.50 1.60 1.40 1.50 SWPA5020S150MT 15±20% 0.2150.16520 1.35 1.40 1.25 1.30 SWPA5020S180MT 18±20% 0.2600.20 16 1.25 1.30 1.15 1.20 SWPA5020S220MT 22±20% 0.2940.22614 1.15 1.20 1.10 1.20 SWPA5020S330MT 33±20% 0.5070.39010 0.92 1.00 0.90 0.99 SWPA5020S470MT 47±20% 0.6800.5237 0.77 0.84 0.77 0.84 SWPA5020S560MT 56±20% 0.8190.630 6 0.77 0.84 0.70 0.77 SWPA5020S680MT 68±20% 0.9620.740 6 0.65 0.70 0.64 0.70 SWPA5020S820MT 82±20% 1.1580.965 6 0.65 0.75 0.50 0.60 SWPA5020S101MT 100±20% 1.430 1.10 6 0.53 0.58 0.53 0.58 SWPA5020S121MT 120±20% 1.755 1.350 6 0.42 0.53 0.40 0.50SWPA5040S SeriesPart NumberInductanceDC ResistanceSelf-resonant FrequencySaturation Current*3Heat Rating Current*4@100kHz,1V Max.Typ. Min. Max.Typ. Max. Typ.Units μH ΩMHz A A Symbol L DCR S.R.F Isat Irms SWPA5040SR22MT 0.22 ±20% 0.0080.006289 18.0020.00 6.50 7.50 SWPA5040SR24NT 0.24 ±30% 0.0080.006251 15.7018.00 6.40 7.40 SWPA5040SR47MT 0.47 ±20% 0.0090.007171 10.0011.50 6.60 7.60 SWPA5040S1R0NT 1.0±30% 0.0160.012117 7.35 8.00 4.90 5.00 SWPA5040S1R2NT 1.2±30% 0.0210.016110 6.50 7.00 4.15 4.25 SWPA5040S1R5NT 1.5±30% 0.0200.01586 6.30 6.80 4.30 4.85 SWPA5040S1R8MT 1.8±20% 0.0210.01655 5.50 6.05 4.15 4.30 SWPA5040S2R2NT 2.2±30% 0.0250.01950 4.90 5.50 3.80 4.20 SWPA5040S2R7NT 2.7±30% 0.0290.02237 4.30 4.80 3.60 4.00 SWPA5040S3R0NT 3.0±30% 0.0290.02237 4.15 4.60 3.60 4.00 SWPA5040S3R3NT 3.3±30% 0.0310.02432 3.95 4.45 3.40 3.90 SWPA5040S3R6MT 3.6±20% 0.0340.02630 3.80 4.40 3.30 3.70 SWPA5040S3R9NT 3.9±30% 0.0350.02729 3.55 4.00 3.20 3.70 SWPA5040S4R7NT 4.7±30% 0.0390.03028 3.50 3.80 3.00 3.30 SWPA5040S5R6MT 5.6±20% 0.0460.03527 3.00 3.70 2.80 3.10 SWPA5040S6R8MT 6.8±20% 0.0560.04321 2.90 3.40 2.50 2.80 SWPA5040S8R2MT 8.2±20% 0.0620.04820 2.70 2.90 2.30 2.60 SWPA5040S100MT 10±20% 0.0830.06418 2.35 2.70 2.10 2.35 SWPA5040S120MT 12±20% 0.1000.07714 2.2 2.5 2.0 2.1 SWPA5040S150MT 15±20% 0.1120.08613 2.00 2.20 2.00 2.05 SWPA5040S180MT 18±20% 0.1550.11912 1.70 2.00 1.45 1.65 SWPA5040S220MT 22±20% 0.1680.12911 1.60 1.80 1.50 1.60 SWPA5040S270MT 27±20% 0.2440.1889.8 1.52 1.75 1.10 1.25 SWPA5040S330MT 33±20% 0.2440.1889 1.30 1.45 1.20 1.35 SWPA5040S470MT 47±20% 0.3540.2727 1.10 1.20 1.00 1.15 SWPA5040S510MT 51±20% 0.4940.380 6 1.00 1.20 1.00 1.10 SWPA5040S560MT 56±20% 0.4940.380 6 1.05 1.20 0.80 0.90 SWPA5040S680MT 68±20% 0.5200.40 6 0.90 1.00 0.80 0.90 SWPA5040S750MT 75±20% 0.5850.450 6 0.85 0.95 0.72 0.80 SWPA5040S101MT 100±20% 0.7280.560 5 0.75 0.85 0.70 0.78 SWPA5040S151MT 150±20% 0.9750.750 3.7 0.65 0.67 0.60 0.70 SWPA5040S221MT 220±20% 1.820 1.40 3.0 0.48 0.55 0.40 0.50 SWPA5040S301MT 300±20% 2.60 2.0 2.7 0.50 0.58 0.35 0.40 SWPA5040S331MT 330±20% 2.730 2.10 2.7 0.42 0.47 0.40 0.50 SWPA5040S471MT 470±20% 3.90 3.0 2.7 0.37 0.43 0.35 0.40 SWPA5040S561MT 560±20% 4.920 3.780 1.3 0.31 0.36 0.31 0.35 SWPA5040S681MT 680±20% 5.070 3.90 1.3 0.30 0.35 0.25 0.30 SWPA5040S102MT 1000±20% 7.80 6.0 1.3 0.21 0.25 0.20 0.23 SWPA5040S332MT 3300±20% 25.2021.00.9 0.1400.150 0.100 0.120SWPA5040S392MT 3900±20% 30.5523.500.8 0.1250.150 0.100 0.115SWPA5040S472MT 4700±20% 45.5035.00.6 0.1100.130 0.080 0.100SWPA5040S502MT 5000±20% 43.1635.970.49 0.1100.130 0.085 0.098SWPA5040S562MT 5600±20% 50.7039.00.49 0.1050.120 0.080 0.092SWPA5040S682MT 6800±20% 55.9043.00.38 0.0900.110 0.0750.086SWPA5040S822MT 8200±20% 55.9043.00.38 0.0700.085 0.075 0.086SWPA5040S103MT 10000±20% 58.5045.00.32 0.0650.075 0.075 0.086。

40n25场效应管参数
场效应管（FET）是一种三端器件，其中包括栅极、漏极和源极。

它的特性由许多参数描述，其中一些包括：
1. 饱和漏极电流（IDSS），这是在栅极和源极之间施加零电压时，漏极电流的最大值。

2. 饱和漏极电压（Vp），这是在栅极和源极之间的电压，当漏
极电流达到IDSS时。

3. 转导导纳（gm），这是指在特定工作点处，漏极电流与栅极
-源极电压之间的变化率。

4. 截止电压（VGS(off)），这是栅极-源极电压，当漏极电流
为零时。

5. 输出电导（rd），这是指在特定工作点处，漏极-源极电压
与漏极电流之间的变化率。

6. 输入电阻（Rin），这是指FET的输入端（栅极）的电阻，
通常是指在特定工作点处的值。

这些参数可以根据特定的FET型号和制造商而有所不同。

因此，如果你有特定的FET型号，我可以帮助你找到更准确的参数数值。

钢芯铝绞线型号规格详解LGJ是钢芯铝绞线的符号，其中L是铝线的简称，G是钢芯的简称，J是绞线的简称。

240/40是指导线的标称截面是:铝240平方毫米，钢40平方毫米; 导线的结构为铝26根，直径3.42平方毫米，钢7根，直径2.66平方毫米; 铝的计算截面是238.85平方毫米，钢的计算截面是38.90平方毫米，总计算截面是277.75平方毫米; 导线外径21.66毫米; 导线直流电阻不大于0.1209Ω/km; 额定抗拉力83370N(牛顿); 单位质量 964.3kg/km;制造长度 2000米;短路电流是与接入系统的地点和接入系统的设备而变化的，必须有了完整的接线图后，才能根据计算求出;线路的阻抗也是随线路的架设方式不同而变化的，也要根据图纸计算才能求出。

即10kV以上的输电线路，目前中国普遍采用铝包钢绞线(LGJ)作为导线，即用铝线包裹钢线，钢线用于传递电流而铝线用于降低电晕及其他损耗，根据电压不同导线横截面逐渐加大。

比如目前国内较高电压500kV输电线路的导线，一般采用LGJ-400/35的导线。

LGJ钢芯铝绞线(适用于:架空电力高低压线路的钢芯铝绞线)标称截面标称截面外径(mm) 重量(kg/km) 外径(mm) 重量(kg/km) 铝/钢(mm2) 铝/钢(mm2)LGJ-10/2 4.5 42.9 LGJ-95/55 16 707.7 LGJ-16/3 5.55 65.2 LGJ-120/7 14.5 379 LGJ-25/4 6.96 102.6 LGJ-120/20 15.07 466.8 LGJ-35/6 8.16 141 LGJ-120/25 15.74 526.6 LGJ-50/8 9.6 195.1 LGJ-120/70 18 895.6 LGJ-50/30 11.6 372 LGJ-150/8 16 461.4 LGJ-70/10 11.4 275.2 LGJ-150/20 16.67 549.4 LGJ-70/40 13.6 511.3 LGJ-150/25 17.1 601 LGJ-95/15 13.61 380.8 LGJ-150/35 17.5 676.2 LGJ-95/20 13.87 408.9 LGJ-185/10 18 584 LGJ-185/25 18.9 706.1 LGJ-400/50 27.63 1500 LGJ-185/30 18.88 732.6 LGJ-400/65 28 1600 LGJ-185/45 19.6 848.2 LGJ-400/95 29.14 1860 LGJ-210/10 19 650.7 LGJ-500/35 30 1642 LGJ-210/25 19.98 789.1 LGJ-500/45 30 1688 LGJ-210/35 20.38 853.9 LGJ-500/65 30.96 1897 LGJ-210/50 20.86 960.8 LGJ-630/45 33.6 2060 LGJ-240/30 21.6 922.2 LGJ-630/55 34.34 2209 LGJ-240/40 21.66 964.3 LGJ-630/80 34.82 2388 LGJ-240/55 22.40 1108 LGJ-800/55 38.40 2690 LGJ-300/15 23.01 939.8 LGJ-800/70 38.58 2791 LGJ-300/20 23.43 1002 LGJ-800/100 38.98 2991 LGJ-300/25 23.76 1058 LGJJ-120 15.5 530 LGJ-300/40 23.94 1133 LGJJ-150 17.5 678 LGJ-300/50 24.26 1210 LGJJ-185 19.6 850 LGJ-300/70 25.2 1402 LGJJ-240 22.4 1111 LGJ-400/20 26.91 1286 LGJQ-150 16 559 LGJ-400/25 26.64 1295 LGJQ-185 18.4 687 LGJ-400/35 26.82 1349 LGJQ-240 21.6 937浅析规则式植物造景和自然式植物造景苏旺指导老师:汪小飞,黄山学院生命与环境科学学院～安徽黄山245041,摘要:本文分析了规则式植物造景和自然式植物造景，和他们各自的造景特色和主要适用在什么场合。

SGP40 –Quick Testing Guide Version 1.1Stäfa, March 2021SetupThe goal of this quick testing guide is to enable any customer to verify that their Sensirion SGP40sensors are performing according to ing only common household items we can create an accurate dilution series of a volatile organic compound(VOC)that will be sufficient to reach this goal.Required items▪2large bottles(1l or more)▪2bowls▪4small containers(50–200ml)▪Tap water▪Approximately200g of table salt(for keeping the relative humidity constant)▪1teaspoon of ethanol(1)(ca.40%vol.or more)▪Either Sensirion SGP40sensors or SEK-SVM40EvalKit and Control Center Software(running on any conventional computer),also see /my-sgp-ekrequired time:2hours(1) Any hard liquor or rubbing alcohol will do; you can also try some other concentrated VOC source such as nail polish remover,paint thinner or the likeStep one: salt solutionWe first want to prepare a reference solutions for diluting:a saturated salt solution.▪Mix200g of table salt with1l of tap water(room temperature)in one of the bottles▪Shake bottle well and let it settle.A lot of the salt won't be dissolved and deposit at the bottom.This is your salt solution(2)stock.(2) We use a saturated salt solution because its headspace is non-condensing (ca.70% relative humidity) and thus more realistic for mimicking indoor climateStep two: high VOC concentration solutionNext,we prepare a high concentration VOC solution as the starting point of the dilution series.1.In a bowl,mix250ml(1cup)of the salt solution with1teaspoon of ethanol2.Dilute it10:1in the second bowl:mix two tablespoons of the solution from step1with250ml of the saltsolution3.Dilute it10:1once more:in the second bottle,mix two tablespoons of the solution from step2.with250mlof the salt solution(now we have diluted it roughly100:1)This is your high concentration solution stock.You should close the lid of the high concentration solution so that the ethanol does not evaporate and the concentration remains constant.In a next step, we prepare 4 different concentration solutions by diluting our high concentration solution several times. Arrange the 4 small empty containers in front of you.Fill the first container exactly halfway(3)with high concentration solution, the rest halfway with salt solution. Note:Always cover containers when your are not exposing them to sensors so that the VOCs do not evaporate.1000(3) The absolute amounts are not critical and depend on the size of your containers; just make sure «halfway» is every time precisely the same, and «full» is twice «halfway»Fill the second container with high concentration solution from the stock bottle. Container 3 is now full with half concentration solution.11/200Fill the third container with half concentration solution from container 2. Then close container 2. Container 3 is now full with quarter concentration.11/21/40Fill the fourth container with quarter concentration solution from container 3. Then close container 3. Container 4 is now full with 1/8 of the high concentration. We call it the “baseline concentration”.11/21/41/8Discard half of the baseline concentration. We now have four different VOC concentration solutions.11/21/41/8Step four: training and verificationFirst we want to train the sensors for the VOC concentration range used in our experiment. Start the measurement using Sensirion Control Center.▪expose(4)the sensors to the baseline concentration (the container with the lowestconcentration) for 60 min▪expose the sensors to the high concentration for 15 min▪expose the sensors to the baseline concentration again for 30 minYour sensors are now trained and are ready for the following verification steps.▪expose the sensors to the quarter concentration for 5 min▪expose the sensors to the half concentration for 5 min▪expose the sensors to the high concentration for 5 min▪expose the sensors to the baseline concentration again(4) Expose the sensor for instance as shown in the pictures on the right; you should measure under a lid of sorts so that there is no convection; try to avoid using any glue in order not to add another VOC sourceStep five: evaluationYou can now easily assess two key performance indicators of your SGP40 sensors: sensitivity and device-to-device variation (in case you have measured several sensors simultaneously).1.Sensitivity: read out the difference in raw ADC tick values whenever the concentration is doubled(so going from half to high, or quarter to half concentration). If your sensors behave according to specifications this difference should be in the range of −710… − 1030 ticks.2.Device-to-device variation: in the VOC index output, the different sensors should never be furtherapart than 15% (or 15 index points if below 100 index points)The result should look something like this:1.Sensitivity: we can read off the differences from quarter to half concentration as 24’239−25’345 = −1016,and the difference from half to high concentration as 23’590−24’329 = −739so well within specifications.25345243292359023000235002400024500250002550026000265002700027500X_D A T A 18336855373892311081293147816631848203322182403258827742959314433293514369938844069425444394624480949945179536455495734591961046290647566606845S R AW _Px 1duration (s)quick test: sensitivityThe result should look something like this:2.Device-to-device variation: the difference of the two sensors is barely discernible and well withinspecifications.。

G = Gate C = Collector E = Emitter TAB = CollectorSymbol Test ConditionsCharacteristic Values (T J = 25°C, unless otherwise specified) Min. Typ. Max.BV CES I C = 250μA, V GE = 0V 1200 V V GE(th)IC= 250μA, V CE = V GE3.0 5.0 VI CES V CE = V CES 75 μA V GE = 0VT J = 125°C1.5 mAIGES V CE = 0V, V GE = ±20V ±100 nA V CE(sat)I C= 30A, V GE = 15V, Note 14.4 V T J = 125°C2.7 VFeatureszInternational standard packages:JEDEC TO-247ADzIGBT and anti-parallel FRED in one packagezMOS Gate turn-on -drive simplicityApplicationsz AC motor speed control z DC servo and robot drives z DC chopperszUninterruptible power supplies (UPS)zSwitch-mode and resonant-mode power suppliesIXGH40N120C3V CES = 1200V I C110= 40A V CE(sat)≤ 4.4V t fi(typ)= 57nsGenX3TM 1200V IGBTHigh speed PT IGBTs for 20 - 50 kHz switchingTO-247 (IXGH)TABSymbol Test ConditionsMaximum RatingsV CES T J = 25°C to 150°C1200 V V CGR T J = 25°C to 150°C, R GE = 1M Ω1200 V V GES Continuous ±20 V V GEM Transient±30VI C25T C = 25°C (limited by leads)75 A I C110T C = 110°C 40 A I CM T C = 25°C, 1ms 200 AI A T C = 25°C 30 A E AST C = 25°C500mJ SSOA V GE = 15V, T J = 125°C, R G = 3ΩI CM = 80A(RBSOA)Clamped inductive load @V CE ≤ 1200V P C T C = 25°C380W T J -55 ... +150 °C T JM 150°C T stg -55 ... +150°C M dMounting torque 1.13 / 10 Nm/lb.in.T L Maximum lead temperature for soldering 300 °C T SOLD 1.6mm (0.062 in.) from case for 10s 260 °C Weight6gIXYS reserves the right to change limits, test conditions, and dimensions.Notes: 1.Pulse test, t ≤ 300μs; duty cycle, d ≤ 2%.PRELIMINARY TECHNICAL INFORMATIONThe product presented herein is under development. The Technical Specifications offered are derived from data gathered during objective characterizations of preliminary engineering lots; but also may yet contain some information supplied during a pre-production design evaluation. IXYS reserves the rightto change limits, test conditions, and dimensions without notice.IXYS reserves the right to change limits, test conditions, and dimensions.IXYS reserves the right to change limits, test conditions, and dimensions.。

1N系列常用整流二极管的主要参数正向不重反向工作额定正向正向反向工作复浪涌峰外形峰值电压整流电流压降电流频率型号值电流封装URM/V IF/A IFSM/A UF/V IR/uA f/KHZ 1N4000 251N4001 501N4002 1001N4003 200 1 30 ?1 ,5 3 DO-41 1N4004 4001N4005 6001N4006 8001N4007 10001N5100 501N5101 1001N5102 2001N5103 3001N5104 400 1(5 75 ?1 ,5 3 1N5105 5001N5106 6001N5107 8001N5108 1000 DO-15 1N5200 501N5201 1001N5202 2001N5203 3001N5204 400 2 100 ?1 ,10 3 1N5205 5001N5206 6001N5207 8001N5208 10001N5400 501N5401 1001N5402 2001N5403 3001N5404 400 3 150 ?0.8 ,10 3 DO-271N5405 5001N5406 6001N5407 8001N5408 1000常用二极管参数:05Z6.2Y 硅稳压二极管 Vz=6~6.35V,Pzm=500mW,05Z7.5Y 硅稳压二极管 Vz=7.34~7.70V,Pzm=500mW, 05Z13X 硅稳压二极管Vz=12.4~13.1V,Pzm=500mW,05Z15Y 硅稳压二极管 Vz=14.4~15.15V,Pzm=500mW,05Z18Y 硅稳压二极管 Vz=17.55~18.45V,Pzm=500mW,稳压二极管参数大全常用稳压二极管参数代换型号稳定电压(V) 最大功电流型号国产稳压管日立稳耗(mW) (mA) 压管最小值最大值新型号旧型号 HZ4B2 500 3.8 4.0 5 2CW102 2CW21 4B2 HZ4C1 500 4.0 4.2 5 2CW102 2CW21 4C1HZ6 500 5.5 5.8 5 2CW103 2CW21A 6B1HZ6A 500 5.2 5.7 5 2CW103 2CW21A HZ6C3 500 6 6.4 5 2CW104 2CW21B 6C3 HZ7 500 6.9 7.2 5 2CW105 2CW21CHZ7A 500 6.3 6.9 5 2CW105 2CW21CHZ7B 500 6.7 7.3 5 2CW105 2CW21CHZ9A 500 7.7 8.5 5 2CW106 2CW21D HZ9CTA 500 8.9 9.7 5 2CW107 2CW21E HZ11 500 9.5 11.9 5 2CW109 2CW21GHZ12 500 11.6 14.3 5 2CW111 2CW21H HZ12B 500 12.4 13.4 5 2CW1112CW21H HZ12B2 500 12.6 13.1 5 2CW111 2CW21H 12B2 HZ18Y 500 16.5 18.5 52CW113 2CW21J HZ20-1 500 18.86 19.44 2 2CW114 2CW21KHZ27 500 27.2 28.6 2 2CW117 2CW21L 27-3 HZT33-02 400 31 33.5 52CW119 2CW21M RD2.0E(B) 500 1.88 2.12 20 2CW100 2CW21P 2B1 RD2.7E 400 2.5 2.93 20 2CW101 2CW21S RD3.9EL1 500 3.7 4 20 2CW102 2CW21 4B2RD5.6EN1 500 5.2 5.5 20 2CW103 2CW21A 6A1 RD5.6EN3 500 5.6 5.9 20 2CW104 2CW21B 6B2 RD5.6EL2 500 5.5 5.7 20 2CW103 2CW21A 6B1 RD6.2E(B) 500 5.88 6.6 20 2CW104 2CW21B RD7.5E(B) 500 7.0 7.9 20 2CW105 2CW21C RD10EN3 500 9.7 10.0 20 2CW108 2CW21F 11A2 RD11E(B) 500 10.1 11.8 15 2CW109 2CW21G RD12E 500 11.74 12.35 10 2CW110 2CW21H 12A1 RD12F 1000 11.19 11.77 202CW109 2CW21GRD13EN1 500 12 12.7 10 2CW110 2CW21H 12A3 RD15EL2 500 13.8 14.6 152CW112 2CW21J 12C3 RD24E 400 22 25 10 2CW116 2CW21H 24-1 RD24F 400 24 28 10 2CW117 2CW21L RD36EL1 500 32 34 15 2CW119 2CW21M 33-2 RD57E 500 48 54 10 1DS55-18 05Z5.1Y 500 4.94 5.20 2CW103 2CW21A 5C2 05Z5.6Z 500 5.615.91 2CW104 2CW21B 6B2 05Z6.2Y 500 5.96 6.27 41 2CW104 2CW21B 6C205Z7.5Y 500 7.07 7.45 34 2CW105 2CW21C 05Z7.5Z 500 7.3 7.7 34 2CW1052CW21C 7C2 05Z9.1Y 500 8.9 9.3 30 2CW107 2CW21E 9C1 05Z12 500 11.1312.35 21 2CW110 2CW21H 05Z12Z 500 12.0 12.6 20 2CW110 2CW21H 12A3 05Z13X500 12.11 12.75 19 2CW110 2CW21H 12A3 05Z13Z 500 13.5 14.1 18 2CW1112CW21H 12C2 05Z13Y 500 12.55 13.21 19 2CW111 2CW21H 12B2 05Z15 500 14.4 15.0 17 2CW112 2CW21J 15-2 05Z15Y 500 13.89 14.62 17 2CW111 2CW21H 12C3 05Z18 500 16.5 18.5 14 2CW113 2CW21J 05Z18Y 500 16.82 17.70 14 2CW1132CW21J 18-1 EQA01-11B 500 10.1 11.8 15 2CW109 2CW21G EQA01-12Z 500 11.2 13.1 15 2CW110 2CW21H EQA02-07B 400 6.66 7.01 20 2CW105 2CW21C 7A3EQA02-25A 500 24 25.5 2CW116 2CW21L 24-3 TVSQA106SB 500 5.88 6.6 202CW104 2CW21B TVSQA111SB 500 10.4 11.6 10 2CW109 2CW21G TVSQA111SE 500 11 11.5 10 2CW109 2CW21G 11C2 MA1130 1000 12.4 14.1 5 2CW111 2CW21HMA1330 500 31 35 25 2CW120 2CW21N M4030 500 2.9 3 5 2CW101 2CW21SuPC574JAG 200 31 35 25 2CW120 2CW21NRIMV 135 160 ZDW59快恢复二极管参数型号品牌电流电压时间极性 IN5817 GJ 1A 20V 10ns IN5819 GJ 1A 40V 10ns IN5819 MOT 1A 40V 10ns IN5822 MOT 3A 40V 10ns 21D-06 FUI 3A 60V10ns SBR360 GI 3A 60V 10ns C81-004 FUI 3A 40V 10ns 8TQ080 IR 8A 80V 10ns 单管 MBR1045 MOT 10A 45V 10ns 单管 MBR1545CT MOT 15A 45V 10ns 双管MBR1654 MOT 16A 45V 10ns 双管 16CTQ100 IR 16A 100V 10ns 双管 MBR2035CT MOT 20A 35V 10ns 双管 MBR2045CT MOT 20A 45V 10ns 双管 MBR2060CT MOT 20A 60V 10ns 双管 MBR20100CT IR 20A 100V 10ns 双管 025CTQ045 IR 25A 45V 10ns 双管 30CTQ045 IR 30A 45V 10ns 双管 C85-009* FUI 20A 90V 10ns 双管 D83-004* FUI 30A 40V 10ns 双管 D83-009* FUI 30A 90V 10ns 双管 MBR4060* IR40A 60V 10ns 双管 MBR30045 MOT 300A 45V 10ns MUR120 MOT 1A 200V 35ns MUR160 MOT 1A 600V 35ns MUR180 MOT 1A 800V 35ns MUR460 MOT 4A 600V 35nsBYV95 PHI 1.5A 1000V 250ns BYV27-50 PHI 2A 55V 25ns BYV927-100 PHI 2A 100V 25ns BYV927-300 PHI 2A 300V 25ns BYW76 PHI 3A 1000V 200ns BYT56G PHI 3A 600V 100ns BYT56M PHI 3A 1000V 100ns BYV26C PHI 1A 600V 30ns BYV26E PHI 1A 1000V 30ns FR607 GI 6A 1000V 200ns MUR8100 MOT 8A 1000V 35ns 单管HFA15TB60 IR 15A 600V 35ns 单管HFA25TB60 IR 25A 600V 35ns 单管MUR30100 HAR 30A 1000V 35ns 单管MUR30120 HAR 30A 1200V 35ns 单管MUR1620 PHI 16A 200V 35ns 双管MUR1620CT MOT 16A 200V 35ns 双管MUR1620P MOT 16A 200V 35ns 双管MUR1660CT MOT 16A 600V 35ns 双管HFA16TA600 IR 16A 600V 35ns 双管MUR3030 GI 30A 300V 35ns 双管MUR3040 MOT 30A 400V 35ns 双管MUR3060 MOT 30A 600V 35ns 双管HFA30TA600 IR 30A 600V 35ns 双管MUR20040 MOT 200A 400V 35ns 双管B92M-02 FUI 20A 200V 35ns 单管C92-02 FUI 20A 200V 35ns 双管D92M-02 FUI 30A 200V 35ns 双管D92M-03 FUI 30A 300V 35ns 双管DSE130-06 DSET 30A 600V 35ns 双管DSE160-06 DSET 60A 600V 35ns 双管稳压二极管常见稳压二极管的详细参数数据表代换型号稳定电压(V) 最大功耗电流型号国产稳压管日立稳压(mW) (mA) 管最小值最大值新型号旧型号 HZ4B2 500 3.8 4.0 5 2CW102 2CW21 4B2HZ4C1 500 4.0 4.2 5 2CW102 2CW21 4C1 HZ6 500 5.5 5.8 5 2CW103 2CW21A 6B1 HZ6A 500 5.2 5.7 5 2CW103 2CW21A HZ6C3 500 6 6.4 5 2CW104 2CW21B 6C3 HZ7 500 6.9 7.2 5 2CW105 2CW21C HZ7A 500 6.3 6.9 5 2CW105 2CW21C HZ7B 5006.77.3 5 2CW105 2CW21C HZ9A 500 7.78.5 5 2CW106 2CW21D HZ9CTA 500 8.99.7 5 2CW107 2CW21E HZ11 500 9.5 11.9 5 2CW109 2CW21G HZ12 500 11.6 14.3 5 2CW111 2CW21H HZ12B 500 12.4 13.4 5 2CW111 2CW21HHZ12B2 500 12.6 13.1 5 2CW111 2CW21H 12B2 HZ18Y 500 16.5 18.5 52CW113 2CW21J HZ20-1 500 18.86 19.44 2 2CW114 2CW21K HZ27 500 27.2 28.62 2CW117 2CW21L 27-3 HZT33-02 400 31 33.5 5 2CW119 2CW21M RD2.0E(B) 500 1.88 2.12 20 2CW100 2CW21P 2B1 RD2.7E 400 2.5 2.93 20 2CW101 2CW21SRD3.9EL1 500 3.7 4 20 2CW102 2CW21 4B2 RD5.6EN1 500 5.2 5.5 20 2CW1032CW21A 6A1 RD5.6EN3 500 5.6 5.9 20 2CW104 2CW21B 6B2 RD5.6EL2 500 5.55.7 20 2CW103 2CW21A 6B1 RD6.2E(B) 500 5.88 6.6 20 2CW104 2CW21BRD7.5E(B) 500 7.0 7.9 20 2CW105 2CW21C RD10EN3 500 9.7 10.0 20 2CW1082CW21F 11A2 RD11E(B) 500 10.1 11.8 15 2CW109 2CW21G RD12E 500 11.7412.35 10 2CW110 2CW21H 12A1 RD12F 1000 11.19 11.77 20 2CW109 2CW21GRD13EN1 500 12 12.7 10 2CW110 2CW21H 12A3 RD15EL2 500 13.8 14.6 152CW112 2CW21J 12C3 RD24E 400 22 25 10 2CW116 2CW21H 24-1 RD24F 400 24 28 10 2CW117 2CW21L RD36EL1 500 32 34 15 2CW119 2CW21M 33-2 RD57E 500 48 5410 1DS55-18 05Z5.1Y 500 4.94 5.20 2CW103 2CW21A 5C2 05Z5.6Z 500 5.615.91 2CW104 2CW21B 6B2 05Z6.2Y 500 5.96 6.27 41 2CW104 2CW21B 6C205Z7.5Y 500 7.07 7.45 34 2CW105 2CW21C 05Z7.5Z 500 7.3 7.7 34 2CW1052CW21C 7C2 05Z9.1Y 500 8.9 9.3 30 2CW107 2CW21E 9C1 05Z12 500 11.1312.35 21 2CW110 2CW21H 05Z12Z 500 12.0 12.6 20 2CW110 2CW21H 12A3 05Z13X 500 12.11 12.75 19 2CW110 2CW21H 12A3 05Z13Z 500 13.5 14.1 18 2CW1112CW21H 12C2 05Z13Y 500 12.55 13.21 19 2CW111 2CW21H 12B2 05Z15 500 14.4 15.0 17 2CW112 2CW21J 15-2 05Z15Y 500 13.89 14.62 17 2CW111 2CW21H 12C3 05Z18 500 16.5 18.5 14 2CW113 2CW21J 05Z18Y 500 16.82 17.70 14 2CW1132CW21J 18-1 EQA01-11B 500 10.1 11.8 15 2CW109 2CW21G EQA01-12Z 500 11.2 13.1 15 2CW110 2CW21HEQA02-07B 400 6.66 7.01 20 2CW105 2CW21C 7A3 EQA02-25A 500 24 25.52CW116 2CW21L 24-3 TVSQA106SB 500 5.88 6.6 20 2CW104 2CW21B TVSQA111SB 500 10.4 11.6 10 2CW109 2CW21G TVSQA111SE 500 11 11.5 10 2CW109 2CW21G 11C2 MA1130 1000 12.4 14.1 5 2CW111 2CW21H MA1330 500 31 35 25 2CW1202CW21N M4030 500 2.9 3 5 2CW101 2CW21S uPC574JAG 200 31 35 25 2CW1202CW21NRIMV 135 160 ZDW59最大耗散功最大工作型号额定电压(V) 可代换型号率(W) 电流(mA)1N708 0.25 5.6 40 BWA54、2CW28-5.6V 1N709 0.25 6.2 40 2CW55/B、BWA55/E 1N710 0.25 6.8 36 2CW55A、2CW105-6.8V2CW56A、2CW28-7.5V、1N711 0.25 7.5 30 2CW106-7.5V 1N712 0.25 8.2 30 2CW57/B、2CW106-8.2V 1N713 0.25 9.1 27 2CW58A/B、2CW74 1N714 0.25 10 25 2CW18、2CW59/A/B 1N715 0.25 11 20 2CW76、2DW12F.BS31-12 1N716 0.25 12 202CW61/A、2CW77/A 1N717 0.25 13 18 2CW62/A、2DW12G 1N718 0.25 15 162CW112-15V、2CW78/A 1N719 0.25 16 15 2CW63/A/B、2DW12H 1N720 0.25 18 13 2CW20B、2CW64/B、2CW64-18 1N721 0.25 20 12 2CW65-20、2DW12I、BWA65 1N722 0.25 22 11 2CW20C、2DW12J 1N723 0.25 24 10 WCW116、2DW13A 1N724 0.25 27 9 2CW20D、2CW68、BWA68/D 1N725 0.40 30 13 2CW119-30V 1N726 0.40 33 122CW120-33V 1N727 0.40 36 11 2CW120-36V 1N728 0.40 39 10 2CW121-39V 1N748 0.50 3.8,4.0 125 HZ4B21N752 0.50 5.2,5.7 80 HZ6A1N753 0.50 5.8,6.1 80 2CW1321N754 0.5 6.3,6.8 70 H27A1N755 0.50 7.1,7.3 65 HZ7.5EB1N757 0.50 8.9,9.3 52 HZ9C1N962 0.50 9.5,11 45 2CW137 1N963 0.50 11,11.5 40 2CW138、HZ12A-21N964 0.50 12,12.5 40 HZ12C-2、MA1130TA 1N969 0.50 21,22.5 20 RD245B1N4240A 1 10 100 2CW108-10V、2CW109、2DW5 1N4724A 1 12 76 2DW6A、2CW110-12V 1N4728 1 3.3 270 2CW101-3V3 1N4729 1 3.6 252 2CW101-3V6 1N4729A 1 3.6 252 2CW101-3V6 1N4730A 1 3.9 234 2CW102-3V9 1N4731 1 4.3 217 2CW102-4V3 1N4731A 1 4.3 217 2CW102-4V3 1N4732/A 1 4.7 193 2CW102-4V7 1N4733/A 1 5.1 179 2CW103-5V1 1N4734/A 1 5.6 162 2CW103-5V6 1N4735/A 1 6.2 1461W6V2、2CW104-6V2 1N4736/A 1 6.8 138 1W6V8、2CW104-6V8 1N4737/A 1 7.5 121 1W7V5、2CW105-7V5 1N4738/A 1 8.2 110 1W8V2、2CW106-8V2 1N4739/A 1 9.1 100 1W9V1、2CW107-9V1 1N4740/A 1 10 91 2CW286-10V、B563-10 1N4741/A 1 11 83 2CW109-11V、2DW6 1N4742/A 1 12 76 2CW110-12V、2DW6A 1N4743/A 1 13 69 2CW111-13V、2DW6B、BWC114D 1N4744/A 1 15 57 2CW112-15V、2DW6D1N4745/A 1 16 51 2CW112-16V、2DW6E 1N4746/A 1 18 50 2CW113-18V、1W18V1N4747/A 1 20 45 2CW114-20V、BWC115E 1N4748/A 1 22 41 2CW115-22V、1W22V 1N4749/A 1 24 38 2CW116-24V、1W24V 1N4750/A 1 27 34 2CW117-27V、1W27V1N4751/A 1 30 30 2CW118-30V、1W30V、2DW19F 1N4752/A 1 33 27 2CW119-33V、1W33V 1N4753 0.5 36 13 2CW120-36V、1/2W36V 1N4754 0.5 39 12 2CW121-39V、1/2W39V 1N4755 0.5 43 12 2CW122-43V、1/2W43V 1N4756 0.5 47 10 2CW122-47V、1/2W47V 1N4757 0.5 51 9 2CW123-51V、1/2W51V 1N4758 0.5 56 8 2CW124-56V、1/2W56V 1N4759 0.5 62 8 2CW124-62V、1/2W62V1N4760 0.5 68 7 2CW125-68V、1/2W68V 1N4761 0.5 75 6.7 2CW126-75V、1/2W75V 1N4762 0.5 82 6 2CW126-82V、1/2W82V 1N4763 0.5 91 5.6 2CW127-91V、1/2W91V 1N4764 0.5 100 5 2CW128-100V、1/2W100V 1N5226/A 0.5 3.3 138 2CW51-3V3、2CW5226 1N5227/A/B 0.5 3.6 126 2CW51-3V6、2CW5227 1N5228/A/B 0.5 3.9 115 2CW52-3V9、2CW5228 1N5229/A/B 0.5 4.3 106 2CW52-4V3、2CW5229 1N5230/A/B 0.5 4.7 97 2CW53-4V7、2CW5230 1N5231/A/B 0.5 5.1 89 2CW53-5V1、2CW5231 1N5232/A/B 0.5 5.6 81 2CW103-5.6、2CW5232 1N5233/A/B 0.5 6 76 2CW104-6V、2CW5233 1N5234/A/B 0.5 6.2 73 2CW104-6.2V、2CW52341N5235/A/B 0.5 6.8 67 2CW105-6.8V、2CW5235稳压值稳定电流稳压值稳定电流型号功率(mW) 型号功率(mW) (V) (MA) (V) (MA) MA1030 3 5 400 MA2180 18 20 1000 MA1033 3.3 5 400 MA2200 20 20 1000 MA1036 3.6 5 400 MA2220 22 10 1000 MA1039 3.9 5 400 MA2240 24 10 1000 MA1043 4.3 5 400 MA2270 27 5 1000 MA1047 4.7 5 400 MA2300 30 5 1000 MA1051 5.1 5 400 MA2330 33 5 1000 MA1056 5.6 5 400 MA2360 36 5 1000MA1062 6.2 5 400 MA3047 4.7 5 150 MA1068 6.8 5 400 MA3051 5.1 5 150MA1075 7.5 5 400 MA3056 5.6 5 150 MA1082 8.2 5 400 MA3062 6.2 5 150MA1091 9.1 5 400 MA3082 8.2 5 150 MA1100 10 5 400 MA3091 9.1 5 150MA1110 11 5 400 MA3100 10 5 150 MA1114 11.4 10 400 MA3110 11 5 150MA1120 12 5 400 MA3120 12 5 150 MA1130 13 5 400 MA3130 13 5 150 MA1140 14 5 400 MA3150 15 5 150 MA1150 15 5 400 MA3160 16 5 150 MA1160 16 5 400 MA3180 18 5 150 MA1180 18 5 400 MA3200 20 5 150MA1200 20 5 400 MA3220 22 5 150 MA1220 22 5 400 MA3240 24 5 150MA1240 24 5 400 MA3270 27 2 150 MA1270 27 2 400 MA3300 30 2 150 MA1300 30 2 400 MA3330 33 2 150 MA1330 33 2 400 MA3360 36 2 150 MA1360 36 2 400 MA4030 3 5 370 MA2051 5.1 40 1000 MA4033 3.3 5 370 MA2056 5.6 40 1000 MA4036 3.6 5 370 MA2062 6.2 40 1000 MA4039 3.9 5 370 MA2068 6.8 40 1000 MA4043 4.3 5 370 MA2075 7.5 40 1000 MA4047 4.7 5 370 MA2082 8.2 40 1000 MA4051 5.1 5 370 MA2091 9.1 40 1000 MA4056 5.6 5 370 MA2100 10 40 1000 MA4062 6.2 5 370 MA2110 11 5 1000 MA4068 6.8 5 370 MA2120 12 5 1000MA4075 7.5 5 370 MA2130 13 5 1000 MA4082 8.2 5 370 MA2150 15 5 1000MA4091 9.1 5 370 MA2160 16 5 1000 MA4100 10 5 370 MA4110 11 5 370BZX55C6V8 6.8 5 500 MA4120 12 5 370 BZX55C7V5 7.5 5 500 MA4130 13 5 370 BZX55C8V2 8.2 5 500 MA4140 14 5 370 BZX55C9V1 9.1 5 500 MA4150 15 5 370 BZX55C10 10 5 500 MA4160 16 5 370 BZX55C11 11 5 500 MA4180 18 5 370BZX55C12 12 5 500 MA4200 20 5 370 BZX55C13 13 5 500 MA4220 22 5 370BZX55C15 15 5 500 MA4240 24 5 370 BZX55C16 16 5 500 MA4270 27 2 370BZX55C18 18 5 500 MA4300 30 2 370 BZX55C20 20 5 500 MA4330 33 2 370BZX55C22 22 5 500 MA4360 36 2 370 BZX55C24 24 5 500 MA5047 4.7 5 500 BZX55C27 27 5 500 MA5051 5.1 5 500 BZX55C30 30 5 500 MA5056 5.6 5 500BZX55C33 33 5 500 MA5062 6.2 5 500 BZX55C36 36 5 500 MA5068 6.8 5 500 BZX55C39 39 5 500 MA5075 7.5 5 500 BZX55C43 43 2.5 500MA5082 8.2 5 500 BZX55C47 47 2.5 500 MA5091 9.1 5 500 BZX55C51 51 2.5 500 MA5100 10 5 500 BZX55C56 56 2.5 500 MA5110 11 5 500 BZX55C62 622.5 500 MA5120 12 5 500 BZX85C2V7 2.7 80 1300 MA5130 13 5 500 BZX85C3V03.0 80 1300 MA5150 15 5 500 BZX85C3V3 3.3 80 1300 MA5160 16 5 500BZX85C3V6 3.6 70 1300 MA5180 18 5 500 BZX85C3V9 3.9 60 1300 MA5200 20 5 500 BZX85C4V3 4.3 50 1300 MA5240 24 5 500 BZX85C4V7 4.7 45 1300BZX55C2V4 2.4 5 500 BZX85C5V1 5.1 45 1300 BZX55C2V7 2.7 5 500 BZX85C5V6 5.6 45 1300 BZX55C3V0 3.0 5 500 BZX85C6V2 6.2 35 1300 BZX55C3V3 3.3 5 500 BZX85C6V8 6.8 35 1300 BZX55C3V6 3.6 5 500 BZX85C7V5 7.5 35 1300 BZX55C3V9 3.9 5 500 BZX85C8V2 8.2 25 1300 BZX55C4V3 4.3 5 500 BZX85C9V1 9.1 25 1300 BZX55C4V7 4.7 5 500 BZX85C10 10 25 1300 BZX55C5V1 5.1 5 500 BZX85C11 11 20 1300 BZX55C5V6 5.6 5 500 BZX85C12 12 20 1300 BZX55C6V2 6.2 5 500 BZX85C13 13 20 1300 BZX85C15 15 15 1300 BZX79A9V1 9.1 5 400 BZX85C16 16 15 1300 BZX79A10 10 5 400 BZX85C18 18 15 1300 BZX79A11 11 5 400 BZX85C20 20 10 1300 BZX79A12 12 5 400 BZX85C22 22 10 1300 BZX79A13 13 5 400 BZX85C24 24 10 1300 BZX79A15 15 5 400 BZX85C27 27 8 1300BZX79A16 16 5 400 BZX85C30 30 8 1300 BZX79A18 18 5 400 BZX85C33 33 8 1300 BZX79A20 20 5 400 BZX85C36 36 8 1300 BZX79A22 22 5 400 BZX85C39 39 6 1300 BZX79A24 24 5 400 BZX85C43 43 6 1300 BZX79A27 27 2 400 BZX85C47 47 4 1300 BZX79A30 30 2 400 BZX85C51 51 4 1300 BZX79A33 33 2 400BZX85C56 56 4 1300 BZX79A36 36 2 400 BZX85C62 62 4 1300 BZX79A39 39 2400 BZX55C68 68 2.5 500 BZX79A43 43 2 400 BZX55C75 75 2.5 500 BZX79A47 47 2 400BZX55C82 82 2.5 500 BZX79A51 51 2 400 BZX55C91 91 1 500 BZX79A56 56 2 400 BZX55C100 100 1 500 BZX79A62 62 2 400 BZX55C110 110 1 500 BZX79A68 68 2 400 BZX55C120 120 1 500 BZX79A75 75 2 400 BZX55C130 130 1 500BZX79C2V4 2.4 5 500 BZX55C150 150 1 500 BZX79C2V7 2.7 5 500 BZX55C160 160 1 500 BZX79C3V0 3.0 5 500 BZX55C180 180 1 500 BZX79C3V3 3.3 5 500 BZX55C200 200 1 500 BZX79C3V6 3.6 5 500 BZX79A2V4 2.4 5 400 BZX79C3V9 3.9 5 500 BZX79A2V7 2.7 5 400 BZX79C4V3 4.3 5 500 BZX79A3V0 3.0 5 400 BZX79C4V7 4.7 5 500 BZX79A3V3 3.3 5 400 BZX79C5V1 5.1 5 500 BZX79A3V6 3.6 5 400 BZX79C5V6 5.6 5 500 BZX79A3V9 3.9 5 400 BZX79C6V2 6.2 5 500 BZX79A4V3 4.3 5 400 BZX79C6V8 6.8 5 500 BZX79A4V7 4.7 5 400 BZX79C7V5 7.5 5 500 BZX79A5V1 5.1 5 400 BZX79C8V2 8.2 5 500 BZX79A5V6 5.6 5 400 BZX79C9V1 9.1 5 500 BZX79A6V2 6.2 5 400 BZX79C10 10 5 500 BZX79A6V8 6.8 5 400 BZX79C11 11 5 500 BZX79A7V5 7.5 5 400 BZX79C12 12 5 500 BZX79A8V2 8.2 5 400 BZX79C13 13 5 500变容二极管。