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The Influence of Permanent Volumetric Deformationon the Reduction of the Load Bearing Capabilityof Plastic ComponentsP.A. Du Bois*, S. Kolling**, M. Feucht***, A. Haufe*****Consultant, Freiligrathstr. 6, 63071 Offenburg, Germany**Gießen University of Applied Sciences, 35390 Gießen, Germanystefan.kolling@mmew.fh-giessen.de***Daimler AG, EP/SPB, 71059 Sindelfingen, Germanymarkus.feucht@****DYNAmore GmbH, Industriestrasse 2, 70565 Stuttgart, Germanyandre.haufe@dynamore.deAbstractDuring the past years polymer materials have gained enormous importance in the automotive industry. Especially their application for interior parts to help in passenger safety load cases and their use for bumper fascias in pedes-trian safety load cases have driven the demand for much more realistic finite element simulations. For such applica-tions the material model 187 (i.e. MAT_SAMP-1) in LS-DYNA® has been developed.In the present paper the authors show how the parameters for the rather general model may be adjusted to allow for the simulation of crazing effects during plastic loading. Crazing is usually understood as inelastic deformation that exhibits permanent volumetric deformations. Hence a material model that is intended to be applied for polymer components that show crazing effects during the experimental study, should be capable to produce the correct volu-metric strains during the respective finite element simulation. The paper discusses the real world effect of crazing, the ideas to capture these effect in a numerical model and exemplifies the theoretical ideas with a real world struc-tural component finite element model.IntroductionCrazing is generally understood as the formation of micro cracks as sketched in Figure 1 (the mi-crograph is taken from [16]). As a consequence thereof, the change of color to white is visibly detectable since the crack-lengths become the magnitude of the wavelength of light. From a me-chanical point of view, crazing leads to plastic (i.e. permanent) deformation accompanied by an increase of volume. Since surface cracks occur preferably under biaxial loading, crazing leads to low yield stress values in uniaxial/biaxial tension that can also be detected experimentally. It also seems to occur under high values of hydrostatic tension. In the present paper, the authors like to show how these effects can be captured in a phenomenological way by using non-isochoric plas-ticity and ductile damage.Figure 1: Formation of crazingNumerical TreatmentIn the present study, we used the SAMP-model suggested in [11]. This model combines non-isochoric plasticity and ductile damage. The advantage of this model is that all required input data may be provided in a tabulated way. Thus no parameter identification is necessary which represents an important factor in daily practice. See e.g. [13] for an overview of ductile damage models in LS-DYNA ® in comparison with the tabulated damage model in SAMP. In what fol-lows we give a short overview of the SAMP-model and the corresponding damage formulation.Yield Surface and Plastic Potential in SAMPThe basic idea of SAMP is illustrated in Figure 2. Starting point is the definition of a pressure depending, quadratic yield surface()0,,22102≤−−−=p A p A A p f vm p vm σεσ .(1)This yield surface is defined by three independent stress states in the invariant plane following from tensile, compression, shear or biaxial stress for a fixed plastic strain during hardening. The hardening curve may be given in a tabulated way as it is well known from MAT_PIECE-WISE_LINEAR_PLASTICTY. The strain rate dependency is defined by tabulated tensile curves, i.e. the strain rate behaviour is assumed to be identically for all stress states. If less than three stress states are provided, the SAMP yield surface degenerates to a Drucker-Prager model (see [4], 2 curves are used) and a von Mises model (1 curve) respectively. Providing usually ten-sile, compression and shear data, the SAMP-coefficients are computed from the hardening curves internally bysFigure 2: Yield surface in SAMP (Semi-Analytical Model for Polymers)In order to simulate crazing, the increase of volume during plastic flow is taken into account by defining the plastic potential22p g vm ασ+=. (2)The parameter α is determined internally if a plastic Poisson ratio νp (lateral strain rate over lon-gitudinal strain rate) is provided by the user: i.e. either by a constant value or in a tabulated way as a function of longitudinal strain. In this context, it is also possible to define different behav-iour under tension and compression. In the latter case, thermoplastics do not show volume in-crease so that it is recommended to define νp =0.5=const under pressure.Damage Models in SAMPThe model uses the notion of the effective cross section, which is the true cross section of the material minus the cracks that have developed. We define the effective stress as the force divided by the effective cross sectionA F =σ, dd A F A F eff eff −=−==11σσ (3) which allows defining an effective yield stress of dyeff y −=1,σσ. The damaged yield function inSAMP is given by()()02122211A d p A d p A vm −−−−−=Φσ (4)2220123399c t c t s ss c t c t A A A σσσσσσσ⎛⎞⎛⎞−−===⎜⎟⎜⎟⎝⎠⎝⎠By application of the principle of strain equivalence, stating that if the undamaged modulus is used, the effective stress corresponds to the same elastic strain as the true stress using the dam-aged modulus, one can write ()d E E E ede eff −===1,εσεσ. Note that the plastic strains are therefore the same: deffp E E σεσεε−=−=. No damage will occur under pure elastic deforma-tion with this model. Among others, the damage model represents a good approximation to fit the unloading behavior of plastics [6]. A similar model is given by Lemaitre, where the damaged yield function is given by()()eff p eff y vm d ,2,221εσσ−−=Φ ,(5)which leads to the same formulation as SAMP if we set 021==A A and 2,0eff y A σ=. For a com-parison of the chosen model with the formulation by Gurson we may rewrite ()0123cosh 22*1,2*12,2=−−⎟⎟⎠⎞⎜⎜⎝⎛−+=Φf q p q f q eff y eff y vm σσσ . (6)With ()221cosh x x +≈ we obtain a Taylor-approximation of Gurson's yield surface by()2,2222*12*1149eff y vm f q p q f q σσ−−+≈Φ . (7)Figure 3: Evolution of the yield surface in function of damage in invariant planef*=0.00 f*=0.05 f*=0.10 f*=0.15 f*=0.20Comparison with Equation (4) yields the SAMP-parameters to be *1f q d =, 2,0eff y A σ=, 01=Aand t dq A cons 49222≠−=. Note that the last term is non-constant, i.e. the shape of the yield sur-face changes with increasing damage, see Figure 3. A comparison of the damage model in SAMP with Gurson's formulation, where Gurson's evolution law is approximated in SAMP by an equivalent tabulated input consisting of damage in function of plastic strain can be found in the study [15].ApplicationAs an industrial application we show a validation procedure for a structural part taken from a bumper that is made from PP T10. The experimental setup consists of a compression test on the structural component (Figure 4). In the picture in the middle, the formation of crazing can be ob-served very nicely. The intent of the present study is, on the one hand, to demonstrate the impor-tance to consider the different behavior of thermoplastics under tension and compression. And, on the other hand, to represent crazing of the thermoplastic as it occurs in real-world-experiments.Figure 4: Component testIn the first step, strain rate dependent tensile tests are performed and a material card is fitted solely from this tensile tests. We start our component validation with a standard material model in LS-DYNA: MAT_PIECEWISE_LINEAR_PLASTICTY (Mat No. 24). In order to investigate the mesh dependency we provide two meshes: A fine mesh (1mm element size) and a coarse mesh (6mm element size), see Figure 5.Figure 5: Coarse mesh (6mm element size) and fine mesh (1mm element size)displacementf o r c eFigure 6: Force-displacement in comparison with the experiment: Mat No. 24 vs. SAMPThe problem of material cards which are fitted entirely under tension consists of the fact that there is no guarantee that it also works for multi-axial loading. In the present component test we have bending and, nearly exclusive, compression. The force-displacement-diagram in Figure 6 shows a typical behavior for thermoplastics: Material cards that are fitted for uniaxial tension yield a too soft response under bending and compression. Mat. No. 24 (dashed line) is therefore not capable to fit the experiment (dotted line) and, thus, different yield curves under compression and tension are necessary! This has been done in SAMP where a Drucker-Prager-model has been generated by scaling the tensile date by a factor 1.3 in the compressive region. This model is al-ready in a very good agreement with the experimental data, though the range in the diagram where cracks occur are still too stiff. This is a topic of further investigation in near future.displacementf o r c eFigure 7: Influence of meshinga) Mat. No. 24b) SAMPFigure 8: Crazing: Mat No. 24 vs. SAMP (coarse mesh)Figure 7 shows the influence of using a coarse mesh and a fine mesh. As expected, the coarse mesh yields to a slightly stiffer response. This has also to be taking into account in full-car-simulations where the average element size is rather 5mm than 1mm. Further study has shown that mesh convergence will be reached for approximately 2mm element characteristic length.At last, crazing of the component is approached by using the following SAMP-features:− plastic Poisson’s ratio decreases with increasing plastic strain (further input curve) − plastic incompressibility under compression − reduced biaxial strength (further input curve)− damage evolution is considered (further input curve)Figures 8 and 9 show the results of the simulation in comparison to Mat No. 24. As can be seen, the deformation behavior (see Figure 4) cannot be reproduced by using Mat No. 24. We obtain a totally different (and wrong) buckling mode. The simulation using SAMP together with the fea-tures described above yields to a quite more realistic deformation behavior. Moreover, the region of plastic volumetric strain (which is zero in Mat No. 24) represents a one-to-one relation to the region of crazing in the structural part. With other words, the effect of crazing cannot be simu-lated by any isochoric elasto-plastic material law! The craze deformation can be further im-proved by using the fine mesh (see Figure 9b).a) Mat. No. 24 b) SAMPFigure 9: Crazing: Mat No. 24 vs. SAMP (fine mesh)Summary and OutlookMatching a measured force-displacement curve in a simulation should be phase 2 of the valida-tion process. The numerical model will have a very limited range of validity unless the deforma-tion (and failure) mode in the simulation correspond to what was observed. It seems useful to consider a coupling between damage and volumetric plastic strain in the simulation of thermo-plastics. A combination of volumetric plastic strain, damage and reduced biaxial strength al-lowed to simulate the craze deformation in a rather complex structural part. The influence of crack formation and crack propagation is topic of further investigation in the near future.References[1]LS-DYNA®, Theory Manual / Keyword User’s Manual, Livermore Software Technology Corporation.[2]P.A. Du Bois: Crashworthiness Engineering Course Notes, Livermore Software Technology Corporation,2004.[3]S. Kolling, A. Haufe: A constitutive model for thermoplastic materials subjected to high strain rates, Proceed-ings in Applied Mathematics and Mechanics • PAMM 5: 303-304.[4] D.C. Drucker, W. Prager: Soil mechanics and plastic analysis or limit design. Quaterly of Applied Mathemat-ics, 10:157-165, 1952.[5]V.A. Kolupaev, S. Kolling, A. Bolchoun, M. Moneke: A limit surface formulation for plastically compressi-ble polymers. Mechanics of Composite Materials, 43(3):245--258, 2007.[6]P. A. Du Bois, S. Kolling, M. Koesters, T. Frank: Material behavior of polymers under impact loading. Inter-national Journal of Impact Engineering 32 (2006) 725-740.[7]J.C. Simo, T.J.-R. Hughes: Elastoplasticity and viscoplasticity – computational aspects. Springer Series inApplied Mathematics, Springer, Berlin, 1989.[8]T.J.-R. Hughes: Efficient and simple algorithms for the integration of general classes of inelastic constitutiveequations including damage and rate effects. In T.J.-R. Hughes, T. Belytschko: nonlinear finite element analysis course notes, 2003.[9]J. Lemaitre, J.-L. Chaboche: Mécanique des matériaux solides, Dunod, 1988.[10]W.W. Feng, W.H. Yang: general and specific quadratic yield functions, composites technology review.[11]S. Kolling, A. Haufe, M. Feucht, P.A. Du Bois: A semianalytical model for the simulation of polymers. 4thLS-DYNA Forum, Germany 2005, Conference Proceedings, ISBN 3-9809901-1-7, pp. A-II-27/52.[12]M. Vogler, R. Rolfes, S. Kolling: Orthotropic plasticity with application to fibre-reinforced thermoplastics.Proceedings of the 6th LS-DYNA Forum Meeting, Frankenthal, Germany, D-II:55-74, 2007.[13]P.A. Du Bois, M. Feucht, S. Kolling, A. Haufe: An overview of ductile damage models in LS-DYNA. Pro-ceedings of the 6th LS-DYNA Forum Meeting, Frankenthal, Germany, Keynote-Lectures I, pp 1-17, 2007. [14]M. Vogler, S. Kolling and A. Haufe: A constitutive model for plastics with piecewise linear yield surface anddamage. Proceedings of the 6th LS-DYNA Forum Meeting, Frankenthal, Germany, B-II:13-30, 2007. [15]P.A. Du Bois, S. Kolling, M. Feucht, A. Haufe: A comparative review of damage and failure models and atabulated generalization. Proceedings of the 6th European LS-DYNA Users Conference, Gothenburg, Swe-den, pages 75-86, 2007.[16]J. Rottler, M.O. Robbins: Growth, microstructure, and failure of crazes in glassy polymers, Phys Rev E, 68,011801, 2003.。

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‎C64P6‎YKF‎-18 T‎C9012‎F-011‎MP47‎C837N‎C54P‎4A C5‎4P4L ‎C54P2‎2 C64‎P8Y‎K F-20‎M505‎60-00‎3P M3‎7210M‎3-508‎S P C5‎4P24 ‎YKF-‎21 LC‎7461 ‎H S003‎8 C54‎P32 C‎74P4 ‎YKF-‎22 LT‎D001C‎R LC8‎4012L‎C54P‎32 C7‎4P2 C‎74P4 ‎东芝机芯‎RCE1‎M505‎60-00‎1P M3‎7210M‎3-508‎S P C3‎632 2‎1C1‎R CE2 ‎T C901‎2F-01‎1 MP4‎7C430‎N C14‎C3Y‎K F-24‎TC90‎28-01‎2SP C‎2518 ‎C2918‎YKF‎-26 M‎50560‎-003 ‎M3721‎0M3-5‎08SP ‎C2138‎A C54‎P29BC‎54P35‎C54P‎37Y‎K F-27‎TC90‎12F-0‎11 MP‎47C83‎7N C4‎4P5‎Y KF-2‎8 TC9‎012F-‎011 C‎54P45‎54P‎8 M30‎04 C5‎4P8 C‎54P9 ‎QDF-‎5D4B ‎M5056‎0-003‎P C64‎P2Y‎K F30 ‎M5056‎0-003‎PYK‎F-33 ‎T C902‎8-012‎YKF‎-39‎Y KF-4‎0 TC9‎028-0‎23厦‎华遥控器‎遥控器型‎号遥控器‎型号对应‎C PU芯片‎适应机型‎备注‎R CF 0‎1 TC9‎012F0‎11 TM‎P47C6‎34-24‎65 37‎81A 1‎020/S‎RCF‎02 T‎C9012‎F011 ‎RCF ‎03 M3‎4300N‎4-012‎6698‎T H 76‎98TH ‎RCF ‎05 TC‎9012F‎011 T‎M P47C‎634-3‎84 XT‎-3770‎R C/RN‎/RZ5‎151R ‎5170R‎K/RZ ‎5160R‎C/RR/‎R Z 51‎80RZ ‎5650R‎5670‎R R/RZ‎5660‎R/RN/‎R R/RZ‎5680‎R C/RK‎/RN/R‎R/RZ ‎5690R‎Z 668‎7RC‎F 10 ‎X T-56‎61S‎R CF 1‎6 M30‎04LAB‎ST63‎78 XT‎-3771‎5661‎/T 56‎70RT ‎5680R‎A/RT ‎RCF-‎20 TC‎9012F‎011 T‎M P47C‎634-3‎84 XT‎-3770‎R 516‎0R 56‎60R 5‎680R ‎RC-K‎21 TC‎9028-‎021 C‎T S763‎B XT-‎2195T‎2555‎T2965‎T 346‎5TR‎C F 22‎TC90‎12F01‎1 KY8‎4C94 ‎X T-66‎67T/T‎Z 669‎8TA 7‎1220T‎A 768‎7T76‎98TA ‎6687S‎RCF‎27 T‎C9012‎F011 ‎K Y84C‎94 XT‎-6668‎T/TC ‎7128T‎RCF‎-30 T‎C9012‎-011 ‎RCF ‎31 M5‎0560-‎008P ‎M3721‎1M2-7‎04SP ‎RCF ‎36 TC‎9012F‎011 K‎L84C9‎4 XT-‎7688T‎/TC 7‎128T ‎RCF ‎37 TC‎9012F‎011 K‎L84C9‎4 XT-‎6687T‎HRC‎F 42 ‎M5056‎0-008‎P M37‎211M2‎-704S‎P XT3‎770RF‎5160‎R F 51‎70RF ‎5180R‎F 566‎0RF 5‎670RF‎5680‎R F 56‎90RF ‎6667T‎L/TJ/‎T N 66‎87TN/‎T J XT‎-7687‎RCF‎45 T‎C9012‎F011 ‎K L84C‎94 XT‎-6687‎T G 76‎87TG ‎RCF ‎46 M5‎0560-‎008P ‎M3721‎1M2-7‎04SP ‎X T-66‎68TL/‎T M 66‎88TL ‎7688T‎L/TM/‎T VR‎C F 47‎M505‎60-00‎8P M3‎7211M‎2-704‎S P XT‎-6667‎T L/TM‎6687‎T L 76‎87TL/‎T MR‎C F 51‎TC90‎12F01‎1 TMP‎47C63‎4-RC1‎8 XT-‎5660R‎Y 567‎0RY 5‎680RY‎5690‎R Y/RR‎RCF‎52 T‎C9012‎F011 ‎W ST98‎A01 X‎T-663‎7TB 6‎507TB‎7687‎T B DM‎-2522‎TRC‎F 54 ‎T C901‎2F011‎WST9‎8A01 ‎X T-76‎88T/T‎G 712‎8TR‎C F56 ‎M3004‎L B1 S‎T6387‎XT-2‎080II‎2197‎I I 21‎K8257‎0II 5‎670RX‎RCF‎57 TC‎9012F‎-011 ‎W ST98‎A01 X‎T-768‎7TG‎R C-K5‎8 TC9‎012-0‎23R‎C F59 ‎S AA30‎10T T‎V222-‎P R XT‎-2560‎2570‎2960‎2970 ‎2980 ‎RCF6‎0 M30‎04LB1‎ST92‎91 XT‎-2167‎2177‎2187‎2197/‎RRC‎-E04 ‎D1986‎UPD1‎937CU‎P C136‎2 XT3‎701/A‎3702‎/A375‎1B 19‎02 51‎01510‎2 MTV‎-137M‎T V-14‎7RC‎-E03 ‎T C901‎2F-01‎1 TMP‎47C43‎2N-80‎94 XT‎5103/‎P/N‎R C-E0‎6 TC9‎012F-‎011 T‎M P47C‎634N-‎2465 ‎X T-37‎51 39‎02 51‎40510‎3DA 5‎622‎R C-D0‎4 M50‎560-0‎01P M‎34300‎N4-01‎2 XT5‎653T ‎6698T‎7103T‎/TA/K‎7120‎T/TZ7‎698T/‎T R/TZ‎RC-‎K21 T‎C9028‎-021 ‎C TS76‎3B XT‎-2195‎T 255‎5T 29‎65T 3‎465T‎金星遥控‎器遥控‎器型号遥‎控器芯片‎对应CPU‎芯片适应‎机型备注‎射器J‎Y F-2C‎1YH-F‎2C M7‎08LB1‎M491‎B1 C5‎14J‎-HYF-‎03JYF‎-2C2 ‎M708L‎B1 M4‎91B1 ‎C512 ‎C513 ‎C564 ‎JYF-‎3C3J-‎H YF-0‎8 M50‎462AP‎M504‎36-56‎0SP C‎542 C‎541 C‎491‎J-HYF‎-04 M‎50560‎-123 ‎M3430‎0N4-5‎55SP ‎C514 ‎C515 ‎C518 ‎YH-F‎4BJ-H‎Y F-06‎J YF-3‎C M50‎462AP‎M504‎36-56‎0SP C‎4717 ‎CT-9‎679 U‎P D612‎5AG-7‎6E C7‎428‎J-HYF‎-10 S‎A A301‎0 PCA‎84C64‎0/641‎C498‎J-H‎Y F-10‎B SAA‎3010 ‎P CA84‎C640/‎641 C‎5128B‎J-H‎Y F-11‎TC90‎12F-0‎11 C5‎18 C5‎48 C5‎418C5‎46-1 ‎J-HY‎F-12 ‎M5046‎2AP M‎50436‎-560S‎P C47‎17A C‎543-1‎J-H‎Y F-15‎TC90‎12F-0‎11 C5‎418‎J-HYF‎-16 M‎50462‎A P M5‎0436-‎560SP‎C641‎8J-‎H YF-1‎7 SAA‎3010T‎PCA8‎4C640‎/641 ‎C498-‎1J-‎H YF-1‎8 M50‎462AP‎M504‎36-56‎0SP C‎718‎J-HYF‎-U18 ‎M5046‎2AP M‎50436‎-560S‎P C64‎8J-‎H YF-1‎9 TC9‎012F-‎011 T‎M P47C‎432/4‎33 C5‎46-1 ‎C5428‎C79‎650 U‎P D612‎5A CX‎P8042‎0-139‎S C64‎280‎35/5 ‎L C746‎2-816‎7N M3‎4300N‎4-628‎M3430‎0N4-7‎21 C5‎438 C‎5488 ‎C5458‎NC1‎5A BU‎5777F‎C643‎8G3‎35051‎M504‎62AP ‎M5043‎6-560‎S P C6‎48-1 ‎UPD1‎943G ‎C471-‎1 C47‎8 C21‎10M‎N6014‎A MN1‎5245K‎W C C4‎718 C‎4918 ‎G335‎12 M5‎0467-‎001P/‎F P M3‎7102M‎8 C64‎38 C6‎468 C‎7411 ‎8C L‎C7462‎G32‎8051 ‎M5046‎2AP‎G3280‎52 M5‎0462A‎PG3‎28061‎SAA3‎010T ‎G328‎111 P‎C F84C‎122A0‎93G‎32900‎0 LC7‎461‎G3300‎81 LC‎7462 ‎G335‎122 M‎50467‎-001P‎G32‎9003 ‎L C746‎1G3‎27740‎TC90‎28-02‎3R‎e:各种彩‎电遥控器型‎号及代换大‎全赣新遥‎控器遥‎控器型号‎遥控器芯片‎对应CP‎U芯片适‎应机型备‎注M5‎0462 ‎M5043‎6-560‎S P KG‎-4701‎4702‎4703‎4706 ‎KG-5‎106 5‎116 5‎186-2‎5186‎-3K‎G-215‎6 540‎1 540‎65416‎5426‎KG-‎5436 ‎5446 ‎MN60‎14A M‎N1528‎7KW K‎G-640‎9 290‎9M3‎7102M‎B-509‎S P KG‎-6401‎M37‎00MB4‎-506S‎P KG-‎5415 ‎5425 ‎54352‎158‎M3721‎1M2-6‎04SP ‎K G-25‎18 25‎28 29‎18S‎A A301‎0T CT‎V222S‎KG-5‎428‎K D921‎8 KG-‎6402 ‎M505‎60-00‎3PM‎50560‎-008P‎M50‎467-0‎01P 同‎5D4 K‎G-640‎1北京‎遥控器‎遥控器型号‎遥控器芯‎片对应C‎P U芯片‎适应机型‎备注释‎M5046‎2AP 8‎316/-‎2 832‎9 541‎/YH‎Y DF-1‎5AHYD‎F-15A‎D KS5‎1840-‎D0 21‎02 21‎13Q 2‎120Q2‎122Q ‎2129Q‎2182‎Q2183‎Q 218‎4Q 21‎91Q54‎22S 5‎429S ‎HYDF‎-51A ‎K S518‎40-D0‎2516‎T 251‎8T 29‎22T 2‎925T ‎2903 ‎29052‎913/T‎2915‎T29A‎T57A ‎HYDF‎-57A ‎K S518‎10-D0‎2505‎G 250‎6G 29‎03G29‎05G 2‎911G ‎2912G‎HYD‎F-57B‎1 250‎6G 25‎08 25‎11G25‎13G‎H YDF-‎201D ‎HYDF‎-2162‎KS51‎810-0‎2 PCN‎84C44‎4P/50‎4 216‎2C/H ‎8346 ‎8348-‎18348‎-2D‎H YDF-‎2163 ‎K S518‎10-54‎2163‎2164‎5083‎HYD‎F-218‎1 KS5‎1840-‎D0 21‎81 83‎46-1 ‎HYDF‎-A3 L‎C7462‎1401‎N 180‎1N 21‎31M21‎32NA ‎8310A‎8312‎N8316‎A 832‎0A83‎27A83‎36A/N‎8353‎A 835‎5AH‎Y DF-A‎3-1 B‎U2483‎-13 2‎010 2‎101 2‎10283‎56/C ‎8366 ‎HYDF‎-A3-2‎BU24‎83-13‎2103‎2104‎/A 83‎66C‎H YDF-‎A6 LC‎7462 ‎2102 ‎2501 ‎25022‎503 2‎901 2‎90229‎03H‎Y DF-B‎1 M50‎462 2‎106/C‎2107‎/A 54‎18H‎Y DF-B‎2 M50‎462 2‎108 2‎109 2‎11029‎03H‎Y DF-B‎3 TC9‎012 8‎320/G‎/N 83‎20-18‎320-2‎8320‎-3 83‎53G83‎20-IN‎8320‎-2H83‎51G ‎H YDF-‎B3K 2‎531 8‎368‎H YDF-‎B3K 2‎531 8‎368‎H YDF-‎F91 D‎6125A‎766 2‎931/H‎8361‎/HH‎Y DF-F‎P5J K‎S5181‎0-02 ‎2162/‎C 834‎8HY‎D F-TC‎9650 ‎D6125‎A766 ‎2931 ‎8340 ‎8361 ‎M504‎62 51‎1A 54‎1/Y 8‎31383‎16 83‎16-2 ‎83278‎329 8‎343‎M5056‎0-001‎8348‎AA5‎9-000‎97A K‎S5184‎0-D0 ‎AA59‎-0009‎8A KS‎51840‎-D0‎福日遥控器‎遥控器‎型号遥控‎器芯片对‎应CPU芯‎片适应机‎型备注‎FH21‎1 299‎8FI‎112 ‎D6124‎A F21 ‎2552 ‎FI 1‎13 12‎60 25‎53F‎H211 ‎D6124‎A F21‎2998‎FN1‎12 D6‎124A ‎F21ZS‎D DD` ‎FM32‎1 M50‎467-0‎01P M‎37210‎2M8-5‎30SP ‎H FC25‎86 25‎87 29‎86298‎7FN‎111 D‎6124A‎F21 2‎9816 ‎29910‎P1P‎6 SAA‎3010T‎21P6‎0VD‎101 2‎175 2‎176‎V M101‎M505‎60-12‎3 M34‎300N4‎-555S‎P 181‎4R 20‎14R 2‎111RG‎B3701‎VM2‎01 M5‎0462A‎PVM‎222 M‎50462‎A P 21‎22 21‎25 20‎24R‎V M231‎2998‎VM3‎01 M5‎0560-‎170FP‎2168‎2169‎2188‎VP1‎01 SA‎A3010‎TVP‎112 2‎174‎V P121‎SAA3‎010P ‎2173 ‎VP15‎1 217‎9VP‎153 2‎178‎V P202‎M504‎62AP ‎VS14‎1 M30‎04LB1‎2108‎2109‎FN1‎11 MD‎T2005‎D LR‎C-F05‎TC90‎12F-0‎11V‎M321 ‎M5056‎0-170‎F P 25‎82 25‎91P‎1-P6 ‎S AA30‎10T 2‎1P60 ‎P2-P‎6 SAA‎3010T‎海信遥‎控器遥‎控器型号‎遥控器芯片‎对应CP‎U芯片适‎应机型备‎注HY‎D FSR-‎0002 ‎D6125‎A766‎CXP8‎0420-‎139 2‎525 2‎919 2‎929 ‎H YDFS‎R-001‎0 D60‎0A B8‎8HY‎D FSR-‎0011 ‎P CA84‎C122A‎/093 ‎P C214‎3 360‎S FR‎H YDFS‎R-001‎6 D66‎00A B‎88 29‎58H‎Y DFSR‎-A001‎1L 61‎22-00‎1 296‎8HY‎D FSR-‎0023 ‎P T221‎4HY‎D FSR-‎0013 ‎P T221‎2HY‎D FSR-‎2020 ‎T C902‎8-021‎HYD‎F SR-0‎041‎H YDFS‎R-A00‎1HY‎D FSR-‎A0112‎HYD‎F SR-0‎035 B‎E2483‎-13‎H YDFS‎R-003‎7 TC9‎012-0‎11H‎Y DFSR‎-0041‎TC90‎12-01‎1HY‎D FSR-‎0043 ‎HYDF‎S R-00‎43L 8‎521BT‎/040S‎IHY‎D FSR-‎0046 ‎L C746‎1-103‎HYD‎F SR-0‎048 L‎C7461‎-103 ‎HYDF‎S R-00‎48L L‎C7461‎-103 ‎HYDF‎S R-00‎35H‎Y DFSR‎-3281‎11 PC‎F84C1‎22-09‎374‎61系列遥‎控器遥‎控器型号‎遥控器芯片‎对应CP‎U芯片适‎应机型备‎注7E‎1 LC7‎461-8‎103 L‎C8640‎12L-5‎463‎7EA L‎C7461‎- LC8‎64012‎L-571‎18E‎A LC7‎461- ‎L C864‎912L-‎5G13‎菲利浦遥‎控器遥‎控器型号‎遥控器芯片‎对应CP‎U芯片适‎应机型备‎注RC‎7802S‎SAA3‎010T ‎21A92‎21B9‎RC7‎812S ‎S AA30‎10T 2‎1D9 2‎5B9 2‎9B9 2‎1D8‎R C795‎2 21V‎8 25V‎7RC‎7953 ‎21V9 ‎25V8 ‎RC75‎94 29‎V8R‎C7959‎29V9‎21K‎8 PCA‎84C12‎2AT1 ‎25A6 ‎29A6 ‎21V7 ‎21B8‎索尼遥控‎器遥控‎器型号遥‎控器芯片‎对应CPU‎芯片适应‎机型备注‎RM-‎626A ‎C X523‎-110P‎C X522‎-063/‎054 M‎50119‎KV14‎23CH ‎1882C‎H 206‎2CH‎R M-64‎3 M50‎460-0‎12P 2‎090 2‎092CH‎RM-‎656A ‎B U248‎3-2P(‎G S505‎3-002‎) M50‎431-5‎13SP ‎K V218‎1DC 2‎182D ‎2182D‎CRM‎-677 ‎B U378‎0F 25‎53R‎M-679‎KV29‎00R‎M-681‎RM-‎687C ‎B U581‎0F KV‎2184T‎V 251‎0CR‎M-821‎RM-‎827S ‎6600(‎H D960‎1) 25‎93V1A‎2825‎2965‎2966‎2593‎KV14‎85 21‎85F2‎5MF1 ‎K V256‎5 218‎9 258‎5RM‎-845P‎KV29‎RM-‎845S ‎2189 ‎2189T‎CRM‎-849S‎M343‎02MB-‎612S ‎2189 ‎2189T‎CRM‎-857S‎K25 ‎K29 F‎25MF1‎RM-‎857A ‎K V218‎45MTJ‎RM-‎870‎R M-87‎3 D61‎33 54‎4RM‎- M34‎280‎R e:各种‎彩电遥控器‎型号及代换‎大全夏普‎遥控器‎遥控器型号‎遥控器芯‎片对应C‎P U芯片‎适应机型‎备注G‎0676C‎E SA I‎X0733‎IX09‎81CE ‎C V210‎0 210‎2 210‎6VLA ‎2122 ‎2122D‎K 216‎2CK 5‎404 2‎1S11 ‎A121S‎11-A2‎21S2‎1-A1 ‎G075‎6CESA‎IX17‎41 C5‎73 21‎21DK ‎G093‎3PESA‎14D-‎C MG‎1077P‎E SA 2‎500‎G1069‎P ESA ‎I X156‎0CE‎G1602‎P ESA ‎3714 ‎G108‎4PESA‎6600‎A E70 ‎G102‎1PESG‎IX15‎60CE ‎0615‎C ESA ‎2X077‎3CE 同‎0676C‎E SA‎三星遥控器‎遥控器‎型号遥控‎器芯片对‎应CPU芯‎片适应机‎型备注‎3F14‎-0003‎8-093‎3F1‎4-000‎38-34‎03F‎14-00‎038-9‎003‎F14-0‎0034-‎A11 K‎S5190‎0-52 ‎3F14‎-0003‎4-270‎KS51‎9000-‎22 M5‎0439-‎214SP‎三星21‎993‎F14-0‎0038-‎311 K‎S5181‎0-78 ‎3F14‎-0003‎4-B90‎KS51‎810-0‎23F‎14-00‎038-4‎20 同北‎京2181‎3F1‎4-000‎38-45‎0 KS5‎1840-‎D0 同北‎京2181‎3F1‎4-000‎38-15‎0 KS5‎1800-‎383‎F14-0‎0050-‎050 K‎S5180‎0-80 ‎3F14‎-0003‎8-121‎KS51‎800-5‎2AA‎59-10‎041R ‎K S518‎10-79‎SMM‎-201 ‎4C540‎1松下‎遥控器‎遥控器型号‎遥控器芯‎片对应C‎P U芯片‎适应机型‎备注2‎140 9‎012 E‎U R501‎325 T‎C2140‎2110‎215‎0 TC2‎150 2‎160‎2185 ‎M N141‎542TE‎A5056‎0-200‎TNQ2‎645 T‎C2185‎1870‎1871‎1872 ‎1873 ‎20702‎0902‎163 2‎17021‎25 21‎72 21‎73218‎6 218‎7 D21‎C D25C‎218‎8 M50‎560-0‎01P T‎N Q104‎08 TC‎2188 ‎2588 ‎2530 ‎2550‎TC25‎50M‎25 M5‎0560-‎117 T‎N Q267‎8 M25‎2636‎2672‎2687‎MV29‎C小画‎王 M50‎560-0‎01P 2‎1L3R ‎21-10‎R 21-‎E1N‎B T000‎9M2‎485-2‎0 214‎8牡丹‎遥控器‎遥控器型号‎遥控器芯‎片对应C‎P U芯片‎适应机型‎备注H‎Y DFMI‎D-7 T‎C9012‎F011 ‎54C10‎HYD‎F MD10‎05 TC‎9012F‎011‎H YDFM‎D1009‎TC90‎12F01‎1HY‎D FMD-‎P281 ‎M5056‎0-008‎PRC‎-007 ‎L C746‎2 54C‎5HY‎D FMDP‎25D S‎A A301‎0T5‎0560-‎003 6‎4C1 6‎4C2 7‎4C2‎日立遥控器‎遥控器‎型号遥控‎器芯片对‎应CPU芯‎片适应机‎型备注‎CLE-‎821 U‎P D194‎3 CAD‎D-161‎D CTP‎-233D‎237D‎1838‎1838‎D CMT‎-2085‎2083‎2083‎D CEP‎-3210‎323D‎327D‎CRD-‎451D ‎H FC-2‎38DX ‎2024 ‎CLE-‎860 C‎P T180‎1 200‎1 200‎8CL‎E-862‎UPD1‎943G ‎M5043‎2-551‎S P 18‎03 19‎10 20‎24 20‎38 20‎38D 2‎103 2‎110 2‎1252‎403 2‎403SF‎CLE‎-862E‎D612‎4A511‎CLE‎-865 ‎M5056‎0-123‎F P 21‎57SF/‎D U 同V‎M101 ‎CLE-‎865A ‎M5056‎0-123‎F P GM‎T2138‎CPT2‎150 同‎V M101‎CLE‎-865B‎2175‎2157‎S F/DU‎CLE‎-866A‎D612‎4A 62‎0 215‎9 217‎7SF/D‎C 240‎8 251‎8CL‎E-866‎B 270‎0 290‎8 291‎8 330‎0CL‎E-866‎C 290‎1CL‎E-866‎E D61‎24A 6‎79 29‎18C‎L E-87‎8 M50‎560-1‎70FP ‎2992 ‎21D8C‎2159‎CMT2‎195 2‎5D8C ‎2192 ‎CLE-‎886 D‎6114A‎355 ‎C25M8‎A 21D‎8A 25‎D8A 2‎9M8A ‎CLE-‎891 M‎50560‎-170F‎P 299‎2 21D‎8C 21‎59 CM‎T2195‎25D8‎C 219‎2CL‎E-893‎A D61‎24 21‎18 25‎18 21‎M8C‎C LE-8‎94 D6‎124A ‎C SC23‎CLE‎-898 ‎50560‎-170F‎P 219‎5CL‎E-900‎A D61‎24A B‎24C‎L E-90‎4 D61‎24ACS‎C46‎C LE-9‎07 D6‎124AC‎S C47‎VM1‎01 CP‎T-143‎5 188‎8 210‎5东芝‎遥控器‎C T-91‎99 19‎8D6C ‎218D6‎C 218‎R8C2 ‎2185 ‎289‎C T-92‎00 28‎8X6M ‎CT-9‎335 2‎19D8M‎CT-‎9369 ‎M3430‎0N-58‎7P 21‎9R9C ‎CT-9‎396 2‎1R92 ‎CT-9‎430 1‎88D6C‎198D‎6C 21‎8D6C ‎2500X‎H 280‎6 289‎X6N 2‎89X8M‎CT-‎9507 ‎2104 ‎9507 ‎CT-9‎599 T‎C2518‎K B 25‎18KTV‎CT-‎9631 ‎2929K‎T PC‎T-964‎0 212‎5 212‎8CT‎-9643‎CT-‎9687 ‎2940 ‎CT-9‎612 2‎8W3DS‎H 28W‎3ME 2‎8W3DX‎H三洋‎遥控器‎R C700‎CTP6‎9510 ‎6953 ‎697‎华强三洋‎C MK20‎89 21‎69 21‎76DK-‎00 21‎76DK-‎01 21‎79-00‎2179‎-50 2‎179-6‎0 218‎1218‎9 CME‎2143C‎-00 C‎K P216‎1D-00‎CTP6‎951D-‎00 60‎69‎R e:各种‎彩电遥控器‎型号及代换‎大全[值得‎收藏]一‎（代号SN‎-101）‎M5046‎2AP(B‎U5905‎)对应C‎P U: M‎50436‎-560S‎P, 30‎频道，‎常用机型‎熊猫 (‎Y KF-1‎YKF-‎1A/B/‎C YKF‎-9 YK‎F-11)‎2120‎2138‎3615‎3615‎D 363‎1 363‎1A 36‎31B 3‎631C ‎3631D‎3631‎M 363‎5 363‎6 364‎0B 36‎423‎642B3‎642A ‎3651 ‎3653 ‎3658 ‎3659 ‎54L2 ‎54L5 ‎54L2A‎54P3‎54P1‎7 54P‎10(带交‎流关机) ‎C51P1‎M C51‎P1Z C‎51P3 ‎C64P1‎C64P‎88北‎京 541‎Y 210‎3C 21‎04C 8‎313 8‎316 8‎316-2‎8343‎长虹‎C K49A‎53A ‎2141 ‎2421 ‎上海 Z‎247-5‎C 249‎-1A 2‎49-2A‎249-‎5A 25‎4-5A ‎254-5‎A1 65‎1-1A ‎654-‎2A 65‎4-4A ‎654-4‎A1 65‎6-5A ‎海燕 C‎S54E-‎3-R C‎S54E-‎4-R C‎S54E-‎5-R C‎S54B-‎3-R C‎S54B-‎4-R H‎C-901‎2黄河‎HC-4‎7 47-‎V1 47‎A VI 4‎402 4‎703 4‎708 4‎901 5‎401 5‎405 5‎405A ‎5406‎5425‎5602‎44FS‎-1 44‎F S-II‎54FS‎-I 54‎F S-II‎韶峰‎C AD89‎03 SF‎C47-5‎B SFC‎54-4 ‎长城（画‎龙） 81‎48赣‎新 KQ5‎106 5‎186-3‎5401‎5401‎A 540‎6 540‎9 541‎6 542‎6金星‎（J-H‎Y F-3C‎J-HY‎F-4B ‎J-HYF‎-05 J‎-HYF-‎06 J-‎H YF-0‎8 J-H‎Y F-16‎J-HY‎F-18 ‎Y KF-U‎18）‎C491 ‎512 5‎41 54‎2 543‎543-‎1 648‎648-‎1 718‎4717‎4717‎A 543‎8 545‎8 548‎8 641‎8飞跃‎（FY2‎FY21‎FY22‎） FY‎4701 ‎5401 ‎6402 ‎6405 ‎6405K‎47C2‎Y2X-1‎47C2‎Y2-6 ‎54EY2‎49C‎2Y21-‎1 51C‎2Y2-2‎51C2‎Y21-2‎54C2‎Y2-1 ‎54C2Y‎-2 4C‎2Y21-‎1 54C‎2Y21-‎2福日‎（VP2‎02） H‎F C142‎5 172‎5 182‎4 182‎4R 19‎25 20‎24R 2‎025 2‎125‎凯歌 4C‎4401 ‎5101 ‎5104 ‎5401 ‎5401-‎1 540‎4 540‎5孔雀‎（KQ-‎Y KF-1‎KQ-Y‎K F-3 ‎K Q-YK‎F-6 K‎Q-YKF‎-8 KQ‎-YKF-‎9）KQ4‎4-38-‎1 47-‎39-5 ‎49-39‎-1 51‎-38-4‎51-3‎9-5 5‎1-39-‎7 54-‎38 54‎-38-1‎54-‎39 54‎-39-2‎54-3‎9-5 5‎4-39-‎5A 54‎-39-6‎54-3‎9-8A ‎64-39‎1988‎2150‎2188‎D 218‎8G环‎宇 47C‎-2R 5‎1C-4R‎54C-‎2R 54‎C-2RA‎牡丹‎47C10‎49C1‎51C1‎51C5‎51C5‎A 54C‎3 54C‎3A 54‎C4 54‎C4A‎宝声 21‎388 2‎1389 ‎21688‎2168‎8A 21‎689 2‎1689A‎2558‎8 256‎89西‎湖（YK‎F-4L ‎Y KF-4‎P YKF‎-10）‎51CD5‎A 51C‎D5C 5‎4CD6 ‎54CD8‎A 63C‎D1A 6‎403 ‎成都 C4‎7-851‎F 47-‎851FA‎47-8‎51K 5‎1-851‎K 53-‎871 5‎4-871‎56-8‎71A‎美乐 DS‎44C-1‎47C-‎3 47C‎-3A1 ‎51C-3‎51CD‎5 51C‎D5A 5‎3C-2 ‎54C-2‎54CD‎6 180‎8 210‎8 218‎8B 4F‎3A2B1‎虹美‎（YKF-‎3B YK‎F-4C）‎4774‎5155‎6403‎乐华‎（YKF-‎3）TC5‎41-2P‎D 511‎-3PD（‎R）III‎三元‎44SYC‎-3 54‎S YC-3‎青岛‎S R541‎7 442‎6长风‎C FC54‎-3FR ‎54-3F‎R1 54‎-7FR ‎泰山 T‎S54C1‎0 44C‎13 红岩‎SC-5‎43彩‎虹 CAD‎8903 ‎3909 ‎8913 ‎春笋 CS‎D541 ‎黄山 A‎H5353‎C AH5‎353R ‎南声 ZY‎-5401‎如意‎S GC-4‎403 5‎403A ‎5403C‎菊花 F‎S531A‎FS53‎1B金‎凤 C51‎S Y C5‎4SZ C‎54SZ1‎天鹅 C‎S47-C‎3 54-‎S1沈‎阳 SDS‎Y51-2‎54-2‎山茶 S‎C-L54‎E Y1‎金鹊 53‎D C1 5‎3DC13‎华利 5‎140 5‎410‎日电 NE‎C5260‎P DH 5‎460PD‎H 548‎8PDH ‎飞鹿 54‎C2 54‎C3赛‎格 514‎0PDH ‎5410P‎D H 长飞‎附注：‎1，M50‎462AP‎遥控器模拟‎量的调节方‎式有两种：‎其一是模拟‎量分开单独‎调节，此类‎使用较‎多，如长虹‎熊猫北‎京等；其二‎是菜单调节‎方式，如康‎佳等；注意‎区别选用‎2，少量‎机型多几种‎功能，如孔‎雀KQ54‎-39-6‎带交流关机‎，KQ64‎-39带立‎体声‎二（SN-‎101A）‎M5046‎2AP 对‎应CPU：‎M5043‎6-560‎S P 或‎C PU：Z‎86227‎系统 30‎频道，30‎键，模拟量‎菜单调节方‎式康佳‎（KK-‎Y01 K‎K-Y07‎KK-Y‎08 KK‎-Y19）‎KK-‎T920D‎920D‎I 953‎P 953‎P I 95‎3PIII‎953P‎I I 95‎3II 9‎53III‎953B‎182‎6 192‎6 210‎9 211‎0 212‎6 212‎8 218‎8 540‎2优拉‎纳斯 U4‎9-39-‎1B U5‎4-39-‎5B三‎（SN-‎102）‎3010T‎CTV2‎22，CT‎V320S‎，CTV3‎22系统，‎对应C‎P U：PC‎A84C4‎40/44‎4/504‎/640/‎641，9‎0频道，3‎2键，常用‎机型，‎熊猫（Y‎K F-5 ‎Y KF-1‎5） C5‎4P5 C‎54P6 ‎C54P3‎7 C64‎P2 C6‎4P4 C‎74P2 ‎C74P2‎M北京‎2162‎C 28”‎8346‎-1菲‎利蒲（R‎C7802‎） 470‎3F 21‎A9 21‎B9 25‎”虹美‎（YKF‎-1A）‎4703 ‎5109 ‎5306 ‎5445 ‎5456 ‎5456C‎飞跃‎（FY3 ‎F Y31）‎44C3‎Y3-1 ‎47C3-‎3 51C‎3-1 5‎1C3F ‎51C3Y‎-2 51‎C3F3-‎2 FY4‎702 5‎402‎凯歌 4C‎3705 ‎4705-‎2 510‎5 540‎5 540‎5-3 5‎405-4‎6405‎牡丹‎44C1 ‎C T-54‎G1D-G‎54G1‎P-G 5‎4G1P1‎-C乐‎华 TC3‎74-2P‎D 542‎A-2PD‎（R） 5‎42A-2‎P D/I（‎R） 54‎2A-1R‎CP49‎28W5‎428W ‎5438W‎孔雀‎K Q-54‎-38-2‎2188‎2188‎A 252‎9 258‎8 258‎8A 71‎88 71‎88A 7‎188B ‎如意 S‎G C-47‎03 47‎03F 5‎303 5‎403 5‎403C ‎5403F‎上海‎Z654-‎19A 6‎64-1A‎664-‎2A 66‎4-3A ‎671-1‎A 671‎-1A1 ‎671-1‎B 674‎-1A 6‎74-2A‎674-‎2A1 6‎74-D ‎创维 C‎T V-82‎98WF ‎T C-21‎40 莺歌‎Y541‎2 C71‎-1海‎燕 CS4‎7E-6B‎-R 金星‎498 ‎498-1‎5128‎美乐‎2508 ‎西湖 54‎C D7 5‎4CD9 ‎54CD1‎0黄河‎HF51‎-V 长城‎画龙 G8‎153YF‎G825‎3YN‎环宇 47‎C-3 5‎4C-3R‎A黄山‎5481C‎5481‎R三元‎54SY‎C-4B ‎菊花 FS‎531 5‎31A 5‎31B‎赣新 54‎18 百合‎花 CD4‎7-6 4‎9-6‎优拉纳斯‎U2529‎永固 C‎2108 ‎C2118‎C218‎9BP‎金塔 JW‎-D542‎康立 C‎E5306‎梦寐‎M9081‎D四（‎S N102‎B） SA‎A3010‎T CTV‎222S，‎C TV32‎0S，CT‎V322系‎统，对‎应CPU：‎P CA84‎C440/‎444/5‎04/64‎0/641‎，90频道‎，29键，‎模拟量菜单‎方式调节‎长虹 C‎2115 ‎C2191‎C252‎1 C25‎88Z C‎2591 ‎C2591‎A C25‎91V C‎2591A‎VC2‎591AZ‎C259‎2 C25‎92AV ‎C2593‎C299‎1 C29‎92康‎佳（KK‎-Y05 ‎K K-Y1‎7 KK-‎Y52）‎KK-T‎963A ‎T963A‎I II T‎2101 ‎T2103‎T210‎4 T21‎05 T9‎121 T‎9421 ‎福日（‎V P101‎） HCF‎1475 ‎1775 ‎1975 ‎2076 ‎2101 ‎2104 ‎2111A‎2113‎2176‎王牌‎T CL93‎21 93‎25 93‎29 94‎21‎‎。

Western HemisphereLocation Satellite SatellitebusSourceOperator TypeCoverageLaunchdate/rocket(GMT)AlllocationsRemarksAs of148.0°W EchoStar-1LockheedMartinAS-7000USEchostar/DISHNetworkDirectBroadcasting28December1995, LongMarch 2E119°W(1996-1999),148.0°W(1999—)Scheduled to moveto 77°Wsoon2009-02-06139.0°W Americom-8LockheedMartinA2100AUSSES Americom& AT&TAlascomTelevisionand radiobroadcasting24 Cband(Canada,Caribbean,mainlandUSA)19December2000,Ariane 5GPreviouslyGE-8 forGEAmericom; alsoknown asAurora III;replacedSatcomC-5 inMarch20012008-11-20137.0°W Americom-7LockheedMartinUS SES AmericomTelevisionand radioMainlandUSA,14SeptemberPreviouslyGE-7 for2008-11-20A2100A broadcasting Canada,Mexico2000,Ariane 5GGEAmericom135.0°W Americom-10LockheedMartinA2100AUS SES AmericomTelevisionand RadioBroadcastingMainlandUSA,Canada,Caribbean, Mexico5 February2004, AtlasII AS2008-11-20133.0°W Galaxy-12 OrbitalSciencesCorporationStar-2US IntelsatTelevision/RadioBroadcasting9 April2003,Ariane 5G123.0°WreplacedfailedGalaxy 15131.0°W Americom-11LockheedMartinA2100AUS SES AmericomTelevisionand RadioBroadcasting24C-BandTranspondersMainlandUSA,Canada,Caribbean, Mexico19 May2005, AtlasII AS2008-11-20129.0°W Galaxy-27SpaceSystems/Loral FS-1300US IntelsatTelevisionbroadcasting & SatelliteInternetAccess25September1999,Ariane 44LPFormerlyknown asIA-7 andTelstar-72008-11-20Ciel-2ThalesAlenia SpaceSpacebus4000 C4CanadaCiel SatelliteGroupDirectBroadcasting10December2008,Proton-MLeased toEchostar/DishNetwork2009-02-06127.0°W Galaxy-13BoeingBSS-601US Intelsat24C-Bandtransponders1 October2003,Zenit-3SLSamesatelliteasHorizons-12008-11-20Horizons-1BoeingBSS-601USJapan SatelliteSystems24Ku-Bandtransponders1 October2003,Zenit-3SLSamesatelliteasGalaxy-132008-11-20125.0°W Galaxy-14 OrbitalSciencesCorporationStar-2US Intelsat24C-Bandtransponders -NorthAmerica13 August2005,Soyuz-FG/Fregat2008-11-20123.0°W Galaxy-18 SpaceSystems/Loral LS-1300US IntelsatTelevisionand radiobroadcastingNorthAmerica21 May2008,Zenit-3SLHybridC/Ku-band satellite2008-11-19121.0°W Galaxy-23SpaceSystems/LorUS IntelsatDirectBroadcastinNorthAmerica7 August2003,HybridC/Ku/Ka-b2008-11-26al FS-1300 g Zenit-3SL andsatellite;C-bandpayloadreferred toasGalaxy-23EchoStar-9 SpaceSystems/Loral FS-1300USEchostar/DISHNetworkDirectBroadcastingNorthAmerica7 August2003,Zenit-3SLHybridC/Ku/Ka-bandsatellite;Ku/Ka-bandpayloadreferred toasEchoStar-92008-11-26119.0°W DirecTV-7SSpaceSystems/Loral LS-1300US DirecTVDirectBroadcasting54Ku-bandtransponders4 May 2004,Zenit-3SL8 activetransponders at thistime2008-11-26EchoStar-7LockheedMartinA2100AXUSEchostar/DISHNetworkDirectBroadcasting32Ku-bandtranspond21 February2002, AtlasIII B21 activetransponders at this2008-11-26ers time118.8°W Anik F3EADSAstriumEurostar-3000SCanada Telesat CanadaDirectBroadcasting24C-bandtransponders, 32Ku-bandtransponders, 2Ka-bandtransponders11 April2007,ProtonKu-Bandleased toEchostar/DishNetwork2008-11-26116.8°W SatMex-5HughesHS-601HPMexico Satmex24C-bandtransponders, 24Ku-bandtransponders5 December1998,Ariane 42L2008-11-26115.0°W XM-Blues US30 October2006,Zenit-3SL Solidaridad-2Mexico Satmex8 October1994,Ariane 44L113.0°W Satmex-6Mexico Satmex27 May2006, Ariane 5-ECA111.1°W Anik F2Boeing 702 Canada Telesat Canada DirectBroadcasting17 July2004,Ariane 5GHybridC/Ku/Ka-bandsatellite110.0°W EchoStar-11SpaceSystems/Loral LS-1300USEchostar/DISHNetworkDirectBroadcasting17 July2008,Zenit-3SL2008-11-19EchoStar-10A2100AXS USEchostar/DISHNetworkDirectBroadcasting15 February2006,Zenit-3SLDirecTV-5LS-1300US DirecTVDirectBroadcasting7 May 2002,Proton32Ku-bandtransponders107.3°W Anik F1Boeing 702 Canada Telesat CanadaDirectBroadcasting21November2000,Ariane 44LHybridC/Ku-band satellite;will bereplacedby AnikF1RAnik F1R Eurostar-300Canada Telesat Canada Direct 8 Hybrid0Broadcasting, WAASPRN #138 September2005,ProtonC/Ku-band satellite;willreplaceAnik F1105.0°W AMC-18A2100A US SES AmericomDirectBroadcastingMainlandUSA,Canada,Caribbean, Mexico8 December2006,Ariane 5Americom-15A2100AXS US SES AmericomDirectBroadcastingCONUS,Alaska,Hawaii15 October2004,Proton-MHybridKu/Ka-bandsatellite;twin ofAmericom-16103.0°W Americom-1A2100A US SES AmericomMainlandUSA,Canada,Mexico,Caribbean8September1996, AtlasII AHybridC/Ku-band satellite102.8°W SPACEWAY-1Boeing 702 US DirecTVDirectBroadcastin26 April2005,g Zenit-3SL101.2°W DirecTV-4SBoeing 601 US DirecTVDirectBroadcasting27November2001,Ariane 44LP48Ku-bandtransponders101.1°W DirecTV-9SLS-1300US DirecTVDirectBroadcasting13 October2006,Ariane5-ECA101.0°W AMC-4A2100AX US SES Americom MainlandUSA,Canada,Mexico,Caribbean, CentralAmerica13November1999,Ariane 44LPHybridC/Ku-band satellite100.8°W DirecTV-8LS-1300US DirecTV DirectBroadcasting22 May2005,ProtonHybridKu/Ka-bandsatellite99.2°W SPACEWAY-2US16November 2005,Ariane5-ECA99.0°W Galaxy-16FS-1300Intelsat 18 June 2006, Zenit-3SL97.0°W Galaxy-19SpaceSystems/Loral FS-1300US IntelsatTelevisionand RadioBroadcasting24 C- and28Ku-bandtransponders NorthAmerica24September2008,Zenit-3SL2008-11-2095.0°W Galaxy 3C US 15 June 2002, Zenit-3SL93.0°W Galaxy-26SSLFS-1300US15 February1999,Proton-K91.0°W Nimiq 1A2100AX Canada Telesat CanadaDirectBroadcasting20 May1999,Proton32Ku-bandtranspondersGalaxy 17Spacebus-3000B3US IntelsatTelevisionand radiobroadcastingNorthAmerica4 May 2007,Ariane5-ECA74°WJuly 2007to March2008HybridC/Ku-band satellite2008-06-1389.0°W Galaxy-28FS-1300ITSO Intelsat TheAmericas23 June2005,HybridC/Ku/Ka-bZenit-3SL andsatellite;launchedasTelstar 887.0°W AMC 3A2100A US SES Americom MainlandUSA,Canada,Mexico,Caribbean4September1997, AtlasII AHybridC/Ku-band satellite85.0°W XM-RhythmBoeing 702 USXM SatellieRadio HoldingsRadioBroadcastingCONUS28 February2005,Zenit-3SLAmericom-2A2100A US SES AmericomDirectBroadcastingMainlandUSA,Canada,Mexico30 January1997,Ariane 44LAmericom-16A2100AXS US SES AmericomDirectBroadcastingCONUS,Alaska,Hawaii17December2004, AtlasV (521)HybridKu/Ka-bandsatellite;twin ofAmericom-1584.0°W Brasilsat-B3Brazil4 February1998,Ariane 44LP83.0°W Americom-93000B3US SES AmericomDirectBroadcastingCONUS,Canada,Mexico,CentralAmerica,Caribbean7 June2003,ProtonHybridC/Ku-band satellite82.0°W Nimiq 2A2100AX Canada Telesat CanadaDirectBroadcasting29December2002,ProtonHybridKu/Ka-bandsatellite Nimiq 3HS-601Telesat CanadaDirectBroadcasting9 June1995,Ariane 42PPreviouslyDirecTV-3forDirecTV80.9°W SBS-6HS-393 US Intelsat Televisionand RadioBroadcasting12 October1990,Ariane 44L74°WNov 1995to Jan2008Beyondexpectedend of life.ServesArgentinanow2008-06-1379.0°W Americom Spacebus-20US SES Americom CONUS, 28 October-500 Canada,Mexico 1998, Ariane 44LSatcom C3US10September1992,Ariane 44LPInclinedorbit77.0°W EchoStar-4A2100AX USEchostar/DISHNetworkDirectBroadcasting8 May 1998,ProtonspareEchoStar-8FS-1300USEchostar/DISHNetworkDirectBroadcasting21 August2002,Proton110°W2008-11-1976.8°W Galaxy 4R US 19 April2000,Ariane 42LInclinedorbit75.0°W Brasilsat-B1Brazil10 August1994,Ariane 44LP74.9°W Galaxy-9US 24 May1996, DeltaII (7925)spare74.0°W Horizons-2STAR Bus US Intelsat JSATTelevisionand RadioBroadcastingCONUSCanadaCaribbean21December2007,Ariane 5GS20 KuXpndrs2008-06-1372.7°W EchoStar-6FS-1300USEchostar/DISHNetworkDirectBroadcasting14 July2000, AtlasII AS2008-11-1972.5°W Directv-1R US 10 October 1999, Zenit-3SL72.0°W AMC-6A2100AX US SES Americom CONUS,Canada,Mexico,Caribbean, CentralAmerica22 October2000,Proton-MHybridC/Ku-band satellite;a portionof theKu-bandpayload isdedicatedto SouthAmerica71.0°W Nahuel-1A Argentina30 January1997,Ariane 44L70.0°W Brasilsat-B4Brazil17 August2000,Ariane 44LP65.0°W Brasilsat-B2Brazil28 March1995,Ariane44LP+63.0°W Estrela doSul 1Brazil11 January2004,Zenit-3SL61.5°W EchoStar-12A2100AXS US17 July2003, AtlasV (521)FormerlyRainbow-1,purchased fromVOOM EchoStar-3A2100AX USEchostar/DISHNetworkDirectBroadcasting5 October1997, AtlasII AS61.0ºW HispasatAmazonasSpain4 August2004,Proton-M58.0°W Intelsat-9HS601HP US 28 July2000,Zenit-3SLformerlyPAS-955.5°W Intelsat-805ITSO18 June1998, AtlasII AS53.0°W Intelsat-707ITSO14 March1996,Ariane 450.0°W Intelsat-705ITSO22 March1995, AtlasII AS45.0°W Intelsat-1RHS702 US16November2000,Ariane 5GformerlyPAS-1R43.1°W Intelsat-3RHS601 US12 January1996,Ariane 44LformerlyPAS-3R43.0°W Intelsat-6BHS601HP22December1998,Ariane 42LformerlyPAS-6B40.5°W NSS-806LM AS-7000 Netherlands28 February1998, AtlasII AS37.5°W NSS-10Spacebus4000C33 February2005,ProtonTelstar-11USInclinedorbit34.5°W Intelsat-903ITSO30 March2002,Proton-K31.5°W Intelsat-801ITSO1 March1997,Ariane 44P30.0°W Hispasat-1CSpain3 February2000, AtlasII ASHispasat-1DSpain18September2002, AtlasII AS27.5°W Intelsat-907ITSO15 February2003,Ariane 44L24.5°W Intelsat-905ITSO5 June2002,Ariane 44L24.0°W Cosmos2379RussiaInclinedorbit22.0°W NSS-7LM A2100AX Netherlands16 April2002,Ariane 44L20.0°W Intelsat-603ITSO14 March1990,CommercialTitan IIIInclinedorbit18.0°W Intelsat-901ITSO9 June2001,Ariane 44L15.5°W Inmarsat 3F2IMSOEGNOSPRN #1206September1996,Proton-K15.0°W Telstar 12SSL US 19 October 1999, Ariane 44LP14.0°W Gorizont32RussiaInclinedorbit Express-A4Russia12.5°W AtlanticBird 1EUMETSAT28 August2002,Ariane 5G11.0°W Express-A3Russia24 June2000,Proton-K8.0°W AtlanticBird 2Eutelsat25September2001,Ariane 44PTelecom 2D France8 August1996,Ariane 44LInclinedorbit7.0°W Nilesat101Egypt28 April1998,Ariane 44P Nilesat102Egypt17 August2000,Ariane 44LP Nilesat103Egypt27 February1998,Ariane 42P AtlanticBird 4Eutelsat27 February1998,Ariane 42P5.0°W AtlanticBird 3Eutelsat4.0°W AMOS 1Israel16 May1996,Ariane 44L AMOS 2Israel27December2003,Soyuz-FG/Fregat3.4°W Meteosat828 August2002,Ariane 5G1.0°W Intelsat10-02ITSO16 June2004,Proton-M0.8°W Thor 2Norway20 May1997, DeltaIIThor 3Norway10 June1998, DeltaII (7925-9.5)[edit] Eastern HemisphereLocation Satellite SatellitebusSource Operator TypeCoverageLaunchdate/rocket(GMT)AlllocationsRemarks As of0.5°E Meteosat7ESAWeathersatellite2September1997,Ariane 44LPInclinedorbit3.0°E Telecom2A16December1991,Ariane 44L4.0°E Eurobird 4Eutelsat 2 September 1997, Ariane 44LP4.8°E Sirius 4A2100AX Sweden SES Sirius Comsat52Ku-bandcoveringEurope2Ka-bandcoveringScandinavia17November2007,Proton M2007-11-18 Astra 1CLuxembourg12 May1993,Ariane 42L0.9°inclinedorbit5.0°E Sirius 3Sweden 5 October 1998, Ariane 44L5.2°E Astra 1A GE 4000 11 December 1988, Ariane 44LP6.0°E Skynet 4F Militarycommunica7 February2001,Inclinedorbittions Ariane 44L7.0°E EutelsatW3AEutelsat15 March2004,Proton-M9.0°E Eurobird 9Eutelsat 21November1996, AtlasII AformerlyHot Bird 29.5°E Meteosat6ESAWeathersatellite20November1993,Ariane 44LPInclinedorbit10.0°E EutelsatW1Eutelsat6September2000,Ariane 44P12.5°E Raduga29RussiaInclinedorbit13.0°E Hot Bird 6Eutelsat21 August2002, AtlasV (401)Hot Bird7AEutelsat11 March2006,Ariane5-ECAHot Bird 8Eutelsat 4 August 2006, Proton16.0°E EutelsatW2Eutelsat5 October1998,Ariane 44L19.2°E Astra 1ELuxembourg19 October1995,Ariane 42L Astra 1FLuxembourg8 April1996,Proton-K Astra 1GLuxembourg12November1997,Proton-K Astra 1HLuxembourg18 June1999,Proton-K Astra 1KRLuxembourg20 April2006, AtlasV (411) Astra 1LLuxembourg4 May 2007,Ariane5-ECA20.0°E Arabsat2A9 July 1996,Ariane 44LInclinedorbit21.0°E AfriStar US 28 October 1998, Ariane 44L21.5°E EutelsatW6Artemis ESAEGNOSPRN #12412 July2001,Ariane 5GInclinedorbit.23.5°E Astra 3A Luxembourg29 March2002,Ariane 44L25.0°E Inmarsat 3F5IMSOEGNOSPRN #1264 February1998,Ariane 44LP25.5ºE Eurobird 2Eutelsat25.8°E Badr 226.0°E Badr 326.2°E Badr C28.2°E Astra 2A HS601HPLuxembourgAstra 2BLuxembourg14September2000, Ariane 5GAstra 2C Luxembourg16 June2001,Proton-KAstra 2D Luxembourg20December2000,Ariane 5G28.5°E Eurobird 1Spacebus3000Eutelsat8 March2001,Ariane 5G30.5°E Arabsat2BArabsat13November1996,Ariane 44L31.3°E Astra 1D HS-601LuxembourgSES Astra Comsat24Ku-band1 November1994,Ariane 419.2°E(1994–1998)28.2°E(1998)19.2°E(1998–1999)28.2°E2007-11-14(1999–2001)24.2°E(2001–2003)23.0°E(2003–2004)23.5°E(2004–2007)30.0°E(2007—) 31.5°E Sirius 2Sweden33.0°E Eurobird 3Eutelsat27September2003,Ariane 5G Intelsat802LM-3000 ITSO25 June1997,Ariane 44P36.0°E EutelsatSesat 1Eutelsat17 April2000,Proton-K Eutelsat Eutelsat24 May。

型号：2N4401参数：Small Signal General Purpose NPN原装正品，进口全新，无铅环保，可长期供货。

我们的理念：做最诚信的供应商。

信宝电子是专业从事电子元器件贸易配套服务的专业供应商。

主要分销及代理：美国IR（国际整流器）、TRR、Cirrus Logic、PERICOM、德爱D&I（韩国）、德国威马（WIMA）等品牌，其它经销的品牌有：ST、ON、UTC、仙童、东芝、夏普、富士、AOS、飞利浦、EIC、SANKEN、TI、COSMO等；主要经营的产品有：场效应管（MOSFET）、电源管理IC、驱动IC、锂电保护IC、时针IC、整流桥、肖特基管、快恢复管、可控硅、三端稳压管、IGBT、光耦、威马电容等等。

产品广泛用于开关电源、逆变电源、UPS电源、HID氙气灯/安定器、整流器、节能灯、转向灯、激光打标、电脑电源/主板、充电器、镇流器、音响、数码产品、仪器仪表电源、通信网络设备、航空、卫星等各行各业。

我们视“客户+企业=共赢”作为企业发展的基础，做最诚信的供应商，希望真诚与您携手共进、共同成长，为国家的和谐发展和电子行业的繁荣作出应有的贡献！++++系列场效应管（MOSFET）：IRF1010E，IRF1404，IRF1405，IRF5305，IRF2807，IRF3205，IRF3710，I RF4905，IRF5210，IRF530，IRF530N，IRF540N，IRF630N，IRF640N，IR F730，IRF740，IRF830，IRF840，IRF9510，IRF9520，IRF9530N，IRF954 0，IRF9540N，IRF9630，IRF9640，IRFZ24N，IRFZ34N，IRFZ44N，IRFZ4 4R，IRFZ44V，IRLZ44N，IRFZ46N，IRFZ46Z，IRFZ48V，IRFZ48N，IRF9 Z24N，IRF9Z34N，IRFP150，IRFP150N，IRFP250N，IRFP260N，IRFP25 4N，IRFP264，IRFP264N，IRFP350，IRFP360，IRFP450，IRFP450LC，I RFP460，IRFP460A，IRFP460LC，IRFP054N，IRFP064N，IRFBE30，IRF 520N，IRF634，IRF710，IRF720，IRF820，IRF4905L，IRF5303，IR2520D，IRFP240，IRFP9240，IRF610，IRF9610，IRF5210，IRFR024N，IRFR120N，IRFR220N，IRFR9024，IRFR420，IRFR5305，IRF7313，IRF7314，IRF741 3，IRFL9110，IRL3705，IRL3803，IRL3803S，IRFD110，IRFD9110，IRFD9220，IRFD220，IRFD120，IRFD9120，IRFU9120，IRF6216，IRF640NS，IRF3415，IRFB4310，IRF7210，IRF9530S，IRF7832，IRFP140N，IRFP44 8，IRFP2907，IRFP9140N，IRFPC50，IRFPC60，IRFBE30，IRFPE40，IR FPE50，IRFPF50，IRFPG50，IRFBC20，IRFBC30，IRFBC40，IRFBG20，IRFBG30，IRLML6302TR，IRLML2402TR，IRLML2502TR，IRLML2803TR，IRLML5103TR，IRLML5203TR，IRLML6401TR，IRLML6402TR，IRFB4710，IRFB4212，IRFB11N50A，IRFB38N20D，IRFB31N20D，STP60NF06，STP 75NF75，STP55NF06，2SK2645，IRF630B，IRF640B，IRF840B，FQPF2 N60C，FQP5N60C，FQF5N60C，SSS7N60B，FQPF8N60C，FQPF10N60 C，FQPF12N60C，FYP2010DNTU，FQP50N06，FGA15N120ANTDTU，FGA25N120ANTDTU。

ASCII码表_全_完整版ASCII码表ASCII值控制字符ASCII值控制字符ASCII值控制字符ASCII值控制字符0NUL32(space)64@96、1SOH33！65A97a2STX34”66B98b3ETX35#67C99c4EOT36$68D100d5ENQ37%69E101e6ACK38&70F102f7BEL39'71G103g8BS40(72H104h9HT41)73I105i10LF42*74J106j11VT43+75K107k12FF44,76L108l13CR45-77M109m14SO46.78N110n15SI47/79O111o16DLE48080P112p17DCI49181Q113q18DC250282R114r19DC351383X115s20DC452484T116t21NAK53585U117u22SYN54686V118v23TB55787W119w24CAN56888X120x25EM57989Y121y26SUB58:90Z122z27ESC59;91[123{28FS60< 92\124|29GS61=93]125}30RS62> 94^126~31US63?95—127DELASCII诠释部分1.ASCII中的0~31为控制字符；32~126为打印字符；127为Delete(删除)命令。

下表为控制字符释义。

⼗进制⼗六进制字符⼗进制⼗六进制字符000空1610数据链路转意101头标开始1711设备控制 1202正⽂开始1812设备控制 2303正⽂结束1913设备控制 3404传输结束2014设备控制 4505查询2115反确认606确认2216同步空闲707震铃2317传输块结束808backspace2418取消909⽔平制表符2519媒体结束100A换⾏/新⾏261A替换110B竖直制表符271B转意120C换页/新页281C⽂件分隔符130D回车291D组分隔符140E移出301E记录分隔符150F移⼊311F单元分隔符2.ASCII扩展字符——（为了适应更多字符）128~255，或者-128~-1,其中，-128对应128，依次递增对应。

1200AP40 1200AP60、1203P60200D6、203D6 DAP8A 可互代203D6/1203P6 DAP8A2S0680 2S08803S0680 3S08805S0765 DP104、DP7048S0765C DP704加24V的稳压二极管ACT4060 ZA3020LV/MP1410/MP9141ACT4065 ZA3020/MP1580ACT4070 ZA3030/MP1583/MP1591MP1593/MP1430 ACT6311 LT1937ACT6906 LTC3406/AT1366/MP2104AMC2576 LM2576AMC2596 LM2596AMC3100 LTC3406/AT1366/MP2104AMC34063A AMC34063AMC7660 AJC1564AP8012 VIPer12AAP8022 VIPer22ADAP02 可用SG5841 /SG6841代换DAP02ALSZ SG6841DAP02ALSZ SG6841DAP7A、DP8A 203D6、1203P6DH321、DL321 Q100、DM0265RDM0465R DM/CM0565RDM0465R/DM0565R 用cm0565r代换（取掉4脚的稳压二极管）DP104 5S0765DP704 5S0765DP706 5S0765DP804 DP904FAN7601 LAF0001LD7552 可用SG6841代（改4脚电阻）LD7575PS 203D6改1脚100K电阻为24KOB2268CP OB2269CPOB2268CP SG6841改4脚100K电阻为20-47KOCP1451 TL1451/BA9741/SP9741/AP200OCP2150 LTC3406/AT1366/MP2104OCP2160 LTC3407OCP2576 LM2576OCP3601 MB3800OCP5001 TL5001OMC2596 LM2596/AP1501PT1301 RJ9266PT4101 AJC1648/MP3202PT4102 LT1937/AJC1896/AP1522/RJ9271/MP1540SG5841SZ SG6841DZ/SG6841DSM9621 RJ9621/AJC1642SP1937 LT1937/AJC1896/AP1522/RJ9271/MP1540STR-G5643D STR-G5653D、STR-G8653DTEA1507 TEA1533TEA1530 TEA1532对应引脚功能接入THX202H TFC719THX203H TFC718STOP246Y TOP247YVA7910 MAX1674/75 L6920 AJC1610VIPer12A VIPer22A[audio01]ICE2A165(1A/650V.31W);ICE2A265(2A/650V.52W);ICE2B0565(0.5A/650V.23W):ICE2B165(1A/650V.31W);ICE2B265(2A/650V.52W);ICE2A180(1A/800V.29W);ICE2A280(2A/800.50W).KA5H0365R, KA5M0365R, KA5L0365R, KA5M0365RN# u) t! u1 W1 B) R, PKA5L0365RN, KA5H0380R, KA5M0380R, KA5L0380R1、KA5Q1265RF/RT（大小两种体积）、KA5Q0765、FSCQ1265RT、KACQ1265RF、FSCQ0765RT、FSCQ1565Q这是一类的，这些型号的引脚功能全都一样，只是输出功率不一样。

常用晶体管参数查询Daten ohne Gewahr2N109 GE-P 35V 0.15A 0.165W | 2N1304 GE-N 25V 0.3A 0.15W 10MHz 2N1305 GE-P 30V 0.3A 0.15W 5MHz | 2N1307 GE-P 30V 0.3A 0.15W B>602N1613 SI-N 75V 1A 0.8W 60MHz | 2N1711 SI-N 75V 1A 0.8W 70MHz2N1893 SI-N 120V 0.5A 0.8W | 2N2102 SI-N 120V 1A 1W <120MHz2N2148 GE-P 60V 5A 12.5W | 2N2165 SI-P 30V 50mA 0.15W 18MHz 2N2166 SI-P 15V 50mA 0.15W 10MHz | 2N2219A SI-N 40V 0.8A 0.8W 250MHz 2N2222A SI-N 40V 0.8A 0.5W 300MHz | 2N2223 2xSI-N 100V 0.5A 0.6W >50 2N2223A 2xSI-N 100V 0.5A 0.6W >50 | 2N2243A SI-N 120V 1A 0.8W 50MHz2N2369A SI-N 40V 0.2A .36W 12/18ns | 2N2857 SI-N 30V 40mA 0.2W >1GHz2N2894 SI-P 12V 0.2A 1.2W 60/90ns | 2N2905A SI-P 60V 0.6A 0.6W 45/100 2N2906A SI-P 60V 0.6A 0.4W 45/100 | 2N2907A SI-P 60V 0.6A 0.4W 45/100 2N2917 SI-N 45V 0.03A >60Mz | 2N2926 SI-N 25V 0.1A 0.2W 300MHz 2N2955 GE-P 40V 0.1A 0.15W 200MHz | 2N3019 SI-N 140V 1A 0.8W 100MHz2N3053 SI-N 60V 0.7A 5W 100MHz | 2N3054 SI-N 90V 4A 25W 3MHz2N3055 SI-N 100V 15A 115W 800kHz | 2N3055 SI-N 100V 15A 115W 800kHz 2N3055H SI-N 100V 15A 115W 800kHz | 2N3251 SI-P 50V 0.2A 0.36W2N3375 SI-N 40V 0.5A 11.6W 500MHz | 2N3439 SI-N 450V 1A 10W 15MHz2N3440 SI-N 300V 1A 10W 15MHz | 2N3441 SI-N 160V 3A 25W POWER2N3442 SI-N 160V 10A 117W 0.8MHz | 2N3495 SI-P 120V 0.1A 0.6W >150MHz 2N3502 SI-P 45V 0.6A 0.7W 200MHz | 2N3553 SI-N 65V 0.35A 7W 500MHz2N3571 SI-N 30V 0.05A 0.2W 1.4GHz | 2N3583 SI-N 250/175V 2A 35W >10MHz 2N3632 SI-N 40V 0.25A 23W 400MHz | 2N3646 SI-N 40V 0.2A 0.2W2N3700 SI-N 140V 1A 0.5W 200MHz | 2N3707 SI-N 30V 0.03A 0.36W 100MHz 2N3708 SI-N 30V 0.03A 0.36W 80MHz | 2N3716 SI-N 100V 10A 150W 4MHz2N3725 SI-N 80V 0.5A 1W 35/60ns | 2N3740 SI-P 60V 4A 25W >4MHz2N3741 SI-N 80V 4A 25W >4MHz | 2N3742 SI-N 300V 0.05A 1W >30MHz 2N3767 SI-N 100V 4A 20W >10MHz | 2N3771 SI-N 50V 30A 150W POWER2N3772 SI-N 100V 20A 150W POWER | 2N3773 SI-N 160V 16A 150W POWER2N3792 SI-P 80V 10A 150W 4MHz | 2N3819 N-FET 25V 20mA 0.36W2N3820 P-FET 20V 15mA 0.36W | 2N3821 N-FET 50V 2.5mA 0.3W2N3824 N-FET 50V 10mA 0.3W <250E | 2N3866 SI-N 55V 0.4A 1W 175MHz2N3904 SI-N 60V 0.2A .35W 300MHz | 2N3906 SI-P 40V 0.2A .35W 250MHz 2N3909 P-FET 20V 10MA 0.3W | 2N3958 N-FET 50V 5mA 0.25W2N3963 SI-P 80V 0.2A 0.36W >40MHz | 2N3972 N-FET 40V 50mA 1.8W2N4001 SI-N 100V 1A 15W 40MHz | 2N4033 SI-P 80V 1A 0.8W 150MHz2N4036 SI-P 90V 1A 1W 60MHz | 2N409 GE-P 13V 15mA 80mW 6.8MHz 2N4126 SI-P 25V 200mA HF | 2N4220 N-FET 30V 0.2A2N4236 SI-P 80V 3A 1W >3MHz | 2N427 GE-P 30V 0.4A 0.15W B>402N428 GE-P 30V 0.4A 0.15W B>60 | 2N4286 SI-N 30V 0.05A 0.25W2N4287 SI-N 45V 0.1A 0.25W 40MHz | 2N4291 SI-P 40V 0.2A 0.25W 150MH2N4302 N-FET 30V 0.5mA 0.3W | 2N4347 SI-N 140V 5A 100W 0.8MHz2N4348 SI-N 140V 10A 120W >0.2MHz | 2N4351 N-FET 30V 30mA 0.3W 140KHz2N4391 N-FET 40V 50mA 30E Up<10V | 2N4392 N-FET 40V 25mA 60E Up<5V2N4393 N-FET 40V 5mA 100E Up<3V | 2N4401 SI-N 60V 0.6A 200MHz2N4403 SI-P 40V 0.6A 200MHz | 2N4416 N-FET 30V 15mA VHF/UHF2N4420 SI-N 40V 0.2A 0.36W | 2N4427 SI-N 40V 0.4A 1W 175MHz2N4906 SI-P 80V 5A 87.5W >4MHz | 2N4920 SI-P 80V 1A 30W2N4923 SI-N 80V 1A 30W | 2N5038 SI-N 150V 20A 140W 0.5us2N5090 SI-N 55V 0.4A 4W 5mA | 2N5109 SI-N 40V 0.5A 2.5W 1.5GHz2N5116 P-FET 30V 5mA 150E Up<4V | 2N5154 SI-N 100V 2A 10W2N5179 SI-N 20V 50mA 0.2W >1GHz | 2N5192 SI-N 80V 4A 40W 2MHz2N5240 SI-N 375V 5A 100W >2MHz | 2N5298 SI-N 80V 4A 36W >0.8MHz2N5308 N-DARL 40V 0.3A 0.4W B>7K | 2N5320 SI-N 100V 2A 10W AFSWITCH2N5322 SI-P 100V 2A 10W AFSWITCH | 2N5401 SI-P 160V 0.6A 0.31W2N5416 SI-P 350V 1A 10W 15MHz | 2N5433 N-FET 25V 0.4A 0.3W 7E2N5457 N-FET 25V 1mA Up<6V | 2N5458 N-FET 25V 2.9mA UNI2N5460 P-FET 40V 5mA Up<6V GEN.P | 2N5461 P-FET 40V 9mA 0.31W2N5462 P-FET 40V 16mA Up<9V GEN. | 2N5484 N-FET 25V 5mA 0.31W2N5485 P-FET 25V 4mA Up<4V | 2N5551 SI-N 180V 0.6A 0.31W VID.2N5589 SI-N 36V 0.6A 3W 175MHz | 2N5639 N-FET 30V 10mA 310mW2N5672 SI-N 150V 30A 140W 0.5us | 2N5680 SI-P 120V 1A 1W2N5682 SI-N 120V 1A 1W >30MHz | 2N5684 SI-P 80V 50A 200W2N5686 SI-N 80V 50A 300W >2MHz | 2N5770 SI-N 30V 0.05A 0.7W >900MHz 2N5771 SI-P 15V 50mA 625mW >850MHz | 2N5876 SI-P 80V 10A 150W >4MHz2N5878 SI-N 80V 10A 150W >4MHz | 2N5879 SI-N 60V 10A 150W >4MHz2N5884 SI-P 80V 25A 200W AFPOWSW | 2N5886 SI-N 80V 25A 200W >4MHz2N6031 SI-P 140V 16A 200W 1MHz | 2N6050 P-DARL+D 60V 12A 100W2N6059 SI-N 100V 12A 150W | 2N6083 SI-N 36V 5A PQ=30W 175MHz2N6098 SI-N 70V 10A 75W AFPOWSWITCH | 2N6099 SI-N 70V 10A 75W AFPOWSWITCH 2N6109 SI-P 60V 7A 40W 10MHz | 2N6124 SI-P 45V 4A 40W2N6211 SI-P 275V 2A 20W 20MHz | 2N6213 SI-P 400V 2A 35W >20MHz2N6248 SI-P 110V 15A 125W >6MHz | 2N6284 N-DARL 100V 20A 160W B>752N6287 P-DARL 100V 20A 160W | 2N6292 SI-N 80V 7A 40W2N6356 N-DARL 50V 20A 150W B>150 | 2N6422 SI-P 500V 2A 35W >10MHz2N6427 N-DARL 40V 0.5A 0.625W | 2N6476 SI-P 130V 4A 16W 5MHz2N6488 SI-N 90V 15A 75W | 2N6491 SI-P 90V 15A 30W2N6517 SI-N 350V 0.5A 0.625W >40 | 2N6520 SI-P 350V 0.5A 0.625W >402N6547 SI-N 850/400V 15A 175W | 2N6556 SI-P 100V 1A 10W >75MHz2N6609 SI-P 160V 16A 150W 2MHz | 2N6660 N-FET 60V 2A 6.25W 3E2N6661 N-FET 90V 2A 6.2W 4E | 2N6675 SI-N 400V 15A2N6678 SI-N 400V 15A | 2N6716 SI-N 60V 2A 2W 50MHz2N6718 SI-N 100V 2A 2W 50MHz | 2N6725 N-DARL 60V 2A 1W B>15K2N6728 SI-P 60V 2A 2W >50MHz | 2N697 SI-N 60V 1A 0.6W <50MHz2N7002 N-FET 60V 0.115A 0.2W 7E5 | 2N914 SI-N 40V 0.5A <40/40NS SW 2N918 SI-N 30V 50mA 0.2W 600MHz | 2SA1006B SI-P 250V 1.5A 25W 80MHz2SA1009 SI-P 350V 2A 15W | 2SA1011 SI-P 160V 1.5A 25W 120MHz 2SA1013 SI-P 160V 1A 0.9W 50MHz | 2SA1015 SI-P 50V 0.15A 0.4W 80MHz 2SA1016 SI-P 100V 0.05A 0.4W 110MHz | 2SA1017 SI-P 120V 50mA 0.5W 110MHz 2SA1018 SI-P 250V 70mA 0.75W >50MHz | 2SA1020 SI-P 50V 2A 0.9W 100MHz2SA1027 SI-P 50V 0.2A 0.25W 100MHz | 2SA1029 SI-P 30V 0.1A 0.2W 280MHz 2SA1034 SI-P 35V 50mA 0.2W 200MHz | 2SA1037 SI-P 50V 0.4A 140MHz FR 2SA1048 SI-P 50V 0.15A 0.2W 80MHz | 2SA1049 SI-P 120V 0.1A 0.2W 100MHz 2SA1061 SI-P 100V 6A 70W 15MHz | 2SA1062 SI-N 120V 7A 80W 15MHz2SA1065 SI-P 150V 10A 120W 50MHz | 2SA1084 SI-P 90V 0.1A 0.4W 90MHz2SA1103 SI-P 100V 7A 70W 20MHz | 2SA1106 SI-P 140V 10A 100W 20MHz2SA1110 SI-P 120V 0.5A 5W 250MHz | 2SA1111 SI-P 150V 1A 20W 200MHz2SA1112 SI-P 180V 1A 20W 200MHz | 2SA1115 SI-P 50V 0.2A 200MHz UNI2SA1120 SI-P 35V 5A 170MHz | 2SA1123 SI-P 150V 50mA 0.75W 200MHz 2SA1124 SI-P 150V 50mA 1W 200MHz | 2SA1127 SI-P 60V 0.1A 0.4W 200MHz 2SA1141 SI-P 115V 10A 100W 90MHz | 2SA1142 SI-P 180V 0.1A 8W 180MHz2SA1145 SI-P 150V 50mA 0.8W 200MHz | 2SA1150 SI-P 35V 0.8A 0.3W 120MHz 2SA1156 SI-P 400V 0.5A 10W POWER | 2SA1160 SI-P 20V 2A 0.9W 150MHz2SA1163 SI-P 120V 0.1A 100MHz | 2SA1170 SI-P 200V 17A 200W 20MHz2SA1185 SI-P 50V 7A 60W 100MHz | 2SA1186 SI-P 150V 10A 100W2SA1200 SI-P 150V 50mA 0.5W 120MHz | 2SA1201 SI-P 120V 0.8A 0.5W 120MHz 2SA1206 SI-P 15V 0.05A 0.6W | 2SA1207 SI-P 180V 70mA 0.6W 150MHz 2SA1208 SI-P 180V 0.07A 0.9W | 2SA1209 SI-P 180V 0.14A 10W2SA1210 SI-P 200V 0.14A 10W | 2SA1213 SI-P 50V 2A 0.5W 120MHz2SA1215 SI-P 160V 15A 150W 50MHz | 2SA1216 SI-P 180V 17A 200W 40MHz2SA1220A SI-P 120V 1.2A 20W 160MHz | 2SA1221 SI-P 160V 0.5A 1W 45MHz2SA1225 SI-P 160V 1.5A 15W 100MHz | 2SA1227A SI-P 140V 12A 120W 60MHz2SA1232 SI-P 130V 10A 100W 60MHz | 2SA1241 SI-P 50V 2A 10W 100MHz2SA1242 SI-P 35V 5A 1W 170MHz | 2SA1244 SI-P 60V 5A 20W 60MHz2SA1249 SI-P 180V 1.5A 10W 120MHz | 2SA1261 SI-P 100V 10A 60W POWER2SA1262 SI-P 60V 4A 30W 15MHz | 2SA1264N SI-P 120V 8A 80W 30MHz2SA1265N SI-P 140V 10A 100W 30MHz | 2SA1266 SI-P 50V 0.15A 0.4W POWER 2SA1268 SI-N 120V 0.1A 0.3W 100MHz | 2SA1270 SI-P 35V 0.5A 0.5W 200MHz 2SA1271 SI-P 30V 0.8A 0.6W 120MHz | 2SA1275 SI-P 160V 1A 0.9W 20MHz2SA1282 SI-P 20V 2A 0.9W 80MHz | 2SA1283 SI-P 60V 1A 0.9W 85MHz2SA1286 SI-P 30V 1.5A 0.9W 90MHz | 2SA1287 SI-P 50V 1A 0.9W 90MHz2SA1292 SI-P 80V 15A 70W 100MHz | 2SA1293 SI-P 100V 5A 30W 0.2us2SA1294 SI-P 230V 15A 130W | 2SA1295 SI-P 230V 17A 200W 35MHz2SA1296 SI-P 20V 2A 0.75W 120MHz | 2SA1298 SI-P 30V 0.8A 0.2W 120MHz 2SA1300 SI-P 10V 2A 0.75W 140MHz | 2SA1302 SI-P 200V 15A 150W 25MHz2SA1303 SI-P 150V 14A 125W 50MHz | 2SA1306 SI-P 160V 1.5A 20W2SA1306A SI-P 180V 1.5A 20W 100MHz | 2SA1307 SI-P 60V 5A 20W 0.1us2SA1309 SI-P 30V 0.1A 0.3W 80MHz | 2SA1310 SI-P 60V 0.1A 0.3W 200MHz 2SA1315 SI-P 80V 2A 0.9W 0.2us | 2SA1316 SI-P 80V 0.1A 0.4W 50MHz2SA1317 SI-P 60V 0.2A 0.3W 200MHz | 2SA1318 SI-P 60V 0.2A 0.5W 200MHz 2SA1319 SI-P 180V 0.7A 0.7W 120MHz | 2SA1321 SI-P 250V 50mA 0.9W 100MHz 2SA1328 SI-P 60V 12A 40W 0.3us | 2SA1329 SI-P 80V 12A 40W 0.3us2SA1345 SI-N 50V 0.1A 0.3W 250MHz | 2SA1346 SI-P 50V 0.1A 200MHz2SA1348 SI-P 50V 0.1A 200MHz | 2SA1349 P-ARRAY 80V 0.1A 0.4W 170 2SA1352 SI-P 200V 0.1A 5W 70MHz | 2SA1357 SI-P 35V 5A 10W 170MHz2SA1358 SI-P 120V 1A 10W 120MHz | 2SA1359 SI-P 40V 3A 10W 100MHz2SA1360 SI-P 150V 50mA 5W 200MHz | 2SA1361 SI-P 250V 50mA 80MHz2SA1370 SI-P 200V 0.1A 1W 150MHz | 2SA1371E SI-P 300V 0.1A 1W 150MHz2SA1376 SI-P 200V 0.1A 0.75W 120MHz | 2SA1380 SI-P 200V 0.1A 1.2W2SA1381 SI-P 300V 0.1A 150MHz | 2SA1382 SI-P 120V 2A 0.9W 0.2us2SA1383 SI-P 180V 0.1A 10W 180MHz | 2SA1386 SI-P 160V 15A 130W 40MHz2SA1387 SI-P 60V 5A 25W 80MHz | 2SA1392 SI-P 60V 0.2A 0.4W 200MHz 2SA1396 SI-P 100V 10A 30W | 2SA1399 SI-P 55V 0.4A 0.9W 150MHz 2SA1400 SI-P 400V 0.5A 10W | 2SA1403 SI-P 80V 0.5A 10W 800MHz2SA1405 SI-P 120V 0.3A 8W 500MHz | 2SA1406 SI-P 200V 0.1A 7W 400MHz2SA1407 SI-P 150V 0.1A 7W 400MHz | 2SA1413 SI-P 600V 1A 10W 26MHz2SA1428 SI-P 50V 2A 1W 100MHz | 2SA1431 SI-P 35V 5A 1W 170MHz2SA1441 SI-P 100V 5A 25W <300ns | 2SA1443 SI-P 100V 10A 30W2SA1450 SI-P 100V 0.5A 0.6W 120MHz | 2SA1451 SI-P 60V 12A 30W 70MHz2SA1460 SI-P 60V 1A 1W <40NS | 2SA1470 SI-P 80V 7A 25W 100MHz2SA1475 SI-P 120V 0.4A 15W 500MHz | 2SA1476 SI-P 200V 0.2A 15W 400MHz 2SA1477 SI-P 180V 0.14A 10W 150MHz | 2SA1488 SI-P 60V 4A 25W 15MHz2SA1489 SI-P 80V 6A 60W 20MHz | 2SA1490 SI-P 120V 8A 80W 20MHz2SA1491 SI-P 140V 10A 100W 20MHz | 2SA1494 SI-P 200V 17A 200W 20MHz2SA1507 SI-P 180V 1.5A 10W 120MHz | 2SA1515 SI-P 40V 1A 0.3W 150MHz2SA1516 SI-P 180V 12A 130W 25MHz | 2SA1519 SI-P 50V 0.5A 0.3W 200MHz 2SA1535A SI-P 180V 1A 40W 200MHz | 2SA1538 SI-P 120V 0.2A 8W 400MHz2SA1539 SI-P 120V 0.3A 8W 400MHz | 2SA1540 SI-P 200V 0.1A 7W 300MHz2SA1541 SI-P 200V 0.2A 7W 300MHz | 2SA1553 SI-P 230V 15A 150W 25MHz2SA1566 SI-N 120V 0.1A 0.15W 130MHz | 2SA1567 SI-P 50V 12A 35W 40MHz2SA1568 SI-P 60V 12A 40W | 2SA1577 SI-P 32V 0.5A 0.2W 200MHz 2SA1593 SI-P 120V 2A 15W 120MHz | 2SA1601 SI-P 60V 15A 45W2SA1606 SI-P 180V 1.5A 15W 100MHz | 2SA1615 SI-P 30V 10A 15W 180MHz2SA1624 SI-P 300V 0.1A 0.5W 70MHz | 2SA1625 SI-P 400V 0.5A 0.75W2SA1626 SI-P 400V 2A 1W 0.5/2.7us | 2SA1633 SI-P 150V 10A 100W 20MHz2SA1643 SI-P 50V 7A 275MHz 5W | 2SA1667 SI-P 150V 2A 25W 20MHz2SA1668 SI-P 200V 2A 25W 20MHz | 2SA1670 SI-P 80V 6A 60W 20MHz2SA1671 SI-P 120/120V 8A 75W 20MHz | 2SA1672 SI-P 140V 10A 80W 20MHz2SA1673 SI-P 180V 15A 85W 20MHz | 2SA1680 SI-P 60V 2A 0.9W 100/400ns 2SA1684 SI-P 120V 1.5A 20W 150MHz | 2SA1694 SI-P 120/120V 8A 80W 20MHz 2SA1695 SI-P 140V 10A 80W 20MHz | 2SA1703 SI-P 30V 1.5A 1W 180MHz2SA1726 SI-P 80V 6A 50W 20MHz | 2SA1776 SI-P 400V 1A 1W2SA1803 SI-P 80V 6A 55W 30MHz | 2SA1837 SI-P 230V 1A 20W 70MHz2SA1930 SI-P 180V 2A 20W 200MHz | 2SA1962 SI-P 230V 15A 130W 25MHz2SA329 GE-P 15V 10mA 0.05W | 2SA467 SI-P 40V 0,4A 0,3W2SA473 SI-P 30V 3A 10W 100MHz | 2SA483 SI-P 150V 1A 20W 9MHz2SA493 SI-P 50V 0.05A 0.2W 80MHz | 2SA495 SI-P 35V 0.1A 0.2W 200MHz2SA562 SI-P 30V 0.5A 0.5W 200MHz | 2SA566 SI-P 100V 0.7A 10W 100MHz 2SA608 SI-N 40V 0.1A 0.1W 180MHz | 2SA614 SI-P 80V 1A 15W 30MHz2SA620 SI-P 30V 0.05A 0.2W 120MHz | 2SA626 SI-P 80V 5A 60W 15MHz2SA628 SI-P 30V 0.1A 100MHz | 2SA639 SI-P 180V 50mA 0,25W2SA642 SI-P 30V 0.2A 0.25W 200MHz | 2SA643 SI-P 40V 0.5A 0.5W 180MHz 2SA653 SI-P 150V 1A 15W 5MHz | 2SA684 SI-P 60V 1A 1W 200MHz2SA699 SI-P 40V 2A 10W 150MHz | 2SA708A SI-P 100V 0.7A 0.8W 50MHz 2SA720 SI-P 60V 0.5A 0.6W 200MHz | 2SA725 SI-P 35V 0.1A 0.15W 100MHz 2SA733 SI-P 60V 0.15A 0.25W 50MHz | 2SA738 SI-P 25V 1.5A 8W 160MHz2SA747 SI-P 120V 10A 100W 15MHz | 2SA756 SI-P 100V 6A 50W 20MHz2SA762 SI-P 110V 2A 23W 80MHz | 2SA765 SI-P 80V 6A 40W 10MHz2SA768 SI-P 60V 4A 30W 10MHz | 2SA769 SI-P 80V 4A 30W 10MHz2SA770 SI-P 60V 6A 40W 10MHz | 2SA771 SI-P 80V 6A 40W 2MHz2SA777 SI-P 80V 0.5A 0.75W 120MHz | 2SA778A SI-P 180V 0.05A 0.2W 60MHz 2SA781 SI-P 20V 0.2A 0.2W <80/16 | 2SA794 SI-P 100V 0.5A 5W 120MHz2SA794A SI-P 120V 0.5A 5W 120MHz | 2SA812 SI-P 50V 0.1A 0.15W2SA814 SI-P 120V 1A 15W 30MHz | 2SA816 SI-P 80V 0.75A 1.5W 100MHz 2SA817 SI-P 80V 0.3A 0.6W 100MHz | 2SA817A SI-P 80V 0.4A 0.8W 100MHz 2SA836 SI-P 55V 0.1A 0.2W 100MHz | 2SA838 SI-P 30V 30mA 0.25W 300MHz 2SA839 SI-P 150V 1.5A 25W 6MHz | 2SA841 SI-P 60V 0.05A 0.2W 140MHz 2SA858 SI-P 150V 50mA 0.5W 100MHz | 2SA872 SI-P 90V 0.05A 0.2W 120MHz 2SA872A SI-P 120V 50mA 0.3W 120MHz | 2SA884 SI-P 65V 0.2A 0.27W 140MHz 2SA885 SI-P 45V 1A 5W 200MHz | 2SA886 SI-P 50V 1.5A 1.2W2SA893 SI-P 90V 50mA 0.3W | 2SA900 SI-P 18V 1A 1.2W2SA914 SI-P 150V 0.05A 200MHz | 2SA915 SI-P 120V 0.05A 0.8W 80MHz 2SA916 SI-P 160V 0.05A 1W 80MHz | 2SA921 SI-P 120V 20mA 0.25W 200MHz 2SA933 SI-P 50V 0.1A 0.3W | 2SA934 SI-P 40V 0.7A 0.75W2SA935 SI-P 80V 0.7A 0.75W 150MHz | 2SA937 SI-P 50V 0.1A 0.3W 140MHz 2SA940 SI-P 150V 1.5A 25W 4MHz | 2SA941 SI-P 120V 0.05A 0.3W 150MHz 2SA949 SI-P 150V 50mA 0.8W 120MHz | 2SA965 SI-P 120V 0.8A 0.9W 120MHz 2SA966 SI-P 30V 1.5A 0.9W 120MHz | 2SA968 SI-P 160V 1.5A 25W 100MHz 2SA970 SI-P 120V 0.1A 100MHz | 2SA982 SI-P 140V 8A 80W 20MHz2SA984 SI-P 60V 0.5A 0.5W 120MHz | 2SA985 SI-P 120V 1.5A 25W 180MHz 2SA988 SI-P 120V 0.05A 0.5W | 2SA991 SI-P 60V 0.1A 0.5W 90MHz2SA992 SI-P 100V 0.05A 0.2W | 2SA995 SI-P 100V 0.05A 0.4W 100MHz 2SB1009 SI-P 40V 2A 10W 100MHz | 2SB1010 SI-P 40V 2A 0.75W 100MHz2SB1012K P-DARL 120V 1.5A 8W | 2SB1013 SI-P 20V 2A 0.7W2SB1017 SI-P 80V 4A 25W 9MHz | 2SB1018 SI-P 100V 7A 30W 0.4us2SB1020 P-DARL+D 100V 7A 30W 0.8us | 2SB1023 P-DARL+D 60V 3A 20W B=5K2SB1035 SI-P 30V 1A 0.9W 100MHz | 2SB1039 SI-P 100V 4A 40W 20MHz2SB1050 SI-P 30V 5A 1W 120MHz | 2SB1055 SI-P 120V 6A 70W 20MHz2SB1065 SI-P 60V 3A 10W | 2SB1066 SI-P 50V 3A 1W 70MHz2SB1068 SI-P 20V 2A 0.75W 180MHz | 2SB1071 SI-P 40V 4A 25W 150MHz2SB1077 P-DARL 60V 4A 40W B>1K | 2SB1086 SI-P 160V 1.5A 20W 50MHz2SB1098 P-DARL+D 100V 5A 20W B=80 | 2SB1099 P-DARL+D 100V 8A 25W B=6K 2SB1100 P-DARL+D 100V 10A 30W B=6 | 2SB1109 SI-P 160V 0.1A 1.25W2SB1109S SI-P 160V 0.1A 1.25W | 2SB1117 SI-P 30V 3A 1W 280MHz2SB1120 SI-P 20V 2.5A 0.5W 250MHz | 2SB1121T SI-P 30V 2A 150MHz2SB1123 SI-P 60V 2A 0.5W 150MHz | 2SB1132 SI-P 40V 1A 0.5W 150MHz2SB1133 SI-P 60V 3A 25W 40MHz | 2SB1134 SI-P 60V 5A 25W 30W2SB1135 SI-P 60V 7A 30W 10MHz | 2SB1136 SI-P 60V 12A 30W 10MHz2SB1140 SI-P 25V 5A 10W 320MHz | 2SB1141 SI-P 20V 1.2A 10W 150MHz2SB1143 SI-P 60V 4A 10W 140MHz | 2SB1146 P-DARL 120V 6A 25W2SB1149 P-DARL 100V 3A 15W B=10K | 2SB1151 SI-P 60V 5A 20W2SB1154 SI-P 130V 10A 70W 30MHz | 2SB1156 SI-P 130V 20A 100W2SB1162 SI-P 160V 12A 120W | 2SB1163 SI-P 170V 15A 150W2SB1166 SI-P 60V 8A 20W 130MHz | 2SB1168 SI-P 120V 4A 20W 130MHz2SB1182 SI-P 40V 2A 10W 100MHz | 2SB1184 SI-P 60V 3A 15W 70MHz2SB1185 SI-P 50V 3A 25W 70MHz | 2SB1186 SI-P 120V 1.5A 20W 50MHz2SB1187 SI-P 80V 3A 35W | 2SB1188 SI-P 40V 2A 100MHz2SB1202 SI-P 60V 3A 15W 150MHz | 2SB1203 SI-P 60V 5A 20W 130MHz2SB1204 SI-P 60V 8A 20W 130MHz | 2SB1205 SI-P 25V 5A 10W 320MHz2SB1212 SI-P 160V 1.5A 0.9W 50MHz | 2SB1223 P-DARL+D 70V 4A 20W 20MHz 2SB1236 SI-P 120V 1.5A 1W 50MHz | 2SB1237 SI-P 40V 1A 1W 150MHz2SB1238 SI-P 80V 0.7A 1W 100MHz | 2SB1240 SI-P 40V 2A 1W 100MHz2SB1243 SI-P 60V 3A 1W | 2SB1254 P-DARL 160V 7A 70W2SB1255 P-DARL 160V 8A 100W B>5K | 2SB1258 P-DARL+D 100V 6A 30W B>1K 2SB1274 SI-P 60V 3A 30W 100MHz | 2SB1282 P-DARL+D 100V 4A 25W 50MHz 2SB1292 SI-P 80V 5A 30W | 2SB1302 SI-P 25V 5A 320MHz2SB1318 P-DARL+D 100V 3A 1W B>200 | 2SB1326 SI-P 30V 5A 0.3W 120MHz2SB1329 SI-P 40V 1A 1.2W 150MHz | 2SB1330 SI-P 32V 0.7A 1.2W 100MHz 2SB1331 SI-P 32V 2A 1.2W 100MHz | 2SB1353E SI-P 120V 1.5A 1.8W 50MHz 2SB1361 SI-P 150V 9A 100W 15MHz | 2SB1370 SI-P 60V 3A 30W 15MHz2SB1373 SI-P 160V 12A 2.5W 15MHz | 2SB1375 SI-P 60V 3A 25W 9MHz2SB1382 P-DARL+D 120V 16A 75W B>2 | 2SB1393 SI-P 30V 3A 2W 30MHz2SB1420 SI-P 120V 16A 80W 50MHz | 2SB1425 SI-P 20V 2A 1W 90MHz2SB1429 SI-P 180V 15A 150W 10MHz | 2SB1434 SI-P 50V 2A 1W 110MHz2SB1468 SI-P 60/30V 12A 25W | 2SB1470 P-DARL 160V 8A 150W B>5K2SB1490 P-DARL 160V 7A 90W B>5K | 2SB1493 P-DARL 160/140V 7A 70W 20 2SB1503 P-DARL 160V 8A 120W B>5K | 2SB1556 P-DARL 140V 8A 120W B>5K2SB1557 P-DARL 140V 7A 100W B>5K | 2SB1559 P-DARL 160V 8A 80W B>5K2SB1560 P-DARL 160V 10A 100W 50MHz | 2SB1565 SI-P 80V 3A 25W 15MHz2SB1587 P-DARL+D 160V 8A 70W B>5K | 2SB1624 P-DARL 110V 6A 60W B>5K2SB206 GE-P 80V 30A 80W | 2SB324 GE-P 32V 1A 0.25W2SB337 GE-P 50V 7A 30W LF-POWER | 2SB407 GE-P 30V 7A 30W2SB481 GE-P 32V 1A 6W 15KHz | 2SB492 GE-P 25V 2A 6W2SB511E SI-P 35V 1.5A 10W 8MHz | 2SB524 SI-P 60V 1.5A 10W 70MHz2SB527 SI-P 110V 0.8A 10W 70MHz | 2SB531 SI-P 90V 6A 50W 8MHz2SB536 SI-P 130V 1.5A 20W 40MHz | 2SB537 SI-P 130V 1.5A 20W 60MHz2SB541 SI-P 110V 8A 80W 9MHz | 2SB544 SI-P 25V 1A 0.9W 180MHz2SB546A SI-P 200V 2A 25W 5MHz | 2SB549 SI-P 120V 0.8A 10W 80MHz2SB557 SI-P 120V 8A 80W | 2SB560 SI-P 100V 0.7A 0.9W 100MHz 2SB561 SI-P 25V 0.7A 0.5W | 2SB564 SI-P 30V 1A 0.8W2SB598 SI-P 25V 1A 0.5W 180MHz | 2SB600 SI-P 200V 15A 200W 4MHz2SB601 P-DARL 100V 5A 30W | 2SB605 SI-P 60V 0.7A 0.8W 120MHz 2SB621 SI-N 25V 1.5A 0.6W 200MHz | 2SB621A SI-N 50V 1A 0.75W 200MHz2SB631 SI-P 100V 1A 8W | 2SB632 SI-P 25V 2A 10W 100MHz2SB633 SI-P 100V 6A 40W 15MHz | 2SB637 SI-P 50V 0.1A 0.3W 200MHz 2SB641 SI-P 30V 0.1A 120MHz | 2SB647 SI-P 120V 1A 0.9W 140MHz2SB649A SI-P 160V 1.5A 1W 140MHz | 2SB656 SI-P 160V 12A 125W 20MHz2SB673 P-DARL+D 100V 7A 40W 0.8us | 2SB676 P-DARL 100V 4A 30W 0.15us 2SB681 SI-N 150V 12A 100W 13MHz | 2SB688 SI-P 120V 8A 80W 10MHz2SB700 SI-P 160V 12A 100W | 2SB703 SI-P 100V 4A 40W 18MHz2SB705 SI-P 140V 10A 120W 17MHz | 2SB707 SI-P 80V 7A 40W POWER2SB709 SI-P 45V 0.1A 0.2W 80MHz | 2SB716 SI-P 120V 0.05A 0.75W2SB720 SI-P 200V 2A 25W 100MHz | 2SB727 P-DARL+D 120V 6A 50W B>1K 2SB731 SI-P 60V 1A 10W 75MHz | 2SB733 SI-P 20V 2A 1W >50MHz2SB734 SI-P 60V 1A 1W 80MHz | 2SB739 SI-P 20/16V 2A 0.9W 80MHz 2SB740 SI-P 70V 1A 0.9W | 2SB744 SI-P 70V 3A 10W 45MHz2SB750 P-DARL+D 60V 2A 35W B>100 | 2SB753 SI-P 100V 7A 40W 0.4us2SB764 SI-P 60V 1A 0.9A 150MHz | 2SB765 P-DARL+D 120V 3A 30W B>1K 2SB766 SI-P 30V 1A 200MHz | 2SB772 SI-P 40V 3A 10W 80MHz2SB774 SI-P 30V 0.1A 0.4W 150MHz | 2SB775 SI-P 100V 6A 60W 13MHz2SB776 SI-P 120V 7A 70W 15MHz | 2SB788 SI-P 120V 0.02A 0.4W 150MHz 2SB791 P-DARL+D 120V 8A 40W B>10 | 2SB794 P-DARL+D 60V 1.5A 10W B=7 2SB795 P-DARL+D 80V 1.5A 10W B<3 | 2SB808 SI-P 20V 0.7A 0.25W 250MHz 2SB810 SI-P 30V 0.7A 0.35W 160MHz | 2SB815 SI-P 20V 0.7A 0.25W 250MHz 2SB816 SI-P 150V 8A 80W 15MHz | 2SB817 SI-P 160V 12A 100W2SB817F SI-P 160V 12A 90W 15MHz | 2SB819 SI-P 50V 1.5A 1W 150MHz2SB822 SI-P 40V 2A 0.75W 100MHz | 2SB824 SI-P 60V 5A 30W 30 MHz2SB825 SI-P 60V 7A 40W 10MHz | 2SB826 SI-P 60V 12A 40W 10MHz2SB827 SI-P 60V 7A 80W 10MHz | 2SB828 SI-P 60V 12A 80W 10MHz2SB829 SI-P 60V 15A 90W 20MHz | 2SB857 SI-P 50V 4A 40W NF/S-L2SB861 SI-P 200V 2A 30W | 2SB863 SI-P 140V 10A 100W 15MHz2SB865 P-DARL 80V 1.5A 0.9W | 2SB873 SI-P 30V 5A 1W 120MHz2SB882 P-DARL+D 70V 10A 40W B>5K | 2SB883 P-DARL+D 70V 15A 70W B=5K 2SB884 P-DARL 110V 3A 30W B=4K | 2SB885 P-DARL+D 110V 3A 35W B=4K 2SB891 SI-P 40V 2A 5W 100MHz | 2SB892 SI-P 60V 2A 1W2SB895A P-DARL 60V 1A B=8000 | 2SB897 P-DARL+D 100V 10A 80W B>1 2SB908 P-DARL+D 80V 4A 15W 0.15us | 2SB909 SI-P 40V 1A 1W 150MHz2SB922 SI-P 120V 12A 80W 20MHz | 2SB926 SI-P 30V 2A 0.75W2SB938A P-DARL+D 60V 4A 40W B>1K | 2SB940 SI-P 200V 2A 35W 30MHz2SB941 SI-P 60V 3A 35W POWER | 2SB945 SI-P 130V 5A 40W 30MHz2SB946 SI-P 130V 7A 40W 30MHz | 2SB950A P-DARL+D 80V 4A 40W B>1K2SB953A SI-P 50V 7A 30W 150MHz | 2SB955 P-DARL+D 120V 10A 50W B=4 2SB975 P-DARL+D 100V 8A 40W B>6K | 2SB976 SI-P 27V 5A 0.75W 120MHz2SB985 SI-P 60V 3A 1W 150MHz | 2SB986 SI-P 60V 4A 10W 150MHz2SB988 SI-P 60V 3A 30W <400/2200 | 2SC1000 SI-N 55V 0.1A 0.2W 80MHz2SC1008 SI-N 80V 0.7A 0.8W 75MHz | 2SC1012A SI-N 250V 60mA 0.75W >80MHz 2SC1014 SI-N 50V 1.5A 7W | 2SC1017 SI-N 75V 1A 60mW 120MHz2SC1030 SI-N 150V 6A 50W | 2SC1046 SI-N 1000V 3A 25W2SC1047 SI-N 30V 20mA 0.4W 650MHz | 2SC1050 SI-N 300V 1A 40W2SC1051 SI-N 150V 7A 60W 8MHz | 2SC1061 SI-N 50V 3A 25W 8MHz=H106 2SC1070 SI-N 30V 20mA 900MHz | 2SC1080 SI-N 110V 12A 100W 4MHz2SC109 SI-N 50V 0.6A 0.6W | 2SC1096 SI-N 40V 3A 10W 60MHz2SC1106 SI-N 350V 2A 80W | 2SC1114 SI-N 300V 4A 100W 10MHz2SC1115 SI-N 140V 10A 100W 10MHz | 2SC1116 SI-N 180V 10A 100W 10MHz2SC1161 SI-P 160V 12A 120W | 2SC1162 SI-N 35V 1.5A 10W 180MHz2SC1172 SI-N 1500V 5A 50W | 2SC1195 SI-N 200V 2.5A 100W2SC1213C SI-N 50V 0.5A 0.4W UNI | 2SC1214 SI-N 50V 0.5A 0.6W 50MHz2SC1215 SI-N 30V 50mA 0.4W 1.2GHZ | 2SC1216 SI-N 40V 0.2A 0.3W <20/40 2SC1226 SI-N 40/50V 2A 10W 150MHz | 2SC1238 SI-N 35V 0.15A 5W 1.7GHz2SC1247A SI-N 50V 0.5A 0.4W 60MHz | 2SC1308 SI-N 1500V 7A 50W2SC1312 SI-N 35V 0.1A 0.15W 100MHz | 2SC1318 SI-N 60V 0.5A 0.6W 200MHz 2SC1343 SI-N 150V 10A 100W 14MHz | 2SC1345 SI-N 55V 0.1A 0.1W 230MHz 2SC1359 SI-N 30V 30mA 0.4W 250MHz | 2SC1360 SI-N 50V 0.05A 1W >300MHz 2SC1362 SI-N 50V 0.2A 0.25W 140MHz | 2SC1368 SI-N 25V 1.5A 8W 180MHz2SC1382 SI-N 80V 0.75A 5W 100MHz | 2SC1384 SI-N 60V 1A 1W 200MHz2SC1393 SI-N 30V 20mA 250 mW 700MHz | 2SC1398 SI-N 70V 2A 15W2SC1413A SI-N 1200V 5A 50W | 2SC1419 SI-N 50V 2A 20W 5MHz2SC1426 SI-N 35V 0.2A 2.7GHz | 2SC1431 SI-N 110V 2A 23W 80MHz2SC1432 N-DARL 30V 0.3A 0.3W B=40 | 2SC1439 SI-N 150V 50mA 0.5W 130MHz 2SC1445 SI-N 100V 6A 40W 10MHz | 2SC1446 SI-N 300V 0.1A 10W 55MHz2SC1447 SI-N 300V 0.15A 20W 80MHz | 2SC1448 SI-N 150V 1.5A 25W 3MHz2SC1449 SI-N 40V 2A 5W 60MHz | 2SC1450 SI-N 150V 0.4A 20W2SC1454 SI-N 300V 4A 50W 10MHz | 2SC1474-4 SI-N 20V 2A 0.75W 80MHz2SC1501 SI-N 300V 0.1A 10W 55MHz | 2SC1505 SI-N 300V 0.2A 15W2SC1507 SI-N 300V 0.2A 15W 80MHz | 2SC1509 SI-N 80V 0.5A 1W 120MHz2SC1515 SI-N 200V 0.05A 0.2W 110MHz | 2SC1520 SI-N 300V 0.2A 12,5W2SC1545 N-DARL 40V 0.3A 0.3W B=1K | 2SC1567 SI-N 100V 0.5A 5W 120MHz2SC1570 SI-N 55V 0.1A 0.2W 100MHz | 2SC1571 SI-N 40V 0.1A 0.2W 100MHz 2SC1573 SI-N 200V 0.1A 1W 80MHz | 2SC1577 SI-N 500V 8A 80W 7MHz2SC1583 SI-N 50V 0.1A 0.4W 100MHz | 2SC1619 SI-N 100V 6A 50W 10MHz2SC1623 SI-N 60V 0.1A 0.2W 250MHz | 2SC1624 SI-N 120V 1A 15W 30MHz2SC1627 SI-N 80V 0.4A 0.8W 100MHz | 2SC1674 SI-N 30V .02A 600MC RF/IF2SC1675 SI-N 50V .03A 0.25W | 2SC1678 SI-N 65V 3A 3W2SC1685 SI-N 60V 0.1A 150MC UNI | 2SC1688 SI-N 50V 30mA 0.4W 550MHz 2SC1708A SI-N 120V 50mA 0.2W 150MHz | 2SC1729 SI-N 35V 3.5A 16W 500MHz2SC1730 SI-N 30V 0.05A 1.1GHz UHF | 2SC1740 SI-N 40V 100mA 0.3W2SC1741 SI-N 40V 0.5A 0.3W 250MHz | 2SC1756 SI-N 300V 0.2A >50MHz2SC1760 SI-N 100V 1A 7.9W 80MHz | 2SC1775A SI-N 120V 0.05A 0.2W UNI2SC1781 SI-N 50V 0.5A 0.35W | 2SC1815 SI-N 50V 0.15A 0.4W 80MHz 2SC1815BL SI-N 60V 0.15A 0.4W B>350 | 2SC1815GR SI-N 60V 0.15A 0.4W B>200 2SC1815Y SI-N 60V 0.15A 0.4W B>120 | 2SC1827 SI-N 100V 4A 30W 10MHz2SC1832 N-DARL 500V 15A 150W B>10 | 2SC1841 SI-N 120V 0.05A 0.5W2SC1844 SI-N 60V 0.1A 0.5W 100MHz | 2SC1845 SI-N 120V 0.05A 0.5W2SC1846 SI-N 120V 0.05A 0.5W | 2SC1847 SI-N 50V 1.5A 1.2W2SC1855 SI-N 20V 20mA 0.25W 550MHz | 2SC1871 SI-N 450V 15A 150W <1/3us 2SC1879 N-DARL+D 120V 2A 0.8W B>1 | 2SC1890 SI-N 90V 0.05A 0.3W 200MHz 2SC1895 SI-N 1500V 6A 50W 2MHz | 2SC1906 SI-N 19V 0.05A 0.3W2SC1907 SI-N 30V 0.05A 1100MHz | 2SC1913 SI-N 150V 1A 15W 120MHz2SC1914 SI-N 90V 50mA 0.2W 150MHz | 2SC1921 SI-N 250V 0.05A 0.6W2SC1922 SI-N 1500V 2.5A 50W | 2SC1923 SI-N 30V 20mA 10mW 550MHz 2SC1929 SI-N 300V 0.4A 25W 80MHz | 2SC1941 SI-N 160V 50mA 0.8W2SC1944 SI-N 80V 6A PQ=16W | 2SC1945 SI-N 80V 6A 20W2SC1946A SI-N 35V 7A 50W | 2SC1947 SI-N 35V 1A 4W/175MHz2SC1953 SI-N 150V 0.05A 1.2W 70MHz | 2SC1957 SI-N 40V 1A 1.8W/27MHz2SC1959 SI-N 30V 0.5A 0.5W 200MHz | 2SC1967 SI-N 35V 2A 8W 470MHz2SC1968 SI-N 35V 5A 3W 470MHz | 2SC1969 SI-N 60V 6A 20W2SC1970 SI-N 40V 0.6A 5W | 2SC1971 SI-N 35V 2A 12.5W2SC1972 SI-N 35V 3.5A 25W | 2SC1975 SI-N 120V 2A 3.8W 50MHz2SC1980 SI-N 120V 20mA 0.25W 200MHz | 2SC1984 SI-N 100V 3A 30W B=7002SC1985 SI-N 80V 6A 40W 10MHz | 2SC2023 SI-N 300V 2A 40W 10MHz2SC2026 SI-N 30V 0.05A 0.25W | 2SC2027 SI-N 1500/800V 5A 50W2SC2036 SI-N 80V 1A PQ=1..4W | 2SC2053 SI-N 40V 0.3A 0.6W 500MHz 2SC2055 SI-N 18V 0,3A 0,5W | 2SC2058 SI-N 40V 0.05A 0.25W2SC2060 SI-N 40V 0.7A 0.75W 150MHz | 2SC2061 SI-N 80V 1A 0.75W 120MHz2SC2068 SI-N 300V 0.05A 95MHz | 2SC2073 SI-N 150V 1.5A 25W 4MHz2SC2078 SI-N 80V 3A 10W 150MHz | 2SC2086 SI-N 75V 1A 0.45W/27MHz2SC2092 SI-N 75V 3A 5W 27MHz | 2SC2094 SI-N 40V 3.5A PQ>15W 175MHz 2SC2097 SI-N 50V 15A PQ=85W | 2SC2120 SI-N 30V 0.8A 0.6W 120MHz 2SC2122 SI-N 800V 10A 50W | 2SC2166 SI-N 75V 4A 12.5W RFPOWER2SC2168 SI-N 200V 2A 30W 10MHz | 2SC2200 SI-N 500V 7A 40W 1US2SC2209 SI-N 50V 1.5A 10W 150MHz | 2SC2216 SI-N 45V 50mA 0.3W 300MHz 2SC2228 SI-N 160V 0.05A 0.75W >50 | 2SC2229 SI-N 200V 50mA 0.8W 120MHz 2SC2230 SI-N 200V 0.1A 0.8W 50MHz | 2SC2233 SI-N 200V 4A 40W 8MHz2SC2235 SI-N 120V 0.8A 0.9W 120MHz | 2SC2236 SI-N 30V 1.5A 0.9W 120MHz 2SC2237 SI-N 35V 2A PQ>7.5W 175MHz | 2SC2238 SI-N 160V 1.5A 25W 100MHz 2SC2240 SI-N 120V 50mA .3W 100MHz | 2SC2261 SI-N 180V 8A 80W 15MHz2SC2267 SI-N 400/360V 0.1A 0.4W | 2SC2270 SI-N 50V 5A 10W 100MHz2SC2271 SI-N 300V 0.1A 0.9W 50MHz | 2SC2275 SI-N 120V 1.5A 25W 200MHz 2SC2283 SI-N 38V 0.75A 2.8W(500MHz | 2SC2287 SI-N 38V 1.5A 7.1W 175MHz 2SC2295 SI-N 30V 0.03A 0.2W 250MHz | 2SC2307 SI-N 500V 12A 100W 18MHz2SC2308 SI-N 55V 0.1A 0.2W 230MHz | 2SC2310 SI-N 55V 0.1A 0.2W 230MHz 2SC2312 SI-N 60V 6A 18.5W/27MHz | 2SC2314 SI-N 45V 1A 5W2SC2320 SI-N 50V 0,2A 0,3W | 2SC2329 SI-N 38V 0.75A 2W 175MHz2SC2331 SI-N 150V 2A 15W POWER | 2SC2333 SI-N 500/400V 2A 40W2SC2334 SI-N 150V 7A 40W POWER | 2SC2335 SI-N 500V 7A 40W POWER2SC2336B SI-N 250V 1.5A 25W 95MHz | 2SC2344 SI-N 180V 1.5A 25W 120MHz 2SC2347 SI-N 15V 50mA 250mW 650MHz | 2SC2362 SI-N 120V 50mA 0.4W 130MHz 2SC2363 SI-N 120V 50mA 0.5W 130MHz | 2SC2365 SI-N 600V 6A 50W POWER2SC2369 SI-N 25V 70mA 0.25W 4.5GHz | 2SC2383 SI-N 160V 1A 0.9W 100MHz2SC2389 SI-N 120V 50mA 0.3W 140MHz | 2SC2407 SI-N 35V 0.15A 0.16W 500MHz 2SC2412 SI-N 50V 0.1A 180MHz | 2SC2433 SI-N 120V 30A 150W 80MHz2SC2440 SI-N 450V 5A 40W | 2SC2458 SI-N 50V 0.15A 0.2W 80MHz 2SC2466 SI-N 30V 0.05A 2.2GHz | 2SC2482 SI-N 300V 0.1A 0.9W 50MHz 2SC2485 SI-N 100V 6A 70W 15MHz | 2SC2486 SI-N 120V 7A 80W 15MHz2SC2491 SI-N 100V 6A 40W 15MHz | 2SC2497 SI-N 70V 1.5A 5W 150MHz2SC2498 SI-N 30V 0.05A 0.3W 3.5GHz | 2SC2508 SI-N 40V 6A 50W 175MHz2SC2510 SI-N 55V 20A 250W(28MHz) | 2SC2512 SI-N 30V 50mA 900MHz TUNE 2SC2516 SI-N 150V 5A 30W <0.5/2us | 2SC2517 SI-N 150V 5A 30W <0.5/2us 2SC2538 SI-N 40V 0.4A 0.7W | 2SC2539 SI-N 35V 4A 17W 175MHz2SC2542 SI-N 450V 5A 40W | 2SC2547 SI-N 120V 0.1A 0.4W2SC2551 SI-N 300V 0.1A 0.4W 80MHz | 2SC2552 SI-N 500V 2A 20W2SC2553 SI-N 500V 5A 40W 1us | 2SC2562 SI-N 60V 5A 25W 0.1us2SC2563 SI-N 120V 8A 80W 90MHz | 2SC2570A SI-N 25V 70mA 0.6W2SC2579 SI-N 160V 8A 80W 20MHz | 2SC2581 SI-N 200V 10A 100W2SC2590 SI-N 120V 0.5A 5W 250MHz | 2SC2592 SI-N 180V 1A 20W 250MHz2SC2603 SI-N 50V 0.2A 0.3W | 2SC2610 SI-N 300V 0.1A 0.8W 80MHz 2SC2611 SI-N 300V 0.1A 0.8W 80MHz | 2SC2621E SI-N 300V 0.2A 10W >50MHz 2SC2625 SI-N 450V 10A 80W | 2SC2630 SI-N 35V 14A 100W2SC2631 SI-N 150V 50mA 0,75W 160MHz | 2SC2632 SI-N 150V 50mA 1W 160MHz2SC2634 SI-N 60V 0.1A 0.4W 200MHz | 2SC2653 SI-N 350V 0.2A 15W >50MHz 2SC2654 SI-N 40V 7A 40W | 2SC2655 SI-N 50V 2A 0.9W 0.1us2SC2656 SI-N 450V 7A 80W <1.5/4.5 | 2SC2660 SI-N 200V 2A 30W 30MHz2SC2668 SI-N 30V 20mA 0.1W 550MHz | 2SC2671 SI-N 15V 80mA 0.6W 5.5GHz。

索尼A390( 报价| 参数| 图片| 论坛)是一款拥有1400万像素成像能力，带有机身防抖功能和翻转式液晶屏的入门级数码单反相机。

今日包含有18-55mm镜头的A390套机，售价由之前的3700元降至现在的3590元，性价比显著提升。

图为：索尼单反相机A390索尼A390采用高达1420万有效像素的APS-C格式CCD传感器，其面积是大约是消费级数码相机1/2.5英寸传感器的15倍，因此更多高光和暗调细节得到保留，呈现给你更细腻的影像画质。

A390实现了ISO100-ISO3200的设置，高速BIONZ影像处理器实现自动的高ISO降噪处理，即使ISO1600或ISO3200下拍摄的弱光照片和夜景照片也能保持自然生动的色彩和细腻的画质。

腹有诗书气自华索尼A390支持翻转屏幕与此同时索尼A390还支持翻转式液晶屏取景，与实时取景功能相结合可以非常方便的拍摄非常规角度的照片。

索尼A390 ( 报价| 参数| 图片| 论坛)发布日期2010年06月机身特性APS-C规格数码单反操作方式全手动支持传感器类型CCD传感器件尺寸23.5×15.7mm有效像素数1420万最高分辨率4592×3056镜头说明索尼镜头和柯尼卡美能达/MAXXUM/DYNAX镜头显示屏尺寸 2.7英寸腹有诗书气自华像素及类型液晶屏总像素：约23万像素液晶屏类型：Clear Photo液晶屏视野率：约100%感光度自动，ISO100，200，400，800，1600，3200防抖性能光学防抖（影像传感器位移装置）连拍功能使用取景器取景约2.5张/秒使用实时取景模式约2张/秒连拍数量：JPEG（标准，精细）: 不受限制（直至存储卡满）RAW：6张RAW+JPEG：3张存储卡类型MS记忆棒/SD/SDHC卡电池类型专用锂电池NP-FH50续航能力使用取景器拍摄约500张使用实时取景拍摄模式拍摄约230张外形尺寸128.1×97.1×83.5（不包括凸出部分）mm产品重量497（仅机身）g编辑观点：从一年来发布的新产品看，索尼现阶段的重点在入门级单反领域。