IRM-3638T

1®Adaptor boardAdaptor boardOrder Nr. L5062801Board 2S SKYPER 32 R GoldFeatures•Two output channels •Gold nickel finish •Failure managementTypical Applications*•Adaptor board for SKYPER 32 IGBT drivers in bridge circuits for industrial applications •PCB with gold plating •DC bus up to 1000VRemarks•With external high voltage diode•Please Note: the insulation test is not performed as a series test atSEMIKRON and must be performed by the user•According to VDE 0110-20•Output charge can be expanded to 6,3µQ with boost capacitors•Insulation coordination in compliance with EN50178 PD2•Operating temperature is real ambient temperature around the driver core •Degree of protection: IP00Absolute Maximum Ratings SymbolConditionsValuesUnitV s Supply voltage primary 16V Iout PEAK Output peak current 15A Iout AVmax Output average current 50mA f max Max. switching frequency50kHz V CECollector emitter voltage sense across the IGBT1700V V isol IO Insulation test voltage input - output (AC, rms, 2s)4000V V isolPD Partial discharge extinction voltage, rms, Q PD ≤ 10pC1200V V isol12Insulation test voltage output 1 - output 2 (AC, rms, 2s)1500V R Gon minMinimum rating for external R Gon 1.5ΩR Goff min Minimum rating for external R Goff 1.5ΩT op Operating temperature -40...85°C T stgStorage temperature-40 (85)°CCharacteristics SymbolConditionsmin.typ.max.UnitV sSupply voltage primary side 14.41515.6V V i Input signal voltage on / off 15 / 0V V IT+Input threshold voltage (HIGH)12.3V V IT-Input threshold voltage (LOW) 4.6V V G(on)Turn on output voltage 15V V G(off)Turn off output voltage-7V t d(on)IO Input-output turn-on propagation time 1.1µs t d(off)IOInput-output turn-off propagation time1.1µsThis is an electrostatic discharge sensitive device (ESDS), international standard IEC 60747-1, chapter IX.*IMPORTANT INFORMATION AND WARNINGSThe specifications of SEMIKRON products may not be considered as guarantee or assurance of product characteristics ("Beschaffenheitsgarantie"). The specifications of SEMIKRON products describe only the usual characteristics of products to be expected in typical applications, which may still vary depending on the specific application. Therefore, products must be tested for the respective application in advance. Application adjustments may be necessary. The user of SEMIKRON products is responsible for the safety of their applications embedding SEMIKRON products and must take adequate safety measures to prevent the applications from causing a physical injury, fire or other problem if any of SEMIKRON products become faulty. The user is responsible to make sure that the application design is compliant with all applicable laws, regulations, norms and standards. Except as otherwise explicitly approved by SEMIKRON in a written document signed by authorized representatives of SEMIKRON, SEMIKRON products may not be used in any applications where a failure of the product or any consequences of the use thereof can reasonably be expected to result in personal injury. No representation or warranty is given and no liability is assumed with respect to the accuracy, completeness and/or use of any information herein, including without limitation, warranties of non-infringement of intellectual property rights of any third party. SEMIKRON does not assume any liability arising out of the applications or use of any product; neither does it convey any license under its patent rights, copyrights, trade secrets or other intellectual property rights, nor the rights of others. SEMIKRON makes no representation or warranty of non-infringement or alleged non-infringement of intellectual property rights of any third party which may arise from applications. Due to technical requirements our products may contain dangerous substances. For information on the types in question please contact the nearest SEMIKRON sales office. This document supersedes and replaces all information previously supplied and may be superseded by updates. SEMIKRON reserves the right to make changes.2。

IRM Calibrant for GC/TOF, Part Number 5190-0531化学品安全技术说明书GHS product identifier 应急咨询电话（带值班时间）::化学名:2,4,6-tris(Pentafluoroethyl)-1,3,5-triazine 供应商/ 制造商:安捷伦科技贸易（上海）有限公司中国（上海）外高桥自由贸易试验区英伦路412号（邮编:200131)电话号码： 800-820-3278传真号码: 0086 (21) 5048 2818IRM Calibrant for GC/TOF, Part Number 5190-0531化学品的推荐用途和限制用途5190-0531部件号:物质用途:供分析化学实验室使用的试剂和标准1 x 0.5 ml（毫升）安全技术说明书根据 GB/ T 16483-2008 和 GB/ T 17519-2013GHS化学品标识:IRM 调谐液，用于 GC/TOF，部件号 5190-0531危险性类别信号词:警告危险性说明:H332 - 吸入有害。

:防范说明预防措施:事故响应:安全储存:不适用。

废弃处置:不适用。

GHS标签要素象形图急性毒性 (吸入) - 类别 4紧急情况概述液体。

清澈。

无资料。

有关环境保护措施，请参阅第 12 节。

H332 - 吸入有害。

物理和化学危险没有明显的已知作用或严重危险。

健康危害吸入有害。

::与物理,化学和毒理特性有关的症状眼睛接触:没有具体数据。

物理状态:颜色:气味:皮肤接触食入没有具体数据。

没有具体数据。

::延迟和即时影响，以及短期和长期接触引起的慢性影响短期暴露潜在的即时效应:无资料。

潜在的延迟效应:无资料。

潜在的即时效应:无资料。

长期暴露潜在的延迟效应:无资料。

环境危害:没有明显的已知作用或严重危险。

其他危害:没有已知信息。

没有出现就供应商当前所知可应用的浓度，被分类为对健康或环境有害及因此需要在本节报告的添加剂。

I DContinuous Drain Current(A)70°Micro3Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPartNumberPD Max.PowerDissipation (W)N-ChannelLogic LevelIRLML2402*912570.54200.25 1.20.95230H1IRLML2803912580.54300.251.20.93230P-ChannelLogic LevelIRLML6302*912590.54-200.6-0.62-4.8230H1IRLML5103912600.54-300.6-0.61-4.8230* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)70°Micro6Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPartNumberPD Max.PowerDissipation (W)N-ChannelLogic LevelIRLMS1902915401.7200.10 3.2 2.675H2IRLMS1503915081.7300.103.22.675P-ChannelLogic LevelIRLMS6702*914141.7-200.20-2.3-1.975H2IRLMS5703914131.7-300.20-2.3-1.975* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)70°Micro8Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart NumberP D Max.PowerDissipation (W)N-Channel Logic LevelIRF7601* 912611.820 0.035 5.7 4.6 70 H3IRF7603 912621.830 0.035 5.6 4.5 70Dual N-Channel Logic LevelIRF7501* 912651.220 0.135 2.4 1.9 100 H3IRF7503 912661.2530 0.135 2.4 1.9 100P-Channel Logic LevelIRF7604* 912631.8-20 0.09 -3.6 -2.9 70 H3IRF7606 912641.8-30 0.09 -3.6 -2.9 70Dual P-Channel Logic LevelIRF7504* 912671.25-20 0.27 -1.7 -1.4 100 H3IRF7506 912681.25-30 0.27 -1.7 -1.4 100Dual N- and P-Channel Logic LevelIRF7507* 912691.2520 0.1352.4 1.9 100 H3-20 0.27 -1.7 -1.4IRF7509 912701.2530 0.135 2.4 1.9 100-30 0.27 -1.7 -1.4* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-Pak D -PakSOT-227Micro6SOT-223Micro8 2 Illustrations not to scaleI DContinuous Drain Current(A)70°SO-8Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelIRF7413913302.5300.011139.250H4IRF7413A 916132.5300.0135128.450IRF9410915622.5300.0375.850Dual N-ChannelIRF7311914352.0200.029 6.6 5.362.5H4IRF7313914802.0300.029 6.5 5.262.5IRF7333917002.0300.10 3.5 2.862.5917002.0300.050 4.9 3.962.5IRF9956915592.0300.103.52.862.5Dual P-ChannelIRF7314914352.0-200.058-5.3-4.362.5H4IRF7316915052.0-300.058-4.9-3.962.5IRF9953915602.0-300.25-2.3-1.862.5* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)70°SO-8Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)RΘMax.ThermalResistance(°C/W)1FaxonDemand Number Case Outline KeyPart NumberP D Max.PowerDissipation (W)Dual N- and P-ChannelIRF7317 915682.020 0.029 6.6 5.3 62.5 H42.0-20 0.058 -5.3 -4.3 62.5IRF9952 915622.030 0.103.5 2.8 62.5915622.0-30 0.25 -2.3 -1.8 62.5IRF7319 916062.030 0.029 6.5 5.2 62.52.0-30 0.058 -4.9 -3.9 62.5* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-Pak D -PakSOT-227Micro6SOT-223Micro8 2 Illustrations not to scaleI DContinuous Drain Current(A)70°SO-8Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelLogic LevelIRF7401912442.5200.0228.77.050H4IRF7201911002.5300.0307.0 5.650IRF7403912452.5300.0228.55.450Dual N-ChannelLogic LevelIRF7101908712.0200.10 3.5 2.362.5H4IRF7301912382.0200.050 5.2 4.162.5IRF7303912392.0300.050 4.9 3.962.5IRF7103910952.0500.1303.02.362.5P-ChannelLogic LevelIRF7204911032.5-200.060-5.3-4.250H4IRF7404912462.5-200.040-6.7-5.450IRF7205911042.5-300.070-4.6-3.750IRF7406912472.5-300.045-5.8-3.750IRF7416913562.5-300.02-10-7.150* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)70°SO-8Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)Dual P-ChannelLogic LevelIRF7104910962.0-200.250-2.3-1.862.5H4IRF7304912402.0-200.090-4.3-3.462.5IRF7306912412.0-300.10-3.6-2.962.5Dual N- and P-Channe Logic LevelIRF7307912421.4200.050 4.3 3.490H4-200.090-3.6-2.9IRF7105910972.0250.1093.5 2.862.52-250.25-2.3-1.862IRF7309912432.0300.050 4.9 3.962.5-300.10-3.6-2.9* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)70°SOT-223Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelIRFL4105913812.1550.045 3.7 3.060H6IRFL110908612.01000.54 1.50.9660IRFL4310913682.11000.20 1.6 1.360IRFL21090868 2.02001.50.960.660IRFL214908622.02502.00.790.560P-ChannelIRFL9110908642.0-1001.2-1.1-0.6960H6N-ChannelLogic LevelIRLL3303913792.1300.031 4.6 3.760H6IRLL014N 914992.1550.14 2.0 1.660IRLL2705913802.1550.043.83.060* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)100°D-PakSurface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelIRFR33039164257300.0313321 2.2H7IRFR024N9133638550.0751610 3.3IRFR41059130248550.0452516 2.7IRFR12059131869550.0273723 1.8IRFR11090524251000.54 4.3 2.75IRFR120N 91365391000.219.1 5.8 3.2IRFR391091364521000.11159.5 2.4IRFR2109052625200 1.5 2.6 1.75IRFR22090525422000.8 4.833IRFR21490703252502 2.2 1.45IRFR2249060042250 1.1 3.8 2.43IRFR3109059725400 3.6 1.7 1.15IRFR3209059842400 1.8 3.123IRFR42090599425003 2.4 1.53IRFRC2090637426004.421.33* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)100°D-PakSurface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)P-ChannelIRFR55059161057-550.11-18-11 2.2H7IRFR53059140289-550.065-28-18 1.4IRFR90149065425-600.5-5.1-3.25IRFR90249065542-600.28-8.8-5.63IRFR91109051925-100 1.2-3.1-25IRFR91209052042-1000.6-5.6-3.63IRFR9120N 9150739-1000.48-6.5-4.1 3.2IRFR92109052125-2003-1.9-1.25IRFR92209052242-200 1.5-3.6-2.33IRFR92149165850-250 3.0-2.7-1.7 2.5IRFR93109166350-4007.0-1.8-1.12.5* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)100°D-PakSurface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelLogic LevelIRLR27039133538300.0452214 3.3H7IRLR33039131657300.0313321 2.2IRLR31039133369300.0194629 1.8IRLR024N 9136338550.0651711 3.3IRLR27059131746550.042415 2.7IRLR29059133469550.0273623 1.8IRLR120N 91541391000.18511 6.9 3.2IRLR341091607521000.10159.52.4* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)100°D 2PakSurface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart NumberP D Max.PowerDissipation (W)N-ChannelIRFZ24NS 913554555 0.07 17 12 3.3 H10IRFZ34NS 913116855 0.04 29 20 2.2IRFZ44NS 9131511055 0.022 49 35 1.4IRFZ46NS 9130512055 0.020 53 37 1.3IRFZ48NS 9140814055 0.016 64 45 1.1IRF1010NS 913723.855 0.011 84 60 40IRF3205S 9130420055 0.008 110 80 0.75IRFZ44ES 9171411060 0.023 48 34 1.4IRF1010ES 9172017060 0.012 83 59 0.90IRF2807S 9151815075 0.013 71 50 1.0IRF520NS 9134047100 0.2 9.5 6.7 3.2IRF530NS 9135263100 0.11 15 11 2.4IRF540NS 91342110100 0.052 27 19 1.6IRF1310NS 91514120100 0.036 36 25 1.3IRF3710S 91310150100 0.028 46 33 1.0IRF3315S 9161794150 0.082 21 15 1.6IRF3415S 91509150150 0.042 37 26 1.0IRFBC20S 9.101450600 4.4 2.2 1.4 2.5IRFBC30S 9101574600 2.2 3.6 2.3 1.7IRFBC40S 91016130600 1.2 6.2 3.9 1.0* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-Pak D -PakSOT-227Micro6SOT-223Micro8 2 Illustrations not to scaleI DContinuous Drain Current(A)100°D 2PakSurface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemandNumberCase Outline KeyPart NumberP D Max.PowerDissipation (W)IRFBF20S 9166554900 8.0 1.7 1.1 2.3 H10P-ChannelIRF5305S 91386110-55 0.06 -31 -22 1.4 H10IRF4905S 914783.8-55 0.02 -74 -52 40IRF9520NS 9152247-100 0.48 -6.7 -4.8 3.2IRF9530NS 9152375-100 0.20 -14 -9.9 2.0IRF9540NS 9148394-100 0.117 -19 -13 1.6IRF5210S 91405150-100 0.06 -35 -25 1.0* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-Pak D -PakSOT-227Micro6SOT-223Micro8 2 Illustrations not to scaleI DContinuous Drain Current(A)100°D 2PakSurface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart NumberP D Max.PowerDissipation (W)N-Channel Logic LevelIRL3302S 916925720 0.020 39 25 2.2 H10IRL3202S916756920 0.016 48 30 1.8IRL3102S 916918920 0.013 61 39 1.4IRL3402S 9169311020 0.01 85 54 1.1IRL3502S 9167614020 0.007 110 67 0.89IRL2703S 913604530 0.04 24 17 3.3IRL3303S 913236830 0.026 38 27 2.2IRL3103S 9133811030 0.014 64 45 1.4IRL2203NS 9136717030 0.007 116 82 0.90IRL3803S 9131920030 0.006 140 98 0.75IRLZ24NS 913584555 0.06 18 13 3.3IRLZ34NS 913086855 0.035 30 21 2.2IRLZ44NS 9134711055 0.022 47 33 1.4IRL3705NS 9150217055 0.01 89 63 0.90IRL2505S 9132620055 0.008 104 74 0.75IRLZ44S 9090615060 0.028 50 36 1.0IRL530NS 9134963100 0.1 15 11 2.4IRL2910S 91376150100 0.026 48 34 1.0* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-Pak D -PakSOT-227Micro6SOT-223Micro8 2 Illustrations not to scaleI DContinuous Drain Current(A)100°SOT-227Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous DrainCurrent 25°C(A)RΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelFully Isolated Low ChargeFA38SA50LC 916155005000.1338240.25H21FA57SA50LC916506255000.0857360.20* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)100°I-PakThrough-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelIRFU33039164257300.0313321 2.2H8IRFU024N 9133638550.0751610 3.3IRFU41059130248550.0452519 2.7IRFU12059131869550.0273723 1.8IRFU11090524251000.54 4.3 2.7 5.0IRFU120N 91365391000.219.1 5.8 3.2IRFU391091364521000.11159.5 2.4IRFU2109052625200 1.5 2.6 1.7 5.0IRFU22090525422000.80 4.8 3.0 3.0IRFU2149070325250 2.0 2.2 1.4 5.0IRFU2249060042250 1.1 3.8 2.4 3.0IRFU3109059725400 3.6 1.7 1.1 5.0IRFU3209059842400 1.8 3.1 2.0 3.0IRFU4209059942500 3.0 2.4 1.5 3.0IRFUC2090637426004.42.01.33.0I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI DContinuous Drain Current(A)100°I-PakThrough-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)P-ChannelIRFU55059161057-550.11-18-11 2.2H8IRFU53059140289-550.065-28-18 1.4IRFU90149065425-600.50-5.1-3.2 5.0IRFU90249065542-600.28-8.8-5.6 3.0IRFU91109051925-100 1.2-3.1-2.0 5.0IRFU91209052042-1000.60-5.6-3.6 3.0IRFU9120N 9150739-1000.48-6.5-4.1 3.2IRFU92109052125-200 3.0-1.9-1.2 5.0IRFU92209052242-200 1.5-3.6-2.3 3.0IRFU92149165850-2503.0-2.7-1.7 2.5IRFU93109166350-4007.0-1.8-1.12.5N-ChannelLogic LevelIRLU27039133538300.0452214 3.3H8IRLU33039131657300.0313321 2.2IRLU31039133369300.0194629 1.8IRLU024N 9136338550.0651711 3.3IRLU27059131746550.04241715IRLU29059133469550.0273623 1.8IRLU120N 91541391000.18511 6.9 3.2IRLU341091607521000.10159.52.4I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI DContinuous Drain Current(A)100°HEXDIPThrough-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelIRFD014907001.3600.2 1.7 1.2120H9IRFD024906991.3600.1 2.5 1.8120IRFD110903281.31000.54 1.00.71120IRFD120903851.31000.27 1.30.94120IRFD210903861.3200 1.50.60.38120IRFD220904171.32000.80.80.50120IRFD214912711.3250 2.00.570.32120IRFD224912721.3250 1.10.760.43120IRFD310912251.3400 3.60.420.23120IRFD320912261.3400 1.80.600.33120IRFD420912271.3500 3.00.460.26120IRFDC20912281.36004.40.320.21120I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI D Continuous Drain Current (A)100°TO-220Qg TotalGate Charge(nC)Through-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C (A)R ΘMax.Thermal Resistance(°C/W)1Faxon Demand Number Case OutlineKeyPart Number P D Max.Power Dissipation (W)N-ChannelLow ChargeIRF737LC91314743000.75 6.1** 1.7 3.9H11IRF740LC 910681254000.5510** 1.039IRF840LC 910691255000.858.0** 1.039IRFBC40LC910701256001.26.2**1.039I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI DContinuous Drain Current(A)100°TO-220ABThrough-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelIRFZ24N 9135445550.071712 3.3H12IRFZ34N9127656550.042618 2.7IRFZ44N 9130383550.0244129 1.8IRFZ46N 9127788550.024633 1.7IRFZ48N 9140694550.0165337 1.6IRF1010N 91278130550.0127251 1.2IRF320591279150550.0089869 1.0IRFZ34E 9167268600.0422820 2.2IRFZ44E 91671110600.0234834 1.4IRF1010E 91670170600.01281570.90IRF280791517150750.0137150 1.0IRF520N 91339471000.209.5 6.79.5IRF530N 91351601000.111511 2.4IRF540N 91341941000.0522719 1.6IRF1310N 916111201000.0363625 1.3IRF3710913091501000.0284633 1.0IRF331591623941500.0822115 1.6IRF3415914771501500.0423726 1.0IRFBC209062350600 4.4 2.2 1.4 2.5IRFBC309048274600 2.2 3.6 2.3 1.7IRFBC4090506125600 1.2 6.2 3.9 1.0IRFBE2090610548006.51.81.22.3I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI DContinuous Drain Current(A)100°TO-220ABThrough-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)IRFBE3090613125800 3.0 4.1 2.6 2.0H12IRFBF3090616125900 3.7 3.6 2.3 1.0IRFBG209060454100011 1.40.86 2.3IRFBG309062012510005.03.12.01.0P-ChannelIRF9Z24N 9148445-550.175-12-8.53.3H12IRF9Z34N 9148556-550.10-17-12 2.7IRF530591385110-550.06-31-22 1.4IRF490591280150-550.02-64-45 1.0IRF9530N 9148275-1000.20-13-9.2 2.0IRF9540N 9143794-1000.117-19-13 1.6IRF521091434150-1000.06-35-25 1.0IRF62159147983-1500.29-11-7.81.8I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI DContinuous Drain Current(A)100°TO-220ABThrough-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart NumberP D Max.PowerDissipation (W)N-Channel Logic LevelIRL3302 916965720 0.020 39 25 2.2 H12IRL3202 916956920 0.016 48 30 1.8IRL3102 916948920 0.013 61 39 1.4IRL3402 9169711020 0.01 85 54 1.1IRL3502 9169814020 0.007 110 67 0.89IRL2703 913594530 0.04 24 17 3.3IRL3303 913225630 0.026 34 24 2.7IRL3103 913378330 0.014 56 40 1.8IRL2203N 9136613030 0.007 100 71 1.230 0.007 61 43 3.2IRL3803 9130115030 0.006 120 83 1.0IRLZ24N 913574555 0.06 18 13 3.3IRLZ34N 913075655 0.035 27 19 2.7IRLZ44N 913468355 0.022 41 29 1.8IRL3705N 9137013055 0.01 77 54 1.2IRL2505 9132520055 0.008 104 74 0.75IRL520N 9149447100 0.18 10 7.1 3.2IRL530N 9134863100 0.10 15 11 2.4IRL540N 9149594100 0.044 30 21 1.6IRL2910 91375150100 0.026 48 34 1.0I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI D Continuous Drain Current (A)100°TO-220 FullPak (Fully Isolated)Qg TotalGate Charge(nC)Through-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous DrainCurrent 25°C(A)R ΘMax.Thermal Resistance (°C/W)1Fax on Demand Number Case OutlineKeyPart Number P D Max.Power Dissipation (W)N-ChannelLow ChargeIRFI740GLC91209404000.55 6.0** 3.139H13IRFI840GLC 91208405000.85 4.8** 3.139IRFIBC40GLC91211406001.24.0**3.139I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI DContinuous Drain Current(A)100°TO-220 FullPak (Fully Isolated)Through-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelIRFIZ24N 9150126550.07139.2 5.8H14IRFIZ34N9148931550.041913 4.8IRFIZ44N 9140338550.02428200.024IRFIZ46N 9130640550.023122 3.8IRFIZ48N 9140742550.0163625 3.6IRFI1010N 9137347550.0124431 3.2IRFI32059137448550.0085640 3.1IRFIZ24E 9167329600.071149.6 5.2IRFIZ34E 9167437600.0422115 4.1IRFI510G 90829271000.54 4.5 3.2 5.5IRFI520N 91362271000.207.2 5.1 5.5IRFI530N 91353331000.11117.8 4.5IRFI540N 91361421000.0521813 3.6IRFI1310N 91611451000.0362216 3.3IRFI371091387481000.0252820 3.1IRFI620G 90832302000.8 4.1 2.6 4.1IRFI630G 90652322000.4 5.9 3.7 3.6IRFI640G 90649402000.189.8 6.2 3.1IRFI614G 9083123250 2.0 2.1 1.3 5.5IRFI624G 9083330250 1.1 3.4 2.2 4.1IRFI634G 90738322500.45 5.6 3.5 3.6IRFI644G 90739402500.287.953.1I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI DContinuous Drain Current(A)100°TO-220 FullPak (Fully Isolated)Through-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)IRFI720G 9083430400 1.8 2.6 1.7 4.1H14IRFI730G 9065032400 1.0 3.7 2.3 3.6IRFI740G 90651404000.55 5.4 3.4 3.1IRFI734G 9100135450 1.2 3.4 2.1 3.6IRFI744G 91002404500.63 4.9 3.1 3.1IRFI820G 9064130500 3.0 2.1 1.3 4.1IRFI830G 9064632500 1.5 3.12 3.6IRFI840G 90642405000.85 4.6 2.9 3.1IRFIBC20G 90850306004.41.71.1 4.1IRFIBC30G 90851356002.2 2.5 1.63.6IRFIBC40G 9085240600 1.2 3.5 2.2 3.1IRFIBE20G 9085330800 6.5 1.4.86 4.1IRFIBE30G 9085435800 3.0 2.1 1.4 3.6IRFIBF20G 90855309008.0 1.2.79 4.1IRFIBF30G90856359003.71.91.23.6P-ChannelIRFI9Z24N 9152929-550.175-9.5-6.7 5.2H14IRFI9Z34N 9153037-550.10-14-10 4.1IRFI49059152663-550.02-41-29 2.4IRFI9540G 9083742-1000.117-13-9.2 3.6IRFI9540N 9148742-1000.117-13-9.2 3.6IRFI52109140448-1000.06-20-14 3.1IRFI9634G 9148835-2501.0-4.1-2.63.6I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI DContinuous Drain Current(A)100°TO-220 FullPak (Fully Isolated)Through-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelLogic LevelIRLI2203N 9137847300.0076143 3.2H14IRLI38039132048300.0066747 3.1IRLIZ24N 9134426550.06149.9 5.8IRLIZ34N 9132931550.0352014 4.8IRLIZ44N 9149838550.0222820 4.0IRLI3705N 9136947550.014733 3.2IRLI25059132763550.00858412.4IRLI520N 91496271000.187.7 5.4 5.5IRLI530N 91350331000.10117.8 4.5IRLI540N 91497421000.04420143.6IRLI291091384481000.02627193.1P-ChannelLogic LevelIRFI9520G 9083537-1000.6-5.2-3.6 4.1H14IRFI9530G 9083638-1000.03-7.7-5.4 3.6IRFI9620G 9087430-200 1.5-3.0-1.9 4.1IRFI9630G 9083840-2000.8-4.3-2.7 3.6IRFI9640G9083940-2000.5-6.1-3.93.1I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI D Continuous Drain Current (A)100°TO-247Qg TotalGate Charge(nC)Through-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C (A)R ΘMax.Thermal Resistance (°C/W)1Fax on Demand Number Case OutlineKeyPart Number P D Max.Power Dissipation (W)1N-ChannelLow ChargeIRFP350LC912291904000.3018**0.6570H16IRFP360LC 912302804000.2023**0.4598IRFP450LC 912311905000.4016**0.6570IRFP460LC 912322805000.2720**0.4598IRFPC50LC 912331906000.6013**0.6570IRFPC60LC912342806000.4016**0.4598I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not rated。

ErrataTitle & Document Type:Manual Part Number:Revision Date:HP References in this ManualThis manual may contain references to HP or Hewlett-Packard. Please note that Hewlett-Packard's former test and measurement, semiconductor products an d chemical analysisbusinesses are now part of Agilent Technologies. We have made no changes to thismanual copy. The HP XXXX referred to in this document is now the Agilent XXXX.For example, model number HP8648A is now model number Agilent 8648A.About this ManualWe’ve added this manual to the Agilent website in an effort to help you support yourproduct. This manual provides the best information we could find. It may be incomplete or contain dated information, and the scan quality may not be ideal. If we find a bettercopy in the future, we will add it to the Agilent website.Support for Your ProductAgilent no longer sells or supports this product. You will find any other availableproduct information on the Agilent Test & Measurement website:Search for the model number of this product, and the resulting product page will guideyou to any available information. Our service centers may be able to perform calibrationif no repair parts are needed, but no other support from Agilent is available.3562A Programming Manual03562-90031October 1985Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | 。

TI型号⼤全35-迈锐国际ADC0820CCWMX/NOPB SOIC-201000EAR99TI迈锐国际胡浩亮137********ADC082S021CIMM/NOPB VSSOP-81000EAR99TI迈锐国际胡浩亮137********ADC082S021CIMMX/NOPB VSSOP-83500EAR99TI迈锐国际胡浩亮137********ADC082S051CIMM/NOPB VSSOP-81000EAR99TI迈锐国际胡浩亮137********ADC082S101CIMM/NOPB VSSOP-81000EAR99TI迈锐国际胡浩亮137********ADC082S101CIMMX/NOPB VSSOP-83500EAR99TI迈锐国际胡浩亮137********ADC083000CIYB/NOPB HLQFP-1286003A001A5A1TI迈锐国际胡浩亮137********ADC083000CIYB/S7002214HLQFP-1286003A001A5A1TI迈锐国际胡浩亮137********ADC0831CCN/NOPB PDIP-81000EAR99TI迈锐国际胡浩亮137********ADC0831CCWM/NOPB SOIC-143000EAR99TI迈锐国际胡浩亮137********ADC0831CCWMX/NOPB SOIC-141000EAR99TI迈锐国际胡浩亮137********ADC0832CCN/NOPB PDIP-81000EAR99TI迈锐国际胡浩亮137********ADC0832CCWM/NOPB SOIC-143000EAR99TI迈锐国际胡浩亮137********ADC0832CCWMX/NOPB SOIC-141000EAR99TI迈锐国际胡浩亮137********ADC0834CCN/NOPB PDIP-14500EAR99TI迈锐国际胡浩亮137********ADC0834CCWM/NOPB SOIC-143000EAR99TI迈锐国际胡浩亮137********ADC0834CCWMX/NOPB SOIC-141000EAR99TI迈锐国际胡浩亮137********ADC08351CILQE/NOPB WQFN-24250EAR99TI迈锐国际胡浩亮137********ADC08351CILQX/NOPB WQFN-244500EAR99TI迈锐国际胡浩亮137********ADC08351CIMTCE/NOPB TSSOP-20250EAR99TI迈锐国际胡浩亮137********ADC08351CIMTCX/NOPB TSSOP-202500EAR99TI迈锐国际胡浩亮137********ADC08351EVM RFIDSUB01EAR99TI迈锐国际胡浩亮137********ADC0838CCWM/NOPB SOIC-202160EAR99TI迈锐国际胡浩亮137********ADC0838CCWMX/NOPB SOIC-201000EAR99TI迈锐国际胡浩亮137********ADC0838CIWM/NOPB SOIC-202160EAR99TI迈锐国际胡浩亮137********ADC0838CIWMX/NOPB SOIC-201000EAR99TI迈锐国际胡浩亮137********ADC0848BCV/NOPB PLCC-281750EAR99TI迈锐国际胡浩亮137********ADC0848BCVX/NOPB PLCC-28750EAR99TI迈锐国际胡浩亮137********ADC0848CCV/NOPB PLCC-281750EAR99TI迈锐国际胡浩亮137******** ADC0848CCVX/NOPB PLCC-28750EAR99TI迈锐国际胡浩亮137********ADC084S021CIMM/J7001218VSSOP-101000EAR99TI迈锐国际胡浩亮137********ADC084S021CIMM/NOPB VSSOP-101000EAR99TI迈锐国际胡浩亮137********ADC084S021CIMMX/NOPB VSSOP-103500EAR99TI迈锐国际胡浩亮137********ADC084S051CIMM/NOPB VSSOP-101000EAR99TI迈锐国际胡浩亮137********ADC084S101CIMM/NOPB VSSOP-101000EAR99TI迈锐国际胡浩亮137********ADC08500CIYB/NOPB HLQFP-1286003A991C1TI迈锐国际胡浩亮137********ADC08831IM SOIC-89500EAR99TI迈锐国际胡浩亮137********ADC08831IM/NOPB SOIC-89500EAR99TI迈锐国际胡浩亮137********ADC08831IMX/NOPB SOIC-82500EAR99TI迈锐国际胡浩亮137********ADC08832IMM/NOPB VSSOP-81000EAR99TI迈锐国际胡浩亮137********ADC08832IM/NOPB SOIC-89500EAR99TI迈锐国际胡浩亮137********ADC08832IMX/NOPB SOIC-82500EAR99TI迈锐国际胡浩亮137********ADC088S022CIMT TSSOP-169200EAR99TI迈锐国际胡浩亮137********ADC088S022CIMT/NOPB TSSOP-169200EAR99TI迈锐国际胡浩亮137********ADC088S022CIMTX/NOPB TSSOP-162500EAR99TI迈锐国际胡浩亮137********ADC088S052CIMT/NOPB TSSOP-169200EAR99TI迈锐国际胡浩亮137********ADC088S052CIMTX/NOPB TSSOP-162500EAR99TI迈锐国际胡浩亮137********ADC088S102CIMT/NOPB TSSOP-169200EAR99TI迈锐国际胡浩亮137********ADC088S102CIMTX/NOPB TSSOP-162500EAR99TI迈锐国际胡浩亮137********ADC08B200CIVS/NOPB TQFP-482500EAR99TI迈锐国际胡浩亮137********ADC08B200QCIVS/NOPB TQFP-482500EAR99TI迈锐国际胡浩亮137********ADC08B3000CIYB/NOPB HLQFP-1286003A991C1TI迈锐国际胡浩亮137********ADC08B3000RB/NOPB RFIDSUB01EAR99TI迈锐国际胡浩亮137********ADC08D1000CIYB/NOPB HLQFP-1286003A001A5A1TI迈锐国际胡浩亮137********ADC08D1010DIYB/NOPB HLQFP-1286003A001A5A1TI迈锐国际胡浩亮137********ADC08D1020CIYB/NOPB HLQFP-1286003A001A5A1TI迈锐国际胡浩亮137********ADC08D1500CIYB/NOPB HLQFP-1286003A001A5A1TI迈锐国际胡浩亮137********ADC08D1520CIYB/NOPB HLQFP-1286003A001A5A1TI迈锐国际胡浩亮137********ADC08D1520CIYB/S7002396HLQFP-1286003A001A5A1TI迈锐国际胡浩亮137********ADC08D1520CVAL RFIDSUB013A002H1A TI迈锐国际胡浩亮137********迈锐国际胡浩亮ADC08D1520RB/NOPB RFIDSUB013A002H1A TI137******** ADC08D1520WGFQV CQFP-128243A001A2C TI迈锐国际胡浩亮137********ADC08D1520WGMPR CQFP-128243A001A5A1TI迈锐国际胡浩亮137********ADC08D500CIYB/NOPB HLQFP-1286003A991C1TI迈锐国际胡浩亮137********ADC08D500CIYB/S7002554HLQFP-1286003A991C1TI迈锐国际胡浩亮137********ADC08D500CIYB/S7002952HLQFP-1286003A991C1TI迈锐国际胡浩亮137********ADC08D502CIYB/NOPB HLQFP-1286003A991C1TI迈锐国际胡浩亮137********ADC08DJ3200AAV FCBGA-1448403A001A5A1TI迈锐国际胡浩亮137********ADC08DJ3200AAVT FCBGA-1442503A001A5A1TI迈锐国际胡浩亮137********ADC08DJ3200EVM UNKNOWN-14413A002H1A TI迈锐国际胡浩亮137********ADC08DL500CIVV/NOPB LQFP-1446003A991C1TI迈锐国际胡浩亮137********ADC08DL502CIVV/NOPB LQFP-1446003A991C1TI迈锐国际胡浩亮137********ADC08L060CIMT/NOPB TSSOP-246100EAR99TI迈锐国际胡浩亮137********ADC08L060CIMTX/NOPB TSSOP-242500EAR99TI迈锐国际胡浩亮137********ADC08L060EVM RFIDSUB01EAR99TI迈锐国际胡浩亮137********ADC09QJ1300EVM RFIDSUB01EAR99TI迈锐国际胡浩亮137********ADC10040CIMT/NOPB TSSOP-284800EAR99TI迈锐国际胡浩亮137********ADC10040CIMTX/NOPB TSSOP-282500EAR99TI迈锐国际胡浩亮137********ADC10040QCIMT/NOPB TSSOP-284800EAR99TI迈锐国际胡浩亮137********ADC10040QCIMTX/NOPB TSSOP-282500EAR99TI迈锐国际胡浩亮137********ADC10065CIMT/NOPB TSSOP-284800EAR99TI迈锐国际胡浩亮137********ADC10065CIMTX/NOPB TSSOP-282500EAR99TI迈锐国际胡浩亮137********ADC10080CIMT/NOPB TSSOP-284800EAR99TI迈锐国际胡浩亮137********ADC10080CIMTX/NOPB TSSOP-282500EAR99TI迈锐国际胡浩亮137********ADC101C021CIMK/NOPB SOT-23-THN-61000EAR99TI迈锐国际胡浩亮137********ADC101C021CIMKX/NOPB SOT-23-THN-63000EAR99TI迈锐国际胡浩亮137********ADC101C021CIMM/NOPB VSSOP-81000EAR99TI迈锐国际胡浩亮137********ADC101C027CIMK/NOPB SOT-23-THN-61000EAR99TI迈锐国际胡浩亮137********ADC101C027CIMKX/NOPB SOT-23-THN-63000EAR99TI迈锐国际胡浩亮137********ADC101S021CIMF/NOPB SOT-23-61000EAR99TI迈锐国际胡浩亮137********ADC101S021CIMFX/NOPB SOT-23-63000EAR99TI迈锐国际胡浩亮137********迈锐国际胡浩亮ADC101S021CISD/NOPB WSON-61000EAR99TI137********ADC101S021CISDX/NOPB WSON-64500EAR99TI迈锐国际胡浩亮137********ADC101S051CIMF/NOPB SOT-23-61000EAR99TI迈锐国际胡浩亮137********ADC101S051CIMFX/NOPB SOT-23-63000EAR99TI迈锐国际胡浩亮137********ADC101S051QIMF/NOPB SOT-23-61000EAR99TI迈锐国际胡浩亮137********ADC101S051QIMFX/NOPB SOT-23-63000EAR99TI迈锐国际胡浩亮137********ADC101S101CIMF/NOPB SOT-23-61000EAR99TI迈锐国际胡浩亮137********ADC101S101CIMFX/NOPB SOT-23-63000EAR99TI迈锐国际胡浩亮137********ADC101S101CISD/NOPB WSON-61000EAR99TI迈锐国际胡浩亮137********。

PD-97288 RevAIRAM136-3063BSeries 30A, 600VIntegrated Power Hybrid IC for Low Voltage Motor Applicationswith Internal Shunt ResistorDescriptionInternational Rectifier's IRAM136-3063B is a 30A, 600V Integrated Power Hybrid IC with Internal Shunt Resistor for Appliance Motor Drives applications such air conditioning systems and compressor drivers as well as for light industrial application. IR's technology offers an extremely compact, high performance AC motor driver in a single isolated package to simplify design.This advanced HIC is a combination of IR's low V CE(on) Punch-Through IGBT technology and the industry benchmark 3-Phase high voltage, high speed driver in a fully isolated thermally enhanced package. A built-in temperature monitor and over-current and over-temperature protections, along with the short-circuit rated IGBTs and integrated under-voltage lockout function, deliver high level of protection and failsafe operation. Using a new developed single in line package (SiP3) with heat spreader for the power die along with full transfer mold structure minimizes PCB space and resolves isolation problems to heatsink.Features• Integrated Gate Drivers• Temperature Monitor and Protection • Overcurrent shutdown• Low V CE(on) Advance Planar Super Rugged Technology • Undervoltage lockout for all channels• Matched propagation delay for all channels • 5V Schmitt-triggered input logic • Cross-conduction prevention logic• Lower di/dt gate driver for better noise immunity • Motor Power up to 3.3kW / 85~253 Vdc• Fully Isolated Package, Isolation 2000V RMS minJ PWM Note 2: t P <100ms; T C =25°C; F PWM =6kHz. Limited by I BUS-ITRIP , see Table "Inverter Section Electrical Characteristics"1IRAM136-3063BInternal Electrical Schematic – IRAM136-3063BV -(12)VB1 (1)U, VS1 (2)VB2 (4)V, VS2 (5)VB3 (7)W, VS3 (8)VDD (21)VSS (22)I SENSE (20)V (10)+FAULT(19)HIN1 (13)HIN2 (14)HIN3 (15)LIN1 (16)LIN2 (17)LIN3 (18)2 IRAM136-3063B 3IRAM136-3063BRecommended Operating Conditions Driver FunctionThe Input/Output logic timing diagram is shown in Figure 1. For proper operation the device should be used within the recommended conditions. All voltages are absolute referenced to COM. The V S offset is tested with all supplies biased at 15V differentialNote 4: Logic operational for V s from COM-5V to COM+600V. Logic state held for V s from COM-5V to COM-V BS . (please refer to DT97-3 for more details)4IRAM136-3063BStatic Electrical Characteristics Driver FunctionV BIAS (V CC , V BS1,2,3)=15V, unless otherwise specified. The V IN and I INparameters are referenced to COM/I TRIP and areDynamic Electrical CharacteristicsDriver only timing unless otherwise specified.)5IRAM136-3063BInput-Output Logic Level Table+6 IRAM136-3063B Figure 1. Input/Output Timing DiagramI TRIPLIN1,2,3HIN1,2,3U,V,WFigure 2. I TRIP Timing WaveformNote 7: The shaded area indicates that both high-side and low-side switches are off and therefore the half-bridge output voltage would be determined by the direction of current flow in the load. 7IRAM136-3063BModule Pin-Out DescriptionIRAM136-3063B Typical Application Connection IRAM136-3063B1.Electrolytic bus capacitors should be mounted as close to the module bus terminals as possible to reduceringing and EMI problems. Additional high frequency ceramic capacitor mounted close to the module pinswill further improve performance.2.In order to provide good decoupling between VCC-VSS and VB1,2,3-VS1,2,3 terminals, the capacitorsshown connected between these terminals should be located very close to the module pins. Additionalhigh frequency capacitors, typically 0.1μF, are strongly recommended.3.Value of the boot-strap capacitors depends upon the switching frequency. Their selection should bemade based on IR design tip DN 98-2a, application note AN-1044 or Figure 9. Bootstrap capacitor valuemust be selected to limit the power dissipation of the internal resistor in series with the VCC. (seemaximum ratings Table on page 3).4.After approx. 8ms the FAULT is reset. (see Dynamic Characteristics Table on page 5).5.PWM generator must be disabled within Fault duration to guarantee shutdown of the system, overcurrentcondition must be cleared before resuming operation.6.Fault/T MON Monitor pin must be pulled-up to +5V. 9IRAM136-3063BSinusoidal Modulation, V+=400V, T J=150°C, Modulation Depth=0.8, PF=0.6Sinusoidal Modulation, V+=400V, T J=100°C, Modulation Depth=0.8, PF=0.6IRAM136-3063BSinusoidal Modulation, V+=400V, T J=150°C, Modulation Depth=0.8, PF=0.6Sinusoidal Modulation, V+=400V, T J=150°C, Modulation Depth=0.8, PF=0.6 11IRAM136-3063BSinusoidal Modulation, V+=400V, T J=150°C, Modulation Depth=0.8, PF=0.6IRAM136-3063BNormal Thermistor Resistance values vs. Temperature Table.01234567891011121314151605101520PWM Frequency - kHzR e c o m m e n d e d B o o t s t r a p C a p a c i t o r - ȝFFigure 10. Recommended Bootstrap Capacitor Value vs. Switching Frequency13IRAM136-3063BFigure 11b. Input to Output propagation turn-off Figure 11a. Input to Output propagation turn-ondelay time.delay time.IRAM136-3063B++I NI OFigure CT2. S.C.SOA Circuit+I NI OFigure CT3. R.B.SOA Circuit15IRAM136-3063BPackage OutlineMissing Pin : 3,6,9,11note1: Unit Tolerance is +0.5mm, ᫝᫝᫝ Unless Otherwise Specified.note2: Mirror Surface Mark indicates Pin1 Identification.note3: Characters Font in this drawing differs from ᫝᫝᫝᫝ Font shown on Module.note4: Lot Code Marking.Characters Font in this drawing differs from ᫝᫝᫝᫝ Font shown on Module.note5: “P” Character denotes Lead Free.Characters Font in this drawing differs from Font shown on Module.For mounting instruction see AN-1049Data and Specifications are subject to change without noticeIR WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 90245, USA Tel: (310) 252-7105TAC Fax: (310) 252-7903Visit us at for sales contact information11/2007 16。

irm3638工作原理English:The irm3638 is a sensor that utilizes magnetic principles to detect the presence or absence of a magnetic field. It is based on Hall effect technology, which involves the use of a thin strip of conductive material through which current flows. When a magnetic field is applied perpendicular to the direction of the current, a voltage potential is generated across the material. This voltage potential is directly proportional to the strength of the magnetic field, allowing the sensor to accurately detect and measure changes in the magnetic field. The irm3638 sensor is designed to provide a digital output, making it suitable for various applications such as position sensing, speed detection, and proximity sensing. Its compact size, low power consumption, and high sensitivity make it ideal for use in consumer electronics, automotive systems, industrial automation, and other fields where accurate magnetic field detection is essential.中文翻译:irm3638是一种利用磁原理来检测磁场存在与否的传感器。

Manual del usuarioFuente de poder CD regulada con tres salidas Modelos 382203 (Análogo) y 382213 (Digital)IntroducciónFelicitaciones por seleccionar la Fuente de poder CD regulado Modelos 382203 (análogo) o 382213 (digital) de Extech. Los modelos 382203 y 382213 son fuentes de poder reguladas de estado sólido y compactos, apropiadas para muchas aplicaciones incluyendo pruebas de banco, servicio de campo, equipo de telecomunicaciones y diversión.Descripción del medidor1. Pantallas LCD Voltaje y Corriente2. LED indicador de estado de límite de corriente3. Interruptor de encendido con LED de estado4. Terminales de salida 5V y 12V fijo5. Terminales de salida alimentación variable6. Perillas de ajuste de voltaje y corriente variableNota: El Modelo 382213 (escalas LCD) se muestra arriba. El Modelo 382203 (mostrado en la portada) usa escala análoga.Operación1. La Fuente de poder debe ser alimentada con voltaje de línea nominal (110V ó 220V) dentro de+ 5%.2. Antes de encender, retire todas las cargas conectadas y fije la perilla de ajuste de voltajetotalmente contrarreloj (salida 0V CD).3. Para operar la fuente de alimentación como fuente de corriente constante, la salida de corrientedebe fijarse entre 10% y 100% del valor nominal (3A). El indicador de limitación de corriente se iluminará al activarse el circuito limitador de corriente.4. Use las perillas para ajuste de corriente y voltaje para fijar las salidas variables de corriente yvoltaje respectivamente. Use las terminales de salida variable para conexiones.5. Para las salidas de 5VCD y 12VCD, use las terminales de salida fija.6. Las pantallas análoga o digital indicaran las salidas reales de corriente y voltaje.7. Mantenga libre de obstrucciones las rejillas de ventilación del medidor (arriba y lados) paraprevenir sobrecalentamiento.Especificaciones382203382213Indicador Análogo doble conescalas Pantalla LCD doble de 3dígitosSalida de voltaje, CD0-30VSalida de corriente, CD0 - 3 amperiosIndicador de límite decorrienteLED de estadoPrecisión ± 7% de la escala total ± 1% de la escala total + 2dígitosOndulación y Ruido< 5mVRegulación de línea< 0,05% + 10mVVoltaje fijo de salida5V / 0,5A (Continuo); 1A (máx.)12V / 0,5A (Continuo); 1A (máx.)Tensión110/220VCA 50/60Hz (conmutable) Dimensiones152 x 142 x 242mm(6 x 5,6 x 9,5") (WxHxD)Peso4,5 kg (10 lbs.)Copyright (c)2012 Extech Instruments Corporation (a FLIR company) Reservados todos los derechos, incluyendo el derecho de reproducción total o parcial en cualquier medi o.。

•Triple Spectrum Design - for long distance detection andhigh false alarm immunity•Sensitivity Selection - to ensure no zone crossover detection•Automatic and Manual Built-In-Test (BIT) - to assurecontinued reliable operation•Heated window - for operation in harsh weather conditions(snow, ice, condensation)•Multiple output options for maximum flexibility andcompatibility- Relays (3) for Alarm, Fault and Auxiliary- 0-20mA (stepped)- HART Protocol for maintenance and asset management- RS-485, Modbus Compatible•High Reliability - MTBF - minimum 150,000 hours•Approved to Safety Integrity Level 2 (SIL2 – TUV)•5-Year Warranty •User Programmable via HART or RS-485•Ex approved for Zone 1 hazardous area location - ATEX - IECEx - FM - CSA •3rd party Performance Tested - EN54-10 (LPCB)- FM3260 (FM)- DNV Marine Approval Superior performance, reliability and immunity to false alarmsTriple IR (IR3) Flame Detector 40/40I The new 40/40I Triple IR (IR3) Flame Detector detects fuel and gas fires at long distances with the highest immunity to false alarms. The 40/40I IR3 can detect a 1ft 2(0.1m 2) gasoline pan fire at 215 ft (65m)in less than 5 seconds.The 40/40I is the most durable and weather resistant flame detector currently on the market. Its new features include a heated window, to eliminate condensation and icing; HART capabilities for digital communications; lower power requirements;and a compact, lighter design.Due to increased reliability, the 40/40 Series warranty period has been extended to 5 years and is approved to IEC 61508 Safety Integrity requirements of SIL2.Offshore Oil & GasinstallationsOnshore Oil & Gasinstallations and pipelinesChemical plantsPetrochemicals plantsStorage Tank farmsAircraft hangars40/40M 40/40I40/40R40/40L-LB40/40L4-L4B 40/40U-UB Power Generation facilities Pharmaceutical Industry Printing Industry Warehouses Automotive Industry Explosives & Munitions Waste Disposal facilitiesContact Information Tel 1800 999 902 Fax 1800 999 903GasTech Australia Pty Ltd Wangara Western Australia 606524 Baretta Rd .auSpectral ResponseThree IR BandsDetection Range Fuel ft /m Fuel ft /m Fuel ft /m (at highest Sensitivity Setting n-Heptane 215 / 65Kerosene 150 / 45Methane*100/30for 1ft 2 (0.1m 2) pan fire)Gasoline 215 / 65Ethanol 95%135 / 40LPG *100/30Diesel Fuel 150 / 45Methanol 115 / 35Polypropylene Pellets 16/5JP5150 / 45IPA (Isopropyl Alcohol)135 / 40Office Paper 33/10* 20" (0.5m) high, 8" (0.2m) width plume fire Response TimeTypically 5 seconds Adjustable Time DelayUp to 30 seconds Sensitivity Ranges4 Sensitive ranges for 1 ft 2 (0.1m 2) n-heptane pan fire from 50 ft (15m) to 215 ft (65m)Field of ViewHorizontal 100º; Vertical 95ºBuilt-in-Test (BIT)Automatic (and Manual)Temperature RangeOperating:-67ºF to +167ºF (-55ºC to +75ºC)Option:-67ºF to +185ºF (-55ºC to +85ºC)Storage:-67ºF to +185ºF (-55ºC to +85ºC)HumidityUp to 95% non-condensing (withstands up to 100% RH for short periods)Heated OpticsTo eliminate condensation and icing on the window Operating Voltage24 VDC nominal (18-32 VDC)Power ConsumptionStandby:Max. 100mA (150mA with heated window)Alarm:Max. 150mA (200mA with heated window)Cable Entries 2 x 3/4" - 14NPT conduits or 2 x M25 x 1.5 mm ISO Wiring12 - 22AWG (2.5mm 2 - 0.3mm 2)Electrical Input ProtectionAccording to MIL-STD-1275B Electromagnetic CompatibilityEMI/RFI protected to EN50130-4Electrical Interface The detector includes twelve (12) terminals with five (5) wiring options (factory set)RelaysAlarm, Fault and Auxiliary SPST volt-free contacts rated 5A at 30 VDC or 250 VAC.0-20mA (stepped)Sink (source option) configuration Fault: 0 +1mA Warning:10mA ± 5%BIT Fault: 2mA ± 10%Alarm: 15mA ± 5%Normal:5mA ± 10%Resistance Loop:100-600 ΩHART ProtocolHART communication on the 0-20mA analog current (FSK) - used for maintenance, configuration changes and asset managementRS-485 RS-485 Modbus compatible communication link that can be used in computer controlled installationsMaterials - Stainless Steel 316L with electro polish finish Enclosure options - Heavy duty copper free aluminum (less than 1%), red epoxy enamel finishMounting Stainless Steel 316L with electro polish finishDimensions Detector 3.5" x 4.5" x 6.1" (90 x 114 x 156 mm)Weight Detector (St.St.)5.5 lb (2.5 kg) Detector, aluminum 2.5 lb (1.2 kg) Tilt mount 2.2 lb (1.0 kg)Environmental Standards Meets MIL-STD-810C for Humidity, Salt & Fog, Vibration, Mechanical Shock, High Temp, Low TempWater and Dust IP66 and IP67 per EN60529, NEMA 250 6PHazardous Area ATEX and IECExEx II 2 GD,Ex de IIB+H2 T5 (-55ºC to + 75ºC)Ex de IIB+H2 T4 (-55ºC to + 85ºC)Ex tD A21 IP66/X7 T 95ºC Ex tD A21 IP66/X7 T 105ºC FM / CSA Class I Div. 1, Groups B, C & DClass II/III Div. 1, Groups E, F & G Performance EN54-10 (LPCB)FM-3260 (FM)DNV Marine Approval Reliability IEC61508 - SIL2 (TUV)Fire Simulator 20/20-310Weather Protector 777163Laser Pointer 777166Tilt Mount 40/40-003Air Shield 777161(Detector area coverage)Tel 1800 999 902 Fax 1800 999 903GasTech Australia Pty LtdWangara Western Australia 606524 Baretta Rd .au。

General DescriptionThe MAX3658 is a transimpedance preamplifier for receivers operating up to 622Mbps. Low noise, high gain, and low power dissipation make it ideal for fiber access and small form-factor transceivers.The MAX3658 features 45nA input-referred noise, 18k Ωtransimpedance gain, 580MHz bandwidth, and 2mA P-P input overload. Operating from a +3.3V supply, the MAX3658 consumes only 66mW. An integrated filter resistor provides positive bias for the photodiode. These features, combined with a small die size, allow easy assembly into a TO-46 header with a photodiode. The MAX3658 also includes an average photocurrent monitor.The MAX3658 has typical optical sensitivity of -33dBm (0.9A/W), which exceeds the class-B APON require-ments. Typical optical overload is 1dBm. The MAX3658is available in die form with both output polarities (MAX3658A and MAX3658B). The MAX3658A is also available in a 3mm x 3mm 8-pin TDFN package.ApplicationsOptical Receivers (Up to 622Mbps Operation)Passive Optical Networks SFF/SFP Transceivers FTTx TransceiversFeatures♦45nA RMS Noise, -33dBm Sensitivity ♦18.3kΩTransimpedance Gain ♦580MHz Bandwidth♦2mA P-P Input Overload, 1dBm Overload ♦66mW Power Dissipation ♦3.3V Operation♦Average Photocurrent MonitorMAX3658622Mbps, Low-Noise, High-Gain Transimpedance Preamplifier________________________________________________________________Maxim Integrated Products 1Ordering InformationTypical Operating Circuit19-3015; Rev 3; 2/07For pricing, delivery, and ordering information,please contact Maxim/Dallas Direct!at 1-888-629-4642, or visit Maxim’s website at .+Denotes lead-free package.*Dice are designed to operate over a -40°C to +100°C junction temperature (T j ) range, but are tested and guaranteed at T A =+25°C.Pin Configuration appears at end of data sheet.M A X 3658622Mbps, Low-Noise, High-Gain Transimpedance Preamplifier 2_______________________________________________________________________________________ABSOLUTE MAXIMUM RATINGSDC ELECTRICAL CHARACTERISTICSStresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.Supply Voltage (V CC )............................................-0.5V to +4.2V Current into IN ....................................................................+5mA Voltage at OUT+, OUT-...................(V CC - 1.2V) to (V CC + 0.5V)Voltage FILT, MON.....................................-0.5V to (V CC + 0.5V)Continuous Power Dissipation (T A = +85°C)8-Lead TDFN (derate 24.4mW/°C above +85°C)......1951.2mWOperating Temperature Range ...........................-40°C to +85°C Operating Junction Temperature Range (die)....-40°C to +150°C Storage Temperature Range.............................-55°C to +150°C Die Attach Temperature...................................................+400°C Lead Temperature (soldering, 10s).................................+300°CMAX3658622Mbps, Low-Noise, High-Gain Transimpedance Preamplifier_______________________________________________________________________________________3AC ELECTRICAL CHARACTERISTICS(V CC = +2.97V to +3.63V, 150Ωload between OUT+ and OUT-, C IN = 0.5pF total, C FILT = 400pF, C VCC2= 1nF, T j = -40°C to +100°C,Typical Operating Characteristics(V CC = +3.3V, C IN = 0.5pF, T A = +25°C, unless otherwise noted.)SMALL-SIGNAL TRANSIMPEDANCEvs. TEMPERATUREM A X 3658 t o c 01AMBIENT TEMPERATURE (°C)T R A N S I M P E D A N C E (k Ω)80604020-20161718192015-40100SUPPLY CURRENT vs. TEMPERATUREM A X 3658 t o c 02AMBIENT TEMPERATURE (°C)S U P P L Y C U R R E N T (m A )80604020-20182124273015-40100MONITOR CURRENT vs. DC INPUT CURRENTM A X 3658 t o c 03DC INPUT CURRENT (μA)M O N I T O R C U R R E N T (μA )10010111010010000.10.11000M A X 3658622Mbps, Low-Noise, High-Gain Transimpedance Preamplifier 4_______________________________________________________________________________________Typical Operating Characteristics (continued)(V CC = +3.3V, C IN = 0.5pF, T A = +25°C, unless otherwise noted.)FILTER VOLTAGE vs. DC INPUT CURRENTDC INPUT CURRENT (μA)F I L T E R V O L T A G E (m V )10001001020040060080010001200140016000110,000DETERMINISTIC JITTER vs. INPUT CURRENT AMPLITUDEINPUT CURRENT (μA P-P )D E T E R M I N I S T I C J I T T E R (p s )1000100102530354045505560657020110,0001000111001000SMALL-SIGNAL LOW-FREQUENCY CUTOFFvs. DC INPUT CURRENT10100M A X 3658 t o c 06DC INPUT CURRENT (μA)L O W -F R E Q U E N C Y C U T O F F (k H z )10DIFFERENTIAL OUTPUT VOLTAGEvs. INPUT CURRENTM A X 3658 t o c 07INPUT CURRENT (μA P-P )D I F FE R E N T I A L O U T P U T V O L T A G E (m V P -P )25201510550100150200250030FREQUENCY RESPONSEFREQUENCY (Hz)T R A N S I M P E D A N C E (d B Ω)906065708580751k 10M 100k 10k1M 100M1G 10GBANDWIDTH vs. INPUT CAPACITANCEINPUT CAPACITANCE (pF)B A N D W I D T H (M H z )1.20.90.60.32004006008001000120000 1.5INPUT-REFERRED RMS NOISE vs. INPUT CAPACITANCEINPUT CAPACITANCE (pF)I N P U T -R E F E R R E D N O I S E (n A R M S )1.20.90.30.6203040506070101.5INPUT-REFERRED RMS NOISE vs. DC INPUT CURRENTM A X 3658 t o c 11DC INPUT CURRENT (μA)I N P U T -R E F E R R E D N O I S E (n A R M S )101501001502503503002000.1100OUTPUT EYE DIAGRAM (2μA ELECTRICAL INPUT)4.8mV/div330ps/div2μA 231 - 1 PRBS INPUTAT 622.08MbpsMAX3658622Mbps, Low-Noise, High-Gain Transimpedance Preamplifier_______________________________________________________________________________________5OUTPUT EYE DIAGRAM (-28dBm OPTICAL INPUT)4.5mV/div300ps/divOUTPUT EYE DIAGRAM (0dBm OPTICAL INPUT)20mV/div200ps/divTypical Operating Characteristics (continued)(V CC = +3.3V, C IN = 0.5pF, T A = +25°C, unless otherwise noted.)M A X 3658Detailed DescriptionThe MAX3658 transimpedance amplifier is designed for 622Mbps fiber optic applications. The MAX3658 is comprised of a transimpedance amplifier, a voltage amplifier, an output buffer, a DC cancellation circuit,and a photocurrent monitor.Transimpedance AmplifierThe signal current at the input flows into the summing node of a high-gain amplifier. Shunt feedback through resistor R F converts this current into a voltage. Schottky diodes clamp the output signal for large input currents (Figure 1).Voltage AmplifierThe voltage amplifier provides additional gain and con-verts the transimpedance amplifier single-ended output into a differential signal.622Mbps, Low-Noise, High-Gain Transimpedance Preamplifier 6_______________________________________________________________________________________Figure 1. MAX3658 Limited OutputOutput Buffer The output buffer is designed to drive a 150Ωdifferen-tial load between OUT+ and OUT-. For optimum supply noise rejection, the MAX3658 should be terminated with a differential load. The MAX3658 single-ended outputs do not drive a DC-coupled grounded load. The outputs should be AC-coupled or terminated to V CC. If a single-ended output is required, both the used and the unused outputs should be terminated in a similar manner (see the Interface Schematics section).DC Cancellation Circuit The DC cancellation circuit uses low-frequency feed-back to remove the DC component of the input signal (F igure 2). This feature centers the input signal within the transimpedance amplifier’s linear range, thereby reducing pulse-width distortion.The DC cancellation circuit is internally compensated and does not require external capacitors. This circuit minimizes pulse-width distortion for data sequences that exhibit a 50% mark density. A mark density signifi-cantly different from 50% causes the MAX3658 to gen-erate pulse-width distortion. Grounding the F ILT pin disables the DC cancellation circuit. For normal opera-tion, the DC cancellation circuit must be enabled.The DC cancellation current is drawn from the input and creates noise. F or low-level signals with little or no DC component, the added noise is insignificant. However, amplifier noise increases for signals with significant DC component (see the Typical Operating Characteristics).Photocurrent Monitor The MAX3658 includes an average photocurrent moni-tor. The current sourced from MON to ground is approxi-mately equal to the DC current at IN.Design ProcedureSelect PhotodiodeNoise performance and bandwidth are adversely affectedby capacitance on the TIA input node. Select a low-capacitance photodiode to minimize the total input capac-itance on this pin. The MAX3658 is optimized for 0.5pF of capacitance on the input. Assembling the MAX3658 in dieform using chip and wire technology provides the lowest capacitance input and the best possible performance.Select C FILT Supply voltage noise at the cathode of the photodiode produces a current i = C PD dv/dt, which reduces the receiver sensitivity (C PD is the photodiode capaci-tance). The filter resistor of the MAX3658 combinedwith an external capacitor, can be used to reduce theeffect of supply noise on performance (see the Typical Operating Circuit). Current generated by supply noise voltage is divided between C FILT and C PD. To obtain a good optical sensitivity select C FILT≈400pF.Select Supply Filter Sensitive optical receivers require wide-band power-supply decoupling. Power-supply bypassing should provide low impedance between V CC and ground for frequencies between 10kHz and 700MHz. Isolate theMAX3658 from noise sources with LC supply filters and shielding. Place a supply filter (C VCC2) as close to theMAX3658 as possible.Select R MONIf photocurrent monitoring is desired, connect a resistor between MON and ground to monitor the average pho-tocurrent. Select R MON as large as possible:where I MONMAX is the largest average input current observed. An ammeter can also monitor the current outof the MON pin.Select Coupling CapacitorsA receiver built with the MAX3658 will have a bandpass frequency response. The low-frequency cutoff due tothe coupling capacitors and load resistors is:MAX3658622Mbps, Low-Noise, High-GainTransimpedance Preamplifier _______________________________________________________________________________________7M A X 3658Select C COUPLE so the low-frequency cutoff due to the load resistors and coupling capacitors is much lower than the low-frequency cutoff of the MAX3658. The cou-pling capacitor should be 0.1µF or larger for SONET data. For lowest jitter, 1.0µF is recommended. Refer to application note HF AN-01.1: Choosing AC-Coupling Capacitors for a more detailed discussion on choosing AC-coupling capacitors.Select Output FilterInput sensitivity is improved by adding a filter between TIA and the quantizer/limiting amplifier, with 0.5pF input capacitance. Typical bandwidth of the MAX3658 is 580MHz; the highest expected bandwidth is 730MHz.Layout ConsiderationsFigure 3 shows suggested layouts for 4- and 5-pin TO headers.Wire BondingF or high-current density and reliable operation, the MAX3658 uses gold metalization. For best results, use gold-wire ball-bonding techniques. Use caution when wedge bonding. Die-size is 52 mils x 29 mils, (1.32mm x 0.736mm) and die thickness is 15 mils (380µm). The bond-pad passivation opening is 75µm and bond-pad metal thickness is 5µm. Refer to Maxim application note HFAN-08.0.1: Understanding Bonding Coordinates and Physical Die Size for additional information on bond-pad coordinates.Applications InformationOptical Power RelationsMany of the MAX3658 specifications relate to the input signal amplitude. When working with optical receivers,the input is sometimes expressed in terms of average optical power and extinction ratio. Figure 4 and Table 1show relations that are helpful for converting optical power to input signal when designing with the MAX3658.Optical Sensitivity CalculationThe input-referred RMS noise current (i n ) of the MAX3658 generally determines the receiver sensitivity.To obtain a system bit-error rate (BER) of 1E-10, the signal-to-noise ratio must always exceed 12.7. The input sensitivity, expressed in average power, can beestimated as:622Mbps, Low-Noise, High-Gain Transimpedance Preamplifier 8_______________________________________________________________________________________where ρis the photodiode responsivity in A/W and i n isthe RMS noise current in amps. For example, with pho-todiode responsivity of 0.9A/W, an extinction ratio of 10and 45nA input-referred noise, the sensitivity of the MAX3658 is:Actual results may vary depending on supply noise,output filter, limiting amplifier sensitivity, and other fac-tors (refer to application note HFAN-03.0.0: Accurately Estimating Optical Receiver Sensitivity ).Maxim obtains -33dBm typ sensitivity combined with the MAX3748.Input Optical OverloadOverload is the largest input that the MAX3658 accepts while meeting the pulse-width distortion specification.Optical overload can be estimated in terms of average power with the following equation:F or example, if photodiode responsivity is 1.0A/W, theinput overload is 0dBm.Optical Linear RangeThe MAX3658 has high gain, which limits the output for large input signals. The MAX3658 operates in a linear range for inputs not exceeding:F or example, with photodiode responsivity of 0.9A/Wand an extinction ratio of 10, the linear range is:Interface SchematicsEquivalent Output InterfaceThe MAX3658 has a differential output structure with75Ωtermination (150Ωdifferential). Figure 5 is a simpli-fied diagram of the output interface. Common test equipment is designed with a 50Ωsingle-ended termi-nation (100Ωdifferential). Figures 6a and 6b show alter-nate interface schemes for the MAX3658.MAX3658622Mbps, Low-Noise, High-Gain Transimpedance Preamplifier_______________________________________________________________________________________9Figure 4. Optical Power RelationsFigure 5. Equivalent Output InterfaceM A X 3658622Mbps, Low-Noise, High-Gain Transimpedance Preamplifier 10______________________________________________________________________________________Figure 6a. 50ΩAC-Coupled InterfacePad CoordinatesTable 2 gives center pad coordinates for the MAX3658bond pads. Refer to application note HF AN-08.0.1:Understanding Bonding Coordinates and Physical Die Size for more information on bond-pad coordinates.MAX3658622Mbps, Low-Noise, High-Gain Transimpedance Preamplifier______________________________________________________________________________________11Chip InformationTRANSISTOR COUNT: 833PROCESS: GST-4Pin ConfigurationM A X 3658622Mbps, Low-Noise, High-Gain Transimpedance Preamplifier ______________________________________________________________________________________12341098750.029in 0.736mm6MAX3658622Mbps, Low-Noise, High-Gain Transimpedance Preamplifier______________________________________________________________________________________12341098750.029in 0.736mm6Package Information(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information,go to /packages .)M A X 3658622Mbps, Low-Noise, High-Gain Transimpedance Preamplifier 14______________________________________________________________________________________MAX3658622Mbps, Low-Noise, High-Gain Transimpedance PreamplifierMaxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 ____________________15©2007 Maxim Integrated Productsis a registered trademark of Maxim Integrated Products, Inc.Revision HistoryRev 0;10/03:Initial data sheet release.Rev 1;5/04:Added line to EC table regarding Optical Overload at 155MHz (page 3).Rev 2;11/05:Changed TO layout in Figure 3 (page 8).Rev 3;2/07:Added lead-free package to Ordering Information table (page 1).。

美国RNO IR-384P技术参数在介绍热像仪技术参数之前，先简单介绍一下，热像仪的关键知识：1、影响热像仪成本的三大部件a、传感器，也就是探测器。

b、显示屏目前专业的热像仪显示屏，价格都在5000元左右，非专业的热像仪使用的是低分辨小屏，成本仅几百元。

c、镜头大小热像仪的镜头镜片是专业镜片，不是传统的夜视仪或者望远镜使用的那种镜片，热像仪的镜片在采购时是以克为单位的，越大的镜头，价格越贵。

2、所以同样分辨率的热像仪，专业型大镜头，高分辨率大屏幕的热像仪，比非专业型热像仪的成本要贵1万元以上。

3、目前市面上销售的价格在2万以内的比如高的热像仪，属于非专业型的热像仪，在性能、观测清晰度、观测距离上与RNO的热像仪都是没法比的。

然后，再介绍一下：热像仪的工作原理，红外热像仪是利用红外探测器和光学成像物镜接受被测目标的红外辐射能量分布图形反映到红外探测器的光敏原件上，从而获得红外热像图，这种热像图与物体表面的热分布场相对应。

通俗地讲红外热像仪就是将物体发出的不可见红外能量专为可见的热图像。

热图像的上面不同颜色代表被测物体的不同温度分布。

美国RNO手持式测温红外热像仪主要应用于工业检测、检测电路板、电力线路等。

下面是美国RNO热像仪IR- 384P的技术参数。

探测器类型：焦平面非制冷微型探测器。

探测器像素： 384*288波长范围： 8-14um像元间距 25um标准视场 25°×19°/0.1m空间分辨率 1.36mrad热灵敏度≤0.05℃在30℃时帧频 50/60Hz对焦手动电子对焦 2x可见光拍摄 320万像素液晶显示屏 2.7’’LCD测温范围 -20----650℃测温精度±2℃、±2%读数，取最大值测温模式 4个可移动点、3个可移动区域、2个线测温高温报警声音、颜色辐射率校正 0.01至1.0辐射率可调温度校正自动/手动语言简体中文存储介质最大支持16GB文件格式热图像JPEG格式带红外测量数据可见光JPEG格式语音注释 60秒语音注释，随图像一同存储激光指示器二级，1mW /635nm 红色电池类型锂电池，可充电电池工作时间 4小时连续工作省电模式自动休眠，自动关机外接电源 10-15V DC运行温度 -15℃~﹢50℃存储温度 -40℃~﹢70℃空气湿度≤95%（非冷凝）防护等级 IP 54跌落 2米尺寸 105mm×245mm×230mm重量 980g电源接口有音频输出有视频输出 PAL/NTSCUSB 图像、测量数据、语音传送至计算机下面把比较主要的技术参数，给大家做个介绍：红外热像仪按照工业温度分为制冷型和非制冷型。

KS368 - TAN TITRANTPage:1Compilation date:03/12/2014Revision date:01/01/2021Revision No:8Product name:KS368 - TAN TITRANTProduct code:AS-K23962-KWUse of substance / mixture:Oil test reagent.Company name:Parker Hannifin Manufacturing Ltd ,3 - 6 Thorgate RoadLineside Industrial EstateLittlehampton , West SussexBN17 7LU , UNITED KINGDOMUNITED KINGDOMTel:+44 (0) 1903 731470Fax:+44 (0) 1903 731480Email:Emergency tel:+32 3 575 11 30 (SGS 24/7 Emergency Hotline)Classification under CLP:Flam. Liq. 2: H225Most important adverse effects:Highly flammable liquid and vapour.Label elements:Hazard statements:H225: Highly flammable liquid and vapour.Signal words:DangerHazard pictograms:GHS02: FlamePrecautionary statements:P210: Keep away from heat, hot surfaces, sparks, open flames and other ignitionsources. No smoking.P241: Use explosion-proof electrical/ventilating/lighting equipment.KS368 - TAN TITRANTPage:2P240: Ground container and receiving equipment.P280: Wear protective gloves/protective clothing/eye protection/face protection.P303+361+353: IF ON SKIN (or hair): Take off immediately all contaminated clothing.Rinse skin with water/shower.P370+378: In case of fire: Use carbon dioxide to extinguish.Other hazards:In use, may form flammable / explosive vapour-air mixture.PBT:This product is not identified as a PBT/vPvB substance.Chemical identity:KS368 - TAN TITRANTSkin contact:Remove all contaminated clothes and footwear immediately unless stuck to skin.Drench the affected skin with running water for 10 minutes or longer if substance is stillon skin.Eye contact:Bathe the eye with running water for 15 minutes. Consult a doctor.Ingestion:Do not induce vomiting. If conscious, give half a litre of water to drink immediately.Consult a doctor.Inhalation:Remove casualty from exposure ensuring one's own safety whilst doing so. Consult adoctor.Skin contact:There may be mild irritation at the site of contact.Eye contact:There may be irritation and redness.Ingestion:There may be irritation of the throat.Inhalation:There may be a feeling of tightness in the chest with shortness of breath.Immediate / special treatment:No data available.Extinguishing media:Alcohol resistant foam. Water spray. Carbon dioxide. Dry chemical powder.Exposure hazards:Highly flammable. In combustion emits toxic fumes. Forms explosive air-vapour mixture.Vapour may travel considerable distance to source of ignition and flash back.KS368 - TAN TITRANTPage:3Advice for fire-fighters:Wear self-contained breathing apparatus. Wear protective clothing to prevent contactwith skin and eyes.Personal precautions:Refer to section 8 of SDS for personal protection details. Notify the police and firebrigade immediately. Eliminate all sources of ignition. Turn leaking containers leak-sideup to prevent the escape of liquid.Environmental precautions:Do not discharge into drains or rivers. Contain the spillage using bunding.Clean-up procedures:Do not use equipment in clean-up procedure which may produce sparks. Absorb into dryearth or sand. Clean-up should be dealt with only by qualified personnel familiar with thespecific substance.Reference to other sections:Refer to section 13 of SDS.Handling requirements:Smoking is forbidden. Use non-sparking tools. Ensure there is sufficient ventilation ofthe area. Do not handle in a confined space. Avoid the formation or spread of mists inthe air.Storage conditions:Store in a cool, well ventilated area. Keep container tightly closed. Keep away fromsources of ignition. Prevent the build up of electrostatic charge in the immediate area.Ensure lighting and electrical equipment are not a source of ignition. Storage class 3.Suitable packaging:Steel drums.Specific end use(s):No special requirement.Workplace exposure limits:No data available.DNEL / PNEC No data available.KS368 - TAN TITRANTPage:4Engineering measures:Ensure there is sufficient ventilation of the area. Ensure lighting and electricalequipment are not a source of ignition.Respiratory protection:Respiratory protection not required.Hand protection:Protective gloves. Nitrile gloves. Breakthrough time of the glove material > 1 hour. Glovesmade of thick material.Eye protection:Safety glasses. Ensure eye bath is to hand.Skin protection:Protective clothing.State:LiquidColour:ColourlessOdour:Characteristic odourEvaporation rate:ModerateOxidising:Non-oxidising (by EC criteria)Solubility in water:MiscibleAlso soluble in:Chloroform. Acetone. Diethyl ether.Viscosity:Non-viscousBoiling point/range°C:78Melting point/range°C:-130Flammability limits %: lower: 3.3upper:19Flash point°C:12Autoflammability°C:363Vapour pressure:44.6mm@20°C Relative density:0.785Other information:No data available.Reactivity:Stable under recommended transport or storage conditions.Chemical stability:Stable under normal conditions. Stable at room temperature.Hazardous reactions:Hazardous reactions will not occur under normal transport or storage conditions.Conditions to avoid:Heat. Hot surfaces. Sources of ignition. Flames.Materials to avoid:Strong oxidising agents. Strong acids.KS368 - TAN TITRANTPage:5Haz. decomp. products:In combustion emits toxic fumes.Hazardous ingredients:ETHANOLToxicity values:No data available.Skin contact:There may be mild irritation at the site of contact.Eye contact:There may be irritation and redness.Ingestion:There may be irritation of the throat.Inhalation:There may be a feeling of tightness in the chest with shortness of breath.Ecotoxicity values:No data available.Persistence and degradability:Biodegradable.Bioaccumulative potential:No bioaccumulation potential.Mobility:Readily absorbed into soil.PBT identification:This product is not identified as a PBT/vPvB substance.Other adverse effects:Negligible ecotoxicity.Disposal operations:Transfer to a suitable container and arrange for collection by specialised disposalcompany.Disposal of packaging:Dispose of in a regulated landfill site or other method for hazardous or toxic wastes.KS368 - TAN TITRANTPage:6 NB:The user's attention is drawn to the possible existence of regional or nationalregulations regarding disposal.UN number:UN1170Shipping name:ETHANOL SOLUTIONTransport class:3Packing group:IIEnvironmentally hazardous:No Marine pollutant:NoSpecial precautions:No special precautions.Specific regulations:Not applicable.Chemical safety assessment: A chemical safety assessment has not been carried out for the substance or the mixtureby the supplier.Other information:This safety data sheet is prepared in accordance with Commission Regulation (EU) No453/2010.* indicates text in the SDS which has changed since the last revision.Phrases used in s.2 and s.3:H225: Highly flammable liquid and vapour.Legal disclaimer:The above information is believed to be correct but does not purport to be all inclusiveand shall be used only as a guide. This company shall not be held liable for anydamage resulting from handling or from contact with the above product.。

随着电子信息技术的发达，电子产品的多元化发展，步进电机在我们生活中被广泛应用。

不同类型的步进电机有不同的作用和特征。

下午维科特主要给大家介绍一种空心轴步进电机。

空心轴步进电机的主要技术特征：电机轴为空心金属管，并在其空心金属管内壁上装有叶轮，叶轮采用焊接的方法以及其它方法将其固定在管轴内壁轴承处。

无精度要求是指对于电机的空心出轴或者内孔的尺寸精度要求不高，其内孔主要被用于走线、透光或者通过空气等其他媒介。

空心轴电机这样的设计极大的优化了机械设计、方便布线及节约了设计空间和生产成本。

有精度要求的空心轴步进电机，对于空心出轴或者说其内孔孔径及螺纹的精度有着很高的要求，主要是因为这样的空心轴电机大多是定制，用来满足使用第三方梯形丝杠或者滚珠丝杠的需求的。

这样的空心轴对于内孔孔径及螺纹的精度要求比普通的贯通式丝杆电机要求还要高。

空心轴电机在用途上有广阔的领域，可用作水泵，通风设备，增压设备、小型水轮发电机，推进器等。

优点是：减少体积、减轻重量、降低噪音，一体多用，降低成本，制造简单，使用方便。

深圳市维科特机电有限公司成立于2005年，是步进电机产品的销售、系统集成和应用方案提供商。

我们和全球产品性价比高的生产厂家合作，结合本公司专家团队多年的客户服务经验，给客户提供有市场竞争力的步进电机系统解决方案。

我们的主要产品有信浓(SHINANO KENSHI)混合式步进电机、日本脉冲(NPM)永磁式步进电机、减速步进电机、带刹车步进电机、直线步进电机、空心轴步进电机、防水步进电机以及步进驱动器、减振垫、制振环、电机引线、拖链线、齿轮、同步轮、手轮等专业配套产品。

我们还供应德国TRINAMIC驱动芯片和日本NPM运动控制芯片。

根据客户配套需要，我们还可以提供其他种类及其他品牌微电机产品的配套服务。

也提供NPM的线性磁轴电机(直线电机)及技术支持和服务。

红外线遥控接收头型号及参数：红外线遥控接收头 HS0038B第1脚为信号输出第2脚为电源地第3脚为电源正接收电路工作原理为：当接收到载波频率为38KHz的脉冲调制信号时，首先，HS0038B内的红外敏感元件将脉冲调制红外光信号转换成电信号，再由前置放大器和自动增益控制电路进行放大处理，然后通过带通滤波器进行滤波，滤波后的信号由解调电路进行解调，最后由输出电路进行反向放大并输出低电平；未接收到载波信号时，电路则输出高电平。

一体化红外遥控接收头SH0038、SCR638型管脚识别一体化红外遥控接收头型号：PNA4602M 型管脚识别一体化红外线接收头RPM-638CBR型管脚识别红?外?一?体?化?接?收?头?型号：T?S?O?P?1?8?3?8管脚识别：一体化红外线接收头原理图及管脚排列什么是遥控接收头？所谓接收头就是将光敏二极管和放大电路组合到一起的元件，这些元件完成接收、放大、解调等功能。

所有红外线遥控器的输出都是用编码后的串行数据对30~56kHz的方波进行脉冲幅度调制而产生的。

如果直接对已调波进行测量，由于单芯片系统的指令周期是微秒(μs)，而已调波的脉宽只有20多μs，会产生很大的误差。

因此先要对已调波进行解调，对解调后的波形进行测量。

红外一体化接收头：红外线接收头一般是接收、放大、解调一体头，一般红外信号经接收头解调后，数据“0”和“1”的区别通常体现在高低电平的时间长短或信号周期上，单片机解码时，通常将接收头输出脚连接到单片机的外部中断，结合定时器判断外部中断间隔的时间从而获取数据。

重点是找到数据“0”与“1”间的波形差别。

输出端可与CMOS、TTL电路相连，这种接收头广泛用在空调，电视，VCD等电器中。

早期的红外一体化接收头一般由集成电路与接收二极管焊接在一块电路板上完成的，这种接收头具有体积大的缺点，现在的接收头是集成电路与接收二极管封装在一起的，不可拆，不可修，体积很小。

大多数接收头供电为5V，有极少数早期的接收头为12V供电。

241For additional technical information visit Metric measurements for this product are exact, imperial measurements are rounded to the nearest whole numberUseful Cooling Capacity: 2400 - 5794 BTU (703 - 1697 W)Part No. with basic controller 3303.1042)3303.1142)3304.1043304.1143304.1443305.1043305.1143305.144Part No. with comfort controller 3303.5042)3303.5142)3304.5043304.5143304.5443305.5043305.5143305.544Voltage V , Hz230, 50/60115, 60230, 50/60115, 60400, 50/ 460, 60, 3~230, 50/60115, 60400, 50/ 460, 60, 3~Dimensions inches (mm)H x W x D24 x 11 x 12 (620 x 285 x 298)40 x 16 x 14 (1020 x 405 x 358)Useful cooling capacity Q KBTU (W)T i 131 T a 1312400 (703)3916 (1147)5794 (1697)Useful cooling capacity Q K to DIN 3168 BTU (W)T i 95 T a 951708/2083(500/610)1708 (500)3415/3620 (1000/1060)5123/5157 (1500/1510)T i 95 T a 122956/1195(280/350)956 (280)2698/2869 (790/840)4201/4269 (1230/1250)Rated current maximum 2.6/2.6 A 5.7 A 5.4/5.0 A 10.6/11.1 A 2.8/2.9 A 6.0/6.5 A 12.1/13.6 A 2.6/2.9 A Starting current 5.1/6.4 A 11.5 A 12.0/14.0 A 26.0/28.0 A 11.5/12.7 A 22.0/24.0 A 42.0/46.0 A 12.2/11.3 A Pre-fuse T 10.0 A 10.0 A 10.0 A 16.0 A 10.0 A 1)16.0 A 20.0 A 10.0 A 1)Power consumption Pel toDIN 3168T i 95 T a 95360/380 W 470 W 700/650 W 725/680 W 580/550 W 850/1000 W 880/1050 W 800/980 W T i 95 T a 122420/390 W500 W 750/710 W 780/750 W 660/680 W 1000/1160 W 1040/1200 W 960/1150 W Cooling coefficient j =Q K /PelT i 95 T a 95 1.4 1.7 1.8 1.7 1.9Refrigerant R134a, 6.0 oz (170 g)R134a, 17.6 oz (500 g)R134a, 21.1 oz (600 g)Maximum allowable operating pressure 406 psi (28 bar)363 psi (25 bar)Temperature and setting range Comfort Controller - 68 to 131° F (+20 to +55° C) / Basic Controller - 86 to 131° F (+30 to +55° C)Environmental ratings UL Type 4X (IP 66)Duty cycle 100%Type of connection Plug-in terminal strip Weight lb (kg)55.1 (25)108.2 (49)119.0 (54)110.2 (50)112.4 (51)123.5 (56)114.6 (52)Material Type 304 stainless steelAir displacement offans External circuit 203 cfm (345 m 3/h)530 cfm (900 m 3/h)530 cfm (900 m 3/h)Internal circuit 182 cfm (310 m 3/h)353 cfm (600 m 3/h)471 cfm (800 m 3/h)Temperature control Basic or comfort controller (factory setting 95° F [+35° C])Accessories PU Page Door-operated switch 14127.010–Master/slave cable for comfortcontroller13124.100–3124.100267RiDiag II including cables for comfortcontroller13159.100267Interface card for comfort controller 13124.200268Condensate hose 13301.6103301.6122731) Motor circuit breaker. 2)Internal condensate evaporator not included. Special voltages and technical modifications available on request.Wallmounted UL T ype 4X Air ConditionerCon guration:Fully wired ready for connection, including drilling template and assembly parts. With nano-coated condenser and integrated condensate evaporator.Protection Ratings:UL and cUL recognized, CSA UL Type 4XUL file: SA8250 Material:Type 304 stainless steel Note:Air conditioner with comfortcontroller may be integrated into a monitoring system with an optional interface card 3124.20 (RS 232, RS 485, RS 422 and PLC interface). See page 268. Made in the USA.000C o u r t e s y o f C M A /F l o d y n e /H y d r a d y n e ŀ M o t i o n C o n t r o l ŀ H y d r a u l i c ŀ P n e u m a t i c ŀ E l e c t r i c a l ŀ M e c h a n i c a l ŀ (800) 426-5480 ŀ w w w .c m a f h .c o242For additional technical information visit Metric measurements for this product are exact, imperial measurements are rounded to the nearest whole numberUseful Cooling Capacity: 8706 - 10525 BTU (2550 - 3083 W)Part No. with basic controller 3328.1043328.1143328.1443329.1043329.1143329.144Part No. with comfort controller 3328.5043328.5143328.5443329.5043329.5143329.544Rated operating voltage V , Hz 230, 50/60115, 50/60400, 50/460, 60, 3~230, 50/60115, 50/60400, 50/460, 60, 3~Dimensions inches (mm)H x W x D 65 x 16 x 15 (1650 x 405 x 388)Useful cooling capacity Q K BTU (W)T i 131 T a 1318706 (2550)10525 (3083)Useful cooling capacity Q K to DIN 3168 BTU (W)T i 95 T a 956860/8025 (2000/2350)8538/9392 (2500/2750)T i 95 T a 1224952/5772 (1450/1690)5464/5977 (1600/1750)Rated current max. 7.5 A/9.1 A 14.7 A/17.3 A 2.8 A/3.3 A 8.6 A/10.6 A 17.0 A/22.0 A 3.7 A/3.8 A Start-up current 22.0 A/26.0 A36.0 A/39.0 A6.8 A/7.8 A 21.0 A/21.0 A44.0 A/42.0 A6.8 A/7.6 A Pre-fuse T16.0 A25.0 A 10.0A/10.0 A 1)16.0 A 25.0 A 10.0 A/10.0 A 1)Power consumption Pel to DIN 3168 T i 95 T a 951025/1200 W 1085/1250 W 1050/1275 W 1450/1675 W 1500/1725 W 1425/1625 W T i 95 T a 1221250/1350 W1300/1410 W1275/1525 W1625/2000 W1675/2065 W1675/1975 WCooling coefficient j = Q K /Pel T i 95 T a 951.72.31.92.0RefrigerantR134a, 31.7 oz (900 g)Maximum allowable operating pressure 406 psi (28 bar)Temperature and setting range Comfort Controller - 68 to 131° F (+20 to +55° C) / Basic Controller - 86 to 131° F (+30 to +55° C)Protection rating UL Type 4X (IP 66)Duty cycle 100%Type of connection Plug-in terminal stripWeight lb (kg)176.4 (80)191.8 (87)176.4 (80)183.0 (83)198.4 (90)183.0 (83)MaterialType 304 stainless steelAir displacement of fans External circuit 377 cfm (640 m 3/h)418 cfm (710 m 3/h)Internal circuit324 cfm (550 m 3/h)377 cfm (640 m 3/h)Temperature control Basic or comfort controller (factory setting 95° F [+35° C])Accessories PU Page Door-operated switch14127.010–Master/slave cable for comfort controller13124.100267RiDiag II including cables for comfort controller 13159.100267Interface card for comfort controller 13124.200268Condensate hose13301.6122731)Motor circuit breaker. Special voltages available on request. We reserve the right to make technical modifications.Wallmounted UL T ype 4X Air ConditionerCon guration:Fully wired ready for connection, including drilling template and assembly parts. With nano-coated condenser and integrated condensate evaporator.Protection Ratings: UL and cUL recognized UL Type 4X UL file: SA8250Material:Type 304 stainless steelNote:Air conditioner with comfortcontroller may be integrated into a monitoring system with an optional interface card 3124.200(RS 232, RS 485, RS 422 and PLC interface). See page 268. Made in the USA.C o u r t e s y o f C M A /F l o d y n e /H y d r a d y n e ŀ M o t i o n C o n t r o l ŀ H y d r a u l i c ŀ P n e u m a t i c ŀ E l e c t r i c a l ŀ M e c h a n i c a l ŀ (800) 426-5480 ŀ w w w .c m a f h .c o。

EVERLIGHT ELECTRONICS CO.,LTD.Technical Data Sheet Infrared Remote-control Receiver ModuleIRM-3638T-RFeatures• Photo detector and preamplifier in one package • Internal filter for PCM frequency • Improved inner shielding against electrical field disturbance • TTL and CMOS compatibility • Low power consumption • Improved immunity against ambient light • Suitable burst length ≧10 cycles/burst • Pb free • BiCMOS manufacture IC ; ESD HBM>4000V ; MM>250V • The product itself will remain within RoHS compliant version.DescriptionsThe IRM-3638T-R is miniaturized receivers for infrared remote control systems. PIN diode and preamplifier are assembled on lead frame, the epoxy package is designed as IR filter. The demodulated output signal can directly be decoded by a microprocessor. IRM-3638T-R is the standard IR remote control receiver series, supporting all major transmission codes.Applications․Light detecting portion of remote control ․AV instruments such as Audio, TV, VCR, CD, MD, etc. ․Home appliances such as Air-conditioner, Fan , etc. ․The other equipments with wireless remote control. ․CATV set top boxes ․Multi-media EquipmentPART Chip CompoundMATERIAL Silicon EpoxyCOLOR Black BlackEverlight Electronics Co., Ltd. Device No：SZDMO-036-053http:\\ Prepared date：20-Sep-06Rev 1Page: 1 of 10Prepared by：Hao LiuEVERLIGHT ELECTRONICS CO.,LTD.IRM-3638T-RPackage DimensionsOUT GND Vcc24±1.0Unit:mmNotes: 1.All dimensions are in millimeters.2.Tolerances unless dimensions ±0.3mm.Everlight Electronics Co., Ltd. Device No：SZDMO-036-053http:\\ Prepared date：20-Sep-06Rev 1Page: 2 of 10Prepared by：Hao LiuEVERLIGHT ELECTRONICS CO.,LTD.IRM-3638T-RAbsolute Maximum Ratings (Ta=25℃)Parameter Supply Voltage Operating Temperature Storage Temperature Soldering Temperature Symbol Vcc Topr Tstg Tsol Rating 0~6 -25 ~ +80 -40 ~ +85 260 Unit V ℃ ℃ ℃ 4mm from mold body less than 10 seconds NoticeRecommended Operating ConditionSupply Voltage Rating: Vcc 2.7V to 5.5VElectro-Optical Characteristics (Ta=25℃, and Vcc=3.0V)Parameter Consumption Current B.P.F Center Frequency Peak Wavelength Reception Distance Half Angle(Horizontal) Half Angle(Vertical) High Level Pulse Width Low Level Pulse Width High Level Output Voltage Low Level Output Voltage Symbol Icc Fo λp L0 L45 Θh Θv TH TL VH VL MIN. ------12 5.5 ----400 400 2.7 --TYP. 0.8 38 940 ----45 45 --------MAX. 1.0 ------------800 800 --0.25 deg deg μs μs V V At the ray axis *2 At the ray axis *1 Unit mA KHz nm m Condition No signal inputNotes: *1:The ray receiving surface at a vertex and relation to the ray axis in the range of θ= 0° and θ=45°. *2:A range from 30cm to the arrival distance. Average value of 50 pulses.Everlight Electronics Co., Ltd. Device No：SZDMO-036-053http:\\ Prepared date：20-Sep-06Rev 1Page: 3 of 10Prepared by：Hao LiuEVERLIGHT ELECTRONICS CO.,LTD.IRM-3638T-RTest Method：The specified electro-optical characteristics is satisfied under the following Conditions at the controllable distance. Measurement place A place that is nothing of extreme light reflected in the room. External light Project the light of ordinary white fluorescent lamps which are not high Frequency lamps and must be less then 10 Lux at the module surface. (Ee≦10Lux) Standard transmitter A transmitter whose output is so adjusted as to Vo=400mVp-p and the output Wave form shown in Fig.-1.According to the measurement method shown in Fig.-2 the standard transmitter is specified. However , the infrared photodiode to be used for the transmitter should be λp=940nm,∆λ=50nm. Also, photodiode is used of PD438B(Vr=5V). (Standard light / Light source temperature 2856°K). Measuring system According to the measuring system shown in Fig.-3Block Diagram：VsINInputCGA & filterDemodulatorOUTµCOscillatorCarrier frequency f0AGC/ATC & digital controlModulated IR signal min 10 pulsesGNDEverlight Electronics Co., Ltd. Device No：SZDMO-036-053http:\\ Prepared date：20-Sep-06Rev 1Page: 4 of 10Prepared by：Hao LiuEVERLIGHT ELECTRONICS CO.,LTD.IRM-3638T-RApplication Circuit：RC Filter should be connected closely between Vcc pin and GND pin.Fig.-1Transmitter Wave FormD.U.T output PulseCarrier frequency is adjusted to center frequency of each product.OUTPUT PULSE OF DEVICEIR TANSMITTER OUTPUT WAVE FORMDuty=0.5Fig.-2Measuring Method20cm 10k +5.0± 0.1VFig.-3Measuring SystemL: Transmission Distance10uFθ θVcc OUT D.U.TVoutStandard TransmitterStandard Transmitter100kVout GNDOscilloscopeθ: Angle Of Horizontal & Vertical DirectionEverlight Electronics Co., Ltd. Device No：SZDMO-036-053http:\\ Prepared date：20-Sep-06Rev 1Page: 5 of 10Prepared by：Hao LiuEVERLIGHT ELECTRONICS CO.,LTD.IRM-3638T-RThe Notice of Application:Transmission of remote control signal consist of four parts: Encode Part, IR Transmitter Source, IRM device, Decode Part 1. When IRM-3638T-R code select frequency, it need to well understand the center system of encode part. 2. Strong or weak light of IR Transmitter can affect distance of transmission. 3. When using IRM-3638T-R device, it requires the composition of code pattern to reach the demand as follows:Minimum tburst ( number of pulses per burst) 10 pulsesMinimum tburst_gap ( number of pulses between two burst) 14 pulsesMinimum tpause25 msec4. It needs to ensure the translation range of decode part if it is applied to the pulse-width range. If the above items hardly assure of its application, it’ll cause NG(no good) message from the edge of signal.IRM-3638T-R Code Property:Data format NEC RC5 _ Philips RC6 _ Philips RCA _ Thomson Toshiba Sharp JVC O O O X O O O Data format Sony 12 Bit Sony 15 Bit Sony 20 Bit Matsushita Mitsubishi Zenith High data rate (4000 bit/s) O X X O O O XEverlight Electronics Co., Ltd. Device No：SZDMO-036-053http:\\ Prepared date：20-Sep-06Rev 1Page: 6 of 10Prepared by：Hao LiuEVERLIGHT ELECTRONICS CO.,LTD.IRM-3638T-RTypical Electro-Optical Characteristics CurvesFig.-4 Relative Spectral Sensitivity vs. Wavelength Fig.-5 Relative Direction Transmission Distance vs.Relative Transmission Distance (%)80 60 4020 0-60-40-200204060Angle (deg)Fig.-6 Output Pulse Length vs. Arrival DistanceFig.-7 Arrival Distance vs. Supply VoltageOutput Pulse Width TWL (µsec)Transmission Distance Lc (m)0 2 4 6 8 10 12 14 1616.0 12.0 8.0 4.002.7 3.0 3.3 3.5 3.8 4.1 4.4 4.7 5.0 5.3 5.5Transmission Distance Lc (m)Supply Voltage Vcc (V)Everlight Electronics Co., Ltd. Device No：SZDMO-036-053http:\\ Prepared date：20-Sep-06Rev 1Page: 7 of 10Prepared by：Hao LiuEVERLIGHT ELECTRONICS CO.,LTD.IRM-3638T-RTypical Electro-Optical Characteristics CurvesFig.-8 Relative Transmission Distance vs. Center Carrier Frequency Fig.-9 Arrival Distance vs. Ambient Temperature17.580 70Transmission Distance Lc (m)20 25 30 35 40 45 509014.0 10.5 7.0 3.5Relative Distance (%)60 50Carrier Frequency (KHz)Ambient Temperature Ta (°C)Everlight Electronics Co., Ltd. Device No：SZDMO-036-053http:\\ Prepared date：20-Sep-06Rev 1Page: 8 of 10Prepared by：Hao LiuEVERLIGHT ELECTRONICS CO.,LTD.IRM-3638T-RReliability Test Item And ConditionThe reliability of products shall be satisfied with items listed below. Confidence level：90% LTPD：10% Test Items 1 cycle Temperature cycle Test Conditions -40℃ +100℃ n=22,c=0 Failure Judgement Criteria Samples(n) Defective(c)(15min)(5min)(15min) 300 cycle test Temp: +100℃ L0≦ L×0.8 L45≦ L×0.8High temperature test Vcc:6V 1000hrs Low temperature storage High temperature High humidity Temp: -40℃ 1000hrs Ta: 85℃,RH:85% 1000hrs Temp: 260±5℃ 10sec 4mm From the bottom of the package.n=22,c=0n=22,c=0 L: Lower specification limitn=22,c=0Solder heatn=22,c=0Everlight Electronics Co., Ltd. Device No：SZDMO-036-053http:\\ Prepared date：20-Sep-06Rev 1Page: 9 of 10Prepared by：Hao LiuEVERLIGHT ELECTRONICS CO.,LTD.IRM-3638T-RPacking Quantity Specification1. 1500 PCS/1Box 2. 10 Boxes/1CartonLabel Form SpecificationCPN: Customer’s Production Number P/N : Production Number QTY: Packing Quantity CAT: Ranks HUE: None REF: Reference LOT No: Lot Number MADE IN TAIWAN: Production PlaceIRM-3638T-RNotes1. Above specification may be changed without notice. EVERLIGHT will reserve authority on material change for above specification. 2. When using this product, please observe the absolute maximum ratings and the instructions for using outlined in these specification sheets. EVERLIGHT assumes no responsibility for any damage resulting from use of the product which does not comply with the absolute maximum ratings and the instructions included in these specification sheets. 3. These specification sheets include materials protected under copyright of EVERLIGHT corporation. Please don’t reproduce or cause anyone to reproduce them without EVERLIGHT’s consent.EVERLIGHT ELECTRONICS CO., LTD. Office: No 25, Lane 76, Sec 3, Chung Yang Rd, Tucheng, Taipei 236, Taiwan, R.O.CTel: 886-2-2267-2000, 2267-9936 Fax: 886-2267-6244, 2267-6189, 2267-6306 http:\\Everlight Electronics Co., Ltd. Device No：SZDMO-036-053http:\\ Prepared date：20-Sep-06Rev 1Page: 10 of 10Prepared by：Hao Liu。

基于手机式的RFID 自动关开电子门禁系统设计书目录一、系统简介 (1)二、系统组成 (2)2.1系统研究由来 (2)2.2系统研究方案 (2)2.3系统研究组成 (4)2.3.1驱动装置 (4)2.3.2检测装置 (5)2.3.3控制装置 (5)2.4系统研究分析 (7)2.5系统参考资料 (7)一、系统简介本学期我校大部分学生公寓均安装了门禁系统，该系统让我校同学公寓内的财务安全有了更好的保障。

在门禁系统使用的过程中，也出现了一些问题，给某些同学带来了很大的不便。

该门禁的使用方法为出入时先刷校园一卡通，门禁系统自动解锁，然后拖或拉门，出入后门依靠弹力自动关闭。

这就给我们骑自行车或电动车出入的同学带来了极大的不便利，因为刷完校园卡需要及时推或拉门，而门上没有回弹装置，这就要我们同学一边推着门一边骑车出入，非常不方便。

同时，随着移动通信技术的飞速发展，智能手机应用普及，基于RFID的物联网多领域的推进，手机和RFID技术结合成了一种趋势。

传统的电子门禁系统，一般都是通过输入密码、指纹或者刷卡来控制电路，从而控制机械开关的闭合，完成打开、关闭门禁系统。

我们生活中比较熟悉的的有密码识别、生物识别、卡片识别三种形式。

密码识别是通过检验输入密码来识别权限，密码识别安全性相对低一些，密码也容易忘记；生物识别通过人的一些生物特征来识别，如常见的的指纹、面部、虹膜识别等，其安全性能比较高，但是高昂的成本费用不容易推广，尤其对于学校这种公共场合，人流量比较大，识别对象的数据存储和处理的服务后台要求较高；卡片识别主要有磁性卡片和RFID卡片，磁性卡片安全性能低，容易磨损，RFID卡片便宜，使用方便，安全性能高，体积小，价格适宜，同时我们理工学校所用的一卡通系统都是就RFID的卡片——一卡通。

一卡通存在一个弊端，容易丢失，有时也容易忘记随身待在身上，但没有一卡通，消费和进出门都显得不容易，尤其是丢失后，出入学校和补办都比较麻烦。