IR选型指南
IRHiRel肖特基二极管和超快速整流器产品选型指南说明书
/hirelIRHiRel Schottky Diodes and Ultra-Fast Rectifiers Product Selection Guide2IntroductionThe latest rectifier products are now available from the world’s most reliable source of power semiconductors. Whether your requirement is in the output rectification, circuit isolation, or free-wheeling design application, these new series of Schottky and high voltage ultra-fast recovery rectifiers are intended to provide the high circuit eff iciency, excellent dynamic performance and unparalleled reliability our customers are accustomed to with our products. The products are available in a choice of her-metic packages with years of excellent reliability records.IRHiRel Schottky Diodes and Ultra-Fast Rectifiers are off ered with the following screening and QCI levels based on the DoD Department of Logistics (DLA) MIL-PRF-19500:1. Commercial off the shelf (COTS) with no QCI 2. Source Control Drawing (SCD)3. IRHiRel’s Qualified IR List (QIRL) with TX, TXV and S level equivalent to MIL-PRF-19500 screenings, manufactured and testedon the same production line with the same flow as MIL-PRF-19500 DLA approved line. QIRL part numbers have SCX, SCV, SCS suff ix respectively.4. DLA approved Qualified Product List (QPL) with TX, TXV, and S level screenings to MIL-PRF-19500 sold under military partnumber starting with JAN under DLA approved slash sheet.+12/15V Output-12/15V Output-1.8-5V Output 12/15V RTNRTNContentSchottky DiodesSingle Device4Common Cathode5Ultra-Fast DiodesSingle DeviceCommon Cathode67Ultra-fast Diodes NomenclatureFredHB HC HI HF HJ HY SchottkyScreening level SCX = TX Level SCV = TXV Level SCS = Space LevelScreening level SCX = TX Level SCV = TXV Level SCS = Space LevelS No Suffix A B No Suffix C J D Circuit designator No Suffix = Single DieC = Common Cathode Configuration J = Common Anode ConfigurationD = Doubler Configuration Eyelet designator(Applies only to TO-257AA package)C = Ceramic Eyelets G = Glass EyeletsEyelet designator(Applies only to TO-257AA package)C = Ceramic Eyelets G = Glass EyeletsLead optionA = Lead Form Down*B = Lead Form UpC = Lead Trimmed (clipped)* Lead attach if package is on SMD Lead optionA = Lead Form Down*B = Lead Form UpC = Lead Trimmed (clipped)D = Carrier (applies only to SMD-1 and SMD-2)* Lead attach if package is on SMDVoltage rating 030 = 30V 045 = 45V 060 = 60V 100 = 100V 150 = 150V20 = 200V 60 = 600V 120 = 1200VE G I K L LI Y YI = D2Schottky Diodes NomenclatureHF30C C CSCX 60HB APublished byInfineon Technologies Americas Corp.El Segundo, California - U.S.A© 2016 Infineon Technologies Americas Corp.All rights reserved.Order number: B119-I0354-V1-7600-NA-EC-P Date: 08 / 2016Please note!THIS DOCUMENT IS FOR INFORMATION PURPOSES ONLY AND ANY INFORMATION GIVEN HEREIN SHALL IN NO EVENT BE REGARDED AS A WARRANTY, GUARANTEE OR DESCRIPTION OF ANY FUNCTIONALITY, CONDITIONS AND/OR QUALITY OF OUR PRODUCTS OR ANY SUITABILITY FOR A PARTICULAR PURPOSE. WITH REGARD TO THE TECHNICAL SPECIFICATIONS OF OUR PRODUCTS, WE KINDLY ASK YOU TO REFER TO THE RELEVANT PRODUCT DATA SHEETS PROVIDED BY US. OUR CUSTOMERS AND THEIR TECHNICAL DEPARTMENTS ARE REQUIRED TO EVALUATE THE SUITABILITY OF OUR PRODUCTS FOR THE INTENDED APPLICATION.WE RESERVE THE RIGHT TO CHANGE THIS DOCUMENT AND/OR THE INFORMATION GIVEN HEREIN AT ANY TIME.Additional information For f urther in f ormation on technologies, our products, the application o f our products, delivery terms and conditions and/or prices, please contact your nearest Infineon Technologies office ().WarningsDue to technical requirements, our products may contain dangerous substances. For information on the types in question, please contact your nearest Infineon Technologies office.Except as otherwise explicitly approved by us in a written document signed by authorized representatives o f In f ineon Technologies, our products may not be used in any li f e- endangering applications, including but not limited to medical, nuclear, military, lif e-critical or any other applications where a ailure of the product or any consequences of the use thereof can result in personal injury.Service hotlineInfineon offers its toll-free 0800/4001 service hotline as one central number, available 24/7 in English, Mandarin and German.›Germany ....................0800 951 951 951 (German/English) ›China, mainland .......4001 200 951 (Mandarin/English) ›India ..........................000 800 4402 951 (English)›USA ............................1-866 951 9519 (English/German)›Other countries .........00* 800 951 951 951 (English/German)›Direct access .............+49 89 234-0 (interconnection fee, German/English)* P lease note: Some countries may require you to dial a code other than “00” to access this international number. Please visit /service for your country!Where to buyInfineon distribution partners and sales offices: /WhereToBuyMore information:/hirelMobile Product CatalogMobile app for iOS and Android.。
IR公司_大功率MOS管选型
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。
保险丝选型手册
保险丝的应用指南目录一.保险丝的基本工作原理二.管状保险丝的分类三.选择保险丝的十个要素四.小型管状保险丝的测试要求五.小型管状保险丝的安全认证一. 保险丝的基本原理-----------------------------------------------1.结构:在电路过电流保护元件中最常用的就是小型管状保险丝,它是由两端带有金属联接端子的管体和管内的金属熔体这两大主要部份所组成的,其外壳部份的作用是支撑和联接,大多数保险丝的外型是圆柱形的,即所称为管状的;关键的功能是由内部的熔体所决定的。
2.功能:保险丝是串联在电路中的,一般要求其电阻要小(功耗要小),因此当电路正常工作时,保险丝只相当于一根导线,能够长时间稳定的使用;由于电源或外部干扰而发生电流波动时,保险丝也能承受一定范围的过载;只有当电路中出现较大的过载电流--故障或短路--时,保险丝才会动作,通过断开电流来保护电路的安全。
3.原理:保险丝通电时因电流转换的热量会使熔体的温度上升,在负载正常工作电流或允许的过载电流时,电流所产生的热量和通过熔体,壳体和周围环境所幅射,对流和传导等方式散发的热量能逐步达到平衡;如果散热速度跟不上发热时,这些热量就会在熔体上逐部积蓄,使熔体温度上升,一旦温度达到和超过熔体材料的熔点就会使它熔化,从而断开电流,起到安全保护的作用。
4.名词术语:额定电流:保险丝的公称工作电流,代号:In额定电压:保险丝的公称工作电压,代号:Un电压降:额定电流下保险丝两端的电压降,代号:Ud冷电阻:保险丝不工作时本身的电阻值,代号:Rn过载能力:保险丝能长期工作的过载电流(有些品种能在高温条件下)熔断特性:保险丝工作的性能指标--负载电流和熔断时间两者的函数关系,即时间/电流特性 (也称为安-秒特性)。
通常有两种表达方法:----熔断特性曲线:以负载电流为X座标,熔断时间为Y座标,由保险丝在不同电流负载下的平均熔断时间座标点连成的曲线。
夏普光耦选型手册
PC357NJ0000F
一般用途 一般用途, 高抗噪声性*1 高集电极发射极 电压 低输入电流, 高抗噪声性*1 可进行交流输入 低输入电流, 可进行交流输入, 高抗噪声性*1 高灵敏度
⅜❇
PC352NJ0000F 单 光 晶 体 管 输 出
⅜
50
3.75
80
90
5
5
4
2
100
2
PC451J00000F
PC714V0NSZXF PC724V0NSZXF
高绝缘电压 高绝缘电压, 大输入电流 高绝缘电压, 带基底端子 高绝缘电压, 高灵敏度 高绝缘电压, 高灵敏度, 高集电极发射极电压, 大功率
小型, SMT 型
数字输出 模拟/数字输出
一般用途,高响应速度, 2 通道等 高 CMR
44 44
DIP 型, SMT 型
数字输出 内置基本放大器
一般用途 用于倒流控制,内置短路保护电路
PC900V0NSZXF PC925LxNSZ0F /PC942J00000F/ PC928J00000F/PC929J00000F
安全标准*8
绝对最大额定值
光电特性
PC123XNNSZ0F*1, *5, *6, *7 单 PC1231xNSZ0X*1 光 晶 体 PC817XNNSZ0F*5, *6, *7 管 输 PC8171xNSZ0X*5, *6 出 PC851XNNSZ0F*5, *6
高绝缘电压,强化绝缘型 高绝缘电压,强化绝缘型, 低输入电流,高抗噪声性*4 高绝缘电压 高绝缘电压,低输入电流, 高抗噪声性*4 高绝缘电压, 高集电极发射极电压 高绝缘电压,高灵敏度 高绝缘电压, 高灵敏度,低输入电流 高绝缘电压, 高集电极发射极电压 高绝缘电压, 高集电极发射极电压
IR器件选型
IR产品选型指南
28L PDIP 44L PLCC 28L SOIC
28L PDIP 44L PLCC 28L SOIC
28L PDIP 44L PLCC 28L SOIC
2005 福建贝能科技有限公司
Vs
输出源/吸收电流
Vcc 范围
+200/-420m A
600V
8L PDIP 8L SOIC 8L PDIP 8L SOIC
600V
+130/-270m A
10-25V(低压关断)
IR2106 IR2106S IR21064 IR21064S
8L PDIP 8L SOIC 14L PDIP 14L SOIC
600V
+120/-250m A
10-25V(低压关断)
10-25V(低压关断) 10-25V(低压关断) 10-25V(低压关断) 10-25V(低压关断) 10-25V(低压关断) 10-25V(低压关断)
13
贝能科技 IR 产品选型指南
传输匹配 最大 15ns 最大 50ns 最大 50ns 最大 30ns 最大 50ns 最大 10ns
特
性
操作频率可达 1MHz
带 600V 半桥栅极驱动器的镇流器控制 IC 应用:照明
可编程性 预热时间 预热频率
闭环预热电流 运行频率 死区时间
特性 固定死区时间 过流保护 欠流保护 故障-击穿保护 灯丝开路 低谐振保护 暗光保护 自动重启动 热过载保护 关断 Pin 可调过流 可调光 启动检测 故障计数器 灯寿保护
集成 半桥 MOSFETs 自举二极管 功率因数校正
IR2112 IR2112-1 IR2112-2 IR2112S
IR产品选型指南
— √ √ √ √ √ √ √ √ √ √ — — — —
— — — 16L DIP 16LSOIC
10
IR21592
√ — √ √ —
1.8μS √ — √ √ — √ √ √ √ √ √ √ — —
— — — 16L DIP, 16L SOIC
IR21593
√ — √ √ —
1.0μS √ — √ √ — √ √ √ √ √ √ √ — —
特
性
非反相输入,内置上拉/下拉,兼容 15V 逻辑 反相输入,内置上拉/下拉,兼容 15V 逻辑 电流感应,过流检测,关断故障输出 电流感应,过流故障信号 限流,关断错误脚可编程 过流检测关断,非反相输入,反相故障输出,兼容 3.3V,5V,15V 逻辑 同 IR2127,更低的低压门限 同 IR2127,反相输入
带 600V 半桥栅极驱动器的镇流器控制 IC 应用:照明
可编程性 预热时间 预热频率
闭环预热电流 运行频率 死区时间
特性 固定死区时间 过流保护 欠流保护 故障-击穿保护 灯丝开路 低谐振保护 暗光保护 自动重启动 热过载保护 关断 Pin 可调过流 可调光 启动检测 故障计数器 灯寿保护
集成 半桥 MOSFETs 自举二极管 功率因数校正
IR2520D
√ — — √ —
1.8μS √ — √ √ — — √ — — √ — — — —
— — — 8L DIP 8L SOIC
参考设计套件 全部安装、测试和文件(包括原理图、应用笔记、BOM、和 Gerber 文件) 应用:照明
参考设计套件料号 IRPLCFL2
镇流器 IC IR2156
10-25V(低压关断) 10-25V(低压关断) 10-25V(低压关断) 10-25V(低压关断) 10-25V(低压关断) 10-25V(低压关断)
ir片的选型规则
ir片的选型规则
IR片的选型规则主要包括以下几点:
1. 确定光谱范围:根据实际应用需求,确定所需的光谱范围。
例如,如果需要检测可见光和红外光,则需要选择具有相应光谱响应的IR片。
2. 确定尺寸和形状:根据实际应用场景,选择适合的尺寸和形状的IR片。
例如,如果需要在大面积上使用IR片,则需要选择较大的尺寸。
3. 考虑分辨率:分辨率是IR片的一个重要参数,它决定了图像的清晰度和
细节程度。
根据实际需求,选择具有足够分辨率的IR片。
4. 考虑灵敏度:灵敏度是IR片的另一个重要参数,它决定了图像的亮度和
对比度。
选择具有高灵敏度的IR片,可以获得更好的图像质量。
5. 考虑稳定性:IR片需要具有一定的稳定性,以确保图像的一致性和可靠性。
选择经过稳定处理的IR片,可以获得更好的稳定性。
6. 考虑价格和品牌:价格和品牌也是选型时需要考虑的因素。
在预算范围内,选择知名品牌、性能优异、性价比高的IR片。
7. 参考用户评价和使用案例:可以通过查阅相关产品手册、用户评价和使用案例来了解IR片的性能和特点,以便更好地进行选型。
总之,在选择IR片时,需要根据实际需求综合考虑多个因素,包括光谱范围、尺寸和形状、分辨率、灵敏度、稳定性、价格和品牌等。
选择合适的IR 片可以获得更好的图像质量和可靠性,满足各种应用需求。
汇川技术机器人选型手册说明书
深圳市汇川技术股份有限公司Shenzhen Inovance Technology Co., Ltd. 苏州汇川技术有限公司Suzhou Inovance Technology Co., Ltd.地址:深圳市龙华新区观澜街道高新技术产业园汇川技术总部大厦总机:(0755) 2979 9595 传真:(0755) 2961 9897客服:4000-300124地址:苏州市吴中区越溪友翔路16号总机:(0512) 6637 6666 传真:(0512) 6285 6720*19120208A03* 19120208 A03由于本公司持续的产品升级造成的内容变更,恕不另行通知版权所有 © 深圳市汇川技术股份有限公司Copyright © Shenzhen Inovance Technology Co., Ltd.工业自动化汇川技术机器人选型手册机器人产品家族六关节机器人SCARA 机器人 —— 正装机器人 —— 倒装IRS311系列& IR 系列安全易用、高速高精、功能丰富的中小型六关节机器人产品,凭借自主开发控制器和优秀的振动抑制功能,在绝大部分应用重去的优异表现。
高速、高精、易用、紧凑的全系列通用型SCARA 机器人产品,广泛应用于搬运、装配、检测、贴标等场景,为您提供最佳性价比解决方案。
倒装机器人采用吊顶安装方式,旨在最大化减少空间的占用,等臂长的结构设计保证工作空间无死角,祝您实现产线的最优布置。
IR-C8 系列是汇川技术推出的速度最快的SCARA 机器人,性能比肩欧系最高品牌。
节拍时间比上代产品缩短了28%,仅为0.26s !可助您的高精度加工产线大幅度提升效率。
IRS11 系列三轴机器人产品专为潮湿、油雾恶劣环境而专门设计,可长期可靠运行,具备IP67 高防护等级,表面耐酸碱腐蚀,特别适合于机床行业的上下料工艺应用,提供高防护、高性价比解决方案。
IRS111-3系列P 13IRS112 系列P 27负载3kg臂长638mm机型覆盖IRS311-3-60TS5负载3kg臂长250mm/300mm/400mm 机型覆盖IRS111-3-25Z15TS3IRS111-3-30Z15TS3IRS111-3-40Z15TS3负载3kg/4kg臂长350mm/550mm机型覆盖IRS112-3-35Z13RS3IRS112-4-55Z13RS3负载8kg臂长620mm机型覆盖I R-C8-62Z20S3-A1负载8kg臂长500mm机型覆盖IRS11-8-50TS5负载6kg臂长500mm/600mm/700mm 机型覆盖IRS111-6-50Z20TS3IRS111-6-60Z20TS3IRS111-6-70Z20TS3负载10kg臂长500mm/600mm 700mm/800mm机型覆盖IRS111-10-50Z20TS3IRS111-10-60Z20TS3IRS111-10-70Z20TS3IRS111-10-80Z20TS3IRS111-10-80Z30TS3负载20kg臂长600mm/700mm 800mm/1000mm机型覆盖IRS111-20-60Z18TS3IRS111-20-70Z18TS3IRS111-20-80Z42TS3IRS111-20-100Z42TS3负载20kg臂长800mm/1000mm 机型覆盖IR-S20-80Z42S3IR-S20-100Z42S3负载20kg臂长800mm/1000mm机型覆盖IR-GS20-80Z42S3IR-GS20-100Z42S3负载50kg臂长1200mm机型覆盖IR-S50-120Z40S3-B1负载7kg臂长717mm/ 911mm 机型覆盖IRS311-7-70TS5IRS311-7-90TS5负载10kg臂长1422mm机型覆盖IR-R10-140S5-B1负载20kg/10kg臂长1723mm/2045mm 机型覆盖IR-R20-170S5-B1IR-R10-200S5-B1负载60kg/80kg 臂长2109 mm 机型覆盖IR-R60-210S5IR-R80-210S5具备敏捷高速、定位精度高、功率强劲等优点,助力于高精高速的柔性生产。
IR芯片系列选型说明2
600
250/500
Yes
IRF6607
600
250/500
Yes
IRF7309 TRPBF
SOP-8
30V,N+P 400V,1000
600
2500/2500
Yes
IRF730PBF
TO-220AB mO,5.5A 74W
600
2500/2500
Yes
/html/s234/2010-10/512238.htm
IRF1404PBF
TO-221AB
IRF1404Z
TO-222AB
IRF1405PBF
TO-223AB
IRF1407
TO-224AB
IRF2804
TO-225AB
IRF2807PBF
TO-226AB
IRF3205PBF
TO-227AB
IRF3205SPBF IRF3415 IRF3808
TO-228AB TO-229AB TO-230AB
2011-5-10
Page 2 of 6
High Side IR2010PBF and Low Side High Side IR2010SPBF and Low Side High Side IR2011PBF and Low Side High Side IR2011SPBF and Low Side IR20153SPBF Single Channel 150 High Side IR2101PBF and Low Side High Side IR2101S and Low Side High Side IR2101SPBF and Low Side IR2103SPBF IR2104SPBF IR2104STR Half Bridge Half Bridge Half Bridge High Side IR2106SPBF and Low Side IR21084 Half Bridge 600 600 600 200/350 200/350 200/350 Yes Yes 600 200/350 600 600 600 210/360 210/360 210/360 Yes Yes 600 210/600 600 210/600 600 210/600 400/1500 Yes 200 1000/1000 200 1000/1000 200 3000/3000 Yes 200 3000/3000 Yes
锐能微电能计量产品选型指南v1.2
深圳市锐能微科技有限公司
page 6 of 16
Rev 1.0
Renergy
框图:
AVDD AGND
OSCI OSCO
锐能微电能计量产品选型指南
IS SDO/TX SDI/RX SCLK/B0 SCSN/B1
电源监控
时钟控制
Ctrl® bus
串行接口
X1 X2 X8 X16
fadc
V1P
+
PGA
√
╳
√ √
uart SOP16L
RN8209C 单相多功能 零线防窃电 uart SOP16L
3~5.5V 8000:1 1.25V±1% 5ppm/℃ 3路 15mW 1000mv 峰 值 ╳ √ √ √
√
√
√ √
uart SOP16L
RN8209D 单相多功能 零线防窃电 Spi、uart 与 RN8209G 管脚兼容
RN8208G 单相多功能 无零线计量 Spi、uart 与 RN8209G 管脚兼容 5V 5000:1 2.5V±1% 5ppm/℃ 2路 15mW 1000mv 峰 值 ╳ √ √ ╳
√
╳
√ √
Spi/uart SSOP24L
RN8209G 单相多功能 零线防窃电 Spi、uart SSOP24
NC
7
18 DVDD
V3P
8
17 DGND
V3N
9
16 SCSN
REFV
10
15 SCLK
AGND
11
IS
12
IS=1
14 SDI 13 SDO
1.3 RN8209G
简介:
计量 提供三路∑-△ADC 有功电能误差在 5000:1 动态范围内<0.1%,支持 IEC62053-22:2003 标准要求 提供两路电流和一路电压有效值测量,在 1000:1 动态范围内,有效值误差<0.1% 提供一路脉冲频率发生器,可用于对用户自定义功率进行电能量累加积分; 潜动阈值可调 提供反相功率指示 提供电压通道频率测量 提供电压通道过零检测 提供参考基准监测功能
LC1E及LRE选型
LC1E38
4 12
40A 50A
3 11 kW 18.5 kW 22 kW 22 kW 30 kW 22 kW
17...50 A p
LC1E40
50A 60A
3 15 kW 22 kW 25/30 kW 30 kW 33 kW 30 kW
17...70 A p
LC1E50
65A 80A
3 18.5 kW 30 kW 37 kW 37 kW 37 kW 37 kW
8
8
10
10
mm M3.5
M3.5
M3.5
M4
M4
十字
N˚ 2
N˚ 2
N˚ 2
N˚ 2
N˚ 2
Ø 平口螺丝刀
Ø6
Ø6
Ø6
Ø6
Ø6
-
-
-
-
-
N.m 1.2
1.2
1.2
1.7
1.85
控制电路连接
电缆连接(通过螺钉紧固)
软线
1 根导线
mm2 1...4
1...4
1...4
1...2.5
1...4
不带接线端子
LC1E06到E95
接触器型号
工作环境
额定绝缘电压 (Ui) 额定冲击耐受电压 (Uimp) 符合标准 产品证书 绝缘隔离 防护等级 (1) (仅适用于正面) 保护措施 环境温度 设备周围
最大工作海拔 工作位置
符合 IEC 60947-4-1, GB14048 标准, V 过压类别 III,污染等级: 3
4 12
12A 25A
3 3 kW 5.5 kW 5.5 kW 7.5 kW 7.5 kW -
红外LED主要参数与选型参考
红外LED主要参数与选型参考发射管λp :Peak Wave Length,峰值波长。
无论什么材料制成的LED,都有一个相对光辐射最强处,与之相对应有一个波长,此波长为峰值波长,它由半导体材料的带隙宽度或发光中心的能级位置决定。
常见的红外LED的峰值波长范围:830~950nm。
一般选择940nm,主要有以下两点原因:1.由于可见光的波长范围为390~770nm,所以峰值波长小的红外LED在使用时用肉眼会观察到暗红色,透光率低。
2.940nm的红外LED主要用在家电类的红外遥控器,成本便宜。
Δλ:Spectral Bandwidth,光谱半波宽。
相对光谱能量分布曲线上,两个半极大值强度处对应的波长差,如图1所示,它标志着光谱纯度,同时也可以用来衡量半导体材料中对发光有贡献的能量状态离散度,LED的发光光谱的半宽度一般为30-100nm,光谱宽度窄意味着单色性好。
图1光谱半波宽Δλ在选型上尽量选择光谱半波宽小的发射管,同时需要结合成本考虑。
选择的发射管的光谱半波宽均为45nm。
I e:Radiant Intensity,辐射强度。
指点辐射源在某方向上单位立体角内传送的辐射通量,单位为W/Sr。
辐射强度用以表示红外线发光二极管(IR)其辐射红外线能量之大小。
辐射强度与输入电流成正比。
发射距离与辐射强度成正比。
图2是4种品牌的发射管的辐射强度与导通电流的关系图。
IR26-51C/L110/TR8 IR333/H2 IR533C-74 KEL-5315C图2 辐射强度VS导通电流θ1/2:Half Angle,半功率角。
LED的发光强度会随着角度的偏离而减弱。
当光强减弱到法线方向的一半时,此方向与法线的夹角即为半值角。
通常半值角是对称的。
为了减少发射管的数量,我们往往会选择半功率角比较大的发射管,这样可以实现1个发射管对应多个接收管的方案。
表1 发射管的半功率角外形尺寸和安装方式选择发射管还需要关心其外形尺寸和安装方式。
人民电器选型手册
660
220
2
0.5
CJ20 系列交流接触器快速选型表
CJ20 – 100 / 06
F
2
4
AC380V5
基本规格代码
主电路电压代码 空:380V 06:660V 11:1140V 注:空指无需填写
选用辅助触头时代码
额定控制电源电压 辅助触头常闭触头数 辅助触头常开触头数
说明:当辅助触头常开触头数为 4、常闭触头数为 2 时,选用辅助触头时代码、辅助触头常开触头数、常闭触头数省略
AC-4 额定工作电流
(Ie)A
AC220V AC380V AC660V AC1140V
AC-3 额定工作功率
(Pe)kW
AC220V AC380V AC660V AC1140V
CJ20 系列交流接触器技术数据和性能
CJ20-160/11 160 1140 200
200 80 80 80 85
CJ20-250
T 系列热过载继电器技术数据和性能
型号 额定电流
(Ie) A 约定发热电流
(Ith) A 额定绝缘电压
(Ui) V
热 元 件 整 定 电 流 范 围
A
T6
6
10.5
0.11~0.17 0.17~0.26 0.26~0.42 0.42~0.65 0.65~1.00 0.85~1.30 1.10~1.60 1.35~2.00 1.70~2.40 2.20~3.20 3.00~4.70 4.00~6.30 5.50~8.00 7.50~10.5
32
55
80
CJ20-100 100
125
125
AC220V
-
-
-
保险丝选型指南
(一)保险丝选择因素1.额定电流保险丝的额定电流是:指它的公称额定电流, 通常就是电路能够长期工作的最大电流值,而不是动作电流。
UL 规格保险丝过载能力弱,保险丝额定电流需按折减率0.75后使用。
IEC 规格保险丝过载能力强,额定电流不需折减。
选择原则:在25℃条件运行时,熔丝的电流额定值通常要减少25%以避免干扰熔断。
对于工作温度高于25℃的,需例 如:电路工作电流Ir=1.5A,UL保险丝额定电流应大于(或等于):Ir/Of=1.5A/0.75=2A (PS:Of为电流折减2.额定电压保险丝的额定电压是:指它的公称额定电压, 通常就是保险丝断开后能够承受的最大电压值。
保险丝通电时两端所承受的电压远小于其额定电压,因此额定电压基本上无关紧要。
关于保险丝选择原则:保险丝额定电压应该大于或等于电路工作电压。
例 如:250V的保险丝可以用于 125V的电路。
3.工作温度不管UL还是IEC规格,保险丝各项指标都是在25℃环境的数据。
如果小环境工作温度较高,则要考虑温度折减率(见选择原则:电路工作电流需小于(或等于):保险丝额定电流*0.75*K例 如:选用快熔断保险丝在90℃小环境下和1.5A电流下工作,参阅图1,其温度折损率(Tf)是95%。
①若选用IEC规格保险丝:In/Tf=1.5/0.95=1.58A,推荐1.6A或2A的保险丝。
②若选用UL规格保险丝:In/(Of*Tf)=1.5/(0.75*0.95)=2.1A,推荐2.5A的保险丝。
曲线 A: 传统的慢熔断保险丝曲线 A: 传统的慢熔断保险丝曲线 B: 特快熔断, 快熔断和螺旋式绕制的保曲线 B: 特快熔断, 快熔断和螺旋式绕制的保险丝图1 温度折减率与温度关系曲线 C: 可恢复 PTC曲线 C: 可恢复 PTC4.电压降/冷电阻--Ud/R①一般情况,保险丝的电阻值与它的额定电流值成反比。
②在保护电路中要求保险丝阻值越小越好,这样它的损耗功率就小,因此在保险丝技术参数中规定了最大电压降值或冷电阻值,但不作为产品验收依据。
气体传感器选型指导
传感器选型指导下面的每种传感器-电化学型、催化型、固态型、红外线和光电离探测器的应用都必须满足区域内空气的质量和安全所要求的标准。
一些基本的要求如下:1.传感器将被设计成为小型、外表粗糟的小盒子。
传感器必须适用于危险地点和苛刻的环境,同时它必须是防爆的。
传感器必须是合算的,是为在工业生产区域内使用而设计的,安置的费用也是合理的。
2.对于便携式仪器,仪器具有合理的能源消耗,仪器所选的电源为市场容易得到的电池。
仪器体积小、方便,容易携带。
在工业环境中使用非常安全。
由于使用在危险区域,仪器必须具有安全合格证。
3.仪器的操作和维护将是很容易完成,只要工厂内的职工经过简单的专业培训即可。
4.安装固定传感器时,在某一周期内,传感器的功能将会达到连续可靠,该周期长达30天。
传感器在工业环境下至少工作二年或更长,在合理的费用基础之上进行更新和替换。
传感器可安装在由控制器或计算机控制的集散系统管理的多点系统中。
5.仪器的费用是合理的。
为了有效的保护某一区域,可安装多个传感器。
本手册讨论了五种传感器中的四种,均满足以上的标准。
只有光电离探测器除外。
光电离探测器是一种好的探测器,但是受到光的限制,因为它有相对短的寿命和频繁的维护要求,不适合固定点应用。
然而,只要用户考虑了限制的条件,固定的光电离探测器还是可用的。
其他类型的传感器虽然满足以上的标准,但也有一些限制。
例如,热传导传感器大部分应用于高浓度,而不常用于气体监视。
选择传感器所考虑的因素就传感器而言,经常问的问题之一是:“什么传感器最好?”。
当然,这个问题不能一两句就说清楚。
每个传感器有自己的性能和限制,因此一个给定传感器的适应性很大程度取决于使用过程中的应用。
因此为了选择一个正确的传感器,首先必须确定应用的要求。
102页总图显示了各种应用的要求和检测的技术。
制造厂商提供传感器的粗略的标定。
在给定的应用范围确定传感器应遵循和考虑下列因素:A.为了完成实际的目标,仪器的特性应满足最小的一切要求。
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600V 应用系统,输出推/拉电流为 200/420mA
型号
电路
VCC 范围
IR2130 3-Phase Bridge Driver IR2131 3HI/3LO MOS Driver IR2132 3-Phase Bridge Driver 10-25V with UVLO IR2133 3-Phase Bridge Driver IR2135 3-Phase Bridge Driver
Ton/Toff
VIH/VIL
Vitrip+ UVCC/BS+/CCBS-
IR2136
IR21362
12-25V with UVLO
IR21363
IR21365
IR21366 IR21367
12-20V with UVLO
IR21368
10V/20V
___ __ 400ns/380ns 2.7V/1.7V 0.46V
电路
IC@25°C IC@100°C VCE(on)@25°C
Co-Pack 12A
6.8A
2.1V
Co-Pack 12A
6.8A
2.1V
Co-Pack 13A
7A
1.8V
Co-Pack 17A
9A
1.8V
Co-Pack 22A
12A
1.8V
Co-Pack 31A
15A
1.8V
Isolated TO-220 Full-Pak
Co-Pack 9A
6A
1.8V
Isolated TO-220 Full-Pak
Co-Pack 12A
Hale Waihona Puke 8A1.8VIsolated TO-220 Full-Pak
Co-Pack 16A
10A
1.7V
Isolated TO-220 Full-Pak
Co-Pack 19A
12A
1.8V
分立封装:
型号 IRGB6B60K IRGB30B60K IRGR3B60KD2
HIN, LIN
12V/20V
__ 400ns/380ns 2.7V/1.7V 0.46V
HIN, LIN
10V-20V
___ __ 400ns/380ns 2.7V/1.7V 0.46V
HIN, LIN
10V/20V
___ __ 400ns/380ns 2.7V/1.7V 4.3V
HIN, LIN
Shunt on Neg
3A
600V 20kHz
YES
SIP1
Bus
5A
600V 20kHz
YES Open Emitter SIP1
该平台分为两类,分别采用 IR 智能电机控制芯片组 IRMCK201 和 IRMCK203,其中 IRMCK201 是 通用的伺服电机控制平台,他可用于控制永磁交流电机以及带编码器的交流感应电机。IRMCS203 可用 于需要高速且速度变化要求较高的交流永磁电机的控制。
.1.
(一)、应用 1.IRMCK201 ● 自动装配线,高精度物料传送器和一些机械装备的控制 ● 航空航天控制和机车驱动控制 ● 适用于控制单极-多极永磁交流电机和感应电机 ● 电机/电机控制的测试/评估 2. IRMCK203 ● 工业数控机床和压钻的高速主轴空控制 ● 永磁泵电机控制 ● 电冰箱和空调的压缩机控制 ● 风扇控制
10-25V with UVLO
-
10-25V with UVLO
-
10-25V with UVLO
9.5A/20A
10-25V with UVLO
9.5A/20A
2.门极驱动 IC 500V 应用系统,输出推/拉电流为 120/250mA
.2.
型号
VCC 范围
输出电压 (min/max)
输入逻辑
1.电流传感器 IC
型号
封装
偏移电压
IR2175 8-pin DIP
600V
IR2175S 8-lead SOIC 600V
IR2170 8-lead DIP 600V
IR2170S 8-lead SOIC 600V
输出电流 10mA 10mA 1mA 1mA
VCC(on) 范围
输出范围 Min/Max
三、家用电器用二极管—IGBT—门驱动器 IC
600V IGBT………………………………………………………………………………………………………………(10) 非穿通技术(NPT)技术………………………………………………………………………………………………(10) 穿通(PT)技术………………………………………………………………………………………………………(11) IC 驱动器………………………………………………………………………………………………………………(12) 高端和低端驱动器………………………………………………………………………………………………………(12) 半桥驱动器………………………………………………………………………………………………………………(12) 三相驱动器………………………………………………………………………………………………………………(13) 二 极 管 方 案 ……………………………………………………………………………………………………………(14) 输入整流桥………………………………………………………………………………………………………………(14) 输入二极管………………………………………………………………………………………………………………(15) 软启动 SCR………………………………………………………………………………………………………………(15)
交流伺服电机的控制 IC 带有交流伺服电机的控制 IC 的伺服系统硬件评估平台
无传感器永磁电机控制 IC 带有无传感器永磁电机控制 IC 的电机硬件评估平台
二、具有创新的可用于电机控制的 HVIC:该芯片组由线性电流传感器 IC,IR2175 和三相换刘器 IC,IR2136 组成, IR2175 可以将电流采样后转换为脉宽周期性信号输出,它可用于伺服系统中对过流保护要求较高的场所。
封装 TO-220AB, D2Pak, TO-262 TO-220AB, D2Pak, TO-262
D-Pak
电路
IC@25°C IC@100°C VCE(on)@25°C
Discrete 13A
7A
1.8V
Discrete 78A
50A
1.95V
Discrete 7.8A
4.2A
1.9V
四、集成功率模块 IPM:IPM 是用于家用电器或工业变频控制领域理想功率模块,他可以较少开发周期,优化电路 板尺寸,增加系统的可靠以及较少电气干扰。
四、汽车电子产品选型指南
智能功率开关……………………………………………………………………………………………………………(16) 车身电子…………………………………………………………………………………………………………………(18) 汽车空调…………………………………………………………………………………………………………………(19) 汽车安全气囊……………………………………………………………………………………………………………(20) 多路传输控制系统………………………………………………………………………………………………………(21) 高强度气体放电灯(HID)………………………………………………………………………………………………(21) 电动方向盘(EPS) ………………………………………………………………………………………………………(23) 制动和牵引力控制系统…………………………………………………………………………………………………(24) 巡航控制系统 ……………………………………………………………………………………………………………(26) 发动机控制/电力机车……………………………………………………………………………………………………(26) 燃油喷射驱动器……………………………………………………………………………………………………………(27) 点火线圈驱动器……………………………………………………………………………………………………………(28)
(二)、IR 的优势 1.高效可配置的电机控制引擎 MCE 2.可用 ServoDesigner 进行控制算法参数配置 3.可配置支持永磁或交流感应电机 4.开环或闭环控制 5.RS-232/RS422 接口
(三)、分类
型号
IRMCK201 IRMCS2011 IRMCK203 IRMCS2031
iMOTIONTM 开发系统 简介
型号
额定电流 @ TC=25°C
IRAMS06UP60A
6A
IRAMS06UP60B
6A
IRAMS10UP60A
10A
IRAMS10UP60B
10A
IRAMX16UP60A
16A
额定电流 @ VCES PWM 频率 过热保护
TC=100°C
电路
封装
3A
600V 20kHz
YES Open Emitter SIP1
10V/20V
___ __ 250ns/180ns 2.0V/1.3V 0.46V
HIN, LIN
10V/20V
___ __ 250ns/180ns 2.0V/1.3V 4.3V
HIN, LIN
10V/20V
___ __ 400ns/380ns 2.0V/1.3V 4.3V
HIN, LIN
8.9V/8.2V 10.4V/9.4V 11.2V/11.0V 11.2V/11.0V 11.2V/11.0V 11.2V/11.0V 8.0V/8.2V