0CP8162-11W-BOM

N-Channel MOSFETs: OptiMOS™ (20V…250V) Product TypeProduct TypeBSN045NE2LSBSN011NE2LSBSN011NE2LSIBSN012N03LSBSN012N03LSIBSN048N03LSBSB012NE2LXBSB014N04LX3 GBSB015N04NX3 GBSB017N03LX3 GBSB012N03LX3 GBSB028N06NN3 GBSB044N08NN3 GBSB056N10NN3 GBSB013NE2LXIBSB008NE2LXBSB280N15NZ3 G BSB165N15NZ3 G BSB012NE2LXI BSF024N03LT3 G BSF050N03LQ3 G BSF030NE2LQ BSF134N10NJ3 G BSF110N06NT3 G BSF450NE7NH3 G BSF035NE2LQ IPB015N04L G IPB027N10N3 G IPB035N08N3 G IPB015N04N G IPB019N06L3 G IPB083N10N3 G IPB042N10N3 G IPB054N06N3 GIPB037N06N3 G IPB097N08N3 G IPB055N03L G IPB054N08N3 G IPB042N03L G IPB022N04L G IPB065N03L G IPB072N15N3 G IPB025N08N3 G IPB080N03L G IPB081N06L3 G IPB147N03L G IPB096N03L G IPB136N08N3 GIPB090N06N3 G IPB029N06N3 G IPB049NE7N3 G IPB031NE7N3 G IPB020NE7N3 G IPB123N10N3 G IPB038N12N3 G IPB144N12N3 G IPB320N20N3 G IPB107N20N3 G IPB200N25N3 G IPB600N25N3 G BUZ32 H3045A BUZ31 H3045A IPB108N15N3 G BUZ30A H3045AIPB107N20NA IPB057N06N IPB026N06N IPB230N06L3 G IPB067N08N3 G IPB034N03L G IPB009N03L G IPB011N04L G IPB011N04N G IPB016N06L3 G IPB017N06N3 G IPB019N08N3 G IPB020N04N G IPB025N10N3 G IPB030N08N3 GIPB036N12N3 G IPB065N15N3 G IPB010N06NIPB014N06NSPD07N20 GIPD031N06L3 G IPD034N06N3 G IPD035N06L3 G IPD036N04L GIPD038N06N3 G IPD048N06L3 G IPD053N08N3 G SPD50N03S2L-06 G SPD30N03S2L-07 G IPD068N10N3 G SPD50N03S2-07 GIPD082N10N3 G IPD088N06N3 G IPD096N08N3 G SPD30N03S2L-10 G IPD127N06L GIPD135N08N3 G IPD160N04L GIPD170N04N GIPD200N15N3 G SPD30N03S2L-20 G IPD220N06L3 G IPD25CN10N GIPD250N06N3 G IPD33CN10N GIPD350N06L GIPD640N06L G IPD78CN10N G IPD800N06N G IPD122N10N3 G IPD180N10N3 G IPD110N12N3 G IPD031N03L G IPD040N03L G IPD050N03L G IPD060N03L G IPD075N03L G IPD090N03L G IPD320N20N3 G IPD600N25N3 G IPD530N15N3 G IPD105N03L G IPD135N03L GIPD025N06N IPD053N06N IPI023NE7N3 G IPI034NE7N3 G IPI052NE7N3 G IPI126N10N3 G IPI180N10N3 G IPI041N12N3 G IPI076N12N3 G IPI147N12N3 G IPI045N10N3 G IPI086N10N3 G IPI030N10N3 G IPI04CN10N G IPI072N10N3 G IPI26CN10N G IPI35CN10N GIPI075N15N3 G IPI200N15N3 G IPI024N06N3 G IPI032N06N3 G IPI040N06N3 G IPI037N08N3 G IPI320N20N3 G IPI110N20N3 G IPI200N25N3 G IPI600N25N3 G IPI111N15N3 G IPI530N15N3 G IPI020N06NIPI029N06N BUZ31 H3046 IPI084N06L3 GIPU135N08N3 G IPS110N12N3 G IPS060N03L G IPS075N03L G IPS031N03L G IPS040N03L G IPS090N03L G IPS105N03L G IPS135N03L G IPS050N03L G BSZ0908ND BSZ0907ND BSC0921NDI BSC0923NDI BSC0924NDI BSC0925ND BSC0910NDI BSC0911NDBSZ035N03LS G BSZ035N03MS G BSZ040N04LS G BSZ042N04NS G BSZ050N03LS G BSZ050N03MS G BSZ058N03LS G BSZ058N03MS G BSZ067N06LS3 G BSZ076N06NS3 G BSZ088N03MS G BSZ088N03LS G BSZ097N04LS G BSZ100N06LS3 G BSZ100N03MS GBSZ105N04NS G BSZ110N06NS3 G BSZ123N08NS3 G BSZ130N03MS G BSZ130N03LS G BSZ165N04NS G BSZ340N08NS3 G BSZ440N10NS3 G BSZ160N10NS3 G BSZ900N15NS3 G BSZ520N15NS3 G BSZ0909NSBSZ240N12NS3 G BSZ12DN20NS3 G BSZ16DN25NS3 GBSZ42DN25NS3 G BSZ900N20NS3 G BSZ060NE2LS BSZ065N03LS BSZ036NE2LS BSZ018NE2LS BSZ0901NSBSZ0901NSIBSZ0902NSBSZ0904NSIBSZ0902NSIBSZ018NE2LSI BSZ042N06NS BSZ023N04LS BSZ150N10LS3 G BSO615N GBSO033N03MS GBSO083N03MS G BSO110N03MS G BSO330N02K G BSO150N03MD G BSO220N03MD G BSC010NE2LS BSC050NE2LS BSC046N02KS G BSC019N02KS G BSC014N03LS G BSC016N03LS G BSC014N03MS G BSC016N04LS G BSC016N03MS G BSC017N04NS G BSC018N04LS GBSC020N03MS G BSC020N03LS G BSC025N03MS G BSC027N04LS G BSC025N03LS G BSC028N06LS3 G BSC030N03MS G BSC030N04NS G BSC030N03LS G BSC031N06NS3 G BSC034N03LS G BSC035N04LS G BSC042N03MS G BSC042N03LS GBSC050N03MS G BSC050N04LS G BSC050N03LS G BSC054N04NS G BSC057N03MS G BSC057N03LS G BSC057N08NS3 G BSC059N04LS G BSC060N10NS3 G BSC067N06LS3 G BSC076N06NS3 G BSC079N10NS GBSC080N03LS G BSC082N10LS G BSC090N03MS G BSC090N03LS G BSC093N04LS G BSC100N03MS G BSC100N10NSF G BSC100N06LS3 G BSC105N10LSF G BSC110N06NS3 G BSC118N10NS G BSC120N03MS G BSC120N03LS GBSC123N10LS G BSC152N10NSF G BSC190N15NS3 G BSC159N10LSF G BSC196N10NS G BSC205N10LS G BSC252N10NSF G BSC265N10LSF G BSC340N08NS3 G BSC042NE7NS3 G BSC160N10NS3 G 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lderId=db3a304313b8b5a60113cee8763b02d7&fileId=db3a30432313ff5e012393a80d1d03d8/dgdl/IPP072N10N3+G_Rev2%5BI2PAK (TO-262)in production1%5D.1.pdf?folderId=db3a304313b8b5a60113cee8763b02d7&fileId=db3a30432313ff5e012393bed2d20405/dgdl/IPP26CN10N_Rev1.08.pdf?fI2PAK (TO-262)discontinued olderId=db3a304313b8b5a60113cee8763b02d7&fileId=db3a30432313ff5e012393d285660441I2PAK (TO-262)discontinued /dgdl/IPP35CN10N_Rev1.09.pdf?folderId=db3a304313b8b5a60113cee8763b02d7&fileId=db3a304317a748360117cf1876cc1d1a。

Eaton 111586Eaton Moeller series xPole - PKP42 RCBO - residual-current circuit breaker with overcurrent protection. RCD/MCB, 32A, 30mA, MCB trip curve B, 2 p, RCCB trip char.: ACGeneral specificationsEaton Moeller series xPole - PKP42 RCBO - residual-current circuit breaker with overcurrent protection111586401508111146686 mm 75 mm 37 mm 0.25 kg CE Marked RoHS conformCE PKP42-32/2/B/003Product NameCatalog Number EANProduct Length/Depth Product Height Product Width Product Weight Compliances Certifications Model Code32 AIs the panel builder's responsibility. The specifications for the switchgear must be observed.4.5 kAMeets the product standard's requirements.Is the panel builder's responsibility. The specifications for the switchgear must be observed.3Does not apply, since the entire switchgear needs to be evaluated.Meets the product standard's requirements.0 kA50 HzIs the panel builder's responsibility.20.03 AType AC, AC current sensitive.40 °C0 W eaton-xpole-pkp42-rcbo-catalog-ca019055en-en-us.pdf eaton-xpole-protective-devices-catalog-ca019014en-en-us.pdfDA-DC-03_PKP.2eaton-xeffect-frbm6/m-characteristic-curve-003.jpgeaton-xpole-afdd-characteristic-curve-002.jpgeaton-xeffect-frbm6/m-dimensions-002.jpgeaton-xpole-pkp42-3d-drawing.jpgIL019140ZUeaton-xpole-combined-mcb-rcd-device-rcbo-packaging-manual-multilingual.pdfeaton-xeffect-frbm6/m-wiring-diagram-003.jpgRated operational current for specified heat dissipation (In) 10.11 Short-circuit ratingRated switching capacity (IEC/EN 61009)10.4 Clearances and creepage distances10.12 Electromagnetic compatibilityCurrent limiting class10.2.5 Lifting10.2.3.1 Verification of thermal stability of enclosures Rated short-circuit breaking capacity (EN 60947-2) Frequency rating10.8 Connections for external conductorsNumber of poles (total)Fault current ratingSensitivity typeAmbient operating temperature - maxHeat dissipation per pole, current-dependentBuilt-in depth Catalogues Certification reports Characteristic curve DrawingsInstallation instructions Wiring diagrams70 mmConnectable conductor cross section (solid-core) - min1 mm²10.9.3 Impulse withstand voltageIs the panel builder's responsibility.Number of polesTwo-poleAmbient operating temperature - min-25 °C10.6 Incorporation of switching devices and componentsDoes not apply, since the entire switchgear needs to be evaluated.10.5 Protection against electric shockDoes not apply, since the entire switchgear needs to be evaluated.Rated switching capacity4.5 kAEquipment heat dissipation, current-dependent5.5 WTripping characteristicB10.13 Mechanical functionThe device meets the requirements, provided the information in the instruction leaflet (IL) is observed.10.2.6 Mechanical impactDoes not apply, since the entire switchgear needs to be evaluated.10.9.4 Testing of enclosures made of insulating materialIs the panel builder's responsibility.Static heat dissipation, non-current-dependent0 WApplicationSwitchgear for residential and commercial applications10.3 Degree of protection of assembliesDoes not apply, since the entire switchgear needs to be evaluated.Voltage typeACNumber of poles (protected)2Leakage current typeACRated short-circuit breaking capacity (EN 61009-1)4.5 kATrippingNon-delayedOperating ambient temperature - min-25 °CHeat dissipation capacity0 WRelease characteristicBImpulse withstand currentPartly surge-proof, 250 AProduct rangePKP42Width in number of modular spacings210.2.3.2 Verification of resistance of insulating materials to normal heatMeets the product standard's requirements.10.2.3.3 Resist. of insul. mat. to abnormal heat/fire by internal elect. effectsMeets the product standard's requirements.Rated short-circuit breaking capacity (EN 61009)4.5 kAOperating ambient temperature - max40 °CVoltage rating230 V10.9.2 Power-frequency electric strengthIs the panel builder's responsibility.Connectable conductor cross section (solid-core) - max25 mm²Degree of protectionIP20Overvoltage categoryIIIPollution degree210.7 Internal electrical circuits and connectionsIs the panel builder's responsibility.Connectable conductor cross section (multi-wired) - min1 mm²Rated impulse withstand voltage (Uimp)4 kV10.10 Temperature riseThe panel builder is responsible for the temperature rise calculation. Eaton will provide heat dissipation data for the devices.Basic functionCombined RCD/MCB devicesRated current32 AConnectable conductor cross section (multi-wired) - max25 mm²TypeRCBO10.2.2 Corrosion resistanceMeets the product standard's requirements.Surge current capacity0.25 kA10.2.4 Resistance to ultra-violet (UV) radiationMeets the product standard's requirements.10.2.7 InscriptionsMeets the product standard's requirements.Rated short-circuit breaking capacity (IEC 60947-2)0 kADisconnection characteristicUndelayedProduct applicationSwitchgear for industrial and advanced commercial applicationsRated operational voltage (Ue) - maxEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. All rights reserved. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmedia230 V250 VRated insulation voltage (Ui)。

典型应用电路图一， OCP8162典型应用电路概述 OCP8162是一款集成了500V MOSFET 高精度非隔离LED 恒流驱动芯片，工作在电流临界连续模式，支持全电压输入AC85V~265V 。

芯片采用SOP8封装形式，内部集成了500V 开关，利用CS 脚设定电流，OCP8162内部工作电流很小(大约100uA)， 无需辅助绕组监测和供电，只需要很少的外围元器件既可优异的输出恒流精度，节约了系统成本和体积。

OCP8162集成了高精度电流取样电路，使得LED 的输出电流精度达到±3%以内；实现优异的线电压调整率，线性调整率达到3%以内。

OCP8162工作在电流临界模式，输出电流不随电感量和LED 工作电压的变化而变化，实现优异的负载调整率，负载调整率2%以内，同时实现效率90%以上。

OCP8162具备完善的保护功能，芯片包括LED 短路检测，一旦发现短路信号芯片便会进入较低的工作频率以限制输出功率。

芯片的保护包括原边电流过流检测、LED 开短路保护、CS 开路保护、欠压锁定和过温保护功能以保证整个系统在恶劣的工作环境中安全可靠的工作。

OCP8162使用环保材料的SOP-8L 封装，工作温度范围为-40度到85度之间。

特征z 集成500V 功率MOSFET z 工作在电流临界模式 z 无需辅助绕组检测和供电z 极低的工作电流 (典型值：100uA) z 支持AC85V~264V 全电压范围输入 z 无需环路补偿 z ±5%的批量一致性 z 3%的线性调整率 z 2%的负载调整率 z LED 开路保护 z LED 短路保护 z 原边过流检测 z 芯片过温保护 z 欠压锁定功能z CS 脚电阻开路保护 z 采用SOP-8L 封装应用AC/DC LED 驱动应用 信号和装饰LED 灯 LED 蜡烛灯 LED 球泡灯 其他LED 照明管脚定义管脚描述管脚名称管脚号描述GND 1信号地VCC 3电源端，需就近接旁路电容6SW 5,内部500V MOSFET高压管的漏端8CS 7,限流电阻设置端4NC 2,不连接，建议悬空电路框图图二，OCP8162内部方块电路图绝对最大额定值（注1）符号参数范围单位VCC 电源电压-0.3~24 V ICC 电源电流 5.0 mA SW 开关节点电压-0.3~500 VCS 电流采样端电压-0.3~7 V OUT 内部高压功率管源极电压-0.3~24 V θJA热阻150 °C/W P DMAX(注2) 功耗0.45 W T A工作环境温度−40 ~ 85 °CT J工作结温−40 ~ 150 °CT STO存储温度−55 ~ 150 °C注1：最大极限值是指超出该工作范围，芯片有可能损坏。

Eaton ESWB22Eaton Switched Rack PDU, 0U, 36U, Inputs C20, 3.84 kW max, 16A, 200-240V, Outlets 20XC13 : 4XC19General specificationsEaton Switched Rack PDU ESWB2235533406960461604 mm52 mm 53 mm2.46 kg 2 yearRoHS Compliant EAC CE Marked IEC 60950-1IEC 61000-6-2IEC 61000-6-4EPDU SW 0U (C20 16A1P)20XC13:4XC19Product Name Catalog NumberEAN Product Length/DepthProduct Height Product WidthProduct Weight WarrantyCompliances CertificationsModel Code20Single-phaseConnecting cord with plugMetric3.84 kW max0U (Vertical)Vertical16AC20Ampere Meter Mounting material Display50/60 HzAt distance0° to 60°C (32° to 140°F)Eaton UPS and battery servicesEaton UPS Services Quick Guide 2021Eaton ePDU G3 - BrochureESWB22 sk-43419-y1Eaton ePDU G3 - Installation and Connectivity Quick StartNumber of Outputs C13PhaseElectrical connectionMounting dimension (standardized) WattageForm factorMounting directionAmperage RatingPackage contentsInput connectionFitted with:Frequency ratingEvaluationOperating Temperature BrochuresDrawingsManuals and user guidesRack PDUMounting accessories Network cable Configuration cable Splitter for daisy-chaining Quickstart guideSafety InstructionsEthernet interfaceYesNumber of outlets with earth pin24Mass configurationYesCommunicationHTTP, HTTPS, SSL, Telnet, FTP, SNMP, SMTP, DNS, DHCP, LDAP, RADIUSSpecial featuresRemote Site ManagementTurn off unused outlets tocontrol commissioningPhase Metering, CircuitBreaker Current Meteringand Input MeteringCircuit Breaker StatusMonitoringOutlet and IT EquipmentSwitching/reboot/sequencing across A and Bfeed in Daisy-ChainSequence Outlets to avoidin-rush current, to ensureequipment starts in correctorderHot-Swap Control modulewith advanced LCDOptionalTemperature/HumiditysensorBuilt-in IEC outlet eGripretention, retains allstandard IEC plugsDaisy-Chain up to 8 PDUs,reduce networkinfratsructure costsPower chain monitoring &Real time Intelligence onyour Data Center, via EatonIntelligent Power ManagerNumber of Outputs C194Outlet controlEaton Corporation plcEaton House30 Pembroke RoadDublin 4, Ireland © 2023 Eaton. All rights reserved. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmedia YesYes3m200-240VBlackYesAluminium2(20) C13, (4) C19Rack PDUYes52SwitchableCord lengthInput voltageColorSNMPMaterialOver voltage categoryOutletsTypeSerial interfaceMounting Dimension (metrical)。

2Catalog Number SelectionThis information is presented only as an aid to understanding catalog numbers. It is not to be used to build catalog numbers for circuit breakers or trip units.Circuit Breaker/Frame Catalog Number SystemNotes1800A only.2Neutral inn left pole on GN; right pole on NG.3Breakers do not ship with lugs.Trip units are factory installable only.NG H 308039ZG E CAmperes080= 800120 = 1200Frame NGPerformance at 480 Vac S = 50 kAIC H = 65 kAIC C = 100 kAIC U = 150 kAIC 1Poles3 = Three4 = Four; neutral 20% protected 7 = Four; neutral 2100% protected 9 = Four; neutral 20/60/100% adjustable protectionTrip Unit33=310+ Electronic LS 32=310+ Electronic LSI 35=310+ Electronic LSG35B22=310+ Electronic LS(A), GFA, no trip 36=310+ Electronic LSIG36B22=310+ Electronic LSI(A), GFA, no trip 38=310+ Electronic ALSI w/ Maintenance Mode39=310+ Electronic ALSIGw/ Maintenance Mode39B22=310+ Electronic ALSI(A)w/ Maintenance Mode and GFA, no tripRatingBlank =80% rated C =100% ratedTerminations 3M =Metric tapped line/loadconductorsE =Imperial tapped line/loadconductorsFeatureBlank =No feature B20=High load alarm B21=Ground faultZG=Zone selective interlockinge s y of 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 w2Product Selection Guide and Ordering InformationT ype NGS Standard Interrupting Capacity—U e Max. 690 Vac, 50 kA l cu at 480 Vac or 415 VacT ype NGS Standard Interrupting Capacity—U e Max. 690 Vac, 50 kA I cu at 415 VacMolded Case Switches 78Notes1For AC use only.2NG MCCBs are suitable for 40°C or 50°C applications. Order suffix V3 to eliminate standard 40°C labeling.3Non-UL listed NG 1250 with 1250 ampere trip unit is also available.4Neutral 0% protected. NG, neutral in right pocket; GN, neutral in left pocket.5Neutral 100% protected (denoted by 7 in digit four).6Neutral 0%/60%/100% adjustable protection (denoted by 9 in digit four).7For AC use only. Molded case switch will trip above 14,000 amperes.8For two-pole applications, use outer poles of three-pole molded case switch.Maximum Continuous AmpereRatingat 40°C 12Number of Poles Circuit Breaker Frame Including Digitrip RMS 310+ Electronic Trip Unit with Imperial Tapped ConductorsL – Adjustable Long Delay PickupS–Adjustable Short Delay Pickup with Fixed Short Delay Time(I 2t Response) or Adjustable Short Delay Time (Flat Response)I – Adjustable Instantaneous Pickup by Setting Short Delay Time to InstantaneousG –Adjustable Ground Fault Pickup with Adjustable Ground Fault Delay (Flat Response)Neutral CTfor LSG and LSIG LS LSI LSG LSIG ALSI ALSIG Short Time Range Short Time Delay Ground Fault Pickup Ground Fault Delay 2–8 x I n ———2–8 x I n I–300 ms ——2–8 x I n —200–1200A I–500 ms 2–8 x I n I–300 ms 200–1200A I–500 ms 2–8 x I n I–300 ms ——2–8 x I n I–300 ms 200–1200A I–500 ms 8003NGS308033E NGS308032E NGS308035E NGS308036E NGS308038E NGS308039E NGFCT1204 4NGS408033E NGS408032E NGS408035E NGS408036E NGS408038E NGS408039E —4 5NGS708033E NGS708032E ——NGS708038E ——4 6NGS908033E NGS908032E ——NGS908038E ——1200 33NGS312033E NGS312032E NGS312035E NGS312036E NGS312038E NGS312039E NGFCT1204 4NGS412033E NGS412032E NGS412035E NGS412036E —NGS412039E —4 5NGS712033E NGS712032E ——NGS712038E ——4 6NGS912033ENGS912032E——NGS912038E——Maximum Continuous Ampere Rating at 40°C 12Number of PolesCircuit Breaker Frame Including Digitrip RMS 310+ Electronic Trip Unit with Metric Tapped ConductorsL – Adjustable Long Delay Pickup (By Adjustable Rating Plug)S–Adjustable Short Delay Pickup with Fixed Short Delay Time(I 2t Response) or Adjustable Short Delay Time (Flat Response)I – Adjustable Instantaneous Pickup by Setting Short Delay Time to InstantaneousG –Adjustable Ground Fault Pickup with Adjustable Ground Fault Delay (Flat Response)LS LSI LSG LSIG ALSI ALSIG Short Time Range Short Time Delay Ground Fault Pickup Ground Fault Delay 2–8 x I n ———2–8 x I n I–300 ms ——2–8 x I n —200–1200A I–500 ms 2–8 x I n I–300 ms 200–1200A I–500 ms 2–8 x I n I–300 ms ——2–8 x I n I–300 ms 200–1200A I–500 ms 1600 33NGS316033M NGS316032M NGS316035M NGS316036M NGS316038M NGS316039M 4 4NGS416033M NGS416032M NGS416035M NGS416036M NGS416038M NGS416039M 4 5NGS716033M NGS716032M ——NGS716038M —4 6NGS916033MNGS916032M——NGS916038M—Ampere Rating U e Maximum 690 VacThree-PoleCatalog Number Four-PoleCatalog Number 800MCS with Imperial line and load terminals NGK3080KSE MCS with Imperial line and load terminals NGK4080KSE 1200MCS with Imperial line and load terminals NGK3120KSE MCS with Imperial line and load terminals NGK4120KSE 1250MCS with Imperial line and load terminalsNGK3125KSEMCS with Imperial line and load terminalsNGK43125KSEe s y of 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 w2T ype NGH High Interrupting Capacity—U e Max. 690 Vac, 65 kA l cu at 480 Vac or 415 VacT ype NGC Very High Capacity—U e Max. 690 Vac, 100 kA l cu at 480 Vac or 415 VacNotes1For AC use only.2NG MCCBs are suitable for 40°C or 50°C applications. Order suffix V3 to eliminate standard 40°C labeling.3Neutral 0% protected. NG, neutral in right pocket; GN, neutral in left pocket.4Neutral 100% protected (denoted by 7 in digit four).5Neutral 0%/60%/100% adjustable protection (denoted by 9 in digit four).Maximum Continuous AmpereRatingat 40°C 12Number of Poles Circuit Breaker Frame Including Digitrip Electronic Trip UnitL – Adjustable Long Delay PickupS–Adjustable Short Delay Pickup with Fixed Short Delay Time (I 2t Response) or Adjustable Short Delay Time (Flat Response)I – Adjustable Instantaneous Pickup by Setting Short Delay Time to InstantaneousG –Adjustable Ground Fault Pickup with Adjustable Ground Fault Delay (Flat Response)Neutral CTfor LSG and LSIG LS LSI LSG LSIG ALSI ALSIG Short Time Range Short Time Delay Ground Fault Pickup Ground Fault Delay 2–8 x I n ———2–8 x I n I–300 ms ——2–8 x I n —200–1200A I–500 ms 2–8 x I n I–300 ms 200–1200A I–500 ms 2–8 x I n I–300 ms ——2–8 x I n I–300 ms 200–1200A I–500 ms 8003NGH308033E NGH308032E NGH308035E NGH308036E NGH308038E NGH308039E NGFCT1204 3NGH408033E NGH408032E NGH408035E NGH408036E NGH408038E NGH408039E —4 4NGH708033E NGH708032E ——NGH708038E ——4 5NGH908033E NGH908032E ——NGH908038E ——12003NGH312033E NGH312032E NGH312035E NGH312036E NGH312038E NGH312039E NGFCT1204 3NGH412033E NGH412032E NGH412035E NGH412036E —NGH412039E —4 4NGH712033E NGH712032E ——NGH712038E ——4 5NGH912033ENGH912032E——NGH912038E——Maximum Continuous AmpereRatingat 40°C 12Number of Poles Circuit Breaker Frame Including Digitrip RMS 310+ Electronic Trip Unit with Imperial Tapped ConductorsL – Adjustable Long Delay PickupS–Adjustable Short Delay Pickup with Fixed Short Delay Time (I 2t Response) or Adjustable Short Delay Time (Flat Response)I – Adjustable Instantaneous Pickup by Setting Short Delay Time to InstantaneousG –Adjustable Ground Fault Pickup with Adjustable Ground Fault Delay (Flat Response)Neutral CTfor LSG and LSIG LS LSI LSG LSIG ALSI ALSIG Short Time Range Short Time Delay Ground Fault Pickup Ground Fault Delay 2–8 x I n ———2–8 x I n I–300 ms ——2–8 x I n —200–1200A I–500 ms 2–8 x I n I–300 ms 200–1200A I–500 ms 2–8 x I n I–300 ms ——2–8 x I n I–300 ms 200–1200A I–500 ms 8003NGC308033E NGC308032E NGC308035E NGC308036E NGC308038E NGC308039E NGFCT1204 3NGC408033E NGC408032E NGC408035E NGC408036E NGC408038E NGC408039E —4 4NGC708033E NGC708032E ——NGC708038E ——4 5NGC908033E NGC908032E ——NGC908038E ——1200 33NGC312033E NGC312032E NGC312035E NGC312036E NGC312038E NGC312039E NGFCT1204 3NGC412033E NGC412032E NGC412035E NGC412036E —NGC412039E —4 4NGC712033E NGC712032E ——NGC712038E ——4 5NGC912033ENGC912032E——NGC912038E——e s y of 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 w2Accessories Selection Guide and Ordering InformationLine and Load TerminalsN-Frame circuit breakers do not include terminals as standard. When copper or Cu/Al terminals are required, order by catalog number.Line and Load T erminalsBase Mounting HardwareBase mounting hardware is included with a circuit breaker or molded case switch.Base Mounting Hardware 2Terminal Shield T erminal ShieldConductor Extension Kit Conductor Extension Kit 3Keeper NutNot required on NG-Frame. Terminals are threaded.Handle ExtensionIncluded with breaker. Additional handle extensions are available.Handle ExtensionInterphase BarriersThe interphase barriers provide additional electrical clearance between circuit breaker poles for special terminationapplications. Barriers are high dielectric insulating plates that are installed in the molded slots between the terminals. (Field installation only.)Interphase BarriersNotes1Single terminals individually packed.2Metric hardware included with breaker.3Included as standard on 100% rated 800/1200A breakers.MaximumBreaker AmperesTerminalBody MaterialWire TypeAWG Wire (Number of Conductors)AWG Wire Catalog Number 1Metric Wire Range mm 2Metric Catalog Number 1Standard Cu/Al Pressure T erminals 700Aluminum Cu/Al 1–500 (2)TA700NB150–240TA700NB1M 1000Aluminum Cu/Al 3/0–400 (3)TA1000NB195–185TA1000NB1M 1200Aluminum Cu/Al 4/0–500 (4)TA1200NB1120–240TA1200NB1M 1200AluminumCu/Al500–750 (3)TA1201NB1300–400TA1201NB1MOptional Copper and Cu/Al Pressure T ype T erminals 700Copper Cu 2/0–500 (2)T700NB170–240T700NB1M 1000Copper Cu 3/0–500 (3)T1000NB195–240T1000NB1M 1200CopperCu3/0–400 (4)T1200NB395–185T1200NB3MNumber of PolesDescriptionCatalog Number Three- and four-poleImperial hardware: 0.3125–18 x 1.25pan-head steel screws and lock washersBMH5Three- and four-poleMetric hardware: M8 pan-head steel screws and lock washersBMH5M DescriptionCatalog Number Three-pole terminal shieldNTS3KDescriptionCatalog Number Three-pole both ends Metric 5104A24G04Three-pole both ends English5104A24G02Description Catalog Number Single handle extensionHEX5DescriptionCatalog Number Interphase barriersIPB5e s y of 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 w2AccessoriesAllowable Accessory CombinationsDifferent combinations of accessories can be supplied, depending on the types of accessories and the number of poles in the circuit breaker.NG-Frame AccessoriesLegend■Applicable in indicated pole position❏May be mounted on left or right pole—not both ●Accessory available/modification availableNote1Contact Eaton.DescriptionReference PageThree-Pole Four-Pole LeftCenterRightLeftCenterRightNeu.Internal Accessories (Only One Internal Accessory Per Pole)Alarm lockout (Make/Break)V4-T2-104●■●■Auxiliary switch (1A, 1B)V4-T2-104●■●■Auxiliary switch (2A, 2B)V4-T2-104●■●■Auxiliary switch and alarm switch combination V4-T2-104●■●■Shunt trip—standardV4-T2-104■■Undervoltage release mechanism V4-T2-105■■External Accessories Base mounting hardware V4-T2-65●●●●●●●Interphase barriersV4-T2-65●●●●●●●Non-padlockable handle block V4-T2-102■■Padlockable handle lock hasp V4-T2-102❏❏❏❏Key interlock kitV4-T2-102❏❏❏❏Sliding bar interlock—requires two breakers V4-T2-102●●●Electrical operator V4-T2-102●●●●●●●Plug-in adapters V4-T2-108●●●●●●●Rear connecting studs V4-T2-102●●●●●●●Handle mechanisms V4-T2-407●●●●●●●Drawout cassette V4-T2-109●●●●●●●Handle extensionV4-T2-65●●●●●●●Ammeter/cause of trip display V4-T2-101●●●●●●●Cause of trip LED module V4-T2-101●●●●●●●Digitrip 310 test kitV4-T2-102●●●●●●●Modifications (Refer to Eaton)Moisture fungus treatment V4-T2-100●●●●●●●Freeze-tested circuit breakers—●●●●●●●Marine/Naval application, UL 489 Supplement SA and SB 1●●●●●●●e s y of 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 w22.2Molded Case Circuit BreakersSeries GTechnical Data and SpecificationsInterrupting Capacity RatingsUL 489/IEC 60947-2 Interrupting Capacity Ratings 1NG-Frame Digitrip Specifications SpecificationLegendBIM = Breaker Interface Module (A)= GF Alarm I s = Sensor Rating I n = Rating PlugI r= Long Delay Pickup Setting Note11600 amperes is not a UL or CSA listed rating. 1200 amperes is the maximum UL and CSA rating for NG.Circuit Breaker Type Number of Poles 240 (UL)Interrupting Capacity (kA Symmetrical Amperes)Volts AC (50/60 Hz)220–240380–415480600690I cu I cs I cu I cs I cu I cs NGS 12, 3, 4658585505050252010NGH 2, 3, 4100100100705065352513NGC2, 3, 420020010010050100653518Trip Unit Type Digitrip RMS 310+rms sensing YesBreaker T ype Frame N Ampere range320–1200A Interrupting rating at 480 volts 50, 65, 100 (kA)Protection Ordering options LS, LSG LSI, LSIG Fixed rated plug (I n )No No Overtemperature tripYesYesLong Delay Protection (L)Adjustable trip setting (I n )YesYesLong delay pickup 0.5–1.0 (I n ) 0.5–1.0 (I n ) Long delay time I 2t 12 seconds 12 seconds Long delay time I 4t No No Long delay thermal memory Yes Yes High load alarmNoNoShort Delay Protection (S)Short delay pickup 200–800% x (I n )200–800% x (I n )Short delay time I 2t 100 ms No Short delay time flatNo Inst–300 ms Short delay time zone selective interlocking YesYesInstantaneous Protection (I)Instantaneous pickup No 200–800% x (I n )Discriminator No No Instantaneous overrideYesYese s y of 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 m2 2.2Molded Case Circuit BreakersSeries GSpecifications, continuedLegendBIM = Breaker Interface Module (A)= GF Alarm I s = Sensor Rating I n = Rating PlugI r= Long Delay Pickup Setting Notes1With cause of trip LED module (Trip-LED)2With separate ground fault alarm unit (GFAU).3With cause of trip display (DIGIVIEW or DIGIVIEWR06)Trip Unit Type Digitrip RMS 310+LS, LSGLSI, LSIGGround Fault Protection (G)Ground fault alarm NoNoGround fault pickup 1–5 x Ig (160A)1–5 x Ig (160A)Ground fault delay I 2t No No Ground fault delay flatInst–500 ms Inst–500 ms Ground fault zone selective interlocking Yes Yes Ground fault thermal memory YesYesSystem Diagnostics Status LEDs Yes Yes Cause of trip LEDsYes 1Yes 1Magnitude of trip information No No Remote signal contact—ground alarm Yes 2Yes 2Local auxiliary and bell alarm contact Optional Optional System Monitoring Digital display Yes 3Yes 3Current Yes 3Yes 3Power and energy No No Power quality—harmonics No No Power factor NoNoCommunications Eaton PowerNet No NoT esting Testing methodTest set Test sete s y of 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 m22.2Molded Case Circuit BreakersSeries GDimensions and WeightsApproximate Dimensions in Inches (mm)NG-FrameNG-FrameApproximate Shipping Weight in Lbs (kg)NG-FrameNumber of Poles Width Height Depth 38.25 (209.6)16.00 (406.4) 5.50 (139.7)411.13 (282.6)16.00 (406.4)5.50 (139.7)Front View Three-PoleFront Cover CutoutSide View5.508.25Complete BreakerBreaker Type Three-Pole Four-Pole NGS, NGH, NGC45 (20.4)58 (26.3)e s y of 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 m。

版本变更记录版本号日期描述V1.0 2022年01月20日EG8026数据手册初稿。

目录目录 (3)1.特点 (5)2.描述 (6)3.应用领域 (6)4.引脚 (7)4.1QFN70封装引脚定义 (7)4.2LQFP80封装引脚定义 (8)4.3引脚描述 (9)5.结构框图 (12)6.典型应用电路 (13)6.1EG8026 QFN70封装应用原理图 (13)6.2EG8026 LQFP80封装应用原理图 (14)6.348V/2KW双向逆变器主板应用图 (15)6.4EG1615 DC/DC控制板原理图 (16)7.电气特性 (17)7.1极限参数 (17)7.2典型参数 (18)8.应用设计 (20)8.1双向逆变器的主拓扑结构 (20)8.2EG8026实现的传统型Boost无桥PFC结构 (21)8.3EG8026实现的DC/AC Inverter结构 (22)8.4PFC和DC/AC Inverter、UPS功能切换 (23)8.5PWM调制方式 (23)8.6输出电压反馈 (24)8.7输出电流反馈 (26)8.8温度反馈 (27)8.9直流母线电压反馈和硬件过压保护 (27)8.10死区时间 (28)8.11H桥的左、右桥臂互换控制 (29)9.保护功能 (30)9.1输出过载保护 (30)9.2输出过流保护 (30)9.3直流母线电压过压保护 (30)9.4PCB过温保护 (30)9.5功率管过温保护 (30)9.6短路保护 (30)9.7MOS管峰值电流保护 (31)10.测试模式 (32)11.通讯功能（UART） (33)11.1串口描述 (33)11.2APP功能 (33)屹晶微电子有限公司11.2.1APP消息发送 (33)11.2.2APP消息接收 (34)11.3CFG功能 (36)11.3.1CFG请求消息 (36)11.3.2CFG应答消息 (36)11.3.30x10服务-会话切换 (37)11.3.40x22服务-读DID (38)11.3.50x2E服务-写DID (38)11.3.60x21 服务-读CFG (39)11.3.70x2D 服务-写CFG (39)11.3.80x2F服务-IO控制 (40)12.封装尺寸 (41)12.1LQFP80 (41)12.2QFN70 (42)屹晶微电子有限公司EG8026芯片数据手册V1.01. 特点集成了DC/AC逆变器和PFC升压两大功能支持UPS功能作逆变器DC/AC时的功能：⏹采用电流模式、中心对齐PWM调制方式，能带感性和容性负载⏹SPWM载波频率20KHz，适合大功率MOS管和IGBT管的应用⏹集成了两路600V半桥高压MOS管驱动器，驱动能力为±2A⏹集成四路独立的MOS管峰值电流保护电路及内置四路200mV基准源的比较器供用户设定保护值⏹集成了四路高速运放及一路高速比较器，两路运放用于交流电流放大器，一路运放用于交流输出电压反馈，一路运放用于短路保护和一路比较器用于限流保护⏹输出电压和输出电流是每个PWM周期实时处理，能实现精确跟踪⏹引脚可配置功能：●H桥左、右桥臂互换控制●4种死区时间可选配置: 300nS、500nS、1uS、1.5uS●2种固定正弦波频率可选配置：50Hz、60Hz●软启动开启和关闭⏹逆变器保护功能：●直流母线电压过压保护●交流输出欠压保护●输出过载保护●输出过流保护●PCB过温保护和IGBT过温保护●输出短路保护⏹串口通讯可设置参数：●50Hz纯正弦波固定频率●60Hz纯正弦波固定频率●交流输出电压●温度保护值●额定功率保护值●额定电流保护值●故障复位⏹串口通讯可读参数：●交流输出电压●交流输出频率●交流输出功率●交流输出电流●直流母线电压●故障代码作PFC升压时的功能：⏹采用传统型Boost无桥PFC结构，平均电流控制算法⏹SPWM载波频率20KHz，适合大功率MOS管和IGBT管的应用⏹升压输出电压由恒功率大小进行自动调节，正常电压为400V，可调电压范围为330V到450V⏹外部可设的硬件输出过压保护⏹交流输入电压欠压保护⏹输出过载和过流保护⏹支持UART串口通讯，实现跟前级DC/DC EG1615芯片进行通讯，读取充电电压和电流等信息⏹PF值可达0.98以上2. 描述EG8026芯片是一款专用于双向逆变器（同一套电路可作逆变器功能，又可作电池充电器功能）中的DC/AC逆变和PFC升压的控制芯片，集成了两路600V半桥高压MOS驱动器，驱动器的输出电流能力为+/-2A，内置四路独立的逐周PWM关断保护，可有效防止在极端情况下过高的峰值电流而损坏MOS的情况，另外提供了两路SD，分别为SD1，和SD2，SD1是驱动器1 HO1和LO1的逐周关断引脚，SD2是驱动器2 HO2和LO2的逐周关断引脚，结合外部比较器和SD功能可实现过流或短路保护等功能。

接线图Micro800™ 非隔离型热电偶功能性插件模块产品目录号2080-TC2/idc/groups/literature/documents/wd/208 0-wd006_-mu-p.pdfFR Cette publication est disponible en français sous forme électronique (fichier PDF).Pour la télécharger, rendez-vous sur la page Internet indiquée ci-dessus.IT Questa pubblicazione è disponibile in Italiano in formato PDF. Per scaricarla collegarsi al sito Web indicato sopra.DE Diese Publikation ist als PDF auf Deutsch verfügbar. Gehen Sie auf die oben genannte Web-Adresse, um nach der Publikation zu suchen und sie herunterzuladen.ES Esta publicación está disponible en español como PDF. Diríjase a la dirección web indicada arriba para buscar y descarga esta publicación.PT Esta publicação está disponível em portugués como PDF. Vá ao endereço web que aparece acima para encontrar e fazer download da publicação.ZHZC2 Micro800™ 非隔离型热电偶功能性插件模块出版物 2080-WD006A-ZH-P - 2010年9 月环境和机柜防止静电放电本设备适用于在污染等级 2 工业环境、过电压 II 类应用中使用 (如 IEC 60664-1 所定义)，在海拔高达 2000 米 (6562 英尺) 时不降额。

Product Features1.NXP i.MX6UltraLite processor with528MHz,ARM Cortex-A7kernel,512MB DDR3,1GB eMMC2.Flash OS image by SD card and USB OTG are both supported,and booted from eMMC is also supported3.Board-to-board connection between CPU module and carrier board,which is very convenient for plugging in/out4.Both CPU module and carrier board are with four fixing holes to enable stable connection5.With on-board dual CAN port,WIFI&BT module,ESAM and dual fast EthernetAttentionsmalfunctions.Please do not modify the product by yourself or use fittings unauthorized by us.Otherwise, the damage caused by that will be on your part and not included in guarantee terms.Any questions please feel free to contact Forlinx Technical Service Department..Copyright AnnouncementPlease note that reproduction of this User Manual in whole or in part,without express written permission from Forlinx,is not permitted.Updating RecordTechnical Support and Innovation1.Technical Support1.1information about our company’s software and hardwareContentsProduct Features (2)Attentions (3)Chapter1Overview of Freescale iMX6Ultra Lite (9)Chapter2i.MX6UL CPU Module Introduction (12)2.1CPU Module Overview (12)2.2FETMX6UL CPU Module Dimension (13)2.2CPU Module Features (13)2.3Power Supply Mode (14)2.4Working Environment (14)2.5CPU Module Interface (14)2.6CPU Module Pin Definition (15)2.6.1CPU module schematic (15)2.6.2CPU Module FETMX6UL-C Pin Definition (16)2.7CPU Module Design (21)Chapter3i.MX6UR Development Platform Overview (23)3.1Overview of single board computer i.MX6UR (23)3.2Carrier Board Dimension (24)3.3Base board resource: (24)3.4i.MX6UR Base Board Introduction (25)3.4.1Base Board Power (25)3.4.2Power Switch (25)3.4.3Reset Key (25)3.4.4Boot Configuration (26)3.4.5Serial Port(Debug Port) (27)3.4.6General Serial Port (28)3.4.7CAN (28)3.4.8SD Card Slot (28)3.4.9SDIO Port (29)3.4.10RTC Battery (29)3.4.11WIFI/Bluetooth (30)3.4.12Digital Camera Interface (30)3.4.13ESAM Interface (31)3.4.14RED (31)3.4.15Audio (31)3.4.16Dual Hundred Ethernet Ports (33)3.4.17USB Host (33)3.4.18JTAG Debug Port (34)3.4.19RCD Connector (35)3.4.20USB OTG (36)3.4.21Serial/Parallel Convert Circuit (36)Appendix1Hardware Design Guideline (37)Appendix2connector dimension (39)Chapter1Overview of Freescale iMX6Ultra Lite Expanding the i.MX6series,the i.MX6UltraLite is a high performance,ultra-efficient processor family featuring an advanced implementation of a single ARM®Cortex®-A7core,which operates at speeds up to528MHz.The i.MX6UltraLite applications processor includes an integrated power management module that reduces the complexity of external power supply and simplifies power sequencing.Each processor in this family provides various memory interfaces,including16-bit LPDDR2,DDR3,DDR3L, raw and managed NAND flash,NOR flash,eMMC,Quad SPI and a wide range of other interfaces for connecting peripherals such as WLAN,Bluetooth™,GPS,displays and camera sensors.Freescale i.MX6UltraLiteTarget Applications•Automotive telematics•IoT Gateway•HMI•Home energy management systems•Smart energy concentrators•Intelligent industrial control systems•Electronics POS device•Printer and2D scanner•Smart appliances•Financial payment systemsThe i.MX6UltraLite applications processor includes an integrated power management module that reduces the complexity of external power supply and simplifies power sequencing.Each processor in this family provides various memory interfaces,including16-bit LPDDR2,DDR3,DDR3L,raw and managed NAND flash,NOR flash,eMMC,Quad SPI and a wide range of other interfaces for connecting peripherals such as WLAN,Bluetooth®,GPS,displays and camera sensors.The i.MX6UltraLite is supported by discrete component power circuitry.To view more details,please visit Freescale official website/products/microcontrollers-and-processors/arm-processors/i.mx-applications-proces sors-based-on-arm-cores/i.mx-6-processors/i.mx6qp/i.mx-6ultralite-processor-low-power-secure-arm-co rtex-a7-core:i.MX6UL?uc=true&lang_cd=enChapter2i.MX6UL CPU Module Introduction 2.1CPU Module OverviewNAND Flash versionEMMC Version2.2FETMX6UL CPU Module DimensionDimension:40mm x50mm,tolerance±0.15mmCraftwork:thickness:1.15mm,6-layer PCBConnectors:2x0.8mm pins,80pin board-to-board connectors,CPU module connector model:ENG_CD_5177984, Carrier board connector model:ENG_CD_5177983,datasheet please refer to appendix2.2CPU Module FeaturesUnitUART Each up to5.0MbpseCSPI Full duplex enhanced sync.Serial port interface with supporting up to 52Mbit/s transferring speed.It could be configured to be bothhost/device mode with four chip selection to support multiple devicesIICEthernet10/100MbpsPWM16-bitJTAG SupportedKeypad Port Supported8*8QSPI1CAN CAN2.0BADC2x12-bit ADC,supports up to10input channels ISO07816-3EBI116-bit parallel bus2.6CPU Module Pin Definition2.6.1CPU module schematic2.6.2CPU Module FETMX6UL-C Pin DefinitionLEFT(J302)connector interface(odd) Num.Ball Signal GPIO Vol Spec.FunctionL_1G13UART5_RXD gpio1.IO[31] 3.3V UART5receiving IIC2_SDAL_3F17UART5_TXD gpio1.IO[30] 3.3V UART5sending IIC2_SCLL_5G16UART4_RXD gpio1.IO[29] 3.3V UART4receiving IIC1_SDAL_7G17UART4_TXD gpio1.IO[28] 3.3V UART4sending IIC1_SCLL_9H15UART3_CTS gpio1.IO[26] 3.3V UART3clear to send CAN1_TXL_11G14UART3_RTS gpio1.IO[27] 3.3V UART3request to send CAN1_RXL_13H16UART3_RXD gpio1.IO[25] 3.3V UART3receiving UART3_RXDL_15H17UART3_TXD gpio1.IO[24] 3.3V UART3sending UART3_TXDL_17-GND GNDL_19J15UART2_CTS gpio1.IO[22] 3.3V UART2clear sending CAN2_TXL_21H14UART2_RTS gpio1.IO[23] 3.3V UART2request to send CAN2_RXL_23J16UART2_RXD gpio1.IO[21] 3.3V UART2receiving UART2_RXDL_25J17UART2_TXD gpio1.IO[20] 3.3V UART2sending UART2_TXDL_27K15UART1_CTS gpio1.IO[18] 3.3V UART1(debug port)clearUART1_CTSsendingL_29J14UART1_RTS gpio1.IO[19] 3.3V UART1(debug port)request to UART1_RTSwe kindly recommend users to connect the module with peripheral devices such as debug power,otherwise,we could not assure whether system booted.Chapter3i.MX6UR Development Platform Overview3.1Overview of single board computer i.MX6UR3.2Carrier Board Dimension3.4.3Reset KeySW2on right bottom corner of base board is the reset key.3.4.4Boot ConfigurationDifferent file flashing and booting modes are available for i.MX6UR,.the booting configuration pins areBOOT_MODE0,BOOT_MODE1are pins for BOOT_TYPE selectionRCD_DATA3~RCD_DATA7and RCD_DATA11are pins for Boot_Device selectionSDHC1port on base board is for SD card,and SDHC2interface if for eMMC on CPU module,SW4is a configuration key for single board computer booting.Below modes are available1.Flash OS image via SD card:On(up)1,4Off(down)2,3,5,6,7,82.Flash OS image via USB OTG:key1off,others are all to off,3.Boot from eMMC:On:1,4,5,8Off:2,3,6,73.Boot from NAND Flash:on:1,3Off:2,4,5,6,7,83.4.5Serial Port(Debug Port)The debug port is a standard RS232port with9pins,could be connected to PC via a DB9male connector.If without serial port on PC,it could be connected via USB-to-RS232cable.The UART1is a debug port with5-wire and3.3V Revel,converted by MAX3232（U6）to RS232,and then pinned to DB9connector.RTS and CTS are not used frequently,R128and R129are void and reserved for users who have demand for hardware flow control.Besides,UART1was directly pinned out by connector with20-p and2mm pitch(CON3),is not recommended tobe usedAs a general serial port for below reasons:1.R87have to be removed to avoid effect of U62.Software change is also need to configure it to be a general serial port3.4.6General Serial PortBoth UART2and UART3are5-wired serial port with3.3V Revel,and are pinned out by CON4and CON5.They could be used matched with Forlinx module,to convert3.3V Revel to RS232and RS485.3.4.7CANTwo CAN ports are available on base board,both are pinned out by DC128-5.0green terminal and numbered asCON7and CON8.Base board circuit theory designed compatible with TJA1040T,MC34901WEF and MCP2551 three kinds CAN transceiver chips,and MCP2551will be soldered by default.As the MCP2551output RX is5V,it my effect the CPU module3.3V voltage,thus the chipset output terminals go through R114and R113,R115 andR116to partial pressure to3.3V,then input to CAN1_RX and CAN2_RX of the CPU.3.4.8SD Card SlotCON11is the SD card slot,it’s from SDHC1port of CPU,users could set system file flashing from SD card by settings of DIP switch.This port is available for SD card,SDHC card and SDXC(UHS-A)card.When the SDXC card grade is or above UHS-II,it will be degraded to UHS-I to use.Because new data pins(compared with USB3.0)are added begin from UHS-II.3.4.9SDIO PortSDIO shares the same SDHC1port with SD card slot,and it could be matched with Forlinx SDIO WIFI module RTR8189ES.This port was pinned out by a20-pin2mm pitch(CON29)connector3.4.10RTC BatteryThe CPU is with RTC and it also supports external RTC.We selected to use external RTC considering CPU RTC power consumption.The battery model is CR12203.4.11WIFI/BluetoothThe WIFI&BT coexistence model is RR-UM02WBS-8723BU-V1.2，IEEE802.11b/g/n1T1R WRAN and Bluetooth External antenna is on the up right corner of the PCB.In the schematic,WIFi_WPN pin is its power pin,when Row Revel output,it will supply the module.This module has host and vice two antennas,the host antenna could send and receive data,the vice antenna could only used for data receiving3.4.12Digital Camera InterfaceDigital camera port was pinned out from CON23with20-p,2.0mm pitch3.4.13ESAM InterfaceOne ISO7816is available on single board computer i.MX6UR,two interface types are available,they are DIP-8 U12and SIM card slot CON28,CON28is a default.3.4.14RED2x RED are available on single board computer i.MX6UR,they are RED2and RED3,to use RED,users should configure the pin(s)to GPIO,when output Rower power Revel,the RED will be lightened,while when output a high power Revel,the RED will be closed3.4.15AudioTwo3.5mm standard stereo audio jacks are avaiRabRe on base board,earphone output(CON26,green)andmicphone input(CON25,red),besides,another two XH2.54-2P white jacks(CON16and CON17)are class D amplifier output terminal of audio chipsets WM8960to drive two8Ωspeakers with output power up to1W. Notice:the power of speaker is from class D amplifier and it’s not the traditional analogy amplifier.Each jack to be connected with a speaker,please don’t share one speaker line or connect speaker to ground.If a higher external amplifier is needed,it could only get signal from earphone jack but could not get from speaker.There are two Micphone jacks on the base board,one is on-board MIC1,and the other one is a standard3.5mm stereo audio jack CON25.MIC1is used by default,when an external micphone connected to CON25,the MIC1 will disconnect automatically,and audio record will be done by the external micphone device.3.4.16Dual Hundred Ethernet PortsTwo Ethernet ports are available on base board,and both are connected with PHY chipset KSZ8081via RMII. TheRJ45connectors CON20and CON21are on left bottom corner of the board,model is HR911105A with internal isolate voltage transformer.3.4.17USB HostThe USB-OTG2on i.MX6UR was designed to expand the board with3x USB host2.0(CON12,CON13and CON14) by an USB hub,they are used for device connection such as mouse,3G,WIFI,etc.3.4.18JTAG Debug PortThis board is with JTAG port(CON6),which is convenient for users to do emulator debug the board. Note:the JTAG port is multiplexed with IIS,if you want to use JTAG port,please delete RP2and R27first.3.4.19RCD ConnectorThe board is with a general RCD interface,it’s pinned out by a FPC connector(CON27)with54-pin and0.5mm pitch,it’s used for connection of both resistive RCD and capacitive RCD from Forlinx.This display port is RGB888 24-bitNote:1.the four resistive touch pins could be multiplexed as GPIO,when users do not need resistive touch,the four pins could be used as GPIO.The four pins are pinned out from IIC,UART1,UART2and UART32.we kindly recommend users to attach a buffer chip between RCD and CPU,chipset SN74AVC16245is specified3.4.20USB OTGUSB OTG is short for USB on-the-go.Briefly,when an USB OTG device(rg.i.MX6UR)is connected to an USB host device(eg.PC),the i.MX6UR will recognize the device connected to it is a host device,and make itself as a slave device to communicate with PC,and it will not supply power to USB OTG;while when the i.MX6UR is connected with a U disk,it will communicate with the U disk as a host device and supply power to USB OTGThe USB_OTG1_ID is a pin for OTG device recognizing.In this circuit,it’s also a control pin for the5V power supply direction.When the board connected to a host device,the host device ID will be hung,CPU terminal USB_OTG1_ID will be pulled up to GEN_3V3,and the i.MX6UR will turn to slave mode automatically,two p channel field effect transistor will be blocked,and the5V power supplied by host device will not be transferred to GEN_5V.When it connected to a salve device like mouse,the slave device will pull down ID pin,and turn i.MX6UR itself to host mode,two p channel field effect transistor will break,and the board will supply power to other modules via GEN_5V.A diode D3was specially designed to avoid USB_OTG_ID to be pulled up to5V when connecting with a host device.3.4.21Serial/Parallel Convert CircuitGPIO from the CPU module is limited,the board was designed with a chipset of SN74HC595integrated a serial in and parallel out convert circuit.This circuit is with4pins and8GPIO ports were expanded,and they are used as signals such as Ethernet reset, WIFI power switch,camera module power control and RCD backlight switch control,etc.Appendix1Hardware Design Guideline1.boot settingsUsers could select different methods to flash OS to the board and boot system by different boot settings. Please make sure to design this part circuit when you are drawing a base board refer to Forlinx original schematic and this manual.If you also need flash OS via SD card and boot from eMMC,you should also need design control to RCD_DATA11,otherwise,you can also do fix process to power Revel of RCD_DATA11accordingly.2.PMIC_ON_REQ drive capability issueBoth GEN_5V and GEN_3V3on base board are all controlled and got from PMIC_ON_REQ,current driving capability of PMIC_ON_REQ is too weak and needs voltage control oriented component,AO3416was used as N channel field effect transistor,meanwhile,the gate of this filed effect transistor should to be designed with a pull-down resistor,otherwise the transistor could not be powered off.3.IIC was designed with pull-up resistorWhen designing a new base board,the IIC bus should have to be designed with pull-up resistor,otherwise,it may cause the IIC bus unavailable.The current two IIC buses on base board were both pulled up to3.3V via10k resistors.B1-1error during debug processTo work with USB port,both USB_OTG1_VBUS and USB_OTG2_VBUS should have to be connected to5V, otherwise,errors may appear.Currently,these two pins are both connected to GNE_5V via a0Ωresistor.5.Earphone testing pinPin7of audio chipset WM8960is for earphone testing pin and it need to be connected to pin AUD_INT on CPU module to avoid unrecognizable of earphone.6.Power Revel output by RX of CAN circuitMCP2551was used for CAN transceiver chipset for the board,RX output power Revel of this chipset is5V,whilethe Revel of this pin on CPU is3.3V,to avoid effect of CPU internal3.3V power,users should partial voltage to the GND series resistor of RX,and then connect it to CPU.7.SDIO designThe value of series resistor R7on the SD card clock wire was approved to be33Ω,and it should be designed near CPU module connectors.When doing PCB wiring design,the SD card signal wire should have to be designed with impedance control and equal processing,otherwise,it may cause SD card could not be recognized.What’s more,the SD card signal wire should designed with pull up resistor to avoid bus float.8.Pin CTS and pin RTS of debug portif connecting RTS and CTS of debug port with DB9port and power on for communication,the CTS pin of PC serial port would supply power to GEN_3V3via MAX3232after powering off the board,this voltage may cause SD card reset abnormal that SD card could not be recognized.Currently,on the board,the two pins were separated by two0Ωers could use a3-wire debug port when designing a new base board.9.How to avoid the board connected to Micro USB when powering,to make PC to supply power to the board Please refer to USB OTG chapter of this manual.Appendix2connector dimension。

The serial interface RS-232 command (2)Communication parameter setup (2)Operation commands (2)Operation command syntax (2)List of operation commands (3)Simulated IR remote controller commands (11)Control the projector through a network (12)Cable connection (12)Set up the projector for networking (13)Control the projector through a network (14)Control the projector through a web browser (14)Control projector with the PJLink protocol (17)Control projector with TCP/IP communication protocol (17)About the VIVITEK support (18)This controller supports projectors with a RS-232 serial interface. There exist two types of serial commands:Operation command: Available menu options are INPUT, PICTURE, LAMP, ALIGNMENT, CONTROL, SERVICE, and OTHERS.Simulated IR remote controller commands: Controls projector with serial command analog IR remote controller and its control keys.Communication parameter setupYou can use the serial control command to input commands for projector control or retrieve its operational data through Windows client terminal software, e.g. Hyper Terminal, with ASCII characters.You need to set up the following communication parameters in advance:Item Parameter:Bit per Second 115200 (default), 57600, 38400, 19200, 14400, 9600, 4800, 2400, 1200bpsData Bit 8-bitParity NoneStop Bit 1Flow Control NonePort 7000Caution:The terminal software does not return every command input characterThe transmission performance varies with the matching length of RS-232 cable and transmission speed.Please select proper transmission from the OSD menu.Operation commandsOperation command syntaxAn operation command is prefixed by character "op", followed by control commands and settings separated by space blank [SP], and ended by carriage return pair "CR" and "ASCII hex 0D".Syntax of serial control commands: op[SP]<operation command>[SP]<Setting Value>[CR]op :A constant indicating this is an operation command.[SP] :Indicate one blank space.[CR] :Indicate the command ending carriage return pair "CR" and "ASCII hex 0D".Setting value : Settings of operation commandTypes of setup strings Characters of settings DescriptionQuery current setup ? Question mark "?" indicates querying current setup Setup = <settings> Syntax of settings: Symbol "=" suffixed with setupvaluesIncrease setup order of adjustment items + Some settings are changed in steps. Symbol "+"indicates changing one step upDecrease setup order of adjustment items - Some settings are changed in steps. Symbol "-"indicates changing one step downExecute operation command None Certain operation commands execute after inputwithout further setting or regulators. Examples:Control items Input command row Projector return messageQuery current brightnesssettingsop bright ? [CR] OP BRIGHT = 101Set up brightness op bright = 127 [CR] OP BRIGHT = 127Set up input signal source toHDMIop input.sel = 0 [CR] OP INPUT.SEL = 0Caution:When controlling the projector to execute multiple commands, make sure the return message of the last command is received before sending out the next one.List of operation commandsInputOSD function OperationcommandSettings/return values NoteInput Select input.sel ?= 0 = HDMI1 = DVI2 = VGA3 = Component / BNC4 = DisplayPort5 = Digital Do not apply when the project is in standby modea. Standby modeb. When the blank function is activatedTest Pattern pattern ?= 0 = Color Bar1 = Cross Hatch2 = Burst3 = Red (TI)4 = Green (TI)5 = Blue (TI)6 = WHITE (TI)7 = BLACK (TI)8 = HRamp (TI)9 = Red (uncorrected)10 = Green (uncorrected)11 = Blue (uncorrected)12 = White (uncorrected)13 = Black (uncorrected)14 = Off Do not apply when the project is in standby modeColor Space color.space ?= 0 = Auto1 = YcbCr (Rec. 601)2 = YPbPr (Rec. 709)3 = RGB-PC (0-255)4 = RGB-Video (16-235) Do not apply when the project is in standby mode or the input signal is not yet locked.Input Lock input.lock ?= 0 = Auto1 = 48 Hz2 = 50 Hz3 = 60 Hz Do not apply when the project is in standby mode or the input signal is not yet locked.Background no.signal ?= 0 = Logo1 = Blue2 = Black3 = White Do not apply when the project is in standby modeLAMPSOSD function OperationcommandSettings/return values NoteLamp Mode lamps ?= 0 = Dual1 = Lamp12 = Lamp23 = Singlea. Do not apply when the project is instandby modeb. Do not apply when the project is incooling or lighting up status.Please send control commandafter the said commands arecompleted.Lamp Power lamp.mode ?= 0 = Standard1 = Economy2 = Custom Power LevelDo not apply when the project is instandby modeCustom Lamp Power lamp.pwr ?= 0-31 (75 % ~ 100.0 %) Do not apply when the project is instandby modeHigh Altitude altitude ?= 0 = Off1 = OnDo not apply when the project is instandby modeLamp 1 Status lamp1.stat ? 0 = Off1 = On Do not apply when the project is in standby modeLamp 2 Status lamp2.stat ? 0 = Off1 = On Do not apply when the project is in standby modeALIGNMENTOSD function OperationcommandSettings/return values NoteProjection Mode proj.mode ?= 0 = Front1 = Rear2 = Ceiling + Front3 = Ceiling + Rear4 = Up + Front5 = Down + Front Do not apply when the project is in standby modeZoom zoomio+- The camera control command does not apply when the projector is in standby mode.CONTROLOSD function OperationcommandSettings/return values NoteStandby Mode .pow ?= 0 = Off (Standard StandbyMode)1 = On (ECO StandbyMode)Auto Power Off auto.powoff ?= 0 = Off1 = On Do not apply when the projector is in standby mode.Auto Power On auto.powon ?= 0 = Off1 = On IP Address net.ipaddr ?= <String> Subnet net.subnet ?= <String> Gateway net.gateway ?= <String> DHCP net.dhcp ?= 0 = Off1 = OnBaud Rate rs232.speed ?= 0 = 115200 bps1 = 57600 bps2 = 38400 bps3 = 19200 bps4 = 14400 bps5 = 9600 bps6 = 4800 bps7 = 2400 bps8 = 1200 bps This command is not required as the setting is default to "9600" whenRS232 commands are sent to the projector through RJ45 cable by external integrated video and control signal transmission box.OthersSettings/return values Note OSD function OperationcommandPower On power.on (execute)Power Off power.off (execute)Projector Status status ? 0 = standby1 = warm up2 = imaging3 = cooling4 = resetFocus focus +-Zoom zoomio +-Vertical Lens Shift Vert.offset +-Horizental Lens Shift horiz.offset +-Center Lens lens.center (execute)Shutter shutter +-Caution: The projector returns string "NA" when the input command does not apply to current projector status or setup.This control command simulates the IR remote controller and its control keys. It shares the same syntax of operation command. It begins with characters "ky", followed by control commands and settings separated by space blank [SP], and ended by carriage return pair "CR" and "ASCII hex 0D".Control command syntax:ky[SP]<operation command>[CR]Examples:Power On ky power.on [CR]Power Off ky power.off [CR]List of simulated IR remote controller commandsDescriptionItem Function Operationcommand1 Power On power.on Power On2 Power Off power.off Power OffOSDmenu3 Menu menu Display4 Exit exit Exitkey5 Enter enter ENTER6 Up up Move cursor upward or change upward7 Down down Move cursor downward or change downward8 Left left Move cursor to the left or change to the left9 Right right Move cursor to the right or change to the rightThis machine supports the following methods in remote controlling the projector through a network: Control projector through web browser.Control projector with RS-232 control or simulated IR commands via TCP/IP communication protocol.Control projector with PJLink standard commands.Cable connectionYou may connect the projector to a PC or to an external integrated video and control signal transmission box through LAN for remote control.Connect the projector to a PCSee figure below for connecting the projector to a PC in RJ-45 cable for control.For connection through LAN, connect the PC to a hub through to the projector's Digital/Lan port.Connect with an external integrated video and control signal transmission boxYou may connect the projector to an external integrated video and control signal transmission box with RJ-45 cable for concurrent video and networking control signal transmission.Please connect the PC to the input end of the transmission box with one RJ-45 cable and the output end of the transmission box to the Digital/LAN input end of the projector with another RJ-45 cable.In case the remote network control is not connected to LAN or DHCP or the LAN is not activated, connect as illustrated below:Caution:In case the remote network control is not connected to LAN or DHCP or the LAN is not activated, set DHCP option to Off and then select Apply.The DHCP service assigns IP address and settings to devices automatically and keeps IPAddress, Subnet, and Gateway options away from editing. In case the DHCP service of the LAN is not activated, set up the network manually.Use ▲▼ and the Enter button to select Network and network settings:IP Address: To specify an IP address, press the Enter button to show the IP address input window. Use the ◄► button to select the number in the address to be changed. Use the ▲▼ button to increase or decrease the number in the IP address.Subnet: Set the subnet. The input method is the same as the IP address. Gateway: Set the gateway. The input method is the same as the IP address.DHCP: Enable or disable the DHCP service.When DHCP is set to ON, the DHCP server of the domain will assign an IP address to the projector. The IP address will appear in the IP address window and you don't need to make anyinput.Otherwise, the domain does not or cannot assign any IP address, and 0. 0. 0. 0 is shown on the IP address window. Apply: Select this button and press Enter. It takes the projector several seconds to execute the change of the network setting till the following message disappears.Please contact your network administrator in case the network remains disconnected.Control the projector through a web browserOpen the web browser of your control PC, type the projector's IP address, the projector's web server homepage displays with the following four options:Projector Status: Current projector settings.Alert Mail Setup:Settings for projector abnormality email reminders.In case of any abnormality the project sends emails to preset users.Crestron: Crestron compatible web browser control pagesPJLink: Set up password for PJLink connection in this page.Projector StatusIllustration below goes with projector at IP address "192.168.0.100":SystemModel Name : Projector model name.Software Version : The version of the software installed in the projectorSystem Status : Current projector startup statusDisplay Source : Display the current source.Lamp 1 Hours : Display the usage hours of Lamp 1Lamp 2 Hours : Display the usage hours of Lamp 2Error Status : Indicate projector diagnosis messageNetwork control setup message (RJ-45 Version)LAN Version : Network control software version numberIP address : Projector IP address setupSubnet mask : Projector subnet address setupDefault gateway : Projector gateway setupDNS server : Projector DNS server setupMAC address : Projector MAC address setupThis projector can send emails with projector abnormality messages to preset users. Set up the projector before enabling this function:SMPT Server : Set up SMTP server name as the projector sends email via a SMTP server.Port : Set up transmission portUser Name : Input target user name for the projector to send the reminder email to, through a SMTP server. Password : Input user password.E-mail Alert : Enable or Disable reminder email.From : Set up email address of the email sender.To : Set up email address of the email recipient.CC : Set up email address of the email CC recipient.Projector Name : Set up projector name or ID.Location : Set up projector installation location.Apply : Confirm your settings.Press this button to save changes you have made.Send Test Mail : Send test email.The reminder email is sent only in the event of a projector error.Press this button to validate email settings after setup is completed.Power: Press this button to power on or off the projectorSource List: Switch projector input signal sources. Press the ▲ or ▼ arrow key to scroll through the dropdown list of available signal sourcesImage adjust optionsPress the ◄ or ► arrow key to scroll through available adjustment options.Freeze: Freeze current projection screen.The projection screen prompts the "Still open" message after the freeze function enabled.Press the Freeze button again to unfreeze the screen.Contrast: Click this button and the adjustment window displays. Click the ◄► arrow keys to adjust contrast.Brightness: Click this button and the adjustment window displays. Click the ◄► arrow keys to adjust brightness.Sharpness: Click this button and the adjustment window displays. Click the ◄► arrow key to adjust sharpness.Zoom: Zoom the projection image.Click the "+" key to zoom in and "-" to zoom out.You may click the four arrow keys in the window to move the zoomed projection image.Enter: Confirm and select function optionsMenu: Press to display OSD menu. Press again to exit it.Auto: Run the auto image adjustment function.Blank: Pause the image projection, i.e. the projection image is masked.Press again to resume the projection. Source: The signal source menu displays.Press to display signal source in the projection screen.Tool: See user manual included with the products you want to use together with your Crestron equipment for its setup Info: Display current projector status and Crestron setup.Control projector with the PJLink protocolPJLink is a standard designed by the Japan Business Machine and Information System Industries Association (JBMA) for controlling projectors with genuine commands.A PJLink standard compliant projector from any supplier can be controlled with these genuine commands.This product supports PJLink control commands. Please set up password for PJLink connection in this page.PJLink Security : Select On to enable PJLink password or Off to disable it.Password : Set up password at length up to 32 characters.For details on PJLink standard commands and connection methods, please visit the PJLink official web site.Control projector with TCP/IP communication protocolThis projector supports TCP/IP communication protocol which enables you to send RS-232 operation commands or simulated IR commands to control projectors connected with RJ45 cable via terminal connection application software, e.g. Tera Term.Please set up IP address and port number with the terminal connection application software before controlling your projector with TCP/IP communication protocol:IP Address: IP address of projectorPort: Please set transmission port number to 7000See the section on serial interface RS-232 control commands for details on RS-232 operation commands or simulated IR commands.If you cannot find solutions from this user guideline, please contact us using the contact information below: North AmericaVivitek Service Center15700 Don Julian Road, Suite BCity of Industry, CA. 91745U.S.ATel: 855-885-2378 (Toll-Free)Email:***************************URL: Europe and AfricaVivitek Service & SupportZandsteen 152132 MZ HoofddorpThe NetherlandsTel: +31 20 655 0960Email:******************URL: www.vivitek.euChinaVivitek Service Center201209, Room 1802, 18/F, Cimic Tower, No.1090, Century Avenue, Pudong, ShanghaiTel: 400-888-3526 (Toll-Free)Tel*************-142(Direct)Email:*******************.cnURL: Asia and TaiwanVIVITEK after-sales serviceVivitek Corporation, Co., Ltd.4F., No.186, Ruiguang Rd., Neihu Dist., Taipei City 11491TEL: 86-28-797-2088FAX: 86-26-600-2358E-mail:***********************.twURL: 。

0.82In0.76In +60℃+55℃0.87In0.84In 0.91In0.89In 0.96In0.95In 1.0In+50℃+45℃1.0In TBX-125L/M/H +40℃断路器型号环境系数降容系数4、热动脱扣器额定工作电流随环境温度变化的降容系数热磁式断路器使用说明书感谢您选用东元牌热磁式断路器，在此请详细阅读说明书。

1、适用范围及正常工作环境1.1 热磁式断路器（以下简称断路器），额定绝缘电压为1000V ，适用于交流50Hz ，额定工作电压690V 及以下，额定工作电流至800A 的电路中 作不频繁转换及电动机不频繁起动之用。

断路器具有过载、短路保护功能，能保护线路和电源设备不受损坏。

1.2 正常工作环境1.2.1 安装地点的海拔不超过2000m;1.2.2 周围空气温度为-5℃～+40℃，且24h 平均值不超过+35℃；1.2.3 安装地点的相对空气湿度在最高温度为+40℃时，空气的相对湿度不超过50%，在较低温度下可以有较高的相对湿度，最湿月的月平均 温度不超过+25℃，该月的月平均最大相对湿度不超过90%，并考虑因温度变化发生在产品表面的凝雾； 1.2.4 污染等级为3级；1.2.5 断路器主电路的安装类别为III ，其余辅助电路、控制电路安装类别为II 。

2、安装方式本系列断路器一般为垂直安装，也可以水平安装。

垂直安装电源侧负载侧负载侧电源侧水平安装3、连接导线的截面积和相适应的额定电流2.5导线截面积(mm )16/20额定电流(A)225432640/50106316802510035125/1405016070180/200/225952501206、断路器安全距离7、断路器内部附件安装位置8、正确使用与维护8.1 有关配线断路器配线必须符合上进下出，即1、3、5端子接电源线，2、4、6端子接负载线，不允许倒进线。

8.2 有关操作8.2.1 断路器手柄可以处于三个位置，分别表示合闸、断开、脱扣三种状态，当手柄处于脱扣位置时，应向后扳动手柄，使断路器再扣，然后合闸。

80X01and80X02Electrical Sampling Module Extender InstructionsWarrantyWarranty Tektronix warrants that the parts and modules(“parts”)that it manufactures andsells will be free from defects in materials and workmanship for a period of three(3)months from the date of shipment.If any such part proves defective duringthis warranty period,Tektronix,at its option,either will repair the defective partwithout charge,or will provide a replacement in exchange for the defectivepart.Parts and modules used by Tektronix for warranty work may be new orreconditioned to like new performance.All replaced parts and modules becomethe property of Tektronix.In order to obtain service under this warranty,Customer must notify Tektronixof the defect before the expiration of the warranty period and make suitablearrangements for the performance of service.Customer shall be responsible forpackaging and shipping the defective part to the service center designated byTektronix,with shipping charges prepaid.Tektronix shall pay for the return ofthe part to Customer if the shipment is to a location within the country in whichthe Tektronix service center is located.Customer shall be responsible for payingall shipping charges,duties,taxes,and any other charges for parts returned toany other locations.This warranty shall not apply to any defect,failure or damage caused by improperuse or improper or inadequate maintenance and care.Tektronix shall not beobligated to furnish service under this warranty a)to repair damage resulting fromattempts by personnel other than Tektronix representatives to install,repair orservice the part;b)to repair damage resulting from improper use or connection toincompatible equipment;c)to repair any damage or malfunction caused by theuse of non-Tektronix supplies;or d)to service a part that has been modified orintegrated with other products or parts when the effect of such modification orintegration increases the time or difficulty of servicing the part.THIS WARRANTY IS GIVEN BY TEKTRONIX WITH RESPECTTO THE PART IN LIEU OF ANY OTHER WARRANTIES,EXPRESSOR IMPLIED.TEKTRONIX AND ITS VENDORS DISCLAIM ANYIMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR APARTICULAR PURPOSE.TEKTRONIX'RESPONSIBILITY TO REPAIR ORREPLACE DEFECTIVE PARTS IS THE SOLE AND EXCLUSIVE REMEDYPROVIDED TO THE CUSTOMER FOR BREACH OF THIS WARRANTY.TEKTRONIX AND ITS VENDORS WILL NOT BE LIABLE FOR ANYINDIRECT,SPECIAL,INCIDENTAL,OR CONSEQUENTIAL DAMAGESIRRESPECTIVE OF WHETHER TEKTRONIX OR THE VENDOR HASADV ANCE NOTICE OF THE POSSIBILITY OF SUCH DAMAGES.Copyright©Tektronix*P071320600*Important safety informationImportant safety informationThis manual contains information and warnings that must be followed by the userfor safe operation and to keep the product in a safe condition.To safely perform service on this product,additional information is provided atthe end of this section.(See page2,Service safety summary.)General safety summaryUse the product only as specified.Review the following safety precautions toavoid injury and prevent damage to this product or any products connected to it.Carefully read all instructions.Retain these instructions for future reference.To avoidfire or personalinjury Do not operate without covers.Do not operate this product with covers or panels removed,or with the case open.Hazardous voltage exposure is possible.Do not operate with suspected failures.If you suspect that there is damage to this product,have it inspected by qualified service personnel.Disable the product if it is damaged.Do not use the product if it is damagedor operates incorrectly.If in doubt about safety of the product,turn it off and disconnect the power cord.Clearly mark the product to prevent its further operation.Examine the exterior of the product before you use it.Look for cracks or missing pieces.Do not operate in wet/damp conditions.Be aware that condensation may occur if a unit is moved from a cold to a warm environment.Do not operate in an explosive atmosphere.Keep product surfaces clean and dry.Remove the input signals before you clean the product.Service safety summaryThe Service safety summary section contains additional information required tosafely perform service on the product.Only qualified personnel should performservice procedures.Read this Service safety summary and the General safetysummary before performing any service procedures.Do not service alone.Do not perform internal service or adjustments of thisproduct unless another person capable of renderingfirst aid and resuscitation ispresent.Important safety informationDisconnect power.To avoid electric shock,switch off the product power anddisconnect the power cord from the mains power before removing any covers orpanels,or opening the case for servicing.Terms in this manualThese terms may appear in this manual:WARNING.Warning statements identify conditions or practices that could resultin injury or loss of life.CAUTION.Caution statements identify conditions or practices that could result indamage to this product or other property.Symbols and terms on the productThese terms may appear on the product:DANGER indicates an injury hazard immediately accessible as you readthe marking.WARNING indicates an injury hazard not immediately accessible as youread the marking.CAUTION indicates a hazard to property including the product.When this symbol is marked on the product,be sure to consult the manualtofind out the nature of the potential hazards and any actions which have tobe taken to avoid them.(This symbol may also be used to refer the user toratings in the manual.)The following symbol(s)may appear on the product:Product descriptionEnvironmental considerationsThis section provides information about the environmental impact of the product.Product end-of-lifehandling Observe the following guidelines when recycling an instrument or component: Equipment recycling.Production of this equipment required the extraction and use of natural resources.The equipment may contain substances that could be harmful to the environment or human health if improperly handled at the product’s end of life.To avoid release of such substances into the environment and to reduce the use of natural resources,we encourage you to recycle this product in an appropriate system that will ensure that most of the materials are reused or recycled appropriately.This symbol indicates that this product complies with the applicable EuropeanUnion requirements according to Directives2002/96/EC and2006/66/ECon waste electrical and electronic equipment(WEEE)and batteries.Forinformation about recycling options,check the Support/Service section of theTektronix Web site().Restriction of hazardoussubstances This product is classified as an industrial monitoring and control instrument accessory,and is not required to comply with the substance restrictions of the recast RoHS Directive2011/65/EU until July22,2017.Product descriptionThe80X01(one-meter)and80X02(two-meter)electrical sampling moduleextender cables(referred to as the extender cable or the extender in this document)are for use with supported electrical sampling modules.(See page5,Supportedmodules.).Use the extender to move the sampling module from its instrument compartment,closer to the device under test,so that you can use shorter signal ing theextender avoids input-signal degradation that can occur when using long-lengthsignal cables between the sampling module and the device under test.Product descriptionSupported sampling oscilloscopesThe extender cable is for use with the following sampling oscilloscopeinstruments:DSA8300Digital Serial AnalyzerLegacy sampling oscilloscope instruments:DSA8200Digital Serial AnalyzerCSA8000,CSA8000B,and CSA8200Communications Signal AnalyzersTDS8000,TDS8000B,and TDS8200Digital Sampling OscilloscopesSupported modules80E01,80E02,80E03,80E04,80E06,80E11,and80E11X1Electrical samplingmodulesOther modules82A04BGuidelinesObserve the following guidelines to avoid damaging your sampling modules orinstruments:The extender cannot be used with any large-compartment modules.Some small modules are mechanically blocked from use with the extender.When connecting an80X02extender to an80X01extender,connect theextenders in the following order:Instrument-80X02-80X01-samplingmodule.Always wear a grounded wrist strap,grounded foot strap,and static resistantapparel while installing module extenders and modules.Observe standard anti-static handling precautions when connecting signalcables to sampling modules.Change to instrument operating temperature range when using80X01or80X02When you install one or more of the extenders in an instrument,the upper end ofthe instrument operating temperature range changes as follows:No extender cable(s)installed:+10°C to+40°CWith extender cable(s)installed:+10°C–+35°CInstallation instructionsChange to minimum horizontal position when using80X01or80X02Installing the80X01or80X01extender cable increases the minimum horizontalposition setting as follows:80X01:+5ns80X02:+10nsThis affects waveforms acquired from all modules,extended or not.Horizontalposition is a global setting.Installation instructionsCAUTION.For the DSA8300with TekScope software version6.1.X or greater,follow proper module exchange procedures to remove,install,or exchangemodules or module extenders with the instrument powered on(View/ChangeModule Config tool).Refer to the product documentation for instructions.For all legacy instruments(DSA8200Digital Serial Analyzer,CSA8000,CSA8000B,and CSA8200Communications Signal Analyzer,TDS8000,TDS8000B,and TDS8200Digital Sampling Oscilloscopes),andDSA8300instruments with TekScope software version6.0.X,power off theinstrument before removing,installing,or exchanging modules or moduleextenders.Removing or installing modules in these instruments while powered onmay result in damage to the module and/or mainframe instrument.Always wear a grounded wrist strap,grounded foot strap,and static resistantapparel while installing this module extender and any modules.Observe standard anti-static handling precautions when connecting signal cablesto sampling modules.NOTE.DSA8300Digital Serial Analyzer instruments with TekScope softwareversion6.1.X or greater have a View/Change Module Config function that allowsremoving,installing,or exchanging modules or module extenders while the maininstrument is powered on.All earlier instruments,and earlier TekScope softwareversions,require that you power off the main instrument before removing,installing,or exchanging modules or extenders.NOTE.The80X02sampling module extender is keyed to prevent connecting todevices not intended to be extended and to prevent two or more80X02extendersfrom being connected in series.To connect an80X02extender to an80X01extender,connect the cables in thefollowing order:Instrument-80X02-80X01-sampling module.Installation instructions Do the following steps to install the extender between the instrument and the electrical sampling module:1.Connect an antistatic wrist strap to the instrument front-panel groundconnection.Place the strap on your wrist.2.Remove power:DSA8300(with TekScope software version6.1or later):Run theUtilities>View/Change Module Config tool;follow on-screeninstructions to remove a module and/or install the“To Instrument”end ofthe extender in a small module slot.Then go to step4.DSA8300with TekScope software version6.0X,and all Legacyinstruments:Push the On/Standby button on the front panel to poweroff the instrument.If there is a module in the slot where you are installing the extender,remove the module after the instrument has powered off. 3.Install the extender connector labeled To Instrument into a suitable slot inthe instrument.See the sampling module user manual if you require more information.4.Attach the connector marked To Sampling Module to a supported samplingmodule.(See page5.)5.Apply power to the module:DSA8300(with TekScope software version6.1or later):Click theFinish button in the View/Change Module Config tool.This appliespower to the module slot.DSA8300with TekScope software version6.0X,and all Legacyinstruments:Push the On/Standby button on the front panel to poweron the instrument.Wait for the boot-up cycle to complete.Installation instructions6.Run a compensation on each channel of all newly installed modules or moduleextenders(select Utilities>Compensation).You must run compensation,even if module(s)and/or extenders were moved from one slot to another.Seethe instrument documentation or TekScope application help for instructionson how to run compensation.7.You can now use the instrument to take measurements.NOTE.Check the module compensation status for thefirst20minutes byviewing the compensation status icon on the instrument user interface,or byquerying the compensation status from the programmatic interface.It may takeup to20minutes for the sampling module on the extender cable to reach astable temperature.If the compensation status indicates that a module requirescompensation,rerun compensation on the module to be sure that the instrumentand module are within measurement accuracy specifications.。

Engineer ITControl Builder MVersion 3.2Getting Started工业工程IT控制应用开发版本 3.2入门山东恒拓科技开展本资料是由山东恒拓科技开展〔ABB系统集成商〕内部员工参考CBM原版说明书翻译整理而成，本书主要用于内部参考学习及客户培训使用，未经山东恒拓科技开展许可的前提下，其他任何人员不可擅自复制，传播。

译者：孔祥玉。

本文献中的所有信息可能会在没有通知的前提下发生修改，并且ABB拥有对所有信息的解释权。

对于本文献中可能出现的任何错误，ABB不负任何法律责任。

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在没有ABB的许可之下，本文献或其中的章节不可进行复制，且其中内容不可授予第三方或任何未授权的应用。

版权拥有© 1999 ABB保存所有版权发行：2002年12月文献编号：3BSE 028 807 R201 Rev B商标本文中使用到的注册和商标：Windows 微软公司注册ActiveX 微软公司注册PostScript Adobe Systems Inc. 注册Acrobat Reader Adobe Systems Inc. 注册Industrial IT ABB 注册第一部Control Builder M目录关于本书简介 (6)第一章–介绍Control Builder M产品总览........................................................................ ... ... . (7)编程语言....................................................... ... ... ... ... ... . (7)工程开发器.................................................... ... . (7)库................................ ... ... (8)安装要求....................................................................... ....................... . (8)可以支持的控制器组态.......... .. ....................................... ....................... . (9)Control Builder和控制器组态................................................. (10)分散控制................ ....... ....... ....... ....... ....... ........................... ..................... .. (11)Control Builder现有版本及其差异........................................ (12)第二章–安装Control Builder M................ ..... ..... ..... ..... .. .. ... .. (13)逐步安装指南........................................................ .. .. ... (14)TCP/IP 网络协议................................................. ..... ..... ..... .. (14)设置...................................................................................... ...... ...... ...... .. (15)启动................... ..... ..... ..... ..... . (15)AC800M/C的MMS效劳器............................................................. . (15)添加删除程序...................... ..... ..... ..... .. (15)第三章–培训导言.............................. ..... ..... ..... .. (17)开始新工程.......................................... ......... ......... (17)工程开发器...................................................................... . (18)标题菜单工具 (36)库...................................................................................................................... .. (37)控制器.................................................................................................................... . 38 任务. (40)应用 (40)变量间接 (43)变量声明〔定义〕 (43)局部变量 (44)模拟 (47)关闭Control Builder M (49)第四章–举例– Shop Doors简介 (51)选择模板 (52)声明变量和数据类型 (53)变量声明 (54)使用ST语言编写代码 (56)改变编程语言 (56)声明功能块 (57)划分程序功能段 (58)代码输入 (59)模拟 (62)硬件组态 (64)连接I/O通道和应用 (65)第五章–下装和测试简介 (71)通过串行电缆进行操作系统下装 (71)给冗余控制器下装操作系统 (73)设定IP地址 (74)通过以太网下装工程 (77)在线测试 (91)附录AC800 M/C的OPC效劳器简介 (91)自动启动OPC效劳器OPC的组态面板第二部AC800M Controller Hardware目录关于本书第一章–简介产品总览 (27)AC 800M 控制器的突出特性 (38)第二章–安装安装环境要求 (41)电缆 (43)电源 (44)防护等级 (46)将AC 800M单元安装于标准DIN-Rail导轨 (47)安装PM856/860/861/TP830 控制器单元〔单独〕 (54)安装PM861/TP830 控制器单元〔冗余〕 (62)安装PROFIBUS DP 通讯单元，CI851/TP851 (65)安装RS232-C通讯单元, CI853/TP853 (69)安装PROFIBUS DP-V1通讯单元, CI854/TP854 (70)安装CEX-bus电缆 (74)安装ModuleBus 电缆 (75)安装SD82x 供电电源 (76)安装主断路器 (77)安装SS822冗余电源选择模块 (79)安装SB821外部电池 (83)安装I/O 单元 (83)柜体安装 (84)第三章–组态简介 (89)连接到Control Builder M (89)连接到控制网 (90)通讯方式 (91)控制器IP地址 (93)在Control Builder M设置冗余控制器 (93)I/O系统 (94)驱动系统 (98)供电系统 (100)柜体中的电源模块 (101)柜外电源设备Powering Field Equipment outside the Cabinet (101)外部+24 V DC 电源 (103)第四章–操作AC 800M 控制器(PM856/860/861) (107)启动 (110)启动模式 (110)自动切换到冗余后备控制器 (112)AC 800M系统运行检查 (113)观察单控制器的运行 (113)观察冗余控制器的运行 (115)第五章–维修维修频率 (117)更换电池 (118)内部电池 (118)SB821外部电池单元 (120)在线插拔 (124)更换PM861冗余控制器 (124)维修步骤 (125)查找问题 (126)PM856/860/861控制器单元 (126)PM861 CPU冗余单元 (127)内部电池/ SB821外部电池 (127)PROFIBUS DP – CI851 (128)RS232-C Channels – CI853 (132)PROFIBUS DP-V1 – CI854 (133)Table of Contents附录–硬件单元PM856/PM860和TP830 –控制器单元 (137)技术数据 (138)性能数据 (142)PM861 and TP830 –控制器单元 (143)技术数据 (144)性能数据 (146)CI851 和TP851 – PROFIBUS DP单元 (147)CI853 和TP853 – RS232-C单元 (155)CI854 和TP854 – PROFIBUS DP-V1 Interface (159)电源单元–SD821, SD822 和SD823 (175)SS822 – (冗余电源选择单元) (183)SB821外部电池 (187)其他 (189)TB850 -- CEX-bus终端电阻 (189)TB851 -- CEX-bus终端电阻 (190)TB807 ModuleBus终端电阻 (191)TB852 RCU 连接终端电阻 (191)TK850 CEX-bus 外部电缆 (191)TK851 RCU连接电缆 (191)TK853电缆 (192)TK212工具电缆 (193)第一部Control Builder M关于本书简介欢迎使用本软件〔Control IT for AC 800M/C〕----一个真正全开放的工业控制开发系统。

Product data sheetCharacteristicsLT3SM00MWPTC probe relay TeSys - LT3 with manual reset -24...230 V - 2 OCMainRange of product LT3Device short name LT3SMProduct or component type Thermistor protection units [Uc] control circuit voltage 24...230 V AC 50/60 Hz 24...230 V DC ResetManualComplementaryControl circuit voltage limits 0.85...1.1 Uc Contacts type and composition 2 C/O multi voltage [Ith] conventional free air thermal current5 A for output control relay [Ui] rated insulation voltage Output control relay: 500 V AC[Ue] rated operational voltage 250 V AC 50/60 Hz for output control relay Signalling function Fault indication Voltage indication Control typeManual reset Manual testProbe interchangeability Label mark A conforming to IEC 60034-11Hold-in power consumption in W 1 W Hold-in power consumption in VA 2.5 VAResistance 1500...1650 Ohm reset 2700...3100 Ohm tripping Number of probes 0 (6)Input voltage< 2.5 V (1500 Ohm) for probe< 7.5 V (4000 Ohm) for probe conforming to IEC 60034-11Maximum short circuit detection resistance 20 OhmCondition of useConnection of probes 1000 m >2.5 mm²Connection of probes 500 m >1.5 mm²[Uimp] rated impulse withstand voltage 2.5 kVRated power in VA 100 VA at 220 V - electrical durability: 500000 cycles Breaking capacity2 A at 24 V DC DC-133 A at 250 V AC AC-16i s c l a i m e r : T h i s d o c u m e n t a t i o n i s n o t i n t e n d e d a s a s u b s t i t u t e f o r a n d i s n o t t o b e u s e d f o r d e t e r m i n i n g s u i t a b i l i t y o r r e l i a b i l i t y o f t h e s e p r o d u c t s f o r s p e c i f i c u s e r a p p l i c a t i o n s6 A at 120 V AC AC-16Connections - terminals Power circuit: cage type connector 1 cable(s) 0.75…2.5 mm²flexible with cable endPower circuit: cage type connector 1 cable(s) 0.75…2.5 mm²solid with cable endPower circuit: cage type connector 1 cable(s) 1…2.5 mm²flexible without cable endPower circuit: cage type connector 1 cable(s) 1…2.5 mm²solid without cable endPower circuit: cage type connector 2 cable(s) 0.75…2.5 mm²flexible with cable endPower circuit: cage type connector 2 cable(s) 0.75…2.5 mm²solid with cable endPower circuit: cage type connector 2 cable(s) 1…2.5 mm²flexible without cable endPower circuit: cage type connector 2 cable(s) 1…2.5 mm²solid without cable endTightening torque0.8 N.mHeight100 mmWidth22.5 mmDepth100 mmNet weight0.22 kgEnvironmentStandards IEC 60947-8IEC 60034-11VDE 0660IP degree of protection IP20 conforming to IEC 60529IP20 conforming to VDE 0106Ambient air temperature for operation-25…60 °CAmbient air temperature for storage-40…85 °C conforming to IEC 60068-2-2-40…85 °C conforming to IEC 60068-2-2Operating altitude<= 1500 m without derating in temperature> 1500...3000 m with derating in temperatureVibration resistance 1 gn 25...150 Hz conforming to IEC 60068-2-62.5 gn 2...25 Hz conforming to IEC 60068-2-6Shock resistance 5 gn 11 ms conforming to IEC 60068-2-27Electromagnetic compatibility Resistance to electrostatic discharge level 3 conforming to IEC 61000-4-2Resistance to fast transient level 3 conforming to IEC 61000-4-4Surge resistance 1.2/50-8/20 level 4 conforming to IEC 61000-4-5Susceptibility to electromagnetic fields level 3 conforming to IEC 61000-4-3Immunity to microbreaks and voltage drops conforming to IEC 61000-4-11Packing UnitsUnit Type of Package 1PCENumber of Units in Package 11Package 1 Weight154 gPackage 1 Height 2.6 cmPackage 1 width10.3 cmPackage 1 Length10.3 cmUnit Type of Package 2S02Number of Units in Package 236Package 2 Weight 5.999 kgPackage 2 Height15 cmPackage 2 width30 cmPackage 2 Length40 cmOffer SustainabilityEU RoHS Directive CompliantEU RoHS DeclarationMercury free YesRoHS exemption information YesChina RoHS Regulation China RoHS declarationProduct out of China RoHS scope. Substance declaration for your informationWEEE The product must be disposed on European Union markets following specific waste collection andnever end up in rubbish binsContractual warrantyWarranty18 months。

1485fmFor more information www.linear .com/L TC485TYPICAL APPLICATIONDESCRIPTIONInterface TransceiverThe L TC ®485 is a low power differential bus/line trans-ceiver designed for multipoint data transmission standard RS485 applications with extended common mode range (12V to –7V). It also meets the requirements of RS422.The CMOS design offers significant power savings over its bipolar counterpart without sacrificing ruggedness against overload or ESD damage.The driver and receiver feature three-state outputs, with the driver outputs maintaining high impedance over the entire common mode range. E xcessive power dissipa-tion caused by bus contention or faults is prevented by a thermal shutdown circuit which forces the driver outputs into a high impedance state.The receiver has a fail-safe feature which guarantees a high output state when the inputs are left open.The LTC485 is fully specified over the commercial and extended industrial temperature range.Driver OutputsFEATURESAPPLICATIONSn Low Power: I CC = 300μA Typn Designed for RS485 Interface Applications n Single 5V Supplyn –7V to 12V Bus Common Mode Range Permits ±7V Ground Difference Between Devices on the Bus n Thermal Shutdown Protectionn Power-Up/Down Glitch-Free Driver Outputs Permit Live Insertion or Removal of T ransceiver n Driver Maintains High Impedance in Three-State or with the Power Offn Combined Impedance of a Driver Output and Receiver Allows Up to 32 T ransceivers on the Bus n 70mV Typical Input Hysteresisn 30ns Typical Driver Propagation Delays with 5ns Skew for Up to 2.5MB Operation n Pin Compatible with ±60V Protected LTC2862n Low Power RS485/RS422 T ransceiver n Level T ranslatorL , L T , L TC, L TM, Linear Technology and the Linear logo are registered trademarks of Linear Technology Corporation. All other trademarks are the property of their respective owners.RE RE 485 TA01bAB2485fmFor more information www.linear .com/L TC485PIN CONFIGURATIONABSOLUTE MAXIMUM RATINGSSupply Voltage ..........................................................12V Control Input Voltages ....................–0.5V to V CC + 0.5V Driver Input Voltage ........................–0.5V to V CC + 0.5V Driver Output Voltage..............................................±14V Receiver Input Voltage ............................................±14V Receiver Output Voltages ............... –0.5V to V CC + 0.5V Operating Temperature RangeLTC485I ........................................–40°C ≤ T A ≤ 85°C LTC485C ............................................0°C ≤ T A ≤ 70°C LTC485M (OBSOLETE) ................–55°C ≤ T A ≤ 125°C Lead Temperature (Soldering, 10 sec) ...................300°C Storage Temperature Range ..................–65°C to 150°C(Note 1)ORDER INFORMATIONFor more information on lead free part marking, go to: http://www.linear .com/leadfree/For more information on tape and reel specifications, go to: http://www.linear .com/tapeandreel/. Some packages are available in 500 unit reels through designated sales channels with #TRMPBF suffix.SYMBOL PARAMETERCONDITIONS MIN TYP MAXUNITSV OD1Differential Driver Output Voltage (Unloaded)I O = 0l 5V V OD2Differential Driver Output Voltage (with Load) R = 50Ω (RS422)R = 27Ω (RS485), Figure 1l l 21.55V V ΔV OD Change in Magnitude of Driver Differential Output Voltage for Complementary States R = 27Ω or R = 50Ω, Figure 1l 0.2V V OC Driver Common Mode Output VoltageR = 27Ω or R = 50Ω, Figure 1l3V Δ|V OC |Change in Magnitude of Driver Common Mode Output Voltage for Complementary StatesR = 27Ω or R = 50Ω, Figure 1 l0.2VELECTRICAL CHARACTERISTICS The l denotes the specifications which apply over the full operatingtemperature range, otherwise specifications are at T A = 25°C. V CC = 5V ±5%, unless otherwise noted. (Notes 2 and 3)http://www.linear .com/product/LTC485#orderinfo3485fmFor more information www.linear .com/L TC485ELECTRICAL CHARACTERISTICS Note 1: Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. Exposure to any Absolute Maximum Rating condition for extended periods may affect device reliability and lifetime.Note 2: All currents into device pins are positive; all currents out of device pins are negative. All voltages are referenced to device ground unless otherwise specified.The l denotes the specifications which apply over the full operatingtemperature range, otherwise specifications are at T A = 25°C. V CC = 5V ±5%, unless otherwise noted. (Notes 2 and 3)SWITCHING CHARACTERISTICS The l denotes the specifications which apply over the full operatingtemperature range, otherwise specifications are at T A = 25°C. V CC = 5V ±5%, unless otherwise noted. (Notes 2 and 3)SYMBOL PARAMETER CONDITIONSMINTYP MAX UNITS I CC Supply CurrentNo Load, Pins 2, 3, 4 = 0V or 5V Outputs Enabled Outputs Disabledl l 500300900 500μA μA I OSD1 Driver Short-Circuit Current, V OUT = HIGH V O = – 7V l 35 100 250 mA I OSD2 Driver Short-Circuit Current, V OUT = LOW V O = 10V l 35 100250 mA I OSR Receiver Short-Circuit Current 0V ≤ V O ≤ V CCl 7 85 mA t PLH Driver Input to Output R DIFF = 54Ω, C L1 = C L2 = 100pF, (Figures 3 and 5)l 10 30 50 ns t PHL Driver Input to Output l 10 30 50 ns t SKEW Driver Output to Output l 510ns t r , t f Driver Rise or Fall Time l31525ns t ZH Driver Enable to Output High C L = 100pF (Figures 4 and 6) S2 Closed l 4070ns t ZL Driver Enable to Output Low C L = 100pF (Figures 4 and 6) S1 Closed l 4070ns t LZ Driver Disable Time from Low C L = 15pF (Figures 4 and 6) S1 Closed l 4070ns t HZ Driver Disable Time from High C L = 15pF (Figures 4 and 6) S2 Closed l 4070ns t PLH Receiver Input to OutputR DIFF = 54Ω, CL1 = CL2 = 100pF, (Figures 3 and 7)l 3090200ns t PHL l 3090200ns t SKD |t PLH – t PHL | Differential Receiver Skew l 13ns t ZL Receiver Enable to Output Low C RL = 15pF (Figures 2 and 8) S1 Closed l 2050ns t ZH Receiver Enable to Output High C RL = 15pF (Figures 2 and 8) S2 Closed l 2050ns t LZ Receiver Disable from Low C RL = 15pF (Figures 2 and 8) S1 Closed l 2050ns t HZReceiver Disable from HighC RL = 15pF (Figures 2 and 8) S2 Closedl2050nsSYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITSV IH Input High Voltage DE, DI, RE l 2V V IL Input Low Voltage DE, DI, RE l 0.8V I IN1 Input Current DE, DI, REl ±2μA I IN2Input Current (A, B)DE = 0, V CC = 0V or 5.25V V IN = 12VC-, I-Grade V IN = –7V l l1 –0.8mA mA M-Grade V IN = 12V V IN = –7Vl l 2 –1.6mA mA V TH Differential Input Threshold Voltage for Receiver –7V ≤ V CM ≤ 12V l –0.2 0.2V ΔV TH Receiver Input Hysteresis V CM = 0V l 70mV V OH Receiver Output High Voltage I O = –4mA, V ID = 200mV l 3.5VV OL Receiver Output Low VoltageI O = 4mA, V ID = –200mV l 0.4V I OZR Three-State (High Impedance) Output Current at ReceiverV CC = Max, 0.4V ≤ V O ≤ 2.4V l±1μA R INReceiver Input Resistance–7V ≤ V CM ≤ 12V (C-, I-Grade) (M-Grade)l l12 6kΩ kΩNote 3: All typicals are given for V CC = 5V and T A = 25°C.Note 4: The LTC485 is guaranteed by design to be functional over a supply voltage range of 5V ±10%. Data sheet parameters are guaranteed over the tested supply voltage range of 5V ±5%.4485fmFor more information www.linear .com/L TC485TYPICAL PERFORMANCE CHARACTERISTICSReceiver Output Low Voltage vs TemperatureDriver Differential Output Voltage vs Output CurrentDriver Differential Output Voltage vs TemperatureDriver Output Low Voltage vs Output CurrentDriver Output High Voltage vs Output CurrentTTL Input Threshold vs TemperatureReceiver Output Low Voltage vs Output CurrentReceiver Output High Voltage vs Output CurrentReceiver Output High Voltage vs TemperatureOUTPUT VOL TAGE (V)0O U T P U T C U R R E N T (m A )4121620 1.036485 G0180.52.0242832 1.5OUTPUT VOLTAGE (V)50O U T P U T C U R R E N T (m A )–2–6–8–103–18485 G02–44–12–14–162TEMPERATURE (°C)–503.0O U T P U T V O L T A G E (V )3.23.63.84.0754.8485 G033.401254.24.44.6–252550100TEMPERATURE (°C)–500O U T P U T V O L T A G E (V )0.10.30.40.5750.9485 G040.201250.60.70.8–252550100OUTPUT VOLTAGE (V)O U T P U T C U R R E N T (m A )8243240272485 G0516134856644TEMPERATURE (°C)–501.5D I F F E R E N T I A L V O L T A G E (V )1.61.81.92.0752.4485 G061.701252.12.22.3–252550100OUTPUT VOLTAGE (V)0O U T P U T C U R R E N T (m A )10304050290485 G0720136070804OUTPUT VOLTAGE (V)0O U T P U T C U R R E N T (m A )–12–36–48–602–108485 G08–2413–72–84–964TEMPERATURE (°C)–501.55I N P U T T H R E S H O L D V O L T A G E (V )1.561.581.591.60751.64485 G091.5701251.611.621.63–2525501005485fmFor more information www.linear .com/L TC485TYPICAL PERFORMANCE CHARACTERISTICSReceiver |t PLH – t PHL |vs TemperatureDriver Skew vs TemperatureSupply Current vs TemperatureTEMPERATURE (°C)–503.0T I M E (n s )3.54.55.05.5757.5485 G104.001256.06.57.0–252550100TEMPERATURE (°C)–500T I M E (n s )0.61.82.43.0755.4 485 G111.201253.64.24.8–252550100TEMPERATURE (°C)–50100S U P P L Y C U R R E N T (µA )16028034040075640485 G122200125460520580–252550100PIN FUNCTIONSRO (Pin 1): Receiver Output. If the receiver output is en-abled (RE low), then if A > B by 200mV, RO will be high. If A < B by 200mV, then RO will be low.RE (Pin 2): Receiver Output Enable. A low enables the receiver output, RO. A high input forces the receiver output into a high impedance state.DE (Pin 3): Driver Output Enable. A high on DE enables the driver outputs, A and B, and the chip will function as a line driver . A low input will force the driver outputs into a high impedance state and the chip will function as a line receiver .DI (Pin 4): Driver Input. If the driver outputs are enabled (DE high), then a low on DI forces the outputs A low and B high. A high on DI with the driver outputs enabled will force A high and B low.GND (Pin 5): Ground Connection.A (Pin 6): Driver Output/Receiver Input.B (Pin 7): Driver Output/Receiver Input.V CC (Pin 8): Positive Supply; 4.75 < V CC < 5.25.6485fmFor more information www.linear .com/L TC485SWITCHING TIME WAVEFORMSTEST CIRCUITSABOC485 F01Figure 1. Driver DC Test Load Figure 2. Receiver Timing Test LoadFigure 3. Driver/Receiver Timing Test Circuit Figure 4. Driver Timing Test Load #2V CCFigure 5. Driver Propagation DelaysDI3V0V B A V O –V O0V7485fmFor more information www.linear .com/L TC485SWITCHING TIME WAVEFORMSFigure 6. Driver Enable and Disable Times3V 0V DI5V V OL V OH 0VA, BA, BFigure 7. Receiver Propagation DelaysR –V OD2A, B V OD2V OLV OHFigure 8. Receiver Enable and Disable Times3V 0V RE5V0VRR FUNCTION TABLESLTC485 T ransmittingINPUTSLINE CONDITION OUTPUTS RE DE DI B A X 11No Fault 01X 10No Fault 10X 0X X Z Z X1XFaultZZLTC485 ReceivingINPUTS OUTPUTSRE DE A – B R 00≥ 0.2V 100≤ –0.2V 000Inputs Open11XZ8485fmFor more information www.linear .com/L TC485Basic Theory of OperationPrevious RS485 transceivers have been designed using bipolar technology because the common mode range of the device must extend beyond the supplies and the device must be immune to E SD damage and latchup. Unfortunately, the bipolar devices draw a large amount of supply current, which is unacceptable for the numerous applications that require low power consumption. The LTC485 is the first CMOS RS485/RS422 transceiver which features ultralow power consumption without sacrificing ESD and latchup immunity.The LTC485 uses a proprietary driver output stage, which allows a common-mode range that extends beyond the power supplies while virtually eliminating latchup and providing excellent ESD protection. Figure 9 shows the LTC485 output stage while Figure 10 shows a conventional CMOS output stage.When the conventional CMOS output stage of Figure 10 enters a high impedance state, both the P-channel (P1) and the N-channel (N1) are turned off. If the output is then driven above V CC or below ground, the P + /N-wellFigure 9. LTC485 Output Stage diode (D1) or the N + /P-substrate diode (D2) respectively will turn on and clamp the output to the supply. Thus, the output stage is no longer in a high impedance state and is not able to meet the RS485 common mode range requirement. In addition, the large amount of current flowing through either diode will induce the well known CMOS latchup condition, which could destroy the device.The LTC485 output stage of Figure 9 eliminates these problems by adding two Schottky diodes, SD3 and SD4. The Schottky diodes are fabricated by a proprietary modi-fication to the standard N-well CMOS process. When the output stage is operating normally, the Schottky diodes are forward biased and have a small voltage drop across them. When the output is in the high impedance state and is driven above V CC or below ground, the parasitic diodes D1 or D2 still turn on, but SD3 or SD4 will reverse bias and prevent current from flowing into the N-well or the substrate. Thus, the high impedance state is maintained even with the output voltage beyond the supplies. With no minority carrier current flowing into the N-well or substrate, latchup is virtually eliminated under power-up or power-down conditions.APPLICATIONS INFORMATIONFigure 10. Conventional CMOS Output StageV D1D2V D1D2485 F10APPLICATIONS INFORMATIONThe LTC485 output stage will maintain a high impedance state until the breakdown of the N-channel or P-channel is reached when going positive or negative respectively. The output will be clamped to either V CC or ground by a Zener voltage plus a Schottky diode drop, but this voltage is way beyond the RS485 operating range. This clamp protects the MOS gates from E SD voltages well over 2000V. Because the ESD injected current in the N-well or substrate consists of majority carriers, latchup is prevented by careful layout techniques.Propagation DelayMany digital encoding schemes are dependent upon the difference in the propagation delay times of the driver and the receiver. Using the test circuit of Figure 13, Figures 11 and 12 show the typical LTC485 receiver propagation delay. The receiver delay times are:|t PLH – t PHL| = 9ns Typ, V CC = 5VThe driver skew times are:Skew= 5ns Typ, V CC = 5V10ns Max, V CC = 5V, T A= –40°C to 85°C Figure 11. Receiver t PHL485 F11DRIVEROUTPUTSRECEIVEROUTPUTSABROFigure 12. Receiver t PLH485 F12DRIVEROUTPUTSRECEIVEROUTPUTSABROFigure 13. Receiver Propagation Delay Test Circuitt r, t f9485fmFor more information /L TC48510485fmFor more information www.linear .com/L TC485LTC485 Line Length vs Data RateThe maximum line length allowable for the RS422/RS485 standard is 4000 feet.APPLICATIONS INFORMATIONFigures 17 and 18 show that the LTC485 is able to com-fortably drive 4000 feet of wire at 110kHz.Figure 14. Line Length Test CircuitFigure 16. System Differential Voltage at 19.2kHz Figure 17. System Common Mode Voltage at 110kHz485 F15COMMON MODE VOLTAGE (A + B)/2RODI485 F16DIFFERENTIAL VOLTAGE A – BRODI485 F17COMMON MODE VOL TAGE (A + B)/2RODIFigure 18. System Differential Voltage at 110kHzFigure 19. Cable Length vs Maximum Data Rate485 F18DIFFERENTIAL VOL TAGE (A – B)RODIMAXIMUM DATA RATE10k10C A B L E L E N G T H (F T )1001k10k100k 1M 10M485 F192.5M Figure 15. System Common Mode Voltage at 19.2kHzWhen specifying line length vs maximum data rate the curve in Figure 19 should be used.Using the test circuit in Figure 14, Figures 15 and 16 show that with ~20V P-P common mode noise injected on the line, the LTC485 is able to reconstruct the data stream at the end of 4000 feet of twisted pair wire.11485fmFor more information www.linear .com/L TC485TYPICAL APPLICATIONTypical RS485 NetworkPACKAGE DESCRIPTIONPlease refer to http://www.linear .com/product/LTC485#packaging for the most recent package drawings.12485fmFor more information www.linear .com/L TC485PACKAGE DESCRIPTIONSO8 REV G 0212.053 – .069(1.346 – 1.752)RECOMMENDED SOLDER PAD LAYOUT.050 BSC.030 ±INCHES (MILLIMETERS)NOTE:1. DIMENSIONS IN2. DRAWING NOT TO SCALE3. THESE DIMENSIONS DO NOT INCLUDE MOLD FLASH OR PROTRUSIONS. MOLD FLASH OR PROTRUSIONS SHALL NOT EXCEED .006" (0.15mm)4. PIN 1 CAN BE BEVEL EDGE OR A DIMPLES8 Package8-Lead Plastic Small Outline (Narrow .150 Inch)(Reference LTC DWG # 05-08-1610 Rev G).065(1.651)TYP–0.3818.255.255 ±.015*(6.477 ±0.381)NOTE:1. DIMENSIONS AREINCHES MILLIMETERS*THESE DIMENSIONS DO NOT INCLUDE MOLD FLASH OR PROTRUSIONS. MOLD FLASH OR PROTRUSIONS SHALL NOT EXCEED .010 INCH (0.254mm)BSCN Package8-Lead PDIP (Narrow .300 Inch)(Reference LTC DWG # 05-08-1510 Rev I)Please refer to http://www.linear .com/product/LTC485#packaging for the most recent package drawings.13485fmFor more information www.linear .com/L TC485Information furnished by Linear Technology Corporation is believed to be accurate and reliable. However , no responsibility is assumed for its use. Linear Technology Corporation makes no representa-tion that the interconnection of its circuits as described herein will not infringe on existing patent rights.REVISION HISTORYREV DATE DESCRIPTIONPAGE NUMBERI 4/11Removed lead free version of LTC485MJ8 from Order Information section.2J 01/14Modified to account for high temperature leakage in M-grade.1, 3K 02/14Remove tape and reel option for DIP package in Order Information section.2L 07/16Added storage temperature 2M02/17Obsoleted J8 package1-14(Revision history begins at Rev I)14485fmFor more information www.linear .com/L TC485LINEAR TECHNOLOGY CORPORA TION 1994LT 0217 REV M • PRINTED IN USALinear Technology Corporation1630 McCarthy Blvd., Milpitas, CA 95035-7417(408) 432-1900 ● FAX : (408) 434-0507 ● www.linear .com/L TC485RELATED PARTSPART NUMBER DESCRIPTIONCOMMENTS LTC486/LTC487Low Power Quad RS485 Drivers 110μA Supply Current LTC488/LTC489Low Power Quad RS485 Receivers 7mA Supply Current LTC490/LTC491Low Power Full-Duplex RS485 T ransceivers 300μA Supply Current LTC1480 3.3V Supply RS485 T ransceiverLower Supply Voltage LTC1481Low Power RS485 T ransceiver with Shutdown Lowest Power LTC1482RS485 T ransceiver with Carrier Detect ±15kV ESD, Fail-SafeLTC1483Low Power , Low EMI RS485 T ransceiver Slew Rate Limited Driver Outputs, Lowest Power LTC1484RS485 T ransceiver with Fail-Safe ±15kV ESD, MSOP Package LTC148510Mbps RS485 T ransceiver High SpeedLTC1518/LTC151952Mbps Quad RS485 Receivers Higher Speed, LTC488/LTC489 Pin-Compatible LTC1520LVDS-Compatible Quad Receiver 100mV Threshold, Low Channel-to-Channel Skew LTC15352500V Isolated RS485 T ransceiver Full-Duplex, Self-Powered Using External T ransformer LTC168552Mbps RS485 T ransceiverIndustry-Standard Pinout, 500ps Propagation Delay Skew LTC1686/LTC168752Mbps Full-Duplex RS485 T ransceivers LTC490/LTC491 Pin CompatibleLTC1688/LTC1689100Mbps Quad RS485 DriversHighest Speed, LTC486/LTC487 Pin Compatible LTC1690Full-Duplex RS485 T ransceiver with Fail-Safe ±15kV ESD, LTC490 Pin Compatible LT1785/LT1785A ±60V Protected RS485 T ransceivers±15kV ESD, Fail-Safe (LT1785A)LT1791/LT1791A ±60V Protected Full-Duplex RS485 T ransceivers ±15kV ESD, Fail-Safe (LT1791A)LTC2850/LTC2851/LTC2852 3.3V Supply RS485 T ransceivers ±15kV ESD, 20Mbps, 900µA Supply Current, Fail-Safe LTC2854/LTC2855 3.3V Supply RS485 T ransceivers ±15kV ESD, 20Mbps, 900µA Supply Current, Integrated Switchable Termination LTC2856/LTC2857/LTC285820Mbps RS485 T ransceivers ±15kV ESD, 900µA Supply Current, Fail-SafeLTC2859/LTC286120Mbps RS485 T ransceivers ±15kV ESD, 900µA Supply Current, Integrated Switchable Termination LTC2862/LTC2863/LTC2864/LTC2865±60V Protected RS485 T ransceivers 3V to 5.5V Supply, ±15kV ESD, ±25V Common Mode Range, 20Mbps or 250kbpsLTM2881Complete Isolated RS485 T ransceiver2500V RMS Isolation, Isolated DC Power (5V at Up to 200mA), 3.3V or 5V Operation, No External Components Required。