EA60QC06中文资料

Serie 6, Forno con vapore daincasso, 60 x 60 cm, AcciaioHRA3380S1Accessori integrati1 x Griglia combinata, 1 x Leccarda universale smaltataAccessori opzionaliHEZ317000 Teglia per pizza, HEZ327000 Pietra per pane e pizza, HEZ531000 Leccarda bassa 455x375x30 mm (LxPxA), HEZ531010 Leccarda antiaderen 455x375x30mm (LxPxA), HEZ532000 Leccarda profonda 455x375x38 mm (LxPxA), HEZ532010 Leccarda antiaderen 455x400x38mm (LxPxA), HEZ538000 Guide telescopiche clip a 1 livello, HEZ629070 Teglia per grigliare adatta a pirolisi, HEZ634000 Griglia combinata 455x375x31 mm (LxPxA), HEZ638000 Guide telescopiche clip a 1 livello, HEZ660050 Accessory, HEZ664000 Griglia combinata 455x375x59 mm (LxPxA), HEZ915003 Pirofila in vetro con coperchio 5,4 l., HEZG0AS00 Cavo di collegamento 3m Forno con impulsi di vapore e programmi automatici AutoPilot: prepara automaticamente i tuoi piatti che saranno croccanti all'esterno e morbidi all'interno• Cottura a vapore: con l'aggiunta di vapore si ottengono risultati perfetti di cottura interna mantenendo la parte esterna croccante• 30 programmi automatici di cottura: cucinare sarà semplicissimo grazie ai programmi con impostazioni già preselezionate.• Controllo digitale LCD bianco: semplice da utilizzare grazieall'accesso diretto alle funzioni addizionali, suggerimenti di temperatura ed indicazioni di temperatura.• Comode manopole a scomparsa push-pull: per una pulizia piùsemplice del panello frontale.• Pulizia EcoClean su parete posteriore: un modo semplice, ecologico, sicuro ed economico per la pulizia della parete posteriore del forno durante la cottura, senza alcun detergente o agente chimico.Dati tecniciTipologia costruttiva del prodotto: .....................................Da incasso Sistema di pulizia: ..................................Idrolisi, 1 pannello catalitico Dimensioni del vano per l'installazione (AxLxP): 585-595 x 560-568 x 550 mmDimensioni (AxLxP): ............................................595 x 594 x 548 mm Dimensioni del prodotto imballato (AxLxP): .......660 x 690 x 660 mm Materiale del cruscotto: ...................................................acciaio inox Materiale porta: ..........................................................................vetro Peso netto: ..............................................................................34.4 kg Volume utile: .................................................................................71 l Metodo di cottura: ...........rigenerazione cibi, Scongelamento, Grill a superficie grande, Aria calda delicata, aria calda, Riscaldamento statico, Funzione pizza, Cottura a bassa temperatura, riscaldamento inferiore, grill ventilatoMateriale della cavità: .................................................................Altro Regolazione della temperatura: .........................................elettronica Numero di luci interne: (1)Lunghezza del cavo di alimentazione elettrica: .....................120.0 cm Codice EAN: .. (4242005151332)Numero di vani - (2010/30/CE): (1)Classe di efficienza energetica: .........................................................A Energy consumption per cycle conventional (2010/30/EC): ........0.97 kWh/cycleEnergy consumption per cycle forced air convection (2010/30/EC):0.81 kWh/cycleIndice di efficienza energetica (2010/30/CE): ..........................95.3 % Potenza: ..................................................................................3600 W Corrente: .....................................................................................16 A Tensione: .............................................................................220-240 V Frequenza: ...........................................................................50; 60 Hz Tipo di spina: ..........................................................................Schuko Accessori inclusi: .......1 x Griglia combinata, 1 x Leccarda universale smaltataSerie 6, Forno con vapore daincasso, 60 x 60 cm, AcciaioHRA3380S1Forno con impulsi di vapore e programmi automatici AutoPilot: prepara automaticamente i tuoi piatti che saranno croccanti all'esterno e morbidi all'interno Caratteristiche principali- Forno con 10 funzioni di cottura: MultiCottura HotAir 3D, Riscaldamento superiore e inferiore, Grill ventilato, Grill a superficie grande, Funzione pizza, Riscaldamento inferiore, Cottura a bassa temperatura, Scongelamento, Aria calda delicata, rigenerazione cibi- Funzioni combinabili con gli impulsi di vapore: aria calda 3D, grill ventilato, riscaldamento statico (resistenza inferiore e superiore)- Regolazione della temperatura da 30 °C a 275 °C- Volume cavità: 71 l- Guide telescopiche independenti FlexiClip, con funzione d'arresto integrata.Altre caratteristiche- Eco Clean: parete posteriore- Display digitale LCD bianco- Orologio elettronico con impostazione inizio e fine cottura- Programmi automatici: 30- Fuzioni addizionali:- decalcificare- Riscaldamento rapido- Illuminazione interna alogena, Illuminazione disinseribile- Generatore del vapore esterno al vano cotturaAccessori- Accessori: 1 griglia combinata, 1 leccarda universale profonda smaltataEtichetta energetica- Assorbimento massimo elettrico: 3.6 kW- Classe di efficienza energetica (acc. EU Nr. 65/2014): A(in una scala di classi di efficienza energetica da A+++ a D)- Consumo energetico per ciclo durante funzionamento convenzionale:0.97 kWh- Consumo energetico per ciclo durante funzionamento ventilato:0.81 kWh- Numero di cavità: 1 Tipo di alimentazione: elettrica Volume della cavità:71 l- Dimensioni nicchia (AxLxP): 560 mm - 568 mm x 585 mm - 595 mm x 550 mmSerie 6, Forno con vapore da incasso, 60 x 60 cm, Acciaio HRA3380S1。

80960JA/JF/JD/JS/JC/JT 3.3 V Embedded 32-Bit MicroprocessorDatasheetProduct Featuress Code Compatible with all 80960Jx ProcessorssHigh-Performance Embedded Architecture —One Instruction/Clock Execution —Core Clock Rate is:1x the Bus Clock for 80960JA/JF/JS 2x the Bus Clock for 80960JD/JC 3x the Bus Clock for 80960JT —Load/Store Programming Model —Sixteen 32-Bit Global Registers—Sixteen 32-Bit Local Registers (8 sets)—Nine Addressing Modes—User/Supervisor Protection Model sTwo-Way Set Associative Instruction Cache—80960JA - 2Kbyte —80960JF/JD - 4Kbyte —80960JS/JC/JT - 16Kbyte —Programmable Cache-Locking MechanismsDirect Mapped Data Cache —80960JA - 1Kbyte —80960JF/JD - 2Kbyte —80960JS/JC/JT - 4Kbyte —Write Through Operation sOn-Chip Stack Frame Cache—Seven Register Sets May Be Saved —Automatic Allocation on Call/Return —0-7 Frames Reserved for High-Priority InterruptssOn-Chip Data RAM—1Kbyte Critical Variable Storage —Single-Cycle Access s3.3V Supply Voltage —5V Tolerant Inputs—TTL Compatible Outputs sHigh Bandwidth Burst Bus—32-Bit Multiplexed Address/Data—Programmable Memory Configuration —Selectable 8-, 16-, 32-Bit Bus Widths —Supports Unaligned Accesses—Big or Little Endian Byte Ordering sHigh-Speed Interrupt Controller —31 Programmable Priorities —Eight Maskable Pins plus NMI#—Up to 240 Vectors in Expanded Mode sTwo On-Chip Timers—Independent 32-Bit Counting —Clock Prescaling by 1, 2, 4 or 8—Internal Interrupt Sources s Halt Mode for Low Powers IEEE 1149.1 (JTAG) Boundary Scan Compatibility sPackages—132-Lead Pin Grid Array (PGA)—132-Lead Plastic Quad Flat Pack (PQFP)—196-Ball Mini Plastic Ball Grid Array (MPBGA)Order Number: 273159-006August 2004INFORMATION IN THIS DOCUMENT IS PROVIDED IN CONNECTION WITH INTEL® PRODUCTS. NO LICENSE, EXPRESS OR IMPLIED, BY ESTOPPEL OR OTHERWISE, TO ANY INTELLECTUAL PROPERTY RIGHTS IS GRANTED BY THIS DOCUMENT. EXCEPT AS PROVIDED IN INTEL’S TERMS AND CONDITIONS OF SALE FOR SUCH PRODUCTS, INTEL ASSUMES NO LIABILITY WHATSOEVER, AND INTEL DISCLAIMS ANY EXPRESS OR IMPLIED WARRANTY, RELATING TO SALE AND/OR USE OF INTEL PRODUCTS INCLUDING LIABILITY OR WARRANTIES RELATING TO FITNESS FOR A PARTICULAR PURPOSE, MERCHANTABILITY, OR INFRINGEMENT OF ANY PATENT, COPYRIGHT OR OTHER INTELLECTUAL PROPERTY RIGHT. Intel products are not intended for use in medical, life saving, life sustaining applications.Intel may make changes to specifications and product descriptions at any time, without notice.Designers must not rely on the absence or characteristics of any features or instructions marked "reserved" or "undefined." Intel reserves these for future definition and shall have no responsibility whatsoever for conflicts or incompatibilities arising from future changes to them.The 80960JA/JF/JD/JS/JC/JT 3.3 V Embedded 32-Bit Microprocessor may contain design defects or errors known as errata which may cause the product to deviate from published specifications. Current characterized errata are available on request.Contact your local Intel sales office or your distributor to obtain the latest specifications and before placing your product order.Copies of documents which have an ordering number and are referenced in this document, or other Intel literature may be obtained by calling1-800-548-4725 or by visiting Intel’s website at .AlertVIEW, AnyPoint, AppChoice, BoardWatch, BunnyPeople, CablePort, Celeron, Chips, CT Connect, CT Media, Dialogic, DM3, EtherExpress, ETOX, FlashFile, i386, i486, i960, iCOMP, InstantIP, Intel, Intel logo, Intel386, Intel486, Intel740, IntelDX2, IntelDX4, IntelSX2, Intel Create & Share, Intel GigaBlade, Intel InBusiness, Intel Inside, Intel Inside logo, Intel NetBurst, Intel NetMerge, Intel NetStructure, Intel Play, Intel Play logo, Intel SingleDriver, Intel SpeedStep, Intel StrataFlash, Intel TeamStation, Intel Xeon, Intel XScale, IPLink, Itanium, LANDesk, LanRover, MCS, MMX, MMX logo, Optimizer logo, OverDrive, Paragon, PC Dads, PC Parents, PDCharm, Pentium, Pentium II Xeon, Pentium III Xeon, Performance at Your Command, RemoteExpress, Shiva, SmartDie, Solutions960, Sound Mark, StorageExpress, The Computer Inside., The Journey Inside, TokenExpress, Trillium, VoiceBrick, Vtune, and Xircom are trademarks or registered trademarks of Intel Corporation or its subsidiaries in the United States and other countries.*Other names and brands may be claimed as the property of others.Copyright © Intel Corporation, 2002, 2004Contents Contents1.0Introduction (7)2.080960Jx Overview (9)2.180960 Processor Core (10)2.2Burst Bus (11)2.3Timer Unit (11)2.4Priority Interrupt Controller (11)2.5Instruction Set Summary (12)2.6Faults and Debugging (12)2.7Low Power Operation (12)2.8Test Features (12)2.9Memory-Mapped Control Registers (13)2.10Data Types and Memory Addressing Modes (13)3.0Packaging Information (15)3.1Available Processors and Packages (15)3.2Pin Descriptions (16)3.2.1Functional Pin Definitions (16)3.2.280960Jx 132-Lead PGA Pinout (23)3.2.380960Jx 132-Lead PQFP Pinout (27)3.2.480960Jx 196-Ball MPBGA Pinout (30)4.0Electrical Specifications (35)4.1Absolute Maximum Ratings (35)4.2Operating Conditions (35)4.3Connection Recommendations (36)4.4VCC5 Pin Requirements (VDIFF) (36)4.5VCCPLL Pin Requirements (37)4.6 D.C. Specifications (38)4.7 A.C. Specifications (42)4.7.1 A.C. Test Conditions and Derating Curves (45)4.7.1.1Output Delay or Hold vs. Load Capacitance (46)4.7.1.2T LX vs. AD Bus Load Capacitance (47)4.7.1.3ICC Active vs. Frequency (49)4.7.2 A.C. Timing Waveforms (53)5.0Device Identification (59)5.180960JS/JC/JT Device Identification Register (60)5.280960JD Device Identification Register (61)5.380960JA/JF Device Identification Register (62)6.0Thermal Specifications (63)6.1Thermal Management Accessories (68)6.1.1Heatsinks (68)7.0Bus Functional Waveforms (69)7.1Basic Bus States (79)7.2Boundary-Scan Register (80)ContentsFigures180960Jx Microprocessor Package Options (7)280960Jx Block Diagram (10)3132-Lead Pin Grid Array Top View-Pins Facing Down (23)4132-Lead Pin Grid Array Bottom View-Pins Facing Up (24)5132-Lead PQFP - Top View (27)6196-Ball Mini Plastic Ball Grid Array Top View-Balls Facing Down (30)7196-Ball Mini Plastic Ball Grid Array Bottom View-Balls Facing Up (31)8VCC5 Current-Limiting Resistor (36)9VCCPLL Lowpass Filter (37)10 A.C. Test Load (45)11Output Delay or Hold vs. Load Capacitance–80960JS/JC/JT (3.3 V Signals) (46)12Output Delay or Hold vs. Load Capacitance–80960JS/JC/JT (5V Signals) (46)13Output Delay or Hold vs. Load Capacitance–80960JA/JF/JD (47)14T LX vs. AD Bus Load Capacitance–80960JS/JC/JT (3.3V Signals) (47)15T LX vs. AD Bus Load Capacitance–80960JS/JC/JT (5V Signals) (48)16T LX vs. AD Bus Load Capacitance–80960JA/JF/JD (48)17I CC Active (Power Supply) vs. Frequency–80960JA/JF (49)1880960JA/JF I CC Active (Thermal) vs. Frequency (49)1980960JD I CC Active (Power Supply) vs. Frequency (50)2080960JD I CC Active (Thermal) vs. Frequency (50)2180960JC I CC Active (Power Supply) vs. Frequency (51)2280960JC I CC Active (Thermal) vs. Frequency (51)2380960JS I CC Active (Power Supply) vs. Frequency (52)2480960JS I CC Active (Thermal) vs. Frequency (52)25CLKIN Waveform (53)26T OV1 Output Delay Waveform (53)27T OF Output Float Waveform (54)28T IS1 and T IH1 Input Setup and Hold Waveform (54)29T IS2 and T IH2 Input Setup and Hold Waveform (54)30T IS3 and T IH3 Input Setup and Hold Waveform (55)31T IS4 and T IH4 Input Setup and Hold Waveform (55)32T LX, T LXL and T LXA Relative Timings Waveform (56)33DT/R# and DEN# Timings Waveform (56)34TCK Waveform (57)35T BSIS1 and T BSIH1 Input Setup and Hold Waveforms (57)36T BSOV1 and T BSOF1 Output Delay and Output Float Waveform (57)37T BSOV2 and T BSOF2 Output Delay and Output Float Waveform (58)38T BSIS2 and T BSIH2 Input Setup and Hold Waveform (58)3980960JS/JC/JT Device Identification Register Fields (60)4080960JD Device Identification Register Fields (61)4180960JA/JF Device Identification Register Fields (62)42Non-Burst Read and Write Transactions Without Wait States, 32-Bit Bus (69)43Burst Read and Write Transactions Without Wait States, 32-Bit Bus (70)44Burst Write Transactions With 2,1,1,1 Wait States, 32-Bit Bus (71)45Burst Read and Write Transactions Without Wait States, 8-Bit Bus (72)46Burst Read and Write Transactions With 1, 0 Wait Statesand Extra Tr State on Read, 16-Bit Bus (73)47Double Word Read Bus Request, Misaligned One Byte FromQuad Word Boundary, 32-Bit Bus, Little Endian (74)Contents 48HOLD/HOLDA Waveform For Bus Arbitration (75)49Cold Reset Waveform (76)50Warm Reset Waveform (77)51Entering the ONCE State (78)52Bus States with Arbitration (80)53Summary of Aligned and Unaligned Accesses (32-Bit Bus) (84)54Summary of Aligned and Unaligned Accesses (32-Bit Bus) (Continued) (85)Tables180960Jx 3.3-V Microprocessor Family (7)280960Jx Instruction Set (14)380960Jx Processors Available in 132-Pin PGA Package (15)480960Jx Processors Available in 132-Pin PQFP Package (15)580960Jx Processors Available in Extended Temperature (16)680960Jx Processors Available in 196-Ball MPBGA Package (16)7Pin Description Nomenclature (17)8Pin Description—External Bus Signals (18)9Pin Description—Processor Control Signals, Test Signals, and Power (21)10Pin Description—Interrupt Unit Signals (22)11132-Lead PGA Pinout—In Signal Order (25)12132-Lead PGA Pinout—In Pin Order (26)13132-Lead PQFP Pinout—In Signal Order (28)14132-Lead PQFP Pinout—In Pin Order (29)15196-Ball MPBGA Pinout—In Signal Order (32)16196-Ball MPBGA Pinout—In Pin Order (33)17Absolute Maximum Ratings (35)1880960Jx Operating Conditions (35)19VDIFF Parameters (37)2080960Jx D.C. Characteristics (38)2180960Jx I CC Characteristics (39)2280960Jx A.C. Characteristics (42)23Note Definitions for Table 22, 80960Jx AC Characteristics (45)2480960Jx Device Type and Stepping Reference (59)2580960JS/JC/JT Device ID Register Field Definitions (60)2680960JS/JC/JT Device ID Model Types (60)2780960JD Device ID Field Definitions (61)2880960JD Device ID Model Types (61)2980960JA/JF Device ID Field Definitions (62)3080960JA/JF Device ID Model Types (62)31Thermal Resistance for q CA and q JC Reference Table (63)32Maximum Ambient Temperature Reference Table (63)33132-Lead PGA Package Thermal Characteristics (64)3480960JA/JF/JD 196-Ball MPBGA Package Thermal Characteristics (64)3580960JS/JC/JT 196-Ball MPBGA Package Thermal Characteristics (65)36132-Lead PQFP Package Thermal Characteristics (65)37Maximum T A at Various Airflows in °C (80960JT) (66)38Maximum T A at Various Airflows in °C (80960JC) (66)39Maximum T A at Various Airflows in °C (80960JD) (67)40Maximum T A at Various Airflows in °C (80960JS) (67)41Maximum T A at Various Airflows in °C (80960JA/JF) (68)Contents42Boundary-Scan Register—Bit Order (81)43Natural Boundaries for Load and Store Accesses (81)44Summary of Byte Load and Store Accesses (82)45Summary of Short Word Load and Store Accesses (82)46Summary of n-Word Load and Store Accesses (n = 1, 2, 3, 4) (83)Revision HistoryDate Revision DescriptionSeptember 2002005Removed reference to A80960JF-16 from Table 3 on page15. Removed reference to NG80960JC-40, NG80960JC-33, NG80960JS-16,and NG80960JF-16 from Table 4 on page15.Removed reference to GD80960JC-40, GD80960JC-33, and 80960JS-16 in Table 6 on page16.Removed reference to 80960JC-40, 80960JC-33, 80960JS-16, and 80960JF-16 in Table 18 on page35.Removed reference to 80960JC-40, 80960JC-33, 80960JS-16, and 80960JF-16 from Table 21 on page39.Removed reference to 80960JC-40, 80960JC-33, 80960JS-16 and 80960JF-16 from Table 22 on page42.September 1999004Added new extended temp device offerings. See Table 5 on page16. Removed PGA package availability from JS/JC/JT processors. Changed AC timing parameter T OV1 (min) for extended temp devices only.See Table 22 on page42.June 1999003Merged the 80960JS/JC datasheet information into this datasheet (previously named 80960JA/JF/JD/JT 3.3V Embedded 32-Bit Microprocessor datasheet).Updated I CC values for the 80960JS/JC/JT processors. Increased TIH1 specification for the 80960JS/JC/JT processors. Updated MPBGA thermal specifications.December 1998002Corrected orientation of MPBGA package diagrams (Figure 6 on page30 and Figure 7 on page31).Added Figure 11 on page46,Figure 12 on page46,Figure 14 on page47, and Figure 15 on page48 to distinguish 80960JT 3.3-V and 5-V signal derating curves from the 80960JA/JF/JD derating curves.March 1998001This datasheet supersedes revisions to the following 80960Jx datasheets: #273109 (JT), #272971-002 (JD), and #276146-001 (JA/JF). In addition to combining the documents into one, the following content was changed: Figure 1 on page7: Added MPBGA package to diagram.Section 3.2.4, “80960Jx 196-Ball MPBGA Pinout” on page30: Added new Figures 6 and 7, Tables 10, 11 and 13.Figure 16 on page48: Added with the note that follows the figure.August 2004006To address the fact that many of the package prefix variables have changed, all package prefix variables in this document are now indicated with an "x".80960JA/JF/JD/JS/JC/JT 3.3 V Embedded 32-Bit Microprocessor1.0IntroductionThis document contains information for the 80960Jx microprocessors, including electrical characteristics and package pinout information. Detailed functional descriptions, other than parametric performance, are published in the i960® Jx Microprocessor Developer’s Manual(272483) and may be viewed online at /design/i960/Techinfo/80960JX/.Throughout this datasheet, references to ‘80960Jx’ indicate features that apply to the 3.3-V Jx processors only:Figure 1. 80960Jx Microprocessor Package Optionsi960®iM©19xxx80960JXXXXXXXXX SS132-Pin PQFPTable 1. 80960Jx 3.3-V Microprocessor FamilyProcessor Voltage Instruction Cache Data Cache Core Clock80960JA 3.3 V (5 V Tolerant) 2 Kbyte 1 Kbyte 1x 80960JF 3.3 V (5 V Tolerant) 4 Kbyte 2 Kbyte 1x 80960JD 3.3 V (5 V Tolerant) 4 Kbyte 2 Kbyte 2x 80960JS 3.3 V (5 V Tolerant)16 Kbyte 4 Kbyte 1x 80960JC 3.3 V (5 V Tolerant)16 Kbyte 4 Kbyte 2x 80960JT3.3 V (5 V Tolerant)16 Kbyte4 Kbyte3xNOTE: To address the fact that many of the package prefix variables have changed, all package prefix variables in this document are now indicated with an "x".This page intentionally left blank.80960JA/JF/JD/JS/JC/JT 3.3 V Embedded 32-Bit Microprocessor 2.080960Jx OverviewThe 80960Jx processor offers high performance to cost-sensitive 32-bit embedded applications.The 80960Jx is object code compatible with the 80960 core architecture and is capable of sustainedexecution at the rate of one instruction per clock. This processor’s features include generousinstruction cache, data cache, and data RAM. It also boasts a fast interrupt mechanism anddual-programmable timer units.The 80960Jx processor’s clock multiplication operates the processor core at two or three times thebus clock rate to improve execution performance without increasing the complexity of boarddesigns.Memory subsystems for cost-sensitive embedded applications often impose substantial wait statepenalties. The 80960Jx integrates considerable storage resources on-chip to decouple CPUexecution from the external bus.The 80960Jx rapidly allocates and de-allocates local register sets during context switches. Theprocessor must flush a register set to the stack only when it saves more than seven sets to its localregister cache.A 32-bit multiplexed burst bus provides a high-speed interface to system memory and I/O. A fullcomplement of control signals simplifies the connection of the 80960Jx to external components.The user programs physical and logical memory attributes through memory-mapped controlregisters (MMRs), an extension not found on the i960® Kx, Sx or Cx processors. Physical andlogical configuration registers enable the processor to operate with all combinations of bus widthand data object alignment. The processor supports a homogeneous byte ordering model.This processor integrates two important peripherals: a timer unit and an interrupt controller. Theseand other hardware resources are programmed through memory-mapped control registers, anextension to the familiar i960 processor architecture.The timer unit (TU) offers two independent 32-bit timers for use as real-time system clocks andgeneral-purpose system timing. These operate in either single-shot or auto-reload mode and maygenerate interrupts.The interrupt controller unit (ICU) provides a flexible, low-latency means for requesting interrupts.The ICU provides full programmability of up to 240 interrupt sources into 31 priority levels. TheICU takes advantage of a cached priority table and optional routine caching to minimize interruptlatency. Clock doubling on the 80960JD/JC processors reduces interrupt latency by 40% comparedto the 80960JA/JF, and clock tripling on the 80960JT reduces interrupt latency by 20% comparedto the 80960JD/JC. Local registers may be dedicated to high-priority interrupts to further reducelatency. Acting independently from the core, the ICU compares the priorities of posted interruptswith the current process priority, off-loading this task from the core. The ICU also supports theintegrated timer interrupts.The 80960Jx features a Halt mode designed to support applications where low power consumptionis critical. The halt instruction shuts down instruction execution, resulting in a power savings of upto 90 percent.The 80960Jx’s testability features, including ONCE (On-Circuit Emulation) mode and BoundaryScan (JTAG), provide a powerful environment for design debug and fault diagnosis.80960JA/JF/JD/JS/JC/JT 3.3 V Embedded 32-Bit MicroprocessorThe Solutions960® program features a wide variety of development tools which support the i960 processor family. Many of these tools are developed by partner companies; some are developed by Intel, such as profile-driven optimizing compilers. For more information on these products, contact your local Intel representative.2.180960 Processor CoreThe 80960Jx family is a scalar implementation of the 80960 core architecture. Intel designed this processor core as a very high performance device that is also cost-effective. Factors that contribute to the core ’s performance include:•Core operates at the bus speed with the 80960JA/JF/JS•Core operates at two or three times the bus speed with the 80960JD/JC and 80960JT,respectively•Single-clock execution of most instructions •Independent Multiply/Divide Unit•Efficient instruction pipeline minimizes pipeline break latency•Register and resource scoreboarding allow overlapped instruction execution •128-bit register bus speeds local register caching •Two-way set associative, integrated instruction cache •Direct-mapped, integrated data cache•1-Kbyte integrated data RAM delivers zero wait state program dataFigure 2. 80960Jx Block DiagramProgrammable Interrupt Controller Control Address/Instruction SequencerPhysical Region Configuration Interrupt Port1K Data RAMMemory Interface Execution Multiply UnitDivide UnitMemory-Mapped Register InterfaceData BusGlobal / Local Register FileSRC2DESTSRC1addressControleffective ConstantsGenerationUnitAddress 32-bit Address 32-bit DataBus Request Queuesand Two 32-BitTimers8-SetLocal Register CacheS R C 1S R C 2D E S TPLL, Clocks,Power MgmtBoundary Scan ControllerTAP 5CLKINS R C 1S R C 2D E S TS R C 1D E S T93232-bit buses address / data21Instruction Cache 80960JA - 2K 80960JF/JD - 4K80960JS/JC/JT - 16KDirect Mapped Data Cache 80960JA - 1K 80960JF/JD - 2K 80960JS/JC/JT -1283 Independent 32-Bit SRC1, SRC2, and DEST BusesBus Control Unit80960JA/JF/JD/JS/JC/JT 3.3 V Embedded 32-Bit Microprocessor2.2Burst BusA 32-bit high-performance Bus Controller Unit (BCU) interfaces the 80960Jx to external memoryand peripherals. The BCU fetches instructions and transfers data at the rate of up to four 32-bitwords per six clock cycles. The external address/data bus is multiplexed.Users may configure the 80960Jx’s bus controller to match an application’s fundamental memoryorganization. Physical bus width is register-programmed for up to eight regions. Byte ordering anddata caching are programmed through a group of logical memory templates and a defaults register.The BCU’s features include:•Multiplexed external bus to minimize pin count•32-, 16-, and 8-bit bus widths to simplify I/O interfaces•External ready control for address-to-data, data-to-data and data-to-next-address wait state types•Support for big or little endian byte ordering to facilitate the porting of existing program code•Unaligned bus accesses performed transparently•Three-deep load/store queue to decouple the bus from the coreUpon reset, the 80960Jx conducts an internal self-test. Then, before executing its first instruction, itperforms an external bus confidence test by performing a checksum on the first words of theinitialization boot record (IBR).2.3Timer UnitThe timer unit (TU) contains two independent 32-bit timers that are capable of counting at severalclock rates and generating interrupts. Each is programmed by use of the TU registers. Thesememory-mapped registers are addressable on 32-bit boundaries. The timers have a single-shotmode and auto-reload capabilities for continuous operation. Each timer has an independentinterrupt request to the 80960Jx’s interrupt controller. The TU may generate a fault whenunauthorized writes from user mode are detected. Clock prescaling is supported.2.4Priority Interrupt ControllerA programmable interrupt controller manages up to 240 external sources through an 8-bit externalinterrupt port. Alternatively, the interrupt inputs may be configured for individual edge- or level-triggered inputs. The interrupt unit (IU) also accepts interrupts from the two on-chip timer channelsand a single Non-Maskable Interrupt (NMI#) pin. Interrupts are serviced according to their prioritylevels relative to the current process priority.Low interrupt latency is critical to many embedded applications. As part of its highly flexibleinterrupt mechanism, the 80960Jx exploits several techniques to minimize latency:•Interrupt vectors and interrupt handler routines may be reserved on-chip.•Register frames for high-priority interrupt handlers may be cached on-chip.•The interrupt stack may be placed in cacheable memory space.•Interrupt microcode executes at two or three times the bus frequency for the 80960JD/JC and 80960JT, respectively.80960JA/JF/JD/JS/JC/JT 3.3 V Embedded 32-Bit Microprocessor2.5Instruction Set SummaryThe 80960Jx adds several new instructions to the i960 processor core architecture. The newinstructions are:•Conditional Move•Conditional Add•Conditional Subtract•Byte Swap•Halt•Cache Control•Interrupt ControlTable 2 identifies the instructions that the 80960Jx supports. Refer to the i960® Jx MicroprocessorDeveloper’s Manual (272483) for a detailed description of each instruction.2.6Faults and DebuggingThe 80960Jx employs a comprehensive fault model. The processor responds to faults by makingimplicit calls to a fault handling routine. Specific information collected for each fault allows thefault handler to diagnose exceptions and recover appropriately.The processor also has built-in debug capabilities. In software, the 80960Jx may be configured todetect as many as seven different trace event types. Alternatively, mark and fmark instructionsmay generate trace events explicitly in the instruction stream. Hardware breakpoint registers arealso available to trap on execution and data addresses.2.7Low Power OperationIntel fabricates the 80960Jx using an advanced sub-micron manufacturing process. The processor’ssub-micron topology provides the circuit density for optimal cache size and high operating speedswhile dissipating modest power. The processor also uses dynamic power management to turn offclocks to unused circuits.Users may program the 80960Jx to enter Halt mode for maximum power savings. In Halt mode,the processor core stops completely while the integrated peripherals continue to function, reducingoverall power requirements up to 90 percent. Processor execution resumes from internally orexternally generated interrupts.2.8Test FeaturesThe 80960Jx incorporates numerous features that enhance the user’s ability to test both theprocessor and the system to which it is attached. These features include ONCE (On-CircuitEmulation) mode and Boundary Scan (JTAG).80960JA/JF/JD/JS/JC/JT 3.3 V Embedded 32-Bit Microprocessor The 80960Jx provides testability features compatible with IEEE Standard Test Access Port andBoundary Scan Architecture (IEEE Std. 1149.1).One of the boundary scan instructions, HIGHZ, forces the processor to float all its output pins(ONCE mode). ONCE mode may also be initiated at reset without using the boundary scanmechanism.ONCE mode is useful for board-level testing. This feature allows a mounted 80960Jx toelectrically “remove” itself from a circuit board. This allows for system-level testing in which aremote tester, such as an in-circuit emulator, may exercise the processor system.The provided test logic does not interfere with component or circuit board behavior and ensuresthat components function correctly, connections between various components are correct, andvarious components interact correctly on the printed circuit board.The JTAG Boundary Scan feature is an attractive alternative to conventional “bed-of-nails” testing.It may examine connections that might otherwise be inaccessible to a test system.2.9Memory-Mapped Control RegistersThe 80960Jx, although compliant with the i960 processor core, has the added advantage ofmemory-mapped, internal control registers not found on the i960 Kx, Sx or Cx processors. Theseregisters give software the interface to easily read and modify internal control registers.Each of these registers is accessed as a memory-mapped, 32-bit register. Access is accomplishedthrough regular memory-format instructions. The processor ensures that these accesses do notgenerate external bus cycles.2.10Data Types and Memory Addressing ModesAs with all i960 processors, the 80960Jx instruction set supports several data types and formats:•Bit•Bit fields•Integer (8-, 16-, 32-, 64-bit)•Ordinal (8-, 16-, 32-, 64-bit unsigned integers)•Triple word (96 bits)•Quad word (128 bits)The 80960Jx provides a full set of addressing modes for C and assembly programming:•Two Absolute modes•Five Register Indirect modes•Index with displacement•IP with displacement。

Protective Devices Miniature Circuit Breakers PL6Catalog1.1Protective DevicesMiniature Circuit Breakers PL6• H igh-quality miniature circuit breakers for commercial and residential applications • Contact position indicator red - green • Guide for secure terminal connection • 3-position DIN rail clip, permits removal from existing busbar system• C omprehensive range of accessories can be mounted subsequently • Rated currents up to 63 A • Tripping characteristics B, C, D• R ated breaking capacity 6 kA according to IEC/EN 60898-1DescriptionSG62211Rated current I n (A)TypeDesignationArticle No.Units perpackageSG515111PL6-B1/21648036/602PL6-B2/22865506/604PL6-B4/22865516/606PL6-B6/22865526/6010PL6-B10/22865536/6013PL6-B13/22865546/6016PL6-B16/22865556/6020PL6-B20/22865566/6025PL6-B25/22865576/6032PL6-B32/22865586/6040PL6-B40/22865596/6050PL6-B50/22865606/6063PL6-B63/22865616/602-poleSG622111PL6-B1/31648684/402PL6-B2/32865844/404PL6-B4/32865854/406PL6-B6/32865864/4010PL6-B10/32865874/4013PL6-B13/32865884/4016PL6-B16/32865894/4020PL6-B20/32865904/4025PL6-B25/32865914/4032PL6-B32/32865924/4040PL6-B40/32865934/4050PL6-B50/32865944/4063PL6-B63/32865954/403-poleRated currentI n (A)TypeDesignationArticle No.Units perpackage6 kA, Characteristic BSG454111PL6-B1/116474012/1202PL6-B2/128651612/1204PL6-B4/128651712/1206PL6-B6/128651812/12010PL6-B10/128651912/12012PL6-B12/116473812/12013PL6-B13/128652012/12016PL6-B16/128652112/12020PL6-B20/128652212/12025PL6-B25/128652312/12032PL6-B32/128652412/12040PL6-B40/128652512/12050PL6-B50/128652612/12063PL6-B63/128652712/1201-poleSG514111PL6-B1/1N1649038/802PL6-B2/1N1649078/804PL6-B4/1N1649138/806PL6-B6/1N1060258/8010PL6-B10/1N1060268/8013PL6-B13/1N1060278/8016PL6-B16/1N1060288/8020PL6-B20/1N1649088/8025PL6-B25/1N1649098/8032PL6-B32/1N1649128/801+N-poleRated current I n (A)TypeDesignationArticle No.Units perpackage6 kA, Characteristic CSG454111PL6-C1/116475412/1202PL6-C2/128652812/1204PL6-C4/128652912/1206PL6-C6/128653012/12010PL6-C10/128653112/12013PL6-C13/128653212/12016PL6-C16/128653312/12020PL6-C20/128653412/12025PL6-C25/128653512/12032PL6-C32/128653612/12040PL6-C40/128653712/12050PL6-C50/128653812/12063PL6-C63/128653912/1201-poleSG514111PL6-C1/1N1649228/802PL6-C2/1N1060298/804PL6-C4/1N1060308/806PL6-C6/1N1060318/8010PL6-C10/1N1060328/8013PL6-C13/1N1060338/8016PL6-C16/1N1060348/8020PL6-C20/1N1649268/8025PL6-C25/1N1649278/8032PL6-C32/1N1649308/801+N-poleRated currentI n (A)TypeDesignationArticle No.Units perpackageSG647111PL6-B1/3N1650023/302PL6-B2/3N1650073/304PL6-B4/3N1650103/306PL6-B6/3N1060353/3010PL6-B10/3N1060363/3013PL6-B13/3N1650043/3016PL6-B16/3N1060373/3020PL6-B20/3N1060383/3025PL6-B25/3N1060393/3032PL6-B32/3N1060403/3040PL6-B40/3N1060413/3050PL6-B50/3N1069033/3063PL6-B63/3N1069043/303+N-poleSG266121PL6-B1/41664893/302PL6-B2/41664963/304PL6-B4/41665013/306PL6-B6/41665053/3010PL6-B10/41664903/3013PL6-B13/41664923/3016PL6-B16/41664943/3020PL6-B20/41664973/3025PL6-B25/41664983/3032PL6-B32/41665003/3040PL6-B40/41665023/3050PL6-B50/41665043/3063PL6-B63/41665063/304-poleRated current I n (A)TypeDesignationArticle No.Units perpackageSG647111PL6-C1/3N1650193/302PL6-C2/3N1069053/304PL6-C4/3N1069063/306PL6-C6/3N1069073/3010PL6-C10/3N1069083/3013PL6-C13/3N1069093/3016PL6-C16/3N1069103/3020PL6-C20/3N1069113/3025PL6-C25/3N1069123/3032PL6-C32/3N1069133/3040PL6-C40/3N1069143/3050PL6-C50/3N1069153/3063PL6-C63/3N1069163/303+N-poleSG266121PL6-C1/41665143/302PL6-C2/41665213/304PL6-C4/41665273/306PL6-C6/41665313/3010PL6-C10/41665153/3013PL6-C13/41665173/3016PL6-C16/41665193/3020PL6-C20/41665223/3025PL6-C25/41665233/3032PL6-C32/41665263/3040PL6-C40/41665283/3050PL6-C50/41665303/3063PL6-C63/41665323/304-poleRated currentI n (A)TypeDesignationArticle No.Units perpackageSG515111PL6-C1/21648176/602PL6-C2/22865626/604PL6-C4/22865636/606PL6-C6/22865646/6010PL6-C10/22865656/6013PL6-C13/22865666/6016PL6-C16/22865676/6020PL6-C20/22865686/6025PL6-C25/22865696/6032PL6-C32/22865706/6040PL6-C40/22865716/6050PL6-C50/22865726/6063PL6-C63/22865736/602-poleSG622111PL6-C1/31648824/402PL6-C2/32865964/404PL6-C4/32865974/406PL6-C6/32865984/4010PL6-C10/32865994/4013PL6-C13/32866004/4020PL6-C20/32866024/4025PL6-C25/32866034/4032PL6-C32/32866044/4040PL6-C40/32866054/4050PL6-C50/32866064/4063PL6-C63/32866074/403-poleRated current I n (A)TypeDesignationArticle No.Units perpackageSG515111PL6-D1/21648286/602PL6-D2/22865746/604PL6-D4/22865756/606PL6-D6/22865766/6010PL6-D10/22865776/6013PL6-D13/22865786/6016PL6-D16/22865796/6020PL6-D20/22865806/6025PL6-D25/22865816/6032PL6-D32/22865826/6040PL6-D40/22865836/602-poleSG622111PL6-D1/31648934/402PL6-D2/32866084/404PL6-D4/32866094/406PL6-D6/32866104/4010PL6-D10/32866114/4013PL6-D13/32866124/4016PL6-D16/32866134/4020PL6-D20/32866144/4025PL6-D25/32866154/4032PL6-D32/32866164/4040PL6-D40/32866174/403-poleRated currentI n (A)TypeDesignationArticle No.Units perpackage6 kA, Characteristic DSG454111PL6-D1/116476512/1202PL6-D2/128654012/1204PL6-D4/128654112/1206PL6-D6/128654212/12010PL6-D10/128654312/12013PL6-D13/128654412/12016PL6-D16/128654512/12020PL6-D20/128654612/12025PL6-D25/128654712/12032PL6-D32/128654812/12040PL6-D40/128654912/1201-poleSG514111PL6-D1/1N1649368/802PL6-D2/1N1649438/804PL6-D4/1N1649488/806PL6-D6/1N1649508/8010PL6-D10/1N1649378/8013PL6-D13/1N1649398/8016PL6-D16/1N1649418/8020PL6-D20/1N1649448/8025PL6-D25/1N1649458/801+N-poleSpecifications | Miniature Circuit Breakers PL6Description• High selectivity between MCB and back-up fuse due to low let-through energy• Compatible with standard busbar • T win-purpose terminal (lift/open-mouthed) above and below • B usbar positioning optionally above or below • M eets the requirements of insulation co-ordination, distance between con-tacts ³ 4 mm, for secure isolation • S uitable for applications up to 48 V DCAccessories:Auxiliary switch for subsequent installation ZP-IHK 286052ZP-WHK 286053Tripping signal switch for subsequent installation ZP-NHK 248437Remote control and automatic switching device Z-FW/LP 248296Shunt trip release ZP-ASA/..248438, 248439Undervoltage releaseZ-USA/..248288-248291Additional terminal 35 mm 2BB-UL-TEPA/35169823Switching interlockZ-IS/SPE-1TE 274418Technical DataPL6ElectricalDesign according toCurrent test marks as printed onto the device IEC/EN 60898-1Rated voltageU nAC: 230/400 VDC: 48 V (per pole, max. 2 poles)Rated frequency50/60 Hz Rated breaking capacity according to IEC/EN 60898-1I cn6 kA Characteristic B, C, DBack-up fuse max. 100 A gL Selectivity class3Rated impulse withstand voltage U imp4 kV (1.2/50 μs)Enduranceelectrical components ³ 10,000 switching operations mechanical components ³ 20,000 switching operations Line voltage connection at will (above/below)Minimal voltage 12 V AC/DCMechanical Frame size 45 mm Device height 80 mmDevice width 17.5 mm per pole (1MU)Mountingquick fastening with 3 lock-in positions on DIN rail IEC/EN 60715Degree of protectionIP20Upper and lower terminals open-mouthed/lift terminalsTerminal protection finger and hand touch safe, DGUV VS3, EN 50274Terminal capacity 1-25 mm 2Terminal torque 2-2.4 Nm Busbar thickness 0.8 - 2 mmMountingindependent of position Operation temperature-25°C to +75°C Storage- and transport temperature-40°C up to +75°CRated current I n (A)TypeDesignationArticle No.Units perpackageSG647111PL6-D1/3N 1650303/302PL6-D2/3N 1650373/304PL6-D4/3N 1650433/306PL6-D6/3N 1650463/3010PL6-D10/3N 1650313/3013PL6-D13/3N 1650333/3016PL6-D16/3N 1650353/3020PL6-D20/3N 1650383/3025PL6-D25/3N 1650393/3032PL6-D32/3N 1650423/3040PL6-D40/3N1650443/303+N-pole SG266121PL6-D1/41665373/302PL6-D2/41665443/304PL6-D4/41665503/306PL6-D6/41665533/3010PL6-D10/41665383/3013PL6-D13/41665403/3016PL6-D16/41665423/3020PL6-D20/41665453/3025PL6-D25/41665463/3032PL6-D32/41665493/3040PL6-D40/41665513/304-poleEffect of the Ambient Temperature on Thermal Tripping Behaviour Effect of Power FrequencyEffect of power frequency on the tripping behaviour I MA of the quick releaseLoad Capacity of Series Connected Miniature Circuit BreakersPower frequency f [Hz]162/35060100200300400I MA (f)/I MA (50 Hz) [%]91100101106115134141Adjusted rated current values according to the ambient temperatureNumber of devices (n) 1-poleConnection diagramsDimensions (mm)Tripping Characteristics (IEC/EN 60898-1)Quick-acting (B), slow (C), very slow (D)Tripping characteristic BTripping characteristic CTripping characteristic DTRIPPING CURRENTTRIPPING CURRENTTRIPPING CURRENT1-pole1+N-pole2-pole3-pole3+N-pole4-pole1P2P3P+N4P1P+N3PThe use of the products in networks with other frequencies than 50/60 Hz is in the customer’s responsibility.Short-circuit Selectivity PL6 towards DII-DIV fuse linkIn case of short-circuit, there is selectivity between the miniature circuit breakers PL6 and the upstream fuses up to the specified values of the selectivity limit current I s [kA] (i. e. in case of short-circuit currents I ks under I s only the MCB will trip, in case of short-circuit currents above this value both protective devices will respond).*) basically in accordance with EN 60898-1 D.5.2.bShort-circuit selectivity Characteristic B towards fuse link DII-DIV *)Short-circuit selectivity Characteristic C towards fuse link DII-DIV *)Short-circuit selectivity Characteristic D towards fuse link DII-DIV *)1) Selectivity limit current I sunder 0.5 kA2) S electivity limit current I s = rated breaking capacity I cn of the MCBDarker areas: no selectivityPL6DII-DIV gL/gG I n [A]10162025355063801002<0.51)<0.51)0.8 1.6 6.02) 6.02) 6.02) 6.02) 6.02)4<0.51)<0.51)0.6 1.0 3.6 6.02) 6.02) 6.02) 6.02)5<0.51)1)2)2)2)PL6DII-DIV gL/gG I n [A]10162025355063801002<0.51)<0.51)0.8 1.6 6.02) 6.02) 6.02) 6.02) 6.02)4<0.51)<0.51)0.60.8 1.8 3.6 6.02) 6.02) 6.02)5<0.51)1)2)2)2)PL6DII-DIV gL/gG I n [A]10162025355063801002<0.51)<0.51)0.6 1.0 2.8 5.8 6.02) 6.02) 6.02)Let-through Energy PL6Let-through Energy PL6, Characteristic B, 1-poleLet-through Energy PL6, Characteristic C, 1-poleLet-through Energy PL6, Characteristic D, 1-poleProspective short-circuit current [A]L e t t h r o u g h e n e r g y I 2t [A 2 s e c ]Prospective short-circuit current [A]L e t t h r o u g h e n e r g y I 2t [A 2 s e c ]Prospective short-circuit current [A]L e t t h r o u g h e n e r g y I 2t [A 2 s e c ]Short-circuit Selectivity PL6 towards NH-00 fuse linkIn case of short-circuit, there is selectivity between the miniature circuit breakers PL6 and the upstream fuses up to the specified values of the selectivity limit current I s [kA] (i. e. in case of short-circuit currents I ks under I s only the MCB will trip, in case of short-circuit currents above this value both protective devices will respond).*) basically in accordance with EN 60898-1 D.5.2.bShort-circuit selectivity Characteristic B towards fuse link NH-00*)Short-circuit selectivity Characteristic C towards fuse link NH-00*)Short-circuit selectivity Characteristic D towards fuse link NH-00*)1) Selectivity limit current I sunder 0.5 kA2) S electivity limit current I s = rated breaking capacity I cn of the MCBDarker areas: no selectivityPL6NH-00 gL/gG I n [A]1620253235405063801001251602<0.51)0.5 1.0 2.5 6.02) 6.02) 6.02) 6.02) 6.02) 6.02) 6.02) 6.02)4<0.51)<0.51)0.8 1.3 2.3 4.3 6.02) 6.02) 6.02) 6.02) 6.02) 6.02)5<0.51)<0.51)0.7 1.1 1.6 2.2 3.6 4.8 6.02) 6.02) 6.02) 6.02)6<0.51)<0.51)0.7 1.1 1.5 2.0 3.3 4.3 6.02) 6.02) 6.02) 6.02)8<0.51)1)2)2)2)PL6NH-00 gL/gG I n [A]1620253235405063801001251602<0.51)0.6 1.0 2.5 6.02) 6.02) 6.02) 6.02) 6.02) 6.02) 6.02) 6.02)4<0.51)<0.51)0.7 1.0 1.5 2.1 3.6 5.0 6.02) 6.02) 6.02) 6.02)5<0.51)<0.51)0.60.8 1.2 1.7 2.8 3.8 6.02) 6.02) 6.02) 6.02)6<0.51)<0.51)0.50.8 1.2 1.5 2.5 3.3 5.7 6.02) 6.02) 6.02)8<0.51)1)2)2)2)PL6NH-00 gL/gG I n [A]1620253235405063801001251602<0.51)<0.51)0.8 1.3 2.1 3.1 6.02) 6.02) 6.02) 6.02) 6.02) 6.02)4<0.51)<0.51)0.71.0 1.62.23.8 5.2 6.02) 6.02) 6.02) 6.02)Short-circuit Selectivity PL6 towards D01-D03 fuse linkIn case of short-circuit, there is selectivity between the miniature circuit breakers PL6 and the upstream fuses up to the specified values of the selectivity limit current I s [kA] (i. e. in case of short-circuit currents I ks under I s only the MCB will trip, in case of short-circuit currents above this value both protective devices will respond).*) basically in accordance with EN 60898-1 D.5.2.bShort-circuit selectivity Characteristic B towards fuse link D01-D03*)Short-circuit selectivity Characteristic C towards fuse link D01-D03*)Short-circuit selectivity Characteristic D towards fuse link D01-D03*)1) Selectivity limit current I sunder 0.5 kA2) S electivity limit current I s = rated breaking capacity I cn of the MCBDarker areas: no selectivity PL6D01-D03 gL/gG I n [A]10162025355063801002<0.51)<0.51)0.6 1.0 6.02) 6.02) 6.02) 6.02) 6.02)4<0.51)1)2)2)2)2)PL6D01-D03 gL/gG I n [A]10162025355063801002<0.51)<0.51)0.50.7 6.02) 6.02) 6.02) 6.02) 6.02)4<0.51)1)1)2)2)2)PL6D01-D03 gL/gG I n [A]10162025355063801002<0.51)<0.51)0.60.8 2.2 6.02) 6.02) 6.02) 6.02)Eaton EMEA Headquarters Route de la Longeraie 71110 Morges, Switzerland © 2022 Eaton All Rights Reserved Publication No. CA019069EN Article number 302785-MK July 2023910238178595Eaton Industries (Austria) GmbH Scheydgasse 421210 Vienna AustriaFollow us on social media to get the latest product and support information.Eaton is a registered trademark.All other trademarks are property of their respective owners.To contact us please visit https:///contacts For technical questions please contact your local Eaton team.Changes to the products, to the information contained in this document, and to prices are reserved; as are errors and omissions.Only order confirmations and technical documentation by Eaton is binding. Photos and pictures also do not warrant a specific layout or functionality. Their use in whatever form is subject to prior approval by Eaton. The same applies to trademarks (especially Eaton, Moeller,and Cutler-Hammer). The Terms and Conditions of Eaton apply, as referenced on Eaton Internet pages and Eaton order confirmations.Eaton’s electrical business is a global leader with deep regionalapplication expertise in power distribution and circuit protection; power quality, backup power and energy storage; control and automation; life safety and security; structural solutions; and harsh and hazardous environment solutions. Through end-to-end services, channel and an integrated digital platform & insights Eaton is powering what matters across industries and around the world, helping customers solve their most critical electrical power management challenges.For more information, visit .。

Protective Devices Miniature Circuit Breakers PLN6Catalog1.1Protective DevicesMiniature Circuit Breakers PLN6 (MW)• T op-quality miniature circuit breakers 1P+N with a width of 1 module unit requiring little space for installation• Contact position indicator red - green • Guide for secure terminal connection • C omprehensive range of accessories can be mounted subsequently • Rated currents up to 40 A • Tripping characteristics B, C• R ated breaking capacity 6 kA according to IEC/EN 60898-1DescriptionSG145111.2Protective DevicesMiniature Circuit Breakers PLN6 (MW)Rated current I n (A)TypeDesignationArticle No.Units perpackage6 kA, Characteristic BSG145116PLN6-B6/1N26316112/12010PLN6-B10/1N26316212/12013PLN6-B13/1N26316312/12016PLN6-B16/1N26316412/12020PLN6-B20/1N26316512/12025PLN6-B25/1N26316612/12032PLN6-B32/1N26316712/12040PLN6-B40/1N26316812/1201+N-pole6 kA, Characteristic CSG145112PLN6-C2/1N26316912/1204PLN6-C4/1N26317012/1206PLN6-C6/1N26317112/12010PLN6-C10/1N26317212/12013PLN6-C13/1N26317312/12016PLN6-C16/1N26317412/12020PLN6-C20/1N26317512/12025PLN6-C25/1N26317612/12032PLN6-C32/1N26317712/12040PLN6-C40/1N26317812/1201+N-pole1.3Protective DevicesMiniature Circuit Breakers PLN6, (MW) - T echnical DataSpecifications | Miniature Circuit Breakers PLN6Description• High selectivity between MCB and back-up fuse due to low let-throughenergy• B usbar positioning optionally above or below• Compatible with standard busbar• Switching toggle in colour designating the rated current• M eets the requirements of insulation co-ordination, distance between con-tacts ³ 4 mm, for secure isolation• 1-pole breaking capacityI cn 1 = 3 kAAccessories:Auxiliary switch for subsequent installation ZP-IHK286052ZP-WHK286053Tripping signal switch for subsequent installation ZP-NHK248437Remote control and automatic switching device Z-FW/LP248296Shunt trip release ZP-ASA/..248438, 248439Undervoltage release Z-USA/..248288-248291Busbars:see capter busbar systemsTechnical DataPLN6ElectricalIEC/EN 60898-1Design according toCurrent test marks as printed onto the deviceRated voltage U n230 VACRated frequency50/60 HzRated breaking capacity according to IEC/EN 60898-1I cnPLN6 6 kAPLN4 4.5 kACharacteristic B, CBack-up fuse>6 kA max. 100 A gL/gG>4.5 kA max. 80 A gL/gGSelectivity class3Endurance electrical components³ 8,000 switching operationsMechanicalFrame size45 mmDevice height80 mmDevice width17.5 mm (1MU for 1+N)Mounting quick fastening with 2 lock-in positions on DIN rail IEC/EN 60715Degree of protection IP20Upper and lower terminals open-mouthed/lift terminalsTerminal protection finger and hand touch safe, DGUV VS3, EN 50274Terminal capacity1-16 mm2Connection diagram1+N-poleDimensions (mm)1.4Protective DevicesMiniature Circuit Breakers PLN6 (MW) - T echnical DataLoad Capacity PLN6Let-through Energy PLN6Determined according to 60898-1.Maximum let-through energy PLN6, Characteristic BMaximum let-through energy PLN6, Characteristic CLoad capacity in case of MCB block installationCurrent carrying capacity at ambient temperature (I n = 2-13 A)Permitted permanent load at ambient temperature T (°C) with n devices: I DL = I n K T (T)K N (N).Current carrying capacity at ambient temperature (I n = 16-25 A)Current carrying capacity at ambient temperature (I n = 32, 40 A)Number of devices (n)L o a d c a p a c i t y f a c t o r K NProspective short-circuit current [A]L e t t h r o u g h e n e r g y I 2t [A 2 s e c ]Prospective short-circuit current [A]L e t t h r o u g h e n e r g y I 2t [A 2 s e c ]1.5Protective DevicesMiniature Circuit Breakers PLN6 (MW) - T echnical DataShort-circuit Selectivity PLN6In case of short-circuit, there is selectivity between the miniature circuit breakers PLN6 and the upstream fuses up to the specified values of the selectivity limit current I s [kA] (i. e. in case of short-circuit currents I ks under I s only the MCB will trip, in case of short-circuit currents above this value both protective devices will respond).*) basically in accordance with EN 60898-1 D.5.2.bShort-circuit selectivity Characteristic B towards fuse link DII-DIV *)Short-circuit selectivity Characteristic C towards fuse link DII-DIV *)PLN6DII-DIV gL/gG I n [A]20253550638010060.7 1.2 2.9 4.5 6.02) 6.02) 6.02)100.60.9 1.9 3.1 5.7 6.02) 6.02)130.50.7 1.5 2.5 4.5 6.02) 6.02)160.50.7 1.4 2.3 4.3 6.02) 6.02)200.50.7 1.4 2.2 4.0 6.02) 6.02)250.50.6 1.3 2.0 3.8 5.8 6.02)320.50.6 1.2 1.8 3.4 5.5 6.02)40<0.51)0.61.1 1.7 3.1 5.0 6.02)Short-circuit selectivity Characteristic B towards fuse link D01-D03*)Short-circuit selectivity Characteristic C towards fuse link D01-D03*)PLN6DII-DIV gL/gG I n [A]2025355063801002 1.5 3.8 6.02) 6.02) 6.02) 6.02) 6.02)40.7 1.2 3.3 6.02) 6.02) 6.02) 6.02)60.7 1.1 2.6 4.5 6.02) 6.02) 6.02)100.50.8 1.7 2.8 5.2 6.02) 6.02)130.50.7 1.5 2.5 4.5 6.02) 6.02)160.50.6 1.2 2.0 3.6 5.6 6.02)200.50.6 1.2 1.8 3.3 5.1 6.02)25<0.51)0.61.1 1.7 3.0 4.8 6.02)32<0.51)0.6 1.0 1.62.8 4.5 6.02)40<0.51)0.61.0 1.52.6 4.0 6.02)PLN6D01-D03 gL/gG I n [A]20253550638010060.60.9 2.5 5.5 6.02) 6.02) 6.02)100.50.8 1.6 3.4 5.0 6.02) 6.02)130.50.7 1.3 2.7 4.0 6.02) 6.02)160.50.6 1.3 2.5 3.8 6.02) 6.02)20<0.51)0.61.32.43.6 6.02) 6.02)25<0.51)0.6 1.2 2.3 3.3 5.8 6.02)32<0.51)0.6 1.1 2.1 3.0 5.5 6.02)40<0.51)0.61.02.0 2.8 4.9 6.02)PLN6D01-D03 gL/gG I n [A]2025355063801002 1.1 2.0 6.02) 6.02) 6.02) 6.02) 6.02)40.60.9 2.7 6.02) 6.02) 6.02) 6.02)60.60.9 2.3 5.0 6.02) 6.02) 6.02)100.50.7 1.5 3.0 4.5 6.02) 6.02)130.50.71.32.7 4.0 6.02) 6.02)16<0.51)0.6 1.1 2.23.1 5.5 6.02)20<0.51)0.6 1.1 2.1 2.9 5.2 6.02)25<0.51)0.5 1.0 2.0 2.74.8 6.02)32<0.51)0.51.0 1.92.6 4.5 6.02)40<0.51)0.50.9 1.7 2.3 4.0 6.02)1) Selectivity limit current I sunder 0.5 kA2) S electivity limit current I s = rated breaking capacity I cn of the MCBShort-circuit selectivity Characteristic B towards fuse link NH-00*)Short-circuit selectivity Characteristic C towards fuse link NH-00*)PLN6NH-00 gL/gG I n [A]202532354050638010060.50.91.52.33.24.9 6.02) 6.02) 6.02)10<0.51)0.7 1.2 1.5 2.0 3.1 3.95.96.02)13<0.51)0.6 1.0 1.3 1.7 2.5 3.1 4.6 6.02)16<0.51)0.6 1.0 1.3 1.6 2.4 2.9 4.5 6.02)20<0.51)0.50.9 1.3 1.5 2.3 2.8 4.3 6.02)25<0.51)0.50.9 1.1 1.4 2.1 2.6 4.0 6.02)32<0.51)0.50.8 1.0 1.3 1.9 2.4 3.6 6.02)40<0.51)0.50.80.9 1.1 1.7 2.2 3.3 6.02)PLN6NH-00 gL/gG I n [A]202532354050638010020.7 2.1 6.0 6.02) 6.02) 6.02) 6.02) 6.02) 6.02)40.50.9 1.6 2.6 3.7 6.0 6.02) 6.02) 6.02)60.50.8 1.4 2.1 2.9 4.5 5.7 6.02) 6.02)10<0.51)0.6 1.0 1.4 1.9 2.8 3.5 5.2 6.02)13<0.51)0.60.9 1.3 1.7 2.5 3.1 4.7 6.02)16<0.51)0.50.7 1.0 1.3 2.0 2.5 3.8 6.02)20<0.51)0.50.70.9 1.2 1.8 2.3 3.5 6.02)25<0.51)0.50.70.9 1.1 1.6 2.1 3.3 6.02)32<0.51)<0.51)0.60.8 1.1 1.5 2.0 3.1 6.02)40<0.51)<0.51)0.60.8 1.0 1.4 1.9 2.9 6.02)EatonEMEA Headquarters Route de la Longeraie 71110 Morges, Switzerland Eaton.eu© 2020 EatonAll Rights Reserved Printed in AustriaPublication No. CA019073EN Article number 302797-MK August 20209010238178670Eaton Industries (Austria) GmbH Scheydgasse 421210 Vienna AustriaFollow us on social media to get the latest product and support information.Eaton is a registered trademark.All other trademarks are property To contact us please visit https:///us/en-us/support/international-support-contacts.htmlFor technical questions please contact your local Eaton team.Changes to the products, to the information contained in thisdocument, and to prices are reserved; as are errors and omissions.Only order confirmations and technical documentation by Eaton is binding. Photos and pictures also do not warrant a specific layout or functionality. Their use in whatever form is subject to prior approval by Eaton. The same applies to trademarks (especially Eaton, Moeller,and Cutler-Hammer). The Terms and Conditions of Eaton apply, as referenced on Eaton Internet pages and Eaton order confirmations.Eaton’s electrical business is a global leader with deep regionalapplication expertise in power distribution and circuit protection; power quality, backup power and energy storage; control and automation; life safety and security; structural solutions; and harsh and hazardous environment solutions. Through end-to-end services, channel and an integrated digital platform & insights Eaton is powering what matters across industries and around the world, helping customers solve their most critical electrical power management challenges.For more information, visit .。

Approved for Class I and Class II applications, the ECM range of single and multiple output AC-DC, 40-60 W power supplies from XP feature the world's smallest footprint for units of these ratings. Both are just 2" x 4" (50.8 mm x 101.6 mm) and 1.2"(30.48 mm) high. Furthermore, these high-density power supplies meet EN55032 Level B conducted emissions with maximum leakage currents of 100 µA at 115 VAC or 200 µA at 230 VAC. As a result, these switchers are equally suitable for industrial, IT and medical applications, with no price premium for meeting medical requirements.The ECM40-60 series have single output versions from 5 V to 48 VDC, adjustable by ±10%, and dual and triple outputversions covering combinations of 3.3 V , 5 V , 12 V , 15 V and 24 V . They are dual-fused for compliance with IEC60601-1 and efficiency is 80-85%, depending upon the model, so minimal excess heat is generated.The power supplies deliver full power between 0 °C and +50 °C and will operate at up to +70 °C with derating and only 5CFM of cooling. Comprehensive overvoltage, overload and short circuit protection is built in. Covers, looms and connector kitsare available.ECM40-60•40 & 60 Watt Models •Small Size 2.0”x 4.0”x 1.2”•Low Leakage Current•Industrial & Medical Approvals•Full Load Available Convection Cooled •Wide Operating Temperature 0 °C to +70 °C •Level B Conducted Emissions •EN61000 Compliant•Universal AC Input 90-264 VAC •Input Frequency 47-63 & 440 Hz •Single & Multiple Outputs •Cover Kits Available•Mating Connector & Loom Kits AvailableInput CharacteristicsAll specifications are at nominal input, full resistance load at 25°C unless otherwise stated. Output CharacteristicsGeneral SpecificationsEnvironmentalElectromagnetic Compatibility & ImmunitySafety Approvals2. To receive unit with cover fitted, add suffix ‘-C’ to model number. For Class I operation only.3. A 120% peak load can be taken for up to 100 ms with a 25% duty cycle. Average load not to exceed maximum power rating.† Available from Farnell InOne. * A vailable from Newark InOne.Transient ResponseAll ECM60 models convection-cooled All ECM60 models with 5 CFMECM60US24 25% load changeEfficiency Versus Input VoltageECM60US24 with 60 W load ECM60UT33 with 50 W load Efficiency Versus Output LoadECM60US24 at 230 VAC input ECM60UT33 at 230 VAC inputStart Up DelayECM60US24 with 60 W loadECM60US24 with 60 W load at 230 VACECM60UT33 with 60 W loadHold Up TmeOverload CharacteristicsECM60US24. When current reaches 5.4 A, outputgoes into trip and restart (hiccup) modeRipple & NoiseECM60US24 with 60 W load Noise measured is 64 mV pk-pk ECM60UT33 output 1 with 30 W load.Noise measured is 36 mV pk-pkECM60UT33 output 2 with 15 W load.Noise measured is 68 mV pk-pk ECM60UT33 output 3 with 7 W load. Noise measured is 34 mV pk-pkConducted NoiseECM60US24 at full loadECM60UT33 at full loadMechanical Details - Single Output ModelsThermal ConsiderationsSMD component height0.14 (3.5)Weight: approx. 0.33 lb (150g)Notes1. All dimensions in inches (mm). T olerance .xx = ±0.02 (0.50); .xxx = ±0.01 (0.25)2. Cable harnesses with 300mm wire available.For single output models, order part number ECM40/60S LOOM. For multi-output models, order part number ECM40/60DT LOOM .3. Mating connector kit available. Order part number ECM40/60 CONKIT .4. Covers available. Order part number ECM40/60 COVER. Cover dimensions are 4.49 x 2.52 x 1.52 (114 x 64 x 38.5)5. † All accessories available from Farnell InOne.J1 mates with Molex housing 43061-0003and Molex series 5194 crimp terminals.Ground (0.25 faston) tab standard.T o ensure correct and safe operation of the PSU, the temperature of the components listed in the table below must not be exceeded. See mechanical details for component locations.J2 mates with Molex housing 43061-0006 & Molex series 5194 crimp terminals.Mechanical Details - Single Output Models (3 x 5)Thermal ConsiderationsWeight: approx. 0.4 lb (180 g)Notes1. All dimensions in inches (mm). T olerance .xx = ±0.02 (0.50); .xxx = ±0.01 (0.25)2. Cable harnesses with 300mm wire available.For single output models, order part number ECM40/60S LOOM. For multi-output models, order part number ECM40/60DT LOOM .3. Mating connector kit available. Order part number ECM40/60 CONKIT .4. Covers available. Order part number ECM40/60 COVER. Cover dimensions are 4.49 x 2.52 x 1.52 (114 x 64 x 38.5)5. † All accessories available from Farnell InOne.J1 mates with Molex housing 43061-0003and Molex series 5194 crimp terminals.Ground (0.25 faston) tab standard.T o ensure correct and safe operation of the PSU, the temperature of the components listed in the table below must not be exceeded. See mechanical details for component locations.J2 mates with Molex housing 43061-0006 & Molex series 5194 crimp terminals.Mechanical Details - Multi Output ModelsThermal ConsiderationsWeight: approx. 0.33 lb (150g)Notes1. All dimensions in inches (mm). T olerance .xx = ±0.02 (0.50); .xxx = ±0.01 (0.25)2. Cable harnesses with 300mm wire available.For single output models, order part number ECM40/60S LOOM. For multi-output models, order part number ECM40/60DT LOOM .3. Mating connector kit available. Order part number ECM40/60 CONKIT .4. Covers available. Order part number ECM40/60 COVER. Cover dimensions are 4.49 x 2.52 x 1.52 (114 x 64 x 38.5)5. † All accessories available from Farnell InOne.J1 mates with Molex housing 43061-0003and Molex series 5194 crimp terminals.Ground (0.25 faston) tab standard.T o ensure correct and safe operation of the PSU, the temperature of the components listed in the table below must not be exceeded. See mechanical details for component locations.J2 mates with Molex housing 43061-0006 & Molex series 5194 crimp terminals.ECM100 Series•100 Watt Models•Small Size 2.5” x 4.5” x 1.2”•Low Leakage Current•Industrial & Medical Approvals•Convection & Force Cooled Ratings•Wide Operating Temperature 0 °C to +70 °C•Level B Conducted Emissions•EN61000 Compliant•Universal AC Input 90-264 VAC•Input Frequency 47-63 & 440 Hz•Cover Kits Available•Mating Connector & Cable Harness Kits Available Approved for Class I and Class II applications, the ECM100 range of single output AC-DC, 100 W power supplies from XP feature the world's smallest footprint for units of these ratings. Size is just 2.5" x 4.5" (63.5 mm x 114.3 mm) and 1.2" (30.48 mm) high. Furthermore, these high-density power supplies meet EN55032 Level B conducted emissions with maximum leakage currents of 125 µA at 115 VAC or 210 µA at 230 VAC. As a result, these switchers are equally suitable for industrial, IT and medical applications, with no price premium for meeting medical requirements.The ECM100 series have single output versions from 3.3 V to 48 VDC, adjustable by ±10%. They are dual-fused for compliance with IEC60601-1 and efficiency is 80-85%, depending upon the model, so minimal excess heat is generated.The power supplies deliver full power between 0 °C and +50 °C and will operate at up to +70 °C with derating and only 5 CFMof cooling. Comprehensive overvoltage, overload and short circuit protection is built in. Covers, cable harnesses and connector kits are available.Input CharacteristicsOutput CharacteristicsGeneral SpecificationsEnvironmentalModels and RatingsDerating CurvesTransient ResponseECM100US24 25% load change Efficiency Versus Input VoltageECM100US24 start up 115 VAC at 100% loadECM100US24 start up 230 VAC at 100% loadStart Up DelayHold Up TimeECM100US24 hold up 115 VAC at 100% loadHold up time is 20.8 msOverload CharacteristicsOutput Ripple & NoiseConducted NoiseECM100US24 with 100 W load Noise measured is 28 mVECM100US12 Class I - Output floating (full load)ECM100UQ44 Class I - Output floating (full load)ECM100US12 Class I - Output grounded (full load)ECM100UQ44 Class I - Output grounded (full load)Mechanical Details - Single Output ModelsThermal ConsiderationsSMD component heightWeight: approx. 0.4 lb (180g)Cover dimensions are 4.98 x 3.01 x 1.54 (126.5 x 76.4 x 39.0)Notes1. All dimensions in inches (mm). T olerance .xx = ±0.02 (0.50); .xxx = ±0.01 (0.25)2. Cable harnessess with 300mm wire available. For single output models, order part number ECM100S LOOM.3. Mating connector kit available. Order part number ECM100 CONKIT .4. Covers available. Order part number ECM100 COVER.J1 mates with Molex housing 43061-0003and Molex series 5194 crimp terminals.Ground (0.25 faston) tab standard.T o ensure correct and safe operation of the PSU, the temperature of the components listed in the table below must not be exceeded. See mechanical details for component locations.J2 mates with Molex housing 43061-0012 & Molex series 5194 crimp terminalsThermal ConsiderationsMechanical Details - Multi Output ModelsSMD component heightWeight: approx. 0.4 lb (180g)Cover dimensions are 4.98 x 3.01 x 1.54 (126.5 x 76.4 x 39.0)Notes1. All dimensions in inches (mm). T olerance .xx = ±0.02 (0.50); .xxx = ±0.01 (0.25)2. Cable harnessess with 300mm wire available. For multi output models (dual and triple output only), order part number ECM100DT LOOM.3. Mating connector kit available. Order part number ECM100 CONKIT .4. Covers available. Order part number ECM100 COVER.J1 mates with Molex housing 43061-0003and Molex series 5194 crimp terminals.Ground (0.25 faston) tab standard.T o ensure correct and safe operation of the PSU, the temperature of the components listed in the table below must not be exceeded. See mechanical details for component locations.J2 mates with Molex Housing 43061-0012and Molex series 5194 crimp terminals24 Feb 20。

BAC06P/BAC06PB系列蓄电池充电器用户手册郑州众智科技股份有限公司SMARTGEN (ZHENGZHOU) TECHNOLOGY CO., LTD.目次前言 (3)1概述 (4)2性能特点 (4)3充电原理 (4)3.1二段式充电原理 (4)3.2三段式充电原理 (5)4参数规格 (6)5操作说明 (7)6接线图 (7)7外形及安装尺寸 (8)8选型 (8)前言是众智的中文商标是众智的英文商标SmartG en ― Smart的意思是灵巧的、智能的、聪明的，Gen是generator(发电机组)的缩写，两个单词合起来的意思是让发电机组变得更加智能、更加人性化、更好的为人类服务！不经过本公司的允许，本文档的任何部分不能被复制(包括图片及图标)。

本公司保留更改本文档内容的权利，而不通知用户。

公司地址：中国·河南省郑州高新技术开发区金梭路28号电话：+86-371-67988888/67981888/67992951+86-371-67981000（外贸）传真：+86-371-67992952网址：//邮箱：*****************表1版本发展历史日期版本内容2021-04-23 1.0 开始发布。

1概述BAC06P/BAC06PB系列蓄电池充电器采用开关电源器件，专门针对发动机起动用的铅酸蓄电池的充电特性而设计，适合于铅酸电池的长期补充充电（浮充）。

12V的充电器最大输出电流为6A，24V的充电器最大输出电流为3A。

2性能特点产品有以下特点：——采用开关电源式结构，输入交流电压范围宽，体积小，重量轻，效率高；——BAC06P采用二段式充电法自动充电，BAC06PB可以根据需要选择二段式或者三段式充电法自动充电，都充分按照蓄电池充电特性而设计的，可防止铅酸蓄电池过充，能最大程度提高电池寿命；——BAC06P具有短路保护、反接保护；BAC06PB具有短路保护、反接保护、均充定时、BOOST 功能；——状态LED显示：电源指示，充电指示；——采用卧式安装方式，安装简单方便。

MicroPower Direct292 Page Street Suite DStoughton, MA 02072USAT: (781) 344-8226F: (781) 344-8481E: sales@ W: InputParameterConditionsMin.Typ.Max.Units Input Voltage Range Universal 85264VAC 120370VDC Input Frequency 4763Hz Input Current See Model Selection GuideInrush CurrentCold Start, 115 VAC 30.0 A PkCold Start, 230 VAC 60.0Safety Ground Leakage Current115 VAC 1.5mA 230 VAC3.5OutputParameterConditions Min.Typ.Max.UnitsOutput Voltage See Model Selection Guide Output CurrentSee Model Selection Guide Output Voltage AdjustmentSee Model Selection Guide Output Voltage Tolerance, See Note 1See Model Selection Guide Ripple & Noise (20 MHz), See Note 2See Model Selection GuideHold-Up Time 115 VAC 12mSec 230 VAC 80Set-Up Time 115 VAC 800mSec 230 VAC 300Rise Time115 VAC 50mSec 230 VAC 50Temperature Coeffi cient ±0.02%/°CShort Circuit Protection Continuous (Autorecovery)Over Voltage Protection See Note 3115135% Vout Overload ProtectionSee Note 4135165% Iout GeneralParameter ConditionsMin.Typ.Max.Units Isolation Voltage Input to Output 3,000VACInput to Ground 1,500Output to Ground500Isolation resistance 500 VDC 100M ΩEMI/RFIConductedEN 55022; EN 61000-3-2, -3EMC Compliance Electrostatic Discharge (ESD)IEC/EN 61000-4-2, -6, -8, -11RF Field SusceptibilityIEC/EN61000-4-3Electrical Fast T ransients/Bursts On MainsIEC/EN 61000-4-4SurgeIEC/EN 61000-4-5Switching Frequency50kHzEnvironmentalParameterConditionsMin.Typ.Max.UnitsOperating Temperature Range Ambient-10+25+60°C Storage Temperature Range -20+85°C Cooling Free Air Convection (See Derating Curve)HumidityRH, Non-condensing 2090%PhysicalCase Size 6.26 x 3.82 x 1.50 Inches (159.0 x 97.0 x 38.0 mm)Case Material Vented Metal EnclosureWeight18.0 Oz (0.51 kg)Reliability Specifi cationsParameter Conditions Min.Typ.Max.UnitsMTBFMIL HDBK 217F , 25°C, Gnd Benign 300kHoursSafety Standards IEN 60950, IEC 60950Vibration10~500 Hz, 2G 10 min/1 Cycle. Period of 60 min each along X, Y &Z AxisSingle Output, 60W Compact, EnclosedAC/DC Power SuppliesKey Features:• 60W Output Power • Universal 85-264 AC Input • EN60950 Compliant • Five Single Output Models • Meets EN55022• >300 kHour MTBF • Compact Metal EnclosureSi l O 60MPE-60S SeriesRoHS CompliantElectrical Specifi cationsSpecifi cations typical @ +25°C, nominal input voltage & rated output current, unless otherwise noted. Specifications subject to change without notice.Model Selection GuideMechanical DimensionsNotes:• All dimensions are typical in inches (mm)• Tolerance x.xx = ±0.01 (±0.25)Pin Function 1AC-Line 2AC-Neutral 3AC-Ground 4-Vout 5+VoutPin ConnectionsMicroPower Direct292 Page Street Ste D Stoughton, MA 02072 • TEL: (781) 344-8226 • FAX: (781) 344-8481 • E-Mail: sales@Notes:1. Output voltage tolerance includes the the effects of set point accuracy, line regulation and load regulation.2. Ripple and noise is measured at 20 MHz bandwidth using a 12 inch twisted pair wire to connect to the power supply ter-minals. A 0.1µF and a 47 µF capacitor are connected in parallel as close to the power supply terminals as possible.3. Overvoltage protection is provided by a “hiccup mode” circuit. The unit recovers automatically when the fault condition is removed.4. Overload protection is provided by fold-back current limiting. The unit recovers automatically when the fault condition is removed.5. It is recommended that a fuse be used on the input of a power supply for protection. For the MPE-60S series, a 5A/250 VAC slow blow should be used.Model Number InputOutputOutput Tolerance (%)Ripple &Noise(mV p-p)Effi ciency(%, Typ)Current (A)Voltage (VDC)Current (A)115 VAC 230 VAC RangeAdjust Rated Range MPE-60S-05 2.0 1.0 5.0 4.75 - 5.512.00 to 12.0±2.012073MPE-60S-12 2.0 1.012.010.8 - 13.2 5.00 to 5.0±1.012076MPE-60S-15 2.0 1.015.013.5 - 16.5 4.00 to 4.0±1.015077MPE-60S-24 2.0 1.024.021.6 - 26.4 2.50 to 2.5±1.015079MPE-60S-482.01.048.042.2 - 52.81.30 to 1.3±1.020080Derating CurveStatic Characteristics (24 Vout)。

PACKAGING INFORMATIONOrderable Device Status(1)PackageType PackageDrawingPins PackageQtyEco Plan(2)Lead/Ball Finish MSL Peak Temp(3)5962-7700601VEA ACTIVE CDIP J161TBD Call TI Level-NC-NC-NC 5962-7700601VFA ACTIVE CFP W161TBD Call TI Level-NC-NC-NC 7700601EA ACTIVE CDIP J161TBD Call TI Level-NC-NC-NC7700601FA ACTIVE CFP W161TBD Call TI Level-NC-NC-NC JM38510/30608B2A ACTIVE LCCC FK201TBD Call TI Level-NC-NC-NC JM38510/30608BEA ACTIVE CDIP J161TBD Call TI Level-NC-NC-NC JM38510/30608BFA ACTIVE CFP W161TBD Call TI Level-NC-NC-NC SN54LS165AJ ACTIVE CDIP J161TBD Call TI Level-NC-NC-NCSN74165N OBSOLETE PDIP N16TBD Call TI Call TISN74LS165AD ACTIVE SOIC D1640Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMSN74LS165ADE4ACTIVE SOIC D1640Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMSN74LS165ADR ACTIVE SOIC D162500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMSN74LS165ADRE4ACTIVE SOIC D162500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIM SN74LS165AJ OBSOLETE CDIP J16TBD Call TI Call TISN74LS165AN ACTIVE PDIP N1625Pb-Free(RoHS)CU NIPDAU Level-NC-NC-NC SN74LS165AN3OBSOLETE PDIP N16TBD Call TI Call TISN74LS165ANSR ACTIVE SO NS162000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMSN74LS165ANSRG4ACTIVE SO NS162000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIM SNJ54LS165AFK ACTIVE LCCC FK201TBD Call TI Level-NC-NC-NC SNJ54LS165AJ ACTIVE CDIP J161TBD Call TI Level-NC-NC-NC SNJ54LS165AW ACTIVE CFP W161TBD Call TI Level-NC-NC-NC (1)The marketing status values are defined as follows:ACTIVE:Product device recommended for new designs.LIFEBUY:TI has announced that the device will be discontinued,and a lifetime-buy period is in effect.NRND:Not recommended for new designs.Device is in production to support existing customers,but TI does not recommend using this part in a new design.PREVIEW:Device has been announced but is not in production.Samples may or may not be available.OBSOLETE:TI has discontinued the production of the device.(2)Eco Plan-The planned eco-friendly classification:Pb-Free(RoHS)or Green(RoHS&no Sb/Br)-please check /productcontent for the latest availability information and additional product content details.TBD:The Pb-Free/Green conversion plan has not been defined.Pb-Free(RoHS):TI's terms"Lead-Free"or"Pb-Free"mean semiconductor products that are compatible with the current RoHS requirements for all6substances,including the requirement that lead not exceed0.1%by weight in homogeneous materials.Where designed to be soldered at high temperatures,TI Pb-Free products are suitable for use in specified lead-free processes.Green(RoHS&no Sb/Br):TI defines"Green"to mean Pb-Free(RoHS compatible),and free of Bromine(Br)and Antimony(Sb)based flame retardants(Br or Sb do not exceed0.1%by weight in homogeneous material)(3)MSL,Peak Temp.--The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications,and peak solder temperature.Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it isprovided.TI bases its knowledge and belief on information provided by third parties,and makes no representation or warranty as to the accuracy of such information.Efforts are underway to better integrate information from third parties.TI has taken and continues to take reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals.TI and TI suppliers consider certain information to be proprietary,and thus CAS numbers and other limited information may not be available for release.In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s)at issue in this document sold by TI to Customer on an annual basis.IMPORTANT NOTICETexas Instruments Incorporated and its subsidiaries (TI) reserve the right to make corrections, modifications, enhancements, improvements, and other changes to its products and services at any time and to discontinue any product or service without notice. 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Major Ratings and Characteristics TO-203AB (DO-5)SCHOTTKY RECTIFIER60 Amp60HQ... SERIESBulletin PD-2.055 rev. E 11/0260HQ... Series2Bulletin PD-2.055 rev. E 11/02I F(AV)Max. Average Forward Current60A50% duty cycle @ T C = 118 °C, rectangular wave form * See Fig. 5I FSM Max. Peak One Cycle Non-Repetitive 84005µs Sine or 3µs Rect. pulse Surge Current * See Fig. 7120010ms Sine or 6ms Rect. pulseE AS Non-Repetitive A valanche E nergy 15mJ T J = 25 °C, I AS = 1 Amps, L = 30 mH I ARRepetitive A valanche C urrent1ACurrent decaying linearly to zero in 1 µsec Frequency limited by T J max. V A = 1.5 x V R typicalParameters60HQ UnitsConditionsAbsolute Maximum RatingsV FMMax. Forward Voltage Drop (1)0.89V @ 60A * See Fig. 11.09V @ 120A 0.70V @ 60A 0.84V @ 120A I RM Max. Reverse Leakage Current (1) 1.5mA T J = 25 °C * See Fig. 220mA T J = 125 °CC T Max. Junction Capacitance 1400pF V R = 5V DC , (test signal range 100Khz to 1Mhz) 25 °C L STypical Series Inductance7.5nH Measured from top of terminal to mounting planedv/dt Max. Voltage Rate of Change10000V/ µs(Rated V R )T J = 25 °C T J = 125 °C V R = rated V RElectrical SpecificationsParameters60HQUnitsConditions(1) Pulse Width < 300µs, Duty Cycle < 2%T J Max. Junction Temperature Range -65 to 175°C T stgMax. Storage Temperature Range-65 to 175°C R thJC Max. Thermal Resistance Junction0.83°C/W DC o peration * See Fig. 4to Case R thCS Typical Thermal Resistance, Case to0.25°C/WMounting surface , smooth and greasedHeatsink wt Approximate Weight 15 (0.53)g (oz.)TMounting T orque Min.23 (20)Non-lubricated t hreads Max.46 (40)Case S tyleDO-203AB(DO-5)JEDECKg-cm (Ibf-in)Thermal-Mechanical SpecificationsParameters60HQUnitsConditionsA Following any rated load condition andwith rated V RRM appliedPart number60HQ06060HQ08060HQ09060HQ100V RMax. DC Reverse Voltage (V)V RWM Max. Working Peak Reverse Voltage (V)608090100Voltage Ratings60HQ... Series360HQ... Series4Bulletin PD-2.055 rev. E 11/02Fig. 8 - Unclamped Inductive Test CircuitFig. 5 - Maximum Allowable Case Temperature Vs. Average Forward CurrentFig. 6 - Forward Power Loss CharacteristicsFig. 7 - Maximum Non-Repetitive Surge CurrentFREE-WHEEL DIODE 40HFL40S02CURRENT MONITORHIGH-SPEEDSWITCH IRFP460LDUT Rg = 25 ohmVd = 25 Volt+120130140150160170180020*********A l l o w a b l e C a s e T e m p e r a t u r e - (°C )F(AV)Average Forward Current - I (A)01020304050600102030405060708090A v e r a g e P o w e r L o s s - (W a t t s )F(AV)Average Forward Current - I (A)10001000010100100010000FS M pN o n -R e p e t i t i v e S u r g e C u r r e n t - I (A )Square Wave Pulse Duration - t (microsec)60HQ... Series5Data and specifications subject to change without notice.This product has been designed for Industrial Level.Qualification Standards can be found on IR's Web site.。