EUP3482ver0.2

500ns/DIV3482 TA01b23482faInput Voltage (V IN ) ....................................................16V V OUT1, SW Voltage . (48V)V OUT2, PUMP , MONIN, APD Voltage..........................90V FB Voltage ...................................................................5V SHDN, f SET , CTRL Voltage .........................................16V MON Voltage .............................................................12V Operating Temperature Range (Note 2) ....................................................–40°C to 85°C Maximum Junction Temperature ..........................125°C Storage Temperature Range ...................–65°C to 125°C(Note 1)The ● denotes the specifi cations which apply over the full operating temperature range, otherwise specifi cations are at T A = 25°C. V IN = 3V, V S H D N = 3V unless otherwise noted.PARAMETERCONDITIONSMIN TYP MAX UNITSMinimum Operating Voltage 2.5V Maximum Operating Voltage 16V Feedback Voltage CTRL = 1.5V● 1.2151.2001.235 1.2551.260V V Feedback Line Regulation 0.0250.07%/V FB Pin Bias Current ●30100nA Supply Current FB = 1.3V, Not SwitchingV S H D N = 0 3.30.1 4.00.5mA µA Switching Frequency f SET = 0V f SET = 2V 5801.06501.17501.3kHz MHz Maximum Duty Cycle f SET = 0V 95%Switch Current Limit 280360420mA Switch V CESATI SW = 150mA 130220mV Switch Leakage Current SW = 5V2µA Schottky Forward Voltage I SCHOTTKY = 150mA 880mV Schottky Reverse Leakage V OUT1 – SW = 50V5µA SHDN Voltage High1.5VELECTRICAL CHARACTERISTICSABSOLUTE AXI U RATI GSW W WU 161514135678TOP VIEW17UD PACKAGE16-LEAD (3mm × 3mm) PLASTIC QFN 91011124321NC APD MONIN V OUT2SHDN V IN GND GNDM O Nf S E TF BC T R LV O U T 1P U M PS WS W T JMAX = 125°C, θJA = 68°C/W, θJC = 4.2°C/WEXPOSED PAD (PIN 17) IS GND, MUST BE SOLDERED TO PCBPIN CONFIGURATIONLEAD FREE FINISH TAPE AND REEL PART MARKING*PACKAGE DESCRIPTIONTEMPERATURE RANGE LT3482EUD#PBF LT3482IUD#PBFLT3482EUD#TRPBF LT3482IUD#TRPBFLCFG LCFG16-Lead (3mm × 3mm) Plastic QFN 16-Lead (3mm × 3mm) Plastic QFN0°C to 85°C –40°C to 125°CConsult LTC Marketing for parts specifi ed with wider operating temperature ranges. *The temperature grade is identifi ed by a label on the shipping container.For more information on lead free parts, go to: /leadfree/ For more information on tape and reel specifi cations, go to: /tapeandreel/ORDER INFORMATION33482faNote 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 reli-ability and lifetime.PARAMETER CONDITIONSMINTYP MAX UNITSSHDN Voltage Low 0.4V SHDN Pin Bias Current 3550µA f SET Voltage High 1.5V f SET Voltage Low 0.4V f SET Bias Current f SET = 2V 2240µA CTRL to FB Offset CTRL = 0.5V●–5–10221015mV mVAPD Current Monitor Gain I APD = 250nA, 10V ≤ MONIN ≤ 90VI APD = 2.5mA, 20V ≤ MONIN ≤ 90V●●0.1800.1850.200.200.2150.215Monitor Output Voltage Clamp 11.5V APD Monitor Voltage Drop MONIN – APD at I APD = 1mA, MONIN = 90V 5V MONIN Pin Current LimitAPD = 0V, MONIN = 40V15mAThe ● denotes the specifi cations which apply over the full operating temperature range, otherwise specifi cations are at T A = 25°C. V IN = 3V, V S H D N = 3V unless otherwise noted.ELECTRICAL CHARACTERISTICSNote 2: The LT3482E is guaranteed to meet specifi ed performance from 0°C to 85°C. Specifi cations over the –40°C to 85°C operating temperature range are assured by design, characterization and correlation with statisti-cal process controls. The LT3482I is guaranteed to meet performance specifi cations over the –40°C to 125°C operating temperature range.UUUPI FU CTIO SAPD (Pin 2): Connect APD cathode to this pin. MONIN (Pin 3): Current Monitor Power Supply Pin. An external lowpass filter can be included here to further reduce supply voltage ripple.V OUT2 (Pin 4): Voltage Doubler Output Pin. Put a 50V rated capacitor between this pin and V OUT1. Tie a resistor divider to the FB pin and GND.V OUT1 (Pin 5): Boost Output Pin. Put a capacitor between this pin and the GND plane. Minimize the length of the trace to the capacitor.PUMP (Pin 6): Charge Pump Pin. Put a 50V rating bypass capacitor between SW and PUMP to form a complete volt-age doubler with the internal integrated Schottky diodes. Minimize trace length to the capacitor.SW (Pins 7, 8): Switch Pin. Minimize the trace length on this pin to reduce EMI.GND (Pins 9, 10): Ground. Pins connected internally. For best performance, connect both pins to board ground. V IN (Pin 11): Input Supply Pin. This pin must be locally bypassed.SHDN (Pin 12): Shutdown Pin. Tie to 1.5V or higher to enable device; 0.4V or less to disable device. This pin also functions as soft-start between 1.5V and 2V.CTRL (Pin 13): Internal Reference Override Pin. This allows the FB voltage to be externally set between 0V and 1.2V. Tie this pin higher than 1.5V to use the internal reference of 1.235V.FB (Pin 14): Feedback Pin. Connect the output resistor divider tap here.f SET (Pin 15): Oscillator Frequency Selection Pin. Tie this pin to above 1.5V or higher to select the higher switching frequency of 1.1MHz. For lower switching frequency, tie to GND.MON (Pin 16): Current Monitor Output Pin. It sources a current equal to 20% of the APD current and converts to a reference voltage through an external resistor. Exposed Pad (Pin 17): GND. This pin must be soldered to the PCB.53482fa500ns/DIV3482 TA03c3482faInformation 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 represen-tation that the interconnection of its circuits as described herein will not infringe on existing patent rights.Linear Technology Corporation1630 McCarthy Blvd., Milpitas, CA 95035-7417(408) 432-1900 ● FAX: (408) 434-0507 ● © LINEAR TECHNOLOGY CORPORA TION 2006LT 0207 REV A • PRINTED IN USA。

EUP10T-1HMC-0-350 (Product No.: 104100141201)SummaryProduct FeatureDimension(mm)EUP10T-1HMC-0-350 is a constant output mode LED driver. The output current can be easily set via DIP switch.The driver supports leading edge (Triac) and trailing edge (ELV) dimmer, and can be compatible with the systems of various brands (Philips, Panasonic,Lutron, Simon, ABB, Siemens,Dalitek etc.) to achieve a smooth dimming effect.ELV220VAC-240VAC 50/60Hz73%@230VAC, Full load Cold start, 28A(twidth=30us measured at 50% Ipeak@230VAC 0.12Amax@230VAC, Full load110*30*22mm(L*W*H)IP20-20℃~50℃-40℃~85℃, 20-90%RH 75℃PC 30,000h@tc:75℃25V Max ±5%<3%Triac>15,000 times1350mA/2-21VDC/7.35W 400mA/2-21VDC/8.4W 450mA/2-21VDC/9.45W 500mA/2-20VDC/10W550mA/2-18VDC/9.9W 600mA/2-16VDC/9.6W650mA/2-15VDC/9.75W 700mA/2-14VDC/9.8WEUP10T-1HMC-0-350TcLifetimeMaterialDimensionNet weight: 90g±5%/PCS; 100PCS/Carton; 7kg±5%/Carton; Carton Size: 51.7*23.7*142cm(L*W*H) Packing(weight)IP Rating Working Temp.Storage Temp.; Humidity Dimming Mode Switch Cycle 3 years Warranty Condition No Load Output Voltage Turn On Delay Time<1s, at 230Vac Efficiency Current Inrush Current Current/Voltage/Power Ripple CurrentChannel Current Tolerance Voltage FrequencyShort Circuit Over Load When the output voltage is exceeded, decreases and, recovers automatically when the load is reduced.Close output ，recovers automatically after fault removedOthersFunction ModelOutputInputProtectionTechnical Parameters·Single channel output, output current level selectable byDIP S.W.·Support Leading edge (Triac) and Trailing edge (ELV) dimmer ·Dimming range from 40VAC to 240VAC·Class 2 power supply. Full protective plastic housing ·Dimming effect smooth, no flicker ·Protections: Short circuit, over load·Suitable for indoor LED lighting application, such as down light, spot light, and so onApplicationDownlight Panel Light Flood LightSpotlight Ceiling Light Track Light Floor Light Decorative LightWiring DiagramAmbient Temperature(℃)L o a d (%)20406080100120-20-10102030405060Current Selection TableRemark: Function default setting is: 350mA (@switch are all OFF state)Dimming CurveDerating Curve※ The contents of this manual are updated without prior notice. If the function of the product you are using is inconsistent with the instructions, the function of the product shall prevail.Please contact us if you have anyquestions .LampCautions1.The product shall be installed and serviced by a qualified person.2.This product is non-waterproof. Please avoid the sun and rain. When installed outdoors please ensure it is mounted in a water proof enclosure.3.Good heat dissipation will prolong the working life of the controller. Please ensure good ventilation.4.Please check if the output voltage and current of any LED power supplies used comply with the requirement of the product.5.Please ensure that adequate sized cable is used from the controller to the LED lights to carry the current. Please also ensure that the cable is secured tightly in the connector.6.For safety consideration, PVC or rubber cord of 0.75-1.5mm2 is recommended for input and output terminal(s) . Flat power cord is not suitable. Ensure all wire connections and polarities are correct before applying power to avoid any damages to the LED lights.7.If a fault occurs please return the product to your supplier. Do not attempt to fix this product by yourself.0612182430374349556167737985919720406080100120Input(%)O u t p u t (%)。

Class II/Type 2/Type 1 CA Pluggable Multi-PoleDescriptionSurge protection devices (SPDs) provide equipment protection from transient overvoltage events lasting micro-seconds. By limiting the overvoltage to the equipment during these events, costly damage and downtime can be mitigated.The surge protection devices for the 4+0 configuration are available for 120 V to 480 V nominal voltage sub-distribution board applications.RCLegend L Line N Neutral Protective EarthRC Remote ContactsTD Thermal DisconnectionInternal ConfigurationFeatures & BenefitsModule & Base Ordering InformationCapability to clamp and withstand high-energy transients surge events and higher nominal discharge current to prevent disruption, downtime, and degradation or damage to equipment UL and VDE-IEC compliant in single part number One component can be utilized globally, reducing inventory needs and simplifying allocation of parts Interlocking tab mechanismSecures module to withstand vibration No additionalovercurrent protection devices required in UL applicationsReduces the number of components and costs required for protectionCompact footprint I ncreases panel design flexibilityVisual life indicatorQuick visual determines module replacement status to avoid loss of protectionPluggable modules Fast and simple to replace, minimizing maintenance and downtime. No tools required Thermal protection Eliminates catastrophic failureIP20 protection ratingFinger-safe design increases worker protectionPluggable RC ConnectorReplacement Module Ordering InformationDisclaimer Notice – Information furnished is believed to be accurate and reliable. However, users should independently evaluate the suitability of and test each product selected for their own applications. Littelfuse products are not designed for, and may not be used in, all applications. Read complete Disclaimer Notice at /product-disclaimer.Thermal Protection YesOperating State/Fault Indica tionGreen Flag/No Green FlagRemote Contact Switching Ca pa city AC: 250 V/1 A, 125 V/1 A;DC: 48 V/0.5 A, 24 V/0.5 A, 12 V/0.5 A Remote Contact Conductor Cross Section (max) 1.5 mm 2 (16 AWG) (Solid)Standards Passed* IEC 61643-11:2011 EN 61643-11:2012UL 1449, 4th editionProduct Dimensions 4TE Module and Base H 90.0 mm (3.54”); W 72.0 mm (2.84”);D 70.0 mm (2.76”)1TE Replacement Module H 45.0 mm (1.77”); W 18.0 mm (0.71”);D 57.2mm (2.25”)Package Dimensions 4TE Module and Base H 102.0 mm (4.01”); W 82.0 mm (3.23”);D 110.0 mm (4.33”)1TE Replacement Module H 102.0 mm (4.01”); W 28.0 mm (1.10”);D 110.0 mm (4.33”)SpecificationsNetwork Systems TN-S Mode of Protection L-PE, N-PE Nominal Discharge Current (8/20 µs) (I n ) 20 kA Maximum Discharge Current (8/20 µs) (I max ) Up to 50 kA Protective Elements High Energy MOV Response Time (t A ) < 25 ns Back-Up Fuse (max) 315 A / 250 A Gg Number of Ports 1Mechanical & Environmental Operating Temperature Range (T a ) -40 °C to +80 °C (-40 °F to +185 °F)Permissible Operating Humidity (RH) 5% to 95%Altitude (max) 4,000 m (13,123 ft)Terminal Screw Torque (M max ) 4.5 Nm (39.9 lbf-in)Conductor Cross Section (max) 35 mm² (2 AWG) (Solid, Stranded)/ 25 mm 2 (4 AWG) (Flexible)Mounting 35 mm DIN Rail, EN60715Degree of Protection IP20 (built-in)Housing Material Thermoplastic: Extinguishing Degree UL 94 V-0*SPD2-550-4P0-R and SPD2-550-M are UL Listed onlyWarranty – Visit /warranty for details.Module & Base Part Numbering SystemModule Only Part Numbering SystemSPD2 VVV MModule OnlySeriesMaximum Continuous Operating AC VoltageSPD2 VVV XPZ RModule & Base SeriesNeutralNumber of PolesMaximum Continuous Operating AC Voltage(1=yes or 0=no)。

Typical Applications The MAX3483E/MAX3485E/MAX3486E/MAX3488E/MAX3490E/MAX3491E transceivers are designed for bidirectional data communications on multipoint bus transmission lines. Figures 24 and 25 show typical net-work applications circuits. These parts can also be used as line repeaters, with cable lengths longer than 4000 feet, as shown in Figure 21.To minimize reflections, the line should be terminated at both ends in its characteristic impedance, and stublengths off the main line should be kept as short as possible. The slew-rate-limited MAX3483E/MAX3488E and the partially slew-rate-limited MAX3486E are more tolerant of imperfect termination.Figure 22a. Human Body ESD Test ModelFigure 22b. Human Body Current Waveform Figure 23b. IEC 1000-4-2 ESD Generator Current WaveformFigure 23a. IEC 1000-4-2 ESD Test ModelThe air-gap test involves approaching the device with a charged probe. The contact-discharge method connects the probe to the device before the probe is energized.Machine ModelThe Machine Model for ESD tests all pins using a 200pF storage capacitor and zero discharge resistance. Its objective is to emulate the stress caused when I/O pins are contacted by handling equipment during test and assembly. Of course, all pins require this protection, not just RS-485 inputs and outputs.~MAX3483E/MAX3485E/MAX3486E/MAX3488E/MAX3490E/MAX3491E3.3V-Powered, ±15kV ESD-Protected, 12Mbps and Slew-Rate-Limited True RS-485/RS-422 TransceiversFigure 24. MAX3483E/MAX3485E/MAX3486E Typical RS-485 NetworkFigure 25. MAX3488E/MAX3490E/MAX3491E Full-Duplex RS-485 NetworkMAX3483E/MAX3485E/MAX3486E/MAX3488E/MAX3490E/MAX3491E3.3V-Powered, ±15kV ESD-Protected, 12Mbps and Slew-Rate-Limited True RS-485/RS-422 Transceivers。

HPMLDL系列服务器hpML系列服务器HP ProLiant ML110G7(C8R00A)参数规格差不多参数产品类型工作组级产品类别塔式产品结构4U处理器CPU类型奔腾双核CPU型号奔腾双核G860CPU频率3GHzHP ProLiant ML330 G6(600911-AA1)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强5600CPU型号Xeon E5620CPU频率 2.4GHz智能加速主2.666GHz频标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存12MB总线规格QPI 5.86GT/sCPU核心四核HP ProLiant ML330 G6(B9D22A)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强5600 CPU型号Xeon E5606CPU频率 2.13GHz标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存8MB总线规格QPI 4.8GT/sHP ProLiant ML330 G6(600911-AA1)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强5600CPU型号Xeon E5620CPU频率 2.4GHz智能加速主2.666GHz频标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存12MB总线规格QPI 5.86GT/sCPU核心四核HP ProLiant ML350 G6(638180-AA1)参数规格差不多参数产品类别塔式产品结构5U处理器CPU类型Intel 至强5600CPU型号Xeon E5606CPU频率 2.13GHz标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存8MB总线规格QPI 4.8GT/sCPU核心四核CPU线程四线程数主板HP ProLiant ML350 G6(600431-AA5)参数规格差不多参数产品类别塔式产品结构5U处理器CPU类型Intel 至强5600CPU型号Xeon E5620CPU频率 2.4GHz智能加速主2.666GHz频标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存12MB总线规格QPI 5.86GT/sCPU核心四核CPU线程八线程数HP ProLiant ML350 G6(594869-AA1)参数规格差不多参数产品类别塔式产品结构5U处理器CPU类型Intel 至强5600CPU型号Xeon E5620CPU频率 2.4GHz智能加速主2.666GHz频标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存12MB总线规格QPI 5.86GT/sCPU核心四核CPU线程八线程数HP ProLiant ML310e Gen8(686146-AA5)参数规格差不多参数产品类型企业级产品类别塔式产品结构4U处理器CPU类型Intel 至强E3-1200 v2 CPU型号Xeon E3-1220 v2CPU频率 3.1GHz标配CPU1颗数量最大CPU4颗数量制程工艺22nm三级缓存8MB总线规格DMI 5GT/sHP ProLiant ML310e Gen8(686147-AA5)参数规格差不多参数产品类型企业级产品类别塔式产品结构4U处理器CPU类型Intel 至强E3-1200 v2 CPU型号Xeon E3-1240 v2CPU频率 3.4GHz智能加速主3.8GHz频标配CPU1颗数量最大CPU4颗数量制程工艺22nm三级缓存8MBHP ProLiant ML350e Gen8(C3Q10A)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强E5-2400 CPU型号Xeon E5-2403CPU频率 1.8GHz标配CPU1颗数量最大CPU4颗数量制程工艺32nm三级缓存10MB总线规格QPI 6.4GT/sHP ProLiant ML350e Gen8(C3Q08A)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强E5-2400 CPU型号Xeon E5-2407CPU频率 2.2GHz标配CPU1颗数量最大CPU4颗数量制程工艺32nm三级缓存10MB总线规格QPI 6.4GT/sHP ProLiant ML350e Gen8(C3Q09A)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强E5-2400 CPU型号Xeon E5-2420CPU频率 1.9GHz标配CPU1颗数量最大CPU4颗数量制程工艺32nm三级缓存15MB总线规格QPI 6.4GT/sHP ProLiant ML350e Gen8(C3F91A)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强E5-2400 CPU型号Xeon E5-2430CPU频率 2.2GHz标配CPU1颗数量最大CPU4颗数量制程工艺32nm三级缓存15MB总线规格QPI 6.4GT/sHP ProLiant ML350p Gen8(646675-AA1)参数规格差不多参数产品类别塔式产品结构5U处理器CPU类型Intel 至强E5-2600 CPU型号Xeon E5-2609CPU频率 2.4GHz标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存10MB总线规格QPI 6.4GT/sHP ProLiant ML350p Gen8(668271-AA5)参数规格差不多参数产品类别塔式产品结构5U处理器CPU类型Intel 至强E5-2600 CPU型号Xeon E5-2620CPU频率2GHz智能加速主2.5GHz频标配CPU1颗数量最大CPU2颗数量制程工艺32nm。

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

DESCRIPTIONThe EUP3482 is a synchronous current mode buck regulator capable of driving 2A continuous load current with excellent line and load regulation. The EUP3482 can operate with an input range 4.5V to 30V and the output can be externally set from 0.923V to 12V with a resistor divider. Fault condition protection includes cycle-by-cycle current limiting and thermal shutdown. In shutdown mode the regulator draws 1µA of supply current. Programmable soft-start minimizes the inrush supply current and the output overshoot at initial startup. The EUP3482 require a minimum number of external components.Typical Application CircuitFEATURESz 2A Output Currentz 35V Input Surge Protectionz Integrated 175m Ω/125m Ω DMOS Switches z 4.5V to 30V Input Operating Range z Output Adjustable from 0.923V to 12V z Up to 93% Efficiency z 1µA Shutdown Current z Fixed 340KHz Frequency z Programmable Soft-Startz Thermal Shutdown and Overcurrent Protection z Input Supply Overvoltage and Undervoltage Lockoutz Available in SOP-8 PackagezRoHS Compliant and 100% Lead(Pb)-Free Halogen-FreeAPPLICATIONSz Distributed Power Systems z Networking Systems z PC MonitorszPortable ElectronicsFigure 1. 12V to 3.3V/5V Application CircuitTypical Application Circuit (continued)Figure2. 24V to 3.3V/5V application circuitPin ConfigurationsPackage TypePin ConfigurationsSOP-8Pin DescriptionPIN PINDESCRIPTION1 BSHigh-Side Gate Drive Boost Input. BS supplies the drive for the high-side N-Channel DMOSswitch. Connect a 0.01µF or greater capacitor from SW to BS to power the high side switch.2 INInput Supply Pin. IN supplies the power to the IC, as well as the step-down converter switches. Drive IN with a 4. 5V to 30V power source. Bypass IN to GND with a suitably large capacitor to minimize input ripple to the IC. See Input Capacitor Section of the applications notes. 3 SWPower Switching Output. Connect the output LC filter from SW to the output load. 4 GNDGround. 5 FBOutput Feedback Input. FB senses the output voltage and regulates it. Drive FB with a resistive voltage divider connected to it from the output voltage. The feedback threshold is 0.923V. See Setting the Output Voltage .6 COMPLoop compensation Input. Connect a series RC network from COMP to GND to compensate theregulation control loop. See Compensation.7 ENEnable Input. EN is a logic input that controls the regulator on or off. Drive EN high to turn on the regulator; low to turn it off. Don’t leave EN pin floating. Directly connect EN to IN (or through a resistance) for automatic startup.8 SSSoft-Start Control Input. Connect an external capacitor to program the soft-start. If unused, leave itopen, which means internal soft-start function.Ordering InformationOrder Number Package Type Marking Operating Temperature RangeEUP3482DIR1SOP-8xxxxxP3482-40 °C to +85°CEUP3482Lead Free Code1: Lead Free, Halogen-Free 0: LeadPackingR: Tape & ReelOperating temperature rangeI: Industry StandardPackage TypeD: SOPBlock DiagramFigure 3.Functional Block DiagramAbsolute Maximum Ratings (1)Supply Voltage (V IN) -------------------------------------------------------- -0.3V to +35VEnable Voltage (V EN) ------------------------------------------------------ -0.3V to +35VSwitch V oltages (V SW) ------------------------------------------------------ -1V to V IN +0.3VBoot Voltage (V BS) -------------------------------------------------- V SW -0.3V to V SW +6VAll Other Pins ---------------------------------------------------------------------- -0.3V to +6VJunction Temperature -------------------------------------------------------------------- 150°CLead Temperature -------------------------------------------------------------- 260°CStorage Temperature ---------------------------------------------------------65°C to +150°COutput Voltage V OUT -----------------------------------------------------------0.923V to 12VThermal Resistance θJA (SOP) --------------------------------------------------------------- 104.5°C /WRecommend Operating Conditions (2)Input V oltage V IN --------------------------------------------------------------------- 4.5V to 30VAmbient Operating Temp ------------------------------------------------------40°C to +85°CNote(1):Stress beyond those listed under “Absolute Maximum Ratings” may damage the device.Note(2):The device is not guaranteed to function outside the recommended operating conditions.Electrical CharacteristicsThe ●denote specifications which apply over the full operating temperature range, otherwise specification areVIN=12V , TA=25°C unless otherwise specified.EUP3482Parameter ConditionsUnitMin Typ Max.51µA=0VShutdown Supply Current V EN0.45mA0.9Supply Current V FB=1V0.905 0.923 0.941Feedback V oltage 4.5≤V IN≤30V ●0.895 0.923 0.951 VError Amplifier V oltage Gain 360 V/VµA/VError Amplifier Transconductance ∆I C = ±10µA800High-Side Switch On-Resistance 175 mΩLow-Side Switch On-Resistance 125 mΩµAHigh-Side Switch Leakage Current V EN=0V, V SW=0V 5Upper Switch Current Limit Minimum Duty Cycle 2.5 3.5 ALower Switch Current Limit From Drain to Source 1.1 ACOMP to Current Sense Transconductance 7.5 A/VFrequency 300 340 380 KHzOscillationKHz110Short Circuit Oscillation Frequency V FB=0VMaximum Duty Cycle V=0.7V 90 %FB0.62 1.1 1.52VEN Threshold●0.36 1.1 1.762.3 2.5 2.8VEN Lockout Threshold V EN Rising● 2 2.5 3EN Lockout Threshold Hysteresis 120 mVInput Under V oltage Lockout Threshold V IN Rising 3.8 4.1 4.4 VInput Over V oltage Lockout Threshold V IN Rising 35 VInput Over V oltage Lockout Threshold2 VHysteresis=0V 6 µASoft-Start Current V SSThermal Shutdown 160 °CAAAFunctional DescriptionThe EUP3482 regulates input voltages from 4.5V to 30V down to an output voltage as low as 0.923V , and supplies up to 2A of load current. The EUP3482 uses current-mode control to regulate the output voltage. The output voltage is measured at FB through a resistive voltage divider and amplified through the internal transconductance error amplifier. The voltage at the COMP pin is compared to the switch current (measured internally) to control the output voltage. The converter uses internal N-Channel MOSFET switches to step-down the input voltage to the regulated output voltage. Since the high side MOSFET requires agate voltage greater than the input voltage, a boost capacitor connected between SW and BS is needed to drive the high side gate. The boost capacitor is charged from the internal 5V rail when SW is low. When the FB pin voltage exceeds 15% of the nominal regulation value of 0.923V , the over voltage comparator is tripped and forcing the high-side switchoff.Application Information Setting the Output Voltage The output voltage is set using a resistive voltage divider connected from the output voltage to FB. The voltage divider divides the output voltage down to the feedback voltage by the ratio: Thus the output voltage is: R3 can be as high as 100k Ω, but a typical value is 10k Ω. Using the typical value for R3, R2 is determined by:For example, for a 3.3V output voltage, R3 is 10k Ω and R2 is 25.75k Ω. Table1 lists recommended resistance values of R2 and R3 for standard output voltages. VOUT R2 R3 1.8V 9.5k Ω 10k Ω 2.5V 17.09k Ω 10k Ω 3.3V 25.75k Ω 10k Ω 5V 44.17k Ω 10k Ω 12V 120.01k Ω 10k Ω Table 1. InductorThe inductor is required to supply constant current to the load while being driven by the switched input voltage. A larger value inductor will result in less ripple current that will in turn result in lower output ripple voltage. However, the larger value inductor will have a larger physical size, higher series resistance, and/or lower saturation current. A good rule for determining inductance is to allow the peak-to-peak ripple current to be approximately 30% of the maximum switch current limit. Also, make sure that the peak inductor current is below the maximum switch current limit. The inductance value can be calculated by:Where V OUT is the output voltage, V IN is the input voltage, f S is the switching frequency, and ∆I L is the peak-to-peak inductor ripple current. Choose an inductor that will not saturate under themaximum inductor peak current, calculated by:Where I LOAD is the load current. The choice of which style inductor to use mainly depends on the price vs. size requirements and anyEMI constraints. Optional Schottky DiodeDuring the transition between the high-side switch and low-side switch, the body diode of the low-side powerMOSFET conducts the inductor current. The forward voltage of this body diode may be high and cause efficiency loss. An optional small 1A Schottky diode B130 in parallel with low-side switch is recommendedto improve overall efficiency when input voltage is higher. Input Capacitor The input current to the step-down converter is discontinuous, therefore a capacitor is required to supply the AC current while maintaining the DC input voltage. Use low ESR capacitors for the bestperformance. Ceramic capacitors are preferred, but tantalum or low-ESR electrolytic capacitors will also suffice. Choose X5R or X7R dielectrics when using ceramic capacitors. Since the input capacitor (C1) absorbs the input switching current, it requires an adequate ripple currentrating. The RMS current in the input capacitor can beestimated by:R3R2R3OUTV FB V +=3R 3R 2R 923.0OUT V +∗=()923.0OUT V 83.102R −∗=()Ωk−∗∗∗+=IN V OUT V 1L S f 2OUT VLOAD I LP I−∗∆∗=IN V OUT V 1L I S f OUT V L−∗∗=IN V OUT V 1IN V OUT V LOAD I 1C IThe worst-case condition occurs at V IN = 2V OUT , where I C1 = I LOAD /2. For simplification, use an input capacitor with a RMS current rating greater than half of the maximum load current.The input capacitor can be electrolytic, tantalum or ceramic. When using electrolytic or tantalum capacitors, a small, high quality ceramic capacitor, i.e. 0.1µF, should be placed as close to the IC as possible. When using ceramic capacitors, make sure that they have enough capacitance to provide sufficient charge to prevent excessive voltage ripple at input. The input voltage ripple for low ESR capacitors can be estimated by:Where C1 is the input capacitance value.For simplification, choose the input capacitor whose RMS current rating greater than half of the maximum load current. Output CapacitorThe output capacitor (C2) is required to maintain the DC output voltage. Ceramic, tantalum, or low ESR electrolytic capacitors are recommended. Low ESR capacitors are preferred to keep the output voltage ripple low. The output voltage ripple can be estimated by:Where C2 is the output capacitance value and R ESR is the equivalent series resistance (ESR) value of the output capacitor.When using ceramic capacitors, the impedance at the switching frequency is dominated by the capacitance which is the main cause for the output voltage ripple. For simplification, the output voltage ripple can be estimated by:When using tantalum or electrolytic capacitors, the ESR dominates the impedance at the switching frequency. For simplification, the output ripple can be approximated to:The characteristics of the output capacitor also affect the stability of the regulation system. The EUP3482 can be optimized for a wide range of capacitance and ESR values.Compensation ComponentsEUP3482 employs current mode control for easy compensation and fast transient response. The system stability and transient response are controlled through the COMP pin. COMP is the output of the internal transconductance error amplifier. A series capacitor- resistor combination sets a pole-zero combination to govern the characteristics of the control system.The DC gain of the voltage feedback loop is given by:Where V FB is the feedback voltage (0.923V), A VEA is the error amplifier voltage gain, G CS is the current sense transconductance and R LOAD is the load resistor value.The system has two poles of importance. One is due to the compensation capacitor (C3) and the output resistor of the error amplifier, and the other is due to the output capacitor and the load resistor. These poles are located at:Where G EA is the error amplifier transconductance.The system has one zero of importance, due to the compensation capacitor (C3) and the compensation resistor (R1). This zero is located at:The system may have another zero of importance, if the output capacitor has a large capacitance and/or a high ESR value. The zero, due to the ESR and capacitance of the output capacitor, is located at:In this case, a third pole set by the compensation capacitor (C4) and the compensation resistor (R1) is used to compensate the effect of the ESR zero on the loop gain. This pole is located at:OUT V FB V EA A CS G LOAD R VDC A ∗∗∗=VEA A C32πEA G P1f ∗∗=LOADR C22π1P2f ∗∗=R1C32π1Z1f ∗∗=ESRR C221ESR f ∗∗π=R1C421P3f ∗∗π=−∗∗∗=V IN V OUT 1V IN V OUT Sf 1C LOAD I IN ∆V∗∗+∗−∗∗=C2S f 81ESR R IN V OUT V 1L S f OUT V OUT ∆V−∗∗∗∗=∆IN V OUT V 12C L 2S f 8OUT V OUT V ESR R IN V OUT V 1L S f OUT V OUT V ∗−∗∗=∆The goal of compensation design is to shape theconverter transfer function to get a desired loop gain. The system crossover frequency where the feedback loop has the unity gain is important. Lower crossover frequencies result in slower line and load transient responses, while higher crossover frequencies could cause the system instability. A good standard is to set the crossover frequency below one-tenth of the switching frequency.To optimize the compensation components, the following procedure can be used:1. Choose the compensation resistor (R1) to set thedesired crossover frequency.Determine R3 by the following equation:Where f C is the desired crossover frequency, which is typically below one tenth of the switching frequency.2. Choose the compensation capacitor (C3) to achieve the desired phase margin. For applications with typical inductor values, setting the compensation zero (f Z1) below one-forth of the crossover frequency provides sufficient phase margin. Determine C3 by the following equation:Where R1 is the compensation resistor.3. Determine if the second compensation capacitor (C4) is required. It is required if the ESR zero of the output capacitor is located at less than half ofthe switching frequency, or the following relationship is valid:If this is the case, then add the second compensation capacitor (C4) to set the pole f P3 at the location of the ESR zero. Determine C4 by the equation:External Bootstrap DiodeIt is recommended that an external bootstrap diode be added when the system has a 5V fixed input or the power supply generates a 5V output. This helps improve the efficiency of the regulator.Figure 4. Add Optional External Bootstrap Diodeto Enhance This diode is also recommended for high duty cycle operation ( when >65% ) and high outputvoltage (V OUT >12V) applications.INV OUT VCf 1R 243C ∗∗π>2Sf ESR R 2C 21<∗∗π1R ESR RC24C ∗=FBV OUTV CSG EA G S f 1.02C 2FB V OUTVCS G EA G Cf 2C 21R ∗∗∗∗∗π<∗∗∗∗π=EUP3482 DS3482 Ver1.0 Oct. 200911Packaging InformationSOP-8MILLIMETERS INCHESSYMBOLS MIN. MAX. MIN. MAX.A 1.35 1.75 0.053 0.069A1 0.10 0.25 0.004 0.010D 4.90 0.193E 5.80 6.20 0.228 0.244E1 3.90 0.153L 0.40 1.27 0.016 0.050b 0.31 0.51 0.012 0.020e 1.270.050。

压力容器用钢焊材一览表类型牌号中国 GB美国 AWS 碳THJ422E4303—钢THJ426E4316E6016焊THJ427E4315E6015条THJ506E5016E7016THJ507E5015E7015THJ506R E5016-G E7016-GTHJ507RH E5015-G E7015-GTHJ557R E5MoV-15—低THJ606E6016-D1E9016-D1合金THJ607E6015-D1E9015-D1钢THW707Ni E5515-C1—焊THR207E5515-B1E8015-B1条THR307E5515-B2E8015-B2THR317E5515-B2-V—THR407E6015-B3—THR507E5MoV-15—类型不锈钢焊条气保护实芯焊丝牌号中国 GB美国 AWSTHA002E308L-16E308L-16THA022E316L-16E316L-16THA102E308-16E308-16THA107E308-15E308-15THA132E347-16E347-16THA137E347-15E347-15THA202E316-16E316-16THA207E316-15E316-15THA212E318-16E318-16THA242E317-16E317-16THA302E309-16E309-16THA307E309-15E309-15THG202E410-16E410-16———THQ-G2Si EN440 G38 4MG2SiTHQ-50CG4EN440 G38 3CG4Si1型号牌号GBTHT49-1ER49-1THT-10MnSi ER50-GTHT50-6ER50-6（ TIG-J50 ）THT55-B2ER55-B2 THT55-B2V ER55-GTHT-307H09Cr21Ni9Mn4Mo THS-307THT-307SiH10Cr21Ni10Mn6Si1 THS-307SiTHT-308H08Cr21Ni10Si THS-308THT-308LH03Cr21Ni10Si THS-308LTHT-308LSiH03Cr21Ni10Si1 THS-308LSiTHT-309H12Cr24Ni13Si THS-309THT-309MoH12Cr24Ni13Mo2 THS-309MoTHT-309LH03Cr24Ni13Si THS-309L类别碳钢焊丝珠光体耐热钢焊丝不锈钢焊丝氩弧焊焊丝主要用途用于船舶、石化、核电话等高压管的对接及角焊用于薄板及打底焊接结构用于管道、平板等需作抛光度准确时的焊接用于工作温度550℃以下的锅炉受热面管子蒸汽管道，高压容器，石油精练设备结构的焊接用于工作温度550℃以下的锅炉受热面管子蒸汽管道，高压容器，石油精练设备结构的焊接用于防弹钢、覆面不锈钢及碳钢异材的焊接用于高锰钢、硬化性耐磨钢及非磁性钢的焊接用于 308、 301、304 等不锈钢结构的焊接用于 304L 、 308L 等不锈钢结构的焊接用于改善填充金属的工艺性、焊接操作性及流动性用于异种钢的焊接，如碳钢、低合金钢与不锈钢的焊接用于 Cr22Ni12Mo2复合钢以及异种钢的焊接用于 309S、 1Cr13、 1Cr17、低碳不锈钢、低碳覆面钢以及异种钢的焊接THT-309LSi用于 309 型不锈钢以及 304 型不锈钢与碳钢的焊接H03Cr24Ni13Si1THS-309LSiTHT-309LMo用于异种钢的焊接或韧性较差的马氏体、铁素体不锈钢的焊接H03Cr24Ni13Mo2THS-309LMoTHT-310用于高温条件下工作的耐热钢以及1Cr5Mo 、 1Cr13 等不能进行预热及后热处理的焊接H12Cr26Ni21SiTHS-310THT-312用于异种母材不锈钢覆面、硬化性低合金钢以及焊接困难或易发生气孔情况的焊接H15Cr30Ni9THS-312THT-316用于磷酸、亚硫酸、醋酸及盐类腐蚀介质结构的焊接H08Cr19Ni12Mo2SiTHS-316THT-316L用于尿素、合成纤维等结构及不能进行热处理的铬不锈钢及复合钢的焊接H03Cr19Ni12Mo2SiTHS-316LTHT-316LSi用于相同类型不锈钢以及复合钢结构的焊接H03Cr19Ni12Mo2Si1THS-316LSiTHT-317用于重要的耐腐蚀化工容器的焊接H08Cr19Ni14Mo3THS-317THT-317L用于重要的耐腐蚀化工容器的焊接H03Cr19Ni14Mo3THS-317LTHT-321用于 304、 321、347 型不锈钢以及耐热钢的焊接H08Cr19Ni10TiTHS-321THT-347用于 304、 321、347 型不锈钢以及耐热钢的焊接H08Cr20Ni10NbTHS-347THT-410用于 410、 420 型不锈钢以及耐蚀耐磨表面的堆焊H12Cr13THS-410THT-420用于 Cr13 马氏体不锈钢耐腐蚀性材料的堆焊H31Cr13THS-420THT-430用于腐蚀（硝酸）、耐热同类型不锈钢表面堆焊H10Cr17THS-430THT-2209用于含 Cr22% 双相不绣钢的焊接H03Cr22Ni8Mo3NTHS-2209碳钢焊条熔敷金属化学成分（%）（≤）熔敷金属力学性能（≥）型号牌号GB C Mn Si S P其余Rel/RP0.2Rm A AKVMPa MPa%JJ421E43130.100.32/0.300.0300.035—355440/220℃0.5557047THJ421X E43130.100.32/0.300.0350.040—330420170℃0.5527THJ421Fe18E43240.120.30/0.350.0350.040—330420170℃0.6047THJ422E43030.100.32/0.250.0350.040330420220℃—0.5527THJ422GM E43030.100.32/0.250.0350.040330420220℃—0.5527THJ423E43010.100.32/0.300.0350.040—33042022-20℃0.5527THJ425X E43100.200.32/0.300.0350.040—33042022-30℃E43110.6027THJ426E43160.10 1.250.900.0350.040—33042022-30℃特点与用途焊接低碳钢结构，特别适用于薄板小件及短焊缝的间断焊和盖面焊。

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1ACopeland is the recognized leader in the developmentof advanced compressor technology.1B2APERFORMANCE NOMINALS 50 HERTZR22SINGLE PHASE220-1-50 TEST VOLTAGE CAPACITYENERGY EFFICIENCY RATING RATING MOTOR MODEL AMPERES BTUKCAL BTUH KCALHWATTS CONDITION WATTS WATTS HOUR HOUR MOTOR WATTS MOTOR WATTS MOTOR WATTSA 183004610536017308.010.6 2.7 3.1ZR22K3-PFJB 182004590533017308.010.5 2.7 3.1C 21500542063001190 5.718.1 4.6 5.3A 204005140598019209.210.6 2.7 3.1ZR24K3-PFJB 202005090592019209.210.5 2.7 3.1C 24200610070901310 6.318.5 4.7 5.4A 219005520642020109.510.9 2.7 3.2ZR26K3-PFJB 217005470636020109.510.8 2.7 3.2C 25800650075601400 6.818.4 4.6 5.4A 2380060006970219010.410.9 2.7 3.2ZR28K3-PFJB 2360059506910219010.410.8 2.7 3.2C 282007110826015107.418.7 4.7 5.5A 2540064007440233011.110.9 2.7 3.2ZR30K3-PFJB 2520063507380233011.110.8 2.7 3.2C 302007610885016307.918.5 4.7 5.4A 2670067307820243011.811.0 2.8 3.2ZR32K3-PFJB 2650066807760243011.810.9 2.7 3.2C 315007940923017008.718.5 4.7 5.4A 2830071308290254012.111.1 2.8 3.3ZR34K3-PFJB 2810070808230255012.111.0 2.8 3.2C 333008390976017308.519.2 4.8 5.6A 3040076608910271013.111.2 2.8 3.3ZR36K3-PFJB 3020076108850272013.111.1 2.8 3.3C 3600090701050018709.419.3 4.9 5.6A 3360084709840299014.711.2 2.8 3.3ZR40K3-PFJB 3330083909760300014.711.1 2.8 3.2C 39400993011500207010.819.0 4.8 5.6A 35300890010300314015.211.2 2.8 3.3ZR42K3-PFJB 35000882010300315015.211.1 2.8 3.3C 415001050012200216010.919.2 4.9 5.6A 38500970011300337016.411.4 2.9 3.4ZR45K3-PFJB 38200963011200338016.411.3 2.8 3.3C 450001130013200237012.119.0 4.8 5.6A 397001000011600345016.811.5 2.9 3.4ZR47K3-PFJB 39400993011500346016.811.4 2.9 3.3C 465001170013600242012.619.2 4.8 5.6A 408001030012000362017.611.3 2.8 3.3ZR48K3-PFJB 405001020011900363017.611.2 2.8 3.3C 478001200014000252013.519.0 4.8 5.6A 575001450016800512024.511.2 2.8 3.3ZR68KC-PFJ B 570001440016700513024.511.1 2.8 3.3C673001700019700367018.218.3 4.6 5.43BPERFORMANCE NOMINALS 50 HERTZR22THREE PHASETEST VOLTAGE CAPACITYENERGY EFFICIENCY RATING RATING MOTOR MODEL AMPERES*BTUKCAL BTUH KCALHWATTS CONDITION WATTS WATTS HOUR HOUR MOTOR WATTS MOTOR WATTS MOTOR WATTSA 18300461053601770 5.5/3.210.3 2.6 3.0ZR22K3-TF5/D B18200459053301770 5.5/3.210.3 2.6 3.0C21500542063001170 4.3/2.518.4 4.6 5.4A20400514059801920 6.0/3.510.6 2.7 3.1ZR24K3-TF5/D B20200509059201920 6.0/3.510.5 2.7 3.1C24200610070901250 4.7/2.719.4 4.9 5.7A21900552064202010 6.6/3.810.9 2.7 3.2ZR26K3-TF5/D B21700547063602010 6.6/3.810.8 2.7 3.2C25800650075601360 5.0/2.919.0 4.8 5.6A23800600069702150 6.9/4.011.1 2.8 3.2ZR28K3-TF5/D B23600595069102150 6.9/4.011.0 2.8 3.2C28200711082601450 5.4/3.119.4 4.9 5.7A254006400744022907.3/4.211.1 2.8 3.2ZR30K3-TF5/D B252006350738022907.3/4.211.0 2.8 3.2C30200761088501540 5.5/3.219.6 4.9 5.7A267006730782024307.6/4.411.0 2.8 3.2ZR32K3-TF5/D B265006680776024307.6/4.410.9 2.7 3.2C31500794092301640 5.9/3.419.2 4.8 5.6A283007130829025007.9/4.611.3 2.9 3.3ZR34K3-TF5/D B281007080823025007.9/4.611.2 2.8 3.3C33400842097901700 6.2/3.619.6 5.0 5.8A304007660891026908.3/4.811.3 2.8 3.3ZR36K3-TF5/D B302007610885027008.3/4.811.2 2.8 3.3C360009070105001810 6.4/3.719.9 5.0 5.8A336008470984029609.2/5.311.4 2.9 3.3ZR40K3-TF5/D B333008390976029709.2/5.311.2 2.8 3.3C3940099301150019907.1/4.119.8 5.0 5.8A3530089001030031009.5/5.511.4 2.9 3.3ZR42K3-TF5/DB3500088201030031109.5/5.511.3 2.8 3.3C 41500105001220020807.4/4.320.0 5.0 5.9*Ampere values shown are at 220 volts/380 volts.220-3-50 (TF5)380-3-50 (TFD)4A4BPERFORMANCE NOMINALS50 HERTZ R22THREE PHASE TEST VOLTAGECAPACITY ENERGY EFFICIENCY RATINGRATING MOTORMODEL AMPERES*BTU KCAL BTUH KCALH WATTS CONDITION WATTSWATTSHOUR HOUR MOTOR WATTS MOTOR WATTS MOTOR WATTS A38200963011200331010.5/6.111.5 2.9 3.4ZR45KC-TF5/D B37900955011100332010.5/6.111.4 2.9 3.3 C44500112001300022908.3/4.819.4 4.9 5.7A397001000011600342010.9/6.311.6 2.9 3.4ZR47KC-TF5/D B39400993011500343010.9/6.311.5 2.9 3.4 C46300117001360023408.8/5.119.8 5.0 5.8A408001030012000360011.2/6.511.3 2.9 3.3ZR48KC-TF5/D B405001020011900361011.2/6.511.2 2.8 3.3 C47800120001400024908.6/5.019.2 4.8 5.6A454001140013300397012.6/7.311.4 2.9 3.4ZR54KC-TF5/D B450001130013200398012.6/7.311.3 2.8 3.3 C530001340015500282010.0/5.818.8 4.8 5.5A479001210014000416013.5/7.811.5 2.9 3.4ZR57KC-TF5/D B475001200013900417013.5/7.811.4 2.9 3.3 C560001410016400295010.4/6.019.0 4.8 5.6A514001300015100442014.0/8.111.6 2.9 3.4ZR61KC-TF5/D B510001290014900443014.0/8.111.5 2.9 3.4 C600001510017600317011.1/6.418.9 4.8 5.6A580001460017000495014.9/8.611.7 2.9 3.4ZR68KC-TF5/D B575001450016800496014.9/8.611.6 2.9 3.4 C680001710019900343011.4/6.619.8 5.0 5.8A610001540017900517015.4/8.911.8 3.0 3.5ZR72KC-TF5/D B605001520017700518015.4/8.911.7 2.9 3.4 C715001800020900361011.6/6.719.8 5.0 5.8A685001730020100580018.1/10.511.8 3.0 3.5ZR81KC-TF5/D B680001710019900581018.1/10.511.7 2.9 3.4 C795002000023300414015.2/8.819.2 4.8 5.6*Ampere values shown are at 220 volts/380 volts.220-3-50 (TF5) 380-3-50 (TFD)5A5B6A6B7AThe bill of material includes features as shown by the X.7B8AACCESSORY INFORMATIONCrankcase Heater - 240 volt - 70 watt 018-0057-00(ZR22 to ZR81)Crankcase Heater - 480 volt - 70 watt 018-0057-01(ZR22 to ZR81)COMPRESSOR OIL CHARGESWHITE OILMMMA POE OILINITIAL REFILL INITIAL REFILL OIL OIL OIL OIL MODELCHARGE CHARGE MODELCHARGE CHARGE OUNCES/LITERSOUNCES/LITERSOUNCES/LITERSOUNCES/LITERSZR22K3ZR22K3E ZR24K33834ZR24K3E 3834ZR26K3 1.12 1.01ZR26K3E 1.12 1.01ZR28K3ZR28K3E ZR30K3ZR32K3ZR30K3E ZR34K3ZR32K3EZR36K34238ZR34K3E 4238ZR40K3 1.24 1.12ZR36K3E 1.24 1.12ZR42K3ZR40K3EZR45K3ZR45KC 4642ZR42K3E 1.36 1.24ZR47K34238ZR47K3E-PFJ 42381.24 1.12 1.24 1.12ZR47KC 4642ZR47KCE-TF5/TFD 46421.36 1.24 1.36 1.24ZR48K34238ZR48K3E-PFJ 42381.24 1.12 1.24 1.12ZR48KC 4642ZR48KCE-TF5/TFD46421.36 1.24 1.36 1.24ZR54KC 6662ZR54KCE 6662ZR57KC 1.95 1.83ZR57KCE 1.951.83ZR61KC ZR61KCE ZR68KC-PFJ 6258ZR68KCE 1.83 1.72ZR68KC-TF5/TFD6056ZR72KCE 60561.77 1.66ZR81KCE1.771.66ZR72KC 6056ZR81KC1.771.668BBILL OF MATERIAL PROVISIONSCopeland is pleased to offer the bills of material shown on the previous pages that offer a complete and versa-tile choice to your compressor selection.In addition to the marked features, each compressor will include the following:•Wiring diagram.•Internal line break protector.•Rubber grommet mounting parts with sleeves(kit 527-0116-00).•Grounding tab located in the compressor terminalbox.See outline drawing pages 9B to 11B for stub tube and rotalock connection sizes.510-0247-153/4Solder 33/4510-0080-04SUCTIONTABLE BKIT PART NUMBERSUCTION VALVEDISCHARGE VALVE ROTALOCKCONNECTION SIZE IN INCHES AND SEAL PART NUMBERTYPE ANDVALVE PART NUMBERSIZE IN INCHESSTYLETYPE ANDSIZE IN INCHESSTYLE9A9BPERFORMANCE DATA50 HERTZR2220°F (11.1°C) Superheat15°F (8.3°C) Subcooling95°F (35°C) Ambient (Air Over)220/240-1-50 (PFJ) Rated Voltage220-1-50 (PFJ) Test VoltageZR22K3-PFJCAPACITY (BTU/HOUR)CONDENSING TEMPERATUREEVAPORATING TEMPERATURE °F/°C°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)564075709900127001580019500215002360025900120 (48.9)8530111001410017500194002140023500140 (60.0)1200015200170001880020800CAPACITY (KCAL/HOUR)°F/°C – 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)142019102490320039804910542059506530120 (48.9)2150280035504410489053905920140 (60.0)30203830428047405240CAPACITY (WATTS)°F/°C – 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)165022202900372046305710630069107590120 (48.9)2500325041305130568062706890140 (60.0)35204450498055106090POWER (MOTOR WATTS)°F/°C – 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)125012401220122012101190119011801160120 (48.9)1590157015501530152015101500140 (60.0)20301990198019601940ZR22K3-TF5/TFDCAPACITY (BTU/HOUR)CONDENSING TEMPERATUREEVAPORATING TEMPERATURE °F/°C°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)5810778010100128001590019500215002360025900120 (48.9)8800113001420017500194002130023400140 (60.0)1200015100168001870020600CAPACITY (KCAL/HOUR)°F/°C – 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)146019602550323040104910542059506530120 (48.9)2220285035804410489053705900140 (60.0)30203810423047105190CAPACITY (WATTS)°F/°C – 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)170022802960375046605710630069107590120 (48.9)2580331041605130568062406860140 (60.0)35204420492054806040POWER (MOTOR WATTS)°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8200/220-3-50 (TF5)Rated Voltage 220-3-50 (TF5)Test Voltage380/420-3-50 (TFD)380-3-50 (TFD)PERFORMANCE DATA50 HERTZR407C20°F (11.1°C) Superheat15°F (8.3°C) Subcooling95°F (35°C) Ambient (Air Over)220/240-1-50 (PFJ) Rated Voltage220-1-50 (PFJ) Test VoltageZR22K3E-PFJCAPACITY (BTU/HOUR)CONDENSING TEMPERATUREEVAPORATING TEMPERATURE °F/°C°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)5630758010000129001640020400226002500027600140 (60.0)21302110209020802060ZR22K3E-TF5/TFDCAPACITY (BTU/HOUR)CONDENSING TEMPERATUREEVAPORATING TEMPERATURE °F/°C°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)5840767010000130001640020400227002500027500200/220-3-50 (TF5)Rated Voltage220-3-50 (TF5)Test Voltage380/420-3-50 (TFD)380-3-50 (TFD)PERFORMANCE DATA50 HERTZR407C20°F (11.1°C) Superheat15°F (8.3°C) Subcooling95°F (35°C) Ambient (Air Over)220/240-1-50 (PFJ) Rated Voltage220-1-50 (PFJ) Test VoltageZR24K3E-PFJCAPACITY (BTU/HOUR)CONDENSING TEMPERATUREEVAPORATING TEMPERATURE °F/°C°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)6430872011400146001840022800253002790030800140 (60.0)24002360234023102290ZR24K3E-TF5/TFDCAPACITY (BTU/HOUR)CONDENSING TEMPERATUREEVAPORATING TEMPERATURE °F/°C°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)6850882011400146001840022900253002780030600200/220-3-50 (TF5)Rated Voltage220-3-50 (TF5)Test Voltage380/420-3-50 (TFD)380-3-50 (TFD)PERFORMANCE DATA50 HERTZR407C20°F (11.1°C) Superheat15°F (8.3°C) Subcooling95°F (35°C) Ambient (Air Over)220/240-1-50 (PFJ) Rated Voltage220-1-50 (PFJ) Test VoltageZR26K3E-PFJCAPACITY (BTU/HOUR)CONDENSING TEMPERATUREEVAPORATING TEMPERATURE °F/°C°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)6720917012100155001950024200268002960032700140 (60.0)24602440243024102390ZR26K3E-TF5/TFDCAPACITY (BTU/HOUR)CONDENSING TEMPERATUREEVAPORATING TEMPERATURE °F/°C°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)7140922012000154001940024200268002950032400140 (60.0)26202580256025402530Production compressors to meet above nominal performance values within ±5%.200/220-3-50 (TF5)Rated Voltage220-3-50 (TF5)Test Voltage380/420-3-50 (TFD)380-3-50 (TFD)PERFORMANCE DATA50 HERTZR407C20°F (11.1°C) Superheat15°F (8.3°C) Subcooling95°F (35°C) Ambient (Air Over)220/240-1-50 (PFJ) Rated Voltage220-1-50 (PFJ) Test VoltageZR28K3E-PFJCAPACITY (BTU/HOUR)CONDENSING TEMPERATUREEVAPORATING TEMPERATURE °F/°C°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)76601030013400171002160026800297003290036300140 (60.0)27402700267026502630ZR28K3E-TF5/TFDCAPACITY (BTU/HOUR)CONDENSING TEMPERATUREEVAPORATING TEMPERATURE °F/°C°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)7560994013000168002130026500294003240035600140 (60.0)26102590258025602540Production compressors to meet above nominal performance values within ±5%.200/220-3-50 (TF5)Rated Voltage220-3-50 (TF5)Test Voltage380/420-3-50 (TFD)380-3-50 (TFD)200/220-3-50 (TF5)Rated Voltage220-3-50 (TF5)Test Voltage380/420-3-50 (TFD)380-3-50 (TFD)PERFORMANCE DATA50 HERTZR407C20°F (11.1°C) Superheat15°F (8.3°C) Subcooling95°F (35°C) Ambient (Air Over)220/240-1-50 (PFJ) Rated Voltage220-1-50 (PFJ) Test VoltageZR30K3E-PFJCAPACITY (BTU/HOUR)CONDENSING TEMPERATUREEVAPORATING TEMPERATURE °F/°C°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8ZR30K3E-TF5/TFDCAPACITY (BTU/HOUR)CONDENSING TEMPERATUREEVAPORATING TEMPERATURE °F/°C°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)79801080014200182002290028400314003460038100120 (48.9)11700155001980024800275003040033500140 (60.0)28502800278027602740Production compressors to meet above nominal performance values within ±5%.PERFORMANCE DATA50 HERTZR407C20°F (11.1°C) Superheat15°F (8.3°C) Subcooling95°F (35°C) Ambient (Air Over)220/240-1-50 (PFJ) Rated Voltage220-1-50 (PFJ) Test VoltageZR32K3E-PFJCAPACITY (BTU/HOUR)CONDENSING TEMPERATUREEVAPORATING TEMPERATURE °F/°C°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)84101140015000192002420029900330003640039900140 (60.0)29702940293029102890ZR32K3E-TF5/TFDCAPACITY (BTU/HOUR)CONDENSING TEMPERATUREEVAPORATING TEMPERATURE °F/°C°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)80301090014400188002380029700330003640040100140 (60.0)30002950293029002880Production compressors to meet above nominal performance values within ±5%.200/220-3-50 (TF5)Rated Voltage 220-3-50 (TF5)Test Voltage380/420-3-50 (TFD)380-3-50 (TFD)PERFORMANCE DATA50 HERTZR407C20°F (11.1°C) Superheat15°F (8.3°C) Subcooling95°F (35°C) Ambient (Air Over)220/240-1-50 (PFJ) Rated Voltage220-1-50 (PFJ) Test VoltageZR34K3E-PFJCAPACITY (BTU/HOUR)CONDENSING TEMPERATUREEVAPORATING TEMPERATURE °F/°C°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)91201220016000204002570031900354003920043200140 (60.0)32203170314031203090ZR34K3E-TF5/TFDCAPACITY (BTU/HOUR)CONDENSING TEMPERATUREEVAPORATING TEMPERATURE °F/°C°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)89901180015500200002530031500349003850042400140 (60.0)30903070305030303010Production compressors to meet above nominal performance values within ±5%.200/220-3-50 (TF5)Rated Voltage220-3-50 (TF5)Test Voltage380/420-3-50 (TFD)380-3-50 (TFD)PERFORMANCE DATA50 HERTZR407C20°F (11.1°C) Superheat15°F (8.3°C) Subcooling95°F (35°C) Ambient (Air Over)220/240-1-50 (PFJ) Rated Voltage220-1-50 (PFJ) Test VoltageZR36K3E-PFJCAPACITY (BTU/HOUR)CONDENSING TEMPERATUREEVAPORATING TEMPERATURE °F/°C°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)96901320017200219002740033800374004130045600140 (60.0)33103300329032703250ZR36K3E-TF5/TFDCAPACITY (BTU/HOUR)CONDENSING TEMPERATUREEVAPORATING TEMPERATURE °F/°C°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)99001320017100218002730033700374004130045500140 (60.0)32403230322032003180Production compressors to meet above nominal performance values within ±5%.200/220-3-50 (TF5)Rated Voltage220-3-50 (TF5)Test Voltage380/420-3-50 (TFD)380-3-50 (TFD)PERFORMANCE DATA50 HERTZR407C20°F (11.1°C) Superheat15°F (8.3°C) Subcooling95°F (35°C) Ambient (Air Over)220/240-1-50 (PFJ) Rated Voltage220-1-50 (PFJ) Test VoltageZR40K3E-PFJCAPACITY (BTU/HOUR)CONDENSING TEMPERATUREEVAPORATING TEMPERATURE °F/°C°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)107001440018800240003020037500416004610050800140 (60.0)37803730370036703630ZR40K3E-TF5/TFDCAPACITY (BTU/HOUR)CONDENSING TEMPERATUREEVAPORATING TEMPERATURE °F/°C°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)106001390018200235002970037000410004530049800140(60.0)36003570356035303510Production compressors to meet above nominal performance values within ±5%.200/220-3-50 (TF5)Rated Voltage 220-3-50 (TF5)Test Voltage380/420-3-50 (TFD)380-3-50 (TFD)PERFORMANCE DATA50 HERTZR407C20°F (11.1°C) Superheat15°F (8.3°C) Subcooling95°F (35°C) Ambient (Air Over)220/240-1-50 (PFJ) Rated Voltage220-1-50 (PFJ) Test VoltageZR42K3E-PFJCAPACITY (BTU/HOUR)CONDENSING TEMPERATUREEVAPORATING TEMPERATURE °F/°C°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)115001520019700251003140038800430004740052100140 (60.0)38903850382037903760ZR42K3E-TF5/TFDCAPACITY (BTU/HOUR)CONDENSING TEMPERATUREEVAPORATING TEMPERATURE °F/°C°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)115001490019500251003170039100430004720051400140 (60.0)37803750373037003670Production compressors to meet above nominal performance values within ±5%.200/220-3-50 (TF5)Rated Voltage220-3-50 (TF5)Test Voltage380/420-3-50 (TFD)380-3-50 (TFD)PERFORMANCE DATA50 HERTZR407C20°F (11.1°C) Superheat15°F (8.3°C) Subcooling95°F (35°C) Ambient (Air Over)220/240-1-50 (PFJ) Rated Voltage220-1-50 (PFJ) Test VoltageZR47K3E-PFJCAPACITY (BTU/HOUR)CONDENSING TEMPERATUREEVAPORATING TEMPERATURE °F/°C°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)131001750022500284003530043400480005300058400140 (60.0)43104290429042904300ZR47KCE-TF5/TFDCAPACITY (BTU/HOUR)CONDENSING TEMPERATUREEVAPORATING TEMPERATURE °F/°C°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)83201340019300262003430043600488005440060300120 (48.9)3220318031603160317031903220140 (60.0)42704210420041904200Production compressors to meet above nominal performance values within ±5%.200/220-3-50 (TF5)Rated Voltage220-3-50 (TF5)Test Voltage380/420-3-50 (TFD)380-3-50 (TFD)PERFORMANCE DATA50 HERTZR2220°F (11.1°C) Superheat15°F (8.3°C) Subcooling95°F (35°C) Ambient (Air Over)220/240-1-50 (PFJ) Rated Voltage220-1-50 (PFJ) Test VoltageZR48K3-PFJCAPACITY (BTU/HOUR)CONDENSING TEMPERATUREEVAPORATING TEMPERATURE °F/°C°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)134001770022800287003560043400478005240057400120 (48.9)20100255003190039100431004740052000140 (60.0)2730033900376004150045700CAPACITY (KCAL/HOUR)°F/°C – 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)3380446057507230897010900120001320014500120 (48.9)5070643080409850109001190013100140 (60.0)6880854094801050011500CAPACITY (WATTS)°F/°C – 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)39305190668084101040012700140001540016800120 (48.9)58907470935011500126001390015200140 (60.0)80009930110001220013400POWER (MOTOR WATTS)°F/°C – 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)239024202440245024602490252025502580120 (48.9)3180317031703170318032003230140 (60.0)42404210420041904190ZR48KC-TF5/TFDCAPACITY (BTU/HOUR)CONDENSING TEMPERATUREEVAPORATING TEMPERATURE °F/°C°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)137001800023000289003570043500478005240057300120 (48.9)20200256003190039100430004730051800140 (60.0)2760034200378004170045800CAPACITY (KCAL/HOUR)°F/°C – 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)3450454058007280900011000120001320014400120 (48.9)5090645080409850108001190013100140 (60.0)6960862095301050011500CAPACITY (WATTS)°F/°C – 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)40105270674084701050012700140001540016800120 (48.9)59207500935011500126001390015200140 (60.0)809010000111001220013400POWER (MOTOR WATTS)°F/°C– 10010203040455055– 23.3– 17.8– 12.2– 6.7– 1.1 4.47.210.012.8100 (37.8)233023402350237024102460249025302570120 (48.9)3120311031203150317032003230140 (60.0)41204120412041304150Production compressors to meet above nominal performance values within ±5%.200/220-3-50 (TF5)Rated Voltage 220-3-50 (TF5)Test Voltage380/420-3-50 (TFD)380-3-50 (TFD)。

UC3842中文资料及应用电路图UC3842中文资料及应用电路图Unitrode公司的UC3842是一种高性能固定频率电流型控制器，包含误差放大器、PWM比较器、PWM锁存器、振荡器、内部基准电源和欠压锁定等单元，其结构图如图1所示。

各管脚功能简介如下。

1脚COMP是内部误差放大器的输出端，通常此脚与2脚之间接有反馈网络，以确定误差放大器的增益和频响。

2脚FEED BACK是反馈电压输入端，此脚与内部误差放大器同向输入端的基准电压(一般为+2.5V)进行比较，产生控制电压，控制脉冲的宽度。

3脚ISENSE是电流传感端。

在外围电路中，在功率开关管(如VMos管)的源极串接一个小阻值的取样电阻，将脉冲变压器的电流转换成电压，此电压送入3脚，控制脉宽。

此外，当电源电压异常时，功率开关管的电流增大，当取样电阻上的电压超过1V时，UC3842就停止输出，有效地保护了功率开关管。

4脚RT/CT是定时端.锯齿波振荡器外接定时电容C和定时电阻R的公共端。

5脚GND是接地。

6脚OUT是输出端，此脚为图滕柱式输出，驱动能力是±lA。

这种图腾柱结构对被驱动的功率管的关断有利，因为当三极管VTl截止时，VT2导通，为功率管关断时提供了低阻抗的反向抽取电流回路，加速功率管的关断。

7脚Vcc是电源。

当供电电压低于＋16V时，UC3824不工作，此时耗电在1mA以下。

输入电压可以通过一个大阻值电阻从高压降压获得。

芯片工作后，输入电压可在+10～+30V之间波动，低于+10V停止工作。

工作时耗电约为15mA，此电流可通过反馈电阻提供。

8脚VREF是基准电压输出，可输出精确的+5V基准电压，电流可达50mA。

UV3842的电压调整率可达0.01%，工作频率为500kHz，启动电流小于1mA，输入电压为10～30V，基准电压为4.9～5.1V，工作温度为0～70℃，输出电流为1A。

开关稳压电源由UC3842构成的开关电源电路如图6所示，T为高频变压器。

November 2007 Rev 21/14STG3482Low voltage dual SP4T switchFeatures■Ultra low power dissipation:–I CC =0.1μA (max.) at T A =25°C ■Low “ON” resistance:–R ON =4.6Ω (T A =25°C)at V CC =4.3V –R ON = 5.8Ω (T A = 25°C) at V CC =3.0V ■Wide operating voltage range:–V CC (Opr) = 1.65 to 4.3V single supply ■ 4.3V tolerant and 1.8V compatible threshold on digital control input at V CC = 2.3 to 3.0V ■Typical bandwidth (-3dB) at 300MHz on all channels■Latch-up performance exceeds 300mA per JESD 78, Class II■ESD performance exceeds JESD22–2000-V Human body model (A114-A)DescriptionThe STG3482 is a high-speed CMOS low voltage dual analog SP4T (single pole four throw) switch or 4:1 multiplexer/demultiplexer switch fabricated in silicon gate C 2MOS technology. It is designed to operate from 1.65 to 4.3V , making this device ideal for portable applications.By controlling the SEL1 and SEL2, one of the independent channels will be connected to the common channel. An /OE pin is also available in this device to disconnect all the switches.Additional key features are fast switching speed, break-before-make delay time and ultra low power consumption. All inputs and outputs are equipped with protection circuits against static discharge, giving them ESD immunity and transient excess voltage.Table 1.Device summaryOrder code PackagePackaging STG3482QTRQFN16L (2.6 x 1.8mm)T ape and reelContents STG3482Contents1Pin settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31.1Pin description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 2Device summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43Maximum rating . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53.1Recommended operating conditions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 4Electrical characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 5Package mechanical data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 6Revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 132/14STG3482Pin settings3/141 Pin settings1.1 Pin descriptionNote:Exposed pad must be soldered to a floating plane. Do NOT connect to power or ground.Table 2.Pin descriptionPin numberSymbol Name and function11S4Independent channel 2V CC Positive supply voltage 31SEL Control42S1Independent channel 5NC No connect62S2Independent channel 7D2Common channels 82S3Independent channel 92S4Independent channel 102SEL Control 11GND Ground (0V)121S1Independent channel 13/OE Output enable (active low)141S2Independent channel 15D1Common channel 161S3Independent channelDevice summary STG34824/142 Device summaryTable 3.Truth table/OE 1SEL 2SEL Switch connectionH X X High-Z L L L D1-1S1, D2-2S1L L H D1-1S2, D2-2S2L H L D1-1S3, D2-2S3LHHD1-1S4, D2-2S4STG3482Maximum rating5/143 Maximum ratingStressing the device above the rating listed in the “Absolute maximum ratings” table maycause permanent damage to the device. These are stress ratings only and operation of the device at these or any other conditions above those indicated in the Operating sections of this specification is not implied. Exposure to absolute maximum rating conditions forextended periods may affect device reliability. Refer also to the STMicroelectronics SURE Program and other relevant quality documents.3.1 Recommended operating conditionsTable 4.Absolute maximum ratingsSymbol ParameterValue Unit V CC Supply voltage -0.5 to 5.5V V I DC input voltage -0.5 to V CC + 0.5V V IC DC control input voltage -0.5 to 5.5V V O DC output voltage-0.5 to V CC + 0.5V I IKC DC input diode current on control pin (V SEL <0V)-50mA I IK DC input diode current (V SEL <0V)±50mA I OK DC output diode current ±20mA I O DC output current±128mA I OP DC output current peak (pulse at 1ms, 10% duty cycle)±300mA I CC or I GND DC V CC or ground current ±100mA P D Power dissipation at T A = 70ºC (1)1.Derate above 70ºC by 18.5mW/C1120mW T stg Storage temperature -65 to 150°C T LLead temperature (10 sec)300°CTable 5.Recommended operating conditionsSymbol ParameterValue Unit V CC Supply voltage 1.65 to 4.3V V I Input voltage 0 to V CC V V IC Control input voltage 0 to 4.3V V O Output voltage 0 to V CC V T op Operating temperature -40 to 85°C dt/dvInput rise and fall time control inputV CC = 1.65 to 2.7V 0 to 20ns/VV CC = 3.0 to 4.3V0 to 10Electrical characteristics STG34826/144 Electrical characteristicsTable 6.DC specificationsSymbolParameterTest conditionsValueUnitVcc(V)TA =25°C -40 to 85°C TypMaxMin MaxV IHHigh level input voltage1.65−1.950.65V CC V2.3 −2.5 1.22.7−3.0 1.33.3 −3.6 1.44.3 1.6V ILLow level input voltage1.65−1.950.250.25V2.3−2.50.250.252.7−3.00.250.253.3−3.60.300.304.30.400.40R PEAKSwitch on peakresistance1.8V S = 0V to V CC I S = 8mA12.016.0Ω2.7 6.38.03.0 5.87.53.7 5.0 6.54.3 4.66.0R ONSwitch ON resistance3.0V S =3V I S =8mA 4.0 5.2Ω3.0V S =0.8V I S = 8mA5.06.5ΔR ONONresistance match between channels (1)1.8V S @ R ON Max I S = 8mA0.3Ω2.70.33.00.33.70.34.30.3R FLATONresistance flatness (2)1.8V S = 0V to V CC I S = 8mA5.9Ω2.7 1.93.0 1.63.7 1.44.31.6STG3482Electrical characteristics7/14SymbolParameterTest conditionsValueUnitVcc (V)TA =25°C -40 to 85°C TypMaxMinMaxI OFFOFF state leakage current (SN), (D) 4.3V S = 0.3 or 4V±20±100nAI INInput leakage current 0 to 4.3V SEL = 0 to 4.3V±0.1±1μAI CCQuiescent supply current1.65 to 4.3V SEL = V CC or GND ±0.1±1.0μAI CCLVQuiescent supply current low voltage driving4.3V 1SEL, V 2SEL = 1.65V ±37±50±100μAV 1SEL, V 2SEL = 1.80V±33±40±50V 1SEL, V 2SEL = 2.60V±12±20±30V 1SEL, V 2SEL = 0V OE = 1.65V ±19±25±50V 1SEL, V 2SEL = 0V OE = 1.80V ±17±20±25V 1SEL, V 2SEL = 0V OE = 2.60V±6±10±151.ΔRon = Ron(max) - Ron(Min)2.Flatness is defined as the difference between the maximum and minimum value of on-resistance as measured over thespecified analog signal ranges.Table 6.DC specificationsElectrical characteristics STG34828/14Table 7.AC electrical characteristics (C L = 35pF , R L = 50Ω, t r = t f ≤5ns)SymbolParameterTest conditionsValueUnitVcc(V)T A = 25°C -40 to 85°CMinTyp MaxMinMaxt PLH , t PHLPropagation delay1.65−1.950.30ns2.3−2.70.303.0−3.30.273.6−4.30.28t ONT urn-ON time1.65−1.95V S = 0.8V37ns2.3−2.7V S = 1.5V 2030343.0−3.31525263.6−4.3121820t OFFT urn-OFF time1.65−1.95V S = 0.823ns2.3−2.7V S = 1.5V 1723173.0−3.31218123.6−4.3101510t DBreakbefore make time delay1.65−1.95C L = 35pF R L = 50ΩV S = 1.5V124ns2.3−2.71153.0−3.31113.6−4.319QCharge injection1.65C L =100pF V GEN =0V R GEN =0Ω10pC2.3113.0114.311STG3482Electrical characteristics9/14Table 8.Analog switch characteristics (C L = 5pF , R L = 50Ω, T A = 25°C)SymbolParameterTest conditionsValueUnitVcc(V)T A = 25°C -40 to 85°C MinTyp MaxMinMaxOIRROFF Isolation (1) 1.65−− 4.3V S = 1V RMS, f = 1MHz Signal = 0 dBm -75dBV S = 1V RMS, f = 10MHz Signal = 0 dBm -58Xtalk Crosstalk1.65−− 4.3V S = 1V RMS, f = 1MHz Signal = 0 dBm -77dBV S = 1V RMS, f = 10MHz Signal = 0 dBm -60THDT otal harmonicdistortion3.7 f = 20Hz to 20kHz R L = 32Ω, C L =50ΩV IN = 2.8V P-P V DC = V CC /20.010.02%PSRRPower supply rejection ratio3.7 f = 217Hz, R L = 32Ω, C L = 50ΩV ripple = 150mV V DC = V CC /2-60dBBW -3dB bandwidth 3.0−− 4.3R L = 50ΩBias = 1V300MHz D G Differential gain 3.0−− 4.3RL = 150Ω0.64%D P Differential phase 3.0−− 4.3RL = 150Ω0.1degC IN Control pin input capacitance V CC = 0V1.5pFC ONSn portcapacitance when switch is enabled 3.3 f = 1MHz 6.7C OFFSn portcapacitance when switch is disabled3.3f =1MHz 2.81.Off Isolation = 20Log10 (V D /V S ), V D = output. V S = input to off switch.Package mechanical data STG348210/145 Package mechanical dataIn order to meet environmental requirements, ST offers these devices in ECOPACK ® packages. These packages have a Lead-free second level interconnect . The category of second level interconnect is marked on the package and on the inner box label, in compliance with JEDEC Standard JESD97. The maximum ratings related to soldering conditions are also marked on the inner box label. ECOPACK is an ST trademark. ECOPACK specifications are available at: .Figure 3.QFN16L (2.6x 1.8mm) package outlineSTG3482Package mechanical data 11/141. VFQFPN - standard for thermally enhanced vey fine pitch quad flat package no leads.2. The leads size is comprehensive of the thickness of the leads finishing material.3. Dimensions do not include mold protusion.4. Package outline exclusive of metal burrs dimensions.5. Shipping media tape and reel units: 3000Table 9.QFN16L (2.6x 1.8mm) mechanical dataSymbolMillimetersTyp Min Max A 0.50 0.45 0.55A1 0.02 0 0.05A3 0.127b 0.20 0.15 0.25D 2.60 2.50 2.70D2 1.50 1.40 1.60E 1.80 1.70 1.90E2 0.70 0.60 0.80e 0.40L 0.30 0.25 0.35Package mechanical data STG348212/14STG3482Revision history 13/146 Revision historyTable 10.Document revision history DateRevision Changes21-Nov-20061Initial release.20-Nov-20072Updated latch-up performance value in Features section n on page 1, minor text changes, updated Figure 1 on page 3, Table 2 onpage 3, Table 5 on page 5, Table 6 on page 6, Table 7 on page 8STG348214/14Please Read Carefully:Information in this document is provided solely in connection with ST products. STMicroelectronics NV and its subsidiaries (“ST”) reserve the right to make changes, corrections, modifications or improvements, to this document, and the products and services described herein at any time, without notice.All ST products are sold pursuant to ST’s terms and conditions of sale.Purchasers are solely responsible for the choice, selection and use of the ST products and services described herein, and ST assumes no liability whatsoever relating to the choice, selection or use of the ST products and services described herein.No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted under this document. If any part of this document refers to any third party products or services it shall not be deemed a license grant by ST for the use of such third party products or services, or any intellectual property contained therein or considered as a warranty covering the use in any manner whatsoever of such third party products or services or any intellectual property contained therein.UNLESS OTHERWISE SET FORTH IN ST’S TERMS AND CONDITIONS OF SALE ST DISCLAIMS ANY EXPRESS OR IMPLIED WARRANTY WITH RESPECT TO THE USE AND/OR SALE OF ST PRODUCTS INCLUDING WITHOUT LIMITATION IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE (AND THEIR EQUIVALENTS UNDER THE LAWS OF ANY JURISDICTION), OR INFRINGEMENT OF ANY PATENT, COPYRIGHT OR OTHER INTELLECTUAL PROPERTY RIGHT. UNLESS EXPRESSLY APPROVED IN WRITING BY AN AUTHORIZED ST REPRESENTATIVE, ST PRODUCTS ARE NOT RECOMMENDED, AUTHORIZED OR WARRANTED FOR USE IN MILITARY, AIR CRAFT, SPACE, LIFE SAVING, OR LIFE SUSTAINING APPLICATIONS, NOR IN PRODUCTS OR SYSTEMS WHERE FAILURE OR MALFUNCTION MAY RESULT IN PERSONAL INJURY, DEATH, OR SEVERE PROPERTY OR ENVIRONMENTAL DAMAGE. ST PRODUCTS WHICH ARE NOT SPECIFIED AS "AUTOMOTIVE GRADE" MAY ONLY BE USED IN AUTOMOTIVE APPLICATIONS AT USER’S OWN RISK.Resale of ST products with provisions different from the statements and/or technical features set forth in this document shall immediately void any warranty granted by ST for the ST product or service described herein and shall not create or extend in any manner whatsoever, any liability of ST.ST and the ST logo are trademarks or registered trademarks of ST in various countries.Information in this document supersedes and replaces all information previously supplied.The ST logo is a registered trademark of STMicroelectronics. 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montar en rack 2U/torre - Versión ensamblada NAFTA de SU2200RTXL2Ua.SU2200RMNAFTANÚMERO DE MODELO:GeneralSistema de UPS en línea, de conversión doble de 2200VA para equipos vitales de servidores, redes y telecomunicaciones. Montaje en rack 2U con una profundidad de instalación de solo 19 pulgadas (48 cm). El funcionamiento de la batería se puede expandir con los módulos de baterías externas BP49V60-3UNAFTA opcionales. Salida permanente de onda sinusoidal de 100, 110 ó 120V +/-2%. El suministro de energía ininterrumpible (UPS) en línea, de conversión doble, convierte activamente la entrada bruta de CA a CC y luego la reconvierte a salida de CA filtrada, completamente regulada. Funciona continuamente sin utilizar la energía de la batería durante las caídas de tensión hasta 65V y sobretensiones hasta 138V. Enchufe de entrada NEMA 5-20P; receptáculos de salida NEMA 5-15/20R y NEMA L5-20R. Supresión de sobretensiones de CA de grado de red y supresión de ruido. Tiempo de transferencia cero entre CA y el funcionamiento a batería. Las interfases de administración de redes soportan comunicacionessimultáneas a través del puerto USB, el puerto serial DB9 y la ranura SNMPWEBCARD. La interfaz USB compatible con HID permite la integración con las funciones incorporadas de administración de energía y apagado automático de Windows y Mac OS X. Soporta el monitoreo detallado simultáneo de los niveles de carga de los equipos, datos del autotest y condiciones de la energía de la red pública mediante las 3 interfases de red. Incluye el software PowerAlert de monitoreo y el cableado completo. Interfaz de apagado de emergencia (EPO). La conmutación de la PDU integrada en 2 bancos soporta la eliminación de cargas no críticas y el reinicio remoto de los equipos conectados. LEDs medidos de 3 etapas de monitoreo de corriente y estado de carga de la batería. La pantalla de LEDs rota fácilmente para una mejor visualización en configuraciones montadas en rack o torre. Supresor de sobretensiones de línea de datos para conexiones telefónicas, DSL o redes Ethernet. LEDs para el servicio eléctrico público y regulación de tensión. Alarma sonora. Autotest. Modo de derivación automática tolerante de fallas. Accesorios para montaje en rack de 4 puestos incluidos; kit de torre 2-9USTAND y accesorios2POSTRMITWM para montar en rack de dos puestos y en la pared disponibles. Baterías internas que se pueden reemplazar en el campo y en funcionamiento, y módulos de baterías externas. Atractiva gama de negros. Garantía de dos años y $250.000,00 de seguro del equipo conectado; garantía extendida y contratos de servicio técnico disponibles.CaracterísticasSistema UPS SmartOnline de alto rendimiento; es ideal para aplicaciones críticas de voz, datos,qmédicas y redes industrialesUPS 100% en línea, de doble conversión ofrece una salida de onda sinusoidal perfectamente regulada qdentro del 2% de 100/110/120 V (que el usuario puede seleccionar) en todas las condiciones de uso Mantiene el funcionamiento continuo durante los apagones, las fluctuaciones de voltaje y lasqEspecificacionessobretensiones con cero tiempo de transferencia .Elimina la distorsión armónica, los impulsos eléctricos rápidos, las fluctuaciones de frecuencia y otros problemas eléctricos difíciles de resolver que no solucionan otros tipos de UPS.qCorrige las condiciones de voltaje de la línea desde sólo 65 V y hasta 138 V a valores seleccionables de 100/110/120 V (+/-2%)qEl conjunto de baterías internas estándar ofrece 18 minutos de funcionamiento extendido con carga media (800 W) y 6 minutos a plena carga (1600 W).qEl módulo de baterías externas opcional BP48V60-3UNAFTA prolonga la autonomía a 132 minutos en media carga (800W) y a 61 minutos a plena carga (1600W/compatible con diversos módulos)qEl factor de forma compacto para instalación en rack se instala en sólo dos espacios de rack (2U) con sólo una profundidad de instalación máxima de 19 pulgadasqSe envía con todos los accesorios para la instalación en rack de 4 postes q El 2POSTRMKITWM opcional permite la instalación en rack de 2 postes o paredq El accesorio 2-9USTAND opcional permite la colocación en torre vertical de tamaño reducido.q Derivación automática tolerante a fallas mantiene una salida continua de energía de la red pública a los equipos conectados, incluso en casos en que el UPS presenta una falla interna y necesita mantenimiento.qLas interfases de red soportan comunicaciones simultáneas a través de los seriales USB, DB9 /cierre de contacto y de la ranura SNMPWEBCARD integradosqLa interfaz USB compatible con HID permite la integración con las funciones de administración de energía y cierre automático de Windows y Mac OS X incorporadas.qEl software de monitoreo para UPS PowerAlert admite el cierre seguro sin supervisión, el monitoreo y control mediante servidores locales conectados, además de cualquier cantidad de servidores adicionales sobre IP.qLa interfaz del UPS soporta batería en uso, batería baja, restauración de la potencia, voltaje CA, voltaje CD, monitoreo de la corriente de salida, corriente de la carga de batería, capacidad de la batería,frecuencia de línea de CA, apagado programado del inversor, activación de la autoprueba y control de potencia de la salida de los bancos de carga y reinicio remoto, el ajuste de voltaje nominal del UPS y los puntos de ajuste del voltaje de la alimentación de la línea de batería del UPS.qInterfaz EPO incorporada con cableq clavija de entrada NEMA 5-20P; receptáculos de salida NEMA 5-15/20R y NEMA L5-20Rq PDU controlable integrado con 2 bancos; permite la administración remota de tomacorrientes para la eliminación de cargas no críticas o la reinicialización remota de los bancos de carga individuales (el banco uno posee dos tomacorrientes/el banco dos posee cuatro tomacorrientes)qLEDs en el panel frontal ofrecen monitoreo de la corriente e información sobre el nivel de carga de la batería.qEl UPS se envía totalmente ensamblado en total conformidad con las normas del Departamento de Transporte (DOT); no es necesario que el usuario invierta tiempo conectando las baterías internas.qSupresión de sobretensiones para una sola línea de teléfono/DSL o la red Ethernetq Garantía de 2 años del fabricante sobre el producto, $250,000 de Seguro Máximo de por Vidaq© 2023 Eaton. 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