UBA2033TSN2,118;中文规格书,Datasheet资料

T h e i n f o r m a t i o n p r o v i d e d i n t h i s d o c u m e n t a t i o n c o n t a i n s g e n e r a l d e s c r i p t i o n s a n d /o r t e c h n i c a l c h a r a c t e r i s t i c s o f t h e p e r f o r m a n c e o f t h e p r o d u c t s c o n t a i n e d h e r e i n .T h i s d o c u m e n t a t i o n i s n o t i n t e n d e d a s a s u b s t i t u t e f o r a n d i s n o t t o b e u s e d f o r d e t e r m i n i n g s u i t a b i l i t y o r r e l i a b i l i t y o f t h e s e p r o d u c t s f o r s p e c i f i c u s e r a p p l i c a t i o n s .I t i s t h e d u t y o f a n y s u c h u s e r o r i n t e g r a t o r t o p e r f o r m t h e a p p r o p r i a t e a n d c o m p l e t e r i s k a n a l y s i s , e v a l u a t i o n a n d t e s t i n g o f t h e p r o d u c t s w i t h r e s p e c t t o t h e r e l e v a n t s p e c i f i c a p p l i c a t i o n o r u s e t h e r e o f .N e i t h e r S c h n e i d e r E l e c t r i c I n d u s t r i e s S A S n o r a n y o f i t s a f f i l i a t e s o r s u b s i d i a r i e s s h a l l b e r e s p o n s i b l e o r l i a b l e f o r m i s u s e o f t h e i n f o r m a t i o n c o n t a i n e d h e r e i n .Product data sheetCharacteristicsXPSUAT33A3APPreventa module Cat.4 features XPSUAK +delayed outputs 48-240vac/dc screwMainRange of product Preventa Safety automation Product or component typePreventa safety module Safety module name XPSUATSafety module applicationMonitoring antivalent contactsFor emergency stop, guard and light curtain monitoringMonitoring of pressure-sensitive 4-wire protective devicesFunction of moduleEmergency stop button with 2 NC contacts Guard monitoring with 1 or 2 limit switches Monitoring 2 PNP sensors Magnetic switch monitoring Light curtain monitoring RFID switchMonitoring of electro-sensitive protection equipment (ESPE)Sensing mat/edgesProximity sensor monitoringMonitoring 1 PNP + 1 NPN sensorSafety levelCan reach PL e/category 4 for normally open relay contact ISO 13849-1Can reach SILCL 3 for normally open relay contact IEC 62061Can reach SIL 3 for normally open relay contact IEC 61508Can reach PL c/category 1 for normally closed relay contact ISO 13849-1Can reach SILCL 1 for normally closed relay contact IEC 62061Can reach SIL 1 for normally closed relay contact IEC 61508Safety reliability dataMTTFd > 30 years ISO 13849-1Dcavg >= 99 % ISO 13849-1PFHd = 1.47E-09 for SS0 ISO 13849-1PFHd = 1.48E-09 for SS1 ISO 13849-1HFT = 1 IEC 62061PFHd = 1.47E-09 for SS0 IEC 62061PFHd = 1.48E-09 for SS1 IEC 62061SFF > 99% IEC 62061HFT = 1 IEC 61508-1PFHd = 1.47E-09 for SS0 IEC 61508-1PFHd = 1.48E-09 for SS1 IEC 61508-1SFF > 99% IEC 61508-1Type = B IEC 61508-1Electrical circuit typeNC pair PNP pairAntivalent pair OSSD pairConnections - terminalsRemovable screw terminal block, 0.2...2.5 mm² solid or flexibleRemovable screw terminal block, 0.25...2.5 mm²flexible with ferrule single conductorRemovable screw terminal block, 0.2...1.5 mm² solid or flexible twin conductorRemovable screw terminal block, 2 x 0.25...1 mm²flexible with ferrule without cable end, with bezel Removable screw terminal block, 2 x 0.5...1.5 mm²flexible with ferrule with cable end, with bezel [Us] rated supply voltage48...240 V AC/DC - 10...10 %ComplementarySynchronisation time between inputs0.5 s2 s4 sType of start Automatic/manual/monitoredPower consumption in W4 W 48 V DCPower consumption in VA10 VA 240 V AC 50/60 HzInput protection type Internal, electronicSafety outputs 3 NO3 NO1 NCSafety inputs21Maximum wire resistance500 OhmTime delay range0...900 sInput compatibility Normally closed circuit ISO 14119XC limit switch ISO 14119Mechanical contact ISO 14119Normally closed circuit ISO 13850Antivalent pair ISO 14119OSSD pair IEC 61496-1-23-wire proximity sensors PNPOutput type Relay output, 250 V ACRelay output, 250 V ACRelay output, 24 V DCRelay output, 24 V DC[Ie] rated operational current5 A AC-13 A AC-155 A DC-13 A DC-133 A AC-11 A AC-153 A DC-11 A DC-13Control outputs 4 pulsed outputInput/output type Pulsed output for diagnostics Z1, 20 mASemiconductor output Z2, 20 mA[Ith] conventional free air thermal current16 AAssociated fuse rating10 A gG NO relay output circuit IEC 60947-1 Minimum output current20 mA relay outputMinimum output voltage24 V relay outputMaximum response time on input open20 ms[Ui] rated insulation voltage250 V 2)EN/IEC 60947-1[Uimp] rated impulse withstand voltage4 kV II EN/IEC 60947-1Local signalling Power ON LED green)Error LED red)Start LED yellow)Safety output instantaneous LED yellow)Safety output delayed LED yellow)Safety input S12 LED yellow)Safety input S22 LED yellow)Safety input S32 LED yellow)Mounting support35 mm symmetrical DIN railMaximum Depth 4.72 in (120 mm)Maximum Height 3.94 in (100 mm)Maximum Width 1.77 in (45 mm)Net Weight0.77 lb(US) (0.350 kg)EnvironmentStandards IEC 60947-5-1IEC 61508-1 functional safety standardIEC 61508-2 functional safety standardIEC 61508-3 functional safety standardIEC 61508-4 functional safety standardIEC 61508-5 functional safety standardIEC 61508-6 functional safety standardIEC 61508-7 functional safety standardISO 13849-1 functional safety standardIEC 62061 functional safety standardProduct certifications TÜVCULusIP degree of protection IP54 mounting area)EN/IEC 60947-1IP40 housing)EN/IEC 60947-1IP20 terminals)EN/IEC 60947-1Ambient air temperature for storage-13…185 °F (-25…85 °C)Relative humidity5…95 % non-condensingOrdering and shipping detailsCategory22477 - SAFETY MODULES (PREVENTA)Discount Schedule SAF2GTIN03606489601713Nbr. of units in pkg.1Package weight(Lbs)1 lb(US) (0.45 kg)Returnability YesPacking UnitsUnit Type of Package 1PCEPackage 1 Height 2.56 in (6.5 cm)Package 1 width 5.39 in (13.7 cm)Package 1 Length 6.10 in (15.5 cm)Unit Type of Package 2BB1Number of Units in Package 21Package 2 Weight16.23 oz (460 g)Package 2 Height 2.52 in (6.4 cm)Package 2 width 5.24 in (13.3 cm)Package 2 Length 6.02 in (15.3 cm)Unit Type of Package 3S03Number of Units in Package 316Package 3 Weight17.31 lb(US) (7.853 kg)Package 3 Height11.81 in (30 cm)Package 3 width11.81 in (30 cm)Package 3 Length15.75 in (40 cm)Offer SustainabilitySustainable offer status Green Premium productEU RoHS Directive Pro-active compliance (Product out of EU RoHS legal scope)EU RoHSDeclarationMercury free YesRoHS exemption information YesChina RoHS Regulation China RoHS DeclarationEnvironmental Disclosure Product Environmental ProfileCircularity Profile End Of Life InformationWEEE The product must be disposed on European Union markets following specificwaste collection and never end up in rubbish bins.PVC free YesDimensions DrawingsDimensionsFront and Side Views(A) :Product drawing(B) :Screw clamp terminal (C) :Side view(1) :Removable terminal blocks, top (2) :Removable terminal blocks, bottom (3) :LED indicators(4) :Start function selector (5) :Function selector (6) :Delay factor selector (7) :Delay base selector(8) :Connector for optional output extension module (lateral)(9) :Sealable transparent coverMounting and Clearance Mounting to DIN railScrew-mountingConnections and SchemaWiring Drawing(1) :A1-A2 (Power supply)(2) :S11-S12-S21-S22-S31-S32 (Single-channel safety input)(3) :Y1-Y2 (Start)13-23-33-47-57-67-75-14-24-34-48-58-68-76 :OutputEXT :Connector for optional extension module B2 :Common ground terminalZ1 :Pulsed output for diagnostics, not safety-related Z2 :Solid state output, not safety-related。

目录1.产品概述 (2)2.主要特性 (2)3.系统框图 (2)4.封装及引脚说明 (3)5.功能描述 (4)5.1输出模式和选项脚位 (4)5.2按键最长输出时间 (4)5.3低功耗模式 (4)5.4灵敏度调整 (4)6.应用电路 (5)7.电气特性 (6)7.1电气特性极限参数 (6)7.2直流特性 (6)8.SOT23-6封装 (7)9.历史记录 (8)单触控单输出IC 文件编号：PT-DS180161.产品概述J L2033N是一款单通道触摸检测芯片。

该芯片内建稳压电路，提供稳定电压给触摸感应电路使用，同时内部集成高效完善的触摸检测算法，使得芯片具有稳定的触摸检测效果。

该芯片专为取代传统按键而设计，具有宽工作电压与低功耗的特性，可广泛地满足不同消费类应用的需求。

2.主要特性●工作电压范围：2.4~5.5V●工作温度范围：-40~85℃●抗干扰性能优良：内置稳压电路、上电复位、低压复位功能及环境自适应算法等多种措施●待机工作电流：典型值1.5uA@V DD=3V/无负载●按键最长响应时间：低功耗模式下约220ms@V DD=3V●可接外部电容（1~50pF）调整触摸灵敏度●输出模式选择（TOG）：同步输出或锁存（toggle）输出●J L2033N为单通道OD NMOS输出（QD）：低电平输出有效●按键最长输出时间：12秒（±30%）●上电约0.4秒的初始化时间，此期间内不要触摸检测点，且此时所有功能被禁止●HBM ESD：大于5KV●封装形式：SOT23-63.系统框图QDTOG图1 系统框图4. 封装及引脚说明NCVDD GND TCHQDTOG图2 J L2033N 管脚示意图表1引脚说明表引脚类型： I ： CMOS 输入 O ： CMOS 输出 I/O ： CMOS 输入/输出 P ：电源/接地I-PH ： CMOS 输入内置上拉电阻 I-PL ： CMOS 输入内置下拉电阻 OD ： 开漏输出，无二极管保护电路5.功能描述5.1 输出模式和选项脚位TOG选项脚位为锁存类型：上电默认状态为0，若上电前管脚被接至VDD，则上电后状态变为1，且不会有电流漏电。

HM-9264-2AC Standard Motors Conduit Box TypeInduction MotorThank you for purchasing an Oriental Motor product.This Operating Manual describes product handling procedures and safety precautions.• Please read it thoroughly to ensure safe operation. • Always keep the manual where it is readily available.Before useOnly qualified personnel should work with the product.Use the product correctly after thoroughly reading the section “Safety precautions”.Should you require the inspection or repair of internal parts, contact the Oriental Motor office where you purchased the product. The product described in this manual has been designed andmanufactured for use as an internal component for general industrial equipment, and must not be used for any other purpose. Oriental Motor Co., Ltd. is not responsible for any damage caused through failure to observe this warning.Standard and CE MarkingMotors are recognized by UL. Recognized name are motor model name. Voluntary display of the CE mark conforming to the Low Voltage Directives. StandardsUL 1004, UL 2111, CSA C22.2 No.100, CSA C22.2 No.77 Standards File No. UL File No.E64197 Applications for standardEN 60034-1, EN 60034-5, EN 60664-1A Running Heating Test and a Locked-Rotor Test has beenconducted with a aluminum radiation plate of size indicated below. For the motor with a gearhead, tests has been conducted with a gearhead instead of the radiation plate.First number in motor nameSize [mm (in.)] Thickness [mm (in.)]Material4 135 × 135 (5.31 × 5.31) 5 (40 W) 165 × 165 (6.50 × 6.50) 5 (60 W, 90 W)200 × 200 (7.87 × 7.87)5 (0.20)AluminiumInstallation conditionsOvervoltage category II, Pollution degree 3 (except for the motor mounting surfase and conduit opening), Class I equipment (For EN/IEC standards)When the machinery to which the motor is mounted requiresovervoltage category III specifications, connect to power supply via an isolation transformer.Hazardous substancesRoHS (Directive 2002/95/EC 27Jan.2003) compliant∗ 5IK60GU-FCH , 5IK60GU-ECH , 5IK60GU-SH , 5IK90GU-FCH , 5IK90GU-ECH and 5IK90GU-SH do not comply with the hazardous substances.The precautions described below are intended to prevent danger or injury to the user and other personnel through safe, correct use of the product. Use the product only after carefully reading and fully understanding these instructions.WarningHandling the product without observing theinstructions that accompany a “Warning” symbol may result in serious injury or death.CautionHandling the product without observing theinstructions that accompany a “Caution” symbol may result in injury or property damage.NoteThe items under this heading contain importanthandling instructions that the user should observe to ensure safe use of the product.Warning• Do not use the product in explosive or corrosive environments, in the presence of flammable gases, locations subjected to splashing water, or near combustibles. Doing so may result in fire, electric shock or injury.• Assign qualified personnel the task of installing, wiring,operating/controlling, inspecting and troubleshooting the product. Failure to do so may result in fire, electric shock or injury. • Do not transport, install the product, perform connections or inspections when the power is on. Always turn the power offbefore carrying out these operations. Failure to do so may result in electric shock.• Turn off the power in the event the overheat protection device (thermal protector) is triggered. Failure to do so may result in injury or damage to equipment, since the motor will start abruptly when the overheat protection device (thermal protector) is automatically reset.• To prevent the risk of electric shock, use the motor for class I equipment only.Motore zur Verwendung in Geräten der Schutzklasse I.• Install the motor in an enclosure in order to prevent electric shock or injury.• Install the motor so as to avoid contact with hands, or ground it to prevent the risk of electric shock.Die Gehäuse der Motore sind mit einer Schraube undZahnscheibe sicher mit dem geerdeten Gehäuse des Gerätes zu verbinden.• Keep the input power voltage within the specification to avoid fire and electric shock.• Connect the cables securely according to the wiring diagram in order to prevent fire and electric shock.• Do not forcibly bend, pull or pinch the lead wires. Doing so may result in fire and electric shock.• Turn off the power in the event of a power failure, or the motor will suddenly start when the power is restored and may cause injury or damage to equipment.• Do not touch the connection terminal of the capacitor immediately after the power is turned off (for a period of 30 seconds). Theresidual voltage may cause electric shock.• Do not disassemble or modify the motor. This may cause electric shock or injury.Caution• Do not use the motor beyond its specifications, or electric shock, injury or damage to equipment may result.• Do not touch the motor during operation or immediately after stopping. The surface is hot and may cause a burn.• Do not hold the motor output shaft or motor lead wires. This may cause injury.• Keep the area around the motor free of combustible materials in order to prevent fire or a burn.• To prevent the risk of damage to equipment, leave nothing around the motor that would obstruct ventilation.• To prevent bodily injury, do not touch the rotating parts (output shaft, cooling fan) of the motor during operation.• When an abnormality is noted, turn off the power immediately, or fire, electric shock or injury may occur.• The motor’s surface temperature may exceed70 °C, even under normal operating conditions. Ifa motor is accessible during operation, post thewarning label shown in the figure in aconspicuous position to prevent the risk of skinburn(s).Warning label• To dispose of the motor, disassemble it into parts and components as much as possible and dispose of individual parts/components as industrial waste.Checking the productVerify that the items listed below are included. Report any missing or damaged items to the branch or sales office from which you purchased the product.• Motor...............................................1 unit• OPERATING MANUAL................1 copyChecking the model nameCheck the model number against the number indicated on the product.Model Model Model4IK25GN-FCH 4IK25GN-ECH 4IK25GN-SH4IK25AA-FCH 4IK25AA-ECH 4IK25AA-SH5IK40GN-FCH 5IK40GN-ECH 5IK40GN-SH5IK40AA-FCH 5IK40AA-ECH 5IK40AA-SH5IK60GE-FCH 5IK60GE-ECH 5IK60GE-SH5IK60A-FCH 5IK60A-ECH 5IK60A-SH5IK60GU-FCH 5IK60GU-ECH 5IK60GU-SH5IK90GE-FCH 5IK90GE-ECH 5IK90GE-SH5IK90A-FCH 5IK90A-ECH 5IK90A-SH5IK90GU-FCH 5IK90GU-ECH 5IK90GU-SH Location for installationThe motor is designed and manufactured for installation in equipment.Install it in a well-ventilated location that provides easy access for inspection. The location must also satisfy the following conditions: • Inside an enclosure that is installed indoors (provide vent holes) • Operating ambient temperature−10 to +40 °C (+14 to +104 °F) (non-freezing)−10 to +50 °C (+14 to +122 °F) for three-phase 200 V• Operating ambient humidity 85%, maximum (non-condensing) • Area that is free from an explosive atmosphere or toxic gas (such as sulfuric gas) or liquid• Area not exposed to direct sun• Area free of excessive amount dust, iron particles or the like• Area not subject to splashing water (storms, water droplets), oil (oil droplets) or other liquids• Area free of excessive salt• Area not subject to continuous vibration or excessive shocks• Area free of excessive electromagnetic noise (from welders,power machinery, etc.)• Area free of radioactive materials, magnetic fields or vacuum• 1000 m (3300 ft.) or less above sea levelHow to install the motor• Round shaft typeDrill holes on the mounting plate and fix the motor on the plateusing screws, nuts, and washers (not supplied). Be careful there is nogap between the motor installation surface and the bracket.First number inmotor modelScrew size Tightening torque [N·m (lb-in)]4 M5 2.5(22)5 M6 3.0(26)Do not insert the motor into the mounting hole at anangle or force it in, as this may scratch the flange pilotsection and damage the motor.• Pinion shaft typeDrill holes on the mounting plate and fix the motor and gearhead on the plate using screws supplied with the gearhead. Be careful there is no gap between the motor flange and the gearhead.For details of installation, see the operating manual provided with the gearhead, which is sold separately.Use the gearhead with pinion shaft which is identicalwith one of motor.• Motor with cooling fanWhen installing a motor with cooling fan onto a device, leave10 mm (0.39 in.) or more behind the fan cover or open a ventilation hole so that the cooling inlet on the back of the motor cover is not blocked.Insulate all the wire connections, such as the connection between the motor and the capacitor connection.When the single-phase motor is run in only one direction, unused lead wires should be insulated.Ground the motor using a Protective Earth lead wire (green/yellow). The direction of motor rotation is as viewed from the side of the motor’s output shaft. The motor rotates in a clockwise (CW) and counterclockwise (CCW) direction.• Insulation class of this motor is B. Make sure that themotor case temperature does not exceed 90 °C(194 °F) during operation of the motor. Operationexceeding case temperature 90 °C (194 °F) maysignificantly deteriorate the coils and ball bearings ofthe motor and shorten the motor’s life span. Motorcase temperature can be measured by fixing athermometer on the motor surface. It can also bemeasured using thermo tape or a thermocouple.• To change rotation direction of the single-phasemotor, wait until the motor completely stops.Otherwise its direction may not change or may takemuch time to change.Rotating direction of the gearhead output shaftThe rotating direction of the gearhead output shaft may be opposite that of the motor shaft, depending on the gear ratio. For the rotating direction of the output shaft of a specific gearhead used, refer to the operating manual for the gearhead. Connection method to a terminal box• Open the terminal box and connect wires.• Use applicable cable ground and conduit for conduit opening. • After connecting, close the terminal box with the terminal cover. • Terminal cover screws tightening torqueSingle-phase 25 W, 40 W/Three-phase: 0.3 N·m (2.6 lb-in) Single-phase 60 W, 90 W: 1 N·m (8.8 lb-in)• Single-phase 25 W, 40 W/Three-phase••Connect the motor according to the figure.The connection method will vary, depending on the directionClockwiseLNCounterclockwiseLN∗ NC: Not connect. Three-phase motorsConnect the motor according to the figure.When connected according to the connection diagram, the motor will operate in the clockwise direction (CW) as viewed from the motor’s output shaft. To change the direction of rotation, change any two connections between U, V and W.ClockwiseL2 (S)L1 (R)L3 (T)Motors have a continuous rating.This motor is equipped with the feature listed below to prevent the motor from burning out as a result of abnormal heating which maybe caused by misapplication.• Thermal protection“TP” is stamped on the motor nameplate. The motor has an “auto reset” type thermal protector built into its motor coil. When themotor reaches a predetermined temperature, the internal thermal protector is activated and the motor is stopped.Always turn the power off before performing inspections.Thermal protector activation rangePower is turned off at 130±5 °C (266±9 °F)Power is turned back on at 82±15 °C (180±27 °F)When the motor cannot be operated correctly, refer to the contents provided in this section and take appropriate action. If the problem persists, contact your nearest office.Phenomena CheckitemsMotor does not rotate or rotates slowly. • Check the power supply voltage.• Connect the power supply and the motor correctly.• If terminal blocks or crimp terminals are used, check them for poor connection. • Keep the load at or below the allowable value.Motor sometimes rotates and stops. • Connect the power supply and the motor correctly.• If terminal blocks or crimp terminals are used, check them for poor connection.The motor rotates in the direction opposite to the specified direction. • Connect correctly by referring to “Wiring diagram.”• The rotating direction of the motor output shaft may be different from that of the gearhead output shaft depending on the gear ratio of the gearhead. See the operating manual for the gearhead.• The rotating direction is indicated as viewed from the motor output shaft. Check the reference direction.Motor temperature abnormally high [Motor case temperature exceeds 90 °C (194 °F)] • Check the power supply voltage. • Review the ventilation condition.Noisy operation • Assemble the motor and gearheadcorrectly by referring to the operatingmanual for the gearhead.• Assemble a gearhead of the same piniontype as the motor.• Unauthorized reproduction or copying of all or part of thismanual is prohibited.• Oriental Motor shall not be liable whatsoever for any problems relating to industrial property rights arising from use of anyinformation, circuit, equipment or device provided orreferenced in this manual.• Characteristics, specifications and dimensions are subject tochange without notice.• While we make every effort to offer accurate information in the manual, we welcome your input. Should you find uncleardescriptions, errors or omissions, please contact the nearestoffice.• is a registered trademark or trademark ofOriental Motor Co., Ltd., in Japan and other countries.© Copyright ORIENTAL MOTOR CO., LTD. 2008Printed on Recycled Paper • Please contact your nearest Oriental Motor office for further information.Headquarters Tokyo, JapanTel:(03)3835-0684 Fax:(03)3835-1890Tel:01 47 86 97 50 Fax:01 47 82 45 16Tel:(02)8228-0707 Fax:(02)8228-0708 Technical Support Tel:(800)468-39828:30 A.M. to 5:00 P.M., P.S.T. (M-F)7:30 A.M. to 5:00 P.M., C.S.T. (M-F)E-mail:*****************************Headquarters and Düsseldorf Office Tel:0211-52067-00 Fax:0211-52067-099 Munich Office Tel:089-3181225-00 Fax:089-3181225-25 Hamburg Office Tel:040-76910443 Fax:040-76910445Tel:01256-347090 Fax:01256-347099Tel:02-93906346 Fax:02-93906348Tel:(6745)7344 Fax:(6745)9405KOREATel:(032)822-2042~3 Fax:(032)819-8745Tel:(03)22875778 Fax:(03)22875528Tel:66-2-254-6113 Fax:66-2-254-6114。

UM 10418基于UBA2211的230V 12W CFL演示板版本.2.02——2011 01 10 用户手册文档信息摘要该文档为基于UBA2211的12W演示板用户手册修订历史v.1 10101026 第一版1. 简介UBA2211是一款耐高压集成控制芯片，外部只需增加少量的元件，就能驱动和控制紧凑型荧光灯（CFLs）。

它能为灯正常预热、点火和工作提供所必要的功能。

其内部集成了相关必要的保护功能，具有很高的性价比。

该用户手册将介绍基于UBA2211 230V 12W演示板的应用。

2. 特性2.1 系统集成度●集成半桥功率MOSFET- UBA2211A：导通阻抗13.5欧姆：最大点火电流：0.9A- UBA2211B: 导通阻抗0欧姆：最大点火电流1.35A- UBA2211C: 导通阻抗6.6欧姆：最大点火电流：1.85A●集成自举二极管●集成低压供电电路●集成电平转换电路2.2 灯管寿命●可调的预热时间和点火时间●可调的预热电流，不受电源电压影响●支持冷启动，最小辉光放电时间控制●可调灯功率●灯功率不受电源电压变化影响2.3 安全性●安全启动功能● 50%精确占空比●欠电压自锁保护●电感饱和保护●过热保护●电容模式保护● EOL 保护●灯开路保护2.4 应用简单●可调工作频率，方便与各种灯管匹配3. 电路图典型应用电路如图1图1 紧凑型荧光灯典型应用电路4. 规格说明UBA2211演示板用来驱动12W功率的灯管。

规格说明如下所示：● 230V（AC）−输入电压范围：220V到240V；50Hz−输入功率：230V（AC）下12W−输入电流：230V（AC）下80mA−功率因数：>0.58−正常运行频率：42kHz− 800ms的预热时间●灯管− Baishi 3U 12W灯管−其他灯电压70V，电流150mA的灯管5. 实际应用230V（AC）电源输入和灯管四个输出连接如图2所示：图2 12W CFL UBA2211实际应用6. 电路说明UBA2211为一款集成电路控制芯片，用于驱动紧凑型荧光灯。

To learn more about ON Semiconductor, please visit our website atPlease note: As part of the Fairchild Semiconductor integration, some of the Fairchild orderable part numbers will need to change in order to meet ON Semiconductor’s system requirements. Since the ON Semiconductor product management systems do not have the ability to manage part nomenclature that utilizes an underscore (_), the underscore (_) in the Fairchild part numbers will be changed to a dash (-). This document may contain device numbers with an underscore (_). Please check the ON Semiconductor website to verify the updated device numbers. The most current and up-to-date ordering information can befound at . Please email any questions regarding the system integration to Fairchild_questions@.ON Semiconductor and the ON Semiconductor logo are trademarks of Semiconductor Components Industries, LLC dba ON Semiconductor or its subsidiaries in the United States and/or other countries. ON Semiconductor owns the rights to a number of patents, trademarks, copyrights, trade secrets, and other intellectual property. A listing of ON Semiconductor’s product/patent coverage may be accessed at /site/pdf/Patent-Marking.pdf. ON Semiconductor reserves the right to make changeswithout further notice to any products herein. ON Semiconductor makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does ON Semiconductor assume any liability arising out of theapplication or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages. Buyer is responsible for its products and applications using ON Semiconductor products, including compliance with all laws, regulations and safety requirements or standards, regardless of any support or applications information provided by ON Semiconductor. “Typical” parameters which may be provided in ON Semiconductor data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. ON Semiconductor does not convey any license under its patent rights nor the rights of others. ON Semiconductor products are not designed, intended, or authorized for use as a critical component in life support systems or any FDA Class 3 medical devices or medical devices with a same or similar classification in a foreign jurisdiction or any devices intended for implantation in the human body. Should Buyer purchase or use ON Semiconductor products for any such unintended or unauthorized application, Buyer shall indemnify and hold ON Semiconductor and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associatedS2A - S2M — General-Purpose Rectifiers (Glass Passivated)S2A - S2MGeneral-Purpose Rectifiers (Glass Passivated)Features•High-Current Capability, 2 A Rated•Fast Response: 2 μs T rr•Low-Forward Voltage Drop, 1.15 V V F Max at 2 A•High-Surge Current Capability, 50 A 2s I FSM•Glass Passivated Junction•RoHS Compliant•UL Certified, UL #E258596Applications•Power Supplies•AC to DC Rectification•Bypass Diodes Ordering InformationPart NumberMarking Package Packing Method S2AS2A DO-214AA (SMB)Tape and ReelS2BS2B S2DS2D S2GS2G S2JS2J S2KS2K S2M S2M Description The S2 family of devices are general-purpose 2 A rated rectifiers with voltage ratings ranging from 50 to 1000 V.They are implemented in traditional SMB packages and are well known to the industry. For advanced or special requirements, please contact a Fairchild Semiconductor representative.SMB/DO-214AA COLOR BAND DENOTES CATHODE2.202.504.70 2.65MAX2.451.90B 0.2030.0500.300.052.15 1.65A0.13M C B AC 3.953.30B2.201.91B5.605.08B4.754.050.13M C B ABA0.410.151.600.75R0.15 4X8°0°0.450-8°DETAIL ASCALE 20 : 1LAND PATTERN RECOMMENDATIONGAUGEPLANENOTES:A.EXCEPT WHERE NOTED CONFORMS TOJEDEC DO214 VARIATION AA.B DOES NOT COMPLY JEDEC STD. VALUE.C.ALL DIMENSIONS ARE IN MILLIMETERS.D.DIMENSIONS ARE EXCLUSIVE OF BURRS,MOLD FLASH AND TIE BAR PROTRUSIONS.E.DIMENSION AND TOLERANCE AS PER ASMEY14.5-1994.ND PATTERN STD. DIOM5336X240M.G.DRAWING FILE NAME: DO214AAREV1S2A - S2M — General-Purpose Rectifiers (Glass Passivated) Figure 6. 2-LEAD, SMB, JEDEC DO-214, VARIATION AA。

High OutputIndustrial VRS Magnetic Speed SensorsDESCRIPTIONHigh Output VRS sensors are designed for use in applications where higher output voltages are needed. They perform best at low to medium speeds with medium to high impedance loads. Front-End Sealed versions are available for use where the sensor is exposed to fluids, lubricants or adverse environmental conditions.Passive VRS (Variable Reluctance Speed) Magnetic Speed sensors are simple, rugged devices that do not require an external voltage source for operation.A permanent magnet in the sensor establishes a fixedmagnetic field. The approach and passing of a ferrous metal target near the sensor’s pole piece (sensing area) changes the flux lines of the magnetic field, dynamically changing its strength. This change in magnetic field strength induces a current into a coil winding which is attached to the output terminals.The output signal of a VRS sensor is an ac voltage that varies in amplitude and wave frequency as the speed of themonitored device changes, and is usually expressed in peak to peak voltage (Vp-p).One complete waveform (cycle) occurs as each target passes the sensor’s pole piece. If a standard gear were used as a target, this output signal would resemble a sine wave if viewed on an oscilloscope.Honeywell also offers VRS sensors for general purpose, power output, high resolution, high temperature, and hazardous location applications, as well as low-cost molded versions.FEATURES• Direct conversion of actuator speed to output frequency • Simple installation • No moving parts• Designed for use over a wide range of speeds • Adaptable to a wide variety of configurations• Customized VRS products for unique speed sensingapplications• Housing diameters: 5/8 in (M16), 3/8 in (M12)• Housing materials/styles: stainless steel threaded orsmooth• Terminations: MS3106 connector, preleaded • Output voltages: 8 Vp-p to 190 Vp-pPOTENTIAL APPLICATIONSaircraft, automobiles, boats, buses, trucks and rail vehicles• Motor RPM measurement on drills, grinders, lathes andautomatic screw machines• Motor RPM measurement on precision camera, taperecording and motion picture equipment• Process speed measurement on food, textile, paper,woodworking, printing, tobacco and pharmaceutical industry machinery• Motor speed measurement of electrical generatingequipment• Speed measurement of pumps, blowers, mixers, exhaustand ventilating fans• Flow measurement on turbine meters• Wheel-slip measurement on autos and locomotives • Gear speed measurementHigh Output2 /sensing5/8 INCH (M16*) SENSORS (All dimensions for reference only. mm/[in]) *Contact Honeywell for availability of metric mounting thread versions.General SpecificationsTest Condition SpecificationsParameter Characteristic Parameter Characteristic Parameter Characteristic Min. output voltage 190 Vp-p Inductance 450 mH max. Surface speed 25 m/s[1000 in/s]Coil resistance 910 Ohm to 1200 Ohm Gear pitch range 24 DP (module 1.06) or coarser Gear 20 DP(module 1.27)Pole piece diameter 2,69 mm [0.106 in] Optimum actuator 20 DP (module 1.27) ferrous metal gear Air gap 0,127 mm [0.005 in]Min. surface speed 0,25 m/s [10 in/s] typ. Max. operating frequency 15 kHz typ. Operating temp.range-55 ºC to 120 ºC [-67 ºF to 250 ºF] Vibration Mil-Std 202F Method 204DMounting thread 5/8-18 UNF-2ATermination MS3106 connectorLoadresistance100 kOhm General SpecificationsTest Condition SpecificationsParameter Characteristic Parameter Characteristic Parameter Characteristic Min. output voltage 190 Vp-p Inductance 450 mH max. Surface speed 25 m/s[1000 in/s]Coil resistance 910 Ohm to 1200 Ohm Gear pitch range 24 DP (module 1.06) or coarser Gear 20 DP(module 1.27)Pole piece diameter 2,69 mm [0.106 in] Optimum actuator 20 DP (module 1.27) ferrous metal gear Air gap 0,127 mm[0.005 in]Min. surface speed0,25 m/s [10 in/s] typ. Max. operating frequency 15 kHz typ. Operating temp. range-55 ºC to 120 ºC [-67 ºF to 250 ºF] Vibration Mil-Std 202F Method 204DMounting thread 5/8-18 UNF-2ATermination 20 AWG Teflon-insulated LeadsLoad resistance 100 kOhmIndustrial VRS Magnetic Speed SensorsHoneywell Sensing and Control35/8 INCH (M16*) SENSORS CONTINUED (All dimensions for reference only. mm/[in]) *Contact Honeywell for availability of metric mounting thread versions.General SpecificationsTest Condition SpecificationsParameter Characteristic Parameter Characteristic Parameter CharacteristicMin. output voltage190 Vp-pInductance 450 mH max.Surface speed 25 m/s[1000 in/s]Coil resistance 910 Ohm to 1200 Ohm Gear pitch range24 DP (module 1.06) or coarserGear 20 DP(module 1.27)Pole piece diameter 2,69 mm [0.106 in] Optimum actuator 20 DP (module 1.27)ferrous metal gearAir gap 0,127 mm[0.005 in]Min. surface speed0,25 m/s [10 in/s] typ. Max. operating frequency15 kHz typ. Operating temp. range-55 ºC to 120 ºC [-67 ºF to 250 ºF] Vibration Mil-Std 202F Method 204DMounting thread 5/8-18 UNF-2ATermination 20 AWG Teflon-insulated leadsLoad resistance100 kOhmGeneral SpecificationsTest Condition SpecificationsParameter Characteristic Parameter Characteristic Parameter Characteristic Min. output voltage190 Vp-p Inductance 450 mH max. Surface speed 25 m/s[1000 in/s]Coil resistance 910 Ohm to 1200 Ohm Gear pitch range 24 DP (module 1.06) or coarser Gear 20 DP(module 1.27)Pole piece diameter 2,69 mm [0.106 in] Optimum actuator 20 DP (module 1.27) ferrous metal gear Air gap 0,127 mm[0.005 in]Min. surface speed0,25 m/s [10 in/s] typ. Max. operating frequency 15 kHz typ. Operating temp. range-55 ºC to 120 ºC [-67 ºF to 250 ºF] Vibration Mil-Std 202F Method 204DMounting thread 5/8-18 UNF-2ATermination MS3106 connectorLoad resistance 100 kOhmHigh Output4 /sensing5/8 INCH (M16*) SEALED FRONT-END SENSORS (All dimensions for reference only. mm/[in]) *Contact Honeywell for availability of metric mounting thread versions.HIGH RESISTANCE COILS FOR MAXIMUM OUTPUT VOLTAGE APPLICATIONS General Specifications Test Condition Specifications Parameter Characteristic Parameter Characteristic Parameter Characteristic Min. output voltage 175 Vp-p Inductance 450 mH max. Surface speed 25 m/s [1000 in/s] Coil resistance 910 to 1200 Ohm Gear pitch range 24 DP (module 1.06) ferrous metal gear Gear 20 DP(module 1.27)Pole piece diameter 2,69 mm [0.106 in] Optimum actuator -- Air gap 0,127 mm [0.005 in]Minimum surface speed 0,25 m/s [10 in/s] typ. Maximum operating frequency 15 kHz typ. Operating temp. range-55 ºC to 150 ºC [-67 ºF to 300 ºF] Vibration Mil-Std 202F Method 204DMounting thread 5/8-18 UNF-2ATermination MS3106 connectorLoad resistance100 kOhmIndustrial VRS Magnetic Speed SensorsHoneywell Sensing and Control 55/8 INCH (M16*) SEALED FRONT-END SENSORS (All dimensions for reference only. mm/[in]) *Contact Honeywell for availability of metric mounting thread versions.NOMINAL RESISTANCE COILS FOR LOW IMPEDANCE LOAD APPLICATIONS General Specifications Test Condition Specifications Parameter Characteristic Parameter Characteristic Parameter Characteristic Min. output voltage60 Vp-p Inductance 85 mH max. Surface speed 25 m/s[1000 in/s]Coil resistance 120 to 162 Ohm Gear pitch range 12 DP (module 2.11) ferrous metal gear Gear 8 DP(module 3.17)Pole piece diameter4,39 mm [0.173 in] Optimum actuator N/A Air gap 0,127 mm [0.005 in]Minimum surface speed0,38 m/s [15 in/s] typ.Maximum operating frequency40 kHz typ. Operating temp. range-55 ºC to 150 ºC[-67 ºF to 300 ºF] Vibration Mil-Std 202FMethod 204DMounting thread 5/8-18 UNF-2ATermination MS3106 connectorLoad resistance 1.25 kOhmHigh Output6 /sensing3/8 INCH (M12*) SENSORS (All dimensions for reference only. mm/[in]) *Contact Honeywell for availability of metric mounting thread versions.General SpecificationsTest Condition SpecificationsParameter Characteristic Parameter Characteristic Parameter Characteristic Min. output voltage55 Vp-p Inductance 75 mH max. Surface speed 25 m/s[1000 in/s]Coil resistance 275 Ohm to 330 Ohm Gear pitch range 26 DP (module 0.98) or coarser Gear 20 DP(module 1.27)Pole piece diameter2,36 mm [0.093 in] Optimum actuator 24 DP (module 1.06) ferrous metal gear Air gap 0,127 mm[0.005 in] Minimum surface speed0,38 m/s [15 in/s] typ.Maximum operating frequency40 kHz typ. Operating temp. range-40 ºC to 107 ºC [-40 ºF to 225 ºF] Vibration Mil-Std 202F Method 204DMounting thread 3/8-24 UNF-2ATermination 24 AWG, vinyl-insulated leadsLoad resistance 100 kOhmIndustrial VRS Magnetic Speed SensorsHoneywell Sensing and Control 73/8 (M12*) SENSORS CONTINUED (All dimensions for reference only. mm/[in]) *Contact Honeywell for availability of metric mounting thread versions.General SpecificationsTest Condition SpecificationsParameter Characteristic Parameter Characteristic Parameter Characteristic Min. output voltage55 Vp-p Inductance 75 mH max. Surface speed 25 m/s[1000 in/s]Coil resistance 275 Ohm to 330 Ohm Gear pitch range 26 DP (module 0.98) or coarser Gear 20 DP(module 1.27)Pole piece diameter2,36 mm [0.093 in] Optimum actuator 24 DP (module 1.06) ferrous metal gear Air gap 0,127 mm[0.005 in] Minimum surface speed0,38 m/s [15 in/s] typ.Maximum operating frequency40 kHz typ.Operating temp. range-40 ºC to 107 ºC [-40 ºF to 225 ºF] Vibration Mil-Std 202F Method 204DMounting thread 3/8-24 UNF-2ATermination 24 AWG, PVC-insulated leadsLoad resistance 100 kOhmAutomation and Control Solutions Sensing and Control Honeywell1985 Douglas Drive North Minneapolis, MN 55422 /sensing 005876-1-EN IL50 GLO Printed in USA March 2007Copyright © 2007 Honeywell International Inc. All rights reserved.WARNINGPERSONAL INJURYDO NOT USE these products as safety or emergency stop devices or in any other application where failure of the product could result in personal injury.Failure to comply with these instructions could result in death or serious injury.WARRANTY/REMEDYHoneywell warrants goods of its manufacture as being free of defective materials and faulty workmanship. Honeywell’s standard product warranty applies unless agreed to otherwise by Honeywell in writing; please refer to your orderacknowledgement or consult your local sales office for specific warranty details. If warranted goods are returned to Honeywell during the period of coverage, Honeywell will repair or replace, at its option, without charge those items it finds defective. The foregoing is buyer’s sole remedy and is in lieu of all other warranties, expressed or implied, including those of merchantability and fitness for a particular purpose. In noevent shall Honeywell be liable for consequential, special, or indirect damages.While we provide application assistance personally, through our literature and the Honeywell web site, it is up to the customer to determine the suitability of the product in the application.Specifications may change without notice. The information we supply is believed to be accurate and reliable as of this printing. However, we assume no responsibility for its use.WARNINGMISUSE OF DOCUMENTATION• The information presented in this product sheet is forreference only. Do not use this document as a product installation guide.• Complete installation, operation, and maintenanceinformation is provided in the instructions supplied with each product.Failure to comply with these instructions could result in death or serious injury.SALES AND SERVICEHoneywell serves its customers through a worldwide network of sales offices, representatives and distributors. For application assistance, current specifications, pricing or name of the nearest Authorized Distributor, contact your local sales office or:E-mail: info.sc@Internet: /sensing Phone and Fax:Asia Pacific +65 6355-2828 +65 6445-3033 Fax Europe +44 (0) 1698 481481+44 (0) 1698 481676 FaxLatin America +1-305-805-8188+1-305-883-8257 Fax USA/Canada +1-800-537-6945+1-815-235-6847 +1-815-235-6545 Fax分销商库存信息:HONEYWELL.MA240SAN.MA233SAN.MA243SAN .MA230SAN。

DatasheetDTD723Y seriesNPN 200mA 30V Digital Transistors (Bias Resistor Built-in Transistors)l Features1) Built-In Biasing Resistorsl Inner circuit2) Built-in bias resistors enable the configuration of an inverter circuit without connecting external input resistors (see inner circuit).3) The bias resistors consist of thin-film resistors with complete isolation to allow negative biasing of the input. They also have the advantage of completely eliminating parasitic effects.4) Only the on/off conditions need to be set for operation, making the circuit design easy.5) Complementary PNP Types :DTB723Y series 6) Lead Free/RoHS Compliant.l ApplicationSwitching circuit, Inverter circuit, Interface circuit, Driver circuitDTD723YE OUTIN GNDOUTGND*2 Each terminal mounted on a reference footprint050100150200510I Fig.3 Output current vs. output voltage0.11100.111010010000.11101000.511.52Fig.1 Input voltage vs. output current (ON characteristics)I N P U T V O L T A G E : V I (o n ) [V ]OUTPUT CURRENT : I O [mA] O U T P U T C U R R E N T : I O [m A ]INPUT VOLTAGE : V I(off)[V]O U T P U T C U R R E N T : I O [m A ]OUTPUT VOLTAGE : V O [V] Fig.4 DC current gain vs. output current0.010.111101001000Fig.5 Output voltage vs. output currentO U T P U T V O L T A G E : V O (o n ) [V ]OUTPUT CURRENT : I O [mA]Dimension in mm/inchesVMT3Patterm of terminal position areasDimension in mm/inchesEMT3Patterm of terminal position areasNoticeN o t e sNo copying or reprod uction of this d ocument, in part or in whole, is permitted without theconsent of ROHM Co.,Ltd.The content specified herein is subject to change for improvement without notice.The content specified herein is for the purpose of introd ucing ROHM's prod ucts (hereinafter"Products"). If you wish to use any such Product, please be sure to refer to the specifications,which can be obtained from ROHM upon request.Examples of application circuits, circuit constants and any other information contained hereinillustrate the standard usage and operations of the Products. The peripheral conditions mustbe taken into account when designing circuits for mass production.Great care was taken in ensuring the accuracy of the information specified in this document.However, should you incur any d amage arising from any inaccuracy or misprint of suchinformation, ROHM shall bear no responsibility for such damage.The technical information specified herein is intended only to show the typical functions of andexamples of application circuits for the Prod ucts. ROHM d oes not grant you, explicitly orimplicitly, any license to use or exercise intellectual property or other rights held by ROHM andother parties. ROHM shall bear no responsibility whatsoever for any dispute arising from theuse of such technical information.The Products specified in this document are intended to be used with general-use electronicequipment or devices (such as audio visual equipment, office-automation equipment, commu-nication devices, electronic appliances and amusement devices).The Products specified in this document are not designed to be radiation tolerant.While ROHM always makes efforts to enhance the quality and reliability of its Prod ucts, aProduct may fail or malfunction for a variety of reasons.Please be sure to implement in your equipment using the Products safety measures to guardagainst the possibility of physical injury, fire or any other damage caused in the event of thefailure of any Product, such as derating, redundancy, fire control and fail-safe designs. ROHMshall bear no responsibility whatsoever for your use of any Product outside of the prescribedscope or not in accordance with the instruction manual.The Products are not designed or manufactured to be used with any equipment, device orsystem which requires an extremely high level of reliability the failure or malfunction of whichmay result in a direct threat to human life or create a risk of human injury (such as a medicalinstrument, transportation equipment, aerospace machinery, nuclear-reactor controller, fuel-controller or other safety device). ROHM shall bear no responsibility in any way for use of anyof the Prod ucts for the above special purposes. If a Prod uct is intend ed to be used for anysuch special purpose, please contact a ROHM sales representative before purchasing.If you intend to export or ship overseas any Product or technology specified herein that maybe controlled under the Foreign Exchange and the Foreign Trade Law, you will be required toobtain a license or permit under the Law.Thank you for your accessing to ROHM product informations.More detail product informations and catalogs are available, please contact us.ROHM Customer Support System/contact/分销商库存信息: ROHMDTD723YMT2L。

UBA2071; UBA2071AHalf bridge control IC for CCFL backlightingRev. 01 — 23 June 2008Product data sheet1.General descriptionThe UBA2071 and UBA2071A are high voltage ICs intended to drive Cold CathodeFluorescent Lamps (CCFLs) or External Electrode Fluorescent Lamps (EEFLs) forbacklighting applications.They can drive a half bridge circuit made up of two NMOSFETswith a supply voltage of up to550V,so the inverter can be supplied directly from a400VPFC bus.The UBA2071 and UBA2071A contain a controller, a level shifter, a bootstrap diode anddrivers for the external half bridge power switches. It also contains a low frequency PWMgenerator,which can be used to control the brightness level of the lamps,using an analogbrightness/dimming control voltage. PWM dimming can also be realized, using a digitalPWM input signal.PWM dimming can be synchronized with other ICs.The lamp current iscontrolled by means of a true zero voltage switching resonant control principle, ensuringlowest possible switch losses in the half bridge power structure.The UBA2071is designed to be supplied by a∆V/∆t supply from the half bridge circuit thatit drives. The IC itself needs little current and if the IC is off, a clamp protects the supplyvoltage from getting too high.The UBA2071A is designed to be supplied by a fixed 12 V supply. It has a lower supplystart voltage and no supply clamp.2.FeaturesI Suitable for operating in a very wide inverter supply voltage range (up to550 V DC).I Integrated level shifter.I Integrated bootstrap diode.I Lamp current control by means of a true zero voltage switching resonant controlprinciple.I Sample & Hold circuit, maintaining current control value during PWM lamp-offsituation.I Separately definable time constants for current control loop and PWM dimmingattack/decay setting.I Overvoltage control.I Overcurrent protection.I Ignition failure detection.I Hard switching control.I Arcing detection.I Open/short pin protections on feedback pins.I Integrated, programmable fault timer.I Bidirectional pin acting both as fault signaling output and input, allowing external faultinterfacing to operate via the integrated fault timer.I Brightness level adjustment through PWM dimming.I Integrated PWM generator.I Power-down mode.I Communication pin for master / slave operation.I DC blocking capacitor pre-charging sequence.I Supply clamp (UBA2071 only).3.ApplicationsI LCD-backlighting,including LCD-TV and LCD-monitor applications.The IC is intendedto drive and control a half bridge inverter with resonant load circuit for CCFLs,but canalso drive an array of External Electrode Fluorescent Lamps (EEFLs).4.Quick reference dataTable 1.Quick reference data.T amb=25°C;V VDD=12V;R IREF=33kΩ;V EN=V VDD and CPWM connected to a capacitor,unlessotherwise specified.All voltages are measured with respect to signal ground(SGND,pin10).SGNDand PGND connected together. Currents are positive when flowing into the IC.Symbol Parameter Conditions Min Typ Max UnitV SH voltage on pin SH--550VV VDD voltage on pin VDD--14VI VDD current on pin VDD EN pin grounded;V VDD= 14.0 V;UBA2071A T andUBA2071A TS--0.22mAoscillating at f sw(min);C CF=100pF1.2 1.5 1.8mAdisabled;V VDD=11V-0.16-mAoscillating;CF=100pF;GL and GH open- 1.5-mAC CF= 100 pF;V PWMD=H;V CSWP=0V1.0 1.2 1.4mAf sw(min)minimum switchingfrequency C CF=100pF[1][2]10-100kHz[1][2]384042kHzf sw(max)/f sw(min)maximum switchingfrequency tominimum switchingfrequency ratio2.2 2.4 2.6kHzV ref(creg)current regulationreference voltage1.20 1.26 1.32V[1]Given frequency is switching frequency of GL and GH. Sawtooth frequency on CF pin is twice as high.[2]Can be set by external capacitor[3]PWMD is active low: A low level on the PWMD pin corresponds with lamps-on. Example:δPWM = 20 %means PWMD is during 20 % of each cycle low and the lamps are 20 % of the time on, resulting in a light output of 20 %.5.Ordering informationV th(ov)(VFB)overvoltagethreshold voltage on pin VFB2.402.502.60Vt to(fault)fault time-out time C CT = 100 nF 0.85 1.00 1.15s I source(drv)driver source current V GL , V GH = 4 V;V VDD =V FS =12V −105−90−75mA R sink(drv)driver sink resistance V GL , V GH = 2 V;V VDD =V FS =12V13.516.018.5Ωf PWM PWM frequency [1]75-1000Hz δPWMDduty cycle on pin PWMD[3]12-100%Table 1.Quick reference data.T amb =25°C;V VDD =12V;R IREF =33k Ω;V EN =V VDD and CPWM connected to a capacitor,unless otherwise specified.All voltages are measured with respect to signal ground (SGND,pin 10).SGND and PGND connected together. Currents are positive when flowing into the IC.Symbol Parameter Conditions Min Typ Max Unit Table 2.Ordering informationType numberPackage NameDescriptionVersion UBA2071T SO24plastic small outline package; 24leads; body width 7.5mm SOT137-1UBA2071A T SO24plastic small outline package; 24leads; body width 7.5mm SOT137-1UBA2071TS SSOP24plastic shrink small outline package; 24leads;body width 5.3mmSOT340-1UBA2071A TSSSOP24plastic shrink small outline package; 24leads;body width 5.3mmSOT340-16.Block diagramFig 1.Block diagramARCING DETECTIONDOUBLE SIDE RECTIFIERHARD-SWITCHING DETECTIONMASTER / SLAVE COMMUNICATIONNON-OVERLAPTIMINGPWM GENERATORLAMP CURRENT SENSINGOVER-CURRENT DETECTIONOVER-VOLTAGE SENSING TRACK AND SWEEPINTERNAL SUPPL Y ANDREFERENCE CIRCUITSLEVEL-SHIFTERTIMERHFOSCILLATORCONTROLIREF VDD ENCFCSWP CVFBVFBIFBCIFB PWMA PWMD CPWMFSGHSHGLPGNDCOMMVDDbootstrap diodeVDDlow-side driverhigh-sidedriverUBA2071SGND CTNONFAULT014aaa0987.Pinning information7.1Pinning7.2Pin descriptionFig 2.Pin assignment SO24 and SSOP24 package (top view)UBA2071IFB GH CIFB FS VFB SH CVFB n.c.CSWPn.c.CT n.c.CF GL IREF PGND CPWMVDD SGND EN COMM PWMA NONFAULT PWMD014aaa099123456789101112141316151817201922212423Table 3.Pin description Symbol Pin DescriptionFunctionIFB 1current feedback input.Input signal for the lamp current control loop. Should be connected to a voltage proportional to the lamp current.CIFB 2current regulation capacitor.A capacitor must be connected between this pin and the signal ground. It sets the time constant of the lamp current control loop.VFB 3voltage feedback input Input signal for the voltage control loop. Should be connected to a voltage proportional to the transformer output voltage.CVFB 4voltage regulation capacitor A capacitor must be connected between this pin and the signal ground. It sets the time constant of the voltage control loop.CSWP5frequency sweep capacitorA capacitor must be connected between this pin and the signal ground. It sets the time in which the HF frequency is swept up from regulation level to the maximum frequency and back during PWM dimming.CT 6fault timing capacitor A capacitor must be connected between this pin and the signal ground. It sets the time that a fault condition is allowed before the IC shuts down itself.CF 7HF-oscillator timing capacitorA capacitor must be connected between this pin and the signal ground. It sets the minimum switching frequency of the half bridge.IREF 8reference current output A 33 k Ω resistor must be connected between this pin and the signal ground.The IC uses it to make accurate internal currents.CPWM9PWM timing capacitorIf a capacitor is connected between this pin and the signal ground,it sets the frequency of the PWM oscillator.If this pin is connected to signal ground the internal PWM oscillator is disabled.SGND 10signal ground COMM11master / slave communicationVia this pin the IC can communicate with a dedicated slave device.8.Functional descriptionThe UBA2071 and UBA2071A are designed to drive a half bridge inverter (as shown in Figure 3)with a resonant load.The load consists typically of a transformer with CCFLs or EEFLs.The IC has an AC lamp current sense input (IFB).It regulates the average absolute value of the lamp current by varying its switching frequency. The load is presumed to be inductive: higher frequency results in lower lamp current.The UBA2071 and UBA2071A include a PWM dimming function. The ICs switch the lamps on and off with a frequency lower than the lamp current frequency but higher than what the human eye can see. The light output of the lamps can be set by setting the ratio of the on-time and off-time.These ICs have several forms of protection and the next chapters will describe each function in more detail.NONFAULT 12status signal input/outputThe IC signals a fault condition to external circuits by pulling this pin low.Also external circuits can signal a fault condition to the IC by pulling this pin low.PWMD13digital PWM dimming input/outputDigital output of internally generated PWM signal if a capacitor is connected to the CPWM pin.Digital input of PWM signal if the CPWM pin is connected to signal ground.Remark:The signal on the PWMD pin is active low, so low voltage on the PWMD pin means lamps are on.PWMA 14analog PWM dimming inputThe duty cycle of the internally generated PWM signal is proportional to the voltage on this pin.EN15chip enable inputA low voltage on this pin will reset and shut down the IC.This pin is also used to select between DC blocking capacitor charging mode and normal operation.VDD 16supply input A buffer capacitor must be connected between this pin and power ground.PGND 17power ground return for the low-side driver.GL 18low-side driver output Gate connection of the low-side power switch.n.c.19not connected HV spacer pin.n.c.20not connected HV spacer pin.n.c.21not connected HV spacer pin.SH 22high-side source connection Return for high side gate driver. Must be connected to the source of the high-side half bridge power switch.FS23floating supplyA buffer capacitor must be connected between this pin and the SH pin. This capacitor is charged when the low-side power switch is on and supplies the high-side driver when the high-side power switch is on.GH 24high-side driver outputGate connection of the high-side half bridge power switch.Table 3.Pin description …continued SymbolPinDescription Function8.1Supply, Start-up and UnderVoltage LockOut (UVLO)The UBA2071 is supplied via the VDD pin as shown in Figure 4. The supply voltage is either made by the inverter itself, using a ∆V/∆t or is a auxiliary fixed supply voltage. A start-up current source that can supply minimal I startup(VDD)is needed for start-up.This can be a resistor to the half bridge supply voltage.The IC starts up when the voltage at the VDD pin goes over V startup(VDD) and shuts down when the voltage at the VDD pin drops below V stop(VDD) and the output GL is high 1. The hysteresis between the start and stop levels allows the IC to be supplied by the supply buffer capacitor (C1 in Figure 4) until the auxiliary supply is settled. The auxiliary supply must not exceed the maximum voltage allowed on the VDD pin and has to be above V stop(VDD).The UBA2071A can directly be supplied by a fixed voltage source on the VDD pin. The voltage supplied by this source has to be above the maximum value of V startup(VDD) but below the maximum of V VDD . Typically it will be a 12 V ± 5 % source.Fig 3.Basic half bridge inverterLOADV HV0.5 V HVV HBGL SH GHFS VDDPGNDUBA2071014aaa100C FSQ HSQ LSC blockFig 4.Supply configuration (for UBA2071 only)1.When both GH and GL are low, during the lamps-off period of PWM dimming (PWMD is high), the IC will shut down until the PWMD is low and the GL is high again.UBA2071V DDstart up currentAUXILARY SUPPL YC1014aaa1018.2V DD clampWhen the UBA2071 is disabled (EN pin low) or in the stop state, the V DD clamp isactivated. The V DD clamp is an internal active zener limiting the voltage to V clamp(VDD). Itprevents the start-up current source from charging the V DD buffer capacitor to too high avoltage.The maximum current that is allowed to be delivered by the start-up current source isdetermined by the clamp voltage as stated in Table6 and the maximum allowed V DDvoltage as stated in T able4.The UBA2071A has no V DD clamp.8.3EnableThe UBA2071 or UBA2071A can be activated or set to standby via the EN pin. If thevoltage on the EN pin is below V th(L)(EN), the IC will stop oscillating at the next GL highstate2,and most parts of the internal circuits will shut down.When the EN pin is left open,it is pulled low by an internal bias current of I bias(EN).When the voltage on the EN pin comes above V th(H)1(EN), the IC will start up inDC blocking capacitor charging mode (see Section8.8). When the voltage on the EN pingoes over V th(H)2(EN), the IC will start with the initial ignition frequency sweep (seeSection8.8) and subsequently go to normal operation mode again.8.4The oscillatorThe UBA2071and UBA2071A have an internal voltage controlled sawtooth oscillator,seeFigure5. Its frequency inverses in proportion to the capacitor connected to the CF pin.The IC switches GL on and GH off during one oscillator period and GL off and GH onduring the next oscillator period. This results in a half bridge voltage with a frequency(called the switching frequency f sw from here on)of half the oscillator frequency and with aduty cycle of exactly 50 %.The oscillator frequency is controlled by changing the charge current at the CF pin. Bychanging the frequency the lamp current is controlled. It is also used to limit thetransformer output voltage and for gradually switching the lamps on and off during PWMdimming.2.When both GH and GL are low during the lamps off period of PWM dimming (so PWMD is high), the IC will wait with entering thestandby state until PWMD becomes low again and GL can be made high.8.5Non-overlapDuring each transition between the two states GL high/GH low and GL low/GH high, GL and GH will both be low for a fixed time t no (non-overlap time)to allow the half bridge point to be charged or discharged by the load current (presuming the load always has an inductive behavior), and thus enabling zero voltage switching, see Figure 5.8.6Low-side and high-side driversThe low-side and high-side drivers are identical.The output of each driver is connected to the equivalent gate of an external power MOSFET.The high-side driver is supplied by the bootstrap capacitor,which is charged from the V DD voltage via an internal diode when the low-side power MOSFETs is on. The low-side driver is directly supplied by the V DD voltage.8.7DC blocking capacitor chargingWhen the IC is off, either because V VDD is too low, it is disabled via the EN pin, or it stopped after the time-out period during a fault condition, the low-side power switch (Q LS in Figure 3) is turned on by making GL high. This ensures that the supply buffer capacitor of the floating supply (C FS in Figure 3) is fully charged at start-up. As a side effect the DC blocking capacitor (C block in Figure 3) will be completely discharged at start-up. T o prevent large inrush currents during the first switching cycles the UBA2071and UBA2071A can first charge the DC blocking capacitor at start-up.Fig 5.Oscillator, driver and half bridge voltagestV CFV CFH 0tV GH − V SHV DD0tV GLV DD 0tV HBV HV 0t no014aaa102When the voltage on the EN pin goes over V th(H)1(EN) after the IC has been disabled (EN pin below V th(L)(EN)) the IC will start up in DC blocking capacitor charging mode 3. When the voltage on the EN pin goes over V th(H)1(EN) after the IC has been off (EN pin below V th(L)(EN) or V DD below V stop(VDD)) the IC will start up in DC blocking capacitor charging mode. When the voltage on the EN pin goes over V th(H)2(EN) the IC will continue with the initial ignition frequency sweep and normal operation mode.Figure 6, EN configuration,shows three examples of how the enable input can be used:1.Digital enable input with DC blocking capacitor charging. R1 and C1 define a fixed DC blocking capacitor charging time.Remark:The digital input signal high level has to be above the maximum value of V th(H)2(EN).2.Sensing of HV supply and DC blocking capacitor voltages via the EN pin. The IC will start in DC blocking capacitor charging mode if V VDD is above V startup(VDD)and V HV is above .It will then go into initial ignition frequency sweep and normal operation mode once V Cblock has been charged to .3.Sensing of HV supply and DC blocking capacitor voltages via the EN pin combined with digital enable input.In DC blocking capacitor charging mode the low-side power switch (Q LS in Figure 3) is turned on for a period ((1/f sw(max))− t no ) and then the high-side power switch (Q HS in Figure 3) is turned on for a period ((1/f sw(max))− t no ) followed by a period of (3/f sw(min))during which both power switches are off. This is repeated until the mode is left. When leaving the DC blocking capacitor charging mode by raising the EN pin above V th(H)2(EN),the running cycle of the DC blocking capacitor charging mode will first be completed (see Figure 7).3.When the enable input is kept high during the time that the IC is off,because the supply voltage is too low,the IC might not start in DC blocking capacitor charging mode.Fig 6.EN configuration014aaa253UBA2071ENC1R1enable(1)UBA2071ENR 4V CblockV Hv(2)R 3R 2C blockUBA2071ENR 4V CblockV Hv(3)R 3R 2C blockR 5disableR2/R4()R2/R3()1++()V th(H)1(EN)×R4/R2()R4/R3()1++()V th(H)2(EN)R4/R2V HV ×–×()分销商库存信息:NXPUBA2071AT/N1,118UBA2071ATS/N1,118。

Solarproducts2Solar fusesREDindicates NEW information ContentsDescription Page Fuse holder and blockselection guide 2-2Volt F uses Size 600Vdc . . . . . . . . . . .PVM. . . . . 13/32˝ x 1 1/2˝. . . . . . . . . 2-4600Vac /300Vdc . . . .PVCF. . . . .CUBEFuse™. . . . . . . . .. 2-5600Vac/dc. . . . . .. . .PVS-R. . . .RK5. . . . . . . . . . . . . . . . . 2-71000Vdc . . . . . . . .. .PV. . . . . . .10x38mm . . . . . .. . . . . . .2-81000Vdc . . . . . . . .. .HPV. . . . . .10x38mm(in-line assembly). . . . . . . .2-91000/1100Vdc. . . .. .PV. . . . . . .14x51mm . . . . . . . . . . .2-101000Vdc . . . . . . . . . .NH. . . . . . .NH Sizes 1, 2, 3. . . . . . . 2-111000Vdc . . . . . . . . . .XL PV. . . . XL Size 01, 1, 2, 3. . .. . .2-121300/1500Vdc . . . .. .PV. . . . . . .14x65mm. . . . . . . . . . . .2-151200/1500Vdc . . . .. .XL PV. . . . XL Size 01, 1, 2, 3. . . . .2-162Solar fuses Holders and blocks for photovoltaic fuses 600 Volts Fuses Volts Page Midget. . . . . . . . . . . . . .PVM. . . . . . . . . . .600V. . . . . . . . . .2-4CF. . . . . . . . . . . . . . . . .CFPV. . . . . . . . . .600V. . . . . . . . . .2-5RK5. . . . . . . . . . . . . . . .PVS-R . . . . . . . . .600V. . . . . . . . . .2-7Holders •TCFH CUBEFuse holder, panel/DIN-Rail mount . . . . . . . . . . . . .1-16•CHM DIN-Rail mount holders . . . . . . . . . . . . . . . . . . . . . . . . . .9-2•HEB in-line holders. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9-46Blocks •Modular knifeblade fuse blocks 250/600V, panel mount . . . . . . . 9-17•RM600 RK5 open fuse blocks . . . . . . . . . . . . . . . . . . . . . . . . . .9-24•BMM midget open fuse blocks. . . . . . . . . . . . . . . . . . . . . . . . . .9-32BMM HEB TCFHR600Modular knifeblade1000 Volts Fuses Volts Page 10x38mm . . . . . . . . . . .PV-_A10. . . . . . . .1000V . . . . . . . . .2-814x51mm . . . . . . . . . . .PV-_A14. . . . . . . .1000/1100V. . . . .2-10NH Sizes 1, 2 and 3 . . . . PV-_ANH . . . . . . .1000V . . . . . . . . .2-1101XL . . . . . . . . . . . . . . .PV-_A-01XL . . . . .1000V . . . . . . . . .2-121XL . . . . . . . . . . . . . . . .PV-_A-1XL . . . . . .1000V . . . . . . . . .2-122XL . . . . . . . . . . . . . . . .PV-_A-2XL . . . . . .1000V . . . . . . . . .2-123L . . . . . . . . . . . . . . . . .PV-_A-3L . . . . . . .1000V . . . . . . . . .2-12Holders •CHPV 10x38 DIN-Rail mount holders . . . . . . . . . . . . . . . . . . . .9-2•CH14 14x51 DIN-Rail mount holders. . . . . . . . . . . . . . . . . . . . .9-2•HEB* 10x38 in-line holders. . . . . . . . . . . . . . . . . . . . . . . . . . . .9-46•HPV in-line holder assembly. . . . . . . . . . . . . . . . . . . . . . . . . . . .9-46* Self certified to 1000Vdc.Blocks•SB1XL-S 01XL and 1XL blocks . . . . . . . . . . . . . . . . . . . . . . . . .2-12•SB2XL-S 2XL blocks. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-12•SB3L-S 3L blocks. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-12•SD1-D-PV**. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-11•SD2-D-PV**. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-11•SD3-D-PV**. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-11** IEC only to 1000Vdc.CHPV CHM CH14HEB SD1-D-PV SB2XL-S SB3L-S HPVSB1XL-SSolarproducts2Solar fuses Holders and blocks for photovoltaic fuses SB2XL-S SB3L-S 1500 Volts Fuses Volts Page 01XL . . . . . . . . . . .PV-_A-01XL-15 . . . .1500V . . . . . . . . .2-161XL . . . . . . . . . . . .PV-_A-1XL-15 . . . . .1500V . . . . . . . . .2-162XL . . . . . . . . . . . .PV-_A-2XL-15 . . . . .1500V . . . . . . . . .2-163L . . . . . . . . . . . . .PV-_A-3L-15 . . . . . .1500V . . . . . . . . . 2-1614x65mm PV-_A14*. . . . . . . . .1300/1500V. . . . .2-15Blocks•SB1XL-S** 01XL and 1XL blocks . . . . . . . . . . . . . . . . . . . . . .2-16•SB2XL-S** 2XL blocks. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-16•SB3L-S** 3L blocks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-16*Available with tags for bolt mounting or 10mm fixings for mounting in modular blocks for 10mm diameter fuses.** IEC only to 1500Vdc.SB1XL-S2Solar fuses13/32˝ x 1 1/2˝ Midget PV fusesRecommended fuse holders and blocks for the PVM fuse Specifications:Description:fast-acting 600Vdc Midget fuses specificallydesigned to protect solor power systems inextreme ambient temperature, high cyclingand low level fault current conditions (reversecurrent, multi-array fault).Dimensions:13⁄32˝ x 1 1⁄2˝(10.3 x 38.1mm).Ratings:Volts— 600Vdc to UL 2579Amps— 4-30AIR— 50kA DC (4-30A)Agency information:UL Listed 2579, Guide JFGA, FileE335324, CSA Component Certified C22.2. RoHS compliant.Features and benefits:•Specifically designed to protect solar power systems inextreme ambient temperature per UL 2579 listed•Capable of withstanding high cycling and low level faultcurrent conditionsTypical applications:•Solar combiner boxes•Solar string protectorsCatalog numbers (amps)PVM-4PVM-7PVM-10PVM-20PVM-5PVM-8PVM-12PVM-25PVM-6PVM-9PVM-15PVM-30PVMData Sheet: 2153Catalog Amp Power loss (watts)number rating n 1.0 x I nPVM-1010 1.0 1.9PVM-1515 1.0 1.7PVM-3030 1.6 2.9I n= Rated currentPower loss (watts)Dimensions - (mm)11CURRENT IN AMPS.01.1110100AMP5AAAAAA1,TIMEINSECONDSSolar products2Solar fusesPhotovoltaic CUBEFuse™PVCF 600VData Sheet: 2155Carton quantity and weightAmp Carton Weight per cartonrating qty.lbs kgPVCF-35-60A12 1.420.65PVCF-70-100A6 1.740.79Catalog symbol:PVCF_RNFast-acting fuse:6 minutes maximum clearing time at 200%rated current for 30 to 60A fuse8 minutes maximum clearing time at 200%rated current for 70 to 100A fuseRatings:Volts— 600VdcAmps— 35-100AIR— 50kA DC (UL and CSA)Agency information:•UL 2579 Listed Fuse: Guide JFGA, File E335324•CSA Certified Fuse: Class C22.2•RoHS compliantOther ratings/specifications:Watts loss at rated current:PVCF35RN: 5.45WPVCF60RN: 7.27WPVCF100RN: 11.50WOperating and storage temperature range:-40 to 90°CMaterial specifications:• Case: glass filled PES (Polyethersulfone)• Terminals: copper alloy• Terminal plating: electroless tinFeatures and product benefits:•Maximize uptime and reliability using fuses designed and list-Low Voltage Fuses - Fuses for PhotovoltaicSystems.•Minimize chances of equipment failure and personnel injurywhen using full range fuses having the industry’s fastestresponse time to low-magnitude faults.•Maximize return on investment with fuses proven towithstand harsh temperatures.•Minimize design time, operating outage time andchanging enviromental conditions.•Simplify compatibility with readily available industrystandard Class CF holders.•Temperature derating: designed to maximize rated capacity inelevated environmental temperatures.•Overload protection: proven to clear faults faster than the ULrequirement.•Power loss: minimal energy consumption leading to increasedefficiency.Recommended fuse holders for Class CF fuses•2Solar fuses Photovoltaic CUBEFuse™ Data Sheet: 2155 Time-current characteristic curves–average melt 100A60A40A 50A 35A2Solar fusesLimitron™ fast-acting fusesData Sheet: 4203PVS-R(600Vac/dc) Class RK5Recommended fuse holders and blocks for Class RK5 fuses•See page 1-32Solar fuses 10x38mm photovoltaic fuses Description:A range 10x38mm, 1000Vdc PV fuses for the protection and isolation of photovoltaic strings. The fuses arespecifically designed for use in PV systems with extreme ambient temperature, high cycling and low fault current conditions (reverse current, multi-array fault) string arrays.flexibility.Basic fuse size:•10x38mm Catalog symbols:1-20A*—PV-(amp)A10F (cylindrical)—PV-(amp)A10-T (bolt mounting)—PV-(amp)A10-1P (single PCB tab)—PV-(amp)A10-2P (dual PCB tab)—PV-(amp)10F-CT (in-line, crimp terminals)25-30A**—PV10M-(amp) (cylindrical)—PV10M-(amp)-CT (in-line, crimp terminals)*Ceramic tube construction.**Melamine tube construction.Time constant:•1-3ms PV Fuse coordination:With thin film cells and 4”, 5” and 6” crystalline silicon cells Agency information:•UL Listed to 2579*, Guide JFGA, File E335324•IEC 60269-6 (gPV)•CSA File 53787, Class 1422-30 (1-15A), 20-30A Pending •CCC (1-20A) (25-30A pending)•RoHS Compliant *Except crimp terminal version that is UL Recognized to UL 2579, Guide JFGA2, File E335324.Features and benefits:•Meets UL and IEC photovoltaic standards for global acceptance •Low watts loss performance for energy efficiency •Low temperature rise performance for more precise sizing •In-line crimp terminal version is easy to apply in wire harness construction Typical applications:•Combiner boxes •Inverters •PV wire harnesses Recommended fuse blocks, holders and fuseclips:Part number Description Data Sheet #BPVM_10265with optional cover CHPV_Lit # 3185with optional open fuse indication 1A3400-09PCB fuseclip 2131HPV-DV-_AIn-line fuse holder assembly 2157Data Sheet: 1012110x38mm fuses — 1000Vdc, 1-30A Catalog numbers (amp)/electrical characteristics:Rated I 2t (A 2s)Cylindrical Bolt PCB fixing PCB fixing Rated volts Interrupting Pre-Total @Watts loss ferrule fixing single pin double pin crimp terminal amps Vdc rating arcing rated volts 0.8I n I n PV-1A10F PV-1A10-T PV-1A10-1P PV-1A10-2P PV-1A10F-CT 1100050kA 0.150.40.8 1.5PV-2A10F PV-2A10-T PV-2A10-1P PV-2A10-2P PV-2A10F-CT 2100050kA 1.2 3.40.6 1.0PV-3A10F PV-3A10-T PV-3A10-1P PV-3A10-2P PV-3A10F-CT 3100050kA 4110.8 1.3PV-3-5A10F PV-3-5A10-T PV-3-5A10-1P PV-3-5A10-2P PV-3-5A10F-CT 3.5100050kA 6.6180.9 1.4PV-4A10F PV-4A10-T PV-4A10-1P PV-4A10-2P PV-4A10F-CT 4100050kA 9.526 1.0 1.5PV-5A10F PV-5A10-T PV-5A10-1P PV-5A10-2P PV-5A10F-CT 5100050kA 1950 1.0 1.6PV-6A10F PV-6A10-T PV-6A10-1P PV-6A10-2P PV-6A10F-CT 6100050kA 3090 1.1 1.8PV-8A10F PV-8A10-T PV-8A10-1P PV-8A10-2P PV-8A10F-CT 8100050kA 332 1.2 2.1PV-10A10F PV-10A10-T PV-10A10-1P PV-10A10-2P PV-10A10F-CT 10100050kA 770 1.2 2.3PV-12A10F PV-12A10-T PV-12A10-1P PV-12A10-2P PV-12A10F-CT 12100050kA 12120 1.5 2.7PV-15A10F PV-15A10-T PV-15A10-1P PV-15A10-2P PV-15A10F-CT 15100050kA 22220 1.7 2.9PV-20A10F PV-20A10-T PV-20A10-1P PV-20A10-2P PV-20A10F-CT 20100050kA 34350 2.1 3.6PV10M-25————25100020kA 3251860* 1.7 2.9PV10M-30————30100020kA 5363360* 1.7 3.3*Total I 2************************************.Solarproducts2Solar fuses 10x38mm photovoltaic in-line assembly Data Sheet: 2157HPV — 1000Vdc Catalog symbol:HPV-DV-(amp)ADescription:Single-pole, non-serviceable photovoltaic in-line fuse holderand fuse assembly in an IP67 dust tight and temporary water immersion resistant insulating boot for use in photovoltaic wire harnesses.Ratings — 1000Vdc Amps — 1-20AIR — 33kA Agency information • UL Listed to 4248-1 and 4248-18. File # E 348242• CSA Component Acceptance, Class 6225 30, File # 47235• CE, RoHS Compliant, IP20 Finger-safe, IP67Conductors • 75°C/90°C Cu Stranded 12-10AWG PV wire T erminals • Crimp connection for single, stranded 12-10AWG PV conductor Boot material • UL 5VA flammability resistant rated elastomer. • UV resistant to UL F1 suitable for outdoor use.Operating and storage temperature range • -40°C to +90°C PackagingBulk packed in cartons, 180 fuse assemblies per carton. Cartonweight 19.3 Lbs (8.7543kg).Fuse assemblies poly bagged with PV fuse element, two insulating boots (for lineside and loadside), and one pressure to the wire harness.Catalog numbers (amps) and fuse elements*HPV catalog number 10x38mmPV fuse part number Amps HPV-DV-1A PV-1A10F-CT 1HPV-DV-2A PV-2A10F-CT 2HPV-DV-2.5A PV-2.5A10F-CT 2.5HPV-DV-3A PV-3A10F-CT 3HPV-DV-3.5APV-3.5A10F-CT 3.5HPV-DV-4A PV-4A10F-CT 4HPV-DV-5APV-5A10F-CT5HPV-DV-6A PV-6A10F-CT 6HPV-DV-8A PV-8A10F-CT 8HPV-DV-10A PV-10A10F-CT 10HPV-DV-12A PV-12A10F-CT 12HPV-DV-15A PV-15A10F-CT 15HPV-DV-20A PV-20A10F-CT 20* For fuse specifications and derating curves see data sheet no. 10121 at/DatasheetsEle.Recommended tools • Sta-Kon™ terminal crimping tool, catalog # ERG4002• Multi-Contact assembly tool, catalog # PV-RWZ with PV-KOI+II and PV-KOIII tapered spindles2Solar fuses 14x51mm photovoltaic fuses Time-current characteristic curves—average melt Dimensions - mmData Sheet: 720132Available current (amps), DC-time constant 1-3ms Recommended fuse holders and blocks for 14x51mm fuses •See page 2-2Features and benefits:•Specifically designed to provide fast-acting protection under low fault current conditions associated with PV systems •High DC voltage rating •Demonstrated performance in extreme temperature cycling conditions Typical applications:•Combiner boxes •Inverters Recommended fuse holder:CH141B-PV DIN-Rail modular fuse holder See data sheet # 720148 for more information.14x51mm fuses — 1000/1100Vdc, 15-32A2-11Solar products2Solar fusesNH photovoltaic fusesBUSSMANN SERIES FULL LINE CATALOG1007—July 2015 /bussmannseries Description:A range of 1000Vdc NH size Photovoltaic (PV) fusesspecifically designed for protecting and isolating arraycombiners/re-combiners, disconnects and inverters.Ratings:Volts— 1000VdcAmps— 32-400AIR— 50kAAgency information:•UL Listed, Guide JFGA, File E335324.Photovoltaic to UL 2579•IEC 60269-6 gPV•CSA Class 1422-30, File 53787 (32-160A)•UL Listed, IEC gPV, CSA, CCC Pending, RoHS compliantCatalog numbers/electrical characteristics:Data Sheet: 720133Features and benefits:•Compact size saves panel space and extends designflexibility•Bolt-on versions have common hole centers forstandardizing busbar designs across 63-400 amp range•Low power loss for greater efficiency and loweroperating temperature•Global agency standards simplifies designconsiderations for worldwide markets•Dual indication feature and optional microswitchesmake system monitoring easierTypical applications:•Recombiner boxes•InvertersRecommended fuse blocks*:Fuse size Fuse blockNH1SD1-D-PVNH2SD2-D-PVNH3SD3-D-PVSee data sheet # 720149 for more information.Optional microswitches*:Tab size/number mm (inch)Connection Volts Amps170H0236250/6.3 (1⁄4)Quick connect2502170H0238110/2.8 (0.11)Quick connect2502BVL50187/4.8 (3⁄16)Quick connect2506 NH fuses — 1000Vdc, NH1, 2, 3, 32-400A*For use with bladed version.FusesizeCurrentrating(amps)Energy integralsI2t (A2S)Watts lossPart numberPre-arcingT otal at1000V0.8InInPV-32ANH1NH1328072048PV-40ANH1NH140185167059PV-50ANH1NH1504003600611PV-63ANH1NH1634704300612PV-80ANH1NH1806405760815PV-100ANH1NH1100130011,700816PV-125ANH1NH1125260023,400917PV-160ANH1NH1160520046,8001427PV-200ANH1NH120010,20082,0001325PV-250ANH2NH225017,000136,0001938PV-300ANH3NH330032,000260,0002440PV-315ANH3NH331532,000260,0002644PV-350ANH3NH335044,500370,0002745PV-355ANH3NH335544,500370,0002846PV-400ANH3NH340067,500550,0003050Blade without bolt-holesSee data sheet No. 720133 for complete details.Part numberwith bolt holesFusesizeCurrentrating(amps)Energy integralsI2t (A2S)Watts lossPre-arcingT otal at1000V0.8InInPV-63ANH1-B NH1634704300612PV-80ANH1-B NH1806405760815PV-100ANH1-B NH1100130011,700816PV-125ANH1-B NH1125260023,400917PV-160ANH1-B NH1160520046,8001427PV-200ANH1-B NH120010,20082,0001325PV-250ANH2-B NH225017,000136,0001938PV-315ANH3-B NH331532,000260,0002644PV-355ANH3-B NH335538,000310,0002948PV-400ANH3-B NH340061,000490,0003250See data sheet No. 720133 for complete details.Blade with bolt-holesRequest Info2-12BUSSMANN SERIES FULL LINE CATALOG 1007—July 2015 /bussmannseries 2Solar fuses1000Vdc XL photovoltaic fuses Data Sheet: 10201Description:protecting and isolating photovoltaic array combiners and disconnects. These fuses are capable of interrupting low overcurrents associated with faulted PV systems (reverse microswitches for use in monitoring systems.Catalog symbols:Blade — PV-(amp)A(size)XL Bolt-In — PV-(amp)A(size)XL-B Agency information:•UL 2579, Guide JFGA, File E335324•IEC 60269-6•CSA Class 1422-30, File 53787•RoHS Compliant Features and benefits:•Specifically designed to provide fast-acting protection under low fault current conditions associated with PV systems •High DC voltage rating •Variety of mounting options for flexibility •Demonstrated performance in extreme temperature cycling conditions Typical applications:•Recombiner boxes •InvertersRecommended fuse holders:Fuse size Part number Description 01XL SB1XL-S 1-pole block 1XL SB1XL-S 1-pole block 2XL SB2XL-S 1-pole block 3L SB3L-S 1-pole block See data sheet # 10066 for more information.Optional microswitches:Blade — 170H0235 or 170H0237 for size 01XL— 170H0236 or 170H0238 for sizes 1XL, 2XL and 3LBolt-in — 170H0069 for all sizes XL fuses — 1000Vdc, XL01, 1, 2, 3, 63-630A Catalog numbers (amp)/electrical characteristics:Rated I 2t (A 2s)Rated volts Interrupting Total @Watts loss Fuse size Bladed version Bolted version amps Vdc rating Pre-arcing rated volts 0.8I n I n PV-63A-01XL PV-63A-01XL-B 63100050kA 26019001324PV-80A-01XL PV-80A-01XL-B 80100050kA 4903600172901PV-100A-01XL PV-100A-01XL-B 100100050kA 87063001832PV-125A-01XL PV-125A-01XL-B 125100050kA 193013,9002040PV-160A-01XL PV-160A-01XL-B 160100050kA 390028,10022441PV-200A-1XL PV-200A-1XL-B 200100033kA 940027,2603160PV-160A-2XL PV-160A-2XL-B 160100033kA 278021,0002544PV-200A-2XL PV-200A-2XL-B 200100033kA 495037,00028502PV-250A-2XL PV-250A-2XL-B 250100033kA 945070,0003460PV-315A-2XL PV-315A-2XL-B 315100033kA 16,600123,0004066PV-350A-2XL PV-350A-2XL-B 350100033kA 26,000192,0004268PV-355A-2XL PV-355A-2XL-B 355100033kA 26,000192,0004268PV-350A-3L PV-350A-3L-B 350100050kA 31,000161,2004065PV-400A-3L PV-400A-3L-B 400100050kA 44,500231,40048823PV-500A-3L PV-500A-3L-B 500100050kA 85,000442,0005085PV-600A-3L PV-600A-3L-B 600100050kA 137,000712,40080108PV-630A-3L*PV-630A-3L-B*630*100050kA 137,000712,40092118*630A thermally rated to UL only.Request Info2-132Solar fuses1000Vdc XL photovoltaic fuses for solar ap plications BUSSMANN SERIES FUL L LINE CATALOG 1007—July 2015 /bussmannseries 2XL blade sizeDimensions - mm (n ot to scale)3L blade size3L bolt size01XL blade size 01XL bolt sizeData Sheet: 7201342XL bolt size Request Info2-14BUSSMANN SERIES FULL LINE CATALOG 1007—July 2015 /bussmannseries 2Solar fuses 1000Vdc XL photovoltaic fuses for solar applications Data Sheet: 720134100100010000160A 125A 100A 200A 0.010.11100001000100101P r e -a r c i n g T i m e (s )63A 80A Time-current curves for 01XL and 1XL Available current (amps), DC-time constant 1-3ms Time-current curves for 2XLAvailable current (amps), DC-time constant 1-3ms Time-current curves for 3L Available current (amps), DC-time constant 1-3ms2-152Solar fuses 14x65mm photovoltaic fuses BUSSMANN SERIES FULL LINE CATALOG 1007—July 2015 /bussmannseries 14x65mm fuses — 1300/1500Vdc, 2.25-32A Features and benefits:•Specifically designed to provide fast-acting protection under low fault current conditions associated with PV systems •Variety of mounting options for flexibility •Fuses meet UL and IEC photovoltaic standards for global product acceptance Data Sheet: 1172Request Info2-16BUSSMANN SERIES FULL LINE CATALOG 1007—July 2015 /bussmannseries 2Solar fuses 1500Vdc XL photovoltaic fuses Data Sheet: 10201Description:protecting and isolating photovoltaic array combiners and disconnects. These fuses are capable of interrupting low microswitches for use in monitoring systems.Catalog symbols:Blade — PV-(amp)A(size)XL-15Bolt-In — PV-(amp)A(size)XL-B-15Agency information:•UL Listed, Guide JFGA, File E335324. Photovoltaic to UL 2579•IEC 60269-6 gPV •CSA Class 1422-30, File 53787•RoHS compliant Features and benefits:•Specifically designed to provide fast-acting protection PV systems •Variety of mounting options for flexibility Typical applications:•Recombiner boxes •InvertersRecommended fuse holders:Fuse size Part number Description 01XL SB1XL-S 1-pole block 1XL SB1XL-S 1-pole block 2XL SB2XL-S 1-pole block 3L SB3L-S 1-pole block See data sheet # 10066 for more information.Optional microswitches:Blade — 170H0235 or 170H0237 for size 01XL— 170H0236 or 170H0238 for sizes 1XL, 2XL & 3LBolt-in — 170H0069 for all sizes XL PV fuses — 1500Vdc, XL01, 1, 2, 3, 50-400A Catalog numbers (amp)/electrical characteristics:Rated I 2t (A 2s)Rated volts InterruptingTotal @Watts loss Fuse size Bladed version Bolted version amps Vdc rating Pre-arcing rated volts 0.8I n I n PV-50A-01XL-15PV-50A-01XL-B-1550150030kA 7510001425PV-63A-01XL-15PV-63A-01XL-B-1563150030kA 3622250152601PV-80A-01XL-15PV-80A-01XL-B-1580150030kA 56533001935PV-100A-01XL-15PV-100A-01XL-B-151********kA 110066002240PV-125A-01XL-15PV-125A-01XL-B-151********kA 220010,5002342PV-160A-01XL-12PV-160A-01XL-B-12160120030kA 500024,0002652PV-100A-1XL-15PV-100A-1XL-B-151********kA 1250600024431PV-125A-1XL-15PV-125A-1XL-B-151********kA 195093602552PV-160A-1XL-15PV-160A-1XL-B-151********kA 420020,1603058PV-200A-1XL-15PV-200A-1XL-B-152********kA 940045,1203161PV-125A-2XL-15PV-125A-2XL-B-151********kA 220015,00025442PV-160A-2XL-15PV-160A-2XL-B-151********kA 500032,0002948PV-200A-2XL-15PV-200A-2XL-B-152********kA 880051,0003257PV-250A-2XL-15PV-250A-2XL-B-152********kA 16,60085,0004070PV-250A-3L-15PV-250A-3L-B-152********kA 22,30092,00032503PV-315A-3L-15PV-315A-3L-B-153********kA 38,000160,0003666PV-355A-3L-15PV-355A-3L-B-153********kA 44,500184,0004480PV-400A-3L-15PV-400A-3L-B-15400150030kA58,000240,0004991Request Info2-17Solar products2Solar fuses1500Vdc XL photovoltaic fusesBUSSMANN SERIES FULL LINE CATALOG1007—July 2015 /bussmannseriesDimensions - mm (not to scale)Bladed - size 01XL, 1XL, 2XL and 3L1XL blade size1XL bolt size2XL blade size3L blade size3L bolt size01XL blade size01XL bolt sizeData Sheet: 7201342XL bolt sizeRequest Info2-18BUSSMANN SERIES FULL LINE CATALOG1007—July 2015 /bussmannseries2Solar fuses1500Vdc XL photovoltaic fusesData Sheet: 720134Time-current curves for 01XL - 1500VdcAvailable current (amps), DC-time constant 1-3msTime-current curves for 1XL - 1500VdcAvailable current (amps), DC-time constant 1-3ms Time-current curves for 2XL - 1500VdcAvailable current (amps), DC-time constant 1-3msTime-current curves for 3L - 1500VdcAvailable current (amps), DC-time constant 1-3msRequest Info。

日本SATO PARTS 官网的插拔式接线端子型号ML-800端子排说明书pdf北京************日本进口端子广东省深圳*************上海天津Terminal说明书样本 CatalogueML-800S额定电压 额定电流 250V-10A绝缘电阻DC500V、100MΩ以上耐电压 AC2000V (1分钟)取得規格 UL认证規格 ?CSA认证規格?TüV认证規格 (IEC60947-7-1 適合)極数 (P) 1～20主絶縁材 (本体)ナイロン66 (UL94V-0) 主絶縁材 (ボタン) P.P.E . (UL94V-0)定格適合電線 单線 : 1.2mm (AWG16)、撚線 : 1.25mm2 (AWG16)、素線径 0.18mm以上使用可能電線范围 単線 : 0.4mm～ 1.2mm (AWG26～AWG16) 撚線 : 0.2mm2～1.25mm2(AWG24～AWG16)、素線径 0.18mm以上端子金具PC端子 標準剥線長 11mm本体色 GY (灰色)エンドプレート色 GY (灰色)操作部颜色 W (白色)、GY (灰色)、B (黑色)、R (红色)、Y (黄色)、G (绿色)、BL (蓝色)、BR (棕色)ML-800-S1H ML-800-S3H ML-800-S1V ML-800-S3VML-800-S1H-1P; ML-800-S1H-2P; ML-800-S1H-3P; ML-800-S1H-4P; ML-800-S1H-5P;ML-800-S1H-6P; ML-800-S1H-7P; ML-800-S1H-8P; ML-800-S1H-9P; ML-800-S1H-10P;ML-800-S1H-11P; ML-800-S1H-12P; ML-800-S1H-13P; ML-800-S1H-14P;ML-800-S1H-15P; ML-800-S1H-16P; ML-800-S1H-17P; ML-800-S1H-18P; ML-800-S1H-19P;ML-800-S1H-20P; ML-800-S1H-21P; ML-800-S1H-22P; ML-800-S1H-23P; ML-800-S1H-24P;ML-800-S1H-25P; ML-800-S1H-26P; ML-800-S1H-27P; ML-800-S1H-28P; ML-800-S1H-29P;ML-800-S1H-30P; ML-800-S1H-1; ML-800-S1H-2;ML-800-S1H-3; ML-800-S1H-4; ML-800-S1H-5;ML-800-S1H-6; ML-800-S1H-7; ML-800-S1H-8; ML-800-S1H-9; ML-800-S1H-10; ML-800-S1H-11; ML-800-S1H-12; ML-800-S1H-13; ML-800-S1H-14; ML-800-S1H-15;ML-800-S1H-16; ML-800-S1H-17; ML-800-S1H-18; ML-800-S1H-19; ML-800-S1H-20;ML-800-S1H-21; ML-800-S1H-22; ML-800-S1H-23; ML-800-S1H-24; ML-800-S1H-25;ML-800-S1H-26; ML-800-S1H-27; ML-800-S1H-28; ML-800-S1H-29; ML-800-S1H-30;ML-800-S3H-2P; ML-800-S3H-3P; ML-800-S3H-4P; ML-800-S3H-5P; ML-800-S3H-6P;ML-800-S3H-7P; ML-800-S3H-8P; ML-800-S3H-9P; ML-800-S3H-10P; ML-800-S3H-11P;ML-800-S3H-12P; ML-800-S3H-13P; ML-800-S3H-14P; ML-800-S3H-15P; ML-800-S3H-2;ML-800-S3H-3; ML-800-S3H-4; ML-800-S3H-5; ML-800-S3H-6; ML-800-S3H-7; ML-800-S3H-8;ML-800-S3H-9; ML-800-S3H-10; ML-800-S3H-11; ML-800-S3H-12; ML-800-S3H-13;ML-800-S3H-14; ML-800-S3H-15;ML-800-S1V-1P; ML-800-S1V-2P; ML-800-S1V-3P; ML-800-S1V-4P; ML-800-S1V-5P;ML-800-S1V-6P; ML-800-S1V-7P; ML-800-S1V-8P; ML-800-S1V-9P; ML-800-S1V-10P;ML-800-S1V-11P; ML-800-S1V-12P; ML-800-S1V-13P; ML-800-S1V-14P;ML-800-S1V-15P; ML-800-S1V-16P; ML-800-S1V-17P; ML-800-S1V-18P; ML-800-S1V-19P;ML-800-S1V-20P; ML-800-S1V-21P; ML-800-S1V-22P; ML-800-S1V-23P; ML-800-S1V-24P;ML-800-S1V-25P; ML-800-S1V-26P; ML-800-S1V-27P; ML-800-S1V-28P; ML-800-S1V-29P;ML-800-S1V-30P; ML-800-S1V-1; ML-800-S1V-2; ML-800-S1V-3; ML-800-S1V-4; ML-800-S1V-5; ML-800-S1V-6; ML-800-S1V-7; ML-800-S1V-8; ML-800-S1V-9; ML-800-S1V-10; ML-800-S1V-11;ML-800-S1V-12; ML-800-S1V-13; ML-800-S1V-14; ML-800-S1V-15;ML-800-S1V-16; ML-800-S1V-17; ML-800-S1V-18; ML-800-S1V-19; ML-800-S1V-20;ML-800-S1V-21; ML-800-S1V-22; ML-800-S1V-23; ML-800-S1V-24; ML-800-S1V-25;ML-800-S1V-26; ML-800-S1V-27; ML-800-S1V-28; ML-800-S1V-29; ML-800-S1V-30;ML-800-S3V-2P; ML-800-S3V-3P; ML-800-S3V-4P; ML-800-S3V-5P; ML-800-S3V-6P;ML-800-S3V-7P; ML-800-S3V-8P; ML-800-S3V-9P; ML-800-S3V-10P; ML-800-S3V-11P;ML-800-S3V-12P; ML-800-S3V-13P; ML-800-S3V-14P; ML-800-S3V-15P; ML-800-S3V-2;ML-800-S3V-3; ML-800-S3V-4; ML-800-S3V-5; ML-800-S3V-6; ML-800-S3V-7; ML-800-S3V-8;ML-800-S3V-9; ML-800-S3V-10; ML-800-S3V-11; ML-800-S3V-12; ML-800-S3V-13; ML-800-S3V-14; ML-800-S3V-15;ML-800-S1H 尺寸图ML-800-S1V尺寸图。

Catalog symbol / color code:• KTK - Black (600Vac max)Description:Fast-acting, supplemental fuse.For superior protection, Bussmann Division rec-ommends upgrading to Low-Peak™ Class CC fuses. See data sheet No. 1023.Specifications:RatingsAgency information• CE, RoHS compliant• UL Listed, Std. 248-14, Guide JDYX, File E19180• CSA Certified: C22.2 No. 248.14, Class 1422-01, File 53787, HRC-MISCKTK-1/10KTK-3/4KTK-4KTK-12KTK-1/8KTK-1KTK-5KTK-15KTK-2/10KTK-1-1/4KTK-6KTK-20KTK-1/4KTK-1-1/2KTK-7KTK-25KTK-3/10KTK-2KTK-7-1/2KTK-30KTK-4/10KTK-2-1/2KTK-8KTK-1/2KTK-3KTK-9KTK-6/10KTK-3-1/2KTK-10Carton quantity1/10 to 3010Features• Color coded black for 600Vac voltage rating • Fast-acting for resistive loads • Melamine tube construction • Nickel-plated endcapsT ypical applications• Control circuits• Lighting circuit protection • Meter circuitsRecommended fuse blocks/fuseholders:KTK 13⁄32˝ x 1-1⁄2˝ 600Vac fast-actingsupplemental fusesDimensions - in (mm):600Vac 1/10 to 30AKTK600Vac fast-acting supplemental fusesTechnical Data 1011Effective December 2015The only controlled copy of this data sheet is the electronic read-only version located on the Eaton network drive. All other copies of this document are by definition uncontrolled. This bulletin is intended to clearly present comprehensive product data and provide technical information that will help the end user with design applications. Eaton reserves the right, without notice, to change design or construction of any products and to discontinue or limit distribution of any products. Eaton also reserves the right to change or update, without notice, any technical information contained in this bulletin. Once a product has been selected, it should be tested by the user in all possible applications.Eaton, Bussmann and Low-Peak are valuable trademarks of Eaton in the US and other countries. You are not permitted to use the Eaton trademarks without prior written consent of Eaton.CSA is a registered trademark of the Canadian Standards Group.UL is a registered trademark of the Underwriters Laboratories, Inc.Eaton1000 Eaton Boulevard Cleveland, OH 44122United States Bussmann Division 114 Old State Road Ellisville, MO 63021United States/bussmannseries © 2015 EatonAll Rights Reserved Printed in USAPublication No. 1011 – BU-SB14285December 2015For Eaton’s Bussmann series product information,call 1-855-287-7626 or visit:/bussmannseriesFollow us on social media to get thelatest product and support information.Current in Amps T i m e i n S e c o n d s10100801001010.10.010.9Time-current characteristic curves – average melt :T i m e s e c o n d s Current in amps。

UltraSIL TM polymer-housed VariSTAR TM UHAF and UXLG hollow-core high-strength station-class surge arrestersTable of contents/cooperpowerseries2General . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3Construction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4Table 1 U HAF and UXLG hollow core High-Strength arrester ratings and characteristics � � � � � � � 4Design testing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5Production tests . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5General application recommendations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5Table 2 Arrester ratings commonly used on three-phase systems � � � � � � � � � � � � � � � � � � � � � � � � 5Temporary overvoltage (TOV) withstand ability . . . . . . . . . . . . . . . . . . . . . . . . .6Mounting information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6Ordering information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6Protective characteristics - UHAF . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7Table 3 Protective characteristics of the UltraSIL TM polymer-housed UHAF arrester �����������7Table 4 C reepage distances and insulation withstand voltages of UHAFhigh-strength station-class surge arresters ������������������������������������8Spacing requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9Table 5 D imensions, clearance requirements and weights ofUHAF high-strength station-class surge arresters �������������������������������9Protective characteristics - UXLG . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10Table 6 P rotective characteristics of the UltraSIL TM polymer-housed UXLG arrester ����������10Table 7 C reepage distances and insulation withstand voltages of UXLGhigh-strength station-class surge arresters �����������������������������������11Spacing requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12Table 8 D imensions, clearance requirements and weights of UXLGHigh-strength station-class surge arresters �����������������������������������12Table 9 C atalog numbers for standard configuration type UHAF and UXLGsurge arresters ���������������������������������������������������������14Table 10 U ltraQUIK catalog numbering system for ultrasil polymer-housedhigh-strength station-class arresters ���������������������������������������15Nameplate information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17Additional information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17Catalog data CA235035EN Station-class surge arrester catalogEffective June 2019GeneralEaton has set a new standard of excellence for polymer-housedhollow core station-class surge arresters� Eaton’s compositehollow core design provides tremendous mechanical stabilitywith increased cantilever strength in ratings up to 396 KVfor grounded neutral circuits� Eaton’s Cooper Power™ seriesUltraSIL™ Polymer-Housed VariSTAR™ UHAF and UXLG HollowCore Station-Class Surge Arresters incorporate the industryrecognized superior silicone rubber housing with a uniquehigh creep alternating shed profile designed to withstand themost extreme environments� The standard silicone rubberhousing is designed with a creepage distance for high pollutionenvironments� This housing is molded over a high strengthcomposite hollow tube which encloses the Eaton MOV disks�This unique design provides the highest quality protection withultra-high cantilever strength and directional venting for theultimate in substation arrester performance�Eaton’s UHAF and UXLG hollow core arresters meet or exceedthe requirements of IEEE Std C62�11™-2012 standard�ConstructionThe unique construction of UltraSIL polymer housed hollowcore UHAF and UXLG arresters begin with Eaton world classMetal Oxide Varistor (MOV) disks produced in our dedicatedmanufacturing facility in Olean NY� Manufacturing our own MOVdisks results in strict quality control over the entire productionprocess, from initial raw material selection to final physicalinspection and electrical testing of each disk and arrester� Inaddition, by controlling the manufacturing process of both disksand arresters, we achieve an optimal design and superior quality�Eaton produces MOV disks of unsurpassed quality throughcontinuous improvements in disk formulation and manufacturingtechnology� The end result is a long history of in-service use withoutstanding durability and protective characteristics�The hollow core station arresters obtain their high strengh andstability from a reinforced tube that is bonded to the aluminiumcast end fittings and overmolded with Eaton’s UltraSIL siliconerubber housing for a void free water tight bond� This produces ahigh dielectric strength assembly and trouble free service�The final assembly is subject to extensive testing that meets orexceeds applicable IEEE standards�FeaturesThe UltraSIL silicone rubber housing material was selected for itssuperior insulation performance as compared to other polymerichousing materials� Long term environmental testing has verifiedthe performance advantages that silicone rubber provides�/cooperpowerseries3Catalog data CA235035ENEffective June 2019Station-class surge arrester catalogIndependent laboratory tests have verified the superior water repelling behavior of silicone rubber, which is responsiblefor lower external losses when wet, higher resistance to UV degradation and surface tracking, superior performance in contaminated environments, and other important insulating properties� Also the UltraSIL silicone rubber does not support biological growth and is flame retardant�The arrester’s aluminum line side casting provides for a NEMA 4-hold pad for connection flexibility for your application� In addition, these end-castings are designed with built in directional venting to protect your valuable substation assets in the unlikely event of an arrester failure end of life event�OperationThe operation of the UHAF and UXLG high-strength arresters are typical of gapless metal oxide arresters� During steady-state conditions, line-to-ground voltage is applied continuously between the line and ground terminals of the arrester� When surges occur, the arrester immediately limits, or clamps, the overvoltage condition by conducting the surge current to ground� After passage of the surge, the arrester returns to its initial state, conducting minimal leakage current�UHAF and UXLG high-strength arresters surpass the minimum fault current withstand requirement for station-class arrestersas defined in IEEE Std C62�11™-2012 standard of 40kA� These arresters have been tested to withstand fault currents of 63 kA� Upon high fault current conditions the VariSTAR UHAF and UXLG arrester designs are produced with an integral pressure venting system which will rapidly relieve internal pressure and transfer the internal arc to the outside of the arrester silicone rubber housing through vent ports in the end castings�When called upon to operate, this integral pressure relief system vents internal pressures in fractions of a cycle without expelling internal parts� In addition, the directional venting feature of these arresters allows the internal pressures to be vented away from valuable substation assets�UHAF and UXLG high-strength arresters provide reliable protection for substation equipment, capacitor banks, multiple lines, and cable circuits� They are also provide unsurpassed lightning protection�Section A-AFigure 1. Illustration of 10 kV UltraSIL polymer-housed VariSTAR hollow core arrester.T able 1 . U HAF and UXLG hollow core High-Strength arrester ratings and characteristicsArrester characteristic RatingArrester voltage ratings (kV)3-396Double impulse discharge energy rating MCOV*UHAFUXLG9 kJ/kV15 kJ/kVSystem frequency (Hz)50/60Impulse classifying current (kA)10High current withstand** (kA)100Pressure relief rating (kA rms sym.)63Cantilever strength (in-Ibs)Ultimate MDCLStatic*** UHAF (3-288 kV)120,00048,000UXLG (3-396 kV)180,00072,000* U HAF meets class E and UXLG meets class H energy levels per IEEE Std C62.11™-2012 standard** High current, short duration withstand (100 kA, 4/10 μs)*** M aximum design cantilever load — static or maximum working load is 40% of the ultimate./cooperpowerseries 4Catalog data CA235035ENEffective June 2019 Station-class surge arrester catalogDesign testingThe housing, internal components, and hardware of an arrester must work together as a system� This system must provide years of service while being subjected to a wide range of environmental and electrical stresses� To ensure a superior level of performance, both arrester components and finished arresters have been subjected to a series of tests that accurately represents years of exposure to actual field conditions� This testing exceeds the requirements of industry standards� UHAF and UXLG hollow core arresters have also met or exceeded all requirements for station-class arresters as defined by IEEE Std C62�11™-2012 standard�Production testsEaton has implemented a complete production test program to ensure a quality product� All tests are conducted in accordance with IEEE Std C62�11TM- 2012 standard� Each MOV disk is subjected to a series of electrical tests to maintain quality�We also perform additional tests on every MOV disk batch� Listed below are the tests performed on the MOV disks:• 100% Physical inspection• 100% Discharge voltage test• 100% Vref at Iref• 100% Watts loss measured at 1�05 MCOV• 100% Transmission line discharge energy test• Batch High-current, short-duration test• Batch thermal stability test• Batch aging testEach fully assembled UHAF and UXLG arrester must also pass the following production tests:• 100% Physical inspection• 100% Vref test• 100% Watts loss test• 100% Partial discharge test• 100% Sealing effectiveness test of housing by helium mass spectrometer�General application recommendationsThe rating of an arrester is the maximum power-frequency line to- ground voltage at which the arrester is designed to pass an operating duty-cycle test (as defined in IEEE Std C62�11™-2012 standard)� Table 2 provides a general application guide for the selection of the proper arrester rating for a given system voltage and grounding configurations as outlined in IEEE Std C62�22™- 2009 standard, which is the application guide for metal oxide surge arresters�Under fault conditions and other system anomalies, higher than normal voltages can be imposed upon an arrester� If an improper arrester is selected, these abnormal system voltages can cause arrester damage� To help ensure that the proper arrester is selected, Eaton application engineers are available to make recommendations�T able 2 . A rrester ratings commonly used on three-phase systemsSystem voltages L-L (kV)Arrester ratings (kV)Nominal MaxGrounded*circuitsHigh-Impedance/UngroundedCircuits3.3 3.73-6.67.36910.011.5912-1511.012.09-1012-1516.418.01518-2122.024.024.024-2733.036.327-3036.3947.052.039-4854-6066.072.054-6066-8491.010078-8490-9611012396-108120-138 132145108-120132-144 155170132-144162-172 220245180-198204-240 275300216-240258-294 330362258-288294-360 400420312-360-500550396-* Grounded neutral circuitsThe following information is normally required:1. Maximum system operating voltage.2. System grounding conditions;A. F or four-wire circuits, grounding conditions dependupon whether the system is multi-grounded, whetherit has a neutral impedance and whether commonprimary and secondary neutrals are used.B. F or three-wire circuits, grounding conditions dependupon whether the system is solidly grounded at thesource, grounded through neutral impedance at thesource transformers or ungrounded.3. Available Fault Current.4. Maximum line-to-ground voltage and overvoltageduration during fault conditions.Contact your Eaton representative to have your individual system application needs reviewed�/cooperpowerseries5/cooperpowerseries6Catalog data CA235035ENEffective June 2019Station-class surge arrester catalogMounting informationThe standard base of the UHAF and UXLG hollow core arresters is shown in figure 3 mounting base details� Mounting hardware (bolts, nuts, and washers) are not included with the arrester�Contact your Eaton representative to have your individual system application needs reviewed�Figure 3. Mounting base details.Ordering informationRefer to Table 10 for the UltraQUIK catalog numbering system� For additional assistance please contact your Eaton representative�Temporary overvoltage (TOV) withstand abilityThe UHAF and UXLG high strength hollow core arrester’s ability to withstand 60 Hz overvoltage conditions (TOV) are shown in Figures 2 & 2A� These graphs illustrate the time an arrester can survive a voltage, and recover, without going into thermal runaway, for a given voltage magnitude (expressed in Per Unit of arrester MCOV)�The graphs in Figures 2 & 2A illustrate the TOV withstand ability, with and without prior duty� The prior duty curve is based upon absorption of rated energy (Refer to Table 1 – Double impulse rating) immediately preceding application of the overvoltage�Figure 2. UHAF Temporary overvoltage curve - 60° ambient temperatureFigure 2A. UXLG Temporary overvoltage curve - 60° ambient temperature.UltraSIL VariSTAR Station Arrester TOV CurveUltraSIL VariSTAR Station Arrester TOV Curve/cooperpowerseries 7Catalog data CA235035ENEffective June 2019Station-class surge arrester catalog Protective characteristics - UHAFAll UltraSIL polymer-housed UHAF high-strength arresters provide excellent overvoltage protection for electrical equipment�The specific protective characteristics are shown inTable 3 below�Arrester rating (kV, Arrester MCOV TOV Front-of-wave protective level (kV Maximum discharge voltage (kV Crest) 8/20 μsCurrent wave Switching surge protective level(kV Crest)T able 3 . P rotective characteristics of the UltraSIL TM polymer-housed UHAF arrester/cooperpowerseries8Catalog data CA235035ENEffective June 2019Station-class surge arrester catalogT able 4 . C reepage distances and insulation withstandvoltages of UHAF high-strength station-class surge arrestersArrester rating Arrester MCOVCreepage distance 1.2/50 Impulse 60Hz, dry 60 seconds 60Hz, wet 10 seconds Switchsurge impulse Grading/cooperpowerseries9Catalog data CA235035ENEffective June 2019Station-class surge arrester catalog T able 5 . D imensions, clearance requirements and weights ofUHAF high-strength station-class surge arrestersArrester Rating Ur Arrester MCOV Standard arrester Dim. ADimension B minimum phase-to-Earth clearanceDimension C minimumphase-to-Phase clearanceHousing diameter Arrester Spacing requirementsFigure 4 illustrates a three-phase in-line mounting arrangement� Dimensions B and C reference minimum phase-to-ground and phase-to-phase distances respectively� These dimensions are listed in Tables 5�Figure 4. Three-phase In-line mounting arrangement.BB C C/cooperpowerseries10Catalog data CA235035ENEffective June 2019Station-class surge arrester catalogProtective characteristics - UXLGAll UltraSIL polymer-housed UXLG high-strength arresters provide excellent overvoltage protection for electrical equipment�The specific protective characteristics are shown inTable 6 below�Arrester rating (kV, Arrester MCOV TOV Front-of-wave protective level (kV Maximum discharge voltage (kV Crest) 8/20 μsCurrent wave Switching surge protective level(kV Crest)T able 6 . P rotective characteristics of the UltraSIL TM polymer-housed UXLG arrester/cooperpowerseries 11Catalog data CA235035ENEffective June 2019Station-class surge arrester catalog T able 7 . C reepage distances and insulation withstandvoltages of UXLG high-strength station-class surge arrestersArrester Rating Arrester MCOVCreepage distance 1.2/50 Impulse 60Hz, dry 60 seconds 60Hz, wet 10 seconds Grading/cooperpowerseries12Catalog data CA235035ENEffective June 2019Station-class surge arrester catalogArrester Rating Ur Arrester COV Uc Standard arrester Dim. A (inches) Dimension B minimum phase-to-Earth clearance (inches) Dimension C minimumphase-to-Phase clearance (inches) Dim. D Housingleakage distance Arrester T able 8 . D imensions, clearance requirements and weights ofUXLG High-strength station-class surge arrestersSpacing requirementsFigure 4 illustrates a three-phase in-line mounting arrangement� Dimensions B and C reference minimum phase-to-ground and phase-to-phase distances respectively� These dimensions are listed in Tables 8�BB C CCatalog data CA235035EN Station-class surge arrester catalogEffective June 2019Figure 5. Outline drawing of standard ultrasil polymer-housed station-class arresters.ote:N D imensions shown in Tables 5 and 8� Arresters are shown withoutline and ground terminals�/cooperpowerseries13/cooperpowerseries14Catalog data CA235035ENEffective June 2019Station-class surge arrester catalogArrester rating Arrester COV T able 9 . C atalog numbers for standard configuration typeUHAF and UXLG surge arresters/cooperpowerseries 15Catalog data CA235035ENEffective June 2019Station-class surge arrester catalog Catalog number digits:1 = U UltraSIL Polymer-housed arrester2 = H High energy handlingX Xtra-High energy handling3 = A Standard electrical build (9 kJ/kV of MCOV, Double Impulse)L High electrical build (15 kJ/kV of MCOV, Double Impulse)*4 = F = 120,000 in-lbs Cantilever strength ultimateG = 180,000 in-lbs Cantilever strength ultimate 5 Through 10 = Arrester rating: Duty-cycle (MCOV)003002 = 3 kV (2.55 kV)048039 = 48 kV (39.0 kV)144115 = 144 kV (115 kV)288230 = 288 kV (230 kV)006005 = 6 kV (5.10 kV)054042 = 54 kV (42.0 kV)162130 = 162 kV (130) kV 312245 = 312 kV (245kV)*009007 = 9 kV (7.65 kV)060048 = 60 kV (48.0 kV)168131 = 168 kV (131 kV)330267 = 330 kV (267kV)*010008 = 10 kV (8.4 kV)066053 = 66 kV (53.0 kV)172140 = 172 kV (140 kV)336269 = 336 kV (269 kV)*012010 = 12 kV (10.2 kV)072057 = 72 kV (57.0 kV)180144 = 180 kV (144 kV)360289 = 360 kV (289 kV)*015012 = 15 kV (12.7 kV)078062 = 78 kV (62.0 kV)192152 = 192 kV (152 kV)378306 = 378 kV (306 kV)*018015 = 18 kV (15.3 kV)084068 = 84 kV (68.0 kV)198160 = 198 kV (160 kV)396318 = 396 kV (318 kV)*021017 = 21 kV (17.0 kV)090070 = 90 kV (70.0 kV)204165 = 204 kV (165 kV)024019 = 24 kV (19.5 kV)096076 = 96 kV (76.0 kV)216174 = 216 kV (174 kV)027022 = 27 kV (22.0 kV)096077 = 96 kV (77.0 kV)228180 = 228 kV (180 kV)030024 = 30 kV (24.4 kV)108084 = 108 kV (84.0 kV)240190 = 240 kV (190 kV)033027 = 33 kV (27.0 kV)120098 = 120 kV (98.0 kV)258209 = 258 kV (209 kV)036029 = 36 kV (29.0 kV)132106 = 132 kV (106 kV)264212 = 264 kV (212 kV)039031 = 39 kV (31.5 kV)138111 = 138 kV (111 kV)276220 = 276 kV (220 kV)* Only available in UXLG configurationsArrester ratingDigits 12 & 13UXLGUHAF3 - 39 kv 1468.167.748 - 72 kV 24114.7114.278 -96 kV 36170.5170.0108 - 144 kV 48226.4225.9162 - 168 kv 60285.2284.2172 - 192 kV 72341340.1198 - 228 kV 84396.9395.9240 - 288 kV 96452.7451.8312 kV C0567.4-330 - 336 kV D2623.2-360 - 396 kVE4679.1-11 = “A” Standard high creep UltraSIL Polymer-Housing T able 10 . U ltraQUIK catalog numbering system for ultrasil polymer-housed high-strengthstation-class arresters Housing codes:12 13 141516171845A11U 234567891011A/cooperpowerseries16Catalog data CA235035ENEffective June 2019Station-class surge arrester catalog14: Line terminal optionsStandard offering-Select 41.751.75Stainless Typical 4 places galvanized steel bolts1.753.51NEMA ® Four-hole aluminum alloy pad and stainless terminal clamp accepts copper or aluminum conductors from �16” dia�(#6) to �78” dia� (500 MCM)�/cooperpowerseries 17Catalog data CA235035ENEffective June 2019Station-class surge arrester catalog 15 = Earth terminal optionsStandard offering-Select 5NEMA ® Four-hole PadAccepts copper or aluminum conductors from .16” dia. (#6) to .78” dia. (500 MCM)SteelTerminal Clamp-Stainless SteelAll nuts,bolts and Washers-Steel Nameplate informationA stainless steel nameplate per Figure 6 is attached to the base of every UltraSIL polymer-housed UHAF and UXLG high-strength arrester� The arrester catalog number, serial number, year ofmanufacture, duty-cycle rating, MCOV rating, and pressure relief rating are among the details provided on the nameplate� Formulti-unit arresters equal or higher than 162 kV , an additional unit nameplate is provided on each arrester section as shown in Figure 7�Additional information•MN235026EN M N235026EN UltraSIL polymer-housed VariSTARHC hollow core station-class surge arrester installation and maintenance instructions•CT235007EN C T235007EN UltraSIL polymer-housed VariSTARUHAF hollow core station-class surge arrester certified test report•CT235008EN C T235008EN UltraSIL polymer-housed VariSTARUXLG hollow core station-class surge arrestercertified test reportFigure 6. Detail of base nameplate.Figure 7. Detail of section nameplate.16 = Base mounting arrangementStandard offering-Select A17 = “1” - Nameplate for standard mount per ANSI C62�1118 = “1” - Cardboard packaging“2” - Wood cratingCatalog data CA235035ENStation-class surge arrester catalog Effective June 2019This page is intentionally left blank�18/cooperpowerseriesCatalog data CA235035EN Station-class surge arrester catalogEffective June 2019This page is intentionally left blank�/cooperpowerseries19Catalog data CA235035ENEffective June 2019Station-class surge arrester catalogEaton is a registered trademark. All other trademarks are property of their respective owners.For Eaton's Cooper Power series product information call 1-877-277-4636 or visit: /cooperpowerseries.Eaton1000 Eaton Boulevard Cleveland, OH 44122United StatesEaton�comEaton’s Power Systems Division 2300 Badger Drive Waukesha, WI 53188United StatesEaton�com/cooperpowerseries© 2019 EatonAll Rights ReservedPrinted in USAPublication No� CA235035EN / CSSC-1806-5669June 2019。

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