ML925B16F-05中文资料

TYPE NAMEDESCRIPTIONML9XX40 series are uncooled DFB (Distributed Feedback) laser diodes for 2.5Gbps transmission emitting light beam at 1470~1610nm. λ/4 shifted grating structure is employed to obtain excellent SMSR performance under 2.5Gbps modulation. Furthermore, ML9xx40 can operate in the wide temperature range from 0o C to 85 o C without any temperature control. They are well suited for light source in long distance digital transmission application of coarse WDM.APPLICATION· 2.5Gbps long-haul transmission · Coarse WDM applicationFEATURES· λ/4 shifted grating structure· Wide temperature range operation (0o C to 85o C) · High side-mode-suppression-ratio (typical 45dB) · High resonance frequency (typical 11GHz)ABSOLUTE MAXIMUM RATINGSSymbol Parameter Conditions Ratings Unit Po Output power CW 6 mW If Forward current (Laser diode) --- 150 mA V RL Reverse voltage (Laser diode) --- 2 V I FD Forward current (Photo diode) --- 2 mA V RD Reverse voltage (Photo diode) --- 20 V Tc Case temperature --- 0 to +85 ºC Tstg Storage temperature----40 to +100ºCELECTRICAL/OPTICAL CHARACTERISTICS (Tc=25ºC)Symbol Parameter Test conditions Min. Typ. Max.Unit CW --- 10 15<*1> --- 35 40Ith Threshold current CW Tc=85ºC <*2> --- 45 50mA CW, Po=5mW --- 35 45<*1> --- 70 80Iop Operation current CW, Po=5mW Tc=85ºC <*2> --- 90 100mA V op Operating voltage CW, Po=5mW --- 1.1 1.5 VCW, Po=5mW 0.17 0.22 ---ηSlope efficiency CW, Po=5mW <*3> 0.15 0.20 ---mW/mA λpPeak wavelength CW, Po=5mW <*4>,<*5> nm Side mode suppression ratio CW, Po=5mW, Tc=0 to 85ºC35 45 --- dB SMSRSide mode suppression ratio(RF) 2.48832Gbps,Ib=Ith, Ipp=40mA --- 45 --- θ // Beam divergence angle (parallel) <*6>CW, Po=5mW --- 25 --- deg. θ ┴ (perpendicular) <*6>CW, Po=5mW--- 30 --- deg. fr Resonance frequency 2.48832Gbps,Ib=Ith, Ipp=40mA---11---GHztr,tfRise and Fall time <*7>2.48832Gbps,Ib=Ith, Ipp=40mA20%-80%--- 80 120psImMonitoring output current (PD) CW, Po=5mW,VRD=1V ,RL=10Ω0.1 --- 1.0 mA IdDark current (PD) V RD =5V --- --- 0.1 µA Ct Capacitance (PD)V RD 5V --- 10 20 pF<*1> Applied to ML9xx40-04~09 and -12~17. <*2> Applied to ML9xx40-10~11 and -18~19. <*3> Applied to ML925J40F and ML920L40S.<*6> Beam divergence is not applied to ML925J40F and ML920L40S. <*7> Except influence of the 18mm lead.<*4> Peak WavelengthLimitsType Symbol Test ConditionMin. Typ. Max.UnitML925B40F-01 / ML920J40S-01 ML925J40F-01 / ML920L40S-01 CW, Po=5mWTc= 0 to 85ºC 1530 1550 1570ML925B40F-04 / ML920J40S-04ML925J40F-04 / ML920L40S-04 1467 1470 1473ML925B40F-05 / ML920J40S-05ML925J40F-05 / ML920L40S-05 1487 1490 1493ML925B40F-06 / ML920J40S-06ML925J40F-06 / ML920L40S-06 1507 1510 1513ML925B40F-07 / ML920J40S-07ML925J40F-07 / ML920L40S-07 1527 1530 1533ML925B40F-08 / ML920J40S-08ML925J40F-08 / ML920L40S-08 1547 1550 1553ML925B40F-09 / ML920J40S-09ML925J40F-09 / ML920L40S-09 1567 1570 1573ML925B40F-10 / ML920J40S-10ML925J40F-10 / ML920L40S-10 1587 1590 1593ML925B40F-11 / ML920J40S-11ML925J40F-11 / ML920L40S-11λpCW, Po=5mWTc= 25ºC 1607 1610 1613nm<*5> Peak WavelengthLimitsType Symbol Test ConditionMin. Typ. Max.UnitML925B40F-12 / ML920J40S-12ML925J40F-12 / ML920L40S-12 1468 1470 1472ML925B40F-13 / ML920J40S-13ML925J40F-13 / ML920L40S-13 1488 1490 1492ML925B40F-14 / ML920J40S-14ML925J40F-14 / ML920L40S-14 1508 1510 1512ML925B40F-15 / ML920J40S-15ML925J40F-15 / ML920L40S-151528 1530 1532ML925B40F-16 / ML920J40S-16ML925J40F-16 / ML920L40S-16 1548 1550 1552ML925B40F-17 / ML920J40S-17ML925J40F-17 / ML920L40S-17 1568 1570 1572ML925B40F-18 / ML920J40S-18ML925J40F-18 / ML920L40S-18 1588 1590 1592ML925B40F-19 / ML920J40S-19ML925J40F-19 / ML920L40S-19λpCW, Po=5mW Tc= 25ºC 1608 1610 1612nmOUTLINE DRAWINGS。

PRBUP-MFT-TMFT/programmable, Non fail-safe, 24...240 VTechnical dataElectrical data Nominal voltage AC 24...240 V / DC 24...125 VNominal voltage frequency50/60 HzRemark about nominal voltage range AC 19.2...264 V / DC 19.2...137.5 VPower consumption in operation20 WPower consumption in rest position7 WTransformer sizing with 24 V 20 VA / with 240 V 52 VAAuxiliary switch2x SPDT, 1 mA...3 A (0.5 A inductive), DC 5 V...AC250 V (II, reinforced insulation), 1x 10° / 1x0...90° (default setting 85°)Switching capacity auxiliary switch 1 mA...3 A (0.5 A inductive), DC 5 V...AC 250 V(II, reinforced insulation)Electrical Connection Terminal blocks, (PE) Ground-ScrewOverload Protection electronic thoughout 0...90° rotation Data bus communication Communicative control BACnet MS/TPModbus RTUMP-BusFunctional data Torque motor160 NmOperating range Y 2...10 VOperating range Y note 4...20 mAInput impedance100 kΩ for 2...10 V (0.1 mA), 500 Ω for 4 (20)mA, 1500 Ω for On/OffOperating range Y variable Start point 0.5...30 VEnd point 2.5...32 VOperating modes optional variable (VDC, on/off, floating point)Position feedback U 2...10 VPosition feedback U note Max. 0.5 mAPosition feedback U variable VDC variableDirection of motion motor reversible with appManual override7 mm hex crank, suppliedAngle of rotation90°Running Time (Motor)35 s / 90°Running time motor variable30...120 sNoise level, motor68 dB(A)Position indication integral pointerSafety data Power source UL Class 2 SupplyDegree of protection IEC/EN IP66/67Safety dataDegree of protection NEMA/UL NEMA 4XEnclosure UL Enclosure Type 4XAgency ListingcULus acc. to UL60730-1A/-2-14, CAN/CSA E60730-1:02, CE acc. to 2014/30/EU and 2014/35/EU Quality Standard ISO 9001Ambient humidity Max. 100% RH Ambient temperature -22...122°F [-30...50°C]Storage temperature -40...176°F [-40...80°C]Servicingmaintenance-free Weight Weight13 lb [6.1 kg]MaterialsHousing material Die cast aluminium and plastic casingApplicationOperationProduct featuresPR Series valve actuators are designed with an integrated linkage and visual position indicators. For outdoor applications, the installed valve must be mounted with the actuator at or above horizontal. For indoor applications the actuator can be in any location including directly under the valve.The PR series actuator provides 90° of rotation and a visual indicator shows the position of the valve. The PR Series actuator uses a low power consumption brushless DC motor and is electronically protected against overload. A universal power supply is furnished to connect supply voltage in the range of AC 24...240 V and DC 24...125 V. Included is a smart heater with thermostat to eliminate condensation. Two auxiliary switches are provided; one set at 10° open and the other is field adjustable. Running time is field adjustable from 30...120 seconds by using the Near Field Communication (NFC) app and a smart phone.†Use 60°C/75°C copper wire size range 12...28 AWG, stranded or solid. Use flexible metal conduit. Push the listed conduit fitting device over the actuator’s cable to butt against the enclosure. Screw in conduit connector. Jacket the actuators input wiring with listed flexible conduit. Properly terminate the conduit in a suitable junction box. Rated impulse Voltage 4000 V. Type of action 1. Control pollution degree 3.AccessoriesGatewaysDescriptionType Gateway MP to BACnet MS/TP UK24BAC Gateway MP to Modbus RTU UK24MOD Gateway MP to LonWorksUK24LON Electrical accessoriesDescriptionType Service tool, with ZIP-USB function, for programmable andcommunicative Belimo actuators, VAV controller and HVAC performance devicesZTH USMechanical accessoriesDescriptionType Hand crank for PR, PKR, PM ZG-HND PR ToolsDescriptionTypeConnecting cable 10 ft [3 m], A: RJ11 6/4 ZTH EU, B: 3-pin Weidmüller and supply connectionZK4-GEN Service tool, with ZIP-USB function, for programmable and communicative Belimo actuators, VAV controller and HVAC performance devicesZTH USSensorsDescriptionType Duct/Immersion sensor Temperature 6" [150 mm] x 0.24" [6 mm] Pt100001DT-5BN Duct/Immersion sensor Temperature 19.7" [500 mm] x 0.24" [6 mm] Pt100001DT-5BH Duct/Immersion sensor Temperature 4" [100 mm] x 0.24" [6 mm] Pt100001DT-5BL Duct/Immersion sensor Temperature 8" [200 mm] x 0.24" [6 mm] Pt100001DT-5BP Duct/Immersion sensor Temperature 18" [450 mm] x 0.24" [6 mm] Pt100001DT-5BT Duct/Immersion sensor Temperature 19.7" [500 mm] x 0.24" [6 mm] Ni1000 (JCI)01DT-5EH Duct/Immersion sensor Temperature 4" [100 mm] x 0.24" [6 mm] Ni1000 (JCI)01DT-5EL Duct/Immersion sensor Temperature 6" [150 mm] x 0.24" [6 mm] Ni1000 (JCI)01DT-5EN Duct/Immersion sensor Temperature 8" [200 mm] x 0.24" [6 mm] Ni1000 (JCI)01DT-5EP Duct/Immersion sensor Temperature 12" [300 mm] x 0.24" [6 mm] Pt100001DT-5BR Duct/Immersion sensor Temperature 12" [300 mm] x 0.24" [6 mm] Ni1000 (JCI)01DT-5ER Duct/Immersion sensor Temperature 18" [450 mm] x 0.24" [6 mm] Ni1000 (JCI)01DT-5ETElectrical installationMeets cULus requirements without the need of an electrical ground connection.Universal Power Supply (UP) models can be supplied with 24 V up to 240 V.Disconnect power.Provide overload protection and disconnect as required.Two built-in auxiliary switches (2x SPDT), for end position indication, interlock control, fan startup, etc.Only connect common to negative (-) leg of control circuits.Actuators may be controlled in parallel. Current draw and input impedance must be observed.Warning! Live electrical components!During installation, testing, servicing and troubleshooting of this product, it may be necessary to work with live electrical components. Have a qualified licensed electrician or other individual who has been properly trained in handling live electrical components perform these tasks. Failure to follow all electrical safety precautions when exposed to live electrical components could result in death or serious injury.Wiring diagrams On/OffPRBUP-MFT-T Wiring diagramsOn/OffBACnetModulatingFloating PointPRBUP-MFT-TWiring diagramsTemperature SensorsAuxiliary SwitchesElectrical installationDimensions。

Accessories: To purchase Bosch accessories, cleaners & parts please visit /us/store or call 1-800-944-2904 (Mon to Fri 5 am to 6 pm PST, Sat 6 am to 3 pm PST).SHX3AR75UCStainless SteelBosch dishwashers incorporate 18 unique sound-reducingtechnologies, to make Bosch the quietest dishwasher brand in North America.150 dBA: Quietestdishwasher brand in North America.1Height adjustment upper rack.Stainless steel tall tubwith polypropylene bottom delivers durability.Sanitize option eliminates bacteria and enhances drying results.24/7 Overflow Protection System ® helps prevent water leaks.Also available in:White SHX3AR72UC BlackSHX3AR76UC1Based on an average of sound ratings of 24" Full Size Stainless Steel Tub dishwashers contained in major brands US & Canadian websites. Major brands defined as TraQline Top 5 Market Share (US & Canada) December 2017.2 Certification to NSF/ANSI Standard 184 for residential dishwashers.3September 2020 running production change to remove adhesive routing clips for power cord. These clips and the edge protector are now included in the dishwasher accessory kit # SMZEPCC1UC.Accessories: To purchase Bosch accessories, cleaners & parts please visit /us/store or call 1-800-944-2904 (Mon to Fri 5 am to 6 pm PST, Sat 6 am to 3 pm PST).Installation DetailsJunction box accessoryInstallation DetailsAccessories: To purchase Bosch accessories, cleaners & parts please visit /us/store or call 1-800-944-2904 (Mon to Fri 5 am to 6 pm PST, Sat 6 am to 3 pm PST).。

CDYN浪涌保护器CDYNSCB浪涌后备保护器CDY6Z电涌保护器作为中国改革开放第一代优秀民营企业，德力西集团历经近四十载的不懈奋斗，在广大客户和合作伙伴的长期信赖与支持下，于2007年与全球500强施耐德电气强强携手，合资成立德力西电气有限公司（简称“德力西电气”）。

德力西电气业务覆盖配电电气、工业控制自动化、家居电气三大领域，致力于以高性价比、高效率和高质量的产品与服务，为全球新兴市场客户创造舒适、美观、安全、智能的居家用电环境和专业、安全、可靠、高效的工业自动化用电环境，探索中国低压电气行业企业发展新模式。

我们以客户和合作伙伴的利益为出发点，坚持以技术创新、质量保障、五星服务、品牌驱动为经营理念，打造电气全产业链新生态。

我们拥有700多家一级代理商、60000多家线下门店、多个线上销售平台和合作伙伴、5个研发中心、3个国家级实验室、3大自动化工业生产基地、五星级客户支持服务团队、17个国内物流中心以及数十个运输合作伙伴、1个国际物流中心和在发展中国家的4大业务合作伙伴，以及持续一致的全方位品牌建设及宣传，致力在全球范围内创造最佳客户体验闭环。

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057GB/T 14048.1 总则 IEC 60947-1 总则GB/T 14048.2 断路器 IEC 60947-2 断路器■ 符合标准CDM6i 系列产品运行在污染等级为3级，IEC 60947-1和60664-1标准所定义的环境（工业环境）中。

■ 污染等级干冷、干热、湿热■ 抗湿热能力正常工作海拔：≤2000m 如需要安装在海拔超过2000m 的情况下，必须考虑到介电强度的改变和空气温度下降的因素，可参考海拔高度降容系数表使用，或请联系我们。

ML7xx16SERIESTYPE NAMEMITSUBISHI LASER DIODES2.5Gbps InGaAsP DFB LASER DIODEDESCRIPTIONML7xx16 series are uncooled DFB (Distributed Feedback) laser diodes for 2.5Gbps transmission emitting light beam at 1310nm./4shifted grating structure is employed to obtain excellent SMSR performance under 2.5Gbps modulation. Furthermore, ML7xx16 can operate in the wide temperature range form -20ºC to 85ºC without any temperature control.FEATURES2.5Gbps transmission APPLICATIONABSOLUTE MAXIMUM RATINGS/4 phase shifted grating structure High side-mode-suppression-ratio (typical 45dB)Wide temperature range operation (-20ºC to 85ºC )High resonance frequency (typical 11GHz)ELECTRICAL/OPTICAL CHARACTERISTICS Tc=25ºCThreshold current Operation current Operating voltage Peak wavelength Beam divergence angle (parallel)(perpendicular)Side mode suppression ratioMonitoring current (PD)Rise and fall time(10%-90%)Symbol ParameterConditionsMin.Typ.Max.Unit Ith CW -1015mA Iop CW,Po=5mW -3040mA V VopCW,Po=5mW 1.1 1.8pCW,Po=5mW,Tc=-20ºC +85ºC 1310nm CW,Po=5mW-2547deg.CW,Po=5mW,VRD=1V -11-20-SMSR fr 2.48832Gbps, Ibias=Ith,Ipp=40mA 40-30deg.3545pFResonance frequency tr,tf 2.0mA dB 150GHz 12901330-LimitsmA CW,Tc=85ºC CW,Po=5mW,Tc=85ºC CW,Po=5mW2.48832Gbps, Ibias=Ith,Ipp=40mA not including package Im Id CtCapacitance (PD)VRD=5V VRD=5V,f=1MHz-3550-75100mA mW/mA 0.250.18-CW,Po=5mW100-psec 0.1- 1.0A CW,Po=5mW,Tc=-20ºC +85ºC--10-Slope efficiencyDark current (PD)Symbol ParameterConditionsRatings Unit IF Laser forward current 200mA VRL Laser reverse voltage -2V Tc Operation temperature --20~+85TstgStorage temperature--40~+100ºCºC VRD -20V Po Output power CW 6mW PD reverse voltage IRD PD forward current -2mA -1.0Min.2.0Min.3.55±0.1-0.030.25±0.03G l a s s4-0.45±0.052.0±0.25(P.C.D.)4.25mmML7xx16SERIESMITSUBISHI LASER DIODES2.5Gbps InGaAsP DFB LASER DIODE。

QMB-09B05 SPEC V1.0规格书SpecificationQMB-09B-05品 名Model namePROPRIETARYHuaneng Electronic co.,Ltd.CONFIDENTIALHuaneng Electronic co.,Ltd.Version #Spec V1.0制作日期Date 准备Prepared Yang shu yinAcoustic specialist,R&D Dept.审核ApprovedZhang chang huaExecutive Manager,R&D Dept.江苏华能电子有限公司Components Operating Div.HuanengElectronic co.,Ltd.2020-4-101.适用范围：本规范适用于QMB-09B-05蜂鸣器。

QMB-09B 05 SPEC V1.0 This specifications apply the QMB-09B-05 buzzer.2.基本规格/General specification项目/Item规格/Spec条件/Condition1额定电压Rated voltage5VAC2工作电压Operation voltage3-7VAC3声压Sound Pressure Level=SPL Min 80dB 测试环境：标准状态，标准驱动电路，额定电压测试距离：0.1mStandard State,Standard Drive Circuit. Rated voltage,Distance at 0.1m4平均消费电流Average consumption current Max 60mA5振荡频率Oscillation frequency2700Hz6阻抗Resistance42±3Ω7工作温度范围Range of operation temperature-20-+70℃声压 ≥80dB SPL ≥80dB8保存温度范围Range of preservation temperature-30-+85℃9端子强度Terminal strength10N拉负荷方向的终端轴Pull load on the direction of the terminalaxis10外部尺寸Externals sizeΦ9*5.5参阅附图Refer to the attached drawing11重量Mass1g☆标准状态：常温（15～35℃），湿度（25～85%相对湿度），空气压力（860～1060hpa）在假设的情况判断，测试是－基本状态下进行。

汽车应用的限流可调、高效降压型DC-DC转换器汽车应用领域镍锰、镍铬电池充电可调限流的降压型DC-DC可调电流源材料无铅45216SA45216SA 无铅5216SAG 无卤无卤45216JA 无铅45216JA5216JAG内部框图Q电压误差放大器+放大器R2=25参 数参 数 范 围输入端工作电压范围 +44 V -1 ~ +44+3 V+3 V 充电指示开漏输出端电压电气参数（除非特别注明，否则T amb =25°C ，V IN =12V ，V OUT =5V ，负载电流为0）参 数符 号 测 试 条 件最小值典型值 最大值单位输入电压范围 V IN V IN 端电压 8 -- 40 V 反馈端基准电压 V FB0.8150.835 0.855 V反馈端电流I FB V FB =0.81V -0.1 μA静态电流（无开关状态）I switch offV FB =1V3 mA管脚名称1 1 VIN P 芯片的电压输入端。

2 2 COMP I/O 补偿端，外接电阻电容网络。

3 3 GND G地。

4 4 FB I输出电压反馈输入端。

5 5 CS- I 6 6 CS+ I 电流采样的输入端，部电阻接于该两端之间。

7 7 CHRG O 充电状态指示的开漏输出端。

8 8 SW O 开关端。

EPExposedPAD散热片，接开关端。

功能描述SD45216是一款外部可调限流的降压型DC-DC转换器，电流采样管脚的引出，通过板子上的采样电阻，可以简单准确的调节限流值的大小。

恒流控制可以用来对镍锰、镍铬电池充电；也可用来作为一个带有可调限流值的标准降压DC-DC转换器。

典型导通电阻100mΩ的内部PMOS功率管，提高了转换效率，即使在大负载电流的情形下，也能维持较小的压降；内部3A的峰值限流，避免的芯片在负载过大等极端情况下受到损坏；当输出过载或者短路时，开关被关断，限制提供至输出端的电流大小，从而使负载以及芯片本身受到保护。

PC925L0NSZ0F Series High Speed, 2.5A Output, Gate Drive DIP 8 pin∗OPIC Photocoupler■DescriptionPC925L0NSZ0F Series contains a LED optically cou-pled to an OPIC chip.It is packaged in a 8 pin DIP, available in SMT gullwing lead form option.Peak output current is 2.5A, Input-output isolation voltage(rms) is 5kV and High speed response (t PHL, t PLH : MAX. 0.5μs).■Features1. 8 pin DIP package2. Double transfer mold package(Ideal for Flow Soldering)3. Built-in direct drive circuit for MOSFET / IGBT drive(I O(peak) : 2.5A)4. High speed response (t PHL, t PLH : MAX. 0.5μs)5. Wide operating supply voltage range(V CC=15 to 30 V)6. High noise immunity due to high instantaneous com-mon mode rejection voltage (CM H : MIN. −15kV/μs, CM L : MIN. 15kV/μs)7. Long creepage distance type (wide lead-form type only : MIN. 8mm)8. High isolation voltage between input and output (V iso(rms) : 5kV)9. Lead-free and RoHS directive compliant ■Agency approvals/Compliance1. Recognized by UL1577 (Double protection isolation), fi le No. E64380 (as model No. PC925L)2. Package resin : UL fl ammability grade (94V-0)3. Compliant with RoHS directive (2002/95/EC)4. Content status of six substances specifi ed in“ Management Methods for Control of Pollution Caused by Electronic Information Products Regulation ”(Chinese : 电子信息产品污染控制管理办法)(popular name : China RoHS); refer to page 16■Applications1. IGBT/MOSFET gate drive for inverter control* "OPIC"(Optical IC) is a trademark of the SHARP Corporation. An OPIC consists of a light-detecting element and a signal-pro-cessing circuit integrated onto a single chip.Notice The content of data sheet is subject to change without prior notice.In the absence of confi rmation by device specifi cation sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP■Internal Connection Diagram■Outline Dimensions(Unit : mm)876512345678N.C.Anode Cathode N.C.V O GND V O V CC■Truth tableInput V O Terminal outputTr1Tr2ON High level ON OFF OFFLow levelOFFON(Unit : mm)Plating material : Pd (Au fl ash)Date code (3 digit)1st digit2nd digit3rd digit Year of production Month of production Week of productionA.D.Mark A.D.Mark Month Mark Week Mark1990A2002P January11st1 1991B2003R February22nd2 1992C2004S March33rd3 1993D2005T April44th4 1994E2006U May55, 6th5 1995F2007V June61996H2008W July71997J2009X August81998K2010A September91999L2011B October O2000M2012C November N2001N::December Drepeats in a 20 year cycleFactory identifi cation mark* This factory marking is for identifi cation purpose only.Please contact the local SHARP sales representative to see the actural status of theproduction.Rank markWith or without.■Absolute Maximum Ratings(Ta=25˚C) Parameter Symbol Rating UnitInput *1 Forward current I F25mA Reverse voltage V R5V *2 Peak forward current I FM1AOutputSupply voltage V CC35V *3 Peak output current I O(PEAK) 2.5A Output voltage V O V CC V *4 Output power dissipation P O250mW*5 Total power dissipation P tot295mW *6 Isolation voltage V iso(rms)5kV Operating temperature T opr−40 to +100˚C Storage temperature T stg−55 to +125˚C *7 Soldering temperature T sol270˚C *1 When ambient temperature goes above 70˚C, the power dissipation goes down at 0.3mA/˚C (Refer to Fig.10).*2 Pulse width≤1μs, 300pps*3 Pulse width≤10μs, Duty ratio : 0.002*4 When ambient temperature goes above 70˚C, the power dissipation goes down at 4.8mA/˚C (Refer to Fig.11).*5 When ambient temperature goes above 70˚C, the power dissipation goes down at 5.4mA/˚C (Refer to Fig.12).*6 AC for 1min, 40 to 60%RH, f=60Hz*7 For 10s■Electro-optical Characteristics *8(Unless otherwise speci fi ed : T a =−+40 to +100˚C, I F(ON)=7 to 16mA, V CC =15 to 30V , V F(OFF)=−3V to 0.8V)Parameter Symbol Condition MIN.*13 TYP.MAX.UnitI n p u tForward voltage V F I F =10mA 1.2−1.8V Reverse current I R V R =5V −−10μATerminal capacitance C t T a =25˚C, V =0, f =1MHz −60150pF O u t p u t High level output current I OH *8V O =(V CC −4V), I F(ON)0.5 1.5−A *9V O =(V CC −15V), I F(ON)2−−A Low level output current I OL *8V O =2.5V , V F(OFF)0.5 2.0−A *9V O =15V , V F(OFF)2−−A High level output voltage V OH I O =−0.1A, I F(ON)V CC −4V CC −3−V Low level output voltage V OL I O =0.1A, V F(OFF)−0.10.5V *10High level supply current I CCH I F(ON)−2.55mA *10Low level supply current I CCL V F(OFF)−2.55mA UVLO thresholdV UVLO +V O >5V , I F =10mA 1112.313.5V V UVLO −9.510.712VUVLO Hysteresis UVLO HYS − 1.6−V T r a n s f e r c h a r a c t e r i s t i c s *11"Low →High" threshold input current I FLH V O >5V , I O =0−−5mA Isolation resistance R ISO T a =25˚C, DC =500V , 40 to 60%RH 5×10101011−ΩR e s p o n s e t i m e"Low →High" propagation time t PLH R G =10Ω, C G =10nF, f =10kHz, Duty ratio 50%0.10.30.5μs"High →Low" propagation time t PHL 0.10.30.5μs *12Distortion of pulse width Δt W−−0.3μs Propagation delay skew t PSK −0.35−0.35μsRise time t r −0.1−μs Fall time t f −0.1−μs UVLO Turn on delay t UVLO ON V O >5V , I F =10mA −0.8−μs UVLO Turn off delay t UVLO OFF V O >5V , I F =10mA −0.6−μsInstantaneous common mode rejection voltage (High level output)|CM H |T a =25˚C , V CM =1.5kV(p −p),I F =10 to 16mA , V CC =30V , V OH >15V15−−kV/μs Instantaneous common mode rejection voltage (Low level output)|CM L |T a =25˚C, V CM =1.5kV(p −p), V F =0, V CC =30V , V OL <1V15−−kV/μs *7 It shall connect a by-pass capacitor of 0.1μF or more between V CC (Pin No. 8) and GND (Pin No. 5) near the device, when it measures the transfer characteristics and the output side characteristics.*8 Pulse width ≤50μs, Duty ratio : 0.005*9 Pulse width ≤10μs, Duty ratio : 0.002*10 Output pin is open.*11 I FLH is the value of forward current when output becomes from "L" to "H"*12 Distortion of pulse width Δt W =|t PHL -t PLH |*13 All typical values are at T a =25˚C, V CC =30V■Model Line-upLead Form Through-Hole SMT Gullwing Wide SMT GullwingPackageSleeve Taping 50 pcs/sleeve 1 000 pcs/reelModel No.PC925L0NSZ0F PC925L0NIP0F PC925L0NUP0FFig.5 T est Circuit for High Level / Low Level SupplyCurrent Fig.6 T est Circuit for UVLO ThresholdFig.3 Test Circuit for High Level Output Voltage Fig.4 Test Circuit for Low Level Output VoltageFig.1 Test Circuit for High Level Output Current Fig.2 Test Circuit for Low Level Output CurrentFig.7 T est Circuit for "Low →High" Input Threshold CurrentFig.8 T est Circuit for Response TimeFig.9 T est Circuit for Instantaneous Common Mode Rejection VoltageV V IN V OUTGNDGNDV CM (Peak)V CM wave formV OHV OL CM H , V O wave form SW at A, I F =10 to 16mACM L , V O wave formSW at B, I F =0Fig.14 High Level Output Voltage Drop vs. Ambient TemperatureFig.15 High Level Output Voltage Drop vs. Supply VoltageFig.12 Total Power Dissipation vs. Ambient TemperatureFig.13 Forward Current vs. Forward VoltageFig.10 Forward Currenet vs. Ambient TemperatureFig.11 Power Dissipation vs. Ambient Temperature51015202530F o r w a r d c u r r e n t I F (m A )Ambient temperature T a (˚C)−50−40−25050251251007570O u t p u t p o w e r d i s s i p a t i o n P O (m W )501001502002503000−50−40−25050251251007570Ambient temperature T a (˚C)T o t a l p o w e r d i s s i p a t i o n P t o t (m W )50100150200250350300295Ambient temperature T a (˚C)−50−40−250502512510075700.1101100F o r w a r d c u r r e n t I F (m A )Forward voltage V F (V)H i g h l e v e l ou t p u t v o l t a g e d r o p VO H −V C C (V )−2.5−3−3.5−2−1.5−1−0.50−4Ambient temperature T a (˚C)H i g h l e v e l o u t p u t v o l t a g e d r o p V O H −V C C (V )−2.5−3−3.5−2−1.5−1−0.50−4Supply voltage V CC (V)Fig.20 Low Level Supply Current vs. Ambient TemperatureFig.21 Low Level Supply Current vs. Supply VoltageFig.18 High Level Supply Current vs. Ambient TemperatureFig.19 High Level Supply Current vs. Supply VoltageFig.16 Low Level Output Voltage vs. Ambient TemperatureFig.17 Low Level Output Voltage vs. Supply VoltageL o w l e v e l o u t p u t v o l t a g e V O L (V )0.050.10.150.20.25Ambient temperature T a (˚C)L o w l e v e l o u t p u t v o l t a g e V O L (V )0.2500.050.10.150.215203025Supply voltage V CC (V)T a =25˚C,V F =0.8mA,I O =0.1AH i g h l e v e l s u p p l y c u r r e n t I C C H (m A )0.511.522.533.5Ambient temperature T a (˚C)H i g h l e v e l s u p p l y c u r r e n t I C C H (m A )0.511.522.533.5015202530Supply voltage V CC(V)T a =25˚C,I F =16mAH i g h l e v e l s u p p l y c u r r e n t I C C L (m A )0.511.522.533.50L o w l e v e l s u p p l y c u r r e n t I C C L (m A )0.511.522.533.50T a =25˚C,I F =0mARemarks : Please be aware that all data in the Fig.26 P ropagation Delay Time vs. Ambient TemperatureFig.24 Output Voltage vs. Supply Voltage (UVLO Threshold)Fig.25 Relative UVLO Threshold vs. Ambient TemperatureFig.22 "Low →High" Relative Threshold Input Current vs. Ambient TemperatureFig.23 "Low →High" Relative Threshold Input Current vs. Supply VoltageR e l a t i v e t h r e s h o l d i n p u t c u r r e n t (%)9011012013014080Ambient temperature T a (˚C)100R e l a t i v e t h r e s h o l d i n p u t c u r r e n t (%)9011012013014080Supply voltage V CC (V)100O u t p u t v o l t a g e V O (V )41012141618200682Supply voltage V CC (V)R e l a t i v e U V L O t h r e s h o l d (%)909510511011512080Ambient temperature T a (˚C)8510000.30.350.40.150.20.250.10.50.450.05P r o p a g a t i o n d e l a y t i m e t P L H , t P H L (μs )■Design Considerations●Recommended Operating ConditionsParameter Symbol MIN.MAX.UnitInput current (ON)I F(ON)716mAInput voltage (OFF)V F(OFF)−30.8VSupply voltage V CC1530VOperating temperature T opr−40100˚C●Notes about static electricityTransistor of detector side in bipolar confi guration may be damaged by static electricity due to its minute de-sign.When handling these devices, general countermeasure against static electricity should be taken to avoid breakdown of devices or degradation of characteristics.●Design guideIn order to stabilize power supply line, please certainly connect a by-pass capacitor of 0.1μF or more be-tween V CC and GND near the device.In case that some sudden big noise caused by voltage variation is provided between primary and secondary terminals of photocoupler some current caused by it is fl oating capacitance may be generated and result in false operation since current may go through LED or current may change.If the photocoupler may be used under the circumstances where noise will be generated we recommend to use the bypass capacitors at the both ends of LED.The detector which is used in this device, has parasitic diode between each pins and GND.There are cases that miss operation or destruction possibly may be occurred if electric potential of any pin becomes below GND level even for instant.Therefore it shall be recommended to design the circuit that electric potential of any pin does not become below GND level.This product is not designed against irradiation and incorporates non-coherent LED.●DegradationIn general, the emission of the LED used in photocouplers will degrade over time.In the case of long term operation, please take the general LED degradation (50% degradation over 5 years) into the design consideration.Please decide the input current which become 2 times of MAX. I FLH.●Recommended Foot Print (reference)SMT Gullwing Lead-form(Unit : mm) Wide SMT Gullwing Lead-form(Unit : mm)■Manufacturing Guidelines ●Soldering Method Re fl ow Soldering :Re fl ow soldering should follow the temperature pro fi le shown below.Soldering should not exceed the curve of temperature pro fi le and time.Please don't solder more than twice.12343002001000(˚C)(min)Flow Soldering :Due to SHARP’s double transfer mold construction submersion in fl ow solder bath is allowed under the be-low listed guidelines.Flow soldering should be completed below 270̊C and within 10s.Preheating is within the bounds of 100 to 150̊C and 30 to 80s.Please don’t solder more than twice.Hand solderingHand soldering should be completed within 3 s when the point of solder iron is below 400̊C.Please don’t solder more than twice.Other noticePlease test the soldering method in actual condition and make sure the soldering works fi ne, since the im-pact on the junction between the device and PCB varies depending on the tooling and soldering conditions.●Cleaning instructionsSolvent cleaning :Solvent temperature should be 45˚C or below. Immersion time should be 3minutes or less.Ultrasonic cleaning :The impact on the device varies depending on the size of the cleaning bath, ultrasonic output, cleaning time, size of PCB and mounting method of the device.Therefore, please make sure the device withstands the ultrasonic cleaning in actual conditions in advance of mass production.Recommended solvent materials :Ethyl alcohol, Methyl alcohol and Isopropyl alcoholIn case the other type of solvent materials are intended to be used, please make sure they work fi ne in ac-tual using conditions since some materials may erode the packaging resin.●Presence of ODC etc.This product shall not contain the following materials.And they are not used in the production process for this product.Regulation substances : CFCs, Halon, Carbon tetrachloride, 1,1,1-Trichloroethane (Methylchloroform)Specific brominated flame retardants such as the PBB and PBDE are not used in this product at all.• The RoHS directive (2002/95/EC)This product complies with the RoHS directive (2002/95/EC).Object substances: lead, mercury,cadmium, hexavalent chromium, polybrominated biphenyls (PBB) and polybrominated diphenyl ethers (PBDE)• Content of six substances specified in “ Management Methods for Control of Pollution Caused byElectronic Information Products Regulation ” (Chinese : 电子信息产品污染控制管理办法)✔: indicates that the content of the toxic and hazardous substance in all the homogeneousmaterials of the part is below the concentration limit requirement as described inSJ/T 11363-2006 standard.■Package specifi cation●Sleeve packagePackage materialsSleeve : HIPS (with anti-static material)Stopper : Styrene-ElastomerPackage methodMAX. 50pcs of products shall be packaged in a sleeve.Both ends shall be closed by tabbed and tabless stoppers.The product shall be arranged in the sleeve with its anode mark on the tabless stopper side.MAX. 20 sleeves in one case.Sleeve outline dimensions1. SMT Gullwing Lead-Form Package materialsCarrier tape : A-PET (with anti-static material) Cover tape : PET (three layer system)Reel : PSCarrier tape structure and DimensionsA 16.0±0.3B 7.5±0.1C 1.75±0.10D 12.0±0.1E 2.0±0.1H 10.4±0.1I 0.40±0.05J 4.2±0.1K 10.2±0.1F 4.0±0.1Gφ1.5+0.1−0Reel structure and DimensionsDimensions List(Unit : mm)a φ330b17.5±1.5c φ100±1d φ13.0±0.5e φ23±1f 2.0±0.5g 2.0±0.5Direction of product insertionPull-out direction2. Wide SMT Gullwing Lead-Form Package materialsCarrier tape : A-PET (with anti-static material) Cover tape : PET (three layer system)Reel : PSCarrier tape structure and DimensionsA 24.0±0.3B 11.5±0.1C 1.75±0.10D 12.0±0.1E 2.0±0.1H 12.4±0.1I 0.40±0.05J 4.05±0.10K 10.0±0.1F 4.0±0.1Gφ1.5+0.1 −0Reel structure and Dimensionsa φ330b 25.5±1.5c φ100±1d φ13.0±0.5e φ23±1f 2.0±0.5g 2.0±0.5Dimensions List(Unit : mm)Direction of product insertionPull-out direction■Important Notices· The circuit application examples in this publication are provided to explain representative applications of SHARP devices and are not intended to guarantee any circuit design or license any intellectual property rights. SHARP takes no responsibility for any problems related to any intellectual property right of a third party resulting from the use of SHARP's devices.· Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. SHARP reserves the right to make changes in the specifi cations, characteristics, data, materials, structure, and other contents described herein at any time without notice in order to improve design or reliability. Manufacturing locations are also subject to change without notice.· Observe the following points when using any devices in this publication. SHARP takes no responsibility for damage caused by improper use of the devices which does not meet the conditions and absolute maximum ratings to be used specifi ed in the relevant specifi cation sheet nor meet the following conditions:(i) The devices in this publication are designed for use in general electronic equipment designs such as:--- Personal computers--- Offi ce automation equipment--- Telecommunication equipment [terminal]--- Test and measurement equipment--- Industrial control--- Audio visual equipment--- Consumer electronics(ii) Measures such as fail-safe function and redundant design should be taken to ensure reliability and safety when SHARP devices are used for or in connection with equipment that requires higher reliability such as:--- Transportation control and safety equipment (i.e., aircraft, trains, automobiles, etc.)--- Traffi c signals--- Gas leakage sensor breakers--- Alarm equipment--- Various safety devices, etc.(iii) SHARP devices shall not be used for or in connection with equipment that requires an extremely high level of reliability and safety such as:--- Space applications--- Telecommunication equipment [trunk lines]--- Nuclear power control equipment--- Medical and other life support equipment (e.g., scuba).· If the SHARP devices listed in this publication fall within the scope of strategic products described in the Foreign Exchange and Foreign Trade Law of Japan, it is necessary to obtain approval to export such SHARP devices.· This publication is the proprietary product of SHARP and is copyrighted, with all rights reserved. Under the copyright laws, no part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical, for any purpose, in whole or in part, without the express written permission of SHARP. Express written permission is also required before any use of this publication may be made by a third party.· Contact and consult with a SHARP representative if there are any questions about the contents of this publication.。

X925用户指南2011 年 1 月机器类型：7541型号：目录安全信息 (7)了解打印机 (9)查找有关打印机的信息 (9)为打印机选择位置 (10)打印机配置 (11)扫描仪的基本功能 (12)理解 ADF 和扫描仪玻璃 (13)理解打印机控制面板 (14)理解主屏幕 (15)理解主屏幕 (15)使用触摸屏按钮 (16)定制主屏幕 (19)访问 Embedded Web Server (19)激活主屏幕应用程序 (19)使用 Embedded Web Server 导出和导入配置 (21)其他打印机设置 (23)安装内置式选件 (23)安装进纸匣选件 (34)连接电缆 (47)检验打印机设置 (48)设置打印机软件 (49)设置无线打印 (50)在有线网络上安装打印机 (55)在安装新的网络内置方案端口后更改端口设置 (57)设置串行打印 (59)最小化打印机对环境的影响 (61)节省纸张和碳粉 (61)节省能源 (62)循环再生 (65)加载纸张和特殊介质 (67)设置纸张尺寸和类型 (67)配置 Universal 纸张设置 (67)加载标准或可选的 550 页进纸匣 (68)加载多功能进纸器 (71)进纸匣连接和解除连接 (74)纸张和特殊介质使用指南 (76)纸张使用指南 (76)支持的纸张尺寸、类型和重量 (78)打印 (82)打印文档 (82)从闪存驱动器打印 (83)使用特殊介质打印 (85)打印保密和其他挂起作业 (87)打印信息页 (88)使用最高速度和最高容量 (88)取消打印作业 (89)复印 (91)制作副本 (91)使用特殊介质复印 (92)定制复印设置 (93)在副本上放置信息 (98)取消复印作业 (98)理解复印屏幕和选项 (99)电子邮件 (102)准备发送电子邮件 (102)创建电子邮件快捷方式 (103)用电子邮件发送文档 (104)定制电子邮件设置 (105)取消电子邮件 (106)理解电子邮件选项 (106)使打印机准备发送传真 (109)创建快捷方式 (114)发送传真 (115)定制传真设置 (117)取消外发的传真 (118)理解传真选项 (119)挂起和转发传真 (121)扫描到 FTP 地址 (123)创建快捷方式 (123)扫描到 FTP 地址 (124)理解 FTP 选项 (125)扫描到计算机或闪存驱动器 (128)扫描至计算机 (128)扫描至闪存驱动器 (129)理解 Scan Center 特性 (129)使用 ScanBack 实用程序 (129)理解扫描配置文件选项 (130)理解打印机菜单 (132)菜单列表 (132)“耗材”菜单 (133)纸张菜单 (135)“报告”菜单 (144)“网络/端口”菜单 (145)安全菜单 (157)设置菜单 (162)帮助菜单 (209)保护打印机硬盘和其他已安装的内存 (211)易失性声明 (211)清除易失性内存 (211)清除非易失性内存 (212)清除打印机硬盘内存 (212)配置打印机硬盘加密 (213)清洁打印机的外部 (215)清洁扫描仪玻璃 (215)清洁 ADF 部件 (216)清洁打印头镜片 (217)保存耗材 (220)检查耗材状态 (221)订购耗材 (221)更换耗材 (223)移动打印机 (229)管理支持 (231)查找高级网络连接和管理员信息 (231)使用 Embedded Web Server (231)检查虚拟显示屏 (231)检查打印机的状态 (231)设置电子邮件警报 (232)查看报告 (232)恢复出厂默认设置 (232)清除卡纸 (234)避免卡纸 (234)理解卡纸号码和位置 (234)200 卡纸 (236)201 卡纸 (237)203 卡纸 (238)230 卡纸 (239)231–239 卡纸 (239)24x 卡纸 (240)250 卡纸 (243)280–289 卡纸 (243)290–292 卡纸 (244)451 卡纸 (244)疑难解答 (245)解决基本的打印机问题 (245)理解打印机消息 (245)解决打印问题 (258)解决复印问题 (261)解决扫描仪问题 (264)解决传真问题 (266)解决主屏幕应用程序问题 (270)解决选件问题 (270)解决进纸问题 (273)解决打印质量问题 (274)解决颜色质量问题 (285)Embedded Web Server 没有打开 (288)联系客户支持 (288)注意事项 (289)产品信息 (289)版本注意事项 (289)能量消耗 (292)索引 (297)安全信息将电源线连接到正确接地的电源插座上，所连接的电源插座与产品的距离不可太远，并且要符合使用方便的原则。

346Clamp-On Digital MultimetersHHM591T Clamp-On Multimeter1999 counts resolution AC current up to 700 A DC current up to 700 A with EL panel LCDHHM590 Clamp-On Multimeter1999 counts resolution AC current measurementup to 700 AHHM591 Clamp-On Multimeter1999 counts resolution AC current up to 700 A DC current up to 700 AHHM596/HHM596C AC/DC Clamp-On Multimeter4300 counts resolution AC current up to 700 A DC current up to 700 A Vac basic accuracy ±1.2%DC current basic accuracy ±1.5%HHM596C with °C/°F switchable Type K thermocoupleHHM591T £92HHM591£76GS-Mark EN61010-1 Approval Voltage Category III 600 V,Pollution Degree II AC/DC Current ClampHighly Accurate 1999, 2500,3999, 4300 Counts Resolution MAX, Data Hold, PEAK, ZERO FunctionsModel HHM592, HHM592D,HHM596, HHM596C, HHM599with Auto-Ranging Operation Battery Life: 200 Hours Dimensions:250 H x 100 W x 46 mm D Weight: Approx 320 ga s u r e s e .All clamp-on meters come with high quality deisgn HHM-TL general use test lead set.HHM590347HHM598T AC True-RMS Clampmeter 1999 counts resolutionAC current measurement up to 700 ABasic accuracy ± 1.5%HHM599 AC/DC True-RMS Clampmeter 33⁄4digit 3999 counts AC current up to 700 A DC current up to 700 A DC current accuracy ± 1.5%Resistance accuracy ± 0.3%HHM598 Clamp-On Multimeter1999 counts resolution AC current measurementup to 700 AAC current basic accuracy ±1.5%HHM598C/HHM598F Multimeter1999 counts resolution AC current measurementup to 700 ABasic accuracy ± 1.5%Available for HHM598£51HHM598T HHM599 £89Temperature models include a freeThermocouple Included!a s u r e s p e ra t u r e .All clamp-on meters come with a set of safety test leads, 9 V alkaline battery, Type K beaded wire thermocouple (temperature models only) and complete operator’s manual.348Clamp-On Meters Selection GuideOrdering Example:HHM596C,clamp-on meter, £99.Comes with a set of safety test leads, 9 V alkaline battery, Type K beaded wirethermocouple (temperature models only) and complete operator's manual.HHM590,£80.HHM592,£80.All clamp-on meters come with HHM-TL General use test lead set.High quality design.349HHM596C,£99.0.10.1HHM598,£51.HHM59,£86.HHM58,£131.Temperature models include a free 1 m Type K Thermocouple Included!MOST POPULAR MODELS HIGHLIGHTED!Calibrators, Connectors, General Test and Measurement Instruments, Handheld Instruments for Temperature Measurement, Ice Point References, Indicating Labels,Crayons, Cements and Lacquers, Infrared Temperature Measurement Instruments, Recorders, Relative Humidity Measurement Instruments, PT100 Probes, PT100 Elements,Temperature & Process Meters, Timers and Counters,Temperature and Process Controllers and Power Switching Devices, Thermistor Elements, Probes and Assemblies,Thermocouples, Thermowells and Head and WellAssemblies, Transmitters, Thermocouple Wire, RTD Probes Displacement Transducers, Dynamic Measurement Force Sensors, Instrumentation for Pressure and StrainMeasurements, Load Cells, Pressure Gauges, PressureReference Section, Pressure Switches, Pressure Transducers,Proximity Transducers, Regulators, Pressure Transmitters,Strain Gauges, Torque Transducers, ValvesConductivity Instrumentation,Dissolved OxygenInstrumentation,Environmental Instrumentation,pH Band Heaters,Cartridge Heaters,Circulation Heaters,Comfort Heaters,Controllers,Meters and SwitchingDevices,Flexible Heaters,General Test and Measurement Instruments,Heater Hook-up Wire,Heating Cable Systems,Immersion Heaters,Process Air and Duct,Air Velocity Indicators,Doppler Flowmeters,LevelMeasurement,Magnetic Flowmeters,Mass Flowmeters,Pitot Tubes,Pumps,Rotameters,Turbine and Paddle Wheel Flowmeters,Ultrasonic Flowmeters,Valves,Variable Area Flowmeters,Vortex Shedding FlowmetersCommunication Products and Converters,Data Acquisition and Analysis Software,Data LoggersPlug-in Cards,Signal Conditioners,USB,RS232,RS485,and Parallel Port Data Acquisition Systems,Transmitters and ReceiversEhernet Wireless。

PC925L0NSZ0F Series High Speed, 2.5A Output, Gate Drive DIP 8 pin∗OPIC Photocoupler■DescriptionPC925L0NSZ0F Series contains a LED optically cou-pled to an OPIC chip.It is packaged in a 8 pin DIP, available in SMT gullwing lead form option.Peak output current is 2.5A, Input-output isolation voltage(rms) is 5kV and High speed response (t PHL, t PLH : MAX. 0.5μs).■Features1. 8 pin DIP package2. Double transfer mold package(Ideal for Flow Soldering)3. Built-in direct drive circuit for MOSFET / IGBT drive(I O(peak) : 2.5A)4. High speed response (t PHL, t PLH : MAX. 0.5μs)5. Wide operating supply voltage range(V CC=15 to 30 V)6. High noise immunity due to high instantaneous com-mon mode rejection voltage (CM H : MIN. −15kV/μs, CM L : MIN. 15kV/μs)7. Long creepage distance type (wide lead-form type only : MIN. 8mm)8. High isolation voltage between input and output (V iso(rms) : 5kV)9. Lead-free and RoHS directive compliant ■Agency approvals/Compliance1. Recognized by UL1577 (Double protection isolation), fi le No. E64380 (as model No. PC925L)2. Package resin : ULflammability grade (94V-0)■Applications1. IGBT/MOSFET gate drive for inverter control* "OPIC"(Optical IC) is a trademark of the SHARP Corporation. An OPIC consists of a light-detecting element and a signal-pro-cessing circuit integrated onto a single chip.Notice The content of data sheet is subject to change without prior notice.In the absence of confi rmation by device specifi cation sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP■Internal Connection Diagram■Outline Dimensions(Unit : mm)876512345678N.C.Anode Cathode N.C.V O GND V O V CC■Truth tableInput V O Terminal outputTr1Tr2ON High level ON OFF OFFLow levelOFFON(Unit : mm)Plating material : Pd (Au fl ash)Date code (3 digit)1st digit2nd digit3rd digit Year of production Month of production Week of productionA.D.Mark A.D.Mark Month Mark Week Mark1990A2002P January11st1 1991B2003R February22nd2 1992C2004S March33rd3 1993D2005T April44th4 1994E2006U May55, 6th5 1995F2007V June61996H2008W July71997J2009X August81998K2010A September91999L2011B October O2000M2012C November N2001N::December Drepeats in a 20 year cycleFactory identifi cation mark* This factory marking is for identifi cation purpose only.Please contact the local SHARP sales representative to see the actural status of theproduction.Rank markWith or without.■Absolute Maximum Ratings(Ta=25˚C) Parameter Symbol Rating UnitInput *1 Forward current I F25mA Reverse voltage V R5V *2 Peak forward current I FM1AOutputSupply voltage V CC35V *3 Peak output current I O(PEAK) 2.5A Output voltage V O V CC V *4 Output power dissipation P O250mW*5 Total power dissipation P tot295mW *6 Isolation voltage V iso(rms)5kV Operating temperature T opr−40 to +100˚C Storage temperature T stg−55 to +125˚C *7 Soldering temperature T sol270˚C *1 When ambient temperature goes above 70˚C, the power dissipation goes down at 0.3mA/˚C (Refer to Fig.10).*2 Pulse width≤1μs, 300pps*3 Pulse width≤10μs, Duty ratio : 0.002*4 When ambient temperature goes above 70˚C, the power dissipation goes down at 4.8mA/˚C (Refer to Fig.11).*5 When ambient temperature goes above 70˚C, the power dissipation goes down at 5.4mA/˚C (Refer to Fig.12).*6 AC for 1min, 40 to 60%RH, f=60Hz*7 For 10s■Electro-optical Characteristics *8(Unless otherwise speci fi ed : T a =−+40 to +100˚C, I F(ON)=7 to 16mA, V CC =15 to 30V , V F(OFF)=−3V to 0.8V)Parameter Symbol Condition MIN.*13 TYP.MAX.UnitI n p u tForward voltage V F I F =10mA 1.2−1.8V Reverse current I R V R =5V −−10μATerminal capacitance C t T a =25˚C, V =0, f =1MHz −60150pF O u t p u t High level output current I OH *8V O =(V CC −4V), I F(ON)0.5 1.5−A *9V O =(V CC −15V), I F(ON)2−−A Low level output current I OL *8V O =2.5V , V F(OFF)0.5 1.5−A *9V O =15V , V F(OFF)2−−A High level output voltage V OH I O =−0.1A, I F(ON)V CC −4V CC −3−V Low level output voltage V OL I O =0.1A, V F(OFF)−0.10.5V *10High level supply current I CCH I F(ON)−2.55mA *10Low level supply current I CCL V F(OFF)−2.55mA UVLO thresholdV UVLO +V O >5V , I F =10mA 1112.313.5VV UVLO −9.510.712VUVLO Hysteresis UVLO HYS − 1.6−V T r a n s f e r c h a r a c t e r i s t i c s *11"Low →High" threshold input current I FLH V O >5V , I O =0−−5mA Isolation resistance R ISO T a =25˚C, DC =500V , 40 to 60%RH 5×10101011−ΩR e s p o n s e t i m e"Low →High" propagation time t PLH R G =10Ω, C G =10nF, f =10kHz, Duty ratio 50%0.10.30.5μs"High →Low" propagation time t PHL 0.10.30.5μs *12Distortion of pulse width Δt W−−0.3μs Propagation delay skew t PSK −0.35−0.35μsRise time t r −0.1−μs Fall time t f −0.1−μs UVLO Turn on delay t UVLO ON V O >5V , I F =10mA −0.8−μs UVLO Turn off delay t UVLO OFF V O >5V , I F =10mA −0.6−μsInstantaneous common mode rejection voltage (High level output)|CM H |T a =25˚C , V CM =1.5kV(p −p),I F =10 to 16mA , V CC =30V , V OH >15V15−−kV/μs Instantaneous common mode rejection voltage (Low level output)|CM L |T a =25˚C, V CM =1.5kV(p −p), V F =0, V CC =30V , V OL <1V15−−kV/μs *7 It shall connect a by-pass capacitor of 0.1μF or more between V CC (Pin No. 8) and GND (Pin No. 5) near the device, when it measures the transfer characteristics and the output side characteristics.*8 Pulse width ≤50μs, Duty ratio : 0.005*9 Pulse width ≤10μs, Duty ratio : 0.002*10 Output pin is open.*11 I FLH is the value of forward current when output becomes from "L" to "H"*12 Distortion of pulse width Δt W =|t PHL -t PLH |*13 All typical values are at T a =25˚C, V CC =30V■Model Line-upLead Form Through-Hole SMT Gullwing Wide SMT GullwingPackageSleeve Taping 50 pcs/sleeve 1 000 pcs/reelModel No.PC925L0NSZ0F PC925L0NIP0F PC925L0NUP0FFig.5 T est Circuit for High Level / Low Level SupplyCurrent Fig.6 T est Circuit for UVLO ThresholdFig.3 Test Circuit for High Level Output Voltage Fig.4 Test Circuit for Low Level Output VoltageFig.1 Test Circuit for High Level Output Current Fig.2 Test Circuit for Low Level Output CurrentFig.7 T est Circuit for "Low →High" Input Threshold CurrentFig.8 T est Circuit for Response TimeFig.9 T est Circuit for Instantaneous Common Mode Rejection VoltageV V IN V OUTGNDGNDV CM (Peak)V CM wave formV OHV OL CM H , V O wave form SW at A, I F =10 to 16mACM L , V O wave formSW at B, I F =0Fig.14 High Level Output Voltage Drop vs. Ambient TemperatureFig.15 High Level Output Voltage Drop vs. Supply VoltageFig.12 Total Power Dissipation vs. Ambient TemperatureFig.13 Forward Current vs. Forward VoltageFig.10 Forward Currenet vs. Ambient TemperatureFig.11 Power Dissipation vs. Ambient Temperature51015202530F o r w a r d c u r r e n t I F (m A )Ambient temperature T a (˚C)−50−40−25050251251007570O u t p u t p o w e r d i s s i p a t i o n P O (m W )501001502002503000−50−40−25050251251007570Ambient temperature T a (˚C)T o t a l p o w e r d i s s i p a t i o n P t o t (m W )50100150200250350300295Ambient temperature T a (˚C)−50−40−250502512510075700.1101100F o r w a r d c u r r e n t I F (m A )Forward voltage V F (V)H i g h l e v e l ou t p u t v o l t a g e d r o p V OH −V C C (V )−2.5−3−3.5−2−1.5−1−0.50−4Ambient temperature T a (˚C)H i g h l e v e l o u t p u t v o l t a g e d r o p V O H −V C C (V )−2.5−3−3.5−2−1.5−1−0.50−4Supply voltage V CC (V)Fig.20 Low Level Supply Current vs. Ambient TemperatureFig.21 Low Level Supply Current vs. Supply VoltageFig.18 High Level Supply Current vs. Ambient TemperatureFig.19 High Level Supply Current vs. Supply VoltageFig.16 Low Level Output Voltage vs. Ambient TemperatureFig.17 Low Level Output Voltage vs. Supply VoltageL o w l e v e l o u t p u t v o l t a g e V O L (V )0.050.10.150.20.25Ambient temperature T a (˚C)L o w l e v e l o u t p u t v o l t a g e V O L (V )0.2500.050.10.150.215203025Supply voltage V CC (V)T a =25˚C,V F =0.8mA,I O =0.1AH i g h l e v e l s u p p l y c u r r e n t I C C H (m A )0.511.522.533.5Ambient temperature T a (˚C)H i g h l e v e l s u p p l y c u r r e n t I C C H (m A )0.511.522.533.5015202530Supply voltage V CC(V)T a =25˚C,I F =16mAH i g h l e v e l s u p p l y c u r r e n t I C C L (m A )0.511.522.533.50L o w l e v e l s u p p l y c u r r e n t I C C L (m A )0.511.522.533.50T a =25˚C,I F =0mARemarks : Please be aware that all data in the Fig.26 P ropagation Delay Time vs. Ambient TemperatureFig.24 Output Voltage vs. Supply Voltage (UVLO Threshold)Fig.25 Relative UVLO Threshold vs. Ambient TemperatureFig.22 "Low →High" Relative Threshold Input Current vs. Ambient TemperatureFig.23 "Low →High" Relative Threshold Input Current vs. Supply VoltageR e l a t i v e t h r e s h o l d i n p u t c u r r e n t (%)9011012013014080Ambient temperature T a (˚C)100R e l a t i v e t h r e s h o l d i n p u t c u r r e n t (%)9011012013014080Supply voltage V CC (V)100O u t p u t v o l t a g e V O (V )41012141618200682Supply voltage V CC (V)R e l a t i v e U V L O t h r e s h o l d (%)909510511011512080Ambient temperature T a (˚C)8510000.30.350.40.150.20.250.10.50.450.05P r o p a g a t i o n d e l a y t i m e t P L H , t P H L (μs )■Design Considerations●Recommended Operating ConditionsParameter Symbol MIN.MAX.UnitInput current (ON)I F(ON)716mAInput voltage (OFF)V F(OFF)−30.8VSupply voltage V CC1530VOperating temperature T opr−40100˚C●Notes about static electricityTransistor of detector side in bipolar confi guration may be damaged by static electricity due to its minute de-sign.When handling these devices, general countermeasure against static electricity should be taken to avoid breakdown of devices or degradation of characteristics.●Design guideIn order to stabilize power supply line, please certainly connect a by-pass capacitor of 0.1μF or more be-tween V CC and GND near the device.In case that some sudden big noise caused by voltage variation is provided between primary and secondary terminals of photocoupler some current caused by it is fl oating capacitance may be generated and result in false operation since current may go through LED or current may change.If the photocoupler may be used under the circumstances where noise will be generated we recommend to use the bypass capacitors at the both ends of LED.The detector which is used in this device, has parasitic diode between each pins and GND.There are cases that miss operation or destruction possibly may be occurred if electric potential of any pin becomes below GND level even for instant.Therefore it shall be recommended to design the circuit that electric potential of any pin does not become below GND level.This product is not designed against irradiation and incorporates non-coherent LED.●DegradationIn general, the emission of the LED used in photocouplers will degrade over time.In the case of long term operation, please take the general LED degradation (50% degradation over 5 years) into the design consideration.Please decide the input current which become 2 times of MAX. I FLH.●Recommended Foot Print (reference)SMT Gullwing Lead-form(Unit : mm) Wide SMT Gullwing Lead-form(Unit : mm)■Manufacturing Guidelines ●Soldering Method Re fl ow Soldering :Re fl ow soldering should follow the temperature pro fi le shown below.Soldering should not exceed the curve of temperature pro fi le and time.Please don't solder more than twice.12343002001000(˚C)(min)Flow Soldering :Due to SHARP ʼs double transfer mold construction submersion in fl ow solder bath is allowed under the be-low listed guidelines.Flow soldering should be completed below 270̊C and within 10s.Preheating is within the bounds of 100 to 150̊C and 30 to 80s.Please don ʼt solder more than twice.Hand solderingHand soldering should be completed within 3 s when the point of solder iron is below 400̊C.Please don ʼt solder more than twice.Other noticePlease test the soldering method in actual condition and make sure the soldering works fi ne, since the im-pact on the junction between the device and PCB varies depending on the tooling and soldering conditions.●Cleaning instructionsSolvent cleaning :Solvent temperature should be 45˚C or below. Immersion time should be 3minutes or less.Ultrasonic cleaning :The impact on the device varies depending on the size of the cleaning bath, ultrasonic output, cleaning time, size of PCB and mounting method of the device.Therefore, please make sure the device withstands the ultrasonic cleaning in actual conditions in advance of mass production.Recommended solvent materials :Ethyl alcohol, Methyl alcohol and Isopropyl alcoholIn case the other type of solvent materials are intended to be used, please make sure they work fi ne in ac-tual using conditions since some materials may erode the packaging resin.●Presence of ODCThis product shall not contain the following materials.And they are not used in the production process for this product.Regulation substances : CFCs, Halon, Carbon tetrachloride, 1.1.1-Trichloroethane (Methylchloroform)Specifi c brominated fl ame retardants such as the PBB and PBDE are not used in this product at all.This product shall not contain the following materials banned in the RoHS Directive (2002/95/EC).•Lead, Mercury, Cadmium, Hexavalent chromium, Polybrominated biphenyls (PBB), Polybrominateddiphenyl ethers (PBDE).■Package specifi cation●Sleeve packagePackage materialsSleeve : HIPS (with anti-static material)Stopper : Styrene-ElastomerPackage methodMAX. 50pcs of products shall be packaged in a sleeve.Both ends shall be closed by tabbed and tabless stoppers.The product shall be arranged in the sleeve with its anode mark on the tabless stopper side.MAX. 20 sleeves in one case.Sleeve outline dimensions1. SMT Gullwing Lead-Form Package materialsCarrier tape : A-PET (with anti-static material) Cover tape : PET (three layer system)Reel : PSCarrier tape structure and DimensionsA 16.0±0.3B 7.5±0.1C 1.75±0.10D 12.0±0.1E 2.0±0.1H 10.4±0.1I 0.40±0.05J 4.2±0.1K 10.2±0.1F 4.0±0.1Gφ1.5+0.1−0Reel structure and DimensionsDimensions List(Unit : mm)a φ330b17.5±1.5c φ100±1d φ13.0±0.5e φ23±1f 2.0±0.5g 2.0±0.5Direction of product insertionPull-out direction2. Wide SMT Gullwing Lead-Form Package materialsCarrier tape : A-PET (with anti-static material) Cover tape : PET (three layer system)Reel : PSCarrier tape structure and DimensionsA 24.0±0.3B 11.5±0.1C 1.75±0.10D 12.0±0.1E 2.0±0.1H 12.4±0.1I 0.40±0.05J 4.05±0.10K 10.0±0.1F 4.0±0.1Gφ1.5+0.1 −0Reel structure and Dimensionsa φ330b 25.5±1.5c φ100±1d φ13.0±0.5e φ23±1f 2.0±0.5g 2.0±0.5Dimensions List(Unit : mm)Direction of product insertionPull-out direction■Important Notices· The circuit application examples in this publication are provided to explain representative applications of SHARP devices and are not intended to guarantee any circuit design or license any intellectual property rights. SHARP takes no responsibility for any problems related to any intellectual property right of a third party resulting from the use of SHARP's devices.· Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. SHARP reserves the right to make changes in the specifi cations, characteristics, data, materials, structure, and other contents described herein at any time without notice in order to improve design or reliability. Manufacturing locations are also subject to change without notice.· Observe the following points when using any devices in this publication. SHARP takes no responsibility for damage caused by improper use of the devices which does not meet the conditions and absolute maximum ratings to be used specifi ed in the relevant specifi cation sheet nor meet the following conditions:(i) The devices in this publication are designed for use in general electronic equipment designs such as:--- Personal computers--- Offi ce automation equipment--- Telecommunication equipment [terminal]--- Test and measurement equipment--- Industrial control--- Audio visual equipment--- Consumer electronics(ii) Measures such as fail-safe function and redundant design should be taken to ensure reliability and safety when SHARP devices are used for or in connection with equipment that requires higher reliability such as:--- Transportation control and safety equipment (i.e., aircraft, trains, automobiles, etc.)--- Traffi c signals--- Gas leakage sensor breakers--- Alarm equipment--- Various safety devices, etc.(iii) SHARP devices shall not be used for or in connection with equipment that requires an extremely high level of reliability and safety such as:--- Space applications--- Telecommunication equipment [trunk lines]--- Nuclear power control equipment--- Medical and other life support equipment (e.g., scuba).· If the SHARP devices listed in this publication fall within the scope of strategic products described in the Foreign Exchange and Foreign Trade Law of Japan, it is necessary to obtain approval to export such SHARP devices.· This publication is the proprietary product of SHARP and is copyrighted, with all rights reserved. Under the copyright laws, no part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical, for any purpose, in whole or in part, without the express written permission of SHARP. Express written permission is also required before any use of this publication may be made by a third party.· Contact and consult with a SHARP representative if there are any questions about the contents of this publication.。

For the complete selection of Pressureproducts, refer to The Green Book®85Order OnlineOver 100,000 Products Available! ®Handheld Manometer with RS232 and optional SoftwareߜGage or Differential Pressure ߜEasy to Operate ߜRS232/PC InterfaceߜAuto Power Off Extends Battery Life ߜ“BAT” Display Indicates when to Replace Battery ߜHold Data Function ߜBacklight Display ߜBattery Includedߜ11 Switchable Units Plus 11 User Defined UnitsߜSoftware and PC Cable OptionalSpecificationsSensor:Built-in piezoelectric sensor in housingCompatible Media: Clean, dry, non-corrosive gasesMaximum Overpressure:See Table Accuracy:See Table Linearity & Hysteresis:±0.2% FS Typ.(Max ±1.0%)Repeatability: ±0.2% FS (Max 0.5%)Functions:Hold Date, Record, Relative Pressure (Gage Pressure), Backlight, Unit EligibleSwitchable Units:psi, inH 2O, kPa, bar, mbar,kg/cm 2, mmHg, cmHg, inHg, ftH 2O, oz/in Operating Humidity:10 to 90% non-condensing Operating Temperature:0 to 50°C (32 to 122°C)Temperature Effects:Span: 0.5% (Over operating range)Connection: Tube fitting Serial Format:2400 baud, 1 stop bit, 8 data bits Power:9 V Battery (included)Dimensions:72 x 182 x 30 mm (2.8 x 7.2 x 1.2")Weight:150 g (5.3 oz)Supplied with:Tubing, battery, instruction manual, hard carrying caseModel HHP8205$and RS232 software and PC cable, $195 + 75 = $270.Supplied with connector, hose, battery, instruction manual and hard carrying case.Shown smaller than actual size Software sold separatelyMOST POPULARCANADA www.omega.ca Laval(Quebec) 1-800-TC-OMEGA UNITED KINGDOM www. Manchester, England0800-488-488GERMANY www.omega.deDeckenpfronn, Germany************FRANCE www.omega.frGuyancourt, France088-466-342BENELUX www.omega.nl Amstelveen, NL 0800-099-33-44UNITED STATES 1-800-TC-OMEGA Stamford, CT.CZECH REPUBLIC www.omegaeng.cz Karviná, Czech Republic596-311-899TemperatureCalibrators, Connectors, General Test and MeasurementInstruments, Glass Bulb Thermometers, Handheld Instruments for Temperature Measurement, Ice Point References,Indicating Labels, Crayons, Cements and Lacquers, Infrared Temperature Measurement Instruments, Recorders Relative Humidity Measurement Instruments, RTD Probes, Elements and Assemblies, Temperature & Process Meters, Timers and Counters, Temperature and Process Controllers and Power Switching Devices, Thermistor Elements, Probes andAssemblies,Thermocouples Thermowells and Head and Well Assemblies, Transmitters, WirePressure, Strain and ForceDisplacement Transducers, Dynamic Measurement Force Sensors, Instrumentation for Pressure and Strain Measurements, Load Cells, Pressure Gauges, PressureReference Section, Pressure Switches, Pressure Transducers, Proximity Transducers, Regulators,Strain Gages, Torque Transducers, ValvespH and ConductivityConductivity Instrumentation, Dissolved OxygenInstrumentation, Environmental Instrumentation, pH Electrodes and Instruments, Water and Soil Analysis InstrumentationHeatersBand Heaters, Cartridge Heaters, Circulation Heaters, Comfort Heaters, Controllers, Meters and SwitchingDevices, Flexible Heaters, General Test and Measurement Instruments, Heater Hook-up Wire, Heating Cable Systems, Immersion Heaters, Process Air and Duct, Heaters, Radiant Heaters, Strip Heaters, Tubular HeatersFlow and LevelAir Velocity Indicators, Doppler Flowmeters, LevelMeasurement, Magnetic Flowmeters, Mass Flowmeters,Pitot Tubes, Pumps, Rotameters, Turbine and Paddle Wheel Flowmeters, Ultrasonic Flowmeters, Valves, Variable Area Flowmeters, Vortex Shedding FlowmetersData AcquisitionAuto-Dialers and Alarm Monitoring Systems, Communication Products and Converters, Data Acquisition and Analysis Software, Data LoggersPlug-in Cards, Signal Conditioners, USB, RS232, RS485 and Parallel Port Data Acquisition Systems, Wireless Transmitters and Receivers。