S15VB80中文资料

ROBUST SUITE OF SOFTWARE APPLICATIONSWith users requiring flexibility in their business technology, theDR-S150 scanner is bundled with a suite of convenient softwareapplications to help widen the scope of capture and outputcapabilities. Canon’s CaptureOnTouch Pro is powerful yet easy-to-use scanning software. It performs OCR, converts documents tosearchable PDF or JPG, and scans directly to the cloud (Dropbox,Google Drive, OneDrive, Box, QuickBooks Online, Evernote,SharePoint, and more)† to improve sharing and collaboration. KofaxVirtual ReScan (VRS) helps to automatically enhance the overallquality of scanned images and reduce the time involved in manualdocument preparation. Settings to automatically adjust outputresolution for improved file quality and reduce size are just some ofthe features available with these software applications.The CaptureOnTouch Job Tool App—available for iOS, Android, andWindows—allows users to scan to and from their smart devices.ENVIRONMENT IN MINDThe DR-S150 scanner meets ENERGY STAR® guidelines for energyefficiency and complies with both the EU RoHS and WEEE directivesfor the reduction of hazardous substances and waste products.♦The scanner also has an EPEAT environmental rating of Silver.CUSTOMER CAREeCarePAK options protect your investment and extend servicebeyond the initial three-year advanced exchange warranty period.This saves on costs associated with post-purchase maintenanceand helps maximize uptime throughout the scanner’s life.As an ENERGY STAR® Partner, Canon U.S.A., Inc. has qualified this model as meeting the ENERGYSTAR energy efficiency criteria through an EPA recognized certification body. ENERGY STAR andthe ENERGY STAR mark are registered U.S. marks. Canon is a registered trademark of CanonInc. in the United States and may also be a registered trademark or trademark in other countries.imageFORMULA is a registered trademark of Canon Electronics, Inc. All other referenced productnames and marks are trademarks of their respective owners. Specifications and availability subject tochange without notice. Not responsible for typographical errors.© 2019 Canon U.S.A., Inc. All rights reserved.1219-DRS150-PDF-SPSPECIFICATIONSType: Office Document ScannerDocument Feeding: Automatic or ManualDocument SizeWidth: 2.0" – 8.5"Length: 2.1" – 14.0"Long Document Mode: Up to 118"Document Weight: 7 – 56 lb. Bond Plain PaperFeeder Capacity: Up to 60 SheetsGrayscale: 8-bitColor: 24-bitLight Source: RGB LEDScanning Element: Contact Image Sensor (CMOS)Scanning Modes: Color, Grayscale, Black and WhiteOptical Resolution: Up to 600 dpiOutput Resolution: 100/150/200/240/300/400/600 dpiScanning Speeds*Simplex DuplexBlack and White: Up to 45 ppm Up to 90 ipmGrayscale: Up to 45 ppm Up to 90 ipmColor: Up to 45 ppm Up to 90 ipmInterface: U SB 3.2 Gen 1, 10Base-T/100Base-TX/1000Base-T Ethernet, Wi-Fi®Dimensions (H x W x D): 9.5" x 11.5" x 9.8" (with trays closed)Weight: 7.44 lb.Power Consumption: 22.5W or Less (Sleep Mode: 3.1W or less)Suggested Daily Volume: 4,000 Scans**Bundled Software: I SIS/TWAIN Driver, CaptureOnTouch Pro V4, KofaxVirtualReScan BasicSupported OS: W indows 7 Service Pack 1 or newer version(32 bit / 64 bit), Windows 8.1 (32-bit/64-bit), Windows10 (32-bit/64-bit), Windows Server 2008 R2 ServicePack 1 or newer version, Windows Server 2012 R2,Windows Server 2016, Windows Server 2019Options: F latbed Scanner Unit 102, Exchange Roller Kit(feed roller and retard roller), Passport Carrier Sheet,A4 Carrier SheetOther Features: A utomatic Color Detection, Automatic Page SizeDetection, Automatic Resolution Setting, BackgroundSmoothing, Character Emphasis, Color Dropout/Enhance Color, Deskew, Double-Feed Release, FeedingRetry, Folio Mode, Image Rotation, Long DocumentMode, MultiStream™, Pre-Scan, Prevent Bleed-Through/Remove Background, Separation Retry,Shadow Cropping, Skip Blank Page, Text Enhancement,Text Orientation Recognition, Ultrasonic Double-FeedDetection, User PreferencesItem Number: 4044C002†S ubscription to a third-party cloud service required. Subject to third-party cloud serviceprovider’s Terms and Conditions.♦T he facts and product statistics about EU RoHS and WEEE were obtained from CanonElectronics Inc. as of 2019.*E xamples based on typical settings, rated in pages/images per minute with letter-sizeddocuments at 200 dpi, landscape feeding direction. Actual processing speeds may varybased on PC performance and application software.**C alculations based on scanning speed and assumed daily time of use.。

S150,S300 Series Pure Sine Wave Inverter User’s ManualList of contents1. Important Safety Instructions (3)1-1 General Safety Precautions (3)1-2 Precautions When Working With Batteries (3)2. Features (4)2-1 Electrical Performance 150W (4)2-2 Electrical Performance 300W (5)2-3 Mechanical Drawings 150W (6)2-4 Mechanical Drawings 300W (7)3. Introduction (8)3-1 Front Panel Operations (8)3-2 Rear Panel Operations (8)3-3 AC Safety Grounding (9)3-4 Installation (10)3-5 DC Input (Outlet sockets available) (11)3-6 AC output (Outlet sockets available) (11)4. Troubleshooting guide (12)5. Maintenance (13)6. Warranty (13)1. Important Safety Instructions1-1. General Safety Precautions1-1-1. Do not expose the Inverter to rain, snow, spray, bilge or dust.To reduce risk of hazard, do not obstruct the ventilationopenings. Do not install the Inverter in a zero-clearancecompartment. Overheating may result.1-1-2. To avoid a risk of fire and electric shock. Make sure that existing wiring is in good electrical conditions and the size is not undersized.Do not operate the Inverter with damaged or substandard wiring.1-1-3. This equipment contains components which can produce arcs or sparks. To prevent fire or explosion, do not install in compartmentscontaining batteries or Flammable materials or in locations whichrequire ignition protected equipment. This includes any spacecontaining gasoline-powered machinery, fuel tanks, or joints, fittings,or other connection between components of the fuel system.1-2. Precautions When Working with Batteries1-2-1. If battery acid contacts skin or clothing, wash immediately with soap and water. If acid enters eye, immediately flood eye with runningcold water for at least 20 minutes and get medical attentionimmediately.1-2-2. Never smoke or allow a spark or flame in vicinity of battery or Engine.1-2-3. Do not drop a metal tool on the battery. The resulting spark or short-circuit on the battery of other electrical part may cause anexplosion.1-2-4. Remove personal metal items such as rings, bracelets, necklaces, and watches when working with a lead-acid battery.A lead-acid battery can produces a short-circuit current high enoughto weld a ring or the like to metal, causing severe burns.2.Features2-1. Electrical Performance 150WSpecification Model No.Item S150-112 S150-124 S150-212 S150-224 Continuous OutputPower150WSurge Rating 200WInput Voltage 12V 24V 12V 24V Input Voltage Range 10.5 – 15.0 21.0 – 30.0 10.5 – 15.0 21.0 – 30.0 Output Voltage 110 VAC ±5% 230 VAC ±5%Frequency 50 / 60Hz ± 0.3%Max. Efficiency 87% 88% 87% 88% No Load Current Draw 0.20A 0.16A 0.22A 0.16A Output Waveform Pure Sine Wave ( THD 5.0% Typical )Power Factor Allowed cosθ-90° ~ cosθ+90°Protection Overload, Short Circuit, Reverse Polarity (Fuse), Over / Under Input Voltage, Over Temperature.Remote Control Yes, On/Off controlled by external switch Safety UL458 EN60950EMC FCC Class B EN55022：1997EN61000-3-2：1998EN61000-3-3：1995EN55024：2001e-Marke13-022025Operating Temperature 0 – 40 ℃Storage Temperature -30℃ to 70℃Fan Cooling Thermostatically controlled Dimensions (L x W x H) 200 x 132 x 72 mm / 7.87 x 5.20 x 2.83 inch Weight 2.7 kgs. / 5.4 Lbs.2-2. Electrical Performance 300WSpecification Model No.Item S300-112 S300-124 S300-212 S300-224 Continuous OutputPower300WSurge Rating 400WInput Voltage 12V 24V 12V 24VInput Voltage Range 10.5 – 15.0 21.0 – 30.0 10.5 – 15.0 21.0 – 30.0 Output Voltage 110 VAC ±5% 230 VAC ±5%Frequency 50 / 60Hz ± 0.3%Max. Efficiency 89% 89% 89% 89%No Load Current Draw 0.24A 0.28A 0.26A 0.28A Output Waveform Pure Sine Wave ( THD 5% Typical )Power Factor Allowed cosθ-90° ~ cosθ+90°Protection Overload, Short Circuit, Reverse Polarity (Fuse), Over / Under Input Voltage, Over Temperature.Remote Control Yes, On/Off controlled by external switch Safety UL458 EN60950EMC FCC Class B EN55022：1997EN61000-3-2：1998EN61000-3-3：1995EN55024：2001e-Marke13-022078Operating Temperature 0 – 40 ℃Storage Temperature -30℃ to 70℃Fan Cooling Thermostatically controlled Dimensions (L x W x H) 237 x 155 x 72 mm / 9.33 x 6.10 x 2.83 inch Weight 3.5 kgs. / 7.7 Lbs.2-3. Mechanical Drawing2-4. Mechanical Drawing3. IntroductionThis series models are the most, reliable, multi protections, compact size, puresine wave inverters that used in wide range of applications including Mobile, Officeequipments, Home entertainments, electronics hold equipments.To get the most out of the power inverter, it must be installed and usedproperly. Please read the instructions in this manual before installationand operation this model.3-1. Front Panel Operations：3-1-1. ON / OFF/ REMOTE switch：Leave the Power ON / OFF / REMOTE switch in the OFF positionduring installation.3-1-2 LED display indicates Power StatusStatusLED ConditionsSolid Green AC Power OKBlinked Red fast OVPBlinked Red slowly UVPBlinked Red intermittently OTPSolid Red OLP3-1-3. Remote Port: Placing 0.75mm2 and Screw type cable betweenremote port and panel.3-2. Rear Panel Operations3-2-1. Ventilation window: Do not obstruct, allow at least 3 inch ofclearance for airflow.3-2-2. Input terminals：Connect 12V / 24V batteries or other 12V / 24V powersources. 【＋】is positive,【－】is negative.Reverse polarity connection will blow internal fuseand may damage inverter permanently.3-2-3. Using # 8 AWG wire to connects Chassis ground with Vehicle Chassis.3-3. AC Safety Grounding：During the AC wiring installation, AC input and output ground wires areconnected to the inverter. The AC input ground wire must connect to the incoming ground of your AC utility source.The AC output ground wire should go to the grounding point for your loads ( for example, a distribution panel ground bus ).3-3-1. Neutral Grounding (GFCI’S)：110V models：The neutral conductor of the AC output circuit of theInverter is automatically connected to the safety ground during inverteroperation. This conforms to National Electrical Code requirementsthat separately derived AC sources (such as inverter and generators)have their neutral conductors tied to ground in the same way that theneutral conductor from the utility is tied to ground at the AC breakerpanel. For models configured with a transfer relay, while AC utilitypower is presenting and the Inverter is in bypass mode, this connection(neutral of the Inverter’s AC output to input safety ground) is not presentso that the utility neutral is only connected to ground at your breakerpanel, as required. Cotek has tested the following GFCI – protected20A receptacles and found that they functioned properly whenconnected to the output of the Inverter3-4. InstallationBefore connect your applications to the inverter, always check the power draw of your appliances. The inverter is affordable to supply surge power for a short time so as to start up the electrical equipments such as motor, pumps…that need more power while starting up.When all the above requirements are checked OK and satisfied and allconnections are made, it’s the time to turn on your inverter by pushing thepower switch to the ‘ I ’ position. The sine wave shaped output voltagegently rises from AC outlet.When the inverter is not supplying power to an application for a longer time, it’s recommended to turn off the inverter to save your batteries since it stilldraws a small amount of current in the “ no load ” condition.DC input voltage status as follows:DC Input Over Voltage DC Input UnderVoltageModelShut-down Restart Shut-down Restart 12Vmodels15.3 14.8 10.5 12.5 24Vmodels30.6 29.6 21.0 25.03-5. DC Input (Outlet sockets available)：CIGARET CLAMP TERMINAL3-6. AC output (Outlet sockets available)：Australia / New Zealand4. Troubleshooting guide：Problems and Symptoms Possible Cause Solutions No output voltage, the LED glows RED light.a. Power status light isblinked red fast. Over input voltage. Check input voltage.Reduce input voltage.b. Power status light isblinked red slowly. Low input voltage. Recharge battery.Check connectionsand cable.c. Power status light isblinked redIntermittently. Thermal shutdown Improve ventilation.Make sure ventilationopenings in inverterare not obstructed.Reduce ambienttemperature.d. Power status light is glowed red steadily. Short circuit, Wiringerror,Over LoadCheck AC wiringfor short circuit.Remove load.5. Maintenance：Very little maintenance is required to keep your inverter operating properly.You should clean the exterior of the unit periodically with a damp cloth toprevent accumulation of dust and dirt.At the same time, tighten the screws on the DC input terminals.6. Warranty：We warrant this product against defects in materials and workmanship for a period of 24 months from the date of purchase and will repair or replace any defective Power Inverter when directly returned, postage paid, to us.This warranty will be considered void if the unit has suffered any obviousphysical damage or alteration either internally or externally and does notcover damage arising from improper use such as plugging.The unit into an unsuitable power sources attempts to operate products with excessive power consumption requirements, or use in unsuitable environments.This is the only warranty that the company makes.No other warranties express or imply including warranties of merchantability and fitness for a particular purpose.Repair and replacement are your sole remedies and the company shall not be liable for damages, whether direct, incidental, special or consequential, even though caused by negligence or other fault.。

1、汽车用管（别克轿车专用）小口径高压锅炉管按国内外标准或行业标准生产210C、15CrMoG、12Cr1MoVG、T12～T91系列钢管2、西气东输站场用管线管GB/T9711.2 L245NB Φ1146、Φ895等3、海底输油管线管API5L X52 PSL2 Φ8910、Φ114.311.14、油田用管N80非调质管API 5CT Φ139.77.72 J55油管API 5CT Φ735.515、桁架臂专用管（整体调质管）协议标准，20Mn2B、20Mn2、Φ14615等，用于履带式塔吊用起重设备6、专用缸筒和支架用管T91、钢102系列高压锅炉管GB5310-1995，用于热电站高温、高压环境7、拖拉机后轴管35MnVN，履带式拖拉机的后轴8、超高强度结构管35CrMnsi、30CrMnSiNi2A，用于军工、飞机起落架用管9、车桥管20Mn2、Φ17812、Φ12719等10、岩矸管协议标准J55、Φ266、Φ316等，用于高速公路、大型水电站大坝加固用11、液压支柱管GB/T17396-1998、27SiMn，用于煤机井下作业支撑固定按美标生产的锅炉和过热器用中碳钢无缝钢管ASTM A210、210C、Φ60612、汽车半轴套管YB/T5035-1996、45Mn2\4513、超长换热器管20，Φ19216000-21000，用于换热器14、叉杆用无缝管CR-1、Φ485，用于火车提速用的CR转向架交叉杆15、火箭炮用定向螺旋异型无缝管Φ1232.2、MP16Mn、GJB459-8816、抗海水腐蚀管Q/CG41-1994、10CrMoA1、Φ1084、Φ252.517、潜油电机轴管协议标准Φ3111、Φ3613.5、40Cr、35CrMo、35CrMoV，用于抽油泵的电机轴18、低温管道用管GB/T18984-2003、09DG、10MnDG、09Mn2VDG、B655，用于石化行业处于低温环境的流体输送管道、核电站用管军工用纯铁管DT319、710超强炮身用管20、直九机管15CDV621、锅炉、热交换器用不锈无缝管GB13296-1991、0Cr18Ni9Ti、0Cr18Ni11Ti、Φ1928900等22、潜望镜管、汽车、摩托车减震器用精密无缝钢管10、20等.23、曳光破甲弹压环用管SAE1035、Φ1009.5可生产的国内标准品种标准常用牌号（钢级）生产方式结构用无缝钢管GB/T8162-1999 10-45#、20r、40r35CrMo、30CrMnSi 冷轧（拔）热轧输送流体用无缝钢管GB/T8163-1999 10、20、09MnV、16Mn 冷轧（拔）热轧高压锅炉用无缝钢管GB5310-1995 20G、15CrMoG、12Cr1MoVG、12CrMoG 10CrMo910、12Cr2MoWVTiB冷轧（拔）热轧低中压锅炉用无方钢管GB3087-1999 10、20 冷轧（拔）热轧石油裂化用无缝钢管GB9948-1988 10、20、15CrMo、1Cr5Mo 冷轧（拔）热轧冷拔无缝异型钢管GB/T3094-2000 10-45#、09MnV、16Mn 冷轧（拔）结构用不锈钢无缝钢管GB/T14975-2002 0Cr18Ni9、1Cr18Ni9Ti、1Cr13 冷轧（拔）流体输送用不锈钢无缝钢管GB/T14976-2002 1Cr18Ni9Ti、0Cr13 冷轧（拔）锅炉、热交换器用不锈钢无缝钢管GB13296-1991 0Cr18Ni9、1Cr18Ni9Ti、1Cr17 冷轧（拔）化肥设备用无缝钢管GB6479-2000 10、16Mn、1Cr5Mo、15CrMo 冷轧（拔）热轧冷拔或冷轧精密无缝钢管GB/T3639-2002 10、20、35CrMo、15CrMo、30CrMnSi 冷轧（拔）液压支柱用热轧无缝钢管GB/T17396-1998 27SiMn 热轧船舶用碳钢无缝钢管GB/T5312-1999 C10、C20 冷轧（拔）汽车半轴套用无缝钢管YB/T5035-1996 45Mn2、45# 冷轧（拔）地质钻探用无缝钢管YB/T5052-1993YB/235-1970DZ40、DZ50 冷轧（拔）油井用油管、接箍管API5CT J55、N80 冷轧（拔）热轧管线用管API5L A、B、X42、X52 冷轧（拔）热轧航空用结构钢厚壁无缝钢管GJB2608-1996 30CrMnSiA 冷轧（拔航空用结构薄壁无缝钢管GJB2609-1996 30CrMnSiA 冷轧（拔火箭炮用定向螺旋异型无缝钢管GJB459-1988 MP16Mn 冷轧（拔）低温管道用无缝钢管GB/T18984-2003 09DG、09Mn2VDG、B655、10MNDG 冷轧（拔）热轧无缝钢管材质大全可生产的国内标准品种标准常用牌号（钢级）生产方式抗海水腐蚀无缝钢管Q/CG41-2003 10CrMoA1 冷轧（拔）曳光破甲弹压环用冷拔无缝钢管Q/CG35-2002 SAE1035 冷轧（拔）炮弹用无缝钢管YBn1-1986 40Mn2、45MnB、D60、30CrMnSiA 冷轧（拔）火炮零件用无缝钢管YBn2-1986 40Cr、30CrMnSiA、40CrNi 冷轧（拔）高压容器用无缝钢管Q/CG94-2001 37Mn、30CrMo、35CrMoA、30CrMnSiA 冷轧（拔）双35弹导带用无缝钢管Q/CG90-1998 S35PD 冷轧（拔）液压件和机加工用无缝钢管Q/CG68-2003 JS10、JS20、JS35、JS45、JS35Cr、JS40Cr、JS45CrMo、27SiMn电机轴管GB/T8162-1999+协议35CrMo、40Cr 冷轧（拔）岩纤管协议J55 冷轧（拔）可生产的国外标准标准号中文名称ASTMA53 无缝和焊接的黑钢管和热浸镀锌钢管ASTMA106 高温作业用碳素钢无缝钢管ASTMA178/A178M 电阻焊碳素钢和碳锰钢锅炉管ASTMA179/A179M 无缝冷拔低碳钢热交换器和冷凝器钢管ASTMA192/192M 高压用碳素钢无缝锅炉管ASTMA199/A199M 热交换器和冷凝器用中合金钢冷拔无缝钢管ASTMA209/A209M 锅炉和过热器用碳钼合金钢无缝钢管ASTMA210/210M 锅炉和过热器用中碳钢无缝钢管ASTMA333/A333M 低温作业用无缝和焊接钢管JIS G3441 机械结构用合金钢钢管JIS G3444 普通结构用碳素钢钢管JIS G3445 机械结构用碳素钢管JIS G3452 管道用碳素钢管JIS G3454 压力管道用碳素钢管JIS G3455 高压管道用碳素钢管JIS G3456 高温管道用碳素钢管JIS G3458 管道用合金钢钢管JIS G3461 锅炉、换热器用碳素钢钢管JIS G3462 锅炉、换热器用合金钢钢管DIN17175 热强无缝管ASTMA519-1996 JIS G3441-1988 结构用无缝钢管ASTMA53-1998 JIS G3452-1988 DIN1629-1984 输送流体用无缝钢管ASTMA106-1997a JIS G3461-1998 DIN17175-1979 高压锅炉用无缝钢管JIS G3441-1988 石油裂化用无缝钢管LR GL DNV BV 船舶用碳钢无缝钢管无缝钢管材质大全1、GB/T8162-2008（结构用无缝钢管）。

FSBS15CH60 Smart Power Module44mm26.8mmFigure 1.FSBS15CH60 Smart Power ModuleFSBS15CH60 Smart Power Module Pin DescriptionsPin Number Pin Name Pin Description1V CC(L)Low-side Common Bias Voltage for IC and IGBTs Driving2COM Common Supply Ground3IN(UL)Signal Input for Low-side U Phase4IN(VL)Signal Input for Low-side V Phase5IN(WL)Signal Input for Low-side W Phase6V FO Fault Output7C FOD Capacitor for Fault Output Duration Time Selection8C SC Capacitor (Low-pass Filter) for Short-Current Detection Input9IN(UH)Signal Input for High-side U Phase10V CC(UH)High-side Bias Voltage for U Phase IC11V B(U)High-side Bias Voltage for U Phase IGBT Driving12V S(U)High-side Bias Voltage Ground for U Phase IGBT Driving13IN(VH)Signal Input for High-side V Phase14V CC(VH)High-side Bias Voltage for V Phase IC15V B(V)High-side Bias Voltage for V Phase IGBT Driving16V S(V)High-side Bias Voltage Ground for V Phase IGBT Driving17IN(WH)Signal Input for High-side W Phase18V CC(WH)High-side Bias Voltage for W Phase IC19V B(W)High-side Bias Voltage for W Phase IGBT Driving20V S(W)High-side Bias Voltage Ground for W Phase IGBT Driving21N U Negative DC–Link Input for U Phase22N V Negative DC–Link Input for V Phase23N W Negative DC–Link Input for W Phase24U Output for U Phase25V Output for V Phase26W Output for W Phase27P Positive DC–Link InputFSBS15CH60 Smart Power ModuleControl Part Total System Thermal ResistanceNote:2. For the measurement point of case temperature(T C ), please refer to Figure 2.SymbolParameterConditionsRatingUnitsV CC Control Supply Voltage Applied between V CC(UH), V CC(VH), V CC(WH), V CC(L) -COM20V V BS High-side Control Bias VoltageApplied between V B(U) - V S(U), V B(V) - V S(V), V B(W) -V S(W)20V V IN Input Signal Voltage Applied between IN (UH), IN (VH), IN (WH), IN (UL), IN (VL),IN (WL) - COM-0.3~17V V FO Fault Output Supply Voltage Applied between V FO - COM -0.3~V CC +0.3V I FO Fault Output CurrentSink Current at V FO Pin5mA V SCCurrent Sensing Input Voltage Applied between C SC - COM-0.3~V CC +0.3VSymbolParameterConditionsRatingUnitsV PN(PROT)Self Protection Supply Voltage Limit (Short Circuit Protection Capability)V CC = V BS = 13.5 ~ 16.5VT J = 125°C, Non-repetitive, less than 2µs 400V T C Module Case Operation Temperature -20°C ≤ T J ≤ 125°C, See Figure 2-20 ~ 100°C T STG Storage Temperature -40 ~ 125°C V ISOIsolation Voltage60Hz, Sinusoidal, AC 1 minute, Connection Pins to ceramic substrate2500V rmsSymbolParameterConditiosMin.Typ.Max.UnitsR th(j-c)Q Junction to Case Thermal ResistanceInverter IGBT part (per 1/6 module) -- 3.1°C/W R th(j-c)FInverter FWD part (per 1/6 module)--3.6°C/WNote:4. Short-circuit current protection is functioning only at the low-sides.5. The fault-out pulse width t FOD depends on the capacitance value of C FOD according to the following approximate equation : C FOD = 18.3 x 10-6 x t FOD [F]Recommended Operating ConditionsUV CCR Reset Level 11.212.413.2V UV BSD Detection Level 10.111.312.5V UV BSR Reset Level10.511.712.9V t FOD Fault-out Pulse Width C FOD = 33nF (Note 5)1.0 1.8-ms V IN(ON)ON Threshold Voltage Applied between IN (UH), IN (VH), IN (WH), IN (UL),IN (VL), IN (WL) - COM3.0--V V IN(OFF)OFF Threshold Voltage--0.8VSymbolParameterConditionsValueUnitsMin.Typ.Max.V PN Supply Voltage Applied between P - N U , N V , N W-300400V V CC Control Supply Voltage Applied between V CC(UH), V CC(VH), V CC(WH),V CC(L) - COM13.51516.5V V BSHigh-side Bias VoltageApplied between V B(U) - V S(U), V B(V) - V S(V),V B(W) - V S(W)13.01518.5V DV CC /Dt, DV BS /Dt Control supply variation -1-1V/us t dead Blanking Time for Preventing Arm-short For Each Input Signal 2.0--us f PWM PWM Input Signal-20°C ≤ T C ≤ 100°C, -20°C ≤ T J ≤ 125°C --20kHz V SENVoltage for Current SensingApplied between N U , N V , N W - COM (Including surge voltage)-44VFSBS15CH60 Smart Power ModuleFSBS15CH60 Smart Power ModuleFSBS15CH60 Smart Power ModuleTRADEMARKSThe following are registered and unregistered trademarks Fairchild Semiconductor owns or is authorized to use and is not intended to be an exhaustive list of all such trademarks.FSBS15CH60 Smart Power ModuleDISCLAIMERFAIRCHILD SEMICONDUCTOR RESERVES THE RIGHT TO MAKE CHANGES WITHOUT FURTHER NOTICE TO ANY PRODUCTS HEREIN TO IMPROVE RELIABILITY, FUNCTION OR DESIGN. FAIRCHILD DOES NOT ASSUME ANY LIABILITY ARISING OUT OF THE APPLICATION OR USE OF ANY PRODUCT OR CIRCUIT DESCRIBED HEREIN; NEITHER DOES IT CONVEY ANY LICENSE UNDER ITS PATENT RIGHTS, NOR THE RIGHTS OF OTHERS.LIFE SUPPORT POLICYFAIRCHILD’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF FAIRCHILD SEMICONDUCTOR CORPORATION.As used herein:1. Life support devices or systems are devices or systems which,(a) are intended for surgical implant into the body, or (b) support or sustain life, or (c) whose failure to perform when properly used in accordance with instructions for use provided in the labeling,can be reasonably expected to result in significant injury to the user.2. A critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness.PRODUCT STATUS DEFINITIONS Definition of TermsDatasheet IdentificationProduct StatusDefinitionAdvance InformationFormative or In Design This datasheet contains the design specifications for product development. Specifications may change in any manner without notice.PreliminaryFirst ProductionThis datasheet contains preliminary data, andsupplementary data will be published at a later date.Fairchild Semiconductor reserves the right to make changes at any time without notice in order to improve design.No Identification Needed Full ProductionThis datasheet contains final specifications. Fairchild Semiconductor reserves the right to make changes at any time without notice in order to improve design.Obsolete Not In ProductionThis datasheet contains specifications on a product that has been discontinued by Fairchild semiconductor.The datasheet is printed for reference information only.FAST ®FASTr™FPS™FRFET™GlobalOptoisolator™GTO™HiSeC™I 2C™i-Lo ™ImpliedDisconnect™IntelliMAX™ISOPLANAR™LittleFET™MICROCOUPLER™MicroFET™MicroPak™MICROWIRE™MSX™MSXPro™OCX™OCXPro™OPTOLOGIC ®OPTOPLANAR™PACMAN™POP™Power247™PowerEdge™PowerSaver™PowerTrench ®QFET ®QS™QT Optoelectronics™Quiet Series™RapidConfigure™RapidConnect™µSerDes™SILENT SWITCHER ®SMART START™SPM™Stealth™SuperFET™SuperSOT™-3SuperSOT™-6SuperSOT™-8SyncFET™TinyLogic ®TINYOPTO™TruTranslation™UHC™UltraFET ®UniFET™VCX™A CEx™ActiveArray™Bottomless™CoolFET™CROSSVOLT ™DOME™EcoSPARK™E 2CMOS™EnSigna™FACT™FACT Quiet Series™Across the board. Around the world.™The Power Franchise ®Programmable Active Droop™Rev. I15。

洗碗机使用说明书型号CW15-B189U1•本说明书为通用手册•本公司保留说明书解释权•产品外观请以实物为准•阅后请与发票一并妥善保存•如遇产品技术或软件升级，恕不另行通知•本产品只适合在中国大陆销售和使用一、产品介绍1.1.部件介绍1.1.1.各部件名称1.1.2.附件清单*1.2.控制面板1.2.1.控制面板温馨提示本产品控制面板为触摸屏。

为了您的安全操作和使用体验，操作前请务必确保手是干的，否则将会影响触控灵敏度。

二、使用说明2.1.注意事项2.1.1.标志符号说明为了您能更好使用本产品，防止人身伤害及物品损坏事故，请重点关注安全注意事项内容，并运用生活常识谨慎操作。

对因使用不当造成的损失，本公司不承担相关责任。

请务必仔细阅读并遵守本说明书中有以下标志符号的内容。

2.1.2.电源及安放场景电源•本产品使用交流220V/50Hz电源，用电环境应有规格适宜的保险丝等过载保护装置，电表、电线、插座应能承受10A以上的电流。

•必须使用有可靠接地的电源，电源的地线应正确接地并远离地下水管及电线。

如果用电环境不能达到安全要求，如无接地线等，必须由专业人员处理到位。

•请使用原装电源线，不要擅自更换或改装电源线；保持电源线向下延展，确保电源线被固定在特定位置，过度弯曲、拉扯、缠绕、捆扎电源线或在电源线上放置重物可能导致电源线破损，均可引起触电或火灾。

•如果电源线损坏，为了避免危险，必须由制造商、其维修部或类似部门的专业人员更换。

•洗碗机电源插座必须能随手触及，便于用户断开电源。

•不要用潮湿的手触摸、插拔电源插头，以免触电。

安放场景•您的洗碗机为家用型，请勿用于商用。

•洗碗机适宜室内使用，不要将洗碗机安装在温度低于零度的地方。

•因洗碗机工作时会产生热量，请不要将洗碗机安装在暖气设备、锅炉或其他产生热量的热源附近，并注意不要将洗碗机与燃气管道及受热易老化部件直接接触，避免带来安全隐患。

若欲安装洗碗机位置的上方有燃气灶，请您提前将橱柜安装高度等信息告知客服以便服务人员安装，不正确的安装可能会造成着火、漏水、漏电等安全隐患。

2580中⽂资料This versatile family of integrated circuits will work with many combina-tions of logic- and load-voltage levels, meeting interface requirements beyond the capabilities of standard logic buffers. Series UDN2580A and A2580SLW source drivers can drive incandescent, LED, or vacuum fluorescent displays.Internal transient-suppression diodes permit the drivers to be used with inductive loads such as relays, solenoids, dc and stepping motors, and mag-netic print hammers.The Types UDN2580A and A2580SLW are high-current source drivers used to switch the ground ends of loads that are directly connected to a -50 V supply. Typical loads are telephone relays, PIN diodes, and LEDs.The UDN2585A and A2585SLW are drivers designed for applications requiring low output saturation voltages. Typical loads are low-voltage LEDs and incandescent displays. The eight non-Darlington, 25 V outputs will simultaneously sustain continuous load currents of -120 mA at ambient temperatures to +70°C.The UDN2588A and A2588SLW have separate logic and driver supply lines. Their eight drivers can serve as an interface between positive logic (TTL, CMOS, PMOS) or negative logic (NMOS) and either negative or split-load supplies to -80 V.These drivers are packaged in plastic DlPs (suffix A) or surface-mount-able wide-body SOlCs (suffix LW), and are rated for operation over the temperature range of -20°C to +85°C.FEATURESI TTL, CMOS, PMOS, NMOS Compatible I High Output-Current Rating I Internal Transient Suppression I Efficient Input/Output StructureIThrough-Hole and Surface-Mount Packages8-CHANNEL SOURCE DRIVERSAlways order by complete part number, e.g., UDN2580A .Data Sheet29316C*ABSOLUTE MAXIMUM RATINGSSee next page.2580, 2585,AND 25882580, 2585, AND 25888-CHANNELSOURCE DRIVERS115 Northeast Cutoff, Box 15036Worcester, Massachusetts 01615-0036 (508) 853-50002ABSOLUTE MAXIMUM RATINGSat 25°C Free-Air Temperature for any one driver (unless otherwise noted).UDN2580A UDN2585A UDN2588A A2580SLWA2585SLWA2588SLWOutput Voltage, V CE50 V 25 V 80 V Supply Voltage, V S (ref. sub.)50 V 25 V 80 V Supply Voltage, V CC (ref. sub.)——80 V Input Voltage, V IN (ref. V S )-30 V -20 V -30 V Total Output Current, (l C + I S )-500 mA -250 mA -500 mA Substrate Current I SUB3.0 A2.0 A3.0 APackage Power Dissipation, P D (single output) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1.0 W(total package) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .See GraphOperating Temperature Range, T A . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .-20°C to +85°C Storage Temperature Range, T S . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .-55°C to +150°C50751001251502.50.5A L L O W AB L E P AC K A G E P O W E RD I S S I P A T I O N I N W A T T SAMBIENT TEMPERATURE IN °C2.01.51.025Dwg. GP-022-118-PIN DIP, R = 60°C/WθJA20-PIN DIP, R = 55°C/W θJA20-LEAD SOIC, R = 70°C/WθJAWCopyright ? 1981, 2000 Allegro MicroSystems, Inc.2580, 2585, AND 25888-CHANNEL SOURCE DRIVERS/doc/a12537797fd5360cba1adb88.html3TYPICAL OPERATING VOLTAGESV S V lN(ON) V lN(OFF)V CC V EE(MAX)Device Types0 V-15 V to -3.6 V-0.5 V to 0 VNA-25 V UDN2585A & A2585SLW -50 VUDN2580A & A2580SLW +5 V0 V to +1.4 V+4.5 V to +5 VNA-20 V UDN2585A & A2585SLW -45 VUDN2580A & A2580SLW ≤ 5 V-75 V UDN2588A & A2588SLW +12 V0 V to +8.4 V+11.5 V to +12 VNA-13 V UDN2585A & A2585SLW -38 VUDN2580A & A2580SLW ≤12 V-68 V UDN2588A & A2588SLW +15 V0 V to +11.4 V+14.5 V to +15 VNA-10V UDN2585A & A2585SLW -35 VUDN2580A & A2580SLW ≤15 V-65 VUDN2588A & A2588SLWNOTE:The substrate must be tied to the most negative point in the external circuit to maintain isolation between drivers and to providefor normal circuit operation.For simplification, these devices are characterized on the following pages with specific voltages for inputs, logic supply (V S ), load supply (V EE ), and collector supply (V CC ). Typical use of the UDN2580A and A2580SLW is with negative-referenced logic. The more common application of the UDN2585A, A2585SLW,UDN2588A and A2588SLW are with positive-referenced logic supplies. In application, the devices are capable of operation over a wide range of logic and supply voltage levels:2580, 2585, AND 25888-CHANNELSOURCE DRIVERS115 Northeast Cutoff, Box 15036Worcester, Massachusetts 01615-0036 (508) 853-50004Dwg. No. A-11,358UDN2580A and A2580SLWELECTRICAL CHARACTERISTICS at T A = +25°C, V S = 0 V , V EE = -45 V (unless otherwise noted).Limits Characteristic Symbol Test ConditionsMin.Max.Units Output Leakage I CEX V lN = -0.5 V, V OUT = V EE = -50 V—50µA CurrentV lN = -0.4 V, V OUT = V EE = -50 V, T A = 70°C —100µA Output Sustaining V CE(SUS)V lN = -0.4 V, I OUT = -25 mA, Note 135—V VoltageOutput Saturation V CE(SAT)V lN = -2.4 V, I OUT = -100 mA — 1.8V Voltage V lN = -3.0 V, I OUT = -225 mA — 1.9V V lN = -3.6 V, I OUT = -350 mA — 2.0V Input CurrentI IN(ON)V lN = -3.6 V, I OUT = -350 mA —-500µA V lN = -15 V, I OUT = -350 mA—-2.1mA I IN(OFF)I OUT = -500 µA, T A = 70°C, Note 3-50—µA Input VoltageV IN(ON)I OUT = -100 mA, V CE ≤1.8 V, Note 4—-2.4V I OUT = -225 mA, V CE ≤1.9 V, Note 4—-3.0V I OUT = -350 mA, V CE ≤2.0 V, Note 4—-3.6V V IN(OFF) I OUT = -500 µA, T A = 70°C -0.2—V Clamp Diode I R V R = 50 V, T A = 70°C —50µA Leakage Current Clamp Diode V F I F = 350 mA— 2.0V Forward Voltage Input Capacitance C IN —25pF Turn-On Delay t PHL 0.5 E IN to 0.5 E OUT — 5.0µs Turn-Off Delayt PLH0.5 E IN to 0.5 E OUT—5.0µsDwg. No. A-11,359SUB/VEE+V S2580, 2585, AND 25888-CHANNEL SOURCE DRIVERS/doc/a12537797fd5360cba1adb88.html5UDN2585A and A2585SLWELECTRICAL CHARACTERISTICS at T A = +25°C, V S = 0 V, V EE = -20 V (unless otherwise noted).Limits Characteristic Symbol Test ConditionsMin.Max.Units Output Leakage I CEX V lN = -0.5 V, V OUT = V EE = -25 V—50µA CurrentV lN = -0.4 V, V OUT = V EE = -25 V, T A = 70°C —100µA Output Sustaining V CE(SUS)V lN = -0.4 V, I OUT = -25 mA, Note 115—V VoltageOutput Saturation V CE(SAT)V lN = -4.6 V, I OUT = -60 mA — 1.1V V lN = -4.6 V, I OUT = -120 mA — 1.2V Input Current I IN(ON)V lN = -4.6 V, I OUT = -120 mA —-1.6mA V lN = -14.6 V, I OUT = -120 mA —-5.0mA Input Voltage V IN(ON)I OUT = -120 mA, V CE ≤1.2 V, Note 3—-4.6V V IN(OFF)I OUT = -100 µA, T A = 70°C -0.4—V Clamp Diode I R V R = 25 V, T A = 70°C —50µA Leakage Current Clamp Diode V F I F = 120 mA— 2.0V Forward Voltage Input Capacitance C IN —25pF Turn-On Delay t PHL 0.5 E IN to 0.5 E OUT — 5.0µs Turn-Off Delayt PLH0.5 E IN to 0.5 E OUT—5.0µsNOTES:1. Pulsed test, t p ≤ 300 µs, duty cycle ≤ 2%.2. Negative current is defined as coming out of the specified device pin.3. The V IN(ON) voltage limit guarantees a minimum output source current per the specified conditions.4. The substrate must always be tied to the most negative point and must be at least 4.0 V below V S .Voltage Dwg. No. A-11,360Dwg. PP-064SUB/V EE+V SDwg. No. A-11,3592580, 2585, AND 25888-CHANNELSOURCE DRIVERS115 Northeast Cutoff, Box 15036Worcester, Massachusetts 01615-0036 (508) 853-50006UDN2588A and A2588SLWELECTRICAL CHARACTERISTICS at T A = +25°C,V S = 5.0 V, V CC = 5.0 V, V EE = -40 V (unless otherwise noted).Limits Characteristic Symbol Test ConditionsMin.Max.Units Output Leakage I CEX V lN ≥4.5 V, V OUT = V EE = -75 V—50µA CurrentOutput Sustaining V CE(SUS)V lN ≥4.6 V, V EE = -70 V, I OUT = -25 mA, Note 150—V VoltageOutput Saturation V CE(SAT)V lN = 2.6 V, I OUT = -100 mA, Ref. V CC — 1.8V Voltage V lN = 2.0 V, I OUT = -225 mA, Ref. V CC — 1.9V V lN = 1.4 V, I OUT = -350 mA, Ref. V CC — 2.0V Input CurrentI IN(ON)V lN = 1.4 V, I OUT = -350 mA—-500µA V S = 15 V, V EE = -30 V, V lN = 0 V, I OUT = -350 mA —-2.1mA I IN(OFF )I OUT = -500 µA, T A = 70°C, Note 3-50—µA Input VoltageV IN(ON)I OUT = -100 mA, V CE ≤1.8 V, Note 4— 2.6V I OUT = -225 mA, V CE ≤1.9 V, Note 4— 2.0V I OUT = -350 mA, V CE ≤2.0 V, Note 4— 1.4V V IN(OFF) I OUT = -500 µA 4.8—V Clamp Diode I R V R = 80 V —50µA Leakage Current Clamp Diode V F I F = 350 mA— 2.0V Forward Voltage Input Capacitance C IN —25pF Turn-On Delay t PLH 0.5 E IN to 0.5 E OUT — 5.0µs Turn-Off Delayt PLH0.5 E IN to 0.5 E OUT—5.0µsNOTES:1. Pulsed test, t p ≤300 µs, duty cycle ≤ 2%.2. Negative current is defined as coming out of the specified device pin.3. The I IN(OFF) current limit guarantees against partial turn-on of the output.4. The V IN(ON) voltage limit guarantees a minimum output source current per the specified conditions.5. The substrate must always be tied to the mostnegative point and must be at least 4.0 V below V S .6. V CC must be equal to or less positive than V S .PARTIAL SCHEMATICNote the UDN2588A (DIP) and the A2588SLW (SOIC) are electrically identical and share a common terminal number assignment.2580, 2585, AND 25888-CHANNEL SOURCE DRIVERS/doc/a12537797fd5360cba1adb88.html710080400150200250300350400450A L L O W AB L E P E A KC O L L E C T O R C U R R E N T I N m A A T 70°CPER CENT DUTY CYCLEALLOWABLE PEAK COLLECTOR CURRENT AT 50°C AS A FUNCTION OF DUTY CYCLE Dwg. No. A-11,107B1009080400150200250300350400450A L L O W AB L E P E A KC O L L E C T O R C U R R E N T I N m A A T 50°CPER CENT DUTY CYCLEALLOWABLE PEAK COLLECTOR CURRENT AT 70°C AS A FUNCTION OF DUTY CYCLE Dwg. No. A-11,108B2580, 2585, AND 25888-CHANNELSOURCE DRIVERS115 Northeast Cutoff, Box 15036Worcester, Massachusetts 01615-0036 (508) 853-50008TYPICAL APPLICATIONSCOMMON-CATHODE LED DRIVERTELECOMMUNICATIONSRELAY DRIVER(Negative Logic)Dwg. No. A-11,356-36 V +5 V-48 VV EE2580, 2585, AND 25888-CHANNEL SOURCE DRIVERS/doc/a12537797fd5360cba1adb88.html9UDN2580A and UDN2585ADimensions in Inches (controlling dimensions)Dimensions in Millimeters(for reference only)NOTES:1.Exact body and lead configuration at vendor ’s option within limits shown.2.Lead spacing tolerance is non-cumulative.3.Lead thickness is measured at seating plane or below.4.Supplied in standard sticks/tubes of 21 devices.Dwg. MA-001-18A in19Dwg. MA-001-18A mm192580, 2585, AND 25888-CHANNELSOURCE DRIVERS115 Northeast Cutoff, Box 15036Worcester, Massachusetts 01615-0036 (508) 853-500010Dwg. MA-008-20 inBSCDwg. MA-008-20 mm1.27BSCA2580SLW, A2585SLW, and A2588SLW(add “TR” to part number for tape and reel)Dimensions in Inches (for reference only)Dimensions in Millimeters (controlling dimensions)NOTES:1.Exact body and lead configuration at vendor ’s option within limits shown.2.Lead spacing tolerance is non-cumulative.3.Supplied in standard sticks/tubes of 37 devices or add “TR ” to part number for tape and reel.2580, 2585, AND 25888-CHANNEL SOURCE DRIVERS/doc/a12537797fd5360cba1adb88.html11UDN2588ADimensions in Inches (controlling dimensions)Dimensions in Millimeters(for reference only)NOTES:1.Exact body and lead configuration at vendor ’s option within limits shown.2.Lead spacing tolerance is non-cumulative.3.Lead thickness is measured at seating plane or below..4.Supplied in standard sticks/tubes of 18 devices.Dwg. MA-001-20 mm110Dwg. MA-001-20 in1102580, 2585, AND 25888-CHANNELSOURCE DRIVERS115 Northeast Cutoff, Box 15036Worcester, Massachusetts 01615-0036 (508) 853-500012POWER SOURCE DRIVERSIN ORDER OF 1) OUTPUT CURRENT, 2) OUTPUT VOLTAGE, 3) NUMBER OF DRIVERSOutput Ratings *FeaturesSerial Latched Diode Saturated Internal mA V #Input Drivers Clamp Outputs ProtectionPart Number ?-2560 8–X –––58156010X X active pull-down ––5810-F and 6809/106012X X active pull-down ––5811 and 68116020X X active pull-down ––5812-F and 68126032XX active pull-down ––5818-F and 681885 8–––––6118-120-25 8––X X –258530 8––X X –298550 8X X X X –5895-35035 8––X –X 298750 8––X ––2981 and 298250 8X X X ––5891-50 8––X ––258080 8––X ––2983 and 298480 8X X X ––5890-80 8––X ––2588-50061–––MOSFET X 2525 and 253562–––MOSFET X 2526 and 2536-4000604––X ––2944*Current is maximum specified test condition, voltage is maximum rating. See specification for sustaining voltage limits orover-current protection voltage limits.Complete part number includes additional characters to indicate operating temperature range and package style.The products described here are manufactured under one or more U.S. patents or U.S. patents pending.Allegro MicroSystems, Inc. reserves the right to make, from time to time, such departures from the detail specifications as may berequired to permit improvements in the performance, reliability, or manufacturability of its products. Before placing an order, the user is cautioned to verify that the information being relied upon is current.Allegro products are not authorized for use as critical components in life-support devices or systems without express written approval.The information included herein is believed to be accurate and reliable. However, Allegro MicroSystems, Inc. assumes no responsi-bility for its use; nor for any infringement of patents or other rights of third parties which may result from its use.。

August 2006Rev. 131/47L7800 seriesPositive voltage regulatorsFeature summary■Output current to 1.5A■Output voltages of 5; 5.2; 6; 8; 8.5; 9; 10; 12; 15; 18; 24V■Thermal overload protection ■Short circuit protection■Output transition SOA protectionDescriptionThe L7800 series of three-terminal positiveregulators is available in TO-220, TO-220FP , TO-3 and D 2PAK packages and several fixed output voltages, making it useful in a wide range of applications. These regulators can provide local on-card regulation, eliminating the distribution problems associated with single point regulation. Each type employs internal current limiting, thermal shut-down and safe area protection, making it essentially indestructible. If adequate heat sinking is provided, they can deliver over 1A output current. Although designedprimarily as fixed voltage regulators, thesedevices can be used with external components to obtain adjustable voltage and currents.Schematic diagramL7800 series2/47Contents1Pin configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 2Maximum ratings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 3Test circuits . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 4Electrical characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 5Typical performance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 6Package mechanical data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 7Order code . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46 8Revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47L7800 series Pin configuration 1 Pin configurationMaximum ratings L7800 series4/472 Maximum ratingsNote:Absolute Maximum Ratings are those values beyond which damage to the device mayoccur. Functional operation under these condition is not impliedTable 1.Absolute maximum ratingsSymbol ParameterValue Unit V I DC Input voltage for V O = 5 to 18V 35Vfor V O = 20, 24V40I O Output current Internally Limited P D Power dissipationInternally LimitedT STG Storage temperature range-65 to 150°C T OPOperating junction temperature rangefor L7800-55 to 150°C for L7800C0 to 150Table 2.Thermal DataSymbol ParameterD 2PAK TO-220TO-220FPTO-3Unit R thJC Thermal resistance junction-case 3554°C/W R thJAThermal resistance junction-ambient62.5506035°C/WL7800 series Test circuits 3 Test circuits5/47Electrical characteristics L7800 series6/474Electrical characteristicsTable 3.Electrical characteristics of L7805 (refer to the test circuits, T J = -55 to 150°C, V I = 10V, I O = 500 mA, C I = 0.33 µF , C O = 0.1 µF unless otherwise specified)Symbol ParameterTest conditionsMin.Typ.Max.Unit V O Output voltage T J = 25°C4.855.2V V O Output voltage I O = 5mA to 1A, P O ≤ 15W V I = 8 to 20V4.655 5.35V ∆V O (1)1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.Line regulationV I = 7 to 25V , T J = 25°C 350mVV I = 8 to 12V , T J = 25°C 125∆V O (1)Load regulation I O = 5 mA to 1.5A, T J = 25°C 100mV I O = 250 to 750mA, T J = 25°C 25I d Quiescent current T J = 25°C 6mA ∆I d Quiescent current change I O = 5mA to 1A 0.5mA V I = 8 to 25 V 0.8∆V O /∆T Output voltage drift I O = 5mA0.6mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C 40µV/V O SVR Supply voltage rejection V I = 8 to 18V , f = 120Hz 68dB V d Dropout voltage I O = 1A, T J = 25°C 2 2.5V R O Output resistance f = 1 KHz17m ΩI sc Short circuit current V I = 35V , T J = 25°C 0.75 1.2A I scpShort circuit peak currentT J = 25°C1.32.23.3AL7800 series Electrical characteristics7/47Table 4.Electrical characteristics of L7806 (refer to the test circuits, T J = -55 to 150°C, V I = 11V, I O = 500 mA, C I = 0.33 µF , C O = 0.1 µF unless otherwise specified)Symbol ParameterTest conditionsMin.Typ.Max.Unit V O Output voltage T J = 25°C5.7566.25V V O Output voltage I O = 5mA to 1A, P O ≤ 15W V I = 9 to 21V5.6566.35V ∆V O (1)Line regulationV I = 8 to 25V , T J = 25°C 60mVV I = 9 to 13V , T J = 25°C 30∆V O (1)Load regulation I O = 5 mA to 1.5A, T J = 25°C 100mV I O = 250 to 750mA, T J = 25°C 30I d Quiescent current T J = 25°C 6mA ∆I d Quiescent current change I O = 5mA to 1A 0.5mA V I = 9 to 25V 0.8∆V O /∆T Output voltage drift I O = 5mA0.7mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C 40µV/V O SVR Supply voltage rejection V I = 9 to 19V , f = 120Hz 65dB V d Dropout voltage I O = 1A, T J = 25°C 2 2.5V R O Output resistance f = 1 KHz19m ΩI sc Short circuit current V I = 35V , T J = 25°C 0.75 1.2A I scpShort circuit peak currentT J = 25°C1.32.23.3A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.Electrical characteristics L7800 series8/47Table 5.Electrical characteristics of L7808 (refer to the test circuits, T J = -55 to 150°C, V I = 14V, I O = 500 mA, C I = 0.33 µF , C O = 0.1 µF unless otherwise specified)Symbol ParameterTest conditionsMin.Typ.Max.Unit V O Output voltage T J = 25°C7.788.3V V O Output voltage I O = 5mA to 1A, P O ≤ 15W V I = 11.5 to 23V7.688.4V ∆V O (1)Line regulationV I = 10.5 to 25V , T J = 25°C 80mVV I = 11 to 17V , T J = 25°C 40∆V O (1)Load regulation I O = 5 mA to 1.5A, T J = 25°C 100mV I O = 250 to 750mA, T J = 25°C 40I d Quiescent current T J = 25°C 6mA ∆I d Quiescent current change I O = 5mA to 1A 0.5mA V I = 11.5 to 25V 0.8∆V O /∆T Output voltage drift I O = 5mA1mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C 40µV/V O SVR Supply voltage rejection V I = 11.5 to 21.5V , f = 120Hz 62dB V d Dropout voltage I O = 1A, T J = 25°C 2 2.5V R O Output resistance f = 1 KHz16m ΩI sc Short circuit current V I = 35V , T J = 25°C 0.75 1.2A I scpShort circuit peak currentT J = 25°C1.32.23.3A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.L7800 series Electrical characteristics9/47Table 6.Electrical characteristics of L7812 (refer to the test circuits, T J = -55 to 150°C, V I = 19V, I O = 500 mA, C I = 0.33 µF , C O = 0.1 µF unless otherwise specified)Symbol ParameterTest conditionsMin.Typ.Max.Unit V O Output voltage T J = 25°C11.51212.5V V O Output voltage I O = 5mA to 1A, P O ≤ 15W V I = 15.5 to 27V11.41212.6V ∆V O (1)Line regulationV I = 14.5 to 30V , T J = 25°C 120mVV I = 16 to 22V , T J = 25°C 60∆V O (1)Load regulation I O = 5 mA to 1.5A, T J = 25°C 100mV I O = 250 to 750mA, T J = 25°C 60I d Quiescent current T J = 25°C 6mA ∆I d Quiescent current change I O = 5mA to 1A 0.5mA V I = 15 to 30V 0.8∆V O /∆T Output voltage drift I O = 5mA1.5mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C 40µV/V O SVR Supply voltage rejection V I = 15 to 25V , f = 120Hz 61dB V d Dropout voltage I O = 1A, T J = 25°C 2 2.5V R O Output resistance f = 1 KHz18m ΩI sc Short circuit current V I = 35V , T J = 25°C 0.75 1.2A I scpShort circuit peak currentT J = 25°C1.32.23.3A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.Table 7.Electrical characteristics of L7815 (refer to the test circuits, T J = -55 to 150°C, V I = 23V, I O = 500 mA, C I = 0.33 µF, C O = 0.1 µF unless otherwise specified)Symbol Parameter Test conditions Min.Typ.Max.Unit V O Output voltage T J = 25°C14.41515.6VV O Output voltage I O = 5mA to 1A, P O≤15WV I = 18.5 to 30V14.251515.75V∆V O(1)Line regulation V I = 17.5 to 30V, T J = 25°C150mV V I = 20 to 26V, T J = 25°C75∆V O(1)Load regulation I O = 5 mA to 1.5A, T J = 25°C150mV I O = 250 to 750mA, T J = 25°C75I d Quiescent current T J = 25°C6mA∆I d Quiescent current change I O = 5mA to 1A0.5mA V I = 18.5 to 30V0.8∆V O/∆T Output voltage drift I O = 5mA 1.8mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C40µV/V O SVR Supply voltage rejection V I = 18.5 to 28.5V, f = 120Hz60dB V d Dropout voltage I O = 1A, T J = 25°C2 2.5V R O Output resistance f = 1 KHz19mΩI sc Short circuit current V I = 35V, T J = 25°C0.75 1.2AI scp Short circuit peak current T J = 25°C 1.3 2.2 3.3A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.10/47Table 8.Electrical characteristics of L7818 (refer to the test circuits, T J = -55 to 150°C, V I = 26V, I O = 500 mA, C I = 0.33 µF, C O = 0.1 µF unless otherwise specified)Symbol Parameter Test conditions Min.Typ.Max.Unit V O Output voltage T J = 25°C17.31818.7VV O Output voltage I O = 5mA to 1A, P O≤ 15WV I = 22 to 33V17.11818.9V∆V O(1)Line regulation V I = 21 to 33V, T J = 25°C180mV V I = 24 to 30V, T J = 25°C90∆V O(1)Load regulation I O = 5 mA to 1.5A, T J = 25°C180mV I O = 250 to 750mA, T J = 25°C90I d Quiescent current T J = 25°C6mA∆I d Quiescent current change I O = 5mA to 1A0.5mA V I = 22 to 33V0.8∆V O/∆T Output voltage drift I O = 5mA 2.3mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C40µV/V O SVR Supply voltage rejection V I = 22 to 32V, f = 120Hz59dB V d Dropout voltage I O = 1A, T J = 25°C2 2.5V R O Output resistance f = 1 KHz22mΩI sc Short circuit current V I = 35V, T J = 25°C0.75 1.2AI scp Short circuit peak current T J = 25°C 1.3 2.2 3.3A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.11/47Table 9.Electrical characteristics of L7820 (refer to the test circuits, T J = -55 to 150°C, V I = 28V, I O = 500 mA, C I = 0.33 µF, C O = 0.1 µF unless otherwise specified)Symbol Parameter Test conditions Min.Typ.Max.Unit V O Output voltage T J = 25°C19.22020.8VV O Output voltage I O = 5mA to 1A, P O≤15WV I = 24 to 35V192021V∆V O(1)Line regulation V I = 22.5 to 35V, T J = 25°C200mV V I = 26 to 32V, T J = 25°C100∆V O(1)Load regulation I O = 5 mA to 1.5A, T J = 25°C200mV I O = 250 to 750mA, T J = 25°C100I d Quiescent current T J = 25°C6mA∆I d Quiescent current change I O = 5mA to 1A0.5mA V I = 24 to 35V0.8∆V O/∆T Output voltage drift I O = 5mA 2.5mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C40µV/V O SVR Supply voltage rejection V I = 24 to 35V, f = 120Hz58dB V d Dropout voltage I O = 1A, T J = 25°C2 2.5V R O Output resistance f = 1 KHz24mΩI sc Short circuit current V I = 35V, T J = 25°C0.75 1.2AI scp Short circuit peak current T J = 25°C 1.3 2.2 3.3A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.12/47Table 10.Electrical characteristics of L7824 (refer to the test circuits, T J = -55 to 150°C, V I = 33V, I O = 500 mA, C I = 0.33 µF, C O = 0.1 µF unless otherwise specified)Symbol Parameter Test conditions Min.Typ.Max.Unit V O Output voltage T J = 25°C232425VV O Output voltage I O = 5mA to 1A, P O≤15WV I = 28 to 38V22.82425.2V∆V O(1)Line regulation V I = 27 to 38V, T J = 25°C240mV V I = 30 to 36V, T J = 25°C120∆V O(1)Load regulation I O = 5 mA to 1.5A, T J = 25°C240mV I O = 250 to 750mA, T J = 25°C120I d Quiescent current T J = 25°C6mA∆I d Quiescent current change I O = 5mA to 1A0.5mA V I = 28 to 38V0.8∆V O/∆T Output voltage drift I O = 5mA3mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C40µV/V O SVR Supply voltage rejection V I = 28 to 38V, f = 120Hz56dB V d Dropout voltage I O = 1A, T J = 25°C2 2.5V R O Output resistance f = 1 KHz28mΩI sc Short circuit current V I = 35V, T J = 25°C0.75 1.2AI scp Short circuit peak current T J = 25°C 1.3 2.2 3.3A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.13/47Table 11.Electrical characteristics of L7805C (refer to the test circuits, T J = -55 to 150°C, V I = 10V,I O = 500 mA, C I = 0.33 µF, C O = 0.1 µF unless otherwise specified)Symbol Parameter Test conditions Min.Typ.Max.Unit V O Output voltage T J = 25°C 4.85 5.2VV O Output voltage I O = 5mA to 1A, P O≤15WV I = 7 to 20V4.7555.25V∆V O(1)Line regulation V I = 7 to 25V, T J = 25°C3100mV V I = 8 to 12V, T J = 25°C150∆V O(1)Load regulation I O = 5 mA to 1.5A, T J = 25°C100mV I O = 250 to 750mA, T J = 25°C50I d Quiescent current T J = 25°C8mA∆I d Quiescent current change I O = 5mA to 1A0.5mA V I = 7 to 25 V0.8∆V O/∆T Output voltage drift I O = 5mA-1.1mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C40µV/V O SVR Supply voltage rejection V I = 8 to 18V, f = 120Hz62dB V d Dropout voltage I O = 1A, T J = 25°C2V R O Output resistance f = 1 KHz17mΩI sc Short circuit current V I = 35V, T J = 25°C0.75AI scp Short circuit peak current T J = 25°C 2.2A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.14/47Table 12.Electrical characteristics of L7852C (refer to the test circuits, T J = -55 to 150°C, V I = 10V,I O = 500 mA, C I = 0.33 µF, C O = 0.1 µF unless otherwise specified)Symbol Parameter Test conditions Min.Typ.Max.Unit V O Output voltage T J = 25°C 5.0 5.2 5.4VV O Output voltage I O = 5mA to 1A, P O≤15WV I = 8 to 20V4.955.2 5.45V∆V O(1)Line regulation V I = 7 to 25V, T J = 25°C3105mV V I = 8 to 12V, T J = 25°C152∆V O(1)Load regulation I O = 5 mA to 1.5A, T J = 25°C105mV I O = 250 to 750mA, T J = 25°C52I d Quiescent current T J = 25°C8mA∆I d Quiescent current change I O = 5mA to 1A0.5mA V I = 7 to 25 V 1.3∆V O/∆T Output voltage drift I O = 5mA-1mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C42µV/V O SVR Supply voltage rejection V I = 8 to 18V, f = 120Hz61dB V d Dropout voltage I O = 1A, T J = 25°C2V R O Output resistance f = 1 KHz17mΩI sc Short circuit current V I = 35V, T J = 25°C0.75AI scp Short circuit peak current T J = 25°C 2.2A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.15/47Table 13.Electrical characteristics of L7806C (refer to the test circuits, T J = -55 to 150°C, V I = 11V,I O = 500 mA, C I = 0.33 µF, C O = 0.1 µF unless otherwise specified)Symbol Parameter Test conditions Min.Typ.Max.Unit V O Output voltage T J = 25°C 5.756 6.25VV O Output voltage I O = 5mA to 1A, P O≤15WV I = 8 to 21V5.766.3V∆V O(1)Line regulation V I = 8 to 25V, T J = 25°C120mV V I = 9 to 13V, T J = 25°C60∆V O(1)Load regulation I O = 5 mA to 1.5A, T J = 25°C120mV I O = 250 to 750mA, T J = 25°C60I d Quiescent current T J = 25°C8mA∆I d Quiescent current change I O = 5mA to 1A0.5mA V I = 8 to 25V 1.3∆V O/∆T Output voltage drift I O = 5mA-0.8mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C45µV/V O SVR Supply voltage rejection V I = 9 to 19V, f = 120Hz59dB V d Dropout voltage I O = 1A, T J = 25°C2V R O Output resistance f = 1 KHz19mΩI sc Short circuit current V I = 35V, T J = 25°C0.55AI scp Short circuit peak current T J = 25°C 2.2A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.16/47Table 14.Electrical characteristics of L7808C (refer to the test circuits, T J = -55 to 150°C, V I = 14V,I O = 500 mA, C I = 0.33 µF, C O = 0.1 µF unless otherwise specified)Symbol Parameter Test conditions Min.Typ.Max.Unit V O Output voltage T J = 25°C7.788.3VV O Output voltage I O = 5mA to 1A, P O≤15WV I = 10.5 to 25V7.688.4V∆V O(1)Line regulation V I = 10.5 to 25V, T J = 25°C160mV V I = 11 to 17V, T J = 25°C80∆V O(1)Load regulation I O = 5 mA to 1.5A, T J = 25°C160mV I O = 250 to 750mA, T J = 25°C80I d Quiescent current T J = 25°C8mA∆I d Quiescent current change I O = 5mA to 1A0.5mA V I = 10.5 to 25V1∆V O/∆T Output voltage drift I O = 5mA-0.8mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C52µV/V O SVR Supply voltage rejection V I = 11.5 to 21.5V, f = 120Hz56dB V d Dropout voltage I O = 1A, T J = 25°C2V R O Output resistance f = 1 KHz16mΩI sc Short circuit current V I = 35V, T J = 25°C0.45AI scp Short circuit peak current T J = 25°C 2.2A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.17/47Table 15.Electrical characteristics of L7885C (refer to the test circuits, T J = -55 to 150°C, V I =14.5V, I O = 500 mA, C I = 0.33 µF, C O = 0.1 µF unless otherwise specified)Symbol Parameter Test conditions Min.Typ.Max.Unit V O Output voltage T J = 25°C8.28.58.8VV O Output voltage I O = 5mA to 1A, P O≤15WV I = 11 to 26V8.18.58.9V∆V O(1)Line regulation V I = 11 to 27V, T J = 25°C160mV V I = 11.5 to 17.5V, T J = 25°C80∆V O(1)Load regulation I O = 5 mA to 1.5A, T J = 25°C160mV I O = 250 to 750mA, T J = 25°C80I d Quiescent current T J = 25°C8mA∆I d Quiescent current change I O = 5mA to 1A0.5mA V I = 11 to 27V1∆V O/∆T Output voltage drift I O = 5mA-0.8mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C55µV/V O SVR Supply voltage rejection V I = 12 to 22V, f = 120Hz56dB V d Dropout voltage I O = 1A, T J = 25°C2V R O Output resistance f = 1 KHz16mΩI sc Short circuit current V I = 35V, T J = 25°C0.45AI scp Short circuit peak current T J = 25°C 2.2A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.18/47Table 16.Electrical characteristics of L7809C (refer to the test circuits, T J = -55 to 150°C, V I = 15V,I O = 500 mA, C I = 0.33 µF, C O = 0.1 µF unless otherwise specified)Symbol Parameter Test conditions Min.Typ.Max.Unit V O Output voltage T J = 25°C8.6499.36VV O Output voltage I O = 5mA to 1A, P O≤ 15WV I = 11.5 to 26V8.5599.45V∆V O(1)Line regulation V I = 11.5 to 26V, T J = 25°C180mV V I = 12 to 18V, T J = 25°C90∆V O(1)Load regulation I O = 5 mA to 1.5A, T J = 25°C180mV I O = 250 to 750mA, T J = 25°C90I d Quiescent current T J = 25°C8mA∆I d Quiescent current change I O = 5mA to 1A0.5mA V I = 11.5 to 26V1∆V O/∆T Output voltage drift I O = 5mA-1mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C70µV/V O SVR Supply voltage rejection V I = 12 to 23V, f = 120Hz55dB V d Dropout voltage I O = 1A, T J = 25°C2V R O Output resistance f = 1 KHz17mΩI sc Short circuit current V I = 35V, T J = 25°C0.40AI scp Short circuit peak current T J = 25°C 2.2A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.19/47Electrical characteristics L7800 series20/47Table 17.Electrical characteristics of L7810C (refer to the test circuits, T J = -55 to 150°C, V I = 15V , I O = 500 mA, C I = 0.33 µF , C O = 0.1 µF unless otherwise specified)Symbol ParameterTest conditionsMin.Typ.Max.Unit V O Output voltage T J = 25°C9.61010.4V V O Output voltage I O = 5mA to 1A, P O ≤ 15W V I = 12.5 to 26V9.51010.5V ∆V O (1)Line regulationV I = 12.5 to 26V , T J = 25°C 200mVV I = 13.5 to 19V , T J = 25°C 100∆V O (1)Load regulation I O = 5 mA to 1.5A, T J = 25°C 200mV I O = 250 to 750mA, T J = 25°C 100I d Quiescent current T J = 25°C 8mA ∆I d Quiescent current change I O = 5mA to 1A 0.5mA V I = 12.5 to 26V 1∆V O /∆T Output voltage drift I O = 5mA-1mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C 70µV/V O SVR Supply voltage rejection V I = 13 to 23V , f = 120Hz 55dB V d Dropout voltage I O = 1A, T J = 25°C 2V R O Output resistance f = 1 KHz17m ΩI sc Short circuit current V I = 35V , T J = 25°C 0.40A I scpShort circuit peak currentT J = 25°C2.2A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.L7800 series Electrical characteristics21/47Table 18.Electrical characteristics of L7812C (refer to the test circuits, T J = -55 to 150°C, V I = 19V , I O = 500 mA, C I = 0.33 µF , C O = 0.1 µF unless otherwise specified)Symbol ParameterTest conditionsMin.Typ.Max.Unit V O Output voltage T J = 25°C11.51212.5V V O Output voltage I O = 5mA to 1A, P O ≤ 15W V I = 14.5 to 27V11.41212.6V ∆V O (1)Line regulationV I = 14.5 to 30V , T J = 25°C 240mVV I = 16 to 22V , T J = 25°C 120∆V O (1)Load regulation I O = 5 mA to 1.5A, T J = 25°C 240mV I O = 250 to 750mA, T J = 25°C 120I d Quiescent current T J = 25°C 8mA ∆I d Quiescent current change I O = 5mA to 1A 0.5mA V I = 14.5 to 30V 1∆V O /∆T Output voltage drift I O = 5mA-1mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C 75µV/V O SVR Supply voltage rejection V I = 15 to 25V , f = 120Hz 55dB V d Dropout voltage I O = 1A, T J = 25°C 2V R O Output resistance f = 1 KHz18m ΩI sc Short circuit current V I = 35V , T J = 25°C 0.35A I scpShort circuit peak currentT J = 25°C2.2A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.Electrical characteristics L7800 series22/47Table 19.Electrical characteristics of L7815C (refer to the test circuits, T J = -55 to 150°C, V I = 23V , I O = 500 mA, C I = 0.33 µF , C O = 0.1 µF unless otherwise specified)Symbol ParameterTest conditionsMin.Typ.Max.Unit V O Output voltage T J = 25°C14.51515.6V V O Output voltage I O = 5mA to 1A, P O ≤ 15W V I = 17.5 to 30V14.251515.75V ∆V O (1)Line regulationV I = 17.5 to 30V , T J = 25°C 300mVV I = 20 to 26V , T J = 25°C 150∆V O (1)Load regulation I O = 5 mA to 1.5A, T J = 25°C 300mV I O = 250 to 750mA, T J = 25°C 150I d Quiescent current T J = 25°C 8mA ∆I d Quiescent current change I O = 5mA to 1A 0.5mA V I = 17.5 to 30V 1∆V O /∆T Output voltage drift I O = 5mA-1mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C 90µV/V O SVR Supply voltage rejection V I = 18.5 to 28.5V , f = 120Hz 54dB V d Dropout voltage I O = 1A, T J = 25°C 2V R O Output resistance f = 1 KHz19m ΩI sc Short circuit current V I = 35V , T J = 25°C 0.23A I scpShort circuit peak currentT J = 25°C2.2A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.L7800 series Electrical characteristics23/47Table 20.Electrical characteristics of L7818C (refer to the test circuits, T J = -55 to 150°C, V I = 26V , I O = 500 mA, C I = 0.33 µF , C O = 0.1 µF unless otherwise specified)Symbol ParameterTest conditionsMin.Typ.Max.Unit V O Output voltage T J = 25°C17.31818.7V V O Output voltage I O = 5mA to 1A, P O ≤ 15W V I = 21 to 33V17.11818.9V ∆V O (1)Line regulationV I = 21 to 33V , T J = 25°C 360mVV I = 24 to 30V , T J = 25°C 180∆V O (1)Load regulation I O = 5 mA to 1.5A, T J = 25°C 360mV I O = 250 to 750mA, T J = 25°C 180I d Quiescent current T J = 25°C 8mA ∆I d Quiescent current change I O = 5mA to 1A 0.5mA V I = 21 to 33V 1∆V O /∆T Output voltage drift I O = 5mA-1mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C 110µV/V O SVR Supply voltage rejection V I = 22 to 32V , f = 120Hz 53dB V d Dropout voltage I O = 1A, T J = 25°C 2V R O Output resistance f = 1 KHz22m ΩI sc Short circuit current V I = 35V , T J = 25°C 0.20A I scpShort circuit peak currentT J = 25°C2.1A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.Electrical characteristics L7800 series24/47Table 21.Electrical characteristics of L7820C (refer to the test circuits, T J = -55 to 150°C, V I = 28V , I O = 500 mA, C I = 0.33 µF , C O = 0.1 µF unless otherwise specified)Symbol ParameterTest conditionsMin.Typ.Max.Unit V O Output voltage T J = 25°C19.22020.8V V O Output voltage I O = 5mA to 1A, P O ≤ 15W V I = 23 to 35V192021V ∆V O (1)Line regulationV I = 22.5 to 35V , T J = 25°C 400mVV I = 26 to 32V , T J = 25°C 200∆V O (1)Load regulation I O = 5 mA to 1.5A, T J = 25°C 400mV I O = 250 to 750mA, T J = 25°C 200I d Quiescent current T J = 25°C 8mA ∆I d Quiescent current change I O = 5mA to 1A 0.5mA V I = 23 to 35V 1∆V O /∆T Output voltage drift I O = 5mA-1mV/°C eN Output noise voltage B =10Hz to 100KHz, T J = 25°C 150µV/V O SVR Supply voltage rejection V I = 24 to 35V , f = 120Hz 52dB V d Dropout voltage I O = 1A, T J = 25°C 2V R O Output resistance f = 1 KHz24m ΩI sc Short circuit current V I = 35V , T J = 25°C 0.18A I scpShort circuit peak currentT J = 25°C2.1A1.Load and line regulation are specified at constant junction temperature. Changes in V O due to heating effects must betaken into account separately. Pulse testing with low duty cycle is used.。

1Case StylesPow IR tab80EBU02Bulletin PD-20740 rev. B 02/06t rr = 35nsI F(AV) = 80Amp V R = 200VDescription/ ApplicationsAbsolute Maximum RatingsUltrafast Soft Recovery DiodeV R Cathode to Anode Voltage200V I F(AV)Continuous Forward Current, T C = 112°C 80AI FSM Single Pulse Forward Current, T C = 25°C 800I FRM Maximum Repetitive Forward Current 160T J , T STGOperating Junction and Storage Temperatures- 55 to 175°CParametersMaxUnitsThese diodes are optimized to reduce losses and EMI/ RFI in high frequency power conditioning systems.The softness of the recovery eliminates the need for a snubber in most applications. These devices are ideally suited for HF welding, power converters and other applications where switching losses are not significant portion of the total losses.Square Wave, 20kHzFeatures• Ultrafast Recovery• 175°C Operating Junction Temperature • Screw Mounting Only • Lead-Free PlatingBenefits•Reduced RFI and EMI•Higher Frequency Operation •Reduced Snubbing •Reduced Parts Count 80EBU02Bulletin PD-20740 rev. B 02/06V BR , V r Breakdown Voltage,200--V I R = 50µA Blocking Voltage V FForward Voltage-0.98 1.13V I F = 80A-0.790.92V I F = 80A, T J = 175°C I R Reverse Leakage Current --50µA V R = V R Rated--2mA T J = 150°C, V R = V R Rated C T Junction Capacitance -89-pF V R = 200VL SSeries Inductance-3.5-nHMeasured lead to lead 5mm from package bodyElectrical Characteristics @ T J = 25°C (unless otherwise specified)ParametersMin Typ Max Units Test Conditionst rrReverse Recovery Time--35ns I F = 1.0A, di F /dt = 200A/µs, V R = 30V -32-T J = 25°C -52-T J = 125°CI RRM Peak Recovery Current - 4.4-A T J = 25°C -8.8-T J = 125°CQ rr Reverse Recovery Charge -70-nC T J = 25°C-240-T J = 125°CDynamic Recovery Characteristics @ T J = 25°C (unless otherwise specified)I F = 80A V R = 160Vdi F /dt = 200A/µsParametersMin TypMaxUnitsR thJC Thermal Resistance, Junction to Case 0.70K/WR thCS Thermal Resistance, Case to Heatsink 0.2WtWeight5.02g 0.18(oz)TMounting Torque1.22.4N * m 1020lbf.inThermal - Mechanical CharacteristicsMounting Surface, Flat, Smooth and GreasedParametersMin Typ Max Units Test Conditions380EBU0280EBU02580EBU02233 Kansas St., El Segundo, California 90245, USA Tel: (310) 252-7105TAC Fax: (310) 252-7309Visit us at for sales contact information. 02/06 。

KXJ2-148/1140E矿用隔爆兼本质安全型掘进机用电控装置使用说明书兖矿集团有限公司机械制修厂二OO二年八月二十日目录1、概述---------------------------------12、电气系统的工作原理-------------------43、电气控制系统操作方法及过程-----------54、各种显示及其内容---------------------85、电控箱上腔接线说明-------------------96、电机参数及要求-----------------------97、使用及注意事项-----------------------98、故障的排除及维护---------------------109、维护保养-----------------------------1110、运输与储存---------------------------1111、定货须知-----------------------------1112、附图一 ------------------------------1213、附图二 ------------------------------1314、操作箱接线图 ------------------------1415、控制器布线图 ------------------------1516、显示板布线图 ------------------------1617、继电器板布线图 ----------------------1718、安装板布线图 ------------------------181、概述KXJZ-148/1140E矿用隔爆兼本质安全型掘进机用电控装置是S150掘进机的控制核心，它控制着掘进机电动机的运转、停止、行走以及提供照明电源和各种保护等。

该说明书针对掘进机电控装置（以下简称电控装置）的使用、维修等加以简要说明。

该装置包括KXJZ-148/1140E矿用隔爆兼本质安全型掘进机用电控箱（以下简称电控箱）和TJ1-24E矿用隔爆兼本质安全型掘进机用操作箱（以下简称操作箱）。

产品说明书HB Soft Series软水机HB SOFT 10海尔牌HBWS-S10型软水机海尔牌HBWS-S15型软水机海尔牌HBWS-S25型软水机HB SOFT 15HB SOFT 25目 录总则请仔细阅读本用户手册，并在使用设备前熟悉设备的操作方法。

本用户手册包含产品型号如下：-HBWS-S10-HBWS-S15-HBWS-S25请在安装和使用前阅读本手册，严格要求步骤安装。

请妥善保管此说明书，以为您更好地使用软水机提供指导。

请遵循当地关于安全措施及环境保护的规定使用产品。

注意：请在规定时间内对产品进行维护及保养。

安全指示危险：有触电危险，须由专业人士操作警告：勿使用强酸或强碱清洁。

注意：须由专业人士操作。

注意：设备工作时不要随意移除相关盖板。

备注：如需要请使用防护衣服。

备注：附加信息。

适用范围HB SOFT系列软水机设计应用于家用软化或部分软化水质，不适用于除此以外的应用范围。

产品说明HB SOFT 系列软水机包括：标准配置:1.多路阀及电子控制器2.混合阀3.软化罐体及离子交换树脂4.软水出口5.硬水出口6.排污口7.防溢管连接8.电源连接9.用户使用手册10.软管夹接口11.2米排污管12.翻盖13.AQUATEST 硬度测试14.储盐槽15.盐箱16.包装材料（见第8页）17.技术参数及产品型号（见第8页）附加配置：18.单向阀: ” (DN: 20/20)34810131811121121415456723显示与控制元件标准出厂设置初次设置注意初次设置所需时间: 再生时间:不同型号内部设置有所不同 (数分钟)可设置任意时间进水硬度/容量：300 ppm, 10升型号供水量为1566升设置当前时间:接通电源后听到阀门转动声，设备进入工作模式, 可能需要等待几分钟. 按下SET/RETURN键开始设置，小时位开始闪烁，用UP/DOWN进行调整后再按SET/RETURN键，分钟位开始闪烁，再用UP/DOWN键进行调整。

English1Connect the power cord to the AC adapter.Connect the AC adapter to the DC-in jack of the Slate PC.Connect the power cord to the power outlet.Press the Power Button to turn on the GIGABYTE Slate PC.1342Using GIGABYTE Slate PC for the First Time Check Supplied Items12AC Adapter Power Cord Manual Driver CD Case(Optional)Global Warranty CardCongratulations on your purchase of the GIGABYTE Slate PCThis manual will help you to get started with setting up your Slate PC. The final product configuration depends on the model at the point of your purchase. GIGABYTE reserves the right to amend without prior notice.. For more detailed information, please visit ourwebsite at .E n g l i s h 2GIGABYTE Slate PC Tour 3Panoramic ViewTip: “Left click + Right click of mouse + Directing Hot Key” to operate as the function of“Ctrl+Alt+Del”.◆to control mouse direction; press the directing hot key to simulate as left key of mouse Virtual keyboard Scroll up Scroll down Back to previous pageEnglish 3Left ViewTop ViewE n g l i s h 4Base ViewRight View1English5GIGABYTE Software Application4■ GIGABYTE Smart ManagerYou can activate GIGABYTE Smart Manager by double clicking on the shortcut icon on the desktop if the machine you purchased has the operation system built-in. GIGABYTE Smart Manager is an icon-based control interface, enabling users to intuitionally access common system setup as well as GIGABYTE exclusive utilities. Please be noted that the GIGABYTE Smart Manager interface, icons, utilities and software versions may vary based on the purchased models. Please operate GIGABYTE Smart Manager according to the default built-in version.■ GIGABYTE Smart Recovery● If the machine you purchase already has operating system built-in, you can restore the system back to factory default by using GIGABYTE Smart Recovery. Please be noted that the GIGABYTE Smart Recovery interface, icons, utilities and software versions may vary based on the purchased models. Please operate GIGABYTE Smart Recovery according to the default built-in version.● Please be noted that personal data will be lost after recovery, do remember to backup any data before operating this function.■ Activate GIGABYTE Smart Recovery and BIOS Setup Utility ● Press and release the Power Button to turn on the operation system. Press “-” to enter into GIGABYTE System Recovery. Use Directing Hot Key to operate GIGABYTE Smart Recovery.● Press and release the Power Button to turn on the operation system. Press “+“ to enter into GIGABYTE BIOS Setup Utility. It is recommended to use USB keyboard for setting up BIOS functions under BIOS setup Utility.E n g l i s h 6Appendix6■ Warranty & Service :Warranty and service and related information please refer to the warranty card or GIGABYTE service website as the below link:/support-downloads/technical-support.aspx ■ FAQ :FAQ (Frequent Asked Questions) please refer to the below link:/support-downloads/faq.aspx Specifications5* Above specification is for users’ reference only.The final configuration depends on the Slate PC users' point of purchase.。

fc80手册FC80是一款功能强大的设备，本手册将为您详细介绍FC80的使用方法、技术规格和注意事项。

通过仔细阅读本手册，您将能充分了解FC80的特点和优势，并能正确地操作和维护该设备。

I. 设备概述FC80是一款先进的工业设备，主要用于生产过程中的测量、控制和数据采集任务。

该设备具备高精度、高稳定性和高可靠性的特点，广泛应用于制造业、能源行业和环境监测等领域。

II. 技术规格FC80的技术规格如下：1. 测量范围：100-1000mm2. 分辨率：0.01mm3. 精度：±0.1mm4. 工作温度：-10°C至50°C5. 工作湿度：20%RH至80%RH6. 输入电压：220VAC7. 输出接口：RS485、ModbusIII. 使用方法1. 准备工作在开始使用FC80之前，确保已将设备正确连接至电源，并检查设备表面是否有损坏。

另外，确保测量范围和精度与您的实际需求相匹配。

2. 操作步骤a) 打开电源开关，等待设备启动。

b) 通过用户界面输入所需的测量参数，如测量范围、单位和输出接口等。

c) 安装传感器并进行校准，确保测量结果的准确性。

d) 启动测量过程，并观察设备显示屏上的测量数值。

3. 数据采集与分析FC80可以通过输出接口与计算机或数据采集系统连接，将测量数据传输至外部设备进行存储和分析。

您可以根据需要选择合适的数据传输协议和软件。

IV. 注意事项1. 使用前请仔细阅读本手册，并按照操作步骤正确使用设备。

2. 在操作设备时，请确认使用环境符合设备的工作温湿度要求，以免影响设备性能和寿命。

3. 定期检查设备连接线路是否松动，确保设备正常工作。

4. 如发现设备故障或异常，请及时联系售后服务人员进行维修。

V. 结语通过本手册，您已经了解了FC80的功能特点、技术规格、使用方法和注意事项。

希望本手册能帮助您充分发挥FC80设备的优势，提高工作效率和质量。

如有任何问题，请随时与我们联系。