PM75CLA120中文资料

INSULATED PACKAGEConditionParameterSymbol V CES ±I C ±I CP P C T jCollector-Emitter Voltage Collector CurrentCollector Current (Peak)Collector Dissipation Junction TemperatureV D = 15V, V CIN = 15V T C = 25°C T C = 25°C T C = 25°CV A A W °CMAXIMUM RATINGS (Tj = 25°C, unless otherwise noted)INVERTER PARTSymbol ParameterConditionRatings Unit 120050100338–20 ~ +150INTERNAL FUNCTIONS BLOCK DIAGRAMV CES I C I CP P CV R(DC)I F T jBRAKE PARTCollector-Emitter Voltage Collector CurrentCollector Current (Peak)Collector DissipationFWDi Rated DC Reverse Voltage FWDi Forward Current Junction TemperatureV D = 15V, V CIN = 15V T C = 25°C T C = 25°C T C = 25°C T C = 25°C T C = 25°CV A A W V A °CSymbol ParameterConditionRatings Unit 12001530134120015–20 ~ +150V FO I FOCONTROL PARTV mA2020Supply Voltage Input VoltageFault Output Supply Voltage Fault Output CurrentRatings Unit Applied between :V UP1-V UPCV VP1-V VPC , V WP1-V WPC , V N1-V NCApplied between :U P -V UPC , V P -V VPCW P -V WPC , U N • V N • W N • B r -V NCApplied between :U FO -V UPC, V FO-V VPC, W FO -V WPCF O -V NCSink current at U FO , V FO , W FO and F O terminal2020V D V CIN V V GND GND SiOutIn F O V CCGND GND SiOutIn F O V CC GND GND SiOutIn F O V CCGND GND SiOutIn F O V CCF O Br V NC W NV NU NV N1PU V W N B TEMPV WPC W P V WP1GND In V CCGND Si OUTW FO F OV VPC V P V VP1GND In V CCGND Si OUTV FO F OV UPC U P V UP1GND In V CCGND Si OUTU FOF ORfoRfoRfoRfoR fo = 1.5k ΩINSULATED PACKAGETOTAL SYSTEM3.303.353.52.30.31.03.41.2110Min.Typ.Max.Collector-Emitter Saturation Voltage Collector-Emitter Cutoff Current–I C = 50A, V D = 15V, V CIN = 15V T j = 25°C T j = 125°C ELECTRICAL CHARACTERISTICS (Tj = 25°C, unless otherwise noted)INVERTER PARTParameterSymbol Test ConditionV CE(sat)I CESV EC t on t rr t c(on)t off t c(off)Limits ———0.4——————2.652.752.50.90.20.42.40.7——T j = 25°C T j = 125°CFWDi Forward VoltageSwitching TimeV D = 15V, V CIN = 0V ↔15V V CC = 600V, I C = 50A T j = 125°CInductive Load (upper and lower arm)V CE = V CES , V CIN = 15VV D = 15V, I C =50A V CIN = 0VV mAVµsUnit ParameterSymbolSupply Voltage Protected bySCSupply Voltage (Surge)Module Case OperatingTemperatureStorage Temperature Isolation Voltage ConditionV CC(surge)T CT stgV iso Ratings V CC(PROT)8001000–20 ~ +100–40 ~ +1252500Unit V °C °C V rmsV V D = 13.5 ~ 16.5V, Inverter Part,T j = 125°C StartApplied between : P-N, Surge value or without switching(Note-1)60Hz, Sinusoidal, Charged part to Base, AC 1 min.—————V CE(sat)I CESV FM V mAMin.Typ.Max.V Collector-Emitter Saturation Voltage FWDi Forward Voltage Collector-Emitter Cutoff CurrentI F = 15AT j = 25°C T j = 125°CUnit ParameterSymbol Test ConditionLimits 3.303.203.501102.502.202.50——T j = 25°C T j = 125°C BRAKE PARTV D = 15V, I C = 15A V CIN = 0V V CE = V CES , V CIN = 15V(Note-1)T C measurement point is below. (3mm depth at the center of the side of base plate)TcINSULATED PACKAGE3.53.5————Mounting part screw : M5Main terminalscrew : M5—Symbol ParameterMounting torque Mounting torque WeightTest ConditionUnit N • m N • m gLimits Min.Typ.Max.2.52.5—3.03.0560MECHANICAL RATINGS AND CHARACTERISTICS(Note-2)Fault output is given only when the internal SC, OT & UV protection.Fault output of OT protection operate by lower arm.Fault output of OT, UV protection given pulse while over level.V D = 15VBase-plateTemperature detection, V D = 15V –20 ≤ T j ≤ 125°C V D = 15V, V FO = 15V (Note-2)V D = 15V(Note-2)Trip level Reset level Trip level Reset levelCircuit CurrentInput ON Threshold Voltage Input OFF Threshold Voltage Over Current Trip Level Short Circuit Trip Level Over Current Delay Time Short Circuit Current Delay TimeOver Temperature Protection Supply Circuit Under-Voltage ProtectionFault Output Current Minimum Fault Output Pulse WidthV th(ON)V th(OFF)OC SC t off(OC)t off(SC)OT OT r UV UV r I FO(H)I FO(L)t FO–20 ≤ T j ≤ 125°C, V D = 15V, Break part –20≤ T j ≤ 125°C, V D = 15V V D = 15V, Break part Inverter part Brake partCONTROL PARTI D ParameterSymbol µs °C V mA ms60181.82.3—————125—12.5—0.0115—mA ——1.21.72259———111—11.5———1.0Max.Min.Typ.Unit Limits 44131.52.0——52101011810012.012.5—101.8V µs A A V D = 15V, V CIN = 15VApplied between :U P -V UPC , V P -V VPC , W P -V WPCU N • V N • W N • B r -V NC Test ConditionV N1-V NC V *P1-V *PCR th(j-c)Q R th(j-c)F R th(j-c)Q R th(j-c)F R th(c-f)Symbol THERMAL RESISTANCES0.370.700.931.500.027°C/WInverter IGBT part (per 1/6 module)Inverter FWDi part (per 1/6 module)Brake IGBT part Brake FWDi partCase to fin, Thermal grease applied (per 1 module)ParameterTest ConditionUnitLimits Min.Typ.Max.——————————Junction to case Thermal ResistancesContact Thermal ResistanceRECOMMENDED CONDITIONS FOR USERecommended valueUnit Test ConditionSymbol ParameterV Applied across P-N terminalsApplied between :V UP1-V UPC , V VP1-V VPCV WP1-V WPC , V N1-V NC (Note-3)Applied between :U P -V UPC , V P -V VPC , W P -V WPCU N • V N • W N • B r -V NC For IPM’s each input signalsUsing Application Circuit input signal of IPM,Sinusoidal PWM VVVF inverterSupply Voltage Control Supply Voltage Input ON Voltage Input OFF Voltage Arm Shoot-through Blocking Time PWM Input Frequency≤ 80015±1.5≤ 0.8≥ 4.0≥ 3.0≤ 20V CC V CIN(ON)V CIN(OFF)t dead f PWMV D V µs kHzV (Note-3)With ripple satisfying the following conditions dv/dt swing ≤ ±5V/µs, Variation ≤ 2V peak to peakINSULATED PACKAGEINSULATED PACKAGEINSULATED PACKAGE。

Product Data SheetPerkadox PM-W75Di(4-methylbenzoyl) peroxide, 75% with waterPerkadox® PM-W75 is a monofunctional peroxide formulation.CAS number895-85-2EINECS/ELINCS No.407-950-9TSCA statuslisted on inventoryMolecular weight270.3Active oxygen contentperoxide5.91%SpecificationsActive oxygen 4.26-4.50 %Appearance White granular powderAssay72.0-76.0 %Inorganic + organic hydrolysable chloride300 mg/kgCharacteristicsBulk density± 665 kg/m³Density, 20 °C 1.214 g/cm³ApplicationsA free-flowing granular form of Di(4-methylbenzoyl) peroxide suitable for use in various applications.Thermal stabilityOrganic peroxides are thermally unstable substances, which may undergo self-accelerating decomposition. The lowest temperature at which self-accelerating decomposition of a substance in the original packaging may occur is the Self-Accelerating Decomposition Temperature (SADT). The SADT is determined on the basis of the Heat Accumulation Storage Test.SADT90°CMethod The Heat Accumulation Storage Test is a recognized test method for thedetermination of the SADT of organic peroxides (see Recommendations on theTransport of Dangerous Goods, Manual of Tests and Criteria - United Nations, NewYork and Geneva).StorageDue to the relatively unstable nature of organic peroxides a loss of quality can be detected over a period of time. To minimize the loss of quality, Nouryon recommends a maximum storage temperature (Ts max. ) for each organic peroxide product.Ts max.40°CNote When stored under these recommended storage conditions, Perkadox® PM-W75will remain within the Nouryon specifications for a period of at least 6 months afterdelivery.Packaging and transportPerkadox® PM-W75 is packed in a non-returnable carton with a polyethylene bag containing 33.3 kg peroxide. Both packaging and transport meet the international regulations. For the availability of other packed quantities contact your Nouryon representative. Perkadox® PM-W75 is classified as Organic peroxide type D; solid, Division 5.2; UN 3106.Safety and handlingKeep containers tightly closed. Store and handle Perkadox® PM-W75 in a dry well-ventilated place away from sources of heat or ignition and direct sunlight. Never weigh out in the storage room. Avoid contact with reducing agents (e.g. amines), acids, alkalines and heavy metal compounds (e.g. accelerators, driers and metal soaps). Please refer to the Safety Data Sheet (SDS) for further information on the safe storage, use and handling of Perkadox® PM-W75. This information should be thoroughly reviewed prior to acceptance of this product. The SDS is available at /sds-search.Major decomposition productsCarbon dioxide, Toluene, 4-Methylbenzoic acidAll information concerning this product and/or suggestions for handling and use contained herein are offered in good faith and are believed to be reliable.Nouryon, however, makes no warranty as to accuracy and/or sufficiency of such information and/or suggestions, as to the product's merchantability or fitness for any particular purpose, or that any suggested use will not infringe any patent. Nouryon does not accept any liability whatsoever arising out of the use of or reliance on this information, or out of the use or the performance of the product. Nothing contained herein shall be construed as granting or extending any license under any patent. Customer must determine for himself, by preliminary tests or otherwise, the suitability of this product for his purposes.The information contained herein supersedes all previously issued information on the subject matter covered. The customer may forward, distribute, and/or photocopy this document only if unaltered and complete, including all of its headers and footers, and should refrain from any unauthorized use. Don’t copythis document to a website.Perkadox® is a registered trademark of Nouryon Functional Chemicals B.V. or affiliates in one or more territories.Contact UsPolymer Specialties Americas************************Polymer Specialties Europe, Middle East, India and Africa*************************Polymer Specialties Asia Pacific************************2023-2-13© 2023Thermoset composites Perkadox PM-W75。

Perma CLASSIC系列材料:金属外壳机械驱动:电化反应出油期:1, 3, 6或12个月(在+20 °C / 68 °F下的 SF01)容量:120 cc出油压力:最大 4 bar / 58 PSI环境温度:0 °C / 32 °F 至+40 °C /104 °F应用范围:滚动和滑动轴承, 链条, 开放式齿轮, 导轨等.黄色环:1个月绿色环:3个月红色环:6个月灰色环:12个月Perma CLASSIC系列产品的工作原理和使用方法Classic 系列专用将塑料反应环拧入加油器，直到圆环被拧断，环内的金属球被压入电解液里并发生化学反应。

化学反应产生气体,气体越多,压力越大，使活塞产生向前运动，润滑脂/油就会连续不断地被挤出注入到加油嘴里。

当润滑油用完时，出口端的塑料盖会看到活塞的红色，表明加油器内的脂/油已用尽，应该及时更换新的加油器。

拧入反应环和挤出润滑油或脂之间的滞后时间，会因使用不同型号的加油器和不同颜色的反应环而有所不同。

使用不同颜色的反应环，出油时间就不一样：黄色-1个月，绿色-3个月，红色-6个月，灰色-12个月。

具体请参考下表。

不同型号的加油器所装润滑油或润滑脂的类型是不同的，SFxx（xx是数字，下同）代表加油器装的是不同的润滑脂，SOxx代表不同的润滑油，Gxxx或Sxxx代表客户特殊订制的加油器。

每只加油器底部的金属部分都会用钢印标出这只加油器的型号。

客户初次使用perma加油器前，我们会给您详尽的指导。

如果客户已经在使用perma 加油器，需要购买备件时，请提供您要的加油器的型号（如SF01）和规格（如红色反应环）这两种资料。

Perma Classic 系列产品的出油期注:以上数据为Perma-tec公司在实验室条件下得出的结果，只作选择出油期的一般参考。

实际的出油时间会受到很多因数的影响，例如：加油器所装的油品型号，加油点的背压和连接方式等。

MERIDIAN SERIESMERIDIAN 75L/28"MERIDIAN 60L/22"Welcome to Osprey. We pride ourselves on creating the most functional,durable and innovative carrying product for your adventures. Please refer tothis owner’s manual for information on product features, use, maintenance, customer service and warranty.OWNER'S MANUALSHARED FEATURESSHARED 1 Z ippered top pocket provides easy access to toiletries and liquids 2 Padded top and side handles provide comfortable carry 3 D ual tube extended handle for extra control of large loads on rough surfaces4 Large panel zip with lockable sliders access the main compartment5 R ear panel pocket and ID card window with removable shoulder harness6 D etachable daypack for day trip adventures7 Lightweight, high-rolling clearance HighRoad™ Chassis 8 Q uick deploy rear panel shoulder harness and padded backpanel for easy carry+ Internal compression straps with fabric wings hold clothes securely +Four zippered pockets in main compartment keep gear organizedFABRICMAIN 420 Nylon Mini Check DobbyACCENT 1680D Ballistic Nylon BOTTOM 1680D Ballistic Nylon21643728MERIDIAN 75L/28"SPECS* ONE SIZECubic Inches 4576Liters 75Pounds 9.26Kilograms 4.20Inches 28h x 14w x 13dCentimeters 71h x 36w x 32dMERIDIAN 60L/22"SPECS* ONE SIZECubic Inches 3661Liters 60Pounds 8.37Kilograms 3.80Inches 22h x 14w x 9dCentimeters 56h x 36w x 22dMERIDIAN DAYSPECS ONE SIZECubic Inches 976Liters 16Pounds 1.80Kilograms 0.82Inches 19h x 13w x 8dCentimeters 48h x 32w x 21d*Volume and height measurements include the Meridian Day; dimension measurements DO NOT include the Meridian Day.CARRYCARRY1 HIGHROAD™ SUSPENSION+ A luminum peripheral frame and center handle stays2 PADDED FABRIC BACKPANEL+ Padded nylon backpanel and lumbar surface3 STOWAWAY PADDED HARNESS+ P added harness with fabric upperand air mesh contact surfaces+ Adjustable sternum strap with whistle13FRAMEHARNESS2BACKPANELTOP LIQUIDS POCKET 75L / 60LThe liquids pocket is located at the top of the luggage piece and provides quick and easy zip access to a toiletry kit or other small items. Its bellowed design collapses to ensure the full main compartment volume is available for gear and clothing. It is conveniently sized to fit a variety of 1L/1 qt wash bags or Osprey'sAirporter travel duffel and cover.TOP AND SIDE LOW PROFILE CARRY HANDLES 75L / 60LTwo padded low profile handles provide an easy option to grab, pull and maneuver your bag. Heavy duty fabric on the outside protects the handles, and the soft, padded material underneath is comfortable and easy to use. A third handle is molded into the front of the HighRoad™ Chassis and serves as both a handle and front bumper.LARGE ACCESS MAIN COMPARTMENT 75L / 60LA full front panel U-zip opening provides large access to gear and a stiffened zipper path provides structure to keep the main compartment open while packing or unpacking. Bright internal liner materials make it easy to find both small and large items stored within. For additional organization, the mesh and solid side pockets provide convenient and private storage.INTERNAL COMPRESSION STRAPS 75L / 60LUse the internal compression straps to maximize packing space, organize and stabilize loads inside the main compartment. Unbuckle and loosen the straps before packing and hang the straps on the outside of either side of the pack. After packing, buckle the straps and cinch them evenly so that the buckle remains in the middle of the pack.STOWAWAY BACKPANEL 75L / 60LThe Meridian Series features a stowable harness for backpack-style carry. Unzip the back flap and pull out the harness straps. Tuck the flap behind the harness, then clip the harness into the buckles located at the base of the backpanel on either side of the pack. Reverse the process to store the harness straps.The Meridian harness can also be removed for increased packing space. Simply detach the two upper and lower harness buckles and store theharness in a safe place for later use.LOCKABLE SLIDERS ON MAIN COMPARTMENT ZIPPER 75L / 60LThe main compartment features lockable zippers to secure your bag's contents. We recommend using TSA-approved locks.REAR PANEL FLAP POCKET 75L / 60LThe rear panel flap includes an easy to access ID card window and stores the quick deploy harness. Located inside the flap, the ID card window stores your contact information should your luggage be lost, but alsokeeps it out of plain view.HIGHROAD™ CHASSIS 75L / 60LAll Osprey wheeled travel packs utilizeOsprey’s proprietary HighRoad™ Chassis. It features:A An ergonomic retractable handle withintegrated vent finsB 6061 T6 aluminum frameC U ltra-durable and lightweight compositebase with a fiberglass matrix inlay and integrated foot/grab handle D O versized, high traction polyurethanewheels with sealed bearings and a high clearance design.MERIDIAN MESH POCKETS 75L / 60LThe daypack’s dual stretch mesh pockets are perfect for storing smaller items like snacks,sunscreen, water bottles and other gear that require quick access.MERIDIAN DAY VENTILATED BACKPANEL AND HARNESS 75L / 60LThe daypack features a ventilated backpanel and harness to provide comfort in a wide range of climates. The tensioned mesh backpanel reduces sweating and the padded harness ensures a comfortable carry.MERIDIAN DAY HEAT-EMBOSSED POCKET 75L / 60LStore your sunglasses, electronics and other fragile items in the daypack’s easy to access heat-embossed scratch-free pocket. This pocket is patterned and designed to prevent damage andis easier to clean than fleece liners.DETACHABLE MERIDIAN DAY 75L / 60LThe detachable daypack can be removed and filled with a day’s worth of gear for quick escapesand adventures.MERIDIAN DAY MAIN COMPARTMENT 75L / 60LThe main compartment has room and organization for items such as a laptop, tablet and extra clothes or food. This offers great additional organization when used with the luggage piece or to carry what you need for the day when the daypack is removed and used separately.The Meridian daypack is secured to the pack with three buckles, one located at the base of the daypack, the other two are located near to the top of thedaypack on either side. To remove the daypack, simply unclip the buckles.For more information on this product and others, pack care, how to pack your pack,our lifetime guarantee, or to contact Osprey Customer Service, visit .OWNER'S MANUAL。

家用电动个人修饰电器标准第一、二和三版本命名為美容院設備. 第四、五和六版本命名為電動個人修飾電器.第一版本─ 1954年9月第二版本─ 1966年11月第三版本─ 1971年5月第四版本─ 1975年7月第五版本─ 1978年7月第六版本─ 1984年2月第七版本─ 1988年1月第八版本─ 1991年1月第九版本─ 1995年12月第十版本2002年8月30日UL859最新認證于2002年4月17日作為美國國家標準(ANSI), 其第十版本包括2002年8月20日修正的內容. UL859認證作為美國國家標準保持使用持續的維修程序. 標準任何部分的評述或建議可隨時呈交UL. 文字評述送交CA95050, Santa Clara, Scott Blvd 1655, UL-SC標準部門.有效期作為一個立即隨著特定要求的記錄被UL公司確定建立.此標準的修正通過發行修正或補充的附有發行日期的頁數執行. UL標準只有與最新采纳的版本合并才能使用, 所有項目列在伴隨修訂要求最新設置的傳送通知上. ISBN 0-7629-0773-8UL公司1991、2002版權所有.目錄:前言:引言:1. 範圍2. 概述2.1部件2.2測量單位2.3未注明日期的參考3. 詞匯解釋結構4. 概述5. 風筒浸水保護6. 框架和外殼6.1概述6.2聚合物外殼6.3金屬外殼6.4防腐性6.5帶電部件的接觸6.6門窗和蓋子7. 減少傷人危險7.1概述7.2有水槽的電器7.3蠟脫毛器8. 機械裝配9. 穩定性10.懸掛和固定方式11.電源連接11.1永久連接電器11.2電線端子11.3線連接電器11.4應力抵銷11.5套管11.6直接插入式電器12.帶電部件13.水槽14.內部線路15.發熱元件16.電絕緣17.熱絕緣18.超流保護19.熱切斷(熱熔連接)20.浸水檢測電流斷開器21.燈座和插座22.開關22.1概述22.2雙電壓選擇器23.自動操纵24.間隔25.接地26.馬達26.1結構26.2刷壞情況性能27.概述28.外殼強度測試29.傾倒測試30.穩定性測試31.漏電電流測試32.潮濕條件下漏電電流測試33.浸水檢測電路斷開跳掣時間測試33.1收到的風筒33.2條件下的風筒34.漏水點濕度測試35.導電外層測試36.輸入功率測試37.正常溫度測試。

BP6A – L-Series IPM Interface Circuit Reference DesignDescription: The BP6A is a complete isolated interface circuit for high power six pack L-Series IPMs. This circuit provides opto-coupled isolation for control signals and isolated power supplies for the IPM’s built-in gate drive and protection circuits. The isolated interface helps to simplify prototype development and minimize design time by allowing direct connection of the IPM to logic level control circuits.Features: • Complete three-phase isolated interface circuit with fault feedback • 2500VRMS isolation for control power and signals• Standard AMP MTA .100” Input Signal and ControlPower Connectors• Operates from a single 24VDC supply• Compact Size 3.2” x 5.5” (80mm x 140mm)Ordering Information: BP6A-L is a kit containing a bare PCB and six VLA106-24151 DC to DC converters(For use with L-Series IPMs in package D)BP6A is a bare PCB only.Note: User must supply Opto-Couplers and passive components to fully populate the BP6A (See Table 2)Applications:BP6A is designed for use with Powerex L-Series sixpack IPMs: 450A-600A 600V and 200A-450A 1200V.¾ Use Powerex VLA106-24151 DC to DCconverter for isolated control power. SeeTable 1 for requirements.Caution: Verify PCB Orientation Before Applying PowerPackage APackage BPackage CPackage D only four isolated supplies are required. Interface circuit details for分销商库存信息: POWEREXBP6A-L。

INSULATED PACKAGEINSULATED PACKAGE2.32.43.52.50.81.03.01.2110Min.Typ.Max.Collector-Emitter Saturation Voltage Collector-Emitter Cutoff Current–I C = 100A, V D = 15V, V CIN = 15V (Fig. 2)T j = 25°C T j = 125°CELECTRICAL CHARACTERISTICS (Tj = 25°C, unless otherwise noted)INVERTER PARTParameterSymbol ConditionV CE(sat)I CESV EC t on t rr t c(on)t off t c(off)Limits ———0.5——————1.81.92.51.00.50.42.00.7——T j = 25°C T j = 125°CFWDi Forward VoltageSwitching TimeV D = 15V, V CIN = 0V ↔15V V CC = 600V, I C = 100A T j = 125°C Inductive Load (Fig. 3, 4)V CE = V CES , V CIN = 15V(Fig. 5)V D = 15V, I C = 100A V CIN = 0V (Fig. 1)V mAVµsUnit Bottom viewYX* If you use this value, R th(f-a) should be measured just under the chips.(Note-1) Tc (under the chip) measurement point is below.armaxisX YUnit : mm UPIGBT 23.756.7VPWPUNWNFWDi 23.043.4IGBT 57.256.7FWDi 56.543.4IGBT 87.756.7FWDi 86.543.4IGBT 37.728.7FWDi 38.042.0IGBT 100.728.7FWDi 101.542.0VNIGBT 70.228.7FWDi 71.542.0Br IGBT10.826.9FWDi 7.260.60.16*0.26*0.26*0.40*0.023°C/WR th(j-c)Q R th(j-c)F R th(j-c)Q R th(j-c)F R th(c-f)Inverter IGBT (per 1 element) (Note-1)Inverter FWDi (per 1 element) (Note-1)Brake IGBT (Note-1)Brake FWDi(Note-1)Case to fin, (per 1 module)Thermal grease applied(Note-1)Symbol ConditionUnitMin.——————————Junction to case Thermal ResistancesTHERMAL RESISTANCESContact Thermal ResistanceParameterLimits Typ.Max.ParameterSymbolSupply Voltage Protected bySCSupply Voltage (Surge)Storage Temperature Isolation Voltage ConditionV CC(surge)T stgV iso Ratings V CC(PROT)8001000–40 ~ +1252500Unit V °C V rmsV V D = 13.5 ~ 16.5V, Inverter Part,T j = +125°C StartApplied between : P-N, Surge value60Hz, Sinusoidal, Charged part to Base, AC 1 min.TOTAL SYSTEMINSULATED PACKAGE3.53.5————Main terminal screw : M5Mounting partscrew : M5—Symbol ParameterMounting torque Mounting torque WeightConditionUnit N • m N • m gLimits Min.Typ.Max.2.52.5—3.03.0800MECHANICAL RATINGS AND CHARACTERISTICS—————V CE(sat)I CESV FM V mAMin.Typ.Max.V Collector-Emitter Saturation Voltage FWDi Forward Voltage Collector-Emitter Cutoff CurrentI F = 50A(Fig. 2)T j = 25°C T j = 125°CUnit ParameterSymbol ConditionLimits 2.32.43.51101.81.92.5——T j = 25°C T j = 125°CBRAKE PARTV D = 15V, I C = 50A V CIN = 0V (Fig. 1)V CE = V CES , V CIN = 15V(Fig. 5)V D = 15V, V CIN = 15VApplied between :U P -V UPC , V P -V VPC , W P -V WPCU N • V N • W N • B r -V NCI D °C V mA ms34121.82.3—————12.5—0.0115—mA Circuit CurrentInput ON Threshold Voltage Input OFF Threshold Voltage Short Circuit Trip Level Short Circuit Current Delay TimeOver Temperature Protection Supply Circuit Under-Voltage ProtectionFault Output Current Minimum Fault Output Pulse WidthV th(ON)V th(OFF)SC t off(SC)OT OT r UV UV r I FO(H)I FO(L)t FOTrip level Reset level Trip level Reset levelCONTROL PART——1.21.7200100—135—11.5———1.0ParameterSymbol ConditionMax.Min.Typ.Unit Limits 2461.52.0——0.214512512.012.5—101.8(Note-2)Fault output is given only when the internal SC, OT & UV protections schemes of either upper or lower arm device operate toprotect it.V D = 15VDetect T j of IGBT chip –20 ≤ T j ≤ 125°C V D = 15V, V FO = 15V (Note-2)V D = 15V(Note-2)V µs V N1-V NC V *P1-V *PCInverter partBrake part A –20 ≤ T j ≤ 125°C, V D = 15V (Fig. 3,6)V D = 15V(Fig. 3,6)RECOMMENDED CONDITIONS FOR USERecommended valueUnit ConditionSymbol ParameterV Applied across P-N terminalsApplied between :V UP1-V UPC , V VP1-V VPCV WP1-V WPC , V N1-V NC (Note-3)Applied between :U P -V UPC , V P -V VPC , W P -V WPCU N • V N • W N • B r -V NCUsing Application Circuit of Fig. 8For IPM ’s each input signals(Fig. 7)Supply Voltage Control Supply Voltage Input ON Voltage Input OFF Voltage PWM Input Frequency Arm Shoot-through Blocking Time≤ 80015±1.5≤ 0.8≥ 9.0≤ 20≥ 2.5V CC V CIN(ON)V CIN(OFF)f PWM t deadV D V kHz µsV (Note-3)With ripple satisfying the following conditions: dv/dt swing ≤ ±5V/µs, Variation ≤ 2V peak to peakINSULATED PACKAGEINSULATED PACKAGEINSULATED PACKAGEINSULATED PACKAGEINSULATED PACKAGE。

Press Release 23 April 2021 Taycan Turbo S Cross Turismo: Combined consumption 29.4 kWh/100 km; combined CO2 emissions 0g/km44th Porsche Tennis Grand Prix – Summary Day 7Four semifinalists, four top starsStuttgart. Four top stars will be contesting the Porsche Tennis Grand Prix semifinals – Ashleigh Barty versus Elina Svitolina and Simona Halep versus Aryna Sabalenka. The two matches in the penultimate round on Saturday will determine the finalists at the 44th edition of the time-honoured Stuttgart tournament. There will definitely be a new winner – a winner that will take reception of a mamba green metallic Taycan Turbo S Cross Turismo as the main prize. The title holder Petra Kvitova was ousted by Elina Svitolina in the quarterfinals whilst the 2018 winner Karolina Pliskova was defeated by the top-seeded Ashleigh Barty.The first quarterfinal on Centre Court in the Porsche Arena began at 2.00 in the afternoon but Ashleigh Barty was seemingly still half-asleep. In losing the first set 6-2, the Australia overwhelmed by Karolina Pliskova before taking the initiative to even up the match with an equally convincing 6-1 second set. And the rollercoaster continued. In final set, she again needed a long-run up and had her back to the wall when the Czech served for the match at 5-4. However, Ashleigh Barty impressively showed just why she tops the rankings and extricated herself from the perilous position with some great shots to progress to the semifinal after wrapping up the match 7-5 in the third. “It was a great battle, especially in the third set,” said the top favourite who is making her debut at the Porsche Tennis Grand Prix. “I never gave up, fought hard and tried to enjoy the match despite everything. They’re the matches I love.”Her semifinal opponent Elina Svitolina from Ukraine downed the title holder Petra Kvitova in the quarterfinals after eventually closing out the encounter 6-7 (4), 7-5, 6-2 after two hours 37 minutes. She was forced onto the back foot most of the time by the Czech and, after losing the first set in a tie-break, was soon 5-2 down in the second. The title holder was unable to convert her both first match point and then the second when she was serving for the match at 5-4. The world No. 5 continued battling to break back twice and eventually win a set that she had looked like losing. Her Czech opponent’s resistance was broken even though she herself fended off three match points. Elina Svitolina wa s still out of breath at the winner’s interview saying: “I expected a hard match but nothing like that. I fought for every single ball and it was the key to winning the match.”Simona Halep has it easyEkaterina Alexandrova was in the quarterfinals by virtue of a surprise victory against Belinda Bencic. However, her winning run was brought to an end by Simona Halep. The two-time grand slam champion and Stuttgart No. 2 seed cruised to a 6-1 first set. Though the world No. 36 from Russia was improving all the time, the Romanian did not have to exert herself too much when taking the second 6-4, also thanks to her excellent serve. The fact that she had lost the last two matches against the Russian was of no importance anymore. “I have learned from the defeats and made her run a bit more,” said Simona Halep who is playing the Porsche Tennis Grand Prix for the sixth time. Looking ahead to the semifinals, she was nevertheless, “glad to finish off the match in two straight sets.”It was a long semifinals day in the Porsche Arena, one that ended just before midnight when Aryna Sabalenka finally converted her fourth match point to beat Anett Kontaveit 7-5, 4-6, 6-1. The No. 5 seeded Belarusian and the unseeded Estonian, the 2019 runner-up, gave each other no quarter for almost two and a half hours, Even the third set was much closer than the score suggests. “I was under pressure every second of the match and there were lots of emotions of the court,” said the winner. “In the thirdset, I managed to concentrate better. The semifinal against Simona is sure to be much harder. She won our last match in Dubai. Hopefully I can do better tomorrow.”Five Germans stood on the court for the doubles quarterfinals on Friday, but things went well for only one of them. P artnered by China’s Yafan Wang, Vivian Heisen, who mainly plays on the ITF Tour, ended the semifinal hopes of Angelique Kerber and Andrea Petkovic with a 6-2, 6-4 win. Their Porsche Team Germany teammates, the title holders Anna-Lena Friedsam and Mona Barthel are also out of the tournament after losing 6-3, 6-3 against Nadiia Kichenom (Ukraine) and Raluca Olaro (Romania).Service for all the media representativesOur new media hub containing all the relevant information about the Porsche Tennis Grand Prix like press releases, match results, statistics, audio recordings of press conferences with players and photos is available to journalists via the Porsche press data base at presse.porsche.de/mediahub. Further contents can be found in the Porsche Tennis Media Guide.Further information, film and photo material in the Porsche Newsroom: 。

INSULATED PACKAGEINSULATED PACKAGEUPIGBT 28.3–8.2VPWPUNVNWNBr FWDi 28.32.0IGBT 65.0–8.2FWDi 65.02.0IGBT 87.0–8.2FWDi 87.02.0IGBT 39.36.2FWDi 39.3–4.0IGBT 54.06.2FWDi 54.0–4.0IGBT 76.06.2FWDi 76.0–4.0IGBT18.1–10.1FWDi 18.05.6armaxisX Y(Unit : mm)2.32.43.52.50.81.03.01.2110Min.Typ.Max.Collector-Emitter Saturation Voltage Collector-Emitter Cutoff Current–I C = 75A, V D = 15V, V CIN = 15V (Fig. 2)T j = 25°C T j = 125°CELECTRICAL CHARACTERISTICS (Tj = 25°C, unless otherwise noted)INVERTER PARTParameterSymbol ConditionV CE(sat)I CESV EC t on t rr t c(on)t off t c(off)Limits ———0.5——————1.81.92.51.00.50.42.00.7——T j = 25°C T j = 125°CFWDi Forward VoltageSwitching TimeV D = 15V, V CIN = 0V ↔15V V CC = 600V, I C = 75A T j = 125°C Inductive Load (Fig. 3,4)V CE = V CES , V CIN = 15V(Fig. 5)V D = 15V, I C = 75AV CIN = 0V(Fig. 1)V mAVµsUnit * If you use this value, R th(f-a) should be measured just under the chips.(Note-1) T C (under the chip) measurement point is below.Bottom view0.21*0.30*0.28*0.45*0.038°C/WR th(j-c)Q R th(j-c)F R th(j-c)Q R th(j-c)F R th(c-f)Inverter IGBT (per 1 element) (Note-1)Inverter FWDi (per 1 element) (Note-1)Brake IGBT (Note-1)Brake FWDi(Note-1)Case to fin, (per 1 module)Thermal grease applied(Note-1)Symbol ConditionUnitMin.——————————Junction to case Thermal ResistancesTHERMAL RESISTANCESContact Thermal ResistanceParameterLimits Typ.Max.ParameterSymbolSupply Voltage Protected bySCSupply Voltage (Surge)Storage Temperature Isolation Voltage ConditionV CC(surge)T stgV iso Ratings V CC(PROT)8001000–40 ~ +1252500Unit V °C V rmsV V D = 13.5 ~ 16.5V, Inverter Part,T j = +125°C StartApplied between : P-N, Surge value60Hz, Sinusoidal, Charged part to Base, AC 1 min.TOTAL SYSTEMINSULATED PACKAGE3.53.5————Main terminal screw : M5Mounting partscrew : M5—Symbol ParameterMounting torque Mounting torque WeightConditionUnit N • m N • m gLimits Min.Typ.Max.2.52.5—3.03.0380MECHANICAL RATINGS AND CHARACTERISTICS—————V CE(sat)I CESV FM V mAMin.Typ.Max.V Collector-Emitter Saturation Voltage FWDi Forward Voltage Collector-Emitter Cutoff CurrentI F = 40A(Fig. 2)T j = 25°C T j = 125°CUnit ParameterSymbol ConditionLimits 2.32.43.51101.81.92.5——T j = 25°C T j = 125°CBRAKE PARTV D = 15V, I C = 40A V CIN = 0V (Fig. 1)V CE = V CES , V CIN = 15V(Fig. 5)V D = 15V, V CIN = 15VApplied between :U P -V UPC , V P -V VPC , W P -V WPCU N • V N • W N • B r -V NCI D °C V mA ms30101.82.3—————12.5—0.0115—mA Circuit CurrentInput ON Threshold Voltage Input OFF Threshold Voltage Short Circuit Trip Level Short Circuit Current Delay TimeOver Temperature Protection Supply Circuit Under-Voltage ProtectionFault Output Current Minimum Fault Output Pulse WidthV th(ON)V th(OFF)SC t off(SC)OT OT r UV UV r I FO(H)I FO(L)t FOTrip level Reset level Trip level Reset levelCONTROL PART——1.21.715080—135—11.5———1.0ParameterSymbol ConditionMax.Min.Typ.Unit Limits 2051.52.0——0.214512512.012.5—101.8(Note-2)Fault output is given only when the internal SC, OT & UV protections schemes of either upper or lower arm device operate toprotect it.V D = 15VDetect T j of IGBT chip –20 ≤ T j ≤ 125°C V D = 15V, V FO = 15V (Note-2)V D = 15V(Note-2)V µs V N1-V NC V *P1-V *PCInverter partBrake part A RECOMMENDED CONDITIONS FOR USERecommended valueUnit ConditionSymbol ParameterV Applied across P-N terminalsApplied between :V UP1-V UPC , V VP1-V VPCV WP1-V WPC , V N1-V NC (Note-3)Applied between :U P -V UPC , V P -V VPC , W P -V WPCU N • V N • W N • B r -V NCUsing Application Circuit of Fig. 8For IPM ’s each input signals(Fig. 7)Supply Voltage Control Supply Voltage Input ON Voltage Input OFF Voltage PWM Input Frequency Arm Shoot-through Blocking Time≤ 80015.0±1.5≤ 0.8≥ 9.0≤ 20≥ 2.5V CC V CIN(ON)V CIN(OFF)f PWM t deadV D V V kHz µs(Note-3)With ripple satisfying the following conditions: dv/dt swing ≤ ±5V/µs, Variation ≤ 2V peak to peak–20 ≤ T j ≤ 125°C, V D = 15V (Fig. 3,6)V D = 15V(Fig. 3,6)INSULATED PACKAGEINSULATED PACKAGEINSULATED PACKAGEINSULATED PACKAGEINSULATED PACKAGE。

INSULATED PACKAGEINSULATED PACKAGEParameterSymbolSupply Voltage Protected bySCSupply Voltage (Surge)Storage Temperature Isolation Voltage ConditionV CC(surge)T stgV iso Ratings V CC(PROT)8001000–40 ~ +1252500Unit V °C V rmsV V D = 13.5 ~ 16.5V, Inverter Part,T j = +125°C StartApplied between : P-N, Surge value60Hz, Sinusoidal, Charged part to Base, AC 1 min.TOTAL SYSTEMUPIGBT 28.3–8.2WPUNVNWNFWDi 28.32.0IGBT 65.0–8.2FWDi 65.02.0IGBT 87.0–8.2FWDi 87.02.0IGBT 39.36.2FWDi 39.3–4.0IGBT 54.06.2FWDi 54.0–4.0IGBT 76.06.2FWDi 76.0–4.0armaxisX Y(Unit : mm)VP2.32.43.52.50.81.03.01.2110Min.Typ.Max.Collector-Emitter Saturation Voltage Collector-Emitter Cutoff Current–I C = 75A, V D = 15V, V CIN = 15V (Fig. 2)T j = 25°C T j = 125°CELECTRICAL CHARACTERISTICS (Tj = 25°C, unless otherwise noted)INVERTER PARTParameterSymbol ConditionV CE(sat)I CESV EC t on t rr t c(on)t off t c(off)Limits ———0.5——————1.81.92.51.00.50.42.00.7——T j = 25°C T j = 125°CFWDi Forward VoltageSwitching TimeV D = 15V, V CIN = 0V ↔15V V CC = 600V, I C = 75A T j = 125°C Inductive Load (Fig. 3,4)V CE = V CES , V CIN = 15V(Fig. 5)V D = 15V, I C = 75AV CIN = 0V(Fig. 1)V mAVµsUnit Bottom view* If you use this value, R th(f-a) should be measured just under the chips.(Note-1) T C (under the chip) measurement point is below.0.21*0.30*0.038°C/WR th(j-c)Q R th(j-c)F R th(c-f)Inverter IGBT (per 1 element) (Note-1)Inverter FWDi (per 1 element) (Note-1)Case to fin, (per 1 module)Thermal grease applied(Note-1)Symbol ConditionUnitMin.——————Junction to case Thermal ResistancesTHERMAL RESISTANCESContact Thermal ResistanceParameterLimits Typ.Max.INSULATED PACKAGEV D = 15VDetect T j of IGBT chip –20 ≤ T j ≤ 125°C V D = 15V, V FO = 15V (Note-2)V D = 15V(Note-2)V th(ON)V th(OFF)SC t off(SC)OT OT r UV UV r I FO(H)I FO(L)t FOTrip level Reset level Trip level Reset level–20 ≤ T j ≤ 125°C, V D = 15V (Fig. 3,6)V D = 15V(Fig. 3,6) 3.53.5————Main terminal screw : M5Mounting partscrew : M5—Symbol ParameterMounting torque Mounting torque WeightConditionUnit N • m N • m gLimits Min.Typ.Max.2.52.5—3.03.0380MECHANICAL RATINGS AND CHARACTERISTICSV D = 15V, V CIN = 15VApplied between :U P -V UPC , V P -V VPC , W P -V WPCU N • V N • W N -V NCI D °C V mA ms25101.82.3————12.5—0.0115—mA Circuit CurrentInput ON Threshold Voltage Input OFF Threshold Voltage Short Circuit Trip Level Short Circuit Current Delay TimeOver Temperature Protection Supply Circuit Under-Voltage ProtectionFault Output Current Minimum Fault Output Pulse WidthCONTROL PART——1.21.7150—135—11.5———1.0ParameterSymbol ConditionMax.Min.Typ.Unit Limits 1551.52.0—0.214512512.012.5—101.8(Note-2)Fault output is given only when the internal SC, OT & UV protections schemes of either upper or lower arm device operate toprotect it.V µs V N1-V NC V *P1-V *PCA RECOMMENDED CONDITIONS FOR USERecommended valueUnit ConditionSymbol ParameterV Applied across P-N terminalsApplied between :V UP1-V UPC , V VP1-V VPCV WP1-V WPC , V N1-V NC (Note-3)Applied between :U P -V UPC , V P -V VPC , W P -V WPCU N • V N • W N -V NCUsing Application Circuit of Fig. 8For IPM ’s each input signals(Fig. 7)Supply Voltage Control Supply Voltage Input ON Voltage Input OFF Voltage PWM Input Frequency Arm Shoot-through Blocking Time≤ 80015.0±1.5≤ 0.8≥ 9.0≤ 20≥ 2.5V CC V CIN(ON)V CIN(OFF)f PWM t deadV D V V kHz µs(Note-3)With ripple satisfying the following conditions: dv/dt swing ≤ ±5V/µs, Variation ≤ 2V peak to peakINSULATED PACKAGEINSULATED PACKAGEINSULATED PACKAGEINSULATED PACKAGE。

INSULATED PACKAGEINSULATED PACKAGEINSULATED PACKAGEV D = 15V, V CIN = 15VApplied between :U P -V UPC , V P -V VPC , W P -V WPCU N • V N • W N -V NCI D °C V mA ms72181.82.31010850———125—12.5—0.0115—mA Circuit CurrentInput ON Threshold Voltage Input OFF Threshold Voltage Over Current Trip Level Short Circuit Trip Level Over Current Delay Time Over Temperature Protection Supply Circuit Under-Voltage ProtectionFault Output Current Minimum Fault Output Pulse WidthV th(ON)V th(OFF)OC SC t off(OC)OT OT r UV UV r I FO(H)I FO(L)t FOTrip level Reset level Trip levelReset level CONTROL PART——1.21.7—518310——111—11.5———1.0ParameterSymbol Test ConditionMax.Min.Typ.Unit Limits 52131.52.0—609—5601011810012.012.5—101.8(Note-3)Fault output is given only when the internal OC, SC, OT & UV protection.Fault output of OC, SC and UV protection operate by upper and lower arms.Fault output of OT protection operate by lower arm.Fault output of OC, SC protection given pulse.Fault output of OT, UV protection given pulse while over level.Base-plateTemperature detection, V D = 15V–20 ≤ T j ≤ 125°CV D = 15V, V FO = 15V (Note-3)V D = 15V(Note-3)V µs 3.53.5————Main terminal screw : M5Mounting partscrew : M5—Symbol ParameterMounting torque Mounting torque WeightTest ConditionUnit N • m N • m gLimits Min.Typ.Max.2.52.5—3.03.0920MECHANICAL RATINGS AND CHARACTERISTICSV D = 15V (Fig. 5,6) –20≤ T j ≤ 125°C, V D = 15V(Fig. 5,6)V D = 15V (Fig. 5,6)V N1-V NC V XP1-V XPCT j = –20°CT j = 25°CT j = 125°CA A RECOMMENDED CONDITIONS FOR USERecommended valueUnit Test ConditionSymbol ParameterV Applied across P-N terminalsApplied between :V UP1-V UPC , V VP1-V VPCV WP1-V WPC , V N1-V NC (Note-4)Applied between :U P -V UPC , V P -V VPC , W P -V WPCU N • V N • W N -V NCUsing Application Circuit input signal of IPM, 3φsinusoidal PWM VVVF inverter (Fig. 8)For IPM ’s each input signals(Fig. 7)Supply Voltage Control Supply Voltage Input ON Voltage Input OFF Voltage PWM Input Frequency Arm Shoot-through Blocking Time≤ 40015±1.5≤ 0.8≥ 4.0≤ 20≥ 2.5V CC V CIN(ON)V CIN(OFF)f PWM t deadV D V kHz µsV (Note-4)Allowable Ripple rating of Control Voltage : dv/dt ≤ ±5V/µs, 2V p-pINSULATED PACKAGEINSULATED PACKAGEINSULATED PACKAGEINSULATED PACKAGE。

MIXING INSTRUCTIONSThis is a two-component system. COMPLETE U NIT MU ST BE MIXED AND APPLIED AT ONE TIME. DO NOT MIX PARTIAL QU ANTITIES FROM CONTAINERS OR PROPER RATIOS MAY NOT BE OBTAINED. Ensure product temperature is between 73-85°F (23-30°C), pre mix Resin Part A and Hardener Part B individually, be sure that any settled material at the bottom of the can is dispersed. Slowly pour the contents of the Hardener into the Resin while mixing.Mix for 2 minutes until a uniform color and consistency is achieved. To ensure complete mixing, scrape sides and bottom of container and continue mixing for an additional 1 minute. Excessive mixing speed will induce air into the mixture and is not recommended. APPLICATION INSTRUCTIONS1) Once mixed, begin application immediately - no induction time is needed. This product has a short working life and will develop exothermic heat due to the polymeric reaction. The higher the temperature and the larger the mass, the faster the product cure speed. Mixed contents may be portioned off into smaller containers to maintain pot life.2) The product is applied with the application spreader provided. Work the material in a very thin layer to allow the polymer resin to “wet” out the surface to ensure proper adhesion. Once the surface is wet, begin to build up the coating to the desired thickness.3) The product should be applied in a single layer. When additional thickness is required the coating must be abraded to allow for inter-coat adhesion.SURFACE PREPARATIONEnsure that surface is clean, dry and uncontaminated. Precleaning of the surface is necessary in order to remove oil, wax or other foreign matter which may contaminate the abrasive media and impregnate itself into the blast profile. Always check for ionic salt contamination (chlorides and sulfates) and neutralize the surface as required. Proceed only if the substrate temperature is 5°F (3°C) above the dew point temperature and that the relative humidity is below 85% during surface preparation and coating application. Abrasive blast clean with angular abrasive media. DO NOT USE steel shot or non-angular media. For steel surfaces, blast to a Near White Metal Blast (SSPC-SP10; NACE 2; SA 2.5) with a minimum 3 mils (75 μm) depth profile. Blow down the surface before applying the coating to ensure it is free of dust and other loose contaminants.For less severe service or emergency repairs, surface preparation by mechanical flapper wheel grinding (40 grit or coarser) and bristle blasting process is permitted.The surface must be clean with a rough profile of 2 mils (50 μm). Due to the slower rate of cleaning by mechanical means, these methods are ideally suited for smaller repair applications. INSPECTIONImmediately following the application of the coating visually inspect the coating for discoloration and areas of missed coating. These areas can be repaired immediately if the coating is tacky to touch.Further inspection is to be performed once the coating has cured. Visually inspect the coating for discoloration, uncured coating, blisters, and other visual defects. Mechanical removal and reapplication may be required depending on the defect type.Mixing RatioVolume 3 part Resin (A) : 1 part Hardener (B) Weight 4 part Resin (A) : 1 part Hardener (B)Statement of Liability: Due to variations inherent in specific applications, the technical information contained herein, including any information as to suggested product applications or results, is presented without representation or warranty, expressed or implied. Without limitation, there are no warranties of merchantability or of fitness for a particular purpose. Each process and application must be fully evaluated by the user in all respects, including suitability, compliance with applicable law and non-infringement of the rights of others, and Eutectic Corporation and its affiliates shall have no liability in respect thereof.EUTECTIC CORPORATIONN94 W14355 Garwin Mace Drive Menomonee Falls, WI 53051 USA Tel.: +1 (800) 558-8524EUTECTIC CANADA 428, rue Aimé-Vincent Vaudreuil-Dorion, Québec J7V 5V5 CanadaTel.: +1 (800) 361-9439R E V 02:06/2019YOUR RESOURCE FOR PROTECTION, REPAIR AND JOINING SOLUTIONSSTORAGE & CLEAN UP1) Use commercial solvents (Xylene, Methyl Ethyl Ketone) to clean tools immediately after use.2) Once the coating is dry, the material must be abraded off.3) Keep containers tightly sealed. For cleanup, use M.E.K. or a 50:50 blend of M.E.K. and Xylol.4) Long time storage should be between 50°F (10°C) and 80°F (27°C).DO NOT FREEZE.5) Use product within 2 years of receiving. Once theproduct lid is opened it must be resealed tightly. The shelf life will be reduced to 3 months.SAFETYBefore using any products, please refer to the Safety Data Sheet (SDS). Follow standard confined space entry and work procedures, if appropriate.Wear eye safety protection and full skin protectionincluding chemical resistant gloves. Use NIOSH approved respirator where mist occurs.Before applying this product, please refer to the Technical Data Sheet.CURING PERFORMANCEFOR CHEMICAL SERVICE THE COATING MUST CURE FOR A FULL 7 DAYS. Force curing for 6 hours at 120°F (50°C) may be used to expedite chemical service. Product temperature and substrate temperature will affect the coating cure time. The warmer the temperature the faster the reactionspeed.。

Features• Pressure measurement• Air velocity measurement• Coefficient of the adjustabledifferential pressure element• Temperature and atmosphericpressure compensation• Selection of units• Manual autozero• Hold function• Display of minimum and maximumvalues• Configurable auto shut-off• BacklightTechnical specificationsSelection of unitsEasy to useManual autozeroHold-min-max functionPitot tube not included, sold separately*Except class 110 S which is supplied with adjustment certificate.**All the accuracies indicated in this technical datasheet were stated in laboratory conditions, and can be guaranteed for measurements carried out in the same conditions, or carried out with calibration compensation.General featuresDimensions (in mm)Kit contentAccessoriesF T _E N – M P 120 – 21/07/23 – N o n -c o n t r a c t u a l d o c u m e n t – W e r e s e r v e t h e r i g h t t o m o d i f y t h e c h a r a c t e r i s t i c s o f o u r p r o d u c t sw i t h o u t p ri or n o t i c e .Operating principlePiezoresistive sensorThe pressure deforms the silicon layer. This layer deformation generates a voltage at its terminates. This voltage is proportional to the pressure applied.VoltageVacuumSilicon layerPressureMaintenanceWe carry out calibration, adjustment and maintenance of your instruments to guarantee a constant level of quality of your meas-urements.As part of Quality Assurance Standards, we recommend you to carry out a yearly checking.Pitot tubeDynamic pressure is measured by Pitot tube: Pd = Total pressure (Pt) – Static pressure (Ps)Air velocity is calculated according to Bernoulli simplified formula.Formula with temperature correction:V m/s = K xPo = Barometric pressure in Pa θ = temperature in °C K = Pitot tube coefficientStatic pressureTotal pressurePressure sensorCalibration certificate: A calibration is a compar-ison of the values of the instrument with those of a standard to determine a measurement error with an associated calibration uncertainty. A calibration certifi-cate guarantees the traceability of measurements to national standards.Adjustment certificate: An adjustment certificate is a document that ensures the conformity of the device with the tolerances of the data sheet. It ensures that the device has followed the manufacturing process.Certificates。

Anemometer Model No. MP780120Read all instructions before using the appliance and retain for future reference.• Please follow all safety operation instructions.• Children should be supervised to ensure that they do not play with the product.• Do not use the meter if the casing is damaged or there is any anomaly that may impair it’s function.• Do not use the product for any purpose other than that for which it is designed.• Do not operate the product around explosive gas, vapour, or dust.• Do not operate or store in an environment of high humidity or where moisture may enter the product.• Turn the meter off when not in use to save the battery.• Remove the battery if the monitor is not to be used for long periods.•Replace the battery as soon as the low battery warning appears on the display to avoid possible incorrect readings.PRODUCT OVERVIEWWHAT’S INCLUDED • Digital display with wind speed sensor • Instruction manual •BatteriesIMPORTANT SAFETY INFORMATION1. Maximum value2. Minimum value3. Average value4. Data hold5. Low battery warning6. Wind speed value7. Meters per second mode 8. Kilometers per second mode 9. Feet per minute mode 10. Knots per minute mode 11. Miles per hour mode 12. Fahrenheit mode 13. Celsius mode14. Temperature value 15. Auto power off16. Wind chill notification 17.Beaufort scaleOPERATIONPower button• Press and hold the power button to turn the meter on.• Short press the power button to turn the meter off.• Press and hold the power button to enable or disable auto power off function.Unit button• Short press to switch between wind speed units Meters/Kilometers/Feet/KPH/MPH • Press and hold to switch between temperature units o C or o F.Mode button• Short press to switch between max, min and average (normal) value recorded HOLD button• Short press to enable or disable the data hold function.• Press and hold to turn on or off the LCD backlight feature.1. Wind speed/temperature sensor 2. Measuring device3. Flexible connection cord4. LCD display5. Function buttons6. Readout deviceFunction DescriptionUnit switch Selectable wind speed units and temperature unit Measurement value Maximum/Minimum/Average value Data holdHOLD symbol is displayedOverload alarm When the wind speed exceeds 45m/s OL is displayed. When the temperature exceeds 50o C OL is displayed. When the temperature is below -10o C OL is displayed Backlight LCD Backlight on/off functionAuto power off The meter will turn the power off if not operated for approx 5 minutesSampling range Once per 0.5 second Drop test 1mBattery 1.5V 3 x AAAEnvironment Indoor 0o C~40o C (<90%RH)Storage Indoor -20o C~60o C (<75%RH)Altitude 2000m Pollution grade2INFORMATION ON WASTE DISPOSAL FOR CONSUMERS OF ELECTRICAL & ELECTRONIC EQUIPMENT.These symbols indicate that separate collection of Waste Electrical and Electronic Equipment (WEEE) or waste batteries is required. Do not dispose of these items with general household waste. Separate for the treatment, recovery and recycling of the materials used. Waste batteries can be returned to any waste battery recycling point which are provided by most battery retailers. Contact your local authority for details of the battery and WEEE recycling schemes available inyour area.Made in China. LS12 2QQMan Rev 1.0SPECIFICATION FunctionRange ResolutionAccuracy NoteWind speed Measurement0.4~30m/s (standard)0~99:0.01100~999:0.1>1000: 1±(5%+0.5m/s)Ambient temp: 23o C±5o C Ambient humidity:<80%RH PUFU wind rating as reference 1.4~108km/s (reference)±(5%+1.5km/h)78~5905ft/m (reference)±(5%+100ft/min)0.7~58 knots (reference)±(5%+1knot)0.8~67mph (reference)±(5%+1mph)Temperature Measurement -10~50o C 0.1o C ±2o C 14~122o F 0.2o F ±4o F Wind Rating 0~121±1• Clean the casing using a moist cloth and mild detergent. Do not use any form of solvents.• There are no user serviceable parts inside.•When the low battery symbol displays on the LCD, replace the three AAA batteries in the back of the meter to avoid any inaccuracies in readings taken.MAINTENANCE。

Step 2. Priming or First CoatPM100 is normally a self-priming system. Pour entire contents of mix onto floor in a continuous ribbon. Slowly move and level the mixture with a flat squeegee or trowel, then back roll with a medium nap phenolic core roller to remove any squeegee or trowel marks. A standard 1 ½ gallon mix should cover approximately 300 sq.ft. (200 sq.ft. per gallon) but this will vary depending upon the porosity and texture of the concrete.NOTE: Larger quantities of epoxy may be mixed if there is sufficient manpower to squeegee and roll before epoxy begins to set up. Working time is approximately 30 minutes. for PM100/ PM 125, 20 minutes for PM100/PM126 and 10 minutes for PM100/PM127@ 75︒ F.If slip resistant aggregate is to be added, lightly and evenly broadcast aggregate into first coat (Step 2) after back rolling but before the epoxy begins to set.To enhance even distribution of aggregate, it is recommended that the broadcast installer wear spiked shoes (old golf shoes are acceptable) to allow him to walk in the wet epoxy and stay close to the broadcast area.Cure Time: Before applying the topcoat, allow to cure 10 hours when using PM125 Hardener, 6 hours when using PM126 Hardener and 3 hours when using PM127 Hardener at 75︒ F.Step 3. Top Coat Application (Optional but Recommended when used as coating)Although PM100 can be installed in one application, we recommend that PM100 be installed in two coats to improve finish and durability.When floor is no longer tacky, approx. 10 hrs. @ 75︒ F, repeat Step 2. Aggregate should not be incorporated in second coat. Coverage of PM100 will be approx. 300 sq.ft. per 1 ½ gallon mix (200 sq. ft. per gallon) on topcoat.NOTE: If first coat has cured over 24 hours before additional coats can be applied, the receiving coat should be lightly sanded with a medium grit sanding pad and then vacuumed or swept to remove dust or debris.Using PM Color Packs.Mix PM100/PM125 as noted above in Step 2. After thoroughly mixing, add PM Color Pack at the rate 9.6 ounces per 1 ½ gallon mix (or 1 quart container per 5 mixed gallons). Thoroughly mix till uniform in color. Continue with application Step 3 above. The amount of PM Color Pack can vary by 1 to 2 ounces without affecting the cure of the PM100 but the same amount of PM Color Pack must be added to each mix for color uniformity.Return to ServiceNormally allow new floor to cure a minimum of 24 hours @ 75︒ F before returning floor to light duty service and 36 hours @ 75︒ F before returning floor to full service. Be certain that the floor is no longer tacky and hard before turning over to customer. When using rapid cure hardener floor can be returned to service sooner.The information above is to be used as a guideline. The coverages and times provided may vary due to temperature, humidity, mixing time, concrete surface and preparation used.Milamar Coatings, L.L.C.311 NW 122nd St., Suite 100Oklahoma City, OK 73114P: 405-755-8448 | F: 405-755-8449。

逆变器占空比的通解陈希有;高逍男;黄凯【摘要】基于前人对载波调制方法(Carrier PWM)和空间矢量调制方法(SVPWM)二者统一性的研究,从逆变器的调制方程出发,提出了逆变器的占空比通解形式.作为通解的具体应用,设计了一种使逆变器开关动作次数最少的调制策略,并与传统的开关频率优化PWM(SFOPWM)进行类比,从理论和实验方面证明所提出的占空比通解的正确性与可行性.最后,给出了输出线电压含负序分量的仿真结果以及含三次谐波分量的实验结果,进一步证明了提出的通解形式其良好的应用性.%Based on the previous study on the unity of Carrier PWM and SVPWM and from the start of the inverter modulation equation,a form of general solution of duty cycle had been proposed. And as a specific application of the general solution,a modulation strategy which makes the switching frequency of inverter least had been designed. And compared with SFOPWM,the correctness and feasibility of the general solution of duty cycle had been demonstrated from the theoretical and experimental. At last,the simulation results of output line voltage with negative sequence components and experimental results of the voltage with third harmonic components have been given in order to further prove the general solution proposed with good applicability.【期刊名称】《电气传动》【年(卷),期】2016(046)011【总页数】4页(P29-32)【关键词】逆变器;占空比通解;空间矢量脉宽调制【作者】陈希有;高逍男;黄凯【作者单位】大连理工大学电气学院,辽宁大连 116023;大连理工大学电气学院,辽宁大连 116023;大连理工大学电气学院,辽宁大连 116023【正文语种】中文【中图分类】TM464目前，逆变器的PWM调制方法主要有两类：载波调制方法（Carrier PWM）和空间矢量调制方法（SVPWM）。