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电子门锁Digi 209说明书

电子门锁Digi 209说明书

CarácterísticasSe ajusta a todas las puertas estándar - Fácil instalación.Utiliza códigos de cuatro dígitos y permite grabar hasta 25 códigos distintos con teclado de 12-botones.Teclado fluorescente para mejor visibilidadResistente a vandalismo, la manija gira libremente - Certificado ANSI Grade 2 / CEModo de bloqueo - Modo de teclado deshabilitado - Teclado con todos - Modo uso sin códigoConsideraciones:El código maestro es 111111. Cámbielo y borre todos los códigos grabados.Mantenga la llave principal y el perno con imán a resguardo para casos de falla de la cerradura.Un bip corto indica que presionó una tecla, un bip largo indica que la operación fue exitosa, dos bips cortos (tres veces seguidas) indica que el usuario ya existe, tres bips cortos indica que la operación falló, tres bips cortos (dos veces)indica que está bloqueada la cerradura, cuatro bips muy cortos indica poca batería si se quiere abrir la cerradura, o quese grabaron todos los usuarios si es que se estaba grabando uno nuevo.Si un código se ingresa tres veces mal el teclado se bloquea por 10 segundos.La cerradura puede almacenar 25 códigos.No utilice limpiadores líquidos corrosivos, utilice un limpiador con cera.El botón cero (0) se enciende cuando se usa para mayor visibilidad.1.Instalación1.1 Instale el pestillo de la cerradura1.2 Instale el cuerpo frontal 1.3 Instale el cuerpo interno1.4 Instale las baterías (4X1.5V AAAlcalinas)1.5 Fije la cubierta traseraComponentesOperacionesDonde indica CM es el código maestro de 6 dígitos – Donde dice CU es el código de usuario de 4 dígitosPara entrar en configuración:[*] > CM > tecla [0] se enciende con un bip = quiere decir que presione el asterisco, ingrese el código maestro, se enciende la tecla [0] con pitidoCambiar el CM[*] > CM > [0] > CM nuevo > CM nuevo > listo Esto no cambia los CU ingresados.Agregar CU[*] > CM > [1] > CU nuevo > CU nuevo > listoBorrar CU[*] > CM > [2] > CU nuevo > CU nuevo > listoBorrar todos los CU[*] > CM > [3] > CM > listoHabilitar y deshabilitar uso sin código[*] > CM > [4] > CM > listoHabilitar y deshabilitar todos los CU (sin borrar)[*] > CM > [5] > CM > listoHabilitar y deshabilitar el tono de tecladoPresione [#] > listoAbrir con CUCU > gire la manijaAbrir con CM[*] > CM > gire la manija – Si la tecla [0] se enciende indica que está en modo configuraciónAbrir con la llaveColoque el perno negro que posee un imán sobre la cubierta del cilindro para quitar la tapa de intemperie.Ingrese la llave y girela 90 grados antihorario luego gire la manija para abrir la cerradura.Vuelva a colocar la tapa de intemperie cuando deje de usar la llave.Cambio de bateríasRealice los pasos 1.5 y luego 1.4, vuelva a cerrar la tapa.Reseteo de la cerraduraPresione el botón de RESET en el panel frontal con un perno unos segundos y presione cualquier tecla. Cuando queda reseteado se escucha un bip largo, el CM queda en 111111, y los CU quedan borrados.Cambio de la dirección de la manija frontalPresione un poco hacia abajo la manija frontal y levante la llave de liberación de la manija.Gire la manija en la dirección opuesta.Cambio de la dirección de la manija internaPresione un poco hacia abajo la manija interna y baje la llave de liberación de la manija.Gire la manija en la dirección opuesta.Fallas comunesFalla Causa Solución Cuatro bips al abrir la puerta Pilas con bajo voltaje Cambie las pilasNo responde a las teclas Pilas sin voltaje Cambie las pilasNo puede agregar un CU o borrarlo Puede estar ingresando mal el CM Vea las instruccionesSe adjunta la plantilla para la instalación。

Esterline Power Systems继电器说明书

Esterline Power Systems继电器说明书

AMERICAS .Tel:+1714-736-7599/powersystems EUROPE .Tel:+33387973101Fax:+33387979686ASIATel:+852********Fax:+852********•Polarized,nonlatching hermetically sealed relayRelais hermétique monostable polarisé•Contact arrangementCombinaison des contacts 4PDT 4RT•Coil supplyAlimentation bobineAlternating current Courant alternatif •Qualified or in accordance withQualifiéselon ou en accord avecMIL-PRF-6106•Available in SPACE and Hi-REL qualityDisponible en version SPATIAL et Hi-REL (haute fiabilité)PRINCIPAL TECHNICAL CHARACTERISTICSCARACTERISTIQUESTECHNIQUES PRINCIPALES•Contacts rated atPrévu pour commuter15Amps /28Vdc and 115/200Vac,400Hz 3Ø15A /28Vcc ou 115Vca-400Hz 3Ø•WeightMasse363g max•Dimensions of caseDimensions du boîtier 76.3x 58.5x 68.7mm max•Balanced-force design,all welded constructionArmature àforces équilibrées•Hermetically sealed,corrosion protected metal canB oîtier métallique hermétique protégéanti-corrosion •No make before breakNon chevauchement des contacts •Special models available upon requestModèles spécifiques sur demandeApplication notes:101102103D 007CONTACT ELECTRICAL CHARACTERISTICS /CONTACT RATINGCARACTERISTIQUES ELECTRIQUES DES CONTACTS /POUVOIR DE COMMUTATIONMinimum operating cycles Durée de vie minimale Type of load Type de charge28Vdc115Vac 400Hz115/200Vac 400Hz,3Ø115/200Vac 3Ø115Vac 60Hz50000cycles Resistive load |charge résistive 10A 1515A -15A -10A 10000cycles Inductive load |charge inductive 10A -10A -10A -6A 50000cycles Motor load |charge moteur 6A 8A 6A 8A 6A 8A 4A 50000cyclesLamp load |charge lampe3A4A3A4A3A4A2ACOIL CHARACTERISTICS (Vdc)CARACTERISTIQUES DES BOBINES (Vcc)GENERAL CHARACTERISTICSCARACTERISTIQUES GENERALESCODE28Vdc115Vac 400Hz115Vac 60HzSuppressed 28VdcNominal operating voltage Tension nominale (Un)2811511528Maximum operating voltage at +125°C Tension maximale à+125°C3012412430Maximum pickup voltage (Cold coil)Tension d’enclenchement assuré(Bobine froide)18909518Drop-out voltage,maxTension de déclenchement assuré730357Coil resistance Ω ±10% at +25° CRésistence de la bobine en Ω ±10% at +25° C 92--92Coil current max.mA at +25°CCourant de la bobine max en mA à+25°C-100100-Temperature range /Gamme de temperature-70°C à+125°C Dielectric strength at sea level all points /Rigiditédiélectrique au niveau de la mer-All circuits to ground and circuit to circuit /Tous les poles par rapport àla masse et entre poles 2000Vrms /50Hz-Coil to ground /Entre bobine et masse1000Vrms /50Hz Dielectric strength at altitude 25.000m (all points)Rigiditédiélectrique à25000m (tous points)700Vrms /50Hz(350Vrms gasket compressed)Insulation resistance /Résistance d’isolement 100 M Ω min Sinusoidal vibration /Vibrations sinusoïdales (36-500Hz)20G (500-1,000Hz)15G (1,000-2,000Hz)10G Mechanical shock /Chocs mécaniques50G /11ms Maximum contact opening time under vibration and shockDurée maximum d’ouverture des contacts sous l’influence des vibrations et chocs 10µsec Operate time at nominal voltage /Temps d’enclenchement sous tension nominale 25ms max Release time at nominal voltage /Temps de déclenchement sous tension nominale -DC 20ms max -AC50ms max Contact make bounce at nominal voltage /Rebonds contacts sous tension nominale -N.C.Contacts 5ms max -N.O.Contacts3ms maxMOUNTING STYLES TYPES DEFIXATIONSDimensions in inchTolerances,unless otherwise specified,±0.1inchSCHEMATIC DIAGRAMSCHEMASNUMBERING SYSTEMSYSTEME DE REFERENCESNOTESREMARQUES1.Isolation spacer pads for PCB mounting available on request.Possibilitéde cales isolantes pour montage PCB.2.For other mounting styles or terminal types,please contact the factoryAutres fixations ou sorties sont disponibles:nous consulter.3.Qualification and quality levels:Contact the factoryNiveaux de qualification et de qualité:Nous consulter.4.Coil time constant L/R:11msConstante de temps L/R des bobines:11ms5.Relay will not be damaged by applying reverse voltage to the coil although the relay may transfer.Le relais n'est pas endommagépar l'application de la tension inverse sur la bobine.Toutefois le relais peut changer d'état.6.Mounting holes"A"to be used when replacing AN3311.Trous de montage«A»compatible avec AN331.7.P/N9330-10374has back EMF coil suppression to42Vdc.La référence9330-10374a une tension d'écrêtage de-42V maximum.TERMINAL MOUNTING28VDCSUPPRESSED28VDC115VAC,400HZ115VAC,60HZ Solder terminalFlat&piercedStud9274-57709274-103809274-57719274-5772 Screw Bracket9274-6205MS24568-D19274-103819274-6667MS24568-A19274-55699274-10291MS24568-A2。

拉雷尔电子有限公司产品说明书

拉雷尔电子有限公司产品说明书

LAUREL ELECTRONICS, INC.4-20 mA & Serial Output Transmitter for Resistance Input in OhmsFeatures•4-20 mA, 0-20 mA, 0-10V or -10V to +10V transmitter output, 16 bits, isolated•RS232 or RS485 serial data output, Modbus or Laurel ASCII protocol, isolated•Dual 120 mA solid state relays for alarm or control, isolated•Five precalibrated resistance input ranges from 20.000 Ω to 200.00 kΩ•Fixed 2.0000 ohm, 2.0000 MΩ and 20.000 MΩ range available as a factory specia• 1 mΩ resolution on 20 Ω scale•Custom curve linearization for changing resistance transducers•2, 3 or 4-wire connection with lead resistance compensation•Analog output resolution 0.0015% of span (16 bits), accuracy ±0.02% of span•DIN rail mount housing only 22.5 mm wide, detachable screw-clamp connectors•Universal 85-264 Vac / 90-300 Vdc or 10-48 Vdc / 12-32 Vac powerDescriptionThe Laureate Resistance Transmitter is factory calibrated forfive jumper selectable resistance ranges from 20 Ω to 200 kΩ.Fixed factory-special ranges of 2.000 Ω, 2.0000 MΩ and 20.000MΩ are also available. Accuracy is an exceptional 0.01% of fullscale ± 2 counts. Resolution is one part in 20,000. In the 20 Ωrange, resolution is 1 mΩ, making the transmitter suitable forcontact resistance and conductance measurements.Transmitter connections can be via 2, 3 or 4 wires. With 4-wirehookup, 2 wires are used for excitation and two separate wiresare used to sense the voltage across the resistance to bemeasured, thereby eliminating any lead resistance effects. With3-wire hookup, the transmitter senses the combined voltage dropacross the RTD plus two excitation leads. It also senses thevoltage drop across one excitation lead, and then subtracts twicethis voltage from the combined total. This technique effectivelysubtracts the lead resistance if the excitation leads are the same.All resistance ranges are digitally calibrated at the factory, withcalibration factors stored in EEPROM on the signal conditionerboard. This allows ranges and signal conditioner boards to bechanged in the field without recalibrating the transmitter. Ifdesired, the transmitter can easily be calibrated using externalstandards plus scale and offset in software.Fast read rate at up to 50 or 60 conversions per second whileintegrating the signal over a full power line cycle is provided byConcurrent Slope (Pat 5,262,780) analog-to-digital conversion.High read rate is ideal for peak or valley capture and for real-timecomputer interface and control.Open sensor indication is standard and may be set up to indi-cate either upscale or downscale. Excitation is provided by thetransmitter.Custom curve linearization, available with the Extendedversion, makes this transmitter ideal for use with transducerswhose output is a changing resistance.Standard features of Laureate transmitters include:•4-20 mA, 0-10V or -10V to +10V analog transmitter output,isolated, jumper-selectable and user scalable. All selectionsprovide 16-bit (0.0015%) resolution of output span and 0.02%output accuracy of a reading from -99,999 to +99,999 countsthat is also transmitted digitally. Output isolation from signaland power grounds eliminates potential ground loop problems.•Serial communications output, isolated. User selectableRS232 or RS485, half or full duplex. Three protocols are userselectable: Modbus RTU, Modbus ASCII, or Laurel ASCII.Modbus operation is fully compliant with Modbus Over SerialLine Specification V1.0 (2002). The Laurel ASCII protocolallows up to 31 Laureate devices to be addressed on thesame RS485 data line. It is simpler than the Modbus protocoland is recommended when all devices are Laureates.•Dual solid state relays, isolated. Available for local alarm orcontrol. Rated 120 mA at 130 Vac or 170 Vdc.•Universal 85-264 Vac power. Low-voltage 10-48 Vdc or 12-32 Vac power is optional.Easy Transmitter programming is via Laurel's InstrumentSetup Software, which runs on a PC under MS Windows. Thissoftware can be downloaded from this website at no charge. Therequired transmitter-to-PC interface cable is available from Laurel(P/N CBL04).SpecificationsRange Resolution Accuracy Excitation Current0-2.0000 Ω 0-20.000 Ω 0-200.00 Ω 0-2000.0 Ω 0-20000 Ω 0-200.00 kΩ 0-2.0000 MΩ 0-20.000 MΩ 0.1 mΩ1 mΩ10 mΩ100 mΩ1 Ω10 Ω100 Ω1 kΩ±0.01% of range± 2 counts5 mA5 mA500 µA50 µA5 µA500 nA500 nA75 nASignal InputInput Resolution Input Accuracy Update Rate, Max 16 bits (65,536 steps)±0.01% of full scale ± 2 counts 50/sec at 50 Hz, 60/sec at 60 HzAnalog Output (standard)Output Levels Compliance at 20 mA Compliance at 10V Output Resolution Output Accuracy Output Isolation 4-20 mA, 0-20 mA, 0-10 Vdc, -10 to +10Vdc (user selectable) 10V (0-500Ω load)2 mA (5 kΩ load or higher)16 bits (65,536 steps)0.02% of output span plus conversion accuracy250V rms working, 2.3 kV rms per 1 minute testSerial Communications (standard)Signal TypesData RatesOutput Isolation Serial Protocols Modbus Modes Modbus Compliance Digital Addressing RS232 or RS485 (half or full duplex)300, 600, 1200, 2400, 4800, 9600, 19200 baud250V rms working, 2.3 kV rms per 1 min testModbus RTU, Modbus ASCII, Laurel ASCIIRTU or ASCIIModbus over Serial Line Specification V1.0 (2002)247 Modbus addresses. Up to 32 devices on an RS485 line w/o a repeater.Dual Relay Output (standard)Relay Type Load Rating Two solid state relays, SPST, normally open, Form A 120 mA at 140 Vac or 180 VdcPower InputStandard Power Low Power Option Power Frequency Power Isolation Power Consumption 85-264 Vac or 90-300 Vdc10-48 Vdc or 12-32 VacDC or 47-63 Hz250V rms working, 2.3 kV rms per 1 min test 2W typical, 3W with max excitation outputMechanicalDimensions MountingElectrical Connections 129 x 104 x 22.5 mm case35 mm rail per DIN EN 50022 Plug-in screw-clamp connectorsEnvironmentalOperating Temperature Storage Temperature Relative Humidity Cooling Required 0°C to 55°C-40°C to 85°C95% at 40°C, non-condensingMount transmitters with ventilation holes at top and bottom. Leave 6 mm (1/4") between transmitters, or force air with a fan.PinoutMechanicalQA Application with Relays in Passband ModeA deviation limit (50 mΩ in this example) is set uparound both sides of a setpoint. The relay closes (oropens) when the reading falls within the deviationband, and opens (or closes) when the reading fallsoutside of this band. This mode sets up a passbandaround the setpoint and can be used for contactresistance testing in a production environment.RTD HookupIn 4-wire hookup, different pairs of leads are used to apply the excitation current and sense the voltage drop across the unknown resistance, so that the IR drop across the excitation leads is not a factor.In 3-wire hookup, the transmitter senses the combined voltage drop across the unknown resistance plus two excitation leads. It also senses the voltage drop across one excitation lead, and then subtracts twice this voltage from the combined total. This technique effectively subtracts all lead resistance and compen-sates for ambient temperature changes if the two excitation leads are identical.In 2-wire hookup, the transmitter senses the combined voltage drop across the unknown resistance and both lead wires. The voltage drop across the lead wires can be measured by shorting out the resistance during transmitter setup, and this voltage is then automatically subtracted from the combined total. However, changing resistance of the lead wires due to ambient tempera-ture changes will not be compensated.Ordering GuideCreate a model a model number in this format: LT20R1Transmitter Type LT Laureate 4-20 mA & RS232/RS485 output transmitter Main Board 2 Standard Main BoardPower0 Isolated 85-264 Vac or 90-300 Vdc 1 Isolated 10-48 Vdc or 12-32 VacResistance RangeR0 0-20 ohms (factory special fixed range) R1 0-20 ohms R2 0-200 ohms R3 0-2 kohms R4 0-20 kohms R5 0-200 kohmsR6 0-2 Mohms (factory special fixed range) R7 0-20 Mohms (factory special fixed range)Note: The same signal conditioner board can be used for resistance and RTD temperature measurement.AccessoriesCBL04 RS232 cable, 7ft. Connects RS232 screw terminals of LT transmitter to DB9port of PC.CBL02 USB to RS232 adapter cable. Combination of CBL02 and CBL04 connectstransmitter RS232 terminals to PC USB port.。

罗兰音乐工作室AT系列商品介绍说明书

罗兰音乐工作室AT系列商品介绍说明书

AJK-001J Roland Organ Classic Vol.1
Organ great Hector Olivera created this DVD for students who wish to learn about classic organs. The lesson covers eight Bach pieces, plus information about organ registration data, pedal markings and musical notation. In the supplemental book, Hector explains about stops, how to play certain ornaments, and important background info for playing these classic works.
49+61 dual-manual keyboard of its elder sibling is
provided, including waterfall keys for the lower
manual. A total of 120 voices are onboard, plus 80
rhythms, harmonic bars, a USB port, and a 40w
Song List Composer: Johann Sebastian Bach 1. Prelude and Fugue No. 1 in C major, BWV 553 2. Prelude and Fugue No. 2 in D minor, BWV 554 3. Prelude and Fugue No. 3 in E minor, BWV 555 4. Prelude and Fugue No. 4 in F major, BWV 556 5. Prelude and Fugue No. 5 in G major, BWV 557 6. Prelude and Fugue No. 6 in G minor, BWV 558 7. Prelude and Fugue No. 7 in A minor, BWV 559 8. Prelude and Fugue No. 8 in B flat major, BWV 560

Perkins 1006-6 FED CC T6.60CC 6周期柴油发动机说明书

Perkins 1006-6 FED CC T6.60CC 6周期柴油发动机说明书

APPLICATION: Forklifts: Linde Unknown (YB50528);Sweepers: Johnston Unknown (YE70301);(10)Used When Taper Press Tooling Is Not Available (Machine Taper After Boring To Size) (11)Used With Proper Taper Press ToolingPK-365-J 5/1/2010QTY ITEM # DESCRIPTION LETTERED ITEMSINCLUDED IN KIT6 171554 Piston Assembly (Grade J-L / 2.7622" Compression Dist)6 171555 Piston Assembly (Grade F-H / 2.7677" Compression Dist)6 171367 Cylinder Liner (Flange/Finished/Fire Dam/4.1035" OD) (1)6 171366 Cylinder Liner (Flange/Semi-Finished/FD/4.1055" OD) (2)6 171468 005 Liner Shim6 171281 Ring Set (1-3.5K 1-2.5 1-4.0)6 271261 STD Rod Bearing (Locating Tangs For Notched Rods)6 271262 .010 Rod Bearing (Locating Tangs For Notched Rods)6 271263 .020 Rod Bearing (Locating Tangs For Notched Rods)6 271264 .030 Rod Bearing (Locating Tangs For Notched Rods)1 271191 STD Main Set, wo/Thrust Washers: "YE" Build Lists (3)1 271192 .010 Main Set, wo/Thrust Washers: "YE" Build Lists (3)1 271193 .020 Main Set, wo/Thrust Washers: "YE" Build Lists (3)1 271194 .030 Main Set, wo/Thrust Washers: "YE" Build Lists (3)1 271119 STD Thrust Washer Set (Offset Lug)1 271125 .007 Thrust Washer Set (Offset Lug)1 271126 .010 Thrust Washer Set (Offset Lug)1 371451 Head Gasket Set "Head Gasket - 371324"1 371219 Valve Cover Gasket (Aluminum Cover)1 371148 Valve Cover Gasket (Composite Cover)12 371143 Valve Seal1 371454 Lower Gasket Set wo/Seals: (5) (No Compressor)1 371461 Lower Gasket Set wo/Seals: (6) (Compressor Gear Case)1 371393 Timing Cover Gasket: (5) (No Compressor)1 371462 Timing Cover Gasket: (6) (Compressor Gear Case)1 371181 Pan Gasket Set (.032" Composite) "Pan Gkt Only - 371182"1 371362 Pan Gkt, Optional For Stressed Pan (.048" Perf Metal Core)1 371146 Front Crank Seal (Viton Lip Type) (7)1 371145 Rear Crank Seal, Thru U764751H (Viton Lip Type) (8)1 371297 Rear Crank Seal & Housing, After U764751H (9)6 271244 Pin Bush, Butt Split Rod (Straight / 1.563" Pin / 1.660" OD)6 271198 Pin Bush, Fractured Rod (Straight/1.563" Pin/1.698" OD) (10)6 271289 Pin Bush, Fractured Rod (Taper/1.563" Pin/1.698" OD) (11)1 271127 Cam Bearing (Finished ID)12 771368 Rod Capscrew (Doweled Flat Butt Split/1/2 x 2.766 Hex Hd) 12 771323 Rod Capscrew (Fractured Split / 7/16 x 2.580 12 Pt Head)6 771352 Connecting Rod (1.563" Pin)1 771343 Head Bolt Kit (32 Bolts)(1).010 OS Finished Liner - 171368 (2).020 OS Semi-Finished Liner - 171511(3)YB50528 Uses 271311 STD / 271312 .010 / 271313 .020 / 271314 .030 (5)YE70301 (6)YB50528 (7)Wear Sleeve - 301115(8)Lip Seal Housing Gasket - 371187 / Wear Sleeve - 301143 (9)Wear Sleeve - 371366Sweepers: Johnston Unknown (YE70301);(12)Adjusting Screw-471226 / Lock Nut - 571139(13)Rocker Arm Shaft Snap Ring - 471228PK-365-J(14)Includes 2 Bushings - 5711445/1/2010QTY ITEM # DESCRIPTION LETTERED ITEMSINCLUDED IN KIT1 979527 Camshaft Kit: "YE" Build Lists C1 979526 Camshaft Kit: YB50528 C1 979164 Valve Train Kit (High Speed / Dual Springs)V1 571242 Camshaft: YE Build Lists "M12 x 45MM Cam Bolt - 771363" C1 571183 Camshaft: YB50528 "M12 x 45MM Cam Bolt - 771363" C1 271249 Thrust Washer12 571123 Tappet C C6 6 471129 471116 Exhaust Valve (45º / 37.5MM Hd Dia) Intake Valve (45º / 45.0MM Hd Dia) V V6 471132 Exhaust Guide V6 471131 Intake Guide V12 471144 Outer Valve Spring (8 Coils / 1.8" Free Length) V12 471143 Inner Valve Spring (9 Coils / 1.7" Free Length) V12 471229 Spring Seat (Stepped/.640" ID)24 471146 Keeper (Half) V6 471288 Exhaust Seat (1.290 x 1.681 x .374 Stepped Top)6 471289 Intake Seat (45º / 1.584x2.019x.285)6 471224 LH Rocker Arm (Adj Screw & Lock Nut Not Included) (12)6 471225 RH Rocker Arm (Adj Screw & Lock Nut Not Included) (12)1 471345 Rocker Arm Shaft (13) "Includes 471176 Plugs"1 571171 Cam Gear (Steel / 56 Teeth)1 571131 Crank Gear (28 Teeth / 1.632" Wide)1 571163 Idler Gear (Steel / 63 Teeth) (14)12 571117 Push Rod1 671153 Oil Pump1 671195 Oil Pump Idler Gear "Includes Bush - 571124"1 671174 Relief Valve Assembly: YE703011 671196 Relief Valve Assembly: YB505286 671157 Piston Cooling Jet6 671158 Check Valve1 671198 Oil Cooler: Early (7 Plate/Vertical Studs)1 671173 Oil Cooler: Late (8 Plate/Angled Studs)1 771139 Crank Kit: YE Build Lists (Notched Rod / Full Groove Mains)1 771175 Crank Kit: YB50528 (Notched Rod / Half Groove Mains)1 771443 Cylinder Head Asb, 45º Intake (Includes Valves & Springs)1 771436 Expansion Plug Kit (22 Head & Block Plugs)2 871138 Thermostat (2.125" / Bypass)1 871294 Water Pump: YE703011 871163 Water Pump: YB505281 871274 Bypass Hose Kit。

微芯片(Microchip)产品说明书

微芯片(Microchip)产品说明书

Microchip offers a broad portfolio of stand-alone analog and interface solutions that address the thermal management, power management, mixed-signal, linear, interface and safety and security markets.In addition to using low power CMOS technology, Microchip’s analog products are designed to optimize performance while minimizing power consumption.Non-volatile expertise is leveraged to achieve high accuracy specifications without additional manufacturing steps and cost. Chip select/shutdown/sleep features on many of our analog and interface parts enable systems to be selectively shut down to further reduce power consumption.Low operating voltages combined with small form factors such as SC70, DFN and SOT-23 make Microchip’s analog and interface portfolio well-suited for applications with tight power budgets.Typical Applications■Battery powered/Handheld■Consumer■PC Peripherals■Telecommunication■Automotive■IndustrialDesign Tools■CAD/CAE Schematic Symbols and Footprints/cadProduct Selection Tools■Microchip’s Advanced Product Selector/MAPS■Treelink presentation/treelinkStand-Alone Analog and Interface Portfolio Low Power Analog SolutionsPower Management LDO & Switching Regulators Charge PumpDC/DC Converters Power MOSFET DriversPWM Controllers System Supervisors Voltage Detectors Voltage References Li-Ion/Li-Polymer Battery ChargersMixed-SignalA/D ConverterFamiliesDigitalPotentiometersD/A ConvertersV/F and F/VConvertersEnergyMeasurementICsInterfaceCAN PeripheralsInfraredPeripheralsLIN TransceiversSerial PeripheralsEthernet ControllersUSB Peripheral LinearOp AmpsProgrammableGainAmplifiersComparatorsSafety & SecurityPhotoelectricSmoke DetectorsIonization SmokeDetectorsIonization SmokeDetector Front EndsPiezoelectricHorn DriversThermalManagementTemperatureSensorsFan SpeedControllers/Fan FaultDetectorsMotor DriveStepper and DC3Ф BrushlessDC Fan ControllerM i c r o c h i p T e c h n o l o g y I n c o r p o r a t e dInformation subject to change. The Microchip name and logo, the Microchip logo and PIC are registered trademarks of Microchip Technology Incorporated in the U.S.A. and other countries. © 2011 MicrochipTechnology Incorporated. All Rights Reserved. Printed in the U.S.A. 5/11DS22247B *DS22247B*Visit our web site for additional product information and to locate your local sales office.Microchip Technology Inc. • 2355 W. Chandler Blvd. • Chandler, AZ 85224-6199Low Power Analog & Interface Products/analog。

SMSC产品兼容性优化指南说明书

SMSC产品兼容性优化指南说明书

REV CHANGE DESCRIPTION NAME DATE A Release9-13-12 Any assistance, services, comments, information, or suggestions provided by SMSC (including without limitation any comments to theeffect that the Company’s product designs do not require any changes) (collectively, “SMSC Feedback”) are provided solely for the purposeof assisting the Company in the Company’s attempt to optimize compatibility of the Company’s product designs with certain SMSCproducts. SMSC does not promise that such compatibility optimization will actually be achieved. Circuit diagrams utilizing SMSC productsare included as a means of illustrating typical applications; consequently, complete information sufficient for construction purposes is notnecessarily given. Although the information has been checked and is believed to be accurate, no responsibility is assumed for inaccuracies.SMSC reserves the right to make changes to specifications and product descriptions at any time without notice.DOCUMENT DESCRIPTIONRouting Checklist for the LAN8742, 24-pin QFN PackageSMSC80 Arkay DriveHauppauge, New York 11788Document Number RevisionRouting Checklist for LAN8742Information Particular for the 24-pin QFN PackageLAN8742 QFN Phy Interface:1. The traces connecting the transmit outputs (TXP, pin 21) & (TXN, pin 20) to themagnetics must be run as differential pairs. The differential impedance should be 100ohms.2. The traces connecting the receive inputs (RXP, pin 23) & (RXN, pin 22) from themagnetics must be run as differential pairs. The differential impedance should be 100ohms.3. For differential traces running from the LAN controller to the magnetics, SMSCrecommends routing these traces on the component side of the PCB with a contiguous digital ground plane on the next layer. This will minimize the use of vias and avoidimpedance mismatches by switching PCB layers.4. Refer to Figure No. 1 for differential pair routing details.5. The VDD1A/VDD2A power supply should be routed as a mini-plane and can be routedon an internal power plane layer.6. Refer to Figure No. 2 for VDD1A/VDD2A power plane details.Figure No. 1Figure No. 2LAN8742 QFN Magnetics:1. The traces connecting the transmit outputs from the magnetics to pins 1 & 2 on the RJ45connector must be run as differential pairs. Again, the differential impedance should be100 ohms.2. The traces connecting the receive inputs on the magnetics from pins 3 & 6 on the RJ45connector must be run as differential pairs. Again, the differential impedance should be100 ohms.3. For differential traces running from the magnetics to the RJ45 connector, SMSCrecommends routing these traces on the component side of the PCB with all powerplanes (including chassis ground) cleared out from under these traces. This will minimize the use of vias and minimize any unwanted noise from coupling into the differential pairs.The plane clear out boundary is usually halfway through the magnetics.RJ45 Connector:1. Try to keep all other signals out of the Ethernet front end (RJ45 through the magnetics tothe LAN chip). Any noise from other traces may couple into the Ethernet section andcause EMC problems.2. Also recommended, is the construction of a separate chassis ground that can be easilyconnected to digital ground at one point. This plane provides the lowest impedance path to earth ground.3. Refer to Figure No. 3 for Ethernet front end routing details.Figure No. 3Power Supply Connections:1. Route the (2) VDD1A and VDD2A pins of the LAN8742 QFN directly into a solid, +3.3Vpower plane (created with a ferrite bead). The pin-to-plane trace should be as short aspossible and as wide as possible.2. In addition, route the (2) VDD1A and VDD2A decoupling capacitors for the LAN8742QFN power pins as short as possible to each separate power pin. There should be ashort, direct copper connection as well as a connection to each power plane (+3.3V &digital ground plane) for each cap.3. Route the (1) VDDIO pin of the LAN8742 QFN directly into a solid, variable voltage(+1.8V to +3.3V) power plane. The pin-to-plane trace should be as short as possible and as wide as possible.4. In addition, route the (1) VDDIO decoupling capacitor for the LAN8742 power pin as shortas possible to the power pin. There should be a short, direct copper connection as wellas a connection to each power plane (power plane & digital ground plane) for the cap.Ground Connections:1. The single digital ground pin (pin 25, EDP) on the LAN8742 QFN should be connecteddirectly into a solid, contiguous, internal ground plane. The EDP pad on the componentside of the PCB should be connected to the internal digital ground plane with 4 powervias in a 2x2 grid.2. We recommend that all Ground pins be tied together to the same ground plane. We donot recommend running separate ground planes for any of our LAN products.VDDCR:1. The VDDCR pin, pin 6, must be routed with a heavy, wide trace with multiple vias to thesingle decoupling cap and the single bulk capacitor associated with it. A mini-plane isalso acceptable.Crystal Connections:1. The routing for the crystal or clock circuitry should be kept as small as possible and asshort as possible. Refer to Figure No. 4 below for details.2. A small ground flood routed under the crystal package on the component layer of PCBmay improve the emissions signature. Stitch the flood with multiple vias into the digitalground plane directly below it.3. The REF_CLK Out Mode is not part of the RMII Specification. Timing in this mode is notcompliant with the RMII specification. To ensure proper system operation, a timinganalysis of the MAC and LAN8742 must be performed. Some MACs may require a small delay (500 pS – 1.0 nS) to the RXD[1..0] & CRS_DV signals. One method to achievesuch a delay is to serpentine the signals from the Phy to the MAC.Figure No. 4Clock Oscillator Connections:1. Place the 50 MHz clock oscillator approximately half-way between the LAN8742 and theRMII MAC in the application. This should ensure relatively matched clock runs to each.2. Place any series terminations for splitting the 50 MHz clock as close as possible to theclock oscillator in the design.3. As controlled by the different component placements, the two resultant clock tracesshould be matched to within 0.10” and have an overall trace length of less than 6.0”. MAC REFCLK Connections:1. Place the series termination for the MAC supplied 50 MHz clock as close as possible tothe MAC in the design.2. As controlled by the different component placements, the resultant clock trace should beas short as possible.RBIAS Resistor:1. The RBIAS resistor (pin 24) should be routed with a short, wide trace. Any noise inducedonto this trace may cause system failures. Do not run any traces under the RBIASresistor.RMII Interface:1. The RMII interface on the LAN8742 should be constructed using 68-ohm traces.2. Similar groups of the RMII interface should be routed together on the PCB. Transmitchannel signals should be routed together and separate from Receive channel signals.3. RMII signals considered critical should be routed on the top layer next to a contiguous,digital ground plane. Slower RMII signals can be routed on the bottom layer of the PCB.4. As with any high-speed digital design, inter-space and intra-space guidelines betweenRMII signals should help to improve crosstalk and signal integrity issues.5. Refer to Figures No. 5 and No. 6 for details on RMII signal routing.Figure No. 5Figure No. 6RMII Series Terminations:1. If the designer has elected to use impedance matching terminations in his design, theseseries resistors should be placed as close as possible to the source of the driving signal.2. The RMII Series Terminations should be considered critical components. To ensure thebest signal integrity and good EMI performance, these critical components should beplaced on the component side of the PCB. This will ensure that these components will be referenced to a contiguous ground plane reference on Layer 2 of the design. This willalso minimize the use of vias in routing these signals.Required External Pull-ups:1. There are no critical routing instructions for the Required External Pull-up connections.Mode Pins:1. Since the MODE Pins are shared with the RXD[1..0] and CRS_DV signals of theLAN8742, any resistor used for termination for the power-on-reset MODE selection,should be placed on the component side of the PCB. This will minimize vias and ensure the reference plane remains constant.2. Any stub added to the RMII lines due to MODE pin terminations should be kept to aminimum.Phy Address Pins:1. Phy Address pin PHYAD0 should also be considered critical. This pin is shared with theRX_ER function of the RMII interface. Any resistor used for termination for the power-on-reset Phy Address selection, should be placed on the component side of the PCB. Thiswill minimize vias and ensure the reference plane remains constant for these threesignals.2. Any stub added to the RMII line due to PHYAD0 termination should be kept to aminimum.LED Pins:1. There are no critical routing instructions for the LED Pin connections.Interrupt Functionality:1. There are no critical routing instructions for the Interrupt connection.nPME Functionality:1. There are no critical routing instructions for the nPME connection.Miscellaneous:1. SMSC recommends utilizing at least a four-layer design for boards for the LAN8742 QFNdevice. The design engineer should be aware, however, as tighter EMC standards areapplied to his product and as faster signal rates are utilized by his design, the productdesign may benefit by utilizing up to eight layers for the PCB construction.2. As with any high-speed design, the use of series resistors and AC terminations is veryapplication dependant. Buffer impedances should be anticipated and series resistorsadded to ensure that the board impedance matches the driver. Any critical clock linesshould be evaluated for the need for AC terminations. Prototype validation will confirmthe optimum value for any series and/or AC terminations.3. Bulk capacitors for each power plane should be routed immediately into power planeswith traces as short as possible and as wide as possible.4. Following these guidelines and other general design rules in PCB construction shouldensure a clean operating system.5. Trace impedance depends upon many variables (PCB construction, trace width, tracespacing, etc.). The electrical engineer needs to work with the PCB designer to determine all these variables.。

Cherry Aerospace TS-H753A-280NP Rivetless Nut Plat

Cherry Aerospace TS-H753A-280NP Rivetless Nut Plat

Figure 1 DIMENSIONAL DATA(see figure, all measurements in Inches)∙ Tool weight (without riveter): 1.20 Lbs (0.540 Kg).CHOICE OF RIVETERS∙ G747, G704B Cherry® Riveters ∙ G800 Cherry® Hand Riveter MOUNTING INSTRUCTIONS∙ Attach riveter to air source for correct piston positioning; for hand powered riveters (G800), make sure that the pressure has been released and that the correct adaptors are used.∙ Push the collet bolt assembly forward (see Figure 1) before mounting.∙ While holding collet bolt in a forward position, engage 1 or 2 threads of drawbolt (18) onto riveter head piston before threading adapter fitting (19) into end of riveter head cylinder; turn clockwise until snug.∙ Rotate pulling head to desired position and tighten jam nut (20) to secure pulling headorientation.∙ Cycle the tool to make sure it is functional.USAGE∙ The H753A-280NP pulling head can be used for installing Cherry Rivetless Nutplates for alluminum applications in hole diameter .280-.284”BEFORE USE, MAKE SURE THAT: ∙ Proper air source is connected.∙ The sleeve and pilot are in proper working condition; any sign of damage is an indication thatcomponents need to be replaced. No installations should be made if tooling is worn or damaged.DURING OPERATION∙ Inspect the active area of the sleeve and pilot regularly.∙ Keep the tool clean, especially the pilot, sleeve and jaws; pay special attention when sealants are used. ∙ If stem slippage occurs, the jaws need to be either cleaned or replaced.PREVENTATIVE MAINTENANCE∙ Clean the sleeve, pilot, jaw set and collet every 1,000 installations or when failures occurs; use a wire brush to clean the copper deposited inside the jaw set.∙ Lubricate outside of the jaw set with Lubriplate® or similar light lubricant.1 2345678 910 1111 1213141415151617181920PARTS LISTGENERAL / TECHNICAL QUESTIONS1224 E. Warner Avenue Santa Ana, CA 92705 USA 1-714-850-6022 (Phone) 1-714-850-6093 (Fax)LOCTITE ® is a registered trademark of Henkel Corporation.LUBRIPLATE® is a registered trademark of Fiske Brothers Refining Co.18975-021DRAWBOLT 117753A11GUIDE PIN 116753B6BELL CRANK 115753A9LINK PIN 414P-954LINK813753A10PIVOT PIN 212753A16GUARD 111P-930SET SCREW210P-413BUTTON HEAD SCREW19753B5LEVER 18975-018COLLET BOLT 17975-019FRAME 16P-1319SPRING 15975-017JAW FOLLOWER 14975-014JAW SET 13753A13A COLLET 12975-026PILOT INSERT 11975-025SLEEVE 1ITEMNo.PART NUMBER DESCRIPTIONQTY. PERWARRANTYSeller warrants the goods conform to applicable specifications and drawings and will be manufactured and inspected according to generally accepted practices of companies manufacturing industrial or aerospace fasteners. In the event of any breach of the foregoing warranty, Buyer’s sole remedy shall be to return defective goods (after receiving authorization from Seller) for replacement or refund of the purchase price, at the Seller’s option. Seller agrees to any freight costs in connection with the return of any defective goods, but any costs relating to removal of the defective or nonconforming goods or installation of replacement goods shall be Buyer’s responsibility. SELLER’S WARRANTY DOES NOT APPLY WHEN ANY PHYSICAL OR CHEMICAL CHANGE IN THE FORM OF THE PRODUCT IS MADE BY BUYER. THEWHEN RE-ASSEMBLING:- Lubricate outside of pilot insert with o-ring lubricant or eqiovalent.- Oil or grease heavily all sliding surfaces with Lubriplate® or equivalent.- Use Loctite® 242 (removable) on sleeve and collet threads.。

SO串码十月份

SO串码十月份

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USER GUIDE EE872 – Modular CO2 Probe说明书

USER GUIDE EE872 – Modular CO2 Probe说明书

USER GUIDEEE872 – Modular CO 2 ProbeSCOPE OF SUPPLY» EE872 probe according ordering guide» Test report according to DIN EN10204 - 2.2CAUTION» The EE872, and most of all the sensing module and the filter cap shall not be exposed to extreme mechanical or thermal stress. » The device must be operated with properly mounted filter cap at all times.» The EE872 is not appropriate for safety, emergency stop or other critical applications where device malfunction or failure could cause injury to humans and other living beings.CONNECTION DIAGRAMfront view device plug24513V+-Voltage outputCurrent output GND analogue output Power supply 10 - 35 V DCGNDfront view12345Pin numberFunctionWire colors for accessories:- Couplig flange HA010705- Connection cable HA010819/820/8211supply voltage brown 2B RS485 (D-) or voltage outputwhite 3GNDblue 4 A RS485 (D+) or current output black 5configuration pingraySELECTION BETWEEN ANALOGUE OUTPUT AND RS485 INTERFACEConfiguration pin connected to GND: EE872 features analogue outputs independently of its original setup.Configuration pin not connected:» EE872 set to RS485 interface (option P1 in the order code) features RS485 interface.» EE872 set to analogue outputs (option GA7 or GA11 in the order code): the RS485 interface is active for the first 10 seconds after power on, and awaits connection with the EE-PCS Product Communication Software. This allows for setup changes or adjustment of the EE872. If the connection to EE-PCS is not established during 10 seconds, the device changes automatically to analogue output.DIMENSIONS136 mm (5.35")M12x165 mm (2.56")Ø 25 m m(0.98")61 mm (2.4")Best measurement performance is achieved when the entire probe is located inside the environment to be monitored.In such a case, the EE872 may be for instance fixed onto a wall with the mounting clip HA010227 (not included in the scope of supply, see data sheet “Accessories”), or freely hang from the ceiling onto the connection cable.The probe can be installed also into a partition wall using the stainless steel mounting flange HA010226 (not included in the scope of supply, see data sheet “Accessories”).For large temperature (T) difference between the two sides of the wall, T gradients may appear along the probe. Although the CO2 measurement is T compensated, large T gradients may still impact on the accuracy.For minimizing this effect place thermal isolation material around the probe looking out of the wall (on the connector side).EE872 with mounting flange HA010226EE872 with mounting clip HA010227ID address, baud rate, parity and stop bits can be set via:1. EE-PCS, Product Configuration Software and the appropriate configuration cable.2. Modbus protocol in the register 60001 (0x00) and 60002 (0x01).See Application Note Modbus AN0103 (available on /EE872)The EE872 factory setting for the slave-ID (Modbus address) is 237 as an integer 16 bit value.The measured values are saved as a 32 bit float value.The serial number as ASCII-code is located at read register address 30001-30008 (16 bit per address).The firmware version is located at register address 30009 (bit 15...8 = major release; bit 7...0 = minor release).1) Register number starts from 1 2) Register address starts from 0 3) For Modbus protocol setting please see Application Note Modbus AN0103 at Modbus RTU ExampleExample of MODBUS RTU command for reading the CO 2 (float value) CO 2 = 1288,34375 ppm from the register 0x424:Device EE872; slave ID 237 [ED in HEX]Decoding of float values:See also Application Note AN0103 at /EE872.SETUP AND ADJUSTMENTThe EE872 is ready to use and does not require any configuration by the user. The factory setup of EE872 corresponds to the type number ordered. For ordering guide please see data sheet at /EE872. If needed, the user can change the factory setup by using the USB configuration adapter (order code HA011018) and the EE-PCS, Product Configuration Software.One can change the CO 2 output signal (analogue to digital and vice versa), the scaling of the analogue outputs, the digital settings and perform CO 2 adjustment.In addition, is it possible to enable or disable the pressure compensation (factory setting: enabled), the NAMUR error indication (factory setting: disabled) and the heating of sensing module (factory setting: enabled).EE-PCS PRODUCT CONFIGURATION SOFTWARE1. Download the EE-PCS Product Configuration Software from /configurator and install it on the PC.2. Connect the E+E device to the PC using the appropriate configuration cable.3. Start the EE-PCS software.4. Follow the instructions on the EE-PCS opening page for scanning the ports and identifying the connected device.5. Click on the desired setup or adjustment mode from the main EE-PCS menu on the left and follow the online instructions of the EE-PCS.ERROR INDICATION ON THE ANALOGUE OUTPUT (NAMUR)The EE872 features an error indication on the analogue output according toNAMUR r ecommendations (factory settings: disabled).The feature can be enabled with the EE-PCS Product Configuration Software, see above.REPLACING THE SENSING MODULE EE872S2Very important: The sensing module EE872S must feature same CO 2 measuring range as the original EE872 probe! If the measuring range of the replacement module and of the original EE872 probe are different, the analogue output will stay at 4 mA, 0 V or NAMUR error indication while the CO 2 reading via RS485 interface will be 0 ppm.Procedure: » Power off the EE872.» Remove the filter cap by turning it counter-clockwise. » Remove the sensing module by pulling it straight out from the output unit.» Plug the new EE872S sensing module into the output unit.» Screw the filter cab fingertight onto the probe.CHANGING THE FILTER CAPIn a dusty, polluted environment it might be necessary to replace the filter cap once in a while. In most of the cases, a clogged filter shows visible contamination or dirt. Longer response time of the CO 2 measurement also indicates a clogged filter cap. In such cases, replace the filter by a new, original one, see data sheet “Accessories”:Order codes: » PTFE filter cap HA010123» Catalytic filter cap for H 2O 2 sterilization HA010124Procedure:» Turn the filter cap counter-clockwise for removing it.» Install the new filter cap fingertight by turning it clockwise.EE872 ADJUSTMENT OR CALIBRATION WITH REFERENCE CO 2 GASDefinitions:Adjustment: the specimen is brought in line with the reference.Calibration: the specimen is compared with a reference and its deviation from the reference is documented.For EE872 calibration or adjustment with reference CO 2 gas use the calibration adapter HA010785 (not included in the scope of supply, see data sheet “Accessories”).Procedure:» Remove the filter cap and install the calibration adapter onto the probe.» Connect the calibration gas to one of the two connection nipples. The gas fed into the calibration adapter will freely flow out through the second nipple.Note:The calibration adapter can also be used as a protection cap , for instance during cleaning operations. For this, close both nipples with the supplied rubber caps.output unitsensing modulefilter capcalibration adapter / protection capHA010785rubber caps0...10 000 ppm: < ± (100 ppm + 5 % mv)0...3 %:< ± (1.5 % from full scale + 2 % mv)0...5 %: Response time t 631) 90 sT dependency, typ. ± (1 + CO 2 concentration [ppm] / 1 000) ppm/°C, for CO 2 <10 000 ppm (-20...45 °C) (-4...113 °F)-0.3 % mv / °C, for CO 2 > 10 000 ppm Residual pressure dependency 2) 0.014 % mv / mbar (ref. to 1013 mbar)(-20...45 °C) (-4...113 °F)Measurement interval15 s (user adjustable from 15 s to 1 h)Long term stability, typ. at 0 ppm CO 220 ppm / yearOutputsAnalogue 0 - 5 V / 0 - 10 V -1 mA < I L < 1 mA0 - 20 mA / 4 - 20 mA (3-wire) R L ≤ 500 Ohm R L = load resistance Digital interface RS485, max. 32 unit load devices on one bus (EE872 = 1/10 unit load) ProtocolModbus RTUGeneralSupply voltage 15 - 35 V DC for current output12 - 30 V DC for voltage output and RS485 interface Average current consumption at 12 V DC 45 mA for 20 mA output currentand 15 s measurement inverval 25 mA for voltage output and RS485 interface Peak currentmax. 200 mAEnclosure material plastic (PET), UL94HB approved orstainless steel 1.4404Filter cap material PTFE, UL94V-0 approved Protection classIP65(Industrial enviroment) EN61326-2-3Operating and -40...60 °C (-40...140 °F)storage conditions700...1100 mbar (10.15...15.95 psi)0...100 % RH (operation, with enabled heating)0...95 % RH non condensing (storage)1) With data averaging algorithm for smooth output signal. Faster response time available upon request.2) The pressure dependency of a device without pressure compansation: 0.14 % mv / mbar.INFORMATION+4372356050/***************Langwiesen 7 • A-4209 EngerwitzdorfTel: +43 7235 605-0 • Fax: +43 7235 605-8***************•LG Linz Fn 165761 t • UID-Nr. ATU44043101 Place of Jurisdiction: A-4020 Linz • DVR0962759USAFCC notice:This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the installation manual, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:- Reorient or relocate the receiving antenna.- Increase the separation between the equipment and receiver.- Connect the equipment into an outlet on a circuit different from that to which thereceiver is connected.- Consult the dealer or an experienced radio/TV technician for help.CANADIANICES-003 Issue 5:CAN ICES-3 B / NMB-3 B。

上海华普汽车配件编码

上海华普汽车配件编码

商品名称原厂编码厂商车型备注操作产品车身总成(71...1.01E+08上海华普海迅/海域/海尚/海炫暂无暂无右车门内大扶手...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无左风道 2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无组合仪表罩2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无仪表护罩SX...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无左内拉手(黑色...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无左内拉手护罩 ...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无左内拉手护罩 ...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无右内拉手护罩 ...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无右内拉手护罩 ...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无右前门开启外手...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无左后门开启外手...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无左中柱上内护板...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无右中柱上内护板...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无左中柱下内护板...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无顶灯控制面板总...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无左扬声器护罩 ...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无左扬声器护罩 ...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无右扬声器护罩 ...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无橡胶挡水板2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无右后视镜总成(...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无剪式千斤顶QL...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无锁止叉 2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无左后视镜操纵支...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无碳罐 2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无加油口盖护板2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无左出风口SX...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无双联出风口 桃...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无行李箱右通风罩...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无左前围侧护板2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无衣帽挂钩 2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无备胎挂钩 2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无油箱盖 2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无进风口面罩2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无左槽架 2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无右槽架 2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无油门踏板铰座总...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无塑料管子护板2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无注油管总成2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无组合开关支架2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无行李厢右内护板...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无行李厢左内护板...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无左前门角撑内护...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无除霜管道 2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无分配器 2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无成2.02E+08上海华普域/海尚/海炫暂无暂无后门外角撑(左...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无压缩机总成(S...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无压缩机总成(Y...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无右大扶手按钮支...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无里程表传感器2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无右车门内大扶手...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无左风窗支柱内护...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无后围护板(黑...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无后围护板(奶...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无右大扶手堵盖(...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无左防撞装饰条(...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无右防撞装饰条(...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无左大扶手奶咖...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无仪表板泡沫密封...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无成 灰...2.02E+08上海华普域/海尚/海炫暂无暂无仪表台总成 黑...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无助力油壶支架2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无车身铭牌(新4...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无前保险杠(玻璃...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无后保险杠(玻璃...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无三角警告牌2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无MAPLE标识2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无中央控制盒总成2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无手制动操纵杆(...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无轮胎螺母套筒扳...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无转向盘总成(桃...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无左外后视镜毛坯...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无右外后视镜喷漆...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无左外后视镜镜片2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无左后尾灯线路...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无大橡胶支座2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无右前制动硬管2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无前上制动硬管2...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无左后制动硬管 ...2.02E+08上海华普海迅/海域/海尚/海炫暂无暂无。

LA5667PDF资料下载_LA5667DATASHEET文档

LA5667PDF资料下载_LA5667DATASHEET文档

MOX-5-122004J - MOX-5-122005F - MOX-5-122006F - MOX-5-122506F - MOX5-12-2506F - MOX5-12-250MEGO -MOX5-123.49MEG1 - MOX-5-123004J - MOX512349MEG1 - MOX5-12349MEG1 - MOX-5-124003J - MOX-5-124005J - MOX-5-124006J - MOX-5-124006P - MOX-5-125005K - MOX-5-125006J - MOX-5-125605J - MOX-5-126004J - MOX-5-126604F - MOX-5-126904F - MOX-5-127604F - MOX-5-128504J - MOX513 - MOX-5-1310 - MOX-5-131003F - MOX-5-131004F - MOX5-13-100-5 - MOX-5-131005F - MOX-5-131007F - MOX-5-131007G - MOX5-131007G - MOX5131007J - MOX-5-131007J - MOX5-13-1007J - MOX-5-131007K -MOX-5-131008F - MOX-5-131009F - MOX5-13-100MEG-5 - MOX5-13-10MEG-5 - MOX-5-131506F - MOX-5-131507J -MOX-5-132003F - MOX-5-132006F - MOX-5-132006J - MOX-5-132006K - MOX-5-133003K - MOX-5-133006F - MOX-5-133205F - MOX-5-133205F1 - MOX-5-133205G - MOX-5-134003J - MOX-5-134005F - MOX-5-13-4005F - MOX-5-134005J - MOX-5-134006F - MOX-5-13-40MEG-1P - MOX5-13-40MEG-1PC - MOX-5-13-40MEG-1PCT - MOX5-13-40MEG-1PCT - MOX-5-135003F -MOX5136504J - MOX-5-136504J - MOX-5-136504J1 - MOX5136MEG1 - MOX-5-13-6MEG-1 - MOX-5-137503J - MOX5-153J -MOX5183J - MOX5-183J - MOX5-1R0J - MOX5202J - MOX5-202J - MOX5-221J - MOX5-223J - MOX5297F - MOX5-297F - MOX52R2J - MOX5-2R2J - MOX5-3-5 - MOX5-6.6MEG-1PCT - MOX-5-622005F - MOX-5-625004K - MOX-5-625004KE - MOX5821J - MOX5-821J - MOX-5-931008J1 - MOX5R15J - MOX5-R15J - MOX5-R200J - MOX5RD - MOX-5RD - MOX68EM05F32 - MOX68EM05JB4 -MOX68EM05JP7 - MOX68EM08BD48 - MOX68EML05SB7 - MOX68EML08GP32 - MOX68EML08SR12 - MOX68PA08XL36BFU -MOX-5-122003FIC供应:859-302、2N3415D26、NAS43DD3-77N、50398SMC50398、SPX2810AR25T、859303、2N3415D26Z、NAS43DD378、50399、SPX2810AR-2-5T、859-303、2N3415-D26Z、NAS43DD3-78、503990-1、SPX2810AR-2-5-T、85930-3、2N3415D26Z0、NAS43DD378FC、503990-2、SPX2810AR-25TR、859304、2N3415D26Z2N3415、NAS43DD3-78FC、503991、SPX2810AR-2-5TR 。

连接器类产品海关商品编码归类整理

连接器类产品海关商品编码归类整理
海关商品编码
商品名称 粘合剂(环氧树脂100% 粘接光纤连接器尖端) 塑料板(装配连接器用矩形100%聚酯1.5X1非泡沫) 塑胶盒(连接器用/空盒) 锁紧弹簧(车身游丝连接器用)(钢铁制片簧) 锁紧弹簧(车身游丝连接器用,钢铁制片簧) 螺母(型号A/光纤连接器用/铜制) 铜螺丝(黄铜制连接器用)(规格:外径1.8mm长2.9mm) 汽轮机零件(弯头,连接器)(SPARE FOR GENERATOR) 锅炉连接器(STEEL GROUP) 连接器室/轻卡用压燃压式活塞内燃柴油发动机专用(无型号,96KW 3600转/分 用来容纳并保护传感器端部零件) 泵管连接器(液体泵配件)(无型号) 叉车用夹子(3EB-50-51950,夹紧空气滤清器和连接器的连接,防止漏 气) 挖掘机快速连接器(DNL10P) 挖掘机动臂润滑管路的连接器,品牌CATERPILLAR(COUPLING-PER 146-3404) 挖掘机动臂润滑管路用连接器,品牌CATERPILLAR(COUPLING 1242059) 打印机零件(连接器) 叉车用连接器(3EB-02-52230,连接空气滤清器和消音器,塑料制) 齿形连接器/9110 011141(工业杜克普牌缝纫机用) 连接器(税号8462至8463所列机器用) 三立连接器(气焊机零件)(3#) 电线切断连接器(71141260ATS) 转换连接器/用于高速冲床(M657810000) 连接器(计数器用零件) 打印器连接器(计数器用零件) 扫描器配件:连接器(信号接收及转(接用)PSION TEKLOGIX牌 WA3004) 拉链安装机用连接器/钢铁制(AAM5NCX2-CP-2200/*FT) 绕线机上连接模块用连接器(LINK ADAPTER) 注塑模具(注塑连接器基座用)(300*350*250 HSLO-7202V707) 联轴器/电机与泵之间的连接器(品牌:COLOSSUS型号:DG6) 半导体设备零件/驱动连接器(型号15-11628) 连接器/手机充电器用(MQ198-10) 连接器/组装手机外壳用(ASS'Y) 连接器(手机按键主板上用)(24-5602-016-000-829) 连接器盖A装配件(手机充电器插头用) 连接器壳体/东风日产车灯部件(TSE5-070103A/东风日产X11C) 连接器(塑料制不具导电功能)(X518) 电池连接器(2003-03-202) 手机用排线连接器 PN-315(WAKO/AXT360164 SO60PIN 0.4) 贴片连接器(钢铁制,翻盖手机连接枢纽) 马达固定台(连接器熔接机配件)(S013004TB) 软质线路连接器/手机零件(1F35型) 移动电话专用连接器(耐压125V/500951E型)

福特充电站Pro安装指南 R817945 R07 NLNL38-10C823-AA说明书

福特充电站Pro安装指南 R817945 R07 NLNL38-10C823-AA说明书

R817945 R07 Ford Charge Station Pro Installation Guide80 AMP WALLBOXElectric Vehicle Charging StationFord Customer Support Wi-Fi PasswordIn the US: Call 1 (800) 392-3673 In Canada: Call 1 (800) 565-3673Ford Station Pro DimensionsImportant Safety Instructionsa)SAVE THESE INSTRUCTIONS- This manual contains important instructions for modelNL38-10C823-AA that shall be followed during installation, operation and maintenanceb)Wiring informationc)of this equipment, the following safety symbols appear throughout this document to indicate dangerous conditions and important safety instructionsIndicates the connection point for a ground conductord)The maximum rated ambient temperature of this device is 113°F (45°C)e)Use 3 AWG, 90°C copper wire only for AC connections (A/L1 and B/L2[N])f)Use 16 AWG, 600v copper wire for 2 position connector (Dark Start).g)CAUTION to reduce risk of fire, connect only to a circuit with 100 amperes maximumbranch circuit overcurrent protection in accordance with the National Electric Code,ANSI/NFPA 70.h)GROUNDING INSTRUCTIONS- This unit is to be connected to a grounded, metal,permanent wiring system; or an equipment-grounding conductor is to be run withcircuit conductors and connected to an equipment-grounding terminal.i)This equipment should be installed at least 18 inches above floor or ground level.j)To maintain Type 4 enclosure rating, use Listed conduit fitting rated Type 4 or 4X.Table of ContentsFord Customer Support (1)Wi-Fi Password (1)Ford Station Pro Dimensions (2)Important Safety Instructions (3)Table of Contents (4)Installation Method Checklist (5)Supplied Equipment (6)Equipment List –What’s Needed (6)Open Charger – Prepare the Charger for Mounting (7)Mount Bracket (8)Mount Charger Base to Wall Bracket (9)HVDC Wiring – Left Entry (10)HVDC Wiring – Right Entry (11)Standard Wiring – Residential Installation – Rear Entry (12)Alternate Wiring – Residential Installation – Left Entry (13)Alternate Wiring – Residential Installation – Right Entry (14)Set Maximum Current Switch (15)Close the Charger (16)Operating Instructions (17)LED Status (18)Maintenance (18)General exterior maintenance (18)Appendix A – Conduit Drilling Template (Compatible with suggested gland/conduit configurations) (19)Installation Method ChecklistSupplied EquipmentEquipment List – W hat’s NeededOpen Charger – Prepare the Charger for MountingGang Box right side stud mount (Standard Method)Mount Charger Base to Wall BracketMount ChargerInverter Communications Connection A8 RS-485 COM B AMax. Current Setting SwitchDC Right WiringInverter Communications Connection A8 RS-485 COM A BRouting Communication Wiring using (3) Hooks In Base EnclosureDark Start Connection P9 Back Up Pwr In13 AWG- 90°C 600v Copperwire should be usedNOTE: Wiretemperature rating of 90° Cor higherAC Rear WiringAC Rear EntryGround AWG #6Torque - 35 In/Lbs (4 Nm)A(L1) & B(L2[N]) AWG #3Torque - 60 In/Lbs (6.8 Nm)AC Left WiringAC Left EntryGround AWG #6Torque - 35 In/Lbs (4 Nm)A(L1) & B(L2[N]) AWG #3 Torque - 60 In/Lbs (6.8 Nm)Ground AWG #6Torque - 35 In/Lbs (4 Nm)AC Right Entry AC Right WiringA(L1) & B(L2[N]) AWG #3Set Maximum Current SwitchMaximum Current Setting SwitchClose the ChargerOperating InstructionsSafety Instructions During the Charging Process•Do not kink or squeeze the charging cable. Do not draw the charging cable over sharp edges or hot surfaces •Do not use the charging station if damage or tampering is visible. If damage is visible, Inform the operator. Until damage is repaired, keep away from the charging station and do not attempt to charge an EV.•Grip the power plug/connector to disconnect from the charging unit. Do not remove the connector by pulling on the cable.•Never touch the power plug/connector with wet hands.•Do not connect or disconnect any cables during a thunderstorm.•The Charge Station is equipped with an auto-reset feature. – If this Charge Station is connected to a vehicle at the time that power is restored following an outage, charging may resume automatically. – If this Charge Station is connected to a vehicle and a ground fault trip occurs, charging may resume automatically after a delay period.Risk of Overheating and FireUnauthorized accessories should not be used with this device due to risk of fire and/or overheating.•DO NOT use a charging cable that is not approved for the vehicle.•DO NOT use an extension to connect the charging station to the vehicle•DO NOT use an adapter or adapter cable.Basic Charging Procedure•Using the charger connector, gently insert the connector into the EV. Be sure not to force the connection or bend any pins in the connector.•Observe blue LED on the front of the deviceo Dim blue- Device not connected/Standbyo Bright blue- Device ready to deliver energyo Pulsing blue- Device delivering energy to the vehicleIntelligent Backup Power•For operating instructions regarding this feature, please refer to your vehicle manualMaintenanceWhile there is no maintenance for the internal works of the unit, the exterior does require some basic, common sense maintenance. The following maintenance can be performed by the owner/user. All other service must be conducted by qualified personnel. If there is any damage to the charger, contact Ford. General exterior maintenance is recommended to be performed every six months depending on the environment. In harsh environments, maintenance should be performed more often.General exterior maintenanceRegular cleaning is recommended to avoid accumulation of debris/dust/dirt on or around the unit. Wipe surfaces with a soft cloth dampened with water, or for harder to removed marks, use an alcohol based cleaner. Do not spray with high-pressure cleaning devices or use abrasive chemicals. Check for cuts, cracks, damage, and debris. If debris is present, remove it. If you find damage, contact Ford. Check for damage and corrosion. If present, contact Ford. Check the HMI for damage/signs of faded color that is clearly visible. Ensure there is no debris or damage inside or around the cable, cable holder and connector/plug. If present, remove debris and/or notify the Ford of any damage. Check the connector/plug pins for any signs of corrosion and contact Ford, if there is any damage to the pins. Check for Snow/Ice buildup around the unit and clear the area around the unit. This should be checked daily in areas with high snowfall.Appendix A – Conduit Drilling Template (Compatible with suggested gland/conduit configurations)Ford Charge Station Pro – Technical dataLegal ManufacturerSiemens Industry, Inc.3617 Parkway LnPeachtree Corners, GA 30092United States of AmericaTelephone: +1 (800) 333-7421***********************© 01.2022, Siemens Industry, Inc.This document contains a general description of available technical options only, and its effectiveness will be subject to specific variables including field conditions and project parameters. Siemens does not make representations, warranties, or assurances as to the accuracy or completeness of the content contained herein. Siemens reserves the right to modify the technology and product specifications in its sole discretion without advance notice.Ensure the Charge Station Prohas been installed by a qualified electrician. Launch the Charge Station Pro Setup app, select “New Station Setup” anduntil completing by clicking on “Open FordPass”.Locate the sticker with your StationID and password on the front of theUser Manual or on a sticker under theface plate.After FordPass automatically opensfollow the instructions to completesetup.Plug in and enjoy exploring your station’s capabilities.• Intelligent Backup Power allows you to provide power to your home from your vehicle battery during power outages. In addition to this Ford Charge Station Pro a Home Integration System is required to operate Intelligent Backup Power. To learn more about Intelligent Backup Power visit /connected.• Ford Charge Station Pro requires Wi-Fi connection to enable smart features in FordPass.。

土耳其电线线缆客户列表

土耳其电线线缆客户列表

Company Name 2M KABLO PAZ.VE DIS.TIC.LTD. S TI.Address Sanayi Mahallesi 1678 Sk. No:3 ESENYURTCity İSTANBULTel (+90 212) 6727314Fax (+90 212) 6727312e-mail ***************,****************Web Brand Names 2M KABLOCertificates ISO 9001,CE,TSE,VDE,GOSTCompany Name AKBAS KABLO SANAYI VE TIC.ITH. IHR.LTD.STI. Address Perpa Ticaret Merkezi A Blok 8.Kat No:929 ŞişliCity İSTANBULTel (+90 212) 6135402Fax (+90 212) 3202255e-mail *******************Web Brand Names AKBAŞ,NURHANCertificates İSO 9001:2008Company Name ALKAN KABLO VE ELEKTRO.SAN.VE TIC.LTD.STI. Address Çiftlik Cad. No:7 B.Bakkalköy MaltepeCity İSTANBULTel (+90 216) 5612819Fax (+90 216) 5615575e-mail *********************Web Brand Names PHILIPS-OSRAM-GENERAL ELECTRIC-SIEMENS-VIKO Insulated wire, cableHS Code 8544Updated at 23th November 2011Company Name ALUÇRA KABLO SAN.VE TİC.LTD. ŞTİ.Address Isıso Sanayi Sit. 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No:140 41420 ÇayırovaCity KOCAELİTel (+90 262) 7436060Fax (+90 262) 7442918e-mail **************Web Brand Names DETA ELOKTRO TEKNİKCertificates TSE, RD, HAR, ASTA, İRAMCompany Name DEMAS KABLO SANAYI VE TICARET A.S.Address Boya Vernik Organize Sanayi Bölgesi Tem Kuzey Yanyol BatıCaddesi No:12 TuzlaCity İSTANBULTel (+90 216) 5930770Fax (+90 216) 5930771e-mail ********************.trWeb .trBrand Names DEMKA, DEMAŞKABLO, HİTİTCertificates TSE,TSEN,İSOInsulated wire, cableHS Code 8544Updated at 23th November 2011Company Name DENİZLİKABLO SAN.VE TIC.LTD. STI.City DENİZLİTel (+90 258) 2692666Fax (+90 258) 2691893e-mail ************************Web Brand Names DENİZLİKABLOCompany Name DORTLER KABLO SANAYI TICARET LTD.STI. City TOKATTel (+90 356) 2752703Fax (+90 356) 2756729e-mail **********************.trWeb .trBrand Names DÖRTLER KABLOCertificates TSE,ISO,GOST,CECompany Name ECS-ELEKTRİK ENJEKSİYON VE KABLO SİST.SAN.TİC.A.Ş. Address NOSAB 206. 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BirtaşSan. Sit. No:61/77 Maltepe/TopkapıCity İSTANBULTel (+90 212) 5777235Fax (+90 212) 6124237e-mail *********************Web Brand Names GMSCertificates TSE, ISO, VDE, TSHInsulated wire, cableHS Code 8544Updated at 23th November 2011Company Name HAS ÇELİK VE HALAT SAN.TİC.A.ŞAddress Erciyes mah Hes caddesi No :11 HacılarCity KAYSERİTel (+90 352) 4421640Fax (+90 352) 4421644e-mail *******************************************.trWeb .trBrand Names HASÇELİK, HAS-ALCertificates TSE, ISO, CECompany Name HASTEL KABLO ELEK.INS.MAK. IM.TAAH.TIC.VE SAN.LTD.STI.Address Emekyemez mahallesi Okçu Musa Cad. GüneşHan No: 24 Kat: 5 BeyoğluCity İSTANBULTel (+90 212) 2386823Fax (+90 212) 2386902e-mail ********************Web Brand Names HASTEL KABLOCertificates TSE, ISO, VDE, GOST, CECompany Name HEDEF KABLO ELEKTRIK PL.TIC.VE SAN.A.S. 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No:66-68 Kat:4 Sishane 80020City İSTANBULTel (+90 212) 2359152Fax (+90 212) 2533793e-mail ***************Web Brand Names MAKSAN KABLOInsulated wire, cableHS Code 8544Updated at 23th November 2011Company Name MASS KABLO YATIRIM VE TIC.A.S. Address Barbaros BulvarıNo:59 Preveze Han 34353 BeşiktaşCity İSTANBULTel (+90 212) 2615163Fax (+90 212) 2581656e-mail ******************.trWeb .trBrand Names MASS,DEMİRERCertificates ISO 14001,ISO 18001Company Name MEKSAN KABLO SAN.VE TIC. LTD.STI. Address Alipaşa Mah.Sanayi 36.Sok.No:2 SilivriCity İSTANBULTel (+90 212) 7361300Fax (+90 212) 7361333e-mail ********************Web Brand Names MEKSANCertificates TS-EN-ISO 9001:2000Company Name MURAT TICARET KABLO SANAYİAŞ.Address İnegöl Organize San.Bölgesi 4.Cad.No:28 İnegölCity BURSATel (+90 224) 7148182Fax (+90 224) 7148187e-mail *********************Web Certificates ISO 9001:2000, ISO 9001:2008, TS-EN 14000, ISO/TS 16949:2009, TSE,ISO 16949:2002, ISO 14001Insulated wire, cableHS Code 8544Updated at 23th November 2011Company Name MUSTAFA CARKIT KABLO SAN. IC VE DIS TIC.LTD.STI Address HacıeyüplüMh.Akça Cd.No:157 Üçler / DenizliCity DENİZLİTel (+90 258) 3710030Fax (+90 258) 3720014e-mail *******************************Web Brand Names CMKCertificates BASECCompany Name NERGIZ KABLO VE PLASTIK SANAYI VE TICARET LTD.STI. 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No :111 31870 KartaLCity İSTANBULTel (+90 216) 4593085Fax (+90 216) 4592136e-mail *************************Web .trBrand Names SİEMENSCertificates TSE, CE, ISO 9001Insulated wire, cableHS Code 8544Updated at 23th November 2011Company Name TEDUM KABLO FIS DONANIM SAN.VE TIC.A.S. Address Akçaburgaz Mah. 87. Sok. No :6 EsenyurtCity İSTANBULTel (+90 212) 8865075Fax (+90 212) 8865076e-mail ***************Web .trBrand Names TEDÜMCertificates TSE, VDECompany Name TEM KABLO DONANIMLARI SAN.VE T IC.LTD.ŞTI. Address Yeni Sakarya Caddesi 246 / A 54200 ErenlerCity SAKARYATel (+90 264) 2413107Fax (+90 264) 2413215e-mail *****************Web Certificates ISO 9001:9008Company Name TUMKA KABLO SANAYI A.S.Address Ömerli Mah. Ilgaz Sk. No:7 Arnavutköy HadımköyCity İSTANBULTel (+90 212) 7982006Fax (+90 212) 7982117e-mail ********************.trWeb .trCertificates TSE,İSOInsulated wire, cableHS Code 8544Updated at 23th November 2011Company Name TURKUAZ KABLO TAAHHUT TIC.VE SAN.A.S. Address Balçık köyüMezarlık Sok . No :47 GebzeCity KOCAELİTel (+90 262) 7513100Fax (+90 262) 7513090e-mail *********************Web Brand Names TURKUAZ KABLOCertificates TSE 3930, ISO 14001, ISO 9001Company Name TÜRK PRYSMIAN KABLO VE SİSTEML.A.Ş. Address Ömerbey Mah. Bursa AsfaltıCad. No:51 Mudanya City BURSATel (+90 224) 2703000Fax (+90 224) 2703030e-mail *****************Web Brand Names AFUMEXCertificates TSE, İSOCompany Name UNAL KABLO DIS.TIC.LTD.STI.Address Şair Ziyapaşa Cd. Laleli Çeşme Sk. No:18 Karaköy-İSTANBUL City İSTANBULTel (+90 212) 2433589Fax (+90 212) 2456521e-mail ******************Web Brand Names ÜNALKABLOCertificates HAR, CE, İSO, TSE, TÜV, ROSHInsulated wire, cableHS Code 8544Updated at 23th November 2011Company Name UNKA KABLO SAN. VE TIC. A.S.Address Dr. Fazıl küçük cad. Sdite yolu No :16 ÜmraniyeCity İSTANBULTel (+90 216) 6341440Fax (+90 216) 6341444e-mail ******************.trWeb .trCertificates ISO 9001Company Name UNTEL KABLOLARI SANAYI VE TICARET A.S. Address Dr. Fazıl küçük cad. Üntel Sok. No :26 34768 ÜmraniyeCity İSTANBULTel (+90 216) 6342577Fax (+90 216) 6340677e-mail **************.trWeb .trCertificates ISO 9000:2008, TSE, CE, RİNA, LOTVEGASTERCompany Name YILMAZ KABLO SAN A.Ş.Address BANKALAR CADDESİ21 KARAKÖY BEYOĞLU - İSTANBUL City İSTANBULTel (+90 212) 5446828Fax (+90 212) 5678124e-mail ***************Web Insulated wire, cableHS Code 8544Updated at 23th November 2011Company Name YILMAZLAR KABLO VE ELEKTRIK SANAYI VE TICARET LTD.STI.Address Gebze OSB Molla Fenari Yolu, belediye asfaltıŞantiye yolu No: 20 PelitliGebzeCity KOCAELİTel (+90 262) 7514268Fax (+90 262) 7513949e-mail *******************Web Brand Names YILKA KABLO Certificates TSE, ISO。

郑州日产汽车配件编码.xls

郑州日产汽车配件编码.xls

商品名称原厂编码厂商车型备注操作产品线束[CYQ...XJ30235郑州日产柴油系列P27&P31详细暂无ABS指示灯ZB132K6-壳体郑州日产柴油系列P27&P31详细暂无油水分离报警指...ZB132K6-壳体郑州日产柴油系列P27&P31详细暂无组合仪表[F...ZB132K6-壳体郑州日产柴油系列P27&P31详细暂无ABS指示灯ZB132K6-燃油表郑州日产柴油系列P27&P31详细暂无油水分离报警指...ZB132K6-燃油表郑州日产柴油系列P27&P31详细暂无组合仪表[F...ZB132K6-燃油表郑州日产柴油系列P27&P31详细暂无ABS指示灯ZB132K6-时钟郑州日产柴油系列P27&P31详细暂无油水分离报警指...ZB132K6-时钟郑州日产柴油系列P27&P31详细暂无组合仪表[F...ZB132K6-时钟郑州日产柴油系列P27&P31详细暂无ABS指示灯ZB132K6-水温表郑州日产柴油系列P27&P31详细暂无油水分离报警指...ZB132K6-水温表郑州日产柴油系列P27&P31详细暂无组合仪表[F...ZB132K6-水温表郑州日产柴油系列P27&P31详细暂无ABS指示灯ZB132K6-转速表郑州日产柴油系列P27&P31详细暂无组合仪表[F...ZB132K6-转速表郑州日产柴油系列P27&P31详细暂无燃油箱[TA...ZD150X8郑州日产柴油系列P27&P31详细暂无线束[CYQ...ZD300X8郑州日产柴油系列P27&P31详细暂无离合器分泵 (11)1601034郑州日产柴油系列P27E&P31E详细暂无前桥主减速器 ...ZN2021-A1郑州日产柴油系列P27&P31详细暂无前桥主减速器 ...ZN2021-A10郑州日产柴油系列P27&P31详细暂无速器 ...A12P27&P31前桥主减速器 ...ZN2021-A15郑州日产柴油系列P27&P31详细暂无前桥主减速器 ...ZN2021-A2郑州日产柴油系列P27&P31详细暂无前桥主减速器 ...ZN2021-A4郑州日产柴油系列P27&P31详细暂无前桥主减速器 ...ZN2021-A5郑州日产柴油系列P27&P31详细暂无前桥主减速器 ...ZN2021-A7郑州日产柴油系列P27&P31详细暂无前桥主减速器 ...ZN2021-A8郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-A8-3郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-AB郑州日产柴油系列P27&P31详细暂无前桥主减速器 ...ZN2021-AC郑州日产柴油系列P27&P31详细暂无前桥主减速器 ...ZN2021-C06郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-C2郑州日产柴油系列P27&P31T=56.9-5...详细暂无前桥主减速器 ...ZN2021-C3郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-C3-1郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-C3-14郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-C3-16郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-C3-2郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-C3-4郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-C3-8郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-C3-9郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-C6郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-C6-01郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-C6-1郑州日产柴油系列P27&P31SELECTT...详细暂无速器 ...C6-11P27&P31T...前桥主减速器 ...ZN2021-C6-15郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-C6-17郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-C6-2郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-C6-22郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-C6-23郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-C6-24郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-C6-26郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-C6-27郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-C6-32郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-C6-35郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-C6-4郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-C6-8郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-C7郑州日产柴油系列P27&P31详细暂无前桥主减速器 ...ZN2021-C8郑州日产柴油系列P27&P31详细暂无前桥主减速器 ...ZN2021-C9郑州日产柴油系列P27&P31详细暂无前桥主减速器 ...ZN2021-CA10郑州日产柴油系列P27&P31详细暂无前桥主减速器 ...ZN2021-CA11郑州日产柴油系列P27&P31详细暂无前桥主减速器 ...ZN2021-CA12郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-CA12-2郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-CA12-3郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-CA12-4郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-CA14郑州日产柴油系列P27&P31详细暂无速器 ...CA2P27&P31前桥主减速器 ...ZN2021-CA5郑州日产柴油系列P27&P31详细暂无前桥主减速器 ...ZN2021-CA7郑州日产柴油系列P27&P31详细暂无前桥主减速器 ...ZN2021-CA8-2郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-CA8-4郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-CA8-5郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-CA8-7郑州日产柴油系列P27&P31SELECTT...详细暂无前桥主减速器 ...ZN2021-CA9B郑州日产柴油系列P27&P31详细暂无前桥主减速器 ...ZN2021-CAA郑州日产柴油系列P27&P31详细暂无前桥主减速器 ...ZN2021-CAC郑州日产柴油系列P27&P31详细暂无前桥主减速器 ...ZN2021-CCA1郑州日产柴油系列P27&P31详细暂无前桥主减速器 ...ZN2021-CD郑州日产柴油系列P27&P31详细暂无前桥主减速器 ...ZN2021-CE郑州日产柴油系列P27&P31详细暂无前桥主减速器 ...ZN2021-CF郑州日产柴油系列P27&P31详细暂无。

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条形码查产地

条形码查产地所在国家(地区) 前缀码所在国家(地区) 前缀码00--13 美国和加拿大 30--37 法国380 保加利亚 383 斯洛文尼亚385 克罗地亚 387 波黑400--440 德国 45--49 日本460--469 俄罗斯 471 中国台湾474 爱沙尼亚 475 拉脱维亚477 立陶宛 478 乌兹别克斯坦479 斯里兰卡 480 菲律宾481 白俄罗斯 482 乌克兰484 摩尔多瓦 485 亚美尼亚486 格鲁吉亚 487 哈萨克斯坦489 中国香港 50 英国520 希腊 528 黎巴嫩529 塞浦路斯 531 马其顿535 马耳他 539 爱尔兰54 比利时和卢森堡 560 葡萄牙569 冰岛 57 丹麦590 波兰 594 罗马尼亚599 匈牙利 600--601 南非609 毛里求斯 611 摩洛哥613 阿尔及利亚 619 突尼斯621 叙利亚 622 埃及625 约旦 626 伊朗64 芬兰 690--693 中国70 挪威 729 以色列73 瑞典 740 危地马拉741 萨尔瓦多 742 洪都拉斯743 尼加拉瓜 744 哥斯达黎加745 巴拿马 746 多米尼加750 墨西哥 759 委内瑞拉76 瑞士 770 哥伦比亚773 乌拉圭 775 秘鲁777 玻利维亚 779 阿根廷780 智利 784 巴拉圭786 厄瓜多尔 789 巴西80--83 意大利 84 西班牙850 古巴 858 斯洛伐克859 捷克 860 南斯拉夫867 朝鲜 869 土耳其87 荷兰 880 韩国885 泰国 888 新加坡890 印度 893 越南899 印度尼西亚 90--91 奥地利93 澳大利亚 94 新西兰951 蒙古 955955 马来西亚 澳门958店内码200-299连续出版物977图书978、979应收票据980各种流通票据981-982。

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Detonation Nanodiamond:An Organic Platform for the SuzukiCoupling of Organic MoleculesWeng Siang Yeap,Shiming Chen,and Kian Ping Loh* Department of Chemistry,National Uni V ersity of Singapore,3Science Dri V e3,Singapore117543 Recei V ed September10,2008.Re V ised Manuscript Recei V ed October22,2008Detonation nanodiamond possesses facile surface functional groups and can be chemically processed for many engineering applications.In this work,we demonstrate the functionalization of nanoscale diamond particles with aryl organics using Suzuki coupling reactions.In route one,hydrogenated nanodiamond is derivatized with aryl diazonium to form the bromophenyl-nanodiamond complex,this is subsequently reacted with phenyl boronic acid to generate the biphenyl adduct.In route two,the nanodiamond isfirst derivatized with boronic acid groups to form the boronic acid-nanodiamond complex,this is followed by Suzuki cross coupling with arenediazonium tetrafluroborate salts to generate the biphenyl product.Good chemoselectivity can be obtained in both routes.The efficiencies of the Suzuki coupling reaction can be further improved by performing the chemistry in a microreactor where electro-osmoticflow accelerates the mixing of ing the Suzuki coupling reactions,we can functionalize nanodiamond with trifluoroaryls and increase the solubilities of nanodiamond in ethanol and hexane.Fluorescent nanodiamond can be generated by the Suzuki coupling of pyrene to nanodiamond.1.IntroductionThe applications of nanodiamond(ND)in drug delivery,1 bioactive surface coatings,2and biolabeling3,4have become a focus point of interests owing to the remarkable properties of the nanodiamond.Nanodiamond particles which have been ion beam irradiated exhibit nonphotobleachablefluorescence3originating from the nitrogen-vacancy center.Dean Ho investigated nano-diamondfilms using ATP MTT and DNA fragmentation assays and confirmed the nonapoptotic and noncytotoxic properties of thesefilms,suggesting that nanodiamond can serve as potential drug vehicle platform with translational relevance.2Although the production methods of nanodiamond via detonation of TNT-hexogene mixtures have been discovered decades ago, the widespread application of nanodiamond was restricted at that time due to the difficulty in processing tightly aggregated nanodiamond.The pioneering work of Liu,5Ozawa,6,7and Gogotsi8showed that by using a combination of thermal oxidation and acid treatment,deagglomerated primary nanodiamond particles in stable suspensions could be obtained.These deagglomerated nanodiamond particles are invariably terminated by hydroxyl and carboxylic functional groups,making them readily amenable to conventional solution functionalization chemistry.9The high density of functional groups on nanodiamond results in very high extraction efficiencies for proteins and nucleic acids,rendering them highly useful for extracting materials in unfractionated biological mixtures.10The specific functional-ization of nanodiamond with biologically active tethering groups is an active area of research.Most of the covalent functionalization chemistry developed to date concerns mainly the coupling of aliphatic groups.Kru¨ger modified nanodiamond with alkyl silane and grafted biotin on the surface and demonstrated that these could bind to enzyme-labeled streptavidin.11We showed that the functionalization of nanodiamond with alkyl chain terminating in boronic acid functional groups allows specific binding to glycoproteins with high loading capacity,i.e.,500mg of proteins on1g of nanodiamond.12To study charge transfer interactions between the nanodiamond and organic molecule which is potentially useful for chemical sensing studies,it is important to consider the functionalization of nanodiamond with aryl organic groups since the conjugated chains in these molecules facilitate charge transfer.Suzuki coupling is one of the most widely used generic methods for the C-C coupling of biaryls.In this work,we consider various chemical routes to generate nanodiamond as synthons for Suzuki coupling,where both conventional wet chemistry reactions and microreactor chemistry were applied.Importantly,we discovered that diazonium coupling chemistry occurs spontaneously on hydrogenated nanodiamond.For example,bromophenyl adduct which can be used as synthon in subsequent Suzuki coupling can be coupled readily using bromophenyl diazonium salts.In the present paper,we show that Suzuki coupling is an effective method to couple a wide range of aryl molecules on detonation diamond and we discuss the properties and surface chemistry involved.2.Experimental Section2.1.Nanodiamond Preparation.Detonation nanodiamond pow-ders(as-received nanodiamond)with average primary particle size of4.0nm were obtained from International Technology Center(ITC, USA).As-received nanodiamond powders were heated in a tube furnace for7h at425°C.The heated nanodiamond powder was dispersed in water to form a nanodiamond suspension with a*Author to whom correspondence should be addressed,chmlohkp@ .sg.(1)Huang,H.;Pierstoff,E.;Osawa,E.;Ho,D.Nano Lett.2007,7,3305.(2)Huang,H.J.;Pierstoff,E.;Osawa,E.;Ho,D.ACS.Nano2008,2,203.(3)Yu,S.J.;Kang,M.W.;Chang,H.C.;Chen,K.M.;Yu,Y.C.J.Am.Chem. Soc.2005,127,17604.(4)Chung,P.H.;Perevedentseva,E.;Tu,J.S.;Chang,C.C.;Cheng,C.L. Diamond Relat.Mater.2006,15,622.(5)Liu,Y.;Gu,Z.;Margrave,J.L.;Khabashesku,V.N.Chem.Mater.2004, 16,3924.(6)Kruger,A.;Ozawa,M.;Kataoka,F.;Fujino,T.;Suzuki,Y.;Aleksenskii,A.E.;Vul′,A.Y.;Osawa,E.Carbon2005,43,1722.(7)Ozawa,M.;Inaguma,M.;Takahashi,M.;Kataoka,F.;Kruger,A.;Osawa,E.Ad V.Mater.2007,19,1201.(8)Osswald,S.;Yushin,G.;Mochalin,V.;Kucheyev,S.O.;Gogotsi,Y. J.Am.Chem.Soc.2006,128,11635.(9)Kruger,A.Angew.Chem.,Int.Ed.2006,45,6426.(10)Huang,L.C.L.;Chang,ngmuir2004,20,5879.(11)Krueger,A.;Stegk,J.;Liang,Y.J.;Lu,Li;Jarre,G.,2008,24,4200.(12)Yeap,W.S.;Tan,Y.Y.;Loh,K.P Anal.Chem.2008,80,4659.185Langmuir2009,25,185-19110.1021/la8029787CCC:$40.75 2009American Chemical SocietyPublished on Web12/02/2008concentration of 0.5wt %.The particle size distribution of the resultant suspension was monitored by dynamic light scattering measurement.The heat-purified nanodiamond powders were oxidized in strong acids following the procedure of Huang and Chang.3After these treatments,the surface of the ND was verified by FTIR to consist of OH and COOH groups.2.2.Hydrogenation of Nanodiamond (H-ND).Hydrogenation of nanodiamond particles was carried out by microwave hydrogen plasma treatment using 800W microwave power and 100sccm of hydrogen gas flow for 60min.Hydrogenation was repeated twice to ensure complete hydrogenation.2.3.Diazonium Coupling.Hydrogenated nanodiamond (H-ND)was suspended in 3mL of 0.1M HCl solution and vigorously stirred.In the case of spontaneous coupling on H-ND,8×10-4mol of 4-bromophenyldiazonium tetrafluoroborate was added.On ND that was acid-treated (oxygenated),5mmol of Mohrs salt(ammoniumFigure 1.Schematic showing the coupling of diazonium salts on nanodiamond to generate the 4-nitrophenyl or 4-bromophenyl ND,which serves as a synthon for Suzuki coupling of 4-flurophenylboronic acid or 4-trifluorophenylboronicacid.Figure 2.Schematic diagram showing Suzuki coupling of arenediazonium salts on nanodiamond particles that were pretreated with aminophenylboronic acid diazonium salts (APBA-ND),to generate biphenyl adducts terminating in either the bromo (4-bromophneyl-APBA-ND)or nitro groups (4-nitrophenyl-APBA-ND).4-Nitrophenyl-APBA-ND can be electrochemically reduced further to 4-aniline-APBA-ND.186Langmuir,Vol.25,No.1,2009Yeap et al.iron(II)sulfate hexahydrate)has to be added together with 4-ni-trophenyldiazonium tetrafluoroborate in order to initiate the reaction.2.4.APBA -Nanodiamond (APBA -ND).Nanodiamond func-tionalized with aminophenyl boronic acid (APBA-nanodiamond)was synthesized following a procedure developed previously.122.5.Suzuki Coupling.Similar to diazonium coupling,Suzuki coupling was carried out using two methods.In scheme 1(Figure 1),about 10mg of 4-bromophenylND was mixed with 8×10-4mol of 4-fluorophenylboronic acid or 4-(trifluoromethyl)phenylboronic acid.In scheme 2(Figure 2),nanodiamond which has been functionalized with boronic acid was used as a synthon to couple to 4-bromophenyldiazonium tetrafluoroborate or 4-nitrophenyldia-zonium tetrafluoroborate.Equivalent molar amounts of sodium acetate,5mol %of [(C 6H 5)3P]4Pd,and 3mL of solvent were added,and the resulting suspension was stirred at different temperaturesand indicated times.After completion,the reaction mixture was washed with the reaction solvent,followed by successive rinsing with dichloromethane first to remove [(C 6H 5)3P]4Pd,followed by rinsing with tetrahydrofuran and finally multiple rinsing with ultrapure water.The resulting products were vacuum-dried at 0.01Torr overnight.When the Suzuki coupling was carried out in a capillary microreactor (refer to Figure 3),the reagents added were similar to the wet chemistry reactions according to either scheme 1or scheme 2.Equilvalent molar amounts of sodium acetate,5mol %of [(C 6H 5)3P]4Pd,and 0.3mL of phosphate buffer solution (pH 4and pH 9)were added,and the resulting suspension was injected into the microreactor.A reaction potential of 5kV was applied between the two electrodes.The direction of the applied potential was switched alternatively every 15min,and the reaction was monitored for up to 1h at room temperature.Finally,the nanodiamond derivatives were washed with plenty of ultrapure water and acetonitrile and then dried in vacuum (0.01Torr).2.6.Instrumentation.Absorption FTIR spectroscopy of the functionalized nanodiamond was performed with a Varian 3100Excalibur Series FTIR spectrometer with a nominal resolution of 2cm -1.Sixty four accumulative scans were collected.Electrochemical tests were performed using the Autolab PGSTAT30electrochemical workstation.The three-electrode assembly consists of an Ag/AgCl (3M KCl)reference electrode,a platinum wire counter electrode,and a glassy carbon working electrode (0.50cm diameter)(GCE).All electrolytes were prepared with ultrapure water and purged with dry nitrogen gas for 15min prior to experiment.Freshly prepared 0.1M KCl with 10%methanol was used for the electrochemical reduction of the aryl nitro group.2.7.Preparation of Nanodiamond -Ionic Liquid (ND -IL)Paste.The nanodiamond particles were mixed with ionic liquid to form a paste;this was then applied as a conductive coating on a glassy carbon electrode.Typically,about 0.0100g of the nanodia-mond was added to 100µL of 1-butyl-3-methylimidazolium hexafluorophosphate (BMIMPF 6),and the mixture was ultrasonicated for 20min.Five microliters of this mixture was added to the polished surface of the glassy carbon electrode for performing electrochem-istry.3.Results and Discussion3.1.Hydrogenation of Nanodiamond (H-ND).As shown in scheme 1(Figure 1),the first step requires the use of hydrogenated nanodiamond (H-ND)to undergo coupling with diazonium salts.The hydrogenation of the acid-treated ND was performed in the hydrogen plasma reactor.AfterFigure 3.(Top)Glass microcapillary reactor where Suzuki coulpling was performed in this work,(Bottom)Schematic showing electrosmotic flow in the glassmicrocapillary.Figure 4.FTIR spectra of nanodiamond (a)as-received,(b)oxygenated (acid treated),and (c)H terminated (H-ND).Detonation Nanodiamond Langmuir,Vol.25,No.1,2009187hydrogen-plasma treatment,both C -H and OH groups are present on the ND surface.13Comparing the FTIR spectra of the ND before and after acid treatment in spectra a and b of Figure 4,we found that a strong peak at 1760cm -1related to the s C d O of carboxylic acid appeared only after successful carboxylation (Figure 4b)with acid.After acid treatment,the weak CH/CH 2/CH 3peak at 2910cm -1disappeared.After two cycles of microwave hydrogen plasma treatment,it can be seen in the FTIR spectrum (Figure 4c)that the C d O peak (1760cm -1)vanished;at the same time,the CH/CH 2/CH 3peak at ∼2933cm -1increased in intensity which proved that the ND was successfully hydrogenated.The presence of both C -H and OH groups was similar to the bifunctional surface observed by Korolkov and co-workers.133.2.Diazonium Coupling on H-ND to Form Nitrophenyl-Coupled ND (4-nitrophenylND).The diazonium coupling of the bromophenyl,nitrophenyl,or boronic ester phenyl groups was performed by simply immersing the ND into solution containing the aryldiazonium salts.Among the different types of ND used,which include hydrogenated ND (H-ND),oxygenated ND,and as-received ND,we found that the spontaneous reduction of diazonium salts was facile only on H-ND.From the FTIR spectra,as-received and oxygenated (acid treated)ND showed no reaction,the spectra were similar before and after immersion in the diazonium salts,as shown in spectra a and b of Figure 5.However in the case of the H-ND,Figure 5c shows that three new peaks appeared at 1523,1349,and 857cm -1,respectively;these can be assigned to -C -NO 2of 4-nitrophenyl as well as the aromatic CH of benzene.The fact that hydrogen termination of the ND is necessary before spontaneous charge transfer to diazonium salt can occur is consistent with our earlier findings on diamond thin films,where it was observed that only hydrogen-terminated diamond films could undergo spontaneous diazonium salt reduction and the process was inhibited on oxygenated diamond film.14In order for the spontaneous reduction of the diazonium salt to proceed,there must be charge transfer fromnanodiamond to the nitrophenyl diazonium salt.This is an electrochemically mediated reaction driven by the equilibration of the valence band of ND with the electrochemical potential of the reductant.The lower electron affinity of H-ND allows charge transfer to proceed from the valence band of diamond to the redox species in the solution.The charge transfer is prohibited on oxygenated ND because its higher electron affinity places the valence band beneath the electrochemical potential of the diazonium salt in the solution and no spontaneous charge transfer can occur.To overcome the inertia toward spontaneous charge transfer on oxygenated ND,a radical initiator such as Mohrs salt 15had to be added.The function of the Mohrs salt is to reduce the diazonium salt and to generate phenyl radicals.The addition of Mohrs salt resulted in the successful coupling of 4-nitrophe-nyldiazonium salt to the oxygenated ND,this can be judged from the FTIR spectra in Figure 5d where two new peaks at 1523and 1349cm -1are assignable to the symmetric and asymmetric stretches of NO 2functional group,respectively.(13)Korolkov,V.V.;Kulakova,B.N.;Lisichkin,G.V.Diamond Related Mater.2007,16,2129.(14)Chakrapani,V;Angus,J.C.;Anderson,A.B.;Wolter,S.D.;Stoner,B.R.;Sumanasekera,G.U.Science 2007,318.Figure 5.FTIR spectra of nanodiamond (ND)after immersing in diazonium salts (a)as-received ND,(b)oxygenated ND (without the addition of Mohrs salts),(c)H-terminated ND (without the addition of Mohrs salts),and (d)oxygenated ND (with the addition of Mohrs salts).(c)and (d)show successful coupling to 4-nitrophenyldiazoniumsalt.Figure 6.Cyclic voltammograms of the reduction of aryl nitro groups on the diazonium-coupled nanodiamonds.Electrolyte:0.1M KCl with 10%methanol.Scan rate:50mV/s.188Langmuir,Vol.25,No.1,2009Yeap et al.3.3.Electrochemical Characterization of the Nitrophenyl Coupled ND.To provide evidence that the diazonium coupling process can connect functional groups to the diamond surface,the electrochemical activity of the nitrophenyl coupled nano-diamond was investigated using cyclic voltammetry (CV).The nitrophenyl coupled nanodiamond was blended with ionic liquid (butyl-3-methylimidazolium hexafluorophosphate (BMIMPF 6))to form an electrochemically active paste which was then applied to the polished surface of the glassy carbon electrode.Electro-chemical reduction of the aryl nitro group to aniline has been studied in great detail on many film surfaces.The aryl nitro group undergoes a two-step reduction producing a phenylhy-droxylamine (-NHOH)as an intermediate product before it is reduced further into anilineR -NO 2+4H ++4e -f R -NHOH +H 2O (1)R -NHOH +2H ++2e -f R -NH 2+H 2O(2)Figure 6shows the cyclic voltammetry of the nitrophenyl coupled nanodiamond/ionic liquid;the cyclic voltammetry of untreated nanodiamond/ionic liquid and glassy carbon/ionic liquid were also performed to act as control.It can be seen clearly that two pronounced cathodic peaks were observed at E p )-0.90V Ag/AgCl and E p )-1.07V Ag/AgCl for the nitrophenyl coupled ND;these two peaks correspond to the four-electron reduction of the aryl nitro group to phenylhydroxylamine and the two-electron reduction of phenylhydroxylamine to aniline,respectively.The anodic peaks observed at E p )-0.21V Ag/AgCl are assigned to theoxidation of phenylhydroxylamine,16while the anodic peak at E p )-0.45V Ag/AgCl could be due to the direct oxidation reaction of the nanodiamond itself.17These peaks are not present in the cyclic voltammograms of the control samples,thus verifying that they originated from the nitrophenyl groups on the nanodiamond.After the first round of electrochemical reduction,there is an obvious decrease in the redox peaks,which is consistent with the irreversible reduction of the nitro to amine groups.The result is significant because the spontaneous diazonium coupling of the nitropheny groups on nanodiamond provides a facile way of providing tethering groups on the nanodiamond for carboxylic-terminated biomolecules because the nitro groups can be reduced to amine groups quite readily.3.4.Suzuki Coupling.A classical Suzuki coupling reaction involves the cross-coupling of phenylboronic acid with bro-mophenyl groups.As shown in scheme 1(Figure 1),hydrogenated nanodiamond was first treated with diazonium salt to produce either the 4-nitrophenyl or 4-bromophenyl adduct.The 4-bro-mophenyl nanodiamond adduct was then used as a synthon for coupling to 4-flurophenylboronic acid or 4-trifluorophenylboronic acid.An alternative to this classical reaction is Suzuki coupling to arenediazonium salts.As illustrated in scheme 2(Figure 2),the nanodiamond was first functionalized with aminophenyl-boronic acid to produce the boronic acid functionalized nano-diamond.This serves as a synthon in a Suzuki cross-coupling reaction with 4-bromophenyldiazonium tetrafluoroborate or 4-nitrophenyldiazonium tetrafluoroborate.The selection of solvent for this heterogeneous Suzuki coupling reaction is not trivial.(15)Zhong,Y.L.;Loh,K.P.;Midya,A.;Chen,Z.K.Chem.Mater.2008,20,3137.(16)Oliveira,Maria;Cristina,Fialho J.Mol.Catal.A:Chem.2002,182,419.(17)Holt,Katherine B.;Ziegler,C.;Caruana,D.J.;Zang,J.B.;Millan-Barrios,E.J.;Hu,J.P.;Foord,J.S.Phys.Chem.Chem.Phys.2008,10,303.Figure 7.FTIR spectra showing the Suzuki coupling of 4-bromophenylND with 4-fluorophenylboronic acid (scheme 1):(a)before Suzuki coupling;(b)after Suzuki coupling via wet chemistry;(c)after Suzuki coupling using a microreactor,similar but coupling to 4-trifluorophenylboronic acid (scheme 1);(d)before Suzuki coupling;(e)after Suzuki coupling via wet chemistry;(f)after Suzuki coupling using microreactor.Detonation Nanodiamond Langmuir,Vol.25,No.1,2009189We screened a variety of technical grade solvents that can be used with the catalyst (5mol %of [(C 6H 5)3P]4Pd)and found that the use of alcoholic solvents (e.g.,methanol)resulted in reasonable yield while 1,4-dioxane which has been used successfully in homogeneous reactions 18resulted in very poor yields in these heterogeneous reactions.To improve the reaction efficiency,the above Suzuki coupling reactions could be carried out in a microreactor (refer to Figure 3).Microreactors are microfluidic devices where chemical reactions are performed in micrometer-sized glass channels.The application of an electrical field creates an electro-osmotic force which favors migration and mixing of reactants.19An aqueous solvent such as PBS was selected because positive and negative ions in these solvents migrate toward the anode and cathode of microreactor,respectively,setting up an electro-osmotic flow.The microreactor Suzuki coupling chemistry in this case did not work well with polar organic solvents like methanol or 1,4-dioxane.Scheme 1.Suzuki Coupling.Before Suzuki coupling,the FTIR spectra of 4-bromophenylnanodiamond showed a C -Br peak at(18)Taylor,R.H.;Felpin,.Lett.2007,9,2911.(19)Basheer,C.;Jahir Hussain,F.S.;Lee,H.K.;Valiyaveettil,S.Tetrahedron Lett.2007,45,7297.Figure 8.FTIR spectra showing the Suzuki coupling of boronic acid functionalized nanodiamond with 4-bromophenyldiazonium tetrafluoroborate (scheme 2):(a)before Suzuki coupling;(b)after Suzuki coupling via wet chemistry;(c)after Suzuki coupling using microreactor,similar but Suzuki coupling to 4-nitrophenyldiazonium tetrafluoroborate (scheme 2);(d)before Suzuki coupling;(e)after Suzuki coupling via wet chemistry;(f)after Suzuki coupling usingmicroreactor.Figure 9.Fluorescence spectra of (a)4-bromophenyl coupled ND and (b)pyrene coupled ND.The inset shows the fluorescence from the pyrene coupled ND.Table 1.Maximum Concentration (mg/L)for a Stable Suspension of Various Suzuki-Functionalized Nanodiamonds(ND)in Organic SolventssolventTHF ethanol hexane H-ND2.010.0precipitate 4-nitrophenyl-ND (scheme 1)38.862.0precipitate 4-bromophenyl-ND (scheme 1)34.568.08.04-fluorophenylbenzene-ND (scheme 1)34.540.016.04-trifluoromethylphenylbenzeneND (scheme 1)38.320.012.84-bromophenyl-APBA-ND (scheme 2)51.011.4 4.04-nitrophenyl-APBA-ND (scheme 2)43.59.0precipitate190Langmuir,Vol.25,No.1,2009Yeap et al.1083.5cm -1in spectra a and d of Figure 7.After Suzuki coupling with 4-fluoroboronic acid,this peak disappeared and two new peaks at 1213.7and 1156.2cm -1emerged,these can be assigned to aromatic C -F bonds of the 4-fluoroboronic acid (Figure 7,spectra b and c).20In the case of 4-trifluorophenylboronic acid coupled-nanodiamond,the corresponding FTIR spectrum in Figure 7e shows sharp peaks due to aromatic C -C vibrations around 1483-1562cm -1and also a peak at 1234cm -1due to CF 3.20The microreactor-aided Suzuki coupling yielded a more complete reaction for the reactions with 4-fluoroboronic compared to 4-trifluoroboronic acid.This may be due to the greater hydrophobic character of the trifluoro-terminated diamond which resulted in aggregation in the PBS solvent,thus reducing the surface area for reaction.Suzuki coupling with 4-trifluoroboronic acid gave better yield in conventional chemical reactions with methanol as the solvent.Scheme 2.Suzuki Reactons Using Arenediazoniums Salts.Next,Suzuki coupling of the boronic acid functionalized nanodiamond with arenediazonium salts is investigated.Arenediazonium salts were reported as effective electrophiles in palladium cross-coupling reactions.18,21,22After Suzuki coupling with 4-bro-mophenyldiazonium tetrafluoroborate,Figure 8b shows that the -B(OH)2peak at 1342cm -1disappeared and -C -Br peak appeared.This is evident of the chemoselective reaction between the -B(OH)2group and the diazonium partner.The reaction efficiency is higher in the case of coupling to 4-nitrophenyl-diazonium compared to 4-bromophenyldiazonium.In Figure 8f,we can see the appearance of a very sharp peak at 1340cm -1which may be related to the -C -NO 2peak,along with the growth of aromatic C -C stretch around 1589cm -1.3.5.Applications of Suzuki Coupling.Coupling of Fluo-rescent Organic Molecules Fluorescent dyes can be coupled via Suzuki coupling onto the nanodiamond (ND).As a proof of principle,we performed Suzuki coupling of the 4-bromophenyl-ND with pyreneboronic acid.Photoluminescence test were carried out by dispersing 1.0mg of 4-bromophenyl-ND and pyrene-functionalized ND in 30mL of ethanol.Figure 9clearly showed that pyrene functionalized nanodiamond exhibited greater fluorescence compared to 4-bromophenyl-ND.There are many commercially available boronic acid functionalized organic dyes,so Suzuki coupling provides great convenience for the func-tionalization of 4-bromophenyl-ND.Impro V ed Dispersion in Ethanol and Hexane.The nanodiamond becomes more hydrophobic after undergoing Suzuki coupling with the aryl groups with fluorine functionalities.It was found that Suzuki coupling functionalized ND exhibits better resistance toward agglomeration in certain solutions.A quantitative estimate of the solubility of functionalized nanodiamonds was performed following the procedure of Liu et al.23and the results are tabulated in Table 1.Nanodiamond functionalized with amide (4-bromophenyl-APBA-ND and 4-nitrophenyl-APBA-ND)and -NO 2(4-nitro-phenyl-ND and 4-nitrophenyl-APBA-ND)functional groups tends to precipitate faster than other functionalized nanodiamonds in ethanol.This is due to the propensity of the nanodiamond with these functional groups to undergo hydrogen bonding with the protic solvent used.According to Osawa et al.,7it was difficult to disperse nanodiamond in nonpolar solvents such as n -hexane and toluene.However,in our work,the Suzuki-coupled nano-diamond (4-bromophenyl-ND,4-fluorophenylbenzene-ND,4-tri-fluoromethylphenylbenzene-ND,and 4-bromophenyl-APBA-ND in Table 1)can be dispersed in hexane and form a stable suspension,as shown in Figure 10.The size of the nanodiamond aggregate,as determined by dynamic laser scattering,is between 100and 200nm.The ability to functionalize the nanodiamond with a wide range of organic molecules via Suzuki coupling allows the broad applicability of nanodiamonds as useful supports in chemistry.One possibility is its application as core support in chromato-graphic systems which can be employed in conjunction with a wide variety of chiral organic materials to provide chiral stationary phases.In view of the stability of nanodiamond and its ease of recovery from solution,another possibility is the use of nanodiamond as a solid phase support for catalysts.Nanodiamond can also be coupled to polymers to form a hybrid material with enhanced mechanical strength.Future work may target the applications of Suzuki-functionalized nanodiamond in these areas.4.ConclusionIn this work,we have shown that nanodiamond can be used as a versatile organic platform for performing C -C cross coupling reactions.First,we demonstrated the spontaneous diazonium coupling of bromophenyl,or boronic ester phenyl,on hydro-genated nanodiamond.Nanodiamond functionalized as such can be utilized as synthons for subsequent Suzuki coupling with other aryl molecules,thus affording a facile scheme that allows the facile coupling of a wide range of aryl molecules.Diazonium coupling can also occur on oxygenated (acid treated)nanodiamond if a radical initiator such as Mohrs salt is added.As an alternative to the classical Suzuki reactions,we have also demonstrated the Suzuki coupling of arenediazonium salts on boronic acid func-tionalized nanodiamond.As a proof of principle,we demonstrated the usefulness of Suzuki coupling in coupling pyrene to nanodiamond to generate a fluorescent nanodiamond -pyrene complex.These reactions have general validity to a wide range of organic dyes that have boronic acid or halide functional groups.In addition,the dispersion of the nanodiamond in organic solvent can be improved by coupling hydrophobic aryl groups.Acknowledgment.The author K.P.Loh wishes to acknowl-edge the funding support of NUS Academic Grant:R-143-000-330-112.LA8029787(20)Lyskawa,J.;Belanger,D.Chem.Mater.2006,18,4755.(21)Sylvain,D.;Jean-Pierre,G.Tetrahedron Lett.1997,38,4393.(22)Douglas,M.W.;Robert,M.S.Tetrahedron Lett.2000,41,6271.(23)Liu,Y.;Gu,Z.N.;Margrave,J.L.;Khabashesku,V.N.Chem.Mater.2004,16,3924.Figure 10.Picture of (from left)4-bromophenyl-ND,4-fluorophenyl-benzene-ND,4-bromophenyl-APBA-ND,and 4-trifluoromethylphe-nylbenzene-ND dispersed in hexane.Detonation Nanodiamond Langmuir,Vol.25,No.1,2009191。

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