2016-2022年中国其他合成短纤＜85%主要或仅与毛混纺纱线行业进出口态势分析报告(55099100)

GESensingTransPort ®PT878Panametrics PortableUltrasonic Liquid FlowmeterTransPort PT878 is a Panametrics product. Panametrics has joined other GE high-technology sensing businesses under a new name _GE Industrial, Sensing.ApplicationsThe TransPort PT878 portable liquid flowmeter is a complete portable ultrasonic flow metering system for measurement of:•Potable water •Wastewater•Cooling and heating water •Ultrapure water and liquids •Water/glycol solutions •Crude oil•Refined hydrocarbons •Diesel and fuel oils •Lubricating oils •Chemicals •Beverages •Other liquidsgFeatures•Small, lightweight and easy to use •Non-intrusive flow measurement •Velocity, volumetric and energy flow rates •Totalized flow and trend data •Large, backlit LCD display •Alphanumeric and graphic formats •Multiple-language user interface •Rechargeable battery pack •Logs over 100,000 flow data points •Submersible package •32 site locations •Optional thickness gauge •Optional energy measurement•Suitable for most pipe sizes and materials, including lined pipe1981Portable Flow Metering at Its BestThe TransPort PT878 flowmeter is a highly versatile,self-contained, portable transit-time system with options and accessories to meet all your liquid flow measurement needs. Its compact size; lightweight, rechargeable internal battery pack; and universal power supply charger make it the ideal go-anywhere flowmeter.Accurate with Two-Phase and Perfectly Clean LiquidsThe TransPort PT878’s patented CorrelationTransit-Time™ digital signal processing (DSP) technique greatly increases its signal-to-noise ratio for accurate, drift-free flow measurement in liquids that contain a second phase of entrained solids or gas bubbles. The TransPort flowmeter operates in these and other difficult applications where conventional transit-time flowmeters fail.The TransPort PT878 flowmeter also accurately measures flow rate in perfectly clean liquids containing no “scatterers,” where Doppler-type flowmeters cannot work. The TransPort flowmeter is suited for all standard transit-time applications, plus many that would prevent other transit-time flowmeters from working.Quick and Easy to UseIt’s possible to make your first flow measurement within minutes of opening the box—the TransPort flowmeter is that easy to use. Simply input the site parameters, clamp the transducers onto the pipe, adjust the spacing, and you’re under way. No ancillary equipment is needed, and there’s no need to break into the pipeline. An experienced user can make scores of different measurements in a single day. The TransPort PT878 flowmeter is ideal for all kinds of flow survey work.Flow Transducers and Clamping FixturesUsing clamp-on transducers, the TransPort PT878 flowmeter measures flow rate through metal, plastic or even concrete-lined pipes, without penetrating the pipe wall. From ultra-pure water to corrosive and toxic liquids, the TransPort PT878 flowmeter ensuresnon-contaminating, leak-free measurement withdrift-free accuracy. The TransPort PT878 flowmeter has no moving parts to wear or orifices to clog. It can’t be fouled, and it requires no routine maintenance.A wide variety of transducers are available with different operating frequencies, materials of construction, operating temperatures and sizes to meet the requirements of rugged industrial environments.To hold clamp-on transducers in contact with the pipe, a variety of clamping fixtures are available to accommodate different pipe and transducer sizes. These fixtures use a variety of attachment methods including chain, metal strap, Velcro® strap and magnetic clamps. Alphanumeric and Graphic Liquid Crystal Display Completes the PictureA large, multifunction LCD presents measured data in both alphanumeric and graphic forms. In addition, it helps make programming easy by presenting a software menu that walks you through data entry and function selection.Standard alphanumeric functions include flow velocity, volumetric or energy flow rates, and totalized flow in either English (U.S.) or metric units.In graphic mode, the LCD shows both real time and logged data. The result is a chart recording right on the display, which is very useful for reviewing data and observing trends while on the site.Submersible, Rugged Electronics HousingYour investment in this flowmeter is protected from the day-to-day rigors of industrial usage. The TransPortPT878 is equipped with a rubber boot that provides protection against vibration and shock. The completely sealed housing and ports meet IP67 requirements, so the unit will withstand submersion in up to 3 ft (1 m) of water for limited periods of time. It will continue to function safely even if it is dropped in water.The complete TransPort PT878flowmeter system f its in a compact carrying case.Optional Energy MeasurementThe TransPort PT878 flowmeter combines proven ultrasonic flow measurement with precise RTDtemperature measurement to determine the energy flow rate in liquid heating and cooling systems.With this option, the TransPort flowmeter comesequipped with a built-in power supply for loop-powered RTD temperature sensors, as well as all necessary circuitry and software to make energy flow ratemeasurements. GE offers a variety of optional clamp-on and wetted RTD temperature sensors.Optional Pipe Wall Thickness Gauge TransducerPipe wall thickness is a critical parameter used by the TransPort flowmeter for clamp-on flow measurements.The thickness-gauge option allows accurate wall thickness measurement from outside the pipe.Infrared PortThe TransPort PT878 contains an infrared port forcommunication with your PC. If your laptop or desktop PC does not have infrared capability, an adapter isavailable that can be plugged into your PC’s serial port.Optional Infrared Thermal Printer and AccessoriesWhen you need a permanent record of your work, live measurements, logged data and site parameters can be sent to a variety of printers by beaming data directly from the TransPort PT878’s infrared port. A compact,lightweight, hand-held, infrared thermal printer isavailable. This printer is powered by a lithium ion battery.Built to Be Economical and Stay EconomicalTo be of real value, a portable flowmeter must be as economical to own and operate as it is capable in the field. The TransPort PT878 flowmeter is built to stay in service for many years. Completely solid state, the device rarely wears out or needs servicing, resulting in little downtime and low maintenance costs.The TransPort PT878 Flowmeter Uses the Transit-Time Flow Measurement TechniqueIn this method, two transducers serve as both ultrasonic-signal generators and receivers. Whenmounted on a pipe, they are in acoustic communication with each other, meaning that the second transducer can receive ultrasonic signals transmitted by the first transducer and vice versa.In operation, each transducer functions as a transmitter,generating a certain number of acoustic pulses, and then as a receiver for an identical number of pulses.The time interval between transmission and reception of the ultrasonic signals is measured in both directions.When the liquid in the pipe is not flowing, the transit-time downstream equals the transit-time upstream. When the liquid is flowing, the transit-time downstream is less than the transit-time upstream.The difference between the downstream and upstream transit times is proportional to the velocity of the flowing liquid, and its sign indicates the direction of flow.Ultrasonic Signal PathTransit-time flow measurement technique11AC charger2LEMO®-BNC transducer interconnection cable 3Input/output cable4IR-to-serial port adapter 5Small-pipe transducers 6Thickness gauge7Transducers with universal clamping fixture 8IR thermal printer9Printer AC power supply 10Printer battery chargerTransPort PT878 Accessories2345678910PT878SpecificationsFluid TypesAcoustically conductive fluids, including most clean liquids, and many liquids with entrained solids or gas bubbles. Maximum void fraction depends on transducer,interrogation carrier frequency, path length and pipe configuration.Pipe Sizes0.5 in to 300 in (12.7 mm to 7.6 m) and larger Pipe Wall Thickness Up to 3 in (76.2 mm)Pipe MaterialsAll metals and most plastics. Consult GE for concrete,composite materials, and highly corroded or lined pipes.Clamp-On Flow Accuracy (Velocity)•Pipe ID>6 in (150 mm): ±1% to 2% of reading typical •Pipe ID<6 in (150 mm): ±2% to 5% of reading typical Accuracy depends on pipe size and whethermeasurement is one-path or two-path. Accuracy to ±0.5%of reading may be achievable with process calibration.Repeatability±0.1% to 0.3% of reading Range (Bidirectional)–40 to 40 ft/s (–12.2 to 12.2 m/s)Rangeability (Overall)400:1Specif ications assume a fully developed flow prof ile (typically 10 diameters upstream and 5 diameters downstream of straight pipe run) and flow velocity greater than 1 ft/s (0.3 m/s).Measurement ParametersVolumetric flow, totalized flow and flow velocityOperation and PerformanceFlow MeasurementPatented Correlation Transit-Time mode EnclosureSubmersible IP67DimensionsWeight 3 lb (1.36 kg),size (h x w x d) 9.4 in x 5.5 in x 1.5 in (238 mm x 138 mm x 38 mm)Display240 x 200 pixel backlit LCD graphic display Keypad25-key rubberized tactile membrane keypadInternal BatteryRechargeable battery: 9 to 11 hr of continuous operation Battery Charger Input100 to 250 VAC, 50/60 Hz, 0.38 A MemoryFLASH memory, field-upgradable Operating Temperature –4°F to 131°F (–20°C to 55°C)Storage Temperature–40°F to 158°F (–40°C to 70°C)To ensure maximum battery life, storage temperature exceeding 35°C (95°F) is not recommended for more than one month.Standard Inputs/Outputs•One 0/4 to 20 mA current output•One user-selectable pulse (solid state, 5 V maximum) or frequency (5 V square wave, 100 to 10,000 Hz)•Two 4 to 20 mA analog inputs with switchable power supply for loop-powered temperature transmitters Digital InterfaceInfrared communication port for printer or PC interface Site-Parameter Programming•Menu-driven operator interface using keypad and “soft” function keys•Online help functions including pipe tables •Storage for saving site parametersElectronicsPT878 thickness-gauge optionPT878SpecificationsClamp-On Ultrasonic Flow TransducersTemperature Ranges•Standard: –40°F to 300°F (–40°C to 150°C)•Optional (overall range): –310°F to 572°F (–190°C to 300°C)MountingsStainless steel chain or strap, welded or magnetic clamping fixturesArea Classifications•Standard: General purpose•Optional: Weatherproof Type 4/IP65•Optional: Submersible IP67/68PT878 electronics are designed for general purpose areas.Thickness-Gauge OptionTransducerPanametrics dual-element transducer Pipe-Thickness Range0.05 in to 3 in (1.3 mm to 76.2 mm)Pipe MaterialsMost standard metal and plastic pipe materials Accuracy±1% typical or ±0.002 in (±0.05 mm)Thermal ExposureContinuous operation to 100°F (37°C); intermittentoperation to 500°F (260°C) for 10 sec followed by 2 min air coolingTransducer Cables•Standard: One pair of LEMO® coaxial transducer connectors with 25-ft (8-m) cables•Optional: 1,000-ft (305-m) extension cables available for most transducersData Logging•Memory capacity to log over 100,000 flow data points •Keypad programmable for log units, update times, and start and stop timeDisplay Functions•Graphic display shows flow in numerical or graphic format•Displays logged data•Extensive diagnostic parameters•Supports multiple languages: Dutch, English, French, German, Italian, Japanese, Portuguese, Russian, Spanish, Swedish and othersEuropean ComplianceBattery-powered system complies with EMC Directive 89/336/EEC and transducers comply with PED 97/23/EC for DN<25PT878 Specifications Energy MeasurementEnergy MeasurementCalculates energy flow rate and totalized energy. Requires optional dual-RTD, loop-powered transmitter. Temperature TransducersLoop-powered, three-wire platinum RTDs; clamp-on and wetted (thermo-well) types are availableAccuracy±0.15°C with wetted RTDs (matched pairs)Range–4°F to 500°F (–20°C to 260°C)The accuracy of the energy measurement is a combination of the accuracy of the associated flow and temperature measurements. 1% to 2% of reading is typical for calibrated systems. Not all extremes of parameters can be achieved simultaneously.Additional OptionsPanaView™ PC-Interface SoftwareThe TransPort PT878 communicates with a PC through the infrared interface and Windows® operating systems. Consult the manual for details on sites, logs and other operations with a PC.Printer•Infrared, portable, thermal printer with rechargeable battery and 120 to 240 VAC power supply/recharger •Weight 13 oz (370 g), size 6.3 in x 6.5 in x 2.3 in (160 x mm 164.2 mm x 59 mm), print width 4 in (104 mm)RS232-to-InfraredInfrared adapter plugs into any available serial port to give desktop PCs infrared capability.PanaView software links your TransPort flowmeter to your PC.©2005 GE. All rights reserved.920-039BAll specifications are subject to change for product improvement without notice. TransPort®is a registered trademark of GE. Correlation Transit-Time™ is a trademark of GE. GE®is a registered trademark of General Electric Co. Other company or product names mentioned in this document may be trademarks or registered trademarks of their respective companies, which are not affiliated with GE.g 。

DVB-T•DVB-T2•DVB-T2 HD (H.265)•DVB-C •DVB-S •DVB-S2•Analog ProgramsAnalog Programme 100Digital Programs Digital Programme1000(T/T2)/1000(C)/5000(S/S2)Dimensions with standAbmessungen mit Gerätefuß718X198.8X458.8mm Dimensions without standAbmessungen ohne Gerätefuß718X77.4X426.4mm PackagingVerpackung815X135X515mm Net / Gross WeightNetto / Brutto Gewicht 3.9/5.6kg Loading Quantity Lademenge484/976/1220pcs.TUNERDISPLAYAUDIOINPUT / OUTPUT DESIGNWALL MOUNTScreen DiagonalBildschirmdiagonale32”Aspect RatioBildformat 16:9Resolution Auflösung1920 x1080PSI500LuminanceHelligkeit 220nits Contrast Kontrast4000:1Display ColorAnzeigefarben16.7M Screen View AngleBetrachtungswinkel 176°/176°Response Time Reaktionszeit8msHDR - -MPEG-2•MPEG-4 (H.264)•Video Color System PAL/SECAMTV System PAL/SECAM, DVB-T/T2/C/S24K @ 60Hz-Progressive Scan •3D Comb Filter•Audio Output 2X5WattDolby Audio•StereoNICAM / A2Automatic Volume LimiterAutomatische Lautstärke•Noise ReductionGeräuschreduzierung•Screen ShapeBildschirm Form FlatFrame Color RahmenfarbeGun-Grey - Silver StripeStand ColorGerätefuß FarbeSliver Swivel StandSchwenkständer- -Ultra Slim DesignUltraflaches Design•DIMENSIONS / WEIGHTHole DistanceLochabstand100X100mmScrew SchraubeM4MIS StandardMIS-DDESIGNMODEL L32D5T TEST LOGOS / AWARDSEAN ：859 2344 20330 5HDMI 1.4HDMI 1.4AV Input CI Slot SCART Audio Output Antenna Data TransferHDCP 1.4 ARC CECHDCP 1.4CECMini CI+ScartHDMI Adapter EarPhone 3.5 mm Digital Audio OutRF LNB USB 2.0LAN1X 1X 1X 1X - -- ---1X 1X 1X 1X --Energy Efficiency Class:EnergieeffizienzklasseA+On-Mode Power ConsumptionEingeschaltet Leistungsaufnahme 31W Annual Energy Consumption Jahresenergiebedarf46kWh Stand-by Power ConsumptionStandby-Leistungsaufnahme< 0.5W Off-Mode Power ConsumptionAusgeschaltet Leistungsaufnahme< 0.01WAC Power SupplyNetzversorgungAC 100-240V,50/60HzCI+(CI Plus) / CA-System•/•Auto & Manual Search Automatischer / Manueller Suchlauf•Easy Channel sortEinfache Sendersortierung• (DVB-S2)UHF & VHF & CATV •Favorite ChannelsFavoritenliste •Hotel Mode Hotel Modus•OSD LanguageMenüsprachenEN, FR, DE, IT, ES, PT,CZElectronic Program GuideElektronischer Programm Guide•Parental LockKindersicherung•Radio•Sleep-TimerSchlummerfunktion•Auto Summer TimeAutomatische Sommerzeit•USB Media Player •USB Clone FunctionUSB Klonfunktion•PresortingVorsortierte Senderliste• (DVB-S2)Teletext•12V DC Power12V Anschluss- - WIFI- -FEATURESENERGY CONSUMPTIONCODECCONTACTAudio / Video MPEG-2, MPEG-4, H.264, VP9, MPEG1/2 Layer1/2, MP3, DD, DD+, AAC, HE-AAC ImageJPEG, PNG, BMPMODEL L32G4000SALES PACKAGINGPRODUCT PHOTOS Czech RepublicPhone: +42 (0) 775 134 147E-Mail:******************************** / Web: www.changhongeurope.czGermany, Austria, SwitzerlandKaiserin-Augusta-Allee 104, D-10553 Berlin Phone: +49 (0) 30 98 35 42 98 / Fax: +49 (0) 30 98 35 44 26E-Mail: *********************** / Web: France19 rue des 3 frères LAMBERT ，95240 Cormeilles en Parisis ，FranceService Commercial : 06 44 06 44 95 Service après vente : 02 51 40 44 31E-Mail: ************************** / Web: 。

GigaSPEED XL® 3071E-B ETL Verified Category 6 U/UTP Cable, lowsmoke zero halogen, white jacket, 4 pair count, 1000 ft (305 m) length,reelProduct ClassificationRegional Availability EMEAPortfolio SYSTIMAX®Product Type Twisted pair cableProduct Brand GigaSPEED XL®General SpecificationsProduct Number3071EANSI/TIA Category6Cable Component Type HorizontalCable Type U/UTP (unshielded)Conductor Type, singles SolidConductors, quantity8Jacket Color WhitePairs, quantity4Separator Type BisectorTransmission Standards ANSI/TIA-568.2-D | CENELEC EN 50288-6-1 | ISO/IEC 11801 Class E DimensionsCable Length304.8 m | 1000 ftDiameter Over Insulated Conductor 1.041 mm | 0.041 inDiameter Over Jacket, nominal 5.918 mm | 0.233 inJacket Thickness0.559 mm | 0.022 inConductor Gauge, singles23 AWG13Page ofCross Section DrawingElectrical Specificationsdc Resistance Unbalance, maximum 5 %dc Resistance, maximum7.61 ohms/100 m | 2.32 ohms/100 ftDielectric Strength, minimum2500 VdcMutual Capacitance at Frequency 5.6 nF/100 m @ 1 kHzNominal Velocity of Propagation (NVP)70 %Operating Frequency, maximum300 MHzOperating Voltage, maximum80 VRemote Powering Fully complies with the recommendations set forth by IEEE 802.3bt (Type4) for the safe delivery of power over LAN cable when installed accordingto ISO/IEC 14763-2, CENELEC EN 50174-1, CENELEC EN 50174-2 or TIATSB-184-ASegregation Class cMaterial SpecificationsConductor Material Bare copperInsulation Material PolyolefinJacket Material Low Smoke Zero Halogen (LSZH)Separator Material PolyolefinPage of23Mechanical SpecificationsPulling Tension, maximum11.34 kg | 25 lbEnvironmental SpecificationsInstallation temperature0 °C to +60 °C (+32 °F to +140 °F)Operating Temperature-20 °C to +60 °C (-4 °F to +140 °F)Acid Gas Test Method EN 50267-2-3EN50575 CPR Cable EuroClass Fire Performance B2caEN50575 CPR Cable EuroClass Smoke Rating s1aEN50575 CPR Cable EuroClass Droplets Rating d0EN50575 CPR Cable EuroClass Acidity Rating a1Environmental Space Low Smoke Zero Halogen (LSZH)Smoke Test Method IEC 61034-2Packaging and WeightsCable weight38.097 kg/km | 25.6 lb/kftPackaging Type ReelRegulatory Compliance/CertificationsAgency ClassificationCENELEC EN 50575 compliant, Declaration of Performance (DoP) availableCHINA-ROHS Below maximum concentration valueISO 9001:2015Designed, manufactured and/or distributed under this quality management system REACH-SVHC Compliant as per SVHC revision on /ProductCompliance ROHSCompliantPage of33。

Page 1/14JUMO safetyM STB/STW Safety Temperature Limiter,Safety Temperature Monitor According to DIN EN 14597Brief descriptionThe safety temperature limiter JUMO safety M STB and the safety temperature monitor JUMO safety M STW are used to reliably detect and avert hazards that could cause injuries to people,that could be harmful to the environment, or that could cause destruction of production plants and produced goods at an early stage.Its primary task is to reliably monitor thermal processes and switch the systems to an opera-tional safe status in the event of malfunctions.The measured value at the analog input can be recorded by various probes or standard sig-nals. The exceedance of the limit value is indicated by the installed LEDs K1 and K2 (red) for each channel, and the safety relevant relay output alarm (terminal 14 and 16) switches the system to an operational safe status (alarm range).The high standards of DIN EN 61508 and DIN EN ISO 13849 are met by a device concept that has a 1oo2D structure (2-channel structure with diagnostic channel) which ensures reliable de-tection of errors. This device concept can also be used for applications that correspond to the new machinery directive 2006/42/EC.Block diagramData Sheet 701150Type 701150/ …Special featuresk 1oo2D structure for a high degree of pro-cess safety and reliability k LCD display with background lightingand plain text display for more comfortable operation k Setup program for configuration and archiving via USB interface k Digital input filter with adjustable filter time constantk Pre-alarm absolute, adjustable as a margin from the limit value or window function k Wide voltage supply rangefrom AC 110 to 240V +10%/-15% or AC/DC 20to 30V k Can be configured as STB or STW k 12 linearizations can be setk Internal and external unlocking possible k Approvals for DIN EN 14597, SIL, PL (Per-formance Level), Gl and UL k Two relay outputs can be used as pre-alarm or limit value alarmApprovals/approval marks (see "Technical Data")Data Sheet 701150Page2/14Technical dataAnalog inputsRTD temperature probe ThermocouplesDirect current Analog outputDesignationMeasuring range Accuracy2/3-wire circuit 1Ambient temperature error Pt100 DIN IEC 60751:2008-200to +850°C 0.5%/0.1%50ppm/K Pt1000 DIN IEC 60751:2008-200to +850°C 0.5%/0.1%50ppm/KConnection type Maximum lead wire resistance 2-wire circuit 15 Ω, 3-wire circuit 30 ΩSampling rate 210 msError tolerance time ≤ 5s: time taken into account for all diagnostic testsInput filter Digital filter, 2nd order; filter constant can be set from 0 to 100 s Special featuresSingle probe Pt100 2-wire,display can also be programmed in °FDesignationMeasuring range Accuracy 1Ambient temperature influence Fe-CuNi “L” DIN 43710: 1985-12-200to +900°C 0.4%100ppm/K Fe-CuNi “J” DIN EN 60584-1:1996-10-200to +1200°C 0.4%100ppm/K Cu-CuNi “U” DIN 43710:1985-12-200to +600°C 0.4%100ppm/K Cu-CuNi “T” DIN EN 60584-1:1996-10-200to +400°C 0.4%100ppm/K NiCr-Ni “K” DIN EN 60584-1:1996-10-200to +1372°C 0.4%100ppm/K Pt10Rh-Pt “S” DIN EN 60584-1:1996-10-50to +1768°C 0.4%100ppm/K Pt13Rh-Pt "R" DIN EN 60584-1:1996-10-50to +1768°C 0.4%100ppm/K Pt30Rh-Pt6Rh “B” DIN EN 60584-1:1996-100to 1820°C 0.4%2100ppm/K NiCrSi-NiSi …N“ DIN EN 60584-1:1996-10-100to +1300°C 0.4%2100ppm/K W3Re-W25Re “D”ASTM E1751M-09 (bis 2315 °C): 20090to 2495°C0.4%100ppm/K W5Re-W26Re …C“ ASTM E230M-11: 20110to 2315 °C 0,4%100 ppm/KCold junctionPt100 internal Cold junction accuracy ±1K Sampling rate 210 msError tolerance time ≤5s: time taken into account for all diagnostic testsInput filterDigital filter, 2nd order; filter constant can be set from 0to 100s1. The accuracy refers to the maximum extent of the measuring range.2.The accuracy is garanteed above 300° C Measuring rangeAccuracy Ambient temperature influence 4to 20mA, voltage drop < 2 V 0.2%150 ppm/KScaling Can be freely programmed within the limits Sampling rate 210 msError tolerance time ≤ 5s: time taken into account for all diagnostic testsInput filter Digital filter, 2nd order; filter constant can be set from 0to 100s Special featuresSingle probe 4 to 20mASignal typeAccuracy Residual ripple Load influence Temperature influence Load resistance Current 4 to 20 mA ≤ 0.5 %± 0.5 % at 300 Ω± 0.05 mA/100Ω150 ppm/K≤ 500 Ω0 to 20 mA Voltage2 to 10V ≤ 0.5 %± 0.5 %± 15 mV150 ppm/K÷ 500 Ω0 to 10VData Sheet 701150Page3/14Binary inputRelay outputsMeasuring circuit monitoringVoltage supplyTest voltages according to EN 60730, part 1Electrical safetyConnection Function1 floating contactUnlocking, key inhibit, level inhibit can be configuredRelay output KVRelay (changeover contact) without contact protection30000 switching operations at a switching capacity of 250 V , 3 A, 50 Hz (resistive load)or up to DC 30 V , 3 A. Minimum current DC 12 V, 100 mA.Relay output alarmRelay (changeover contact)Contact protection circuit: fuse cut-out 3.15 AT, installed in the N/O contact arm30000 switching actions at a switching capacity of 230 V , 3 A, 50 Hz (resistive load)or up to DC 30 V , 3 A. Minimum current DC 12 V, 100 mA.RTD temperature probe in 3-wire circuit and double thermocouplesThermocouples Current 4 to 20 mAOverrangeand underrange Is detectedLED K1, K2, KD, and KV are lit;">>>>“ flashes in the display for overrange, "<<<<“ for underrange.Probe/cable breakIs detectedLED K1, K2, KD, and KV are lit">>>>“ flashes in the display; relay output alarm is inactive LED K1, K2, KD, and KV are lit;">>>>“ flashes in the display; relay output alarm is inactive Probe short circuitIs detectedLED K1, K2, KD, and KV are lit "<<<<“ flashes in the display;relay output alarm is inactiveIs detected by difference monitor-ing of the analog inputs LED K1, K2, KD, and KV are lit;"<<<<“ flashes in the display;relay output alarm is inactiveVoltage supplyAC/DC 20 to 30V , 48 to 63Hz AC 110to 240V +10% /-15%, 48 to 63Hz Power consumption, Power lossmax. 12Wmax. 12W Power consumption, Power lossfor the following mode:Analog output 10mA; background lighting Display off; Re-lay output "Alarm" on;Relay output pre-alarm off; Sensor: 2xPt1005W 5WInput and output against voltage supply- At voltage supply AC 110to 240V +10% /-15% 3.7kV/50Hz - At voltage supply AC/DC 20to 30V , 48to 63Hz3.7kV/50HzClearances / creepage distancesMains voltage to electronic compo-nents and probes≥ 6 mm / ≥ 8 mm Mains voltage to the relay ≥ 6 mm / ≥ 8 mmRelay to electronic components and probes ≥ 6 mm / ≥ 8 mmElectrical safety According to DIN EN 14597 (DIN EN 60730-2-9)Overvoltage category III, pollution degree 2Protection rating IWith internal separation to SELV electrical circuitsData Sheet 701150Page4/14Environmental influencesCaseApprovals/approval marksAmbient temperature range 0to +55°C Storage temperature range -30to +70°CTemperature influence ≤ ± 0.005% / K dev. from 23×C 1 for RTD temperature probe ≤ ± 0.01% / K dev. from 23×C 1 for thermocouple, currentTerminal temperature RangeIf the temperature range of -10 °C to +80 °C is exceeded or undercut, the device shows the error message “Terminal temperature Range“.The output changes to a safe state (quiescent current principle).The message can only be acknowledged, if the temperature is back again in the valid range.Resistance to climatic conditions 85% rel. humidity without condensation(3K3 with extended temperature range according to DIN EN 60721-3-3)EMCAccording to DIN EN 14597 and standards from the standard series DIN EN 61326Interference emission Class BInterference immunityEvaluation criteria FS according to DIN EN 14597, regulation and control devices (RS)1.All specifications refer to the measuring range end valueMaterialPolycarbonate Flammability class UL 94 V0Electrical connection On the front via screw terminals up to 2.5 mm 2Installation On 35mm DIN rail acc. to EN 60715Installation position vertical Weight Approx. 230 g Protection typeIP 20 acc. to EN 60529Approval marks Testing agency Certificates/certification numbersInspection basis Valid forDIN DIN CERTCOSTB/STW1223DIN EN 14597All device versions:SIL2, SIL3TÜV Nord (German Techni-cal Inspection Agency)SEBS-A.102606/16-2 V1.0DIN EN 61508All device versions:PL e DIN EN ISO 13849-1All device versions:c UL us Underwriters Laboratories E325456-20120611UL 60730-2-9 submittedAll device versions:GLGermanischer Lloyd36 790-11HHAll device versions:Pressure Equipment Di-rective TÜV Süd (German Techni-cal Inspection Agency)07 202 1045 Z 0031/14/D0046Pressure Equipment Di-rective 97/23/EGAll device versions:Data Sheet 701150Page5/14Display and control elementsElectrical isolationLegend:Comment3LCD displayBlack/white with background lighting 96 x 64 pixels6LED KV (yellow)Is lit if the pre-alarm is triggered.7LED KD (yellow)Is lit if the diagnostic processor has performed a switch-off 8Keys(can only be operated when the transparent hood is folded upward)Increase value, Decrease valueProgramming RESET12Setup interface13LED K2 (red)aIs always simultaneously lid with K1 when errors occuron analog input 1 or 2 or in the event of limit value exceedance a.The exceedance of the limit value is indicated by the installed LEDs K1 and K2 (red) for each channel, andthe safety relevant relay output alarm (terminal 14 and 16) switches the system to an operational safe status (alarm range).14LED K1 (red)aIs always simultaneously lid with K2 when errors occuron analog input 1 or 2 or in the event of limit value exceedance 15LED OKGreen: Good range Off: Error occurred(1) Analog inputs(3) Binary input (5) Setup interface (6) Display (7) Analog output(8) Voltage supply(2) Relay output alarm(4) Relay output pre-alarmPage 6/14Data Sheet 701150Switching behavior of the relay output pre-alarmAbsolute value or Limit val. dist. directAbsolute value or Limit val. dist. inverseWindow direct (it is irrelevant if Min-Alarm or Max-Alarm is set)Window inverse (it is irrelevant if Min-Alarm or Max-Alarm is set)Data Sheet 701150Page7/14Switching behavior min. alarmData Sheet 701150Page8/14Connection diagramThe connection diagram in the data sheet provides preliminary information about the connection possibilities. For the electrical connection only use the installation instructions or the operating manual. The knowledge and the correct technical execution of the safety information/instruc-tions contained in these documents are mandatory for installation, electrical connection, and startup as well as for safety during operation.The connection occurs via screw terminals.Lead Admissible cross section 1 wire ≤ 2.5 mm 2Fine-strand,with ferrule≤ 1.5 mm 2Tightening torque of the screws:max. 0.5 NmData Sheet 701150Page9/14DimensionsType 701150/...Internal circuitrySPPage 10/14Data Sheet 701150Probes for the operating-medium airProbes for operating medium water and oilNote: Because of the high response accuracy, the use of thermowell s (pockets) is not admi ss ible .Actual type de s ignationOld type de s ignationProbe typeTemperature rangeNom. length mmP roce ss connectionRTD temperature probe Data S heet 90.2006902006/65-228-1003-1-15-500-668/000- 1 x Pt100-170 ... +700°C500902006/65-228-1003-1-15-710-668/000-710902006/65-228-1003-1-15-1000-668/000-1000902006/55-228-1003-1-15-500-254/000- 1 x Pt100-170 ... +700°C500902006/55-228-1003-1-15-710-254/000-710902006/55-228-1003-1-15-1000-254/000-1000902006/65-228-2003-1-15-500-668/00090.271-F01 2 x Pt100-170 ... +700°C500Stop flange,movable902006/65-228-2003-1-15-710-668/00090.272-F01710902006/65-228-2003-1-15-1000-668/00090.273-F011000902006/55-228-2003-1-15-500-254/000- 2 x Pt100-170 ... +700°C500movableG1/2 compression clamp 902006/55-228-2003-1-15-710-254/000-710902006/55-228-2003-1-15-1000-254/000-1000Thermocouple s Data S heet 90.1006901006/65-547-2043-15-500-668/00090.019-F01 2 x NiCr-Ni, Typ E …K“-35 ... +800°C500Stop flange,movable901006/65-547-2043-15-710-668/00090.020-F01710901006/65-547-2043-15-1000-668/00090.021-F011000901006/65-546-2042-15-500-668/00090.019-F11 2 x Fe-CuNi, Typ E …L“-35 ... +700°C500901006/65-546-2042-15-710-668/00090.020-F11710901006/65-546-2042-15-1000-668/00090.021-F111000901006/66-550-2043-6-500-668/00090.023-F01 2 x NiCr-Ni, Typ E …K“-35 ... +1000°C500901006/66-550-2043-6-355-668/00090.023-F023********/66-550-2043-6-250-668/00090.023-F03250901006/66-880-1044-6-250-668/00090.021 1 x PT10Rh-PT, Typ E …S“0 ... 1300°C250901006/66-880-1044-6-355-668/00090.022*********/66-880-1044-6-500-668/00090.023*********/66-880-2044-6-250-668/00090-D-021 2 x PT10Rh-PT, Typ E …S“0 ... 1300°C250Stop flange,movable 901006/66-880-2044-6-355-668/00090-D-022*********/66-880-2044-6-500-668/00090-D-023500901006/66-953-1046-6-250-668/00090.027 1 x PT30Rh-PT6Rh, Typ E …B“600 ... 1500°C 250901006/66-953-1046-6-355-668/00090.028*********/66-953-1046-6-500-668/00090.029500901006/66-953-2046-6-250-668/00090-D-027 2 x PT30Rh-PT6Rh, Typ E …B“600 ... 1500°C 250901006/66-953-2046-6-355-668/00090-D-028*********/66-953-2046-6-500-668/00090-D-029500Note: Because of the high response accuracy, the use of thermowell s (pockets) is not admi ss ible .Actual type de s ignationOld type de s ignationProbe typeTemperature rangeNom. length mmP roce ss connectionRTD temperature probe Data S heet 90.200690.2006/10-402-1003-1-9-100-104/000 1 x Pt100-40 ... +400°C100G1/2 screw connection90.2006/10-402-2003-1-9-100-104/000 2 x Pt100100902006/54-227-2003-1-15-710-254/00090.272-F02 2 x Pt100-170 ... 550°C 65...670movableG1/2 compression clamp 902006/54-227-1003-1-15-710-254/00090.272-F03 1 x Pt10065...670902006/10-226-1003-1-9-250-104/00090.239 1 x Pt100-170 ... 480°C 250G1/2 screw connection 902006/10-226-2003-1-9-250-104/00090-D-2392 x Pt100250Thermocouple s Data S heet 90.1006901006/54-544-2043-15-710-254/00090.020-F02 2 x NiCr-Ni, Type …K“-35 ... 550°C65...670movableG1/2 compression clamp901006/54-544-1043-15-710-254/00090.020-F03 1 x NiCr-Ni, Type …K“65...670901006/54-544-2042-15-710-254/00090.020-F12 2 x FeCuNi, Type …L“65...670901006/54-544-1042-15-710-254/00090.020-F131 x FeCuNi, Type …L“65 (670)Page 11/14Data Sheet 701150Probes for operating medium water and oilProbes for the operating medium air, water, and oilSafety control and regulating devicesSafety temperature monitor STW 1The safety temperature monitor is a device that is automatically reset when activated once the sensor temperature has fallen below or risen above the set limit value by an amount equal to the switching differential. Possible settings: monitoring for limit value overrange or underrange.Mode of operations:Minimum requirements: 2B, 2K, 2P Additional requirements: 2N, 2DSafety temperature limiter STB 1The safety temperature limiter is a device that is permanently locked after responding.Manual reset using the RESET key is possible once the probe temperature has fallen below / has exceeded the limit value by the amount of the switching differential. Possible settings: monitoring for overrange or underrange.Mode of operations:Minimum requirements: 2B, 2J, 2V , 2K, 2P and adjustable with special tools Additional requirements: 2N, 2F , 2D1. For more detailed explanation, see DIN EN 14 597.Note:The probes described in data sheets 901006 and 902006 are also certified for the Pressure Equipment DirectiveNote: Because of the high response accuracy, only u s e thermowell s (pockets) that are included in the s cope of delivery .Actual type de s ignationOld type de s ignationProbe typeTemperature rangeNom. length mmP roce ss connectionRTD temperature probe Data S heet 90.2006902006/53-505-2003-1-12-190-815/00090D239-F03 2 x Pt100-40 ... +400 °C 190902006/53-507-2003-1-12-100-815/00090.239-F02 2 x Pt100(arranged one below the other in protection tube)-40 ... +480 °C100902006/53-507-2003-1-12-160-815/00090.239-F12160902006/53-507-2003-1-12-190-815/000190902006/53-507-2003-1-12-220-815/00090.239-F22220902006/53-507-1003-1-12-100-815/00090.239-F01 1 x Pt100-40 ... +480 °C100weld-in sleeve902006/53-507-1003-1-12-160-815/00090.239-F11160902006/53-507-1003-1-12-220-815/00090.239-F21220902006/53-505-1003-1-12-190-815/00090.239-F03 1 x Pt100-40 ... +400 °C 190902006/53-505-3003-1-12-100-815/00090.239-F07 3 x Pt100-40 ... +400 °C100902006/53-505-3003-1-12-160-815/00090.239-F17160902006/53-505-3003-1-12-220-815/00090.239-F27220902006/40-226-1003-1-12-220-815/00090.280-F30 1 x Pt100-170 ... +480°C220weld-in sleeve 902006/40-226-1003-1-12-160-815/00090.280-F31160902006/40-226-1003-1-12-100-815/00090.280-F32100Thermocouple s Data S heet 90.1006901006/53-543-1042-12-220-815/00090.111-F01 1 x Fe-CuNi Type …L“-35 ... 480°C220weld-in sleeve901006/53-543-2042-12-220-815/00090.111-F022 x Fe-CuNi Type …L“220Note: Because of the high response accuracy, the use of thermowell s (pockets) is not admi ss ible .Actual type de s ignationOld type de s ignationProbe typeTemperature rangeIn s tall. length mmP roce ss connectionRTD temperature probe Data S heet 90.200690.2006/10-390-1003-1-8-250-104/00090.210-F951 x Pt100max. 300°C250Thermocouple s Data S heet 90.1006901006/45-551-2043-2-xxxx-11-xxxx2 x NiCr-Ni, Typ E …K“max. 1 50°C50 (2000)Page 12/14Data Sheet 701150Connection possibilities of the sensors (SIL)The JUMO safety M STB/STW 701150 evaluation device structure is basically identical. Various possibilities to connect the sensors are available. These possibilities are listed in the following table along with the achievable SIL level:Note:Variants 1 to 4 were evaluated with JUMO probes according to data sheets 901006 and 902006. For variant 5 no sensor system was taken into account. In this case, the user selects the sensor system. For this reason, the user is responsible for evaluating the achievable SIL.If the used SIL-capable sensor consists of hardware and software (e.g. transmitter), the maximum SIL that can be achieved —irrespective of the architecture—is the one according to which the sensor software was developed (so, for example, if the sensor software has SIL 2, the max. achievable SIL is 2).The possibility to connect passive sensors such as double thermocouples, Pt100, or Pt1000 sensors means that the sensors do not necessarily require a SIL qualification. In this case, the specification of the failure rates for the passive sensors is sufficient for the SIL qualification of the overall system. The user of the system must always determine the PFD avg and/or PFH value of the overall safety circuit to evaluate the achieved SIL.Failure rates and SFF for 70.1150...23 (AC 240 V)Failure rates and SFF for 70.1150...25 (AC/DC 24 V)Note:Variants 1 to 4 were evaluated with JUMO probes according to data sheets 901006 and 902006.For variant 5 no sensor system was taken into account. In this case, the user selects the sensor system.The PFH and PFD avg values were calculated assuming that the time to restore the system is 8 h (MTTR = 72 h). Furthermore, the calculation was based on a lifetime of 10 years (T 1 = 10 y). The Common Cause Factor was determined according to the tables of DIN EN 61508 for sensor systems and logic.Variant Connected sensorsArchitectureAchievable SILSensor systemLogics 1 1 × Pt100 in 2-wire circuit individual sensor1oo11oo2D 21a 2x Pt100/1000 2-wire circuit 1oo21oo2D 322x Pt100/1000 3-wire circuit 1oo21oo2D 332x thermocouple 1oo21oo2D 341x Pt100/10002-wire and 3-wire circuit 1x thermocouple1oo21oo2D35STB/STW 70.1150 without sensor system 1oo2D archi-tectureno probe or use 4 to 20 mA (means that the sensor is not taken into account for the cal-culation).Sensors connected by the system user Architecture acc. to connection 1oo1 or 1oo21oo2D SIL of the used sen-sor (HW only)The systematic ca-pability (SC) of the used sensor Max. achievable SIL of the system with1oo1 sensor sys-tem architecture Max. achievable SILof the system with 1oo2 sensor system architecture 11111212222223233333Variant λs[Fit]λdd[Fit]λdd[Fit]SFF PFH (1/h)PFD avg 1865.21306.2432.3196% 4.56 e -9 2.02 e -41a 865.21306.2432.3196% 1.05 e -9 4.57 e -52868.17303.2832.3196% 1.05 e -9 4.57 e -53881.62326.7833.6296% 1.03 e -9 4.49 e -54887.68343.8235.5296% 1.22 e -9 5.30 e -55881.02313.4335.5796%1.04 e -94.48 e -5Variant λs[Fit]λdd[Fit]λdd[Fit]SFF PFH (1/h)PFD avg 1799.3306.3233.6196% 6.59 e -9 2.91 e -41a 799.3306.3233.6196% 3.07 e -9 1.35 e -42802.26303.3633.6196% 3.07 e -9 1.35 e -43827.25324.7137.9196% 3.13 e -9 1.37 e -44833.31341.7539.8196% 3.23 e -9 1.41 e -45818.96323.0736.2696%3.05 e -91.33 e -4Page 13/14Data Sheet 701150Calculations DIN EN ISO 13849-1 Performance Level - low voltage 230 VCalculations DIN EN ISO 13849-1 Performance Level - extra low voltage (ELV) 24 V3.The MTTF d value of a partial system must be limited to 100 years according to the DIN EN ISO 13849-1 requirements.Variant MTTF dDC avg CCF PL 1100 years 3 (337 years)90%80PLd 1a 100 years3 (337 years)90%80PLe 2100 years 3 (340 years)90%80PLe 3100 years 3 (317 years)91%80PLe 4100 years 3 (313 years)91%80PLe5100 years3 (327 years)91%80See "Connection possibilities of the sensors" tableVariant MTTF dDC avg CCF PL 1100 years 3 (336 years)90%80PLd 1a 100 years3 (336 years)90%80PLe 2100 years 3 (339 years)90%80PLe 3100 years 3 (315 years)90%80PLe 4100 years 3 (311 years)90%80PLe5100 years3 (318 years)90%80See "Connection possibilities of the sensors" tableScope of delivery1 JUMO safety M STB/STW in ordered version 1 operating manualPage 14/14Data Sheet 701150Order details Array AccessoriesArticle Part no.Setup program, multilingual00548742USB cable00506252External unlocking button RT97097865。

Adjust Clutch Linkage Verify Clutch Brake Squeeze Lubricatedistance should be 0.490" – .560" (12.70 –14.22 mm):Step 2.Mechanical Linkages Only :Adjust the clutch linkage until the yoke fingers contact the release bearing (zero free-play in the cab).the release bearing and the clutch brake. Press the pedal down to clamp the gauge.• If the gauge does not clamp,returnto Step 1 and readjustthe clutch linkage.the gauge can be removed.• If the pedal is more than 1" (25.4 mm) from the floor, readjust the truck linkage to move the yoke fingers further from the release bearing. Return to Step 4.Verify there is 1 inch or more clutch pedal free-play with 0.125"clearance between the release yoke finger and release bearing. If not, adjust clutch linkage per OEM instructions.Verify Free-Playbearing• If the distance is more than 0.560" (14.22 mm) return to Step 1 and readjust the clutch linkage. • If the distance is less than 0.490" (12.70 mm) consult Heavy-Duty Clutch Service Manual (CLSM0200).Feeler gaugeReleasebearing Clutch brakeor moreNOTICE: Do not reset the clutch.Eaton 15.5" Advantage Series Self-Adjusting Clutch CLMT1280 EN-USOctober 2017Installation ProcedureFlywheel Housing Face RunoutFlywheel Face Runout Flywheel Housing I.D. Runout Put gauge fingeragainst flywheel housing pilot I.D.Rotate flywheel onerevolution. Max. runout is 0.008" (0.20 mm)Put gage finger incontact with flywheel face near the outer edge.Measure Engine Flywheel Housing and FlywheelEngine flywheel housing and flywheel must meet these specifications or it may result in premature clutch failure. Remove and replace old pilot bearing per engine manufacturer instructions. All gauge contact surfaces must be clean and dry. Clean flywheel surfaces of all grease, oil, and rust preventatives. Failure to perform this function can affect the performance of the clutch. Use a dial indicator and check the following:Rotate flywheel onerevolution. Max. runout is 0.005" (0.13 mm)Put gage fingercontacting pilot bearing bore.Rotate flywheel onerevolution. Max. runout is 0.008" (0.20 mm)Secure dial indicator base toPut gage finger inflywheel housing.up to 5 times, this:• Moves release bearing slightly closer to the transmission • Gains free-play in cabNote: Refer to CLSM0200 for lube hose installation procedures used with hydraulic clutch release systems.Note: Refer to TCMT0021 for additional lubrication information.NOTICE: Do not add lube (never seize or grease) tothe input shaft splines. The discs must be free to move.ClutchBrakeYokeFingerMechanical Linkages OnlyHydraulic Linkages: Skip to Step 7Clutch BrakeYoke FingerEatonVehicle Group P.O. Box 4103Kalamazoo, MI 49003 USA 800-826-HELP (4357)/roadrangerCopyright Eaton, 2017.Printed in USANote: Refer to CLSM0200and CLSL1511NOTICE: Eaton recommends the use of Roadranger EP2for release bearing lubrication, or an equivalent Lithium Complex, NLGI #2 or #3 grease with a NLGI LB/GC performance rating and a dropping Point temperature of 220 C (428 F) or higher. Failure to use the proper grease may affect bearing life and void the warranty coverage on your Eaton product.fingers.Note: When installing clutch to flywheel, position the wear indicatorat the bottom of flywheel to ease future clutch servicing.8Remove four yellowshipping bolts in acrisscross pattern.Check Transmission for WearReplace any worn components.Input Shaft SplinesAny wear on the splines willrelease (clutch drag).shaft splines.Cross Shaft and BushingsExcessive wear at these points can causeRef. 1990SAE handbook 4:36.106. Replace transmission bearing retainer cap if length isgreater than 8.71” (221.33 mm).Transmission BearingRetainer Capprematurely.Input Shaftreduce sleeve bushing lifeand cause it to come out.race ofFasten Transmission to Flywheel Housingrotating the output shaft.CAUTION: Do not pull on release arm to install transmission.This will cause the clutch to over adjust.Do not add NOTICE: Use the Eaton Clutch Selector Guide (CLSL1511)to make ensure you have the correct clutch.WARNING: An assembled clutch weighs about 150 lbs (68 kg).Avoid the risk of injury. Use proper equipment when lifting a clutch.。

S280商标声明•GSAT以及飒特是广州飒特公司的商标。

•除以上名称及产品外，本操作手册内所述的名称与产品可能为其他公司的注册商标或商标。

版权© 2011 GSAT Ltd 版权所有.1手册中使用的符号 这个符号代表可能会影响热像仪操作的项目。

这个符号代表该项操作步骤的补充资料。

本使用手册中所列出的图标是什么?液晶显示屏/寻像器上显示的信息 (第25页)商标声明•GSAT 以及飒特是广州飒特红外股份有限公司的商标。

• Microsoft Windows 是微软计算机公司在美国与/或其他国家的注册商标或商标。

• 除以上名称及产品外，本操作手册内所述的名称与产品可能为其他公司的注册商标或商标。

版权 © 2007 GSAT Ltd 版权所有介绍热像仪的所有部件，包括电池的充放电和安装。

准备工作讲述热像仪的基本功能。

学习如何打开/关闭热像仪，以及如何使用热像仪进行测量。

基本功能讲述怎样使用热像仪的分析工具、打开/关闭激光指示器等的一些高级的功能。

开始拍摄讲述怎样对图像进行记录、回放、删除以及加入语音/文字注释。

回放与删除图像讲述把图像下载到计算机的方法。

下载图像讲述把红外视频传输到计算机的方法，及讲述使用监视器进行拍摄和播放图像的方法。

把热像仪连接到计算机之前，请先务必阅读此部分。

连接.2目录请先阅读本节 (5)部件介绍 (10)正面 (10)背面/底部 (11)控制键 (12)准备工作 (13)为电池充电 (13)安装电池/ (16)开启关闭电源 (18)安装摄像灯 (19)安装耳机 (20)设定日期/时间 (21)偏好设定 (24)基本功能 (23)使用液晶显示屏/寻像器 (23)在液晶显示屏/寻像器上查看信息 (25)菜单的操作 (27)把设置重置为默认值 (29)开始拍摄 (30)热像仪的调节 (30)调节焦距 (30)手动调焦 (30)图像放大 (31)显示模式 (32)四画面模式 (32)切换红外/可见光图像 (33)仅显示图像 (35)图像调节 (36)自动调节 (36)手动调节 (37).3使用滤镜 (38)冻结/激活图像 (39)图像设定 (40)测温功能 (42)设定目标参数 (42)设定分析参数 (44)分析工具 (48)点分析工具 (48)区域分析工具 (51)直线分析工具 (52)等温显示工具 (54)清除分析 (55)保存图像 (57)保存设置 (58)为图像添加注释 (60)语音注释 (60)文字注释 (61)激光指示器 (62)回放与删除图像 (63)打开图像 (63)回放语音注释 (66)删除图像 (67)连接外部设备 (68)连接监视器 (68)连接计算机 (69)硬件连接 (69)通过USB下载红外图像 (70)安装驱动程序 (71)故障排除 (73)故障排除 (74)附录 (75)热像仪的维护以及保养 (75)常见物料辐射率表 (76)规格 (81).4试拍我们建议您在拍摄重要的图像之前，先试拍几个其他的图像，确保您能正确无误地操作本像仪。

ALWAYS REFER TO ANY NOTIFICATIONS AT THE END OF THIS DOCUMENT REGARDING PRODUCT INSTALLATION, MAINTENANCE OR SUPPORT.(By Others)Series 78USeries 786Series 78TSUPPLY1.0 PRODUCT DESCRIPTIONAvailable Sizes• ½ – 2”/DN15 – DN50Maximum Working Pressure • 400 psi/2758 kPa/27.6 bar Operating Temperature Range• –4°F to +230°F/–20°C to +110°CFunction• Provides simplified coil circuit installation that meets optimal hydronic system design requirements Application• Hot and cold water, including treated and untreated water systems • This KOIL-KIT ™ Coil Pack includes:• (1) Series 78T Ball Valve Union Combination – Sweat x Sweat • (1) Series 78U Union Port Fitting – Sweat x Male Union • (1) TA Series 786H Balancing Valve – Sweat x SweatNOTE• The Series 78T includes a PT port and a blow-down valve. The Series 78U includes a PT port and a manual air vent.2.0 CERTIFICATI N/LISTINGSProduct designed and manufactured under the Victaulic Quality Management System, as certified by LPCB in accordance with ISO-9001:2008.Series 78T/78U Manual Koil-Kit ™ Coil Pack with TA Series 786H Sweat Globe Style Valve08.63System No.Location Submitted ByDateSpec Section Paragraph ApprovedDateSeries 78T Ball Valve Union Combination Body: Dezincification resistant (DZR) brass alloy Union: DZR brass with EPDM O-ring Tailpiece: DZR brassStem: BrassStem O-Ring Seals: EPDMHandle: Steel with vinyl gripSeries 78U Union Port FittingBody: DZR brass alloyUnion: DZR brass with EPDM O-ringSeals: EPDM O-ringTailpiece: DZR brass alloyTA Series 786H Balancing ValveValve Body and Bonnet: AMETAL® DZR brass alloy Sealing (Body/Bonnet): EPDM O-ringValve Plug: AMETAL®Seat Seal: EPDM O-ringSpindle: AMETAL®Slip Washer: Polytetrafluoroethylene (PTFE) Spindle Seal: EPDM O-ringSpring: Stainless steelHand Wheel: Polyamide and TPEMeasuring Points: AMETAL®Measuring Point Seals: EPDMMeasuring Point Caps: Polyamide and TPENOTE• AMETAL® is the dezincification-resistant brass alloy of IMI TA.Series 78T Ball Valve Union CombinationNOTE• Optional tailpieces may be ordered for reductions and for changing end configurations from sweat to threaded or threaded to sweat. If needed, specify optional tailpiece when ordering.Series 78U Union Port FittingNOTE• Optional tailpieces may be ordered for reductions and for changing end configurations from sweat to threaded or threaded to sweat. If needed, specify optional tailpiece when ordering.4.3 OPTIONAL PARTSSeries 78T/78U Union Tailpieces (Optional)Female Tailpiece Sweat Tailpiece Male TailpieceHose End Drain Valve (Optional)A hose end drain valve is factory-installed on the Series 78T.4.5 OPTIONAL PARTSProbe Port (Optional)For Series 78T and Series 78UHandle Extension (Optional)For Series 78T4.7 OPTIONAL PARTSAir VentA manual air vent is factory-installed on the Series 78U. This product can also be mounted on the Series 78T or provided loose for other piping needs.C V /K V values for flow of water at +60°F/+16°C are shown in the table.Formulas for C V and K V valuesΔP = Q 2/C V 2 ΔP = Q 2/K V 2Q = C V × √ΔPQ = K V × √ΔPSeries 78T Ball Valve Union CombinationSeries 78U Union Port FittingFlow CoefficientC v K v Q (Flow)GPM m3/hr ΔP (Pressure Drop)psibarWhere:TA Series 786H Balancing Valve Valve Selection GuideNOTES• Balancing valves should be sized in accordance with the GPM/LPM flows (and not in relation to pipeline size). Sizing balancing valves based on the minimumor maximum flow rates is not recommended. Valves should be sized using the nominal flow rate only. The Minimum Flow is calculated from the minimum open setting of the valve and a minimum pressure drop 1 Ft. WG (= 3 kPa). The Nominal Flow is calculated from the maximum open setting of the valve and the minimum recommended pressure drop, 2 Ft. WG (= 6 kPa). The Maximum Flow is calculated from the maximum open setting of the valve and the maximum pressure drop, 20 Ft. WG (= 60 kPa). A computer program, TA-Select, is available for calculation of valve handwheel pre-set position and other applications.• For information regarding Allen Wrench sizes see the Material Specifications section on page 3.• Measuring Accuracy: The hand wheel zero position is calibrated and must not be changed. Valves have an accuracy of flow measurement of 2% to 3% whenused within their recommended flow range and installed in accordance with the figure below.• For the most accurate results, a Series 734 TA SCOPE or Series 73M CMI should be used. However, any differential pressure meter may be used.The illustration relates to the accuracy of differential pressure measurement and is not an installation requirement.2 D 10 D2 D 5 D 5.2 PERF RMANCETA Series 786H Balancing Valve Cv Values for Various Handle SettingsThe values below may be used when calculating and sizing a piping system.1C V = GPM at a ΔP of 1 psi/7 kPa) through the valve at any given setting.1 psi = 2.31 ft. of H 2O 2Full open valve.For liquids other than water, the flow values from the balancing wheel can be adjusted as follows:Divide the flow rate by the square root of the specific gravity.This applies to liquids having, on the whole, the same viscosity as water, i.e. most water/glycol mixtures and water/brine solutions at room temperature. At low temperatures, the viscosity increases and laminar flow may occur in certain valves. The risk increases with small valves, low settings and low differential pressures.A computer program (Hy-Select) is available for calculation of pre-setting values and other applications. When the flow setting is verified or changed to the final setting, the memory stop should be set. Contact Victaulic for further information. When Δp and the design flow rate are known, use the formula shown to calculate the C V value.A computer program, Hy-Select, is available from Victaulic for calculation of pre-setting values and other applications.5.4 PART CODES08.63 11841 Rev B Updated 04/2020 © 2020 Victaulic Company. All rights reserved.User Responsibility for Product Selection and SuitabilityEach user bears final responsibility for making a determination as to the suitability of Victaulic products for a particular end-use application, in accordance with industry standards and project specifications, and the applicable building codes and related regulations as well as Victaulic performance, maintenance, safety, and warninginstructions. Nothing in this or any other document, nor any verbal recommendation,advice, or opinion from any Victaulic employee, shall be deemed to alter, vary, supersede, or waive any provision of Victaulic Company's standard conditions of sale, installation guide, or this disclaimer.Intellectual Property RightsNo statement contained herein concerning a possible or suggested use of any material, product, service, or design is intended, or should be constructed, to grant any license under any patent or other intellectual property right of Victaulic or any of its subsidiaries or affiliates covering such use or design, or as a recommendation for the use of suchmaterial, product, service, or design in the infringement of any patent or other intellectual property right. The terms “Patented” or “Patent Pending” refer to design or utility patents or patent applications for articles and/or methods of use in the United States and/or other countries.NoteThis product shall be manufactured by Victaulic or to Victaulic specifications. Victaulic recommends all products to be installed in accordance with current IMI TA installation/assembly instructions. Victaulic and IMI TA reserve the right to change productspecifications, designs and standard equipment without notice and without incurring obligations.InstallationReference should always be made to the current IMI TA installation/assembly instructions for the product you are installing. For coupling and strainer installation, reference should always be made to the I-100 Victaulic Field Installation Handbook for the product you are installing. Handbooks are included with each shipment of Victaulic products for complete installation and assembly data, and are available in PDF format on our website at WarrantyRefer to the Warranty section of the current Price List or contact Victaulic for details.TrademarksVictaulic and all other Victaulic marks are the trademarks or registered trademarks of Victaulic Company, and/or its affiliated entities, in the U.S. and/or other countries.7.0 REFERENCE MATERIALS08.16: Victaulic Balancing Valves - TA Series 786H/787H/788/789 and Series 78KH I-KOIL-KIT: Victaulic KOIL-KIT™ Coil Pack Installation and Maintenance Instructions11。

The 8588A Reference Multimeter is the world’s most stable digitizing multi-meter. Designed for calibration laboratories, this long-scale high-precision reference multi-meter features superior accuracy and long-term stability over a wide measurement range, with an intuitive user interface and a color display.The 8588A delivers reliable and reproducible measurements with exceptional performance suitable for primary levellaboratories. With more than 12 measurement functions, includ-ing the new digitize voltage, digitize current, capacitance, RF power, and external shunts for dc and ac current, the 8588A helps you consolidate your lab’s cost of test into a single mea-surement instrument. Its superb analog performance is aug-mented by Fluke Calibration’s new high-speed system design and the industry’s fastest direct digitizing capability, enabling significant throughput increase for many automated systems demanding a combination of the highest speed and best accuracy.The 8588A holds the indus-try’s best one-year dc voltage accuracy of 2.7 uV/V at 95 % confidence interval, or3.5 uV /V at 99 %, and best 24-hour stability of 0.5 uV/V (95 %) or 0.65 uV/V (99 %),enabling it to outperform other long-scale reference multimeters on the market. The 8588A fur-ther pushes the speed envelope by producing a stable 8.5 digits reading in a mere one second.The 8588A platform consists of two models. The 8588A and 8558A both feature a common intuitive user interface with an easy-to-navigate menu struc-ture for all configurations and a set of matching SCPI-compliantcommands for automated envi-ronments. In addition, both models support a minimum of 100,000 readings per second at 4.5 digits across GPIB, USB or Ethernet.TECHNICAL DATA8588A Reference Multimeter8558A 8.5-Digit Multimeter8588A: The world’s most stable digitizing multimeterThe 8588A is designed for calibration and metrology laboratories that require the highest stability for the most accurate measurements to maintain maximum confidence in traceability.8558A: The industry’s fastest direct 5 mega-samples-per-second digitizing for system automation in labs and manufacturing test environmentsThe 8558A offers a subset of 8588A functions and features at an extremely competitive accuracy and speed performance.8588A key features and performanceDC voltage• 100 mV to 1000 V, (1050 V max)• 2.02x full scale• Maximum resolution: 1 nV • 2.7 μV/V (95 %) 3.5 µV/V (99 %), 1 year• 0.5 μV/V (95 %) 0.65 µV/V (99 %), 24 hour stability • 0 to 10 s reading aperture (200 ns resolution)DC current• 10 uA to 30 A• 2.02x full scale• Maximum resolution: 1 pA • 6.5 µA/V (95 %), 8.4 µA/V (99 %), 1 year• 0 to 10 s reading aperture (200 ns resolution)AC voltage• 10 mV to 1000 V, 1 Hz to 10 MHz, (1050 Vrms max)• 2.02x full scale Vpp, 1.2x full scale Vrms• Maximum resolution: 1 nV • 60 µV/V (95 %), 77 µV/V (99 %), 1 yearAC current• 10 uA to 30 A• 2.02x full scale Vpp, 1 Hz to 100 kHz 1.2x FS Vrms• Maximum resolution: 1 pA • 250 µA/V (95 %), 323 µA/V (99 %), 1 year Resistance• 1Ω to 10 GΩ (20 GΩ max) • 2.02x full scale• Maximum resolution: 10 nΩ• 7 µΩ/Ω (95 %), 9 µΩ/Ω (99 %), 1 year• Low current mode,high voltage mode and current-reversal Tru Ohms™Digitize V• 100 mV to 1000 V, (1050 Vmax)• 2.02x full scale• Maximum resolution: 18 bits• 5 mega-samples per secondsample rate• Up to 20 MHz bandwidthDigitize I• 10 µA to 30 A• 2.02x full scale• Maximum resolution: 18 bits• 5 mega-samples per secondsample rate• Up to 4 MHz bandwidthFrequency or period• Voltage, up to 10 MHz• Current, up to 100 kHz• Frequency up to 100 MHzon BNC• 0.5 µHz/Hz, 1 yearCapacitance• 1 nF to 100 mF• 400 µF/F, 1 yearTemperature• PRT and thermocouple• 5 mK PRT, 25 mK TC, 1 yearRF power• Rhode & Schwarz NRP seriesDC I and AC I external shunt• A40B and any other externalshuntReading speed• 1reading/**************memory• 100,000readings/*****digit into memory• Up to 5,000,000 (5 MS/s)readings /s into volatilememory in digitize V and I• Up to 500,000 readings/stransfer through USB inbinary formatMeasurement memory• 15 million readings volitile• 7.5 million readings volitilewith time stamp* 16 GB non-volitileGPIB, USBTMC, Ethernet• Native SCPI compliant remotecommands• 8508A and 3458A emulationmode• Fully support MET/CAL™ cali-bration procedures library inFluke 8508A emulation• IVI driver• USB thumb drive for conve-nient data transfer in .csvformatTrigger mechanisms• Manual trigger• External BNC Trig In andTrig Out• Internal or level trigger• Timer trigger• Epoch trigger• Line trigger• BUS triggerCE and CSA compliantComparing the 8588A and the 8558AComparing the 8588A and the 8558AStability, simplicity and performance by design The 8588A incorporates excep-tional linearity, low noise and stability in the design. This best-in-class long-scale digital reference multimeter guarantees superior 3.5 ppm one-year dc voltage relative accuracy at99 % confidence level and long-term stability over awide measurement range and functions.The 8588A contains the world’s most stable voltage references and attenuators custom crafted at Fluke Cali-bration. These precision components eliminate the need for daily internal self-calibration to compensate for drift when less-precise components are used. Autozeroing also becomes unnecessary because the ampli-fier offsets are ultra-stable. The 8588A achieves an exceptional 8.5-digit resolution reading in one second, two times shorter than the next best in class, which amounts to considerable productivity improvements.The 8588A is easy and intui-tive to use. It is the ideal lab multimeter for metrologists and calibration laboratory manag-ers who expect and appreciate a straightforward setup that quickly achieves the maximum performance of the instrument.• 3.5 µV/V (99 %), 1 year relative accuracy, dc voltage, without internal self-calibra-tion or auto-adjustments • 0.65 µV/V (99 %), 24 hour stability, dc voltage• 9 µΩ/Ω (99 %), 1 year, resistance• 2.02x full scale stretches lower noise floor to higher signal levels to maximize higher accuracies from the instrument• 0 ns to 100 s aperture setting allows the industry’s widest flexibility to control data capture window Accuracy, offset andstability provide excellentac performanceThe 8588A provides the mostaccurate true ac rms mea-surement available in a FlukeCalibration multimeter.With a 5 mega-sam-ples-per-second samplinganalog-to-digital converterand an extraordinarily stabledc analog path, the 8588Aachieves remarkable ac rmsmeasurement performance thatis ten times faster, two timesless noisy, and more sensitivefor low level signals than otherinstruments in this class. Itutilizes digital rms calculationsto maintain full resolution of awide dynamic range of digitizedsignals.Rapid digital filters are moreeffective than their analogequivalents for faster settling.The digital filters eliminate thedielectric absorption on analogfilters, commonly associatedwith residual slow-tail char-acteristics. The digital filterseffectively shorten settling timeto within 6 cycles of the filterfrequency and less than 1 ppmof the fully settled value. This isup to 10 times faster than otherlong-scale precision digital mul-timeters at low frequencies.Low noise is achieved fromaveraging the collected high-resolution digitized data andthe inherently stable signalpath. De-coupling low levelsignal sensitivity from tempera-ture drift enables the 8588A tomake high accuracy low-levelac measurements. Therefore,temperature drift, offsets, andlong-term instability typicallyassociated with an analog rmsconverter are eliminated.• 77 µV/V (99 %), 1 yearrelative accuracy, for themost accurate ac voltagemeasurement• 323 µA/A (99 %), 1 yearrelative accuracy, ac current• 15 ms settling time at1 kHz ac filter accom-plishes 10x faster ac voltagemeasurement• 2.02x full scale Vpp, 1.2x fullscale Vrms• Up to 30 A for peak accurrent greatly extends accurrent measurement rangeAC voltage measurementAC voltage measurement settingsSoft menu keysLarge, bright full color display30 A terminal™ terminalsThe intuitive user interface and flatmenu structure makes it easy to access configurations and view trend plots,waveforms, FFT, histogram and statistics.easy to learn.Enables industry's widest current measurement range through a single terminal.Multi-language selectionChoice of English, Chinese, French,Japanese, Korean, Russian and Spanish.and easily to a flash drive.Run/Stop triggerToggles the continuous, or free run, measurement state.easily to a flash drive.Usability designed for metrologists by metrologistsThe 8588A is the ideal lab multimeter. It streamlines the measurement process while eliminating misunderstandings, with an easy-to-access user interface in English, Chinese, French, German, Japanese, Korean, Russian and Spanish. An intuitive graphical display lets you easily visualize trends, histograms, complex waveforms, and statistics and perform routine metrology tasks quickly. You can perform both real-time and post-capture analysis for short-term and long-term stabil-ity, identifying and quantifying drifts, run-around noise and uncertainty analysis without the need for an external com-puter or software. You can also quickly visualize post-processed frequency domain signals of fundamental and harmonic amplitude and phase content.Some popular system mul-timeters have complex menustructures and unintuitive com-mands, while others lack anyuser interface, presenting bar-riers to training and operation.By contrast, the 8588A/8558A feature an easy-to-access con-figuration menu that makes it easy to train new users.The front panel features many new usability improve-ments. Visual ConnectionManagement™ output terminals light up to show which termi-nals are active, guiding the user to make the correct connections. The handles are over-molded for comfort and easy transport. USB host ports are placed both on the front and rear of the instrument. Use the ports to export data to external memory devices or simplify firmware updates. For remote communi-cation with a PC, choose from Ethernet, GPIB or USBTMC con-nectors on the rear panel.The 8558A/8558A provide full emulation of the Fluke8508A Reference Multimeter and command compatibility of the Keysight 3458A Digital Multimeter via SCPI commands, making it an ideal replacement for these older instruments.• Graphical display thatenables instantaneousvisualization of trend plot, Trend plotAnalyze: Histogramstatistical analysis, histogramand FFT.• GPIB, USBTMC, Ethernetallows industry standard selection of remote interface.• USB thumb drive enablesquick and easy data transfer to PC in .csv format.• SCPI compliant commandswith 8508A and 3458A emulation mode sim-plifies and accelerates system upgrade process to 8588A/8558A• Programmable front/rearinput switching with scan measurement allows ratio, difference and deviationmeasurements between front and rear terminals in dc voltage and resistance, func-tions with state-of-the-art linearity, noise performance, superb transfer uncertainties. • Capacitance and RF powermeter readout from Rohde & Schwarz NRP Seriesexpands the utility of 8588A in calibrating multi-product calibrators for improved pro-ductivity in calibration labs.Accurate data, delivered amazingly fastShorter test time on the8588A/8558A high-speed digital platform enables you to increase throughput, improve yield and realize a greater return on your investment.The 8588A/8558A digitizesto memory at 200 nanosec-onds per reading and delivers 4.5 digit data to a PC via USB, Ethernet and GPIB at 100,000 readings per second. Fast, high resolution data capture gives you the quantity and quality of information you need to make timely, correct decisions affect-ing system throughput and efficiency.• 0 ns to 100 s aperture setting allows industry’s widest flex-ibility to control data capture window• Reading speed: 1 reading /s @ 8.5 digits to 100,000 reading/***********• Data transfer from memory to PC: up to 500,000 readings /s in binary format through USB, up to 200,000 through Ethernet and GPIBDebug and perfect your device under testThe 8588A/8558A features a5 mega-sample digitizing rate with up to 20 MHz analog band-width, making it the first and only instrument on the market that can characterize extremely low level transient signals at 18-bit resolution. This capabil-ity makes it easier to debug designs, uncover anomalies and perfect your devices under test for use in real life environments.• Voltage sensitivity to hun-dreds of nV and current sensitivity to hundreds of pA allows you uncover ultra-low level transient signals• Up to 20 MHz bandwidth for voltage and 4 MHz for current retains high bandwidth con-tent of the signal measured • 18-bit SAR analog-to-digital converter that achieves 5 mega-samples per second • 5 mega-samples per secondsample rate, into buffer,for capturing complex, fastchanging waveforms• 15 million readings memoryallows large amount of datastorage eliminating theimmediate need to transferdata to a PC• Graphical waveform displayenables real-time visualiza-tion of complex waveforms,increased productivity withfaster access to results andanswersFast, reliable and accuratesystem compatibilityInserting a new instrument intoa tightly synchronized systemcan create overhead and incom-patibility. The 8588A/8558A’sdigital platform includescommon connectivity interfacesplus precise triggering that letsit digitize and transfer data toanywhere in the system foranalysis, with minimal effortand the highest reliability.• GPIB, USBTMC, Ethernetallows industry standardselection of remote interface• USB thumb drive enablequick and easy data transferto PC in .csv format• SCPI compliant commandswith 8508A and 3458A emu-lation mode simplifies andaccelerates system upgradeprocess to 8588A/8558A• Fully supports MET/CALcalibration procedures librarythat commands the Fluke8508A• IVI Driver for industrystandard control of DMM on8588A/8558A• Trigger Mechanisms: ExternalBNC Trigger Trig In and TrigOut, Internal or level trigger,Timer trigger, Epoch trigger,Line trigger, Bus Trigger• Less than 100 ns triggerlatency with external BNCtrigger for digitize voltageand currentTrend PlotAnalyze: FFTTrigger SystemThe MET/CAL™ Calibration Management Software advantageBoth 8588A and 8558A work with Fluke CalibrationMET/CAL™ Calibration Software. With native MET/CAL support or using 8508A emulation mode, you can increase throughput up to four times that of traditional manual and multi-product meth-ods while ensuring calibrations are performed consistently every time. This powerful software documents calibra-tion procedures, processes and results for ease in complying with ISO 17025 and similar quality standards.Support and services when you need them Fluke Calibration offers testing,repair and calibration servicesto meet your needs quickly andat a fair cost while maintainingthe high level of quality that youexpect. Our electrical calibrationlaboratories are accredited forconformance to ISO Guide 17025and we maintain global calibra-tion and repair facilities.Get peace of mind anduptime with a Gold Care-Plan service packageThe 8588A/8558A multimeterscome with a standard one-year factory warranty. You canenhance warranty protectionwith a Priority Gold InstrumentCarePlan service package.A Priority Gold InstrumentCarePlan includes an expe-dited annual calibration toreduce downtime by a weekand extended warranty to helpensure the best long-term per-formance from your instruments.Choose from one-year, three-year or five-year CarePlans.(Note: Priority shipping timesvary by country. Contact yourlocal Fluke Calibration salesrepresentative for details.)Ordering informationModels Description8588A Reference Multimeter8558A8.5 Digit MultimeterStandard accessories Description8588A-LEAD KIT-OSP General purpose probe kit & pouch with 2x 4-way shorting PCBOptional accessories DescriptionY8588Rack mount kit (2U – 3.5 in)Y8588S Slide rack mount kit8588A/CASE Transit case8588A-LEAD Comprehensive measurement lead kitIncludes:• 1x 8588A-LEAD KIT-OSP, general purpose probe kit• 1x 1 m screened 322/0.1 copper (30 Amp Rating) with 6 mm gold plated copperspade terminals• 4x 8588A-LEAD/THERMAL, 1.5 m two core screened low thermal cable with 6 mmgold plated copper spade terminals• 2x Locking adaptor 4 mm binding post to safety8588A-SHORT4-way shorting PCB8588A-LEAD/THERMAL Low thermal lead cable, 1.5 m two core screened low thermal cable with6 mm gold plated copper spade terminals8588A-7000K Cal kit with 1 GOhm standard and connecting leads96000SNS R&S power sensor8588A Reference Multimeter / 8558A 8.5-Digit Multimeter Fluke Calibration 1112 Fluke Calibration 8588A Reference Multimeter / 8558A 8.5-Digit Multimeter Fluke Calibration PO Box 9090, Everett, WA 98206 U.S.A.Fluke Europe B.V. PO Box 1186, 5602 BD Eindhoven, The Netherlands Web access: http://www.flukecal.eu Fluke Calibration. Precision, performance, confidence.™For more information call: In the U.S.A. (877) 355-3225 or Fax (425) 446-5716 In Europe/M-East/Africa +31 (0) 40 2675 200 or Fax +31 (0) 40 2675 222 In Canada (800)-36-FLUKE or Fax (905) 890-6866 From other countries +1 (425) 446-6110 or Fax +1 (425) 446-5716 Web access: ©2019, 2020 Fluke Calibration. Specifications subject to change without notice. Printed in U.S.A. 2/2020 6011948b-en Modification of this document is not permitted without written permissionfrom Fluke Calibration.。

Portrait Orientation -Default settingXTSPlusWall-mounted TouchscreenInstallation ManualOverviewThe Russound XTSPlus is an elegant, in-walltouchscreen with a 5.0” HD display that isdesigned to be a primary user interface forcontrolling a compatible Russound audio system.By running the MyRussound™ app, the XTSPlusallows full control of any zone in a Russoundsystem and provides metadata feedback fromcompatible sources, including song titles, artistname, album titles, and album art.Russound1 Forbes Rd., Newmarket, NH 03857, USAtel 603.659.5170 • fax 603.659.5388technical support: 866.888.7466e-mail:*****************Limited WarrantyThe Russound XTSPlus is guaranteed for one (1)year from the date of purchase against all defectsin materials and workmanship. During this periodRussound will replace any defective parts andcorrect any defect in workmanship without chargefor either parts or labor. For this warranty to apply,the unit must be installed and used according to itswritten instructions. If service is necessary, it mustbe performed by Russound. Russound assumes noresponsibility for defects resulting from abuse orservicing performed by an agency or person notspecifically authorized in writing by Russound. Damageto or destruction of components due to improper usevoids the warranty. In these cases the repair will bemade at the owner’s expense. Accidental damage andshipping damage are not considered defects under theterms of the warranty. To return for repairs, the unitmust be shipped to Russound at the owner’s expense,along with a Return Authorization number anddocumentation explaining the nature of the servicerequired. Any product returned without prior writtenpermission will be returned to sender. Russoundsells products only through authorized Dealers andDistributors to ensure that customers obtain propersupport and service. Any Russound product purchasedfrom an unauthorized dealer or other source, includingretailers, mail order sellers and online sellers will not behonored or serviced under existing Russound warrantypolicy. Any sale of products by an unauthorized sourceor other manner not authorized by Russound shall voidthe warranty on the applicable product.Copyright ©2018 Russound® All rights reserved.All trademarks are the property of their respectiveowners. Specifications are subject to change withoutnotice.Step 3Attach the PoE Ethernet cable from the electricalbox to the rear of the XTSPlus touchscreen. Noother wiring connection is needed.Note: The XTSPlus uses a dynamic DHCP networkaddress. A DHCP-reservation may be used on acompatible router when a more permanent IPaddress is required.Step 4Attach the XTSPlus touchscreen to the mountingbracket by inserting the prongs of the mountingplate into the matching slots on the rear of theXTSPlus. Make sure that the XTSPlus is oriented asshown in the diagram below. T here are two captivemounting screws. Use a Phillips screwdriver totighten the screw at both the top and bottom ofthe XTSPlus to secure it in place.Installation InstructionsStep 1Install the electrical box or P-Ring. The typicalrecommended mounting height for a wall-mounted touchscreen is for the center of theelectrical box/p-ring to be at 59” (150cm) fromthe floor height. This may be adjusted for userpreference, but the 59” height is recommendedto accommodate all users.Note: The electrical box/P-Ring must be a1-gang piece. Make sure that the box/P-ring ismounted level and flush to the wall surface.Step 2Attach the XTSPlus mounting plate to the electricalbox or P-ring using the supplied screws. The plateshould be mounted so that the two prongs ateither end are facing into the room. These prongswill be used for attaching the XTSPlus to themounting plate. There is no specific top or bottomorientation. The plate may be mounted in eitherorientation as long as the prongs face outwards.28-1399 07.10.18, Rev. 4Landscape Orientation - The XTSPlus may also be installed in a landscape orientation, set the“Screen Orientation” setting in the Settings Menu to “Landscape”RussoundHigh resolution HD DisplayThe XTSPlus uses a high performance 5” HD IPS LCD display with a maximum resolution of 1280 x 720. The XTSPlus display also features projected capacitive technology, the latest touch technology used in smartphones and tablets, enhancing the XTSPlus with a quicker response time, high durability, and excellent optical performance.Control Always AvailableBy placing the powerful MyRussound™ app in a permanent location on a wall, the XTSPlus gives you full control and easy access to your Russound system, eliminating the need for your phone or tablet to simply change the volume or switch favorites. The XTSPlus gives you not only the benefit of controlling your entire Russound system from one interface but grants full access and control to your Russound system at any time by placing the MyRussound App in a permanent location.One-touch access to FavoritesFrom the N ow Playing screen, enjoy one-touch access to your list of system favorites. As soon as your favorite is selected, your Russound audio system will automatically switch to the appropriate source and begin playing your selection.Custom features available only on the XTSPlusWhile the XTSPlus runs the MyRussound app, ithas been customized with additional features that are needed for an in-wall touchscreen: Selectable Screen Timeout DelayThe XTSPlus provides several options for turning off the display after you have stopped using it. The options range from no timeout (display is always active) to up to 10 minutes. There is also an option called “Follow Zone Power” to turn off the display immediately whenever the zone being controlled is turned off. This setting is useful for bedrooms when you would like the XTSPlus to turn off immediately at night when the zone is turned off.Clean Screen ModeThe XTSPlus has a built-in cleaning mode that allows you to clean the screen while the touchscreen is active. Cleaning the screenPInstallation Requirements:1-Gang Electrical Box or P-Ring – The XTSPlus isdesigned for mounting into a 1-gang plastic ormetal electrical box. The box must be mountedso that the outer edges are flush with or recessedfrom the wall surface. If using a P-ring withexisting construction, the use of a low-profile ringsuch as the Arlington® LV1LP is recommended.Wired Ethernet Connection - The XTSPlususes a wired Ethernet connection in order tocommunicate with other Russound equipment.The XTSPlus must be on the same network asyour Russound controller. The XTSPlus uses DHCPfor obtaining a network address.The XTSPlus works with both EIA/TIA 568A and568B wiringwhile it’s active can sometimes result inunwanted button presses. The Clean Screenmode eliminates this problem. Select CLEANSCREEN in the Settings Menu and all buttonpresses will be ignored until you press andhold the button on the screen to exit cleaningmode. Use a soft, slightly damp, lint-free clothto clean your XTSPlus. Avoid getting moistureinto openings. Don’t use window cleaners,household cleaners, compressed air, aerosolsprays, solvents, ammonia, abrasives, or anycleaners containing hydrogen peroxide.Easy updatesUnlike some competitors’ products that runcustom software making it challenging to keepup-to-date, the XTSPlus makes it easy to keepyour interface up-to-date with the latest versionof the MyRussound app by performing a simpleupdate from the admin settings menu.NetworkingThe XTSPlus is an IP-networked device. Itconnects to any available Ethernet connectionon the same network as the Russound Controller.The XTSPlus uses DHCP to connect to thenetwork. If a more permanent IP address isrequired, use a DHCP reservation for the XTSPlusin your router configuration.Convenient PoE PowerThe XTSPlus is fully PoE compatible andis designed to connect to an 802.3af (PoEcompatible) network router or switch locatedpower.Admin settingshold the Settings icon from the NSettings menu appear.IP Address – This setting allows you to adjustthe IP address that the XTSPlus uses to find theRussound controller on your network. This IPaddress is normally discovered automatically(using DHCP) and does not need to be adjusted.Russound recommends not changing thissetting unless instructed to do so by RussoundTechnical Support. If a permanent IP address forthe XTSPlus is desired, set a DHCP reservationfor the XTSPlus in your router configuration.Enable Developer Options – This setting is foruse by Russound Technical Staff only.Clear cache and data – This setting is used to“refresh” the MyRussound app on the XTSPlus.All user preferences will be cleared, and theapp will restart automatically. User preferencesinclude display timeout settings, screenbrightness, etc. Using “Clear cache and data”does N OT affect any information stored onyour Russound controller such as room names,source names, favorites, or account settingslike usernames or passwords.Ethernet portUSB port (factory use only)PoE Power/Ethernet 802.3afReset button2341。

Telemetry Sensor1M23N17490R3008SB T-FHSS Air-2.4GHz 雙向通信系統S.B U S2 / S.BUS 孔位與 8 通道常規系統接收器感謝您購買F utaba R3008SB T-FHSS AIR-2.4GH z相容接收器. R3008SB 接收器的特點是與T-FHSS AIR-2.4GH z Futaba 發射機使用 S. BUS2 孔位進行雙向通信. 使用S. BUS2孔位可以使用令人印象深刻的遙測感應器陣列。

它還包括標準PWM輸出孔位和S. BUS輸出孔位。

本產品符合低功率電波輻射性電機管理辦法 第十二條、第十四條等條文規定1.經型式認證合格之低功率射頻電機，非經許可，公司、商號或使用者均不得擅自變更頻率、加大功率或變更原設計之特性及功能。

2.低功率射頻電機之使用不得影響飛航安全及干擾合法通信 ;經發現有干擾現象時，應立即停用，並改善至無干擾時方得繼續使用。

前項合法通信，指依電信法規定作業之無線電通信。

低功率射頻電機須忍受合法通信或工業 , 科學及醫療用電波輻射性電機設備之干擾。

額外電壓孔位請連接電源電池等使用配件的外部電壓電纜，可以使發射機顯示電池的電壓。

(基本安裝方式)S.BUS 伺服器S.BUS 陀螺儀請參考下表，LED狀態與接收器的狀況對照。

LEDLED 燈號指示S.BUS 2伺服器S.BUS 2陀螺儀使用預防措施Futaba T-FHSS Air 系統不是用於現有的 Futaba T- FHSS / S-FHSS/ FHSS / FASST / FASSTest system.R3008SB 接收器只能與支援T-FHSS Air的發射器一起使用。

開啟接收器之前，請勿連接額外電源。

警告未經負責合規的㇐方明確批准的變更或修改可能會使使用者失去操作設備的許可權。

R3008SB 接收器應通過泡沫橡膠、尼龍搭扣或類似的安裝方法防止振動。

請避免潮濕。

Western HemisphereLocation Satellite SatellitebusSourceOperator TypeCoverageLaunchdate/rocket(GMT)AlllocationsRemarksAs of148.0°W EchoStar-1LockheedMartinAS-7000USEchostar/DISHNetworkDirectBroadcasting28December1995, LongMarch 2E119°W(1996-1999),148.0°W(1999—)Scheduled to moveto 77°Wsoon2009-02-06139.0°W Americom-8LockheedMartinA2100AUSSES Americom& AT&TAlascomTelevisionand radiobroadcasting24 Cband(Canada,Caribbean,mainlandUSA)19December2000,Ariane 5GPreviouslyGE-8 forGEAmericom; alsoknown asAurora III;replacedSatcomC-5 inMarch20012008-11-20137.0°W Americom-7LockheedMartinUS SES AmericomTelevisionand radioMainlandUSA,14SeptemberPreviouslyGE-7 for2008-11-20A2100A broadcasting Canada,Mexico2000,Ariane 5GGEAmericom135.0°W Americom-10LockheedMartinA2100AUS SES AmericomTelevisionand RadioBroadcastingMainlandUSA,Canada,Caribbean, Mexico5 February2004, AtlasII AS2008-11-20133.0°W Galaxy-12 OrbitalSciencesCorporationStar-2US IntelsatTelevision/RadioBroadcasting9 April2003,Ariane 5G123.0°WreplacedfailedGalaxy 15131.0°W Americom-11LockheedMartinA2100AUS SES AmericomTelevisionand RadioBroadcasting24C-BandTranspondersMainlandUSA,Canada,Caribbean, Mexico19 May2005, AtlasII AS2008-11-20129.0°W Galaxy-27SpaceSystems/Loral FS-1300US IntelsatTelevisionbroadcasting & SatelliteInternetAccess25September1999,Ariane 44LPFormerlyknown asIA-7 andTelstar-72008-11-20Ciel-2ThalesAlenia SpaceSpacebus4000 C4CanadaCiel SatelliteGroupDirectBroadcasting10December2008,Proton-MLeased toEchostar/DishNetwork2009-02-06127.0°W Galaxy-13BoeingBSS-601US Intelsat24C-Bandtransponders1 October2003,Zenit-3SLSamesatelliteasHorizons-12008-11-20Horizons-1BoeingBSS-601USJapan SatelliteSystems24Ku-Bandtransponders1 October2003,Zenit-3SLSamesatelliteasGalaxy-132008-11-20125.0°W Galaxy-14 OrbitalSciencesCorporationStar-2US Intelsat24C-Bandtransponders -NorthAmerica13 August2005,Soyuz-FG/Fregat2008-11-20123.0°W Galaxy-18 SpaceSystems/Loral LS-1300US IntelsatTelevisionand radiobroadcastingNorthAmerica21 May2008,Zenit-3SLHybridC/Ku-band satellite2008-11-19121.0°W Galaxy-23SpaceSystems/LorUS IntelsatDirectBroadcastinNorthAmerica7 August2003,HybridC/Ku/Ka-b2008-11-26al FS-1300 g Zenit-3SL andsatellite;C-bandpayloadreferred toasGalaxy-23EchoStar-9 SpaceSystems/Loral FS-1300USEchostar/DISHNetworkDirectBroadcastingNorthAmerica7 August2003,Zenit-3SLHybridC/Ku/Ka-bandsatellite;Ku/Ka-bandpayloadreferred toasEchoStar-92008-11-26119.0°W DirecTV-7SSpaceSystems/Loral LS-1300US DirecTVDirectBroadcasting54Ku-bandtransponders4 May 2004,Zenit-3SL8 activetransponders at thistime2008-11-26EchoStar-7LockheedMartinA2100AXUSEchostar/DISHNetworkDirectBroadcasting32Ku-bandtranspond21 February2002, AtlasIII B21 activetransponders at this2008-11-26ers time118.8°W Anik F3EADSAstriumEurostar-3000SCanada Telesat CanadaDirectBroadcasting24C-bandtransponders, 32Ku-bandtransponders, 2Ka-bandtransponders11 April2007,ProtonKu-Bandleased toEchostar/DishNetwork2008-11-26116.8°W SatMex-5HughesHS-601HPMexico Satmex24C-bandtransponders, 24Ku-bandtransponders5 December1998,Ariane 42L2008-11-26115.0°W XM-Blues US30 October2006,Zenit-3SL Solidaridad-2Mexico Satmex8 October1994,Ariane 44L113.0°W Satmex-6Mexico Satmex27 May2006, Ariane 5-ECA111.1°W Anik F2Boeing 702 Canada Telesat Canada DirectBroadcasting17 July2004,Ariane 5GHybridC/Ku/Ka-bandsatellite110.0°W EchoStar-11SpaceSystems/Loral LS-1300USEchostar/DISHNetworkDirectBroadcasting17 July2008,Zenit-3SL2008-11-19EchoStar-10A2100AXS USEchostar/DISHNetworkDirectBroadcasting15 February2006,Zenit-3SLDirecTV-5LS-1300US DirecTVDirectBroadcasting7 May 2002,Proton32Ku-bandtransponders107.3°W Anik F1Boeing 702 Canada Telesat CanadaDirectBroadcasting21November2000,Ariane 44LHybridC/Ku-band satellite;will bereplacedby AnikF1RAnik F1R Eurostar-300Canada Telesat Canada Direct 8 Hybrid0Broadcasting, WAASPRN #138 September2005,ProtonC/Ku-band satellite;willreplaceAnik F1105.0°W AMC-18A2100A US SES AmericomDirectBroadcastingMainlandUSA,Canada,Caribbean, Mexico8 December2006,Ariane 5Americom-15A2100AXS US SES AmericomDirectBroadcastingCONUS,Alaska,Hawaii15 October2004,Proton-MHybridKu/Ka-bandsatellite;twin ofAmericom-16103.0°W Americom-1A2100A US SES AmericomMainlandUSA,Canada,Mexico,Caribbean8September1996, AtlasII AHybridC/Ku-band satellite102.8°W SPACEWAY-1Boeing 702 US DirecTVDirectBroadcastin26 April2005,g Zenit-3SL101.2°W DirecTV-4SBoeing 601 US DirecTVDirectBroadcasting27November2001,Ariane 44LP48Ku-bandtransponders101.1°W DirecTV-9SLS-1300US DirecTVDirectBroadcasting13 October2006,Ariane5-ECA101.0°W AMC-4A2100AX US SES Americom MainlandUSA,Canada,Mexico,Caribbean, CentralAmerica13November1999,Ariane 44LPHybridC/Ku-band satellite100.8°W DirecTV-8LS-1300US DirecTV DirectBroadcasting22 May2005,ProtonHybridKu/Ka-bandsatellite99.2°W SPACEWAY-2US16November 2005,Ariane5-ECA99.0°W Galaxy-16FS-1300Intelsat 18 June 2006, Zenit-3SL97.0°W Galaxy-19SpaceSystems/Loral FS-1300US IntelsatTelevisionand RadioBroadcasting24 C- and28Ku-bandtransponders NorthAmerica24September2008,Zenit-3SL2008-11-2095.0°W Galaxy 3C US 15 June 2002, Zenit-3SL93.0°W Galaxy-26SSLFS-1300US15 February1999,Proton-K91.0°W Nimiq 1A2100AX Canada Telesat CanadaDirectBroadcasting20 May1999,Proton32Ku-bandtranspondersGalaxy 17Spacebus-3000B3US IntelsatTelevisionand radiobroadcastingNorthAmerica4 May 2007,Ariane5-ECA74°WJuly 2007to March2008HybridC/Ku-band satellite2008-06-1389.0°W Galaxy-28FS-1300ITSO Intelsat TheAmericas23 June2005,HybridC/Ku/Ka-bZenit-3SL andsatellite;launchedasTelstar 887.0°W AMC 3A2100A US SES Americom MainlandUSA,Canada,Mexico,Caribbean4September1997, AtlasII AHybridC/Ku-band satellite85.0°W XM-RhythmBoeing 702 USXM SatellieRadio HoldingsRadioBroadcastingCONUS28 February2005,Zenit-3SLAmericom-2A2100A US SES AmericomDirectBroadcastingMainlandUSA,Canada,Mexico30 January1997,Ariane 44LAmericom-16A2100AXS US SES AmericomDirectBroadcastingCONUS,Alaska,Hawaii17December2004, AtlasV (521)HybridKu/Ka-bandsatellite;twin ofAmericom-1584.0°W Brasilsat-B3Brazil4 February1998,Ariane 44LP83.0°W Americom-93000B3US SES AmericomDirectBroadcastingCONUS,Canada,Mexico,CentralAmerica,Caribbean7 June2003,ProtonHybridC/Ku-band satellite82.0°W Nimiq 2A2100AX Canada Telesat CanadaDirectBroadcasting29December2002,ProtonHybridKu/Ka-bandsatellite Nimiq 3HS-601Telesat CanadaDirectBroadcasting9 June1995,Ariane 42PPreviouslyDirecTV-3forDirecTV80.9°W SBS-6HS-393 US Intelsat Televisionand RadioBroadcasting12 October1990,Ariane 44L74°WNov 1995to Jan2008Beyondexpectedend of life.ServesArgentinanow2008-06-1379.0°W Americom Spacebus-20US SES Americom CONUS, 28 October-500 Canada,Mexico 1998, Ariane 44LSatcom C3US10September1992,Ariane 44LPInclinedorbit77.0°W EchoStar-4A2100AX USEchostar/DISHNetworkDirectBroadcasting8 May 1998,ProtonspareEchoStar-8FS-1300USEchostar/DISHNetworkDirectBroadcasting21 August2002,Proton110°W2008-11-1976.8°W Galaxy 4R US 19 April2000,Ariane 42LInclinedorbit75.0°W Brasilsat-B1Brazil10 August1994,Ariane 44LP74.9°W Galaxy-9US 24 May1996, DeltaII (7925)spare74.0°W Horizons-2STAR Bus US Intelsat JSATTelevisionand RadioBroadcastingCONUSCanadaCaribbean21December2007,Ariane 5GS20 KuXpndrs2008-06-1372.7°W EchoStar-6FS-1300USEchostar/DISHNetworkDirectBroadcasting14 July2000, AtlasII AS2008-11-1972.5°W Directv-1R US 10 October 1999, Zenit-3SL72.0°W AMC-6A2100AX US SES Americom CONUS,Canada,Mexico,Caribbean, CentralAmerica22 October2000,Proton-MHybridC/Ku-band satellite;a portionof theKu-bandpayload isdedicatedto SouthAmerica71.0°W Nahuel-1A Argentina30 January1997,Ariane 44L70.0°W Brasilsat-B4Brazil17 August2000,Ariane 44LP65.0°W Brasilsat-B2Brazil28 March1995,Ariane44LP+63.0°W Estrela doSul 1Brazil11 January2004,Zenit-3SL61.5°W EchoStar-12A2100AXS US17 July2003, AtlasV (521)FormerlyRainbow-1,purchased fromVOOM EchoStar-3A2100AX USEchostar/DISHNetworkDirectBroadcasting5 October1997, AtlasII AS61.0ºW HispasatAmazonasSpain4 August2004,Proton-M58.0°W Intelsat-9HS601HP US 28 July2000,Zenit-3SLformerlyPAS-955.5°W Intelsat-805ITSO18 June1998, AtlasII AS53.0°W Intelsat-707ITSO14 March1996,Ariane 450.0°W Intelsat-705ITSO22 March1995, AtlasII AS45.0°W Intelsat-1RHS702 US16November2000,Ariane 5GformerlyPAS-1R43.1°W Intelsat-3RHS601 US12 January1996,Ariane 44LformerlyPAS-3R43.0°W Intelsat-6BHS601HP22December1998,Ariane 42LformerlyPAS-6B40.5°W NSS-806LM AS-7000 Netherlands28 February1998, AtlasII AS37.5°W NSS-10Spacebus4000C33 February2005,ProtonTelstar-11USInclinedorbit34.5°W Intelsat-903ITSO30 March2002,Proton-K31.5°W Intelsat-801ITSO1 March1997,Ariane 44P30.0°W Hispasat-1CSpain3 February2000, AtlasII ASHispasat-1DSpain18September2002, AtlasII AS27.5°W Intelsat-907ITSO15 February2003,Ariane 44L24.5°W Intelsat-905ITSO5 June2002,Ariane 44L24.0°W Cosmos2379RussiaInclinedorbit22.0°W NSS-7LM A2100AX Netherlands16 April2002,Ariane 44L20.0°W Intelsat-603ITSO14 March1990,CommercialTitan IIIInclinedorbit18.0°W Intelsat-901ITSO9 June2001,Ariane 44L15.5°W Inmarsat 3F2IMSOEGNOSPRN #1206September1996,Proton-K15.0°W Telstar 12SSL US 19 October 1999, Ariane 44LP14.0°W Gorizont32RussiaInclinedorbit Express-A4Russia12.5°W AtlanticBird 1EUMETSAT28 August2002,Ariane 5G11.0°W Express-A3Russia24 June2000,Proton-K8.0°W AtlanticBird 2Eutelsat25September2001,Ariane 44PTelecom 2D France8 August1996,Ariane 44LInclinedorbit7.0°W Nilesat101Egypt28 April1998,Ariane 44P Nilesat102Egypt17 August2000,Ariane 44LP Nilesat103Egypt27 February1998,Ariane 42P AtlanticBird 4Eutelsat27 February1998,Ariane 42P5.0°W AtlanticBird 3Eutelsat4.0°W AMOS 1Israel16 May1996,Ariane 44L AMOS 2Israel27December2003,Soyuz-FG/Fregat3.4°W Meteosat828 August2002,Ariane 5G1.0°W Intelsat10-02ITSO16 June2004,Proton-M0.8°W Thor 2Norway20 May1997, DeltaIIThor 3Norway10 June1998, DeltaII (7925-9.5)[edit] Eastern HemisphereLocation Satellite SatellitebusSource Operator TypeCoverageLaunchdate/rocket(GMT)AlllocationsRemarks As of0.5°E Meteosat7ESAWeathersatellite2September1997,Ariane 44LPInclinedorbit3.0°E Telecom2A16December1991,Ariane 44L4.0°E Eurobird 4Eutelsat 2 September 1997, Ariane 44LP4.8°E Sirius 4A2100AX Sweden SES Sirius Comsat52Ku-bandcoveringEurope2Ka-bandcoveringScandinavia17November2007,Proton M2007-11-18 Astra 1CLuxembourg12 May1993,Ariane 42L0.9°inclinedorbit5.0°E Sirius 3Sweden 5 October 1998, Ariane 44L5.2°E Astra 1A GE 4000 11 December 1988, Ariane 44LP6.0°E Skynet 4F Militarycommunica7 February2001,Inclinedorbittions Ariane 44L7.0°E EutelsatW3AEutelsat15 March2004,Proton-M9.0°E Eurobird 9Eutelsat 21November1996, AtlasII AformerlyHot Bird 29.5°E Meteosat6ESAWeathersatellite20November1993,Ariane 44LPInclinedorbit10.0°E EutelsatW1Eutelsat6September2000,Ariane 44P12.5°E Raduga29RussiaInclinedorbit13.0°E Hot Bird 6Eutelsat21 August2002, AtlasV (401)Hot Bird7AEutelsat11 March2006,Ariane5-ECAHot Bird 8Eutelsat 4 August 2006, Proton16.0°E EutelsatW2Eutelsat5 October1998,Ariane 44L19.2°E Astra 1ELuxembourg19 October1995,Ariane 42L Astra 1FLuxembourg8 April1996,Proton-K Astra 1GLuxembourg12November1997,Proton-K Astra 1HLuxembourg18 June1999,Proton-K Astra 1KRLuxembourg20 April2006, AtlasV (411) Astra 1LLuxembourg4 May 2007,Ariane5-ECA20.0°E Arabsat2A9 July 1996,Ariane 44LInclinedorbit21.0°E AfriStar US 28 October 1998, Ariane 44L21.5°E EutelsatW6Artemis ESAEGNOSPRN #12412 July2001,Ariane 5GInclinedorbit.23.5°E Astra 3A Luxembourg29 March2002,Ariane 44L25.0°E Inmarsat 3F5IMSOEGNOSPRN #1264 February1998,Ariane 44LP25.5ºE Eurobird 2Eutelsat25.8°E Badr 226.0°E Badr 326.2°E Badr C28.2°E Astra 2A HS601HPLuxembourgAstra 2BLuxembourg14September2000, Ariane 5GAstra 2C Luxembourg16 June2001,Proton-KAstra 2D Luxembourg20December2000,Ariane 5G28.5°E Eurobird 1Spacebus3000Eutelsat8 March2001,Ariane 5G30.5°E Arabsat2BArabsat13November1996,Ariane 44L31.3°E Astra 1D HS-601LuxembourgSES Astra Comsat24Ku-band1 November1994,Ariane 419.2°E(1994–1998)28.2°E(1998)19.2°E(1998–1999)28.2°E2007-11-14(1999–2001)24.2°E(2001–2003)23.0°E(2003–2004)23.5°E(2004–2007)30.0°E(2007—) 31.5°E Sirius 2Sweden33.0°E Eurobird 3Eutelsat27September2003,Ariane 5G Intelsat802LM-3000 ITSO25 June1997,Ariane 44P36.0°E EutelsatSesat 1Eutelsat17 April2000,Proton-K Eutelsat Eutelsat24 May。

NUP2202W1ESD Protection DiodeLow Clamping VoltageThe NUP2202W1 surge protection is designed to protect high speed data lines from ESD, EFT, and lightning.Features:•Low Clamping V oltage•Stand−Off V oltage: 5 V•Low Leakage•Protection for the Following IEC Standards:IEC 61000−4−2 Level 4 ESD Protection•UL Flammability Rating of 94 V−0•This is a Pb−Free DeviceTypical Applications:•High Speed Communication Line Protection•USB 1.1 and 2.0 Power and Data Line Protection•Digital Video Interface (DVI) and HDMI•Monitors and Flat Panel Displays•MP3MAXIMUM RATINGS (T J = 25°C unless otherwise noted)Rating Symbol Value Unit Peak Power Dissipation8 x 20 m S @ T A = 25°C (Note 1)P pk500W Operating Junction Temperature Range T J−40 to +125°C Storage Temperature Range T stg−55 to +150°CLead Solder Temperature −Maximum (10 Seconds)T L260°CHuman Body Model (HBM) Machine Model (MM)IEC 61000−4−2 Air (ESD) IEC 61000−4−2 Contact (ESD)ESD160004002000020000VIEC 61000−4−4 (5/50 ns)EFT40A Stresses exceeding those listed in the Maximum Ratings table may damage the device. If any of these limits are exceeded, device functionality should not be assumed, damage may occur and reliability may be affected.1.Nonrepetitive current pulse per Figure 5 (Pin 5 to Pin 2).See Application Note AND8308/D for further description of survivability specs.SC−88 LOW CAPACITANCE DIODE SURGE PROTECTIONARRAY 500 WATTS PEAKPOWER 6 VOLTSMARKING DIAGRAMDevice Package Shipping†ORDERING INFORMATIONSC−88CASE 419BPLASTICPIN CONFIGURATIONAND SCHEMATIC6 I/O5 V P4 N/CI/O 1V N 2N/C 3NUP2202W1T2G SC−88Pb−Free3000/T ape & Reel†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our T ape and Reel Packaging Specifications Brochure, BRD8011/D.62M GG1662= Specific Device CodeM= Date CodeG= Pb−Free Package(Note: Microdot may be in either location)SCALE 2:1ELECTRICAL CHARACTERISTICS(T A = 25°C unless otherwise noted)Symbol ParameterI PP Maximum Reverse Peak Pulse Current V C Clamping Voltage @ I PP V RWM Working Peak Reverse VoltageI R Maximum Reverse Leakage Current @ V RWM VBR Breakdown Voltage @ I T I T Test Current I F Forward Current V F Forward Voltage @ I F P pk Peak Power DissipationCCapacitance @ V R = 0 and f = 1.0 MHz*See Application Note AND8308/D for detailed explanations of datasheet parameters.ELECTRICAL CHARACTERISTICS (T J =25°C unless otherwise specified)ParameterSymbol ConditionsMinTypMax Unit Reverse Working Voltage V RWM(Note 2)5.0V Breakdown Voltage V BR I T = 1 mA, (Note 3) 6.0V Reverse Leakage Current I R V RWM = 5 V 5.0m A Clamping Voltage V C I PP = 5 A (Note 4)8.512.5V Clamping VoltageV C I PP = 8 A (Note 4)8.920V Maximum Peak Pulse Current I PP 8x20 m s Waveform (Note 4)28A Junction Capacitance C J V R = 0 V, f = 1 MHz between I/O Pins and GND 3.0 5.0pF Junction Capacitance C J V R = 0 V, f = 1 MHz between I/O Pins 1.5 3.0pF Clamping VoltageV CPer IEC 61000−4−2 (Note 6)Figure 1 and 2V2.surge protection devices are normally selected according to the working peak reverse voltage (V RWM ), which should be equal or greater than the DC or continuous peak operating voltage level.3.V BR is measured at pulse test current I T .4.Nonrepetitive current pulse per Figure 5 (Pin 5 to Pin 2).5.Surge current waveform per Figure 5.6.For test procedure see Figures 3 and 4 and Application Note AND8307/D.Figure 1. ESD Clamping Voltage Screenshot Positive 8 kV Contact per IEC61000−4−2Figure 2. ESD Clamping Voltage Screenshot Negative 8 kV Contact per IEC61000−4−2IEC 61000−4−2 Spec.Level Test Volt-age (kV)First Peak Current (A)Current at 30 ns (A)Current at 60 ns (A)127.5422415843622.51264830168IEC61000−4−2 WaveformFigure 3. IEC61000−4−2 SpecDeviceUnder The following is taken from Application NoteAND8308/D − Interpretation of Datasheet Parameters for ESD Devices.ESD Voltage ClampingFor sensitive circuit elements it is important to limit the voltage that an IC will be exposed to during an ESD event to as low a voltage as possible. The ESD clamping voltage is the voltage drop across the ESD protection diode during an ESD event per the IEC61000−4−2 waveform. Since the IEC61000−4−2 was written as a pass/fail spec for largersystems such as cell phones or laptop computers it is not clearly defined in the spec how to specify a clamping voltage at the device level. ON Semiconductor has developed a way to examine the entire voltage waveform across the ESD protection diode over the time domain of an ESD pulse in the form of an oscilloscope screenshot, which can be found on the datasheets for all ESD protection diodes. For more information on how ON Semiconductor creates these screenshots and how to interpret them please refer to AND8307/D.Figure 5. 8 x 20 ms Pulse Waveform1009080706050403020100t, TIME (m s)% O F P E A K P U L S E C U R R E N TTYPICAL PERFORMANCE CURVES(T J = 25°C unless otherwise noted)Figure 6. Pulse Derating Curve10090807060504030201000255075100125150175200T A , AMBIENT TEMPERATURE (°C)Figure 7. Junction Capacitance vs Reverse Voltage5.02.50.0V BR , REVERSE VOLTAGE (V)J U N C T I O N C A P A C I T A N C E (p F )P E A K P O W E R D I S S I P A T I O N (%)4.52.04.01.53.51.03.00.5Figure 8. Clamping Voltage vs. Peak Pulse Current(8 x 20 m s Waveform)20100010PEAK PULSE CURRENT (A)C L A M P I N G V O L T A G E (V )20304050188166144122APPLICATIONS INFORMATIONThe NUP2202W1 is a low capacitance surge protection diode array designed to protect sensitive electronics such as communications systems, computers, and computer peripherals against damage due to ESD events or transient overvoltage conditions. Because of its low capacitance, it can be used on high speed I/O data lines. The integrated design of the NUP2202W1 offers surge rated, low capacitance steering diodes and a surge protection diode integrated in a single package (SC −88). If a transient condition occurs, the steering diodes will drive the transient to the positive rail of the power supply or to ground. The surge protection device protects the power line against overvoltage conditions to avoid damage to the power supply and any downstream components.NUP2202W1 Device Configuration OptionsThe NUP2202W1 is able to protect two data lines against transient overvoltage conditions by driving them to a fixed reference point for clamping purposes. The steering diodes will be forward biased whenever the voltage on the protected line exceeds the reference voltage (Vf or V CC +Vf). The diodes will force the transient current to bypass the sensitive circuit.Data lines are connected at pins 1 and 6. The negative reference is connected at pin 2. This pin must be connected directly to ground by using a ground plane to minimize the PCB’s ground inductance. It is very important to reduce the PCB trace lengths as much as possible to minimize parasitic inductance.Option 1Protection of two data lines and the power supply using V CC as reference.I/O 1I/O 2For this configuration, connect pin 5 directly to the positive supply rail (V CC ), the data lines are referenced to the supply voltage. The internal surge protection diode prevents overvoltage on the supply rail. Biasing of the steering diodes reduces their capacitance.Option 2Protection of two data lines with bias and power supply isolation resistor.The NUP2202W1 can be isolated from the power supply by connecting a series resistor between pin 5 and V CC . A10 k W resistor is recommended for this application. This will maintain bias on the internal surge protection and steering diodes, reducing their capacitance.Option 3Protection of two data lines using the internal surge protection diode as reference.In applications lacking a positive supply reference or those cases in which a fully isolated power supply is required, the internal surge protection can be used as the reference. For these applications, pin 5 is not connected. In this configuration, the steering diodes will conduct whenever the voltage on the protected line exceeds the working voltage of the surge protection plus one diode drop (Vc = Vf + V RWM ).ESD Protection of Power Supply LinesWhen using diodes for data line protection, referencing to a supply rail provides advantages. Biasing the diodes reduces their capacitance and minimizes signal distortion.Implementing this topology with discrete devices does have disadvantages. This configuration is shown below:I ESDposI ESDnegVF + V CC−VF Looking at the figure above, it can be seen that when a positive ESD condition occurs, diode D1 will be forward biased while diode D2 will be forward biased when a negative ESD condition occurs. For slower transient conditions, this system may be approximated as follows: For positive pulse conditions:Vc = V CC + Vf D1For negative pulse conditions:Vc = −Vf D2ESD events can have rise times on the order of some number of nanoseconds. Under these conditions, the effect of parasitic inductance must be considered. A pictorial representation of this is shown below.I ESDposI ESDnegC = V CC + Vf + (L diESD/dt)V C = −Vf − (L diESD/dt) An approximation of the clamping voltage for these fast transients would be:For positive pulse conditions:Vc = V CC + Vf + (L di ESD/dt)For negative pulse conditions:Vc = −Vf – (L di ESD/dt)As shown in the formulas, the clamping voltage (Vc) not only depends on the Vf of the steering diodes but also on the L di ESD/dt factor. A relatively small trace inductance can result in hundreds of volts appearing on the supply rail. This endangers both the power supply and anything attached to that rail. This highlights the importance of good board layout. Taking care to minimize the effects of parasitic inductance will provide significant benefits in transient immunity.Even with good board layout, some disadvantages are still present when discrete diodes are used to suppress ESD events across datalines and the supply rail. Discrete diodes with good transient power capability will have larger die and therefore higher capacitance. This capacitance becomes problematic as transmission frequencies increase. Reducing capacitance generally requires reducing die size. These small die will have higher forward voltage characteristics attypical ESD transient current levels. This voltage combined with the smaller die can result in device failure.The ON Semiconductor NUP2202W1 was developed to overcome the disadvantages encountered when using discrete diodes for ESD protection. This device integrates a surge protection diode within a network of steering diodes.Figure 9. NUP2202W1 Equivalent Circuit During an ESD condition, the ESD current will be driven to ground through the surge protection diode as shown below.ESDposThe resulting clamping voltage on the protected IC will be:Vc = V F + V RWM.The clamping voltage of the surge protection diode is provided in Figure 8 and depends on the magnitude of the ESD current. The steering diodes are fast switching devices with unique forward voltage and low capacitance characteristics.TYPICAL APPLICATIONSUPSTREAMUSB PORTDOWNSTREAMUSB PORTDOWNSTREAMUSB PORTFigure 10. ESD Protection for USB PortPACKAGE DIMENSIONSSC −88/SC70−6/SOT −363CASE 419B −02ISSUE YNOTES:1.DIMENSIONING AND TOLERANCING PER ASME Y14.5M, 1994.2.CONTROLLING DIMENSION: MILLIMETERS.3.DIMENSIONS D AND E1 DO NOT INCLUDE MOLD FLASH,PROTRUSIONS, OR GATE BURRS. MOLD FLASH, PROTRU-SIONS, OR GATE BURRS SHALL NOT EXCEED 0.20 PER END.4.DIMENSIONS D AND E1 AT THE OUTERMOST EXTREMES OF THE PLASTIC BODY AND DATUM H.5.DATUMS A AND B ARE DETERMINED AT DATUM H.6.DIMENSIONS b AND c APPLY TO THE FLAT SECTION OF THE LEAD BETWEEN 0.08 AND 0.15 FROM THE TIP .7.DIMENSION b DOES NOT INCLUDE DAMBAR PROTRUSION.ALLOWABLE DAMBAR PROTRUSION SHALL BE 0.08 TOTAL IN EXCESS OF DIMENSION b AT MAXIMUM MATERIAL CONDI-TION. THE DAMBAR CANNOT BE LOCATED ON THE LOWER RADIUS OF THE FOOT.DIM MIN NOM MAX MILLIMETERS A −−−−−− 1.10A10.00−−−0.10dddb 0.150.200.25C 0.080.150.22D 1.80 2.00 2.20−−−−−−0.0430.000−−−0.0040.0060.0080.0100.0030.0060.0090.0700.0780.086MIN NOM MAX INCHES0.100.004E1 1.15 1.25 1.35e 0.65 BSC L 0.260.360.462.00 2.10 2.200.0450.0490.0530.026 BSC0.0100.0140.0180.0780.0820.086*For additional information on our Pb −Free strategy and soldering details, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D.SOLDERING FOOTPRINT*DIMENSIONS: MILLIMETERS0.306XRECOMMENDEDEND VIEWPLANEDETAIL AE A20.700.90 1.000.0270.0350.039L20.15 BSC 0.006 BSC aaa 0.150.006bbb 0.300.012ccc 0.100.0046XON Semiconductor and are trademarks of Semiconductor Components Industries, LLC dba ON Semiconductor or its subsidiaries in the United States and/or other countries.ON Semiconductor owns the rights to a number of patents, trademarks, copyrights, trade secrets, and other intellectual property. A listing of ON Semiconductor’s product/patent coverage may be accessed atON Semiconductor makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does ON Semiconductor assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages.PUBLICATION ORDERING INFORMATION。

PROCEDURE FOR UPDATING TM-DT FIRMWARE TO v3.03REASON FOR THIS UPDATEEpson has learned of a firmware vulnerability (CVE-2017-6443) impacting certain EpsonEthernet and wireless POS products, including Epson POS printers and interface cards usedin those printers. The vulnerability may compromise the security of printer web browsers.Please note: updating the firmware, will not change the functionality of the product. THESE INSTRUCTIONS APPLY TO THE FOLLOWING SKU’STM-T88V-DT (Windows Models Only)TM-T70II-DT (Windows Models Only)TM-H6000IV-DT (Windows Models Only)With ePOS-Device System version 3.02 and below. Instructions for checking your versionare located below.IMPORTANT NOTES-Do not turn off the printer or computer while the update is in progress. This may result in damage to your unit.-Before performing the update, carefully review the instructions below.-Please check your current firmware version to verify if your device needs this update.-In case of connectivity problems, you may need to disable your firewall and antivirus software.HARDWARE SETUP:-Ensure your PC is connected to the same network as the printer that will be updated.The printer should be set to DHCP, however in some cases it might revert to the defaultsettings of IP: 192.168.192.168 and Subnet Mask: 255.255.255.0. If this is the case, setthe network settings of the PC to communicate with the above IP address (i.e. IP:192.168.192.167, Subnet Mask: 255.255.255.0).FIRMWARE VERIFICATIONIn order to determine the current firmware version, follow the procedure described below.1.Power on the printer.2.Once the printer is fully booted up (the orange “Status” LED is off), log in to the TMNetWebConfig Interface of the printer. Type in the printer IP address into the address baron your browser. Note: this can be done from the DT printer, or any other PC on thenetwork. When done correctly, you’ll see a screen similar to the one below. Click th e“About” link (highlighted in red below).3.On the following screen, ePOS-Device System version is displayed (highlighted in redbelow).4.If the version of your device is 3.02 or earlier, this update needs to be installed.5.If the version of your device is 3.03 or later, this update is not needed.REQUIREMENTS-Update file: “ESUP-SYS303W.exe”-Windows PC-Flash drive with at least 10MB of free space.UPDATE PROCEDURE1.Extract the “ESUP-SYS303W.exe” to a folder of your choice. When extracting iscompleted, verify that the files shown in Fig.1 below, are present inside the folder.Fig. 1Note:by default, the files will extract to: <System Drive>\Epson Firmware Update(example: C:\Epson Firmware Update)2.Open the “setting.ini” file in a text editor of your choice. Change the value of [Password]by inputting your TMNet WebConfig password into the space highlighted in red in Fig.2.Note: If you’ve never changed the default password for TMNet WebConfig, the defaultpassword is: epson.Fig. 23.Save the file.4.Copy all 4 files shown in Fig.1 to the root folder of your flash drive.5.Turn on your DT printer and allow it to fully boot. The unit completed booting when theorange “Status” light goes off (Fig.3).Fig. 36.Connect the flash drive containing the update files to the available USB port in the backof the DT unit.7.The printer will start the update automatically. The “Status” LED will flash for a fewminutes, while the update is performed.8.Once the update is completed, the printer will print a “Status Sheet” automatically. Fig.4(highlighted in red) shows where to ch eck the “Software” version. Verify that theversion is 3.03.Fig. 49.The update is completed.GETTING ASSISTANCEIf you have any questions or require assistance with this procedure, please call our technicalsupport at 800-442-4521 (US/Canada).。