230Vac iW3602-30 20V 220MA

Eaton 281299Eaton Moeller series NZM - Molded Case Circuit Breaker. Circuit-breaker, 3p, 20A, H2-M20General specificationsEaton Moeller series NZM molded casecircuit breaker thermo-magnetic281299149 mm184 mm105 mm2.345 kg RoHS conformIEC/EN 60947 IEC NZMH2-M20Product Name Catalog NumberProduct Length/Depth Product Height Product Width Product Weight Compliances Certifications Model Code20 AIs the panel builder's responsibility. The specifications for the switchgear must be observed.5 kA130 kAMeets the product standard's requirements.Is the panel builder's responsibility. The specifications for the switchgear must be observed.Built-in device fixed built-in techniqueFixed20 ADoes not apply, since the entire switchgear needs to be evaluated.Max. 10 segments of 24 mm x 0.8 mm at rear-side connection (punched)Max. 8 segments of 24 mm x 1 mm (2x) at box terminal Min. 2 segments of 9 mm x 0.8 mm at box terminalMin. 2 segements of 16 mm x 0.8 mm at rear-side connection (punched)Max. 10 segments of 16 mm x 0.8 mm at box terminalRocker leverMeets the product standard's requirements.40 °C eaton-circuit-breaker-let-through-current-nzm-mccb-characteristic-curve-005.epseaton-circuit-breaker-characteristic-power-defense-mccb-characteristic-curve-037.epsMH2-M20il01206006z2015_11.pdfVorstellung des neuen digitalen Leistungsschalter NZMDas neue digitale NZM-Sortiment - In Kurze verfugbar DEDA-CD-nzm2_3pDA-CS-nzm2_3peaton-manual-motor-starters-starter-msc-r-reversing-starter-wiring-diagram.epseaton-manual-motor-starters-starter-nzm-mccb-wiring-diagram.epseaton-nzm-technical-information-sheeteaton-circuit-breaker-nzm-mccb-dimensions-019.epsRated operational current for specified heat dissipation (In) 10.11 Short-circuit ratingRated short-circuit breaking capacity Ics (IEC/EN 60947) at 690 V, 50/60 HzRated short-circuit breaking capacity Icu (IEC/EN 60947) at 400/415 V, 50/60 Hz10.4 Clearances and creepage distances10.12 Electromagnetic compatibilityMounting MethodAmperage Rating10.2.5 LiftingTerminal capacity (copper strip)Handle type10.2.3.1 Verification of thermal stability of enclosuresAmbient storage temperature - min Characteristic curveeCAD model Installationsanleitung Installationsvideos mCAD modelSchaltpläneTechnische Datenblätter ZeichnungenFitted with:Thermal protectionProtection against direct contactFinger and back-of-hand proof to VDE 0106 part 100Terminal capacity (copper busbar)Max. 24 mm x 8 mm direct at switch rear-side connectionM8 at rear-side screw connectionMin. 16 mm x 5 mm direct at switch rear-side connection10.8 Connections for external conductorsIs the panel builder's responsibility.Special featuresMaximum back-up fuse, if the expected short-circuit currents at the installation location exceed the switching capacity of the circuit breaker (Rated short-circuit breaking capacity Icn) Rated current = rated uninterrupted current: 20 A Tripping class 10 A IEC/EN 60947-4-1, IEC/EN 60947-2 The circuit-breaker fulfills all requirements for AC-3 switching category.Ambient operating temperature - max70 °CClimatic proofingDamp heat, cyclic, to IEC 60068-2-30Damp heat, constant, to IEC 60068-2-78Terminal capacity (aluminum stranded conductor/cable)25 mm² - 50 mm² (1x) direct at switch rear-side connection25 mm² - 185 mm² (1x) at tunnel terminal25 mm² - 50 mm² (2x) direct at switch rear-side connectionTerminal capacity (copper stranded conductor/cable)25 mm² - 70 mm² (2x) direct at switch rear-side connection25 mm² - 185 mm² (1x) direct at switch rear-side connection25 mm² - 185 mm² (1x) at box terminal25 mm² - 70 mm² (2x) at box terminal25 mm² - 185 mm² (1x) at 1-hole tunnel terminalLifespan, electrical7500 operations at 690 V AC-15000 operations at 690 V AC-310000 operations at 415 V AC-16500 operations at 400 V AC-310000 operations at 400 V AC-16500 operations at 415 V AC-3Electrical connection type of main circuitScrew connectionShort-circuit total breaktime< 10 msRated impulse withstand voltage (Uimp) at main contacts8000 VRated short-circuit breaking capacity Ics (IEC/EN 60947) at 400/415 V, 50/60 Hz130 kA10.9.3 Impulse withstand voltageIs the panel builder's responsibility.Utilization categoryA (IEC/EN 60947-2)Number of polesThree-poleAmbient operating temperature - min-25 °C10.6 Incorporation of switching devices and componentsDoes not apply, since the entire switchgear needs to be evaluated.10.5 Protection against electric shockDoes not apply, since the entire switchgear needs to be evaluated.Terminal capacity (control cable)0.75 mm² - 1.5 mm² (2x)0.75 mm² - 2.5 mm² (1x)Equipment heat dissipation, current-dependent5.1 WInstantaneous current setting (Ii) - min350 A10.13 Mechanical functionThe device meets the requirements, provided the information in the instruction leaflet (IL) is observed.10.2.6 Mechanical impactDoes not apply, since the entire switchgear needs to be evaluated.10.9.4 Testing of enclosures made of insulating materialIs the panel builder's responsibility.Rated operational current16 A (400 V AC-3)Rated short-circuit breaking capacity Ics (IEC/EN 60947) at 230 V, 50/60 Hz150 kAApplicationUse in unearthed supply systems at 690 V10.3 Degree of protection of assembliesDoes not apply, since the entire switchgear needs to be evaluated.Rated short-circuit making capacity Icm at 240 V, 50/60 Hz330 kARated short-circuit breaking capacity Ics (IEC/EN 60947) at 440 V, 50/60 Hz130 kADegree of protection (IP), front sideIP40 (with insulating surround)IP66 (with door coupling rotary handle)Rated short-circuit making capacity Icm at 525 V, 50/60 Hz105 kARated short-circuit making capacity Icm at 690 V, 50/60 Hz40 kAInstantaneous current setting (Ii) - max350 AOverload current setting (Ir) - min16 A10.2.3.2 Verification of resistance of insulating materials to normal heatMeets the product standard's requirements.10.2.3.3 Resist. of insul. mat. to abnormal heat/fire by internal elect. effectsMeets the product standard's requirements.Lifespan, mechanical20000 operationsOverload current setting (Ir) - max20 AVoltage rating690 V - 690 VTerminal capacity (copper solid conductor/cable)6 mm² - 16 mm² (2x) at box terminal6 mm² - 16 mm² (2x) direct at switch rear-side connection16 mm² (1x) at tunnel terminal10 mm² - 16 mm² (1x) at box terminal10 mm² - 16 mm² (1x) direct at switch rear-side connectionDegree of protection (terminations)IP10 (tunnel terminal)IP00 (terminations, phase isolator and strip terminal)10.9.2 Power-frequency electric strengthIs the panel builder's responsibility.Short-circuit release non-delayed setting - min350 ADegree of protectionIP20 (basic degree of protection, in the operating controls area) IP20Overvoltage categoryIIIRated short-time withstand current (t = 1 s)1.9 kARated impulse withstand voltage (Uimp) at auxiliary contacts 6000 VTerminal capacity (aluminum solid conductor/cable)10 mm² - 16 mm² (2x) direct at switch rear-side connection10 mm² - 16 mm² (1x) direct at switch rear-side connection16 mm² (1x) at tunnel terminalSwitch off techniqueThermomagneticRated short-time withstand current (t = 0.3 s)1.9 kAAmbient storage temperature - max70 °CRated short-circuit breaking capacity Ics (IEC/EN 60947) at 525 V, 50/60 Hz37.5 kAOptional terminalsBox terminal. Connection on rear. Tunnel terminalRelease systemThermomagnetic releasePollution degree310.7 Internal electrical circuits and connectionsIs the panel builder's responsibility.Rated operating power at AC-3, 230 V5.5 kW10.10 Temperature riseThe panel builder is responsible for the temperature rise calculation. Eaton will provide heat dissipation data for the devices.FunctionsMotor protectionShort-circuit release non-delayed setting - max350 AStandard terminalsScrew terminalRated short-circuit making capacity Icm at 400/415 V, 50/60 Hz 330 kARated operating power at AC-3, 400 V7.5 kWTypeCircuit breaker10.2.2 Corrosion resistanceMeets the product standard's requirements.10.2.4 Resistance to ultra-violet (UV) radiationMeets the product standard's requirements.10.2.7 InscriptionsMeets the product standard's requirements.Rated short-circuit making capacity Icm at 440 V, 50/60 Hz 286 kAIsolation500 V AC (between auxiliary contacts and main contacts)300 V AC (between the auxiliary contacts)Number of operations per hour - max120Circuit breaker frame typeNZM2Direction of incoming supplyAs requiredShock resistance20 g (half-sinusoidal shock 20 ms)Eaton Konzern plc Eaton-Haus30 Pembroke-Straße Dublin 4, Irland © 2023 Eaton. Alle Rechte vorbehalten. Eaton ist eine eingetrageneMarke.Alle anderen Warenzeichen sindEigentum ihrer jeweiligenBesitzer./socialmedia1000 VRated insulation voltage (Ui)。

DescriptionNEMA L6-20 20A, 250V/AC, 2P-3WDesign features for plug & connector• All nylon construction• EPDM gasket seals cord hole from dust and debris •Back wire terminal clamps for easy secure wiring•Individual wiring compartments with tapered channel for easy insertion of wires•Clear cover over wiring compartments allows easy inspection of wiring terminations• Rating printed on side of device•Largest-in-class grommet size allows for entire cord size rangeDesign features for receptacles• Rugged glass filled nylon body•Clearly marked rating, NEMA configuration and approval listings on receptacle face•One piece brass contacts offer superior performance and minimal heat rise•Back and side wiring terminal clamps for easy, secure wiringDesign features for flanged inlet & outlet• All nylon construction• Mounting holes interchangeable with competitive units • Back wire terminal clamps for easy, secure wiring•Individual wiring compartments with tapered channel for easy insertion of wiresIndustrial gradeL6-20 locking devicesCatalog No.DescriptionAmpsVoltsColorAHL620P Ultra grip plug 20250Black & white AHL620C Ultra grip connector 20250Black & white AHL620RSingle receptacle20250Black AHIGL620R Single receptacle, isolated ground 20250Orange AHL620FO Flanged outlet 20250Black & white AHL620FIFlanged inlet20250Black & whiteAHL620PAHL620RAHL620FOAHL620CCompliances, specifications and availability are subject to change without notice.Project Name:Prepared By:Project Number:Date:Catalog Number:Type:T able 1.NEMA L6-20 Industrial Grade Locking Devices2EATON Technical DataEffective January 2014Industrial gradeL 6-20 locking devicesCatalog No.NEMA L6-20 Plug & ConnectorNEMA Config NEMA L6-20Wiring Type Back wireEnvironmental Specifications Flammability: Meets UL94 requirements; V2 ratedTemperature Rating: -40°C to 60°C (-40°F to 140°F)Electrical Specifications Dielectric Voltage: Twice the device rating + 1000V per UL498Current Interrupting: Yes, at full-rated currentTemperature Rise: Max. 30ºC (86°F) after 50 cycles of overload at 150% of rated current (DC)Mechanical Specifications Terminal Accommodation: #14 - #8 AWGVoltage Ratings: Permanently marked on deviceNEMA L6-20 20A, 250V/AC, 2P-3W Catalog No.NEMA L6-20 Plug & ConnectorNEMA Config NEMA L6-20Outer Shell Nylon Interior Body NylonTerminal Retainer Polycarbonate BladesBrassLine Contacts Bronze, tin plated Terminal Clamps Steel, tin platedTerminal Screws #10-32 brass, zinc plated (neutral screw)Ground Screw #10-32 brassAssembly Screws Steel, nickel plated Gasket/Dust Shield EPDMCord Clamp Screws Steel, nickel plated Cord Clamp NylonCompliances, specifications and availability are subject to change without notice.Plug & ConnectorProject Name:Prepared By:Project Number:Date:Catalog Number:Type:T able 2. SpecificationsT able 3. MaterialsProduct DimensionsFigure 1. AHL620P Figure 2. AHL620C Figure 3. Base Angle3EATON Technical DataEffective January 2014Industrial gradeL 6-20 locking devicesCatalog No.NEMA L6-20 Single ReceptacleNEMA L6-20 Isolated Ground Single ReceptacleNEMA Config NEMA L6-20NEMA L6-20Wiring Type Back & side wireBack & side wireEnvironmental Specifications Flammability: Meets UL94 requirements; V0 ratedTemperature Rating: -40°C to 60°C (-40°F to 140°F)Flammability: Meets UL94 requirements; V0 rated Temperature Rating: -40°C to 60°C (-40°F to 158°F)Electrical Specifications Dielectric Voltage: ≤300V: 2000V, 301-600V: 3000V per UL498Current Interrupting: Yes, at full-rated currentTemperature Rise: Max. 30ºC (86°F) after 250 cycles of overload @ 200% of rated current (DC)Dielectric Voltage: ≤300V: 2000V, 301-600V: 3000V per UL498Current Interrupting: Yes, at full-rated currentTemperature Rise: Max. 30ºC (86°F) after 50 cycles of overload @ 150% of rated current (DC)Mechanical Specifications Terminal Accommodation: #14 - #8 AWGVoltage Ratings: Permanently marked on device Terminal Accommodation: #14 - #8 AWG Voltage Ratings: Permanently marked on deviceNEMA L6-20 20A, 250V/AC, 2P-3W Catalog No.NEMA L6-20 Single ReceptacleNEMA L6-20 Isolated Ground Single ReceptacleNEMA ConfigNEMA L6-20NEMA L6-20Face Glass-filled nylon Glass-filled nylon BaseGlass-filled nylonGlass-filled nylonMounting Strap 0.050" thick steel, zinc plated 0.050" thick steel, zinc plated Line Contacts 0.041" thick brass0.041" thick brassTerminal Screws #10-32 brass, nickel plated (neutral screw)#10-32 brass, nickel plated (neutral screw)Ground Screw#10-32 brass (green)#10-32 brass (green)Terminal Clamps/Plates 0.041" thick brass 0.041" thick brass Ground Contacts 0.041" thick brass0.041" thick brassBack Plate0.041" thick brass, nickel plated 0.041" thick brass, nickel plated Mounting ScrewsSteel, zinc platedSteel, zinc platedSingle ReceptaclesT able 4. SpecificationsT able 5. MaterialsProject Name:Prepared By:Project Number:Date:Catalog Number:Type:Product DimensionsFigure 4. AHL620RCompliances, specifications and availability are subject to change without notice.4EATON Technical DataEffective January 2014Industrial gradeL 6-20 locking devicesCatalog No.NEMA L6-20 Flanged OutletNEMA L6-20 Flanged InletNEMA Config NEMA L6-20NEMA L6-20Wiring Type Back wireBack wireEnvironmental Specifications Flammability: Meets UL94 requirements; V2 ratedTemperature Rating: -40°C to 60°C (-40°F to 140°F)Flammability: Meets UL94 requirements; V2 rated Temperature Rating: -40°C to 60°C (-40°F to 140°F)Electrical Specifications Dielectric Voltage: ≤300V: 2000V, 301-600V: 3000V per UL498Current Interrupting: Yes, at full-rated currentTemperature Rise: Max. 30ºC (86°F) after 50 cycles of overload @ 150% of rated current (DC)Dielectric Voltage: ≤300V: 2000V, 301-600V: 3000V per UL498Current Interrupting: Yes, at full-rated currentTemperature Rise: Max. 30ºC (86°F) @ maximum rated current (DC)Mechanical Specifications Terminal Accommodation: #14 - #8 AWGVoltage Ratings: Permanently marked on deviceTerminal Accommodation: #14 - #8 AWG Voltage Ratings: Permanently marked on deviceNEMA L6-20 20A, 250V/AC, 2P-3W Catalog No.NEMA L6-20 Flanged OutletNEMA L6-20 Flanged InletNEMA Config NEMA L6-20NEMA L6-20Outer Shell Nylon Nylon Interior Body NylonNylonTerminal Retainer Polycarbonate Polycarbonate BladesN/A0.062" thick brass Line Contacts 0.031" thick bronze, tin plated N/ATerminal Clamps Steel, tin platedSteel, tin platedTerminal Screws #10-32 brass, nickel plated (neutral screw)#10-32 brass, nickel plated (neutral screw)Ground Screw #10-32 brass (green)#10-32 brass (green)Assembly Screws Steel, nickel plated Steel, nickel plated Mounting Screws Steel, zinc plated Steel, zinc platedCompliances, specifications and availability are subject to change without notice.Flanged Outlet & InletProject Name:Prepared By:Project Number:Date:Catalog Number:Type:T able 6. SpecificationsT able 7. MaterialsProduct DimensionsFigure 5. AHL620FO Figure 6. AHL620FI Figure 7. T op ViewTechnical DataEffective January 2014Industrial gradeL 6-20 locking devicesElectrical Sector 203 Cooper CirclePeachtree City, GA 30269United States Electrical Sector Canada Operations 5925 McLaughlin RoadMississauga, Ontario, L5R 1B8CanadaEatonCanada.ca Electrical Sector Mexico Operations Carr. Tlalnepantla -Cuautitlan Km 17.8 s/n Col. Villa Jardin esq.Cerrada 8 de MayoCuautitlan, Mexico CP 54800Mexico Eaton.mxEaton is a registered trademark. All other trademarks are property of their respective owners.Eaton1000 Eaton Boulevard Cleveland, OH 44122United States © 2014 EatonAll Rights Reserved Printed in USAPublication No. 125-0076-13January 2014Certifications & CompliancesProject Name:Prepared By:Project Number:Date:Catalog Number:Type:AHL620C •••AHL620R ••••••AHIGL620R •••••AHL620FO ••••AHL620FI•••KEY:cULusUL CSAFed SpecNOMROHSParts are manufactured and designed in accordance with article 4 of the European Union’s RoHS2 directive 2011/65/EUCompliances, specifications and availability are subject to change without notice.。

SmartPro 230V 2.2kVA 1.92kW Line-Interactive Sine Wave UPS, Extended Run, SNMP, Webcard, 2U Rack/Tower, LCD, USB, DB9 Serial Highlights2.2kVA / 2200VA / 1920W lineinteractive 2U rack/tower UPS, Sine WaveHot-swappable, user-replaceable internal batteries and external battery packs can be replaced with no disruption to connected equipmentFront panel LCD monitoring screen with MODE and ENTER buttons reports operating mode with 5-bar battery charge graphic, plus 7 selectable screens of detailed UPS and site power informationLCD interface also supports a number of advanced user setup and operating preferencesShips with 4 post rackmount installation hardware; Optional 2POSTRMKITWM enables 2 post rackmount/wallmount installation; Optional 2-9USTAND enables tower placementBuilt-in USB, RS-232 and optional SNMPWEBCARD accessory monitoring optionsHID-compliant USB interface enables integration with built-in power management and auto shutdown features of Windows and Mac OS XIncluded PowerAlert UPS monitoring software; Built-in Emergency Power Off (EPO) interface with cableOptional PDUBHV20 bypass PDU enables hot-swappable UPS replacement with no disruption to connected equipment SpecificationsOUTPUTOutput Volt Amp Capacity (VA)2200Output kVA Capacity (kVA) 2.2Output Watt Capacity (Watts)1920Output kW Capacity (kW) 1.92Nominal Output Voltage(s)220V; 230V; 240VSupportedNominal Voltage Details230V inverter output in battery modeFrequency Compatibility50 / 60 HzOutput Voltage Regulation (Line-15%, +6%Mode)Output Voltage Regulation (Battery+/- 5%Mode)Output Receptacles(8) C13Included Output Power Cables Includes 3 C13 to C14 output power cablesLoad Management Receptacles Two switchable single-outlet C13 load banksHot-Swap PDU options PDUBHV20 (2U / 6 C13, 2 C19 outlets)Output AC Waveform (AC Mode)Sine waveOutput AC Waveform (Battery Mode)Pure Sine waveINPUTRated input current (Maximum Load)10.7ANominal Input Voltage(s) Supported230V ACUPS Input Connection Type C20 inletUPS Input Connection Description IEC320-C20 input connection accepts a variety of detachable cordsets to match country or site-specific wallreceptaclesInput Circuit Breakers15AInput Phase Single-PhaseBATTERYFull Load Runtime (min.) 5 min. (1920w)Half Load Runtime (min.)11.9 min. (960w)Expandable Battery Runtime Extended runtime supported via optional external battery packsExternal Battery Pack Compatibility BP48V24-2U (limit 1); BP48V60RT-3U (multi-pack compatible); BP48V27-2US (multi-pack compatible)DC System Voltage (VDC)48Battery Recharge Rate (IncludedBatteries)Less than 4.5 hours from 10% to 90% (typical, full load discharge)Internal UPS Replacement BatteryCartridgeRBC94-2UBattery Access Front panel battery access doorBattery Replacement Description Hot-swappable, user replaceable batteriesVOLTAGE REGULATIONVoltage Regulation Description Automatic voltage regulation (AVR) maintains line power operation with an input voltage range of 158 to 278 Overvoltage Correction Voltage reduction of 12% applies when input is between 244-278VUndervoltage Correction Voltage boost of 12% applies when input voltage is between 183-206VSevere Undervoltage Correction Voltage boost of 24% applies when input voltage is between 158-182VLEDS ALARMS & SWITCHESFront Panel LCD Display Front panel LCD information and configuration screen offers detailed UPS and site power status and operating data, plus configuration of voltage, operating mode, alarm function and a variety of additional options (see manual for detailed LCD configuration and monitoring options)Audible Alarm Audible alarm indicates UPS startup, power-failure, low-battery, overload, UPS fault and remote shutdown conditionsAlarm Cancel Operation Power-fail alarm can be temporarily silenced using alarm-cancel switch; silent mode alarm configuration optionavailableSwitches 3 pushbutton switches control OFF / ON power status, MODE selection and MUTE / ENTER control functions SURGE / NOISE SUPPRESSIONUPS AC Suppression Joule Rating350UPS AC Suppression ResponseTimeInstantaneousEMI / RFI AC Noise Suppression YesPHYSICALIncluded Mounting AccessoryDescription4 post rackmount installation accessories includedInstallation Form Factors Supported2 post rackmount (2POSTRMKITWM); Wallmount (2POSTRMKITWM); Tower (2-9USTAND) with Optional AccessoriesPrimary Form Factor RackmountUPS Power Module Dimensions3.5 x 17.5 x 19.5(hwd, in.)UPS Power Module Dimensions8.9 x 44.4 x 49.5(hwd, cm)Rack Height (U Spaces)2UPS Power Module Weight (lbs.)68.75UPS Power Module Weight (kg)31.2UPS Shipping Dimensions (hwd / in.)9.25 x 24.75 x 22.5UPS Shipping Dimensions (hwd /23.5 x 62.9 x 57.2cm)Shipping Weight (lbs.)82.3Shipping Weight (kg)37.3Cooling Method FanUPS Housing Material SteelENVIRONMENTALOperating Temperature Range+32 to +104 degrees Fahrenheit / 0 to +40 degrees CelsiusStorage Temperature Range+5 to +122 degrees Fahrenheit / -15 to +50 degrees CelsiusRelative Humidity0 to 95%, non-condensingAC Mode BTU / Hr. (Full Load)161AC Mode Efficiency Rating (100%98%Load)COMMUNICATIONSCommunications Interface USB (HID enabled); DB9 Serial; EPO (emergency power off); Slot for SNMP/Web interfaceNetwork Monitoring Port Description Supports detailed monitoring of UPS and site power conditionsPowerAlert Software IncludedCommunications Cable USB, DB9 and EPO cabling includedWatchDog Compatibility Supports Watchdog application, OS and hard-reboot restart options for remote applications LINE / BATTERY TRANSFERTransfer Time 6 ms. (AC to DC) / 1 ms. (DC to AC)Low Voltage Transfer to Battery158VPower (Setpoint)High Voltage Transfer to Battery278VPower (Setpoint)SPECIAL FEATURESGrounding Lug Back panel grounding lugCold Start (Startup in Battery ModeCold-start operation supportedDuring a Power Failure)High Availability UPS Features Hot swappable batteriesGreen Energy-Saving Features Greater than 95% efficiency - GREEN UPS; Individually controllable load banksCERTIFICATIONSUPS Certifications CEUPS Certification Details IEC 62040-1, IEC 62040-2 Class A EMI, GOSTWARRANTYProduct Warranty Period2-year limited warranty(International)Product Warranty Period (Mexico)2-year limited warrantyProduct Warranty Period (Puerto2-year limited warrantyRico)© 2015 Tripp Lite. All rights reserved. All trademarks are the sole property of their respective owners. Tripp Lite has a policy of continuous improvement. Specifications are subject to change without notice. Photos may differ slightly from final products.。

维萨拉工业测量产品手册湿度 | 温度 | 露点 | 二氧化碳 | 沼气 | 油中水分 | 连续监测系统 |溶解气体分析系统 | 过氧化氢 | 压力 | 气象 | 服务支持观测让世界更美好维萨拉的工业测量业务领域产品能够帮助客户了解工艺过程。

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我们的监测系统还能帮助客户在受监管的环境中运营，以履行监管合规性。

维萨拉工业测量服务于多种类型的运营环境，从半导体工厂和高层建筑，到发电厂和生命科学实验室，对环境条件的可靠监测是实现成功运营的先决条件。

维萨拉的测量产品和系统广泛应用于监测温度、湿度、露点、气压、二氧化碳、汽化过氧化氢、甲烷、油中水、变压器油中溶解气体和液体浓度等参数。

我们的生命周期服务可在测量仪表的整个使用寿命内提供维护。

作为值得信赖的合作伙伴，我们通过在产品和系统生命周期中保证准确的测量数据来支持客户做出可持续的决策。

本产品目录对我们的产品进行整体的介绍，以帮助您选择适合您需求的产品。

如需更多信息，请通过以下方式联系我们：销售热线：400 810 0126电子邮箱：**********************公司网址：扫描二维码，关注维萨拉企业微信3目 录Indigo系列变送器Indigo200系列数据处理单元 (7)Indigo300数据处理单元 (9)Indigo510数据处理单元 (12)Indigo520数据处理单元 (15)用于抽检和校准的手持设备Indigo80手持式显示表头 (18)HMP80系列手持式湿度和温度探头 (21)DMP80系列手持式露点和温度探头 (23)HM70手持式湿度和温度仪 (26)HUMICAP® 手持式湿度温度仪表HM40系列 (29)DM70手持式露点仪 (33)MM70适用于现场检测的手持式油中微量水分和温度测试仪 (36)湿度和温度用于测量相对湿度的维萨拉HUMICAP® 传感器 (38)如何为高湿度应用选择合适的湿度仪表 (40)Insight PC机软件 (44)HMP1墙面式温湿度探头 (46)HMP3一般用途湿度和温度探头 (48)HMP4相对湿度和温度探头 (51)HMP5相对湿度和温度探头 (54)HMP7相对湿度和温度探头 (57)HMP8相对湿度和温度探头 (60)HMP9紧凑型湿度和温度探头 (63)TMP1温度探头 (66)适用于苛刻环境中湿度测量的HMT330系列温湿度变送器 (68)HMT370EX系列本安型温湿度变送器 (78)HMT310温湿度变送器 (84)HUMICAP® 温湿度变送器HMT120和HMT130 (87)适用于高性能暖通空调应用的HMW90系列湿度与温度变送器 (90)HMD60系列湿度和温度变送器 (92)HMD110/112和HMW110/112湿度和温度变送器 (96)适用于楼宇自动化高精度室外测量的HMS110系列温湿度变送器 (99)HMDW80系列温湿度变送器 (101)适用于楼宇自动化应用室外测量的HMS80系列温湿度变送器 (105)HMM100湿度模块 (107)适用于OEM应用的HMM105数字湿度模块 (109)HMM170温湿度模块 (111)INTERCAP® 温湿度探头HMP60 (113)4INTERCAP® 温湿度探头HMP63 (115)HUMICAP® 温湿度探头HMP110 (117)HUMICAP® 温湿度探头HMP113 (120)SHM40结构湿度测量套件 (122)HMK15湿度校准仪 (125)DTR500太阳辐射和雨水防护罩 (127)HMT330MIK气象安装套件 (129)适用于动力汽轮机进气测量的HMT300TMK汽轮机安装组件 (131)露点Vaisala DRYCAP® 传感器用于测量干燥过程中的湿度 (133)DMP5露点和温度探头 (135)DMP6露点探头 (138)DMP7露点和温度探头 (140)DMP8露点和温度探头 (142)DMT340系列露点和温度变送器 (145)适用于高温应用的DMT345和DMT346露点变送器 (151)DMT152露点变送器 (155)DMT143露点变送器 (157)DMT143L露点变送器 (160)用于冷冻干燥机的DMT132露点变送器 (162)DM70用DSS70A便携式采样系统和采样室 (164)DPT146露点和气压变送器 (166)DPT145多参数变送器 (168)二氧化碳适用于苛刻环境的维萨拉CARBOCAP® 测量传感器 (171)GMP343二氧化碳探头 (173)适用于CO2恒温箱的GMP231二氧化碳探头 (176)GMP251二氧化碳探头 (178)GMP252二氧化碳探头 (181)GM70手持式二氧化碳测试仪 (184)适用于苛刻通风要求应用的GMW90系列二氧化碳及温湿度变送器 (187)适用于智能控制通风系统 (DCV) 的GMW80系列二氧化碳、湿度和温度一体变送器 (190)按需控制通风系统中的GMD20系列二氧化碳变送器 (193)GMD110管道安装式二氧化碳变送器 (195)沼气MGP261多气体探头 (197)MGP262多气体探头 (199)油中水用于测量油中微水的维萨拉HUMICAP® 传感器 (201)MMP8油中水分探头 (203)MMT330系列油中微量水分与温度变送器 (205)5MMT310系列油中微量水分与温度变送器 (209)MMT162油中微量水分和温度变送器 (211)连续监测系统维萨拉viewLinc企业版服务器版本5.1 (213)AP10 VaiNet无线接入点 (215)用于连续监测系统的RFL100无线数据记录仪 (218)HMP115温湿度探头 (223)TMP115宽范围温度探头 (225)维萨拉温度与相对湿度数据记录仪系列DL2000 (227)维萨拉通用输入数据记录仪系列DL4000 (229)维萨拉多应用温度数据记录仪DL1016/1416 (231)维萨拉热电偶数据记录仪系列DL1700 (233)维萨拉中端温度、湿度及触点通道数据记录仪 (235)维萨拉vNet以太网供电数据记录仪接口 (238)溶解气体分析OPT100 Optimus™ 溶解气体分析(DGA)监测系统 (240)MHT410变压器油中微量水分、氢气和温度分析仪 (244)过氧化氢用于测量汽化过氧化氢、相对饱和度和相对湿度的维萨拉PEROXCAP® 传感器 (246)用于过氧化氢、湿度和温度测量的HPP270系列探头 (249)压力用于测量压力的维萨拉BAROCAP® 传感器 (253)PTU300气压、湿度和温度一体变送器 (255)适用于专业气象、航空与工业用户的PTB330数字式气压计 (260)气压传递标准PTB330TS (262)PTB210数字气压计 (265)PTB110气压计 (267)将风引起误差降低的SPH10/20静压头 (269)气象Vaisala用于工业应用测量的风和气象传感器技术 (271)风测量装置WA15 (273)WINDCAP® 超声波风传感器WMT700系列 (276)气象变送器WXT530系列 (278)服务支持面向仪表全生命周期服务 (280)67功能•数据处理单元 USB-C 端口支持使用通用 USB 电缆连接到维萨拉Insight PC 软件•数字和图形彩色显示屏（针对模拟型号提供可选的不带显示屏的款式）•IP65 外壳•24 V AC/DC 电源输入•Indigo201：3 个模拟输出（mA 或 V）•Indigo202：RS-485，带有Modbus ® RTU•2 个可配置的继电器维萨拉 Indigo200 系列数据处理单元是一种主机设备，它显示来自维萨拉 Indigo 兼容探头的测量值，同时也可通过模拟信号、Modbus RTU 通信或继电器将这些测量值传输到自动化系统。

深圳英士康科技有限公司深圳南山区侨香路美景工业苑2号6楼电话: +86 755 28721662 / 28721663传真: +86 755 84170408E-mail:***************/HID 电子镇流器规格书HID BALLAST SPECIFICATION金属卤素灯模拟调光型EAMH250AD-EUVersion ASHENZHEN EASCA TECHNOLOGIES LIMITEDF6, No.2, MeiJing Industrial Park, QiaoXiang Road, NanShan district, Shenzhen, ChinaTel: +86 755 28721662 28721663 Fax: +86 755 84170408E-mail:***************EAMH250AD-EU ver A ◎技术参数 (Technique Specifications)输入电压:Voltage input range: 170Vac～260Vac开路保护:Protection of open circuit:有Available额定电压:Rating input voltage: 220Vac过热保护:Protection of thermal:有Available输入频率:Input frequency: 50Hz～60Hz触发失败保护:Protection of ignition failure:有Available功率因数: Power factor: > 0.99灯失效保护:Protection of end of lamp life:有Available效率: Efficiency: 95% (Max)重量:Weight:1.8 kg谐波含量: THD < 10%灯管到镇流器最大距离:Max. Lamp distance from ballast :15m输出功率: Output power: 250 W工作温度:Operating temperature range:-40℃～+60℃调光: Dimming: 模拟调光Analog Dimming 0-10v尺寸(L X W X H):Dimension (L X W X H):234.5x102x68.4mm电流波峰因素: Current crest factor: < 1.7最大外壳温度(TC):Max case temperature (TC):85℃输出频率:Output frequency : 100Hz安规标准:Safety and regulation:IEC61347短路保护:Protection of short circuit: 有Available电磁兼容:EMC:EN55015◎ 产品特性 (Product Speciality)◎ 安装图(Mounting Drawing)●进口铝合金外壳，超光氧化处理，具优良散热性●内部采用三防漆处理和特种散热胶灌封，更适于恶劣环境●使用于多种金卤灯光源，如GE，欧斯朗，飞利浦，BLV等及国产多种欧标光源●噪音低，光输出稳定无屏闪现象，具多种自我保护功能●效率高，综合节电30%以上●广泛应用于路桥、广告牌、建筑及景观照明领域●Bright aluminium alloy case with perfect thermal efficiency●Internally double protected by conformal coating and coolingcolloid that ensures ballast work well in various environment●Compliant to most MH lamp brands such as GE, OSRAM,PHILIPS, BLV etc…with EU standard●Low noise, stable lumen output, no flicker, and multipleself-protection functions●High efficiency that saves more than 30%●Applying to road, bridge, billboard, building, sight lighting etc...EAMH250AD-EU version A 说明：1、安装前请仔细阅读本说明。

Rugged Mobile Computing SolutionsGET AC B360 Pro配件说明书手册强韧坚固笔记本电脑极大性能更安全强韧坚固B360 PRO备用主电池特点和优点Getac B360Pro备用主电池用于交流电源适配器无法连接时，给您的设备提供主电源。

它设有集成电源指示灯，状态检查按钮，让用户一按了解电源容量状态。

产品信息产品照片电池类型：锂离子电池设计：3S2P输出电压：10.8V容量：标准6900mAh；最小6600mAh尺寸：长141.05x宽73.8x高22.3mm重：345.6gSKU IDSKU ID：GBM6X590W交流电源适配器特点和优点此适配器用交流电给B360和内部电池充电。

适配器含有特定国家的电源线，可匹配您所在国家的当地电源插座。

产品信息产品照片输入：100V-240V输出：19V, 4.74 A, 90W尺寸：长129x宽53x高30.5mm重：368g输入电线长度：1830mm输出电线长度：1800mm库存单位编号GAA9E5 (欧盟地区电源线)GAA9U5 (美国地区电源线)GAA9K5 (英国地区电源线)GAA9A5 (澳大利亚地区电源线)GAA9C5 (中国大陆地区电源线)GAA9T5 (台湾地区电源线)90W MIL-STD-461交流电源适配器特点和优点该MIL-STD-461G交流电源适配器已通过严格的军用标准和试验规格，确保适配器的传导发射、传导敏感度、辐射发射和辐射敏感度能够满足电磁干扰控制的要求。

产品信息产品照片输入：115V-230V, 1.6A 50~60Hz输出：19V, 4.74A, 90W尺寸：长170x宽75x高45mm重：880g（无电源线）输入电线长度：1530mm输出电线长度：1800mmSKU IDGAAFE3 (欧盟地区电源线)GAAFU3 (美国地区电源线)GAAFK3 (英国地区电源线)GAAFC3 (中国大陆地区电源线)120W办公室扩展坞适配器特点和优点这款120W交流电源适配器专门与办公室扩展坞和B360Pro搭载的分立元件图形处理器一起使用，能够高效地为您的设备供电。

WEBs 应用手册关于霍尼韦尔霍尼韦尔是一家《财富》全球500 强的高科技企业。

我们的高科技解决方案涵盖航空、汽车、楼宇、住宅和工业控制技术，特性材料，以及物联网。

我们致力于将物理世界和数字世界深度融合，利用先进的云计算、数据分析和工业物联网技术解决最为棘手的经济和社会挑战。

在中国，霍尼韦尔长期以创新来推动增长，贯彻“东方服务于东方”和“东方服务于全球”的战略。

霍尼韦尔始创于1885 年，在华历史可以追溯到1935 年，在上海开设了第一个经销机构。

目前，霍尼韦尔四大业务集团均已落户中国，上海是霍尼韦尔亚太区总部，在华员工人数约11,000 人。

同时，霍尼韦尔在中国的30 多个城市拥有50 多家独资公司和合资企业，其中包括20 多家工厂，旨在共同打造万物互联、更智能、更安全和更可持续发展的世界。

欲了解更多公司信息，请访问霍尼韦尔中国网站www. ,或关注霍尼韦尔官方微博和官方微信。

霍尼韦尔霍尼韦尔智能建筑科技集团我们在全球拥有23,000 多名员工。

我们的产品、软件和技术已在全球超过1,000 万栋建筑中使用。

我们的技术确保商业楼宇业主和用户的设施安全、节能、具有可持续性与高生产力。

霍尼韦尔智能建筑科技集团深耕中国40 多年来，参与了30 多个城市的150 多条地铁的建设，为500 多座机场的智慧和安全保驾护航，为600 多家酒店提供智能管理系统，为1000多家医院提供了数字化解决方案。

目录第一部分 (4)霍尼韦尔智慧楼宇系统架构示意图 (4)霍尼韦尔智慧能源管理解决方案 (6)WEBs N4管理软件 (9)霍尼韦尔智慧触控屏 (13)第二部分 (17)系统控制器 WEB 8000 系列 (17)系统控制器 WEB 8000 VAV 专用系列 (21)边缘数据管理器 (24)增强型可编程通用控制器 (27)可编程通用控制器 (30)可编程通用控制器扩展模块 (33)BACnet 可编程通用 / VAV 控制器 (36)Lonworks 可编程通用 / VAV 控制器 (39)VAV 控制器 (43)BACnet 通用控制器 (46)Sylk TM I/O 扩展模块 (49)MVCweb 控制器 (52)UB系列独立控制器 (55)第三部分 (59)房间温控单元 (59)变风量末端墙装模块 (63)WTS3/6 系列温控器 (65)WTS8/9 系列温控器 (69)WS9 系列墙装模块 (73)建筑网络适配器 (76)智能电表 (78)4Ethernet / LANBACnet MS/TP Modbus RTU LonworksKNXSylk BusLightingModbus TCP BACnet IPBACnet IPAlarm Console clientWEB 8000 Web ControllerWEBStation Supervisor智慧触控屏Sylk I/O ModuleLonworks Spyder边缘数据管理器Spyder Universal ControllerPUC BACnet MS/TP Controller霍尼韦尔智慧楼宇系统架构示意图系统示意图仅用于显示设备在系统中的层次关系以及支持的通讯协议具体配置细节请结合实际项目情况，联系霍尼韦尔技术工程师进行架构设计5ElectricitySubmeterBACnet IPBACnet IPHTTPs , BACnet IP , oBIX , SNMP , …WEBs Enterprise Security WEBs Energy AnalyticsHAQ61增强型 BACnet IP ControllerFCU Wall ModuleVAV Controller EM Bus I/O ModuleSylk Bus Wall Module增强型 BACnet IP ControllerEM Bus6霍尼韦尔智慧能源管理解决方案智能高效，机器自学习功能准确分析，快速发现能耗异常功能全面，基于能耗大数据采集、趋势分析、评估诊断和流程控制的闭环管理功能数据准确，具有180多年计量仪表生产、安装与服务的专业知识灵活易用，云平台或本地部署灵活配置和迁移，操作简便扩展性好通过能源可见性、积极应对能耗异常和提高管理人员参与度，用户可以:★ 避免能耗异常波动★ 确保节能投资的投资回报率(ROI)符合预期★ 提高管理效率和降低运营成本研究显示，更多的企业为合规地实现节省成本、提高效率，越来越关注能源管理系统。

Single-Stage Dimmable LED Drivers1.0 Features●Isolated/non-isolated off-line 120V AC/230V AC LED driverup to 20W output power●Wide line frequency range (from 45Hz to 66Hz)●Meets IEC61000-3-2 current harmonic requirement●Total harmonic distortion < 20% with PF > 0.92●Excellent dimmer compatibilityx Leading-edge dimmerx Trailing-edge dimmerx Digital smart dimmer●Wide dimming range of 1% to 100%●Intelligent digital control integrating current sink functioninto power switching circuit●Advanced IC power management and voltage sensingenables the use of off-the-shelf inductor●Resonant control to achieve high efficiency (typical > 85%without dimmer)●Excellent AC line distortion immunity ensures quality ofproduct under real-life circumstances●Over-temperature LED current foldback and shutdown ●Tight LED current regulation (±5%)●Fast start-up (< 0.5s without dimmer)●Multiple protection features that include:x LED open-circuit and short-circuit protectionx Current sensing resistor open circuit and short-circuit protectionx AC line over-voltage protectionx Over-current protection 2.0 DescriptionThe iW3688 is a single-stage, high-performance AC/DC off-line power supply controller for dimmable LED luminaires. It applies advanced digital control technology to detect the dimmer type, enabling it to provide dynamic impedance to interface with the dimmer and to control the LED brightness at the same time. With advanced dimmer detection technology, the iW3688 can operate with most wall dimmers including leading- edge dimmers (R-type or R-L type), trailing-edge dimmers (R-C type), and smart dimmers. In addition, the iW3688’s cycle-by-cycle waveform analysis technology allows for fast dimmer transient response.In no-dimmer mode, the iW3688 operates the main power converter that delivers current to the LED load in quasi- resonant mode to provide high power efficiency and low electro-magnetic interference (EMI). When there is no dimmer on the line, the iW3688 optimizes the power factor and minimizes the current harmonic distortion to the AC line. The commonly utilized converter topologies for iW3688 are buck-boost and flyback.The iW3688 uses patented PrimAccurate™ primary-side sensing technology to achieve excellent LED current regulation under different AC line and LED load voltages, without using a secondary-side feedback circuit and thus eliminating the need for an opto-coupler.The iW3688 minimizes the external components count by simplifying the EMI filter with Dialog’s EZ-EMI® technology, and by integrating current sink, switching, and V CC charging circuit. Additionally, the iW3688 does not require an auxiliary winding, which eliminates the need for a custom inductor. The digital control loop of the iW3688 maintains stability over all operating conditions without the need for loop compensation components.The iW3688 maintains high performance wide-range dimming and achieves excellent dimmer compatibility with a simple application circuit.3.0 Applications●Dimmable LED retrofit lamps up to 20W●Dimmable LED luminaires up to 20WSingle-Stage Dimmable LED DriversLFigure 3.1: iW3688 Simplified Application CircuitSingle-Stage Dimmable LED Drivers4.0 Pinout DescriptionFigure 4.1: 14-Lead SOIC-14 PackageSingle-Stage Dimmable LED Drivers5.0 Absolute Maximum RatingsAbsolute maximum ratings are the parameter values or ranges which can cause permanent damage if exceeded. For maximum safe operating conditions, refer to Section 6.0 Electrical Characteristics.Single-Stage Dimmable LED Drivers6.0 Electrical CharacteristicsV CC = 5V, -40°C ≤ T A ≤ 85°C, unless otherwise specified (Note 1)Single-Stage Dimmable LED Drivers6.0 Electrical Characteristics (cont.)V = 5V, -40°C ≤ T ≤ 85°C, unless otherwise specified (Note 1)Notes:Note 1. Adjust V CC above the start-up threshold before setting at 5V.Note 2. Refer to the voltage level at the V IN_A point in Figure 8.1. The typical impedance between the V IN pin and V IN_A point is 500W.Note 3. Refer to Z VIN in Figure 8.1.Note 4. Operating frequency varies based on the line and load conditions. See the Theory of Operation section (Section9.0) for more details.Single-Stage Dimmable LED Drivers7.0 Typical Performance CharacteristicsFigure 7.1 : V CC vs. V CCSupply Start-up Current Figure 7.2 : V CCStart-Up Threshold vs. TemperatureFigure 7.3 : % Deviation of Switching Frequency toIdeal Switching Frequency vs. TemperatureFigure 7.4 :Internal Reference vs. TemperatureSingle-Stage Dimmable LED Drivers 8.0 Functional Block DiagramThe Digital Core (shown in figure 8.1) analyzes the rectified AC waveform and determines whether a dimmer is connected on the line. There are three dimmer modes in the iW3688: no-dimmer, leading-edge dimmer, and trailing-edge dimmer. Based on the detected dimmer type and input voltage waveform, the iW3688 determines whether the iW3688 is operating in current sink mode or switching mode. During switching mode, the output current regulation is determined by inductor peak current (I SENSE pin), the magnetic flux status of the inductor (V D and V CB pins), and the input voltage waveform (V IN pin) (refer to section 9.4 for more information).If no dimmer is detected on the AC line, the iW3688 operates in no-dimmer mode where only the switching circuit is enabled. In this mode, the average output currentis regulated to the nominal value and is immune to input voltage variation.If a dimmer (either leading-edge or trailing-edge) is detected on the AC line, the iW3688 operates in dimmer mode. In dimmer mode, MOSFET (Q1 in Figure 11.1) operates in both switching mode and current sink mode based on the timing control of iW3688. During the switching mode, the output current is adjusted based on the detected phase conduction angle. During current sink mode, the switching circuit is disabled and the current sink circuit is enabled. The main MOSFET is forced to operate in linear mode, where the current through MOSFET is regulated by the Digital Core. As shown in Figure 8.1, V CC can be charged during both current sink mode and switching mode..Figure 8.1 : iW3688 Functional Block DiagramV INV ccV CBI SENSEPGNDCFG1CFG2AGND CFG3CFG4V D V SSingle-Stage Dimmable LED DriversAC line before wall -dimmerAC line after wall -dimmerFigure 9.2 : Leading-Edge Wall Dimmer WaveformsAC line before AC line after wall-dimmerFigure 9.3 : Trailing-Edge Wall Dimmer WaveformsThe dimmer detection stage occurs in the iW3688 immediately after IC starts up. During this stage, the iW3688 stays in current sink mode to place a low impedance load on the AC line, where the current through MOSFET is regulated by the Digital Core. As a result, the dimmer type (no-dimmer, leading-edge, or trailing-edge) can be accurately detected. The dimmer type is determined by sensing the slope of the input AC voltage and the dimming phase angle. A fast rising edge of the input AC voltage indicates a leading-edge dimmer. A large dimming phase angle indicates no dimmer is on the line. Otherwise, a trailing-edge dimmer is detected.When the V IN_A signal is above V IN(ST) for 500µs and the AC line frequency is within the range, the AC input signal is qualified for startup. If V CC drops below V CC(UVL), the iW3688 resets and the startup sequence is initiated.9.1.3 LED Current Soft-StartAfter the iW3688 qualifies the AC input signal, the buck- boost or flyback converter immediately starts to deliver9.0 Theory of Operation9.1 System StartupThis section provides information about iW3688 system start up, which includes the IC startup, wall dimmer detection, and the LED current soft start.9.1.1 IC StartupWhen AC voltage is applied, the gate voltage of MOSFET, V G is charged up through RC circuit (R6, and C5 in Figure 11.1). When V GS > V GS(TH), the MOSFET starts to turn on and charge the V CC capacitors (C7 and C8 in Figure 11.1). When V CC voltage reaches V CC start-up threshold V CC(ST), the iW3688’s control logic is activated and the IC starts up.V CCENABLEStart-up SequenceFigure 9.1 : Start-up Sequence Diagram9.1.2 Wall Dimmer DetectionThere are two basic categories of phase-cut wall dimmers: leading-edge dimmers and trailing-edge dimmers. If the AC voltage rises at the phase-cut edge, the dimmer is called leading-edge dimmer (shown in Figure 9.2). Otherwise it is called trailing-edge dimmer (shown in Figure 9.3). Normally, a leading-edge dimmer is either an R-type or RL-type; a trailing-edge dimmer is an RC-type.Single-Stage Dimmable LED Driverscurrent to the LED load. A soft-start algorithm is applied to the buck-boost or flyback converter to gradually ramp up the LED current.If a dimmer is connected, the driver starts immediately into leading-edge or trailing-edge mode operation (refer to section 9.3.1 and 9.3.2 for details) to interface with the dimmer. If no dimmer is connected, the driver starts no-dimmer mode operation (refer to section 9.3.3 for details). 9.2 Dimming CurveWhen a leading-edge or a trailing-edge dimmer is detected, the iW3688 adjusts the output current to a certain ratio of the nominal output current, based on the dimming phase angle detected. This ratio between the desired output current to the nominal output current is called the dimming percentage.A typical mapping between the dimming phase angle and the dimming percentage is shown in Figure 10.6. All the dimming curves of the iW3688 fall within the limits of the NEMA SSL6 and SSL7 standard (shown in Figure 10.6). The iW3688 updates the dimming percentage every half-AC-cycle based on the detected dimming phase angle to ensure fast dimming response.9.3 Current Sink and Switching CircuitControlThis section provides information about how the iW3688 controls the current sink circuit and the switching circuit during leading-edge dimmer mode, trailing-edge dimmer mode, and no-dimmer mode.9.3.1 Leading-Edge Dimmer ModeIf a leading-edge dimmer is detected, the iW3688 enters into leading-edge dimmer mode. The current sink circuit and switching circuit inside iW3688 turn on alternatively.The current sink circuit and switching circuit control during leading-edge dimmer mode can be split into six operating sections, as shown in Figure 9.4.During section 1, the TRIAC in the leading-edge dimmer is turned off and the dimmer requires a low impedance load to charge its internal timing circuit. The regulated current of the current sink circuit is set to a high limit while the switching circuit is disabled. When V IN_A exceeds 0.228V for more than 40µs, the iW3688 enters into section 2. In section 2, the regulated current of section 1 is gradually transitioned to match the average switching current of section 3. When the transition is over, the iW3688 enters section 3, where the current sink circuit is disabled and the switching circuit begins its operation. The duration of section 3 is determined by the desired output current to be delivered to the LEDs. Once the energy required to obtain the desired output current is delivered to the LEDs, the iW3688 disables the switching circuit and enters section 4. In section 4, the current sink circuit is enabled, which provides a gradual transition of MOSFET source current. During this transition, the averaged MOSFET source current is decreased to zero from the averaged switching current in section 3. When the MOSFET source current reaches zero, the iW3688 enters section 5, which is called the blanking period. During this period, no switching or current sink is present to minimize power loss and ensure the TRIAC in the dimmer is turned off. When V IN_A falls below 0.184V, the iW3688 enters section 6. In section 6, the current sink circuit is enabled and the sinking current is transitioned from zero to the regulated current level in section 1. At the time when the sinking current reaches the regulated current in section 1, the iW3688 enters section 1. This provides a low impedance load to quickly discharge the capacitance of the driver board. The sinking current naturally goes to zero when the input and RC snubber capacitors (C1, C2, and C3 in Figure 11.1) have been fully discharged.V INI SOURCE1234561Figure 9.4 : Leading Edge Dimmer Mode Operation9.3.2 Trailing-Edge Dimmer ModeIf a trailing-edge dimmer is detected, the iW3688 enters into trailing-edge dimmer mode. The current sink circuit and switching circuit inside iW3688 turn on alternatively.The current sink circuit and switching circuit control during trailing-edge dimmer mode can be split into four operating sections, as shown in Figure 9.5.During section 1, the trailing-edge dimmer requires a low impedance load to charge its internal supply voltage and detect the next zero-crossing. The regulated current of the current sink circuit is set to a high limit while the switching circuit is disabled. When V IN_A exceeds 0.228V, the iW3688 enters into section 2. During section 2, the sinking current is gradually reduced from the regulated current of section 1 to zero. When the sinking current reaches zero, the iW3688Single-Stage Dimmable LED Driversenters section 3. During section 3, both the current sink circuit and the switching circuit are disabled. In section 4, the iW3688 begins to deliver energy to output of the LED driver until the trailing-edge dimmer turns off. After section 4, the iW3688 disables the switching circuit and enters section 1. This provides a low impedance load to quickly discharge the capacitors of the dimmer and driver board.V INI SOURCE12341Figure 9.5 : Trailing Edge Dimmer Mode Operation9.3.3 No-dimmer ModeIf there is no dimmer on the line, the iW3688 operates inno-dimmer mode to optimize power factor and to minimizeharmonic distortion. The current sink circuit is disabled inthis mode and only the switching circuit is used.9.3.4 Controller Power ManagementUnlike most off-line LED controllers, the iW3688 does not rely on auxiliary winding of the main power inductor/transformer to supply the operating current. Instead, it uses Dialog’sproprietary multi-path charging technology to sustain the V CC voltage. Also, a lower nominal V CC level is made possiblewith source switching structure, which reduces the IC power consumption and enables the use of a smaller size V CCcapacitor.Figure 9.6 : V CC Charging CircuitThe iW3688’s operating current is supplied by two paths (shown in Figure 9.6). The first path, called switching charge, re-directs the switching current into the V CC capacitor when MOSFET is turned on. The second path, called sinking charge, re-directs the sinking current into V CC capacitor. When there is no dimmer on the line, only the switching charge is used to achieve high efficiency. When there is a dimmer on the line, both switching and sinking charge are used to ensure V CC is sustained across the entire dimming range.The iW3688 regulates the V CC voltage by adjusting theduration of the charging time. V CC voltage is smoothlyregulated to the nominal level when the iW3688 operatesin no-dimmer mode. When the iW3688 operates in dimmermode, the window for V CC charging is limited. Therefore, the iW3688 charges the V CC voltage to V CC(HIGH) in the charging window. Although V CC voltage droops before next chargingwindow, the iW3688 guarantees V CClevel is always aboveVCC(UVL) when a proper sized V CC capacitor is used.9.4 Output Current Regulation This section provides information about iW3688 output current regulation, which incorporates the Dialog-patentedPrimAccurate TM technology.Single-Stage Dimmable LED DriversFigure 9.7 : Inductor Current Flow in Switching ModeI PI SI SEC T ON T OFFT RT PI PKI PKFigure 9.8 : Cycle-to-Cycle Peak Current RegulationIn iW3688, output current regulation is implemented through peak current control in switching mode. Figure 9.7 and 9.8 show the basic principle of this peak current regulation during the switching mode. During T ON, the main switch Q1 (shown in Figure 9.7) is turned on and the current, I P, flows through the primary side of the buck-boost converter and Q1. I P ramps up linearly and causes energy to build up in the power inductor L1 (shown in Figure 9.7). The iW3688 continuously monitors I SENSE pin voltage, when it reaches V PK (shown in Figure 8.1), it turns off the switching circuit. At this time, I P reaches peak current regulation level I PK (shown in Figure 9.7 and 9.8). After Q1 is turned off, the current in L1 ramps down linearly through D1 (shown in Figure 9.7), until the energy stored in the power inductor is discharged. During this period, the current through L1 flows to the secondary side of the buck-boost/flyback converter, which is called I S.9.4.1 Output Current Regulation in No-dimmer ModeIn no-dimmer mode, V PK is designed to be proportional to the input voltage shape with a lower limit (shown in Figure 9.9). The buck-boost or flyback converter operates in critical discontinuous conduction mode (CDCM) if the switching frequencyof main MOSFET does not exceed the f SW(MAX). Otherwise, if the switching frequency reaches the f SW(MAX), the power converter operates in discontinuous conduction mode (DCM).Input VoltageSOURCEFigure 9.9 : Peak Current Regulation in No-dimmer ModeAs shown in Figure 9.8, the average current of I S in one switching cycle can be expressed by I SEC, whereSECI= 0.5×PK I×RTPT(9.1)where I PK is the peak value of the L1 current, T R is the L1 current ramp-down time, and T P is the entire switching period.The I PK is determined by the voltage generated on the current sense resistor R19 (shown in Figure 11.1): I PK = V PK /R19. Therefore, the equation can be written asSECI= 0.5×PKV×RTPTR19(9.2) In steady state, the average output current is equal to the average I SEC over one half-AC-cycle. Therefore, the average output current can be obtained by averaging equation 9.2 over one half-AC-cycle.The iW3688 regulates the averaged V PK * (Tr/Tp) to be a constant over one AC half cycle. Therefore, the nominal output current I OUT(NOM) can be determined by equation 9.3.Single-Stage Dimmable LED DriversOUT(NOM)I = 0.5××R 190.35V ŋ(9.3)ŋ is the converter efficiency.9.4.2 Output Current Regulation in Dimmer ModeIn dimmer mode, V PK is a fixed value determined by resistor configuration. The switching frequency (f SW ) is also a fixed value based on resistor configuration (see Section 9.5 for details). If the buck-boost or flyback is operating in DCM, a fixed V PK and f SW control can achieve stable I SEC regulation because the energy delivered to the LED is fixed regardlessof input voltage variation. If the buck-boost or flyback is operating in CCM, this stable I SEC regulation cannot be guaranteed. Therefore, the preset V PK and f SW values need to ensure the buck-boost or flyback is operating in DCM. When V IN is low, the iW3688 drops the V PK level to ensure DCM operation (see Figure 9.10). V PKI SENSE V INpin voltageFigure 9.10 : Peak Current Regulation in Dimmer Mode During dimmer mode operation, the output current is regulated with a closed loop control. The reference output current,I OUT(DIM), is calculated by equation 9.4. The instantaneousI SEC current delivered to the output side is accumulatedevery switching cycle when switching is enabled. I OUT(DIM) = I OUT(NOM) × dimming percentage (9.4)When the accumulated instantaneous I SEC current in one half-AC-cycle reaches I OUT(DIM), the iW3688 disables the switching circuit.9.5 Configuration FunctionAt start-up, a current source in the iW3688 drives theconfiguration current I CFG (100µA) into CFG1–CFG4 pin alternatively (shown in Figure 8.1). The iW3688 reads their pinCFG1 pin configuration selects the temperature de-rating start point. CFG2 optimizes the control algorithm for power and NV O *, and CFG2 selects the output current percentage at 70% dimming phase. CFG3 pin configuration selects V PK high limit value at dimmer mode. CFG4 pin configuration selects switching frequency at dimmer mode.By choosing different resistor values for R17, R18, R21, andR22 (shown in Figure 11.1), different configuration values are selected (illustrated in T able 9.1 - 9.4). CFG1 Option Pin3 CFG CFG1 Pin Resistor(R18 in Fig. 11.1)TemperatureDerating StartingPoint (°C) (Internal Sensor) (Fig. 9-11)Typical Value (k W) Min Value (k W)Max Value (k W)00.400.69disable temperature derating1 1.65 1.39 1.911002 3.00 2.78 3.221053 4.45 4.28 4.6211046.05 5.88 6.2211557.857.708.0012069.889.7410.01125712.1812.0412.31130814.8514.6715.03135Table 9.1 CFG1 Pin Configuration Resistor ValuesCFG2OptionPin2 VPPCFG2 Pin Resistor (R17 in Fig. 11.1)Power Level/NV O */I OUT at 70% Dimming PhaseTypicalValue (k W) Min Value (k W) Max Value (k W)00.400.69> 6W/60V-120V/92%1 1.65 1.39 1.91> 6W/60V-120V/87%2 3.00 2.78 3.22> 6W/30V-60V/92%3 4.45 4.28 4.62> 6W/30V-60V/87%4 6.05 5.88 6.22< 6W/60V-120V/92%57.857.708.00< 6W/60V-120V/87%69.889.7410.01< 6W/30V-60V/92%712.1812.0412.31< 6W/30V-60V/87%*: NV O is the product of the turns ratio and output voltage.Table 9.2 CFG2 Pin Configuration Resistor ValuesSingle-Stage Dimmable LED DriversCFG3 Option Pin10 SDACFG3 Pin Resistor(R21 in Fig. 11.1)(±10%)V PK at Dimmer Mode(V) TypicalValue(k W)MinValue(k W)MaxValue(k W)00.400.690.751 1.65 1.39 1.910.82 3.00 2.78 3.220.853 4.45 4.28 4.620.94 6.05 5.88 6.220.95 57.857.708.001 69.889.7410.01 1.05 712.1812.0412.31 1.1 814.8514.6715.03 1.15Table 9.3 CFG3 Pin Configuration Resistor ValuesCFG4 Option Pin11 SCLCFG4 Pin Resistor(R22 in Fig. 11.1)SwitchingFrequency atDimmer Mode(kHz) TypicalValue(k W)MinValue(k W)MaxValue(k W)00.400.69401 1.65 1.39 1.91452 3.00 2.78 3.22503 4.45 4.28 4.62554 6.05 5.88 6.2260 57.857.708.0065 69.889.7410.0170 712.1812.0412.3175 814.8514.6715.0380Table 9.4 CFG4 Pin Configuration Resistor Values 9.6 V SENSE Direct SensingR VSENSEFigure 9.11 : V SENSE Circuit Inside iW3688In conventional LED driver solutions, there is an auxiliary winding in the main inductor/transformer. Three main functions of this auxiliary winding are: 1. To supply V CC for controller IC; 2. To provide output voltage information;3. To provide magnetic flux information of the inductor. As mentioned in 9.3.4. the iW3688 does not rely on auxiliary winding to charge V CC. In addition, Dialog’s proprietary V SENSE Direct Sensing technology allows the iW3688 to obtain LED output voltage and magnetic flux information without an auxiliary winding.Inside the iW3688, there is a high performance differential current sensing circuit between V D and V CB pin (shown in Figure 9.11). This circuit generates a differential current that is equal to the current flow into V D pin subtracted by the current flow into V CB pin. This differential current is directed to an internal precise resistor, R VSENSE, to generate a voltage called V SENSE. V SENSE is essentially a scaled-down version of V DRAIN minus V CIN, which is the same as the auxiliary winding generated signal.The resistances of R CB and R D are determined by the nominal output voltage, V OUT. In Figure 11.1 R CB refers to R13, and R D refers to R15.)(VSENSERDSENSEV= DRAINV×CINVCBRR (9.5)Single-Stage Dimmable LED DriversDuring the period of T R (shown in Figure 9.8), V DRAIN minus V CIN is approximately equal to V OUT . By making R CB and R D the same, their values can be determined by= D R VSENSE R CB R = ×OUTV SENSEV (9.6)9.7 Protection FeaturesThis section provides information about iW3688 protection features.9.7.1 Output Over-Voltage/LED Open ProtectionThe iW3688 includes a function that protects against anoutput over-voltage.The output voltage is monitored by the V SENSE voltage (refer to Section 9.6). If the V SENSE voltage exceeds V SENSE(OVP), the iW3688 shuts down the switching circuit and current sink circuit (shown in Figure 8.1) immediately. As a result, MOSFET is turned off. After the shutdown of current sink and switching circuits, the iW3688 remains powered, while V CC continues to discharge. In order to avoid over-charging of the output voltage, the iW3688 employs an extended discharge time as described below if V CC does not drop below V CC(UVL). Otherwise, when V CC drops below V CC(UVL), the iW3688 resets itself and then initiates a new soft-start cycle.Under the fault condition, the iW3688 tries to start up forthree consecutive times. If all three start-up attempts fail, theiW3688 enters an inactive mode, during which the iW3688 does not respond to the V CC power-on requests. The iW3688 is activated again after it sees 29 start-up attempts. Typically, this extended discharge time is around three to five seconds.9.7.2 Output Short ProtectionThe iW3688 includes a function that protects against an output short-circuit fault.When output is shorted, V SENSE is below V SENSE(UVP). As aresult, an output short fault is detected. The iW3688 shuts down the switching circuit and current sink circuit (shown in Figure 8.1) immediately. As a result, MOSFET is turned off. After the turn-off of MOSFET, the iW3688 remains powered while V CC continues to discharge. In order to avoid excessive power stress due to auto-restart, the iW3688 employs an extended discharge time as described in section 9.7.1 if V CCdoes not drop below V CC(UVL). Otherwise, when V CC dropsbelow V CC(UVL), the iW3688 resets itself and then initiates a new soft-start cycle.To support applications with high output capacitance, output short protection is not activated during the initial LED currentsoft start period. This allows the voltage to build up in the output capacitor without triggering the protection.9.7.3 Temperature De-Rating and Over-Temperature Protection The iW3688 can detect and protect against over-temperatureevent. The iW3688 utilizes an internal sensor for temperaturemeasurement.When the monitored temperature reaches T DERATE(ST), the maximum output current limit begins to reduce linearly from 100% to 70% of the nominal value until the temperaturereaches T DERATE(FINISH) threshold as shown in Figure 9.12,where T DERATE(FINISH) = T DERATE(ST) + 20°C. At T DERATE(FINISH),the maximum output current limit is clamped to 70%. If the temperature further increases to T OTP(START), the iW3688 shuts down.The iW3688 remains in shutdown mode as long as the monitored temperature is above T OTP(START). If the detected temperature falls below T OTP(START) at anytime, the iW3688 starts up. From T DERATE(FINISH) to T DERATE(ST), the maximum output current limit increases linearly from 70% to 100% as shown in Figure 9.12. The device goes back to normal operation if the sensed temperature falls below T DERATE(ST). This bi-directional operation enables the LED current thermal fold-back instead of an abrupt shut-down of the LED current.The values of T DERATE(ST) and T DERATE(FINISH) can be adjustedthrough the CFG1 pin resistor (refer to Section 9.5).I OUT /I OUT(NOM)%T DERATE(ST)T DERATE(FINISH)T OTP(START)Figure 9.12 : Temperature DeRating and OTP9.7.4 Over-Current Protection Over-current protection (OCP) is a feature that is built into the iW3688.。

ADA360K120S001A产品特点：●宽输入电压：输入工作电压范围100-240VAC。

●低功耗：空载损耗<0.075W。

●高能效：六级能耗，功率效率89%。

●高可靠性：符合EN60601-1 CLASS Ⅱ安全等级和 2×MOPP 绝缘防护等级 , 通过 CE 认证。

●阻燃绝缘：UL94V-0 阻燃耐热材料。

●保护种类：短路保护、过流保护、过压保护，并可自恢复。

●便捷转换：适配英规、澳规、欧规、美规、中规五款转换插头。

Features:●Wide input voltage: the input working voltage range is 100-240VAC.●Low power consumption: No-load <0.075W.●High Energy Efficiency: Six levels of energy consumption, power efficiency up to 89%.●High reliability: Comply with EN60601-1 CLASS Ⅱ safety level and 2×MOPP insulation protection level, and pass CE.●Flame retardant insulation:UL94V-0 flame retardant heat resistant material.●Protection types:short circuit protection, over current protection, over voltage protection, and self-recovery.●Convenient conversion: Adapt to five conversion plugs of British, Australian, European, American, and Chinese.1、产品介绍Product IntroductionADA360K120S001A 产品是一款单组输出的壁挂式电源适配器。

1w w w.n o i s e k e n.c o mThe electrostatic simulator you always use is renewed now. The new main unit and discharge gun in sale now are `ESS-S3011A`, ` ESS-B3011A` and `GT-30RA`.For repair maintenance in our company, we discontinue repair support 8 years after delivery according to warranty and 5 years after sales termination. For those electrostatic simulators whose repair support is terminated, we may decline to repair. For discharge gun 'TC-815 series', as there are many discontinued parts, it is difficult to continue to support it. We plan to terminate the repair support as the following schedule.ESD SimulatorESS-S3011A & GT-30RASmart model equipped high function & extendibilityInformation on successive model (current model)Repair support termination schedule:discharge gunModelRepair service and support statussuccessive modelTC-815C terminated GT-30RA TC-815D terminated GT-30RA TC-815D(F)terminated GT-30RA TC-815P terminated GT-30RA TC-815R terminatedGT-30RA TC-815RE22020年（scheduled）GT-30RA TC-815S2020年（scheduled）GT-30RA TC-815-330/2K2020年（scheduled）GT-30R3302KA※Old standard:IEC61000-4-2 Ed1 compliant (new standard incompliant)Repair support termination schedule noticeModelRepair service and support status successive modelESS-630 series terminated ESS-B3011A ESS-200AX terminated ESS-S3011A ESS-100L terminated ESS-B3011A ESS-100LA terminated ESS-B3011A ESS-2000terminated ESS-S3011A ESS-2002terminated ESS-B3011A ESS-2000AX terminated ESS-S3011A ESS-2002EXterminatedESS-B3011AFor the customers who above have electrostatic simulators and discharge gun, please consider to buy the successive model(current model) as replacement.ESS-630A ESS-200AX ESS-100L ESS-2000ESS-2002ESS-2000AX/2002EXEMC test equipment to evaluate the resistibility of electronic equipments when en-ergy charged on a human body or object is discharged to the electronic equipment.This can be available for evaluating malfunctions or functions declines of electronic equipment against the ESD.Programmable simulator to ease some complicated tests. The output voltage is up to 30kV and performable IEC61000-4-2 & ISO 10605 Standardscompliant tests.●“3 pre-checking function” to make sure the more confirmable test ●“CR constant indicator” to make sure the correct unit attachment ●One-touch exchange of gun head and CR unit realized ●“Ten-key & Rotary knob” to ease the setting.●“Discharge Detecting Function” to realize the air-discharge confirmation.●“Lightest discharge gun in the market” to lighten the continuous operation (Excluding the cable and connector)●“White LED Irradiator” to facilitate the visualization of the discharging areas.●“ Control Software” to enable the test result reporting and control with PC.Provided by:Advanced Test Equipment Corp .® (800) 404-ATECRentals • Sales • Calibration • ServiceESD SimulatorESS-B3011A & GT-30RACost-oriented basic model ESD Simulator the light weight discharge gun attach-able.The output voltage can be selected either max. 30kV (B3011A) or max.16kV (L1611A) and compliant to both EN/IEC61000-4-2 Standard (both B3011A and L1611A) and ISO10605 Standard (only B3011A).Cost-oriented Basic modelsESS-S3011A & GT-30RAParameter Specification Polarity Positive / Negative Output voltage 0.20kV ~ 30.0kV±5% (30.5kVmax) ~10.0kV : 0.01kV step ~30.0kV : 0.1kV step Repetition cycle 0.05s ~ 600s±10% / Manual Set step : 0.01s (0.05 ~ 9.99s), 0.10s (10.0 ~ 600.0s)No. of time of discharge 1~60,000 times, Preset 1 time step or continuous preset Discharge mode Contact discharge / Air discharge Radiation level mode NORMAL mode / EXTRA mode Trigger mode Gun trigger / Main trigger / External trigger Operation panel Color LCD / Push-buttons (Partially lighting)Gun holder Standard attached (to hold the discharge gun Model GT-30RA)Radiation mode select switch Extra / Normal switching function built-inDischarge detection Discharge detection function in air-discharge equipped Pre-checking function Following 3 steps function equipped (by user operation. Not the calibration but just checking) SETP1 : High voltage output checking STEP2 : Withstanding voltage checking STEP3 : Discharge relay operation checking CR & Gun head checking CR constant and gun head recognizable (with an indicator to prevent the wrong combination)Parameter Specification"IEC STANDARD" Contact discharge mode : 2.0kV, 4.0kV, 6.0kV and 8.0kV step test mode Air discharge mode : 2.0kV, 4.0kV, 8.0kV and 15.0kV step "MANUAL" Contact / Air discharge mode, Arbitrary setting during 0.2kV~30.0kV test mode Sweeping function built-in, Recordable up to 99 units "SEQUENCE" Enables to operate units set in MANUAL mode continuously.test mode Max. 22 steps / 1 program and the programs recordable up to 20.Warning lamp Lighting at voltage output from the generator. Blinking at electro-static dischargingCharge capacitor / resistor 150pF±10%, 330Ω±10%(Built-in CR unit for discharge gun GT-30RA)Charge resistor in generator 10MΩ(Totally 53Ω in combination with 43MΩ in discharge gun)*AUX connector D-SUB 15pins female connector (for connecting to patolight, automated ESD eliminator, external interlock input, external trigger input terminal)Optical communication Optical connector (serial interface) for connecting to PC connector Power supply / consumption AC100V~AC240V 50Hz / 60Hz ±10% 75VA Dimension Generator : (W)392mm X (H)312mm X (D)295.3mm (including gun holder) Discharge gun : (W)83.3mm X (H)217.2mm X (D)229.3mm Mass Generator : Approx. 7.5kg Discharge gun : Approx. 800g (excluding cable and connector)* The constant depends on combination with CR unit for the discharge gun● “Pre-checking function” taking the confirmable test into the account ● “Discharge Detecting Function” to realize the air-discharge confirmation.● “Lightest Discharge Gun in the market” to lighten the continual operation"● “White LED Irradiator” to facilitate the visualization of the discharging area.● “CR constant checking function” (No indicator) to make the correct unit attachment sure"● One-touch exchange of gun head and CR unit realizedParameter Specification Output voltage 0.20kV~30.0kV±5%(30.5kVmax) ESS-L1611A is 16kVmax Polarity Positive / Negative Repetition cycle 0.05s~9.99s±10%, 0.01s step / ManualNo. of time of discharge 1~999 times, Preset 1 time step or continuous preset Discharge mode Contact discharge / Air discharge Trigger mode Gun trigger / Main trigger Operation panel Indicator : 5X7 Dot matrix LED / Operation : Push buttons Radiation mode select switch Extra / Normal switching function built-inDischarge detection Discharge detection function in air-discharge equipped.Pre-checking function High voltage output checking function (by user operation. Not the calibration but just checking)CR & Gun head CR constant and gun head recognizable checking (to prevent the wrong combination without indicator)IEC LEVELContact discharge mode : 2.0kV, 4.0kV, 6.0kV and 8.0kV step Switching function Air discharge mode : 2.0kV, 4.0kV, 8.0kV and 15.0kV step)Parameter SpecificationWarning lamp Lighting at voltage output from the generator. Blinking at electro-static discharging Charge capacitor / resistor 150pF±10%, 330Ω±10% (Built-in CR unit for discharge gun GT-30RA)Charge resistor in generator 10MΩ (Totally 53Ω in combination with 43MΩ in discharge gun)*Power supply / consumption AC100V~AC240V ±10% 50Hz / 60Hz 62VA Dimension Generator : (W)270 X (H)263 X (D)200mm Discharge gun : (W)83.3 X (H)217.2 X (D)229.3mm Mass Generator : Approx. 4.8kg Discharge gun : Approx. 800g (excluding cable and connector)* Remote control function not built-in.* The constant depends on combination with CR unit for the discharge gun。

paxxx-0051 规格书一、产品介绍1.1 产品名称：paxxx-00511.2 产品型号：paxxx-00511.3 产品规格：paxxx-0051规格书1.4 产品特性：paxxx-0051具有高精度、高稳定性、高可靠性等特点，适用于各种工业领域的测量和控制应用。

二、技术参数2.1 输入电压：220VAC2.2 输出电压：0-10VDC2.3 额定功率：100W2.4 工作温度：-10℃~50℃2.5 存储温度：-20℃~80℃2.6 防护等级：IP652.7 频率响应：0-5kHz三、外观设计3.1 尺寸：150mm*100mm*50mm3.2 材质：铝合金外壳，表面喷涂处理3.3 连接方式：引出端子或连接头四、性能特点4.1 高精度：采用先进的传感器和信号处理技术，精度高达0.14.2 高稳定性：内部稳压电路设计，能够保持稳定的输出电压和电流4.3 高可靠性：采用优质元器件和严格的生产工艺，具有较高的抗干扰能力和可靠性4.4 多种输出方式：可根据用户要求提供不同的输出信号类型和方式4.5 兼容性强：适用于各种主流的自动化控制系统，易于集成和应用4.6 安装方便：标准尺寸和连接方式，可直接替换同类产品，安装简便快捷五、适用范围5.1 工业自动化控制系统5.2 电力电子设备5.3 仪器仪表设备5.4 机械设备5.5 工程施工项目5.6 新能源领域六、注意事项6.1 在使用过程中，请确保输入电压和负载匹配。

6.2 请注意防水防尘工作，避免外部环境对产品的影响。

6.3 请按照产品说明书正确安装和使用，以确保产品的正常性能和安全性。

6.4 如有疑问或需要技术支持，请及时与厂家通联。

七、售后服务7.1 本产品提供一年质保期，质保期内出现非人为因素造成的故障，可提供免费维修或更换。

7.2 质保期外的产品维修和配件更换，将收取相应的维修费用，具体费用标准请交流厂家。

7.3 如需技术支持或售后服务，请拨打掌柜交流或发送邮件至厂家指定电流新箱，我们将尽快为您解决问题。

† Use flexible metal conduit. Push the listed conduit fitting device over the actuator’s cable to butt against the enclosure. Screw in conduit connector. Jacket the actuators input wiring with listed flexible conduit. Properly terminate the conduit in a suitable junction box. Rated impulse Voltage 800V. Type of action 1. Control pollution degree 3.AVKX24-3On/Off, Floating Point, Electronic Fail-Safe, Linear, 24 VD a t e c r e a t e d , 11/03/2016 - S u b j e c t t o c h a n g e . © B e l i m o A i r c o n t r o l s (U S A ), I n c .Meets cULus requirements without the need of an electrical groundconnection.Provide overload protection and disconnect as required.Actuators may be connected in parallel. Power consumption and inputimpedance must be observed.Control signal may be pulsed from either the Hot (Source) or Common(Sink) 24 VAC line.Actuators may be connected in parallel if not mechanically linked. Powerconsumption and input impedance must be observed.Actuators with plenum cable do not have numbers; use color codes instead.!WARNING! LIVE ELECTRICAL COMPONENTS!During installation, testing, servicing and troubleshooting of this product, it may be necessary to work with live electrical components. Have a qualified licensed electrician or other individual who has been properly trained in handling live electrical components perform these tasks. Failure to follow all electrical safety precautions when exposed to live electrical components could result in death or serious injury.AVKX24-3On/Off, Floating Point, Electronic Fail-Safe, Linear, 24 VD a t e c r e a t e d , 11/03/2016 - S u b j e c t t o c h a n g e . © B e l i m o A i r c o n t r o l s (U S A ), I n c .。