LA4601N中文资料

CLA Series:Silicon Limiter Diode Chips DATA SHEETFeatures●Established Skyworks limiter diode process●High-power,mid-range and cleanup designs●Low insertion loss (0.1 dB at 10 GHz)●Power handling to 66 dBm●Tight control of basewidth●Mesa and planar chip designs●Available lead (Pb)-free,RoHS-compliant,and GreenDescriptionSkyworks CLA series of silicon limiter diode chips provides passive receiver protection over a wide range of frequencies from 100 MHz to beyond 30 GHz.These devices utilize Skyworks well-established silicon technology for high resistivity and tightly controlled thin base width PIN limiter diodes.Limiter circuits employing these devices will perform with strong limiting action and low loss.The CLA series consists of eight individual chip designs of different intrinsic region basewidths and capacitances designed to accommodate multistage limiter applications.The mesa constructed,thin basewidth,low capacitance CLA4601-000, CLA4602-000,CLA4604-000 and CLA4605-000 are designed for low-level and cleanup applications.The CLA4603-000,and CLA4606-000 through CLA4608-000 are planar designs desig-nated for high-power and mid-range applications.0.010 (0.254 mm) Min.0.014 (0.356 mm) Max. Sq.Anode Metallized Gold Dot0.002 (0.051 mm) Dia. Min.Cathode Metallized BackContact: GoldSilicon0.004 (0.127 mm) Min.0.006 (0.152 mm) Max.AnodeMetallizedGold DotSiliconCathode Metallized BackContact: Gold0.004 (0.127 mm) Min.0.006 (0.152 mm) Max.0.010 (0.251 mm) Min.0.014 (0.356 mm) Max. Sq.150-801:0.002 (0.051 mm) Min.150-806:0.0011 (0.028 mm) Min.Outline Drawings149-801150 SeriesSkyworks Green products are lead (Pb)-free,RoHS(Restriction of Hazardous Substances)-compliant,conform to the EIA/EICTA/JEITA Joint Industry Guide(JIG) Level A guidelines,and are free from antimonytrioxide and brominated flame retardants.NEWDATA SHEET • CLA SERIESElectrical Specifications at 25 °CCapacitance,C J ,measured at 1 MHz.Resistance,R S ,measured at 500 MHz.CW thermal resistance for infinite heat sink.Pulse thermal resistance for single 1 µs pulse.Bre kdown R S @T L @Thermal Impedance (θ)Top ContactPart Voltage Basewidth C J @ 0 V C J @ 6 V 10 mA 10 mA Average 1 µsDiam.OutlineNumber (V)(µm)(pF)(pF)(Ω)(ns)(°C/W) Pulse (°C/W)(mils/mm)Dr a wingMin.– Max.Nominal Typ.Max.Max.Typ.Max.Typ.Typ.CLA4601-00015–3010.120.1 2.5512015 1.2/0.03150-806CLA4602-00015–3010.20.15258010 1.5/0.038150-806CLA4603-00020–45 1.50.20.152510010 1.5/0.038149-801CLA4604-00030–6020.120.1 2.5710010 1.5/0.038150-806CLA4605-00030–6020.20.1527707 2.5/0.064150-801CLA4606-00045–75 2.50.20.15210807 2.5/0.064150-801CLA4607-000120–18070.20.15 @ 50 V 25040 1.23/0.076149-801CLA4608-000120–18070.80.5 @ 50 V1.2100150.35/0.127149-801CharacteristicValuePower dissipation Pdiss = WFor CW signals θ= θave For pulsed signalsθ= DF x θave + θpulse (θp @1 µS x normalized θp from figure 2)Operating temperature -65 °C to +175 °C Storage temperature-65 °C to +200 °CAbsolute Maximum Ratings175-TambθPerformance is guaranteed only under the conditions listed in the specifications table and is not guaranteed under the full range(s) described by the Absolute Maximum specifications.Exceeding any of the absolute maximum/minimum specifications may result in permanent damage to the device and will void the warranty.CAUTION: Although this device is designed to be as robust aspossible,ESD (Electrostatic Discharge) can damage this device.This device must be protected at all times from ESD.Static charges may easily produce poten-tials of several kilovolts on the human body or equipment,which can discharge without detection.Industry-standard ESD precautions must be employed at all times.DATA SHEET • CLA SERIESTypical Performance at 25 °CInsertion Loss Input Power Maximum Output at Maximum Part @ -10 dBmfor 1 dB Loss Pulsed Input PowerMax.Pulsed InputCW Input PowerRecovery TimeNumber (dB)(dBm) (dBm)(dBm)(W)(ns)CLA4601-0000.17472125CLA4602-0000.17502435CLA4603-000 0.110 5022 2 10CLA4604-0000.1124724310CLA4605-0000.1125027410CLA4606-000 0.115 5327 3 20CLA4607-0000.1206039650CLA4608-0000.220664415100Insertion loss for CLA4601-000 through CLA4607-000 at 10 GHz; insertion loss for CLA4608-000 at 5 GHz.Limiter power results at 1 GHz for shunt connected,single limiter diode and DC return in 50 Ωline.Maximum pulsed power for 1 µs pulse and 0.1% duty factor with chip at 25 °C heat sink.Derate linearly to 0 W at 175 °C.Maximum CW input power at 25 °C heat sink.Derate linearly to 0 W at 175 °C.Recovery time to insertion loss from limiting state.Pulse Width (Sec.)N o r m a l i z e d t o1 µSNormalized Pulsed Thermal Impedance1101001.00E-061.00E-04 1.00E-02 1.00E+00Input Power (dBm)Typical Peak Leakage Power at 1 GHz O u t p u t P o w e r (d B m )01020304050606601020304050DATA SHEET • CLA SERIESCopyright © 2002,2003,2004,2005,2006,Skyworks Solutions,Inc.All Rights Reserved.Information in this document is provided in connection with Skyworks Solutions,Inc.(“Skyworks”) products or services.These materials,including the information contained herein,are provided by Skyworks as a service to its customers and may be used for informational purposes only by the customer.Skyworks assumes no responsibility for errors or omissions in these materials or the information contained herein.Skyworks may change its documentation,products,services,specifications or product descriptions at any time,without notice.Skyworks makes no commitment to update the materials or information and shall have no responsibility whatsoever for conflicts,incompatibilities,or other difficulties arising from any future changes.No license,whether express,implied,by estoppel or otherwise,is granted to any intellectual property rights by this document.Skyworks assumes no liability for any materials,products or information provided hereunder,including the sale,distribution,reproduction or use of Skyworks products,information or materials,except as may be provided in Skyworks Terms and Conditions of Sale.THE MATERIALS,PRODUCTS AND INFORMATION ARE PROVIDED “AS IS”WITHOUT WARRANTY OF ANY KIND,WHETHER EXPRESS,IMPLIED,STATUTORY,OR OTHERWISE,INCLUDING FITNESS FOR A PARTICULAR PURPOSE OR USE,MERCHANTABILITY,PERFORMANCE,QUALITY OR NON-INFRINGEMENT OF ANY INTELLECTUAL PROPERTY RIGHT; ALL SUCH WARRANTIES ARE HEREBY EXPRESSLY DISCLAIMED.SKYWORKS DOES NOT WARRANT THE ACCURACY OR COMPLETENESS OF THE INFORMATION,TEXT,GRAPHICS OR OTHER ITEMS CONTAINED WITHIN THESE MATERIALS.SKYWORKS SHALL NOT BE LIABLE FOR ANY DAMAGES,INCLUDING BUT NOT LIMITED TO ANY SPECIAL,INDIRECT,INCIDENTAL,STATUTORY,OR CONSEQUENTIAL DAMAGES,INCLUDING WITHOUT LIMITATION, LOST REVENUES OR LOST PROFITS THAT MAY RESULT FROM THE USE OF THE MATERIALS OR INFORMATION,WHETHER OR NOT THE RECIPIENT OF MATERIALS HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.Skyworks products are not intended for use in medical,lifesaving or life-sustaining applications,or other equipment in which the failure of the Skyworks products could lead to personal injury, death,physical or environmental damage.Skyworks customers using or selling Skyworks products for use in such applications do so at their own risk and agree to fully indemnify Skyworks for any damages resulting from such improper use or sale.Customers are responsible for their products and applications using Skyworks products,which may deviate from published specifications as a result of design defects,errors,or operation of products outside of published parameters or design specifications.Customers should include design and operating safeguards to minimize these and other risks.Skyworks assumes no liability for applications assistance,customer product design,or damage to any equipment resulting from the use of Skyworks products outside of stated published specifications or parameters. Skyworks,the Skyworks symbol,and “Breakthrough Simplicity”are trademarks or registered trademarks of Skyworks Solutions,Inc.,in the United States and other countries.Third-party brands and names are for identification purposes only,and are the property of their respective owners.Additional information,including relevant terms and conditions,posted at ,are incorporated by reference.。

Eaton DG1-34061FN-C21CEaton PowerXL DG1 variable frequency drive, 61A 400V inputThree-phase mains connection/three-phase motor connectionInternal EMC filter Graphic LCD display and keypad , NEMA 1General specificationsEaton PowerXL DG1 variable frequencydriveDG1-34061FN-C21C15 in18.5 in28 in83 lb Eaton Selling Policy 25-000, one (1) yearfrom the date of installation of theProduct or eighteen (18) months from thedate of shipment of the Product,whichever occurs first.RoHS Compliant CE MarkedC-Tick Compliant UL cULCE IEC/EN 61800-5-1 IEC 61800-5-2 UL 508C IEC 61508 EN 62061 EN ISO 13849-1Product Name Catalog NumberProduct Length/Depth Product Height Product Width Product Weight WarrantyCompliances Certifications110% for 1 minuteInternal EMC filter61 AThree-phase main, three-phase motorFrequency, Speed, Open-loop speed, Open-loop torqueYesYes37 kW2 expansion slotsEtherNet/IP, Modbus TCP, RS-485: Modbus RTU, BACnet MS/TPInductio, PM (IPM & SPM)EMC FilterGraphical Keypad1500 W30 kW20 hpNEMA 1, IP21DG1 in pump and fan applicationsSmoke Mode und Fire ModeStart, Stopp und BetriebBetrieb bei niedrigen Temperaturen Echtzeituhr und TimerDigital I/OsLastverteilung in Mehrmotorenanwendungen Motor data and V/f curvesAnalog I/OsKonfiguration der analogen I/OsConnecting drives to generator suppliesPID controllerKonfiguration der digitalen I/OsReal time clock and use of the timersDual Rating What exactly does that mean? DrehmomentregelungPID-ReglerDG1 in Pumpen- und Lüfteranwendungen Operating at low temperaturesFirmware Update DG1Torque controlSmoke Mode and fire mode Electromagnetic compatibility (EMC)Load balancing in multi motor applications Starting, stopping and operationMotordaten und U/f-KennlinieEaton's Volume 6—Solid-State Motor Control Data sheetProduct Range Catalog Drives EngineeringDG1_FN_(FR4-UL) 2D Drawing XchangeDG1_FN_(FR4-UL) 2D PDFDG1_FN_(FR4-UL) 3D Model XchangeDG1_FN_(FR4-UL) AutoCAD 2D FootprintDG1_FN_(FR4-UL) AutoCAD 2D Footprint (mm)Max overloadProtection filteringHigh overload (CT) ampsPhaseMotor control modesInternal DC chokeConformal coated boardsLow overload (VT) kWNumber of slots Communications onboardMotor typeElectromagnetic compatibility filter User interfacePower consumptionHigh overload (CT) kW HorsepowerNEMA rating Application notesCatalogues Drawings50-60 Hz400 V50 hp61 A72 A40 hp40 - 400 HzAF drive380 - 500 V10050 - 60 HzQuick start wizard advanced PS tool 50 hp constant torqueRS-485 CANopenLCD graphical DG1_FN_(FR4-UL) 3D InventorPowerXL DG1 Series VFD Application ManualPowerXL DG1 Series VFD Installation ManualPower XL General Purpose DrivesPowerXL DG1 Variable Frequency Drive - Setup via WebUI Eaton Specification Sheet - DG1-34061FN-C21CFrequency ratingInput voltageLow overload (VT) hp Output current - max Low overload (VT) amps High overload (CT) hp Frame sizeOutput frequency range TypeInput voltage range Recommended fuse size Input frequency range SoftwareTorque ratingSerial interfaceDisplay Installation instructions MultimediaSpecifications and datasheetsEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. All rights reserved. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmedia。

高压大电流达林顿晶体管阵列系列产品及其应用摘要：ULN2000、ULN2800是高压大电流达林顿晶体管阵列系列产品，具有电流增益高、工作电压高、温度范围宽、带负载能力强等特点，适应于各类要求高速大功率驱动的系统。

ULN2003A电路是美国Texas Instruments公司和Sprague公司开发的高压大电流达林顿晶体管阵列电路，文中介绍了它的电路构成、特征参数及典型应用。

关键词：达林顿晶体管阵列驱动电路ULN2003 ULN2000系列ULN2800系列1 概述功率电子电路大多要求具有大电流输出能力，以便于驱动各种类型的负载。

功率驱动电路是功率电子设备输出电路的一个重要组成部分。

在大型仪器仪表系统中，经常要用到伺服电机、步进电机、各种电磁阀、泵等驱动电压高且功率较大的器件。

ULN2000、ULN2800高压大电流达林顿晶体管阵列系列产品就属于这类可控大功率器件，由于这类器件功能强、应用范围语广。

因此，许多公司都生产高压大电流达林顿晶体管阵列产品，从而形成了各种系列产品，ULN2000、ULN2800系列就是美国Texas Instruments公司、美国Sprague公司开发的高压大电流达林顿晶体管阵列产品。

它们的系列型号分类如表1所列，生产2000、2800高压大电流达林顿晶体管阵列系列产品的公司与型号对照表如表2所列。

在上述系列产品中，ULN2000系列能够同时驱动7组高压大电流负载，ULN2800系列则能够同时驱动8组高压大电流负载。

美国Texas Instruments公司、美国Sprague公司生产的ULN2003A 由7组达林顿晶体管阵列和相应的电阻网络以及钳位二极管网络构成，具有同时驱动7组负载的能力，为单片双极型大功率高速集成电路。

以下介绍该电路的构成、性能特征、电参数以及典型应用。

2000、2800高压大电流达林顿晶体管阵列系列中的其它产品的性能特性与应用可参考ULN2003A。

14601afbwith PLL, Output Trackingand MarginingnTelecom and Networking Equipment n ServersnComplete Switch Mode Power Supply n Wide Input Voltage Range: 4.5V to 20V n 12A DC Typical, 14A Peak Output Current n 0.6V to 5V Output Voltagen Output Voltage T racking and MarginingnRedundant Mounting Pads for Enhanced Solder-Joint Strengthn Parallel Multiple μModules for Current Sharing n Differential Remote Sensing for Precision Regulation (L TM4601A Only)n PLL Frequency Synchronization n ±1.5% Total DC Errorn Current Foldback Protection (Disabled at Start-Up)n Pb-Free (e4) RoHS Compliant Package with Gold Finish Pads n UltraFast™ T ransient Response n Current Mode Control n Up to 95% Effi ciency at 5V IN , 3.3V OUT n Programmable Soft-Start n Output Overvoltage Protection n E nhanced (15mm × 15mm × 2.8mm) Surface Mount LGA Package1.5V/12A Power Supply with 4.5V to 20V InputEffi ciency and Power Lossvs Load CurrentThe L TM ®4601A is a complete 12A step-down switch mode DC/DC power supply with onboard switching controller , MOSFE Ts, inductor and all support components. The μModule™ is housed in a small surface mount 15mm × 15mm × 2.8mm LGA package. The L TM4601A LGA package is designed with redundant mounting pads to enhance solder-joint strength for extended temperature cycling endurance. Operating over an input voltage range of 4.5 to 20V, the L TM4601A supports an output voltage range of 0.6V to 5V as well as output voltage tracking and margining. The high effi ciency design delivers 12A continuous current (14A peak). Only bulk input and output capacitors are needed to complete the design. The low profi le (2.8mm) and light weight (1.7g) package easily mounts on the back side of PC boards. The μModule can be synchronized with an external clock for reducing undesirable frequency harmonics and allows PolyPhase ® operation for high load currents.An onboard differential remote sense amplifi er can be used to accurately regulate an output voltage independent of load current. The onboard remote sense amplifi er is not available in the L TM4601A-1.T YPICAL APPLICATIONF EATURESA PPLICATIONS DESCRIPTIONL , L T , L TC, L TM and PolyPhase are registered trademarks of Linear Technology Corporation. μModule and UltraFast are trademarks of Linear Technology Corporation. All other trademarks are the property of their respective owners. Protected by U.S. Patents including 5481178, 5847554, 6304066, 6476589, 6580258, 6677210, 6774611.OUTOUT CV LOAD CURRENT (A)50E F F I C I E N C Y (%)POWER LOSS (W)55657075954601A TA01b6024681012148085900.51.02.04.01.52.53.03.524601afbINTV CC , DRV CC , V OUT_LCL , V OUT (V OUT ≤ 3.3V withDIFFV OUT ).....................................................–0.3V to 6V PLLIN, TRACK/SS, MPGM, MARG0, MARG1,PGOOD, f SET ..............................–0.3V to INTV CC + 0.3V RUN .............................................................–0.3V to 5V V FB , COMP ................................................–0.3V to 2.7V V IN .............................................................–0.3V to 20V V OSNS +, V OSNS – ..........................–0.3V to INTV CC + 0.3V Operating Temperature Range (Note 2)....–40°C to 85°C Junction Temperature ...........................................125°C Storage Temperature Range ...................–55°C to 125°C(Note 1)Thel denotes the specifi cations which apply over the –40°C to 85°C temperature range, otherwise specifi cations are at T A = 25°C, V IN = 12V . Per typical application (front page) confi guration.SYMBOL PARAMETER CONDITIONSMIN TYP MAX UNITSV IN(DC)Input DC Voltagel4.520V V OUT(DC)Output Voltage, Total Variation withLine and LoadC IN = 10μF ×3, C OUT = 200μF, R SET = 40.2k V IN = 5V to 20V, I OUT = 0A to 12A (Note 5)l 1.4781.5 1.522V Input Specifi cations V IN(UVLO)Undervoltage Lockout Threshold I OUT = 0A3.24V I INRUSH(VIN)Input Inrush Current at StartupI OUT = 0A. V OUT = 1.5V V IN = 5V V IN = 12V0.60.7A ALEAD FREE FINISH TRAYPART MARKING*PACKAGE DESCRIPTIONTEMPERATURE RANGE L TM4601AEV#PBF L TM4601AEV#PBF L TM4601AV 133-Lead (15mm × 15mm × 2.8mm) LGA –40°C to 85°C L TM4601AIV#PBF L TM4601AIV#PBF L TM4601AV 133-Lead (15mm × 15mm × 2.8mm) LGA –40°C to 85°C L TM4601AEV-1#PBF L TM4601AEV-1#PBF L TM4601AV-1133-Lead (15mm × 15mm × 2.8mm) LGA –40°C to 85°C L TM4601AIV-1#PBFL TM4601AIV-1#PBFL TM4601AV-1133-Lead (15mm × 15mm × 2.8mm) LGA–40°C to 85°CConsult L TC Marketing for parts specifi ed with wider operating temperature ranges. *The temperature grade is identifi ed by a label on the shipping container .For more information on lead free part marking, go to: http://www.linear .com/leadfree/This product is only offered in trays. For more information go to: http://www.linear .com/packaging/P IN CONFIGURATIONA BSOLUTE MAXIMUM RATINGS ORDER INFORMATIONELECTRICAL CHARACTERISTICS(See Table 5. Pin Assignment)34601afbSYMBOL PARAMETERCONDITIONSMIN TYP MAX UNITS I Q(VIN,NOLOAD)Input Supply Bias CurrentV IN = 12V, No SwitchingV IN = 12V, V OUT = 1.5V, Switching Continuous V IN = 5V, No SwitchingV IN = 5V, V OUT = 1.5V, Switching Continuous Shutdown, RUN = 0, V IN = 12V 3.8382.54222mA mA mA mA μA I S(VIN)Input Supply CurrentV IN = 12V, V OUT = 1.5V, I OUT = 12A V IN = 12V, V OUT = 3.3V, I OUT = 12A V IN = 5V, V OUT = 1.5V, I OUT = 12A 1.813.634.29A A AINTV CC V IN = 12V, RUN > 2VNo Load4.755.3V Output Specifi cationsI OUTDC Output Continuous Current Range V IN = 12V, V OUT = 1.5V (Note 5)12A ΔV OUT(LINE) V OUT Line Regulation Accuracy V OUT = 1.5V, I OUT = 0A, V IN from 4.5V to 20V l0.3%ΔV OUT(LOAD) V OUT Load Regulation AccuracyV OUT = 1.5V, 0A to 12A (Note 5)V IN = 12V, with Remote Sense Amplifi er V IN = 12V (L TM4601A-1)ll 0.251%%V OUT(AC)Output Ripple VoltageI OUT = 0A, C OUT = 2×, 100μF X5R Ceramic V IN = 12V, V OUT = 1.5V V IN = 5V, V OUT = 1.5V 2018mV P-P mV P-P f SOutput Ripple Voltage Frequency I OUT = 5A, V IN = 12V , V OUT = 1.5V 850kHz ΔV OUT(START)Turn-On Overshoot, TRACK/SS = 10nFC OUT = 200μF , V OUT = 1.5V, I OUT = 0A V IN = 12V V IN = 5V2020mV mVt STARTTurn-On Time, TRACK/SS = OpenC OUT = 200μF , V OUT = 1.5V, I OUT = 1A Resisitive LoadV IN = 12V V IN = 5V0.50.5ms msΔV OUTLSPeak Deviation for Dynamic LoadLoad: 0% to 50% to 0% of Full Load, C OUT = 2 × 22μF Ceramic, 470μF 4V Sanyo POSCAP V IN = 12V V IN = 5V3535mV mV t SETTLE Settling Time for Dynamic Load Step Load: 0% to 50%, or 50% to 0% of Full LoadV IN = 12V 25μs I OUTPKOutput Current LimitC OUT = 200μF , Table 2 V IN = 12V, V OUT = 1.5V V IN = 5V, V OUT = 1.5V1717A A Remote Sense Amp (Note 3) (L TM4601A Only, Not Supported in the L TM4601A-1)V OSNS +, V OSNS – CM Range Common Mode Input Voltage Range V IN = 12V, RUN > 2V 0INTV CC – 1V DIFFV OUT Range Output Voltage Range V IN = 12V, DIFF OUT Load = 100kINTV CC V V OS Input Offset Voltage Magnitude 1.25mV A V Differential Gain 1V/V GBPGain-Bandwidth Product3MHzThe l denotes the specifi cations which apply over the –40°C to 85°Ctemperature range, otherwise specifi cations are at T A = 25°C, V IN = 12V. Per typical application (front page) configuration. E LECTRICAL CHARACTERISTICS44601afbSYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS SR Slew Rate 2V/μs R IN Input ResistanceV OSNS + to GND20kΩCMRR Common Mode Rejection Mode 100dBControl Stage V FB Error Amplifi er Input VoltageAccuracyI OUT = 0A, V OUT = 1.5Vl0.5940.60.606V V RUN RUN Pin On/Off Threshold 1 1.5 1.9V I SS/TRACK Soft-Start Charging Current V SS/TRACK = 0V –1–1.5–2μA t ON(MIN)Minimum On-Time (Note 4)50100ns t OFF(MIN)Minimum Off-Time (Note 4)250400ns R PLLIN PLLIN Input Resistance 50kΩI DRVCC Current into DRV CC PinV OUT = 1.5V, I OUT = 1A, DRV CC = 5V1825mA R FBHI Resistor Between V OUT_LCL and V FB 60.09860.460.702kΩV MPGMMargin Reference Voltage 1.18V V MARG0, V MARG1MARG0, MARG1 Voltage Thresholds 1.4VPGOOD Output ΔV FBH PGOOD Upper Threshold V FB Rising 71013%ΔV FBL PGOOD Lower Threshold V FB Falling –7–10–13%ΔV FB(HYS)PGOOD Hysteresis V FB Returning 1.5%V PGLPGOOD Low VoltageI PGOOD = 5mA0.150.4VThe l denotes the specifi cations which apply over the –40°C to 85°C temperature range, otherwise specifi cations are at T A = 25°C, V IN = 12V. Per typical application (front page) configuration.Note 1: Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. Exposure to any Absolute Maximum Rating condition for extended periods may affect device reliability and lifetime.Note 2: The L TM4601AE/L TM4601AE-1 are guaranteed to meet performance specifi cations from 0°C to 85°C. Specifi cations over the –40°C to 85°C operating temperature range are assured by design,characterization and correlation with statistical process controls. The L TM4601AI/L TM4601AI-1 are guaranteed and tested over the –40°C to 85°C temperature range.Note 3: Remote sense amplifi er recommended for ≤3.3V output.Note 4: 100% tested at wafer level only.Note 5: See Output Current Derating curves for different V IN , V OUT and T A .E LECTRICAL CHARACTERISTICS54601afbEffi ciency vs Load Current with 5V INEffi ciency vs Load Current with 12V INEffi ciency vs Load Current with 20V IN1.2V T ransient Response1.5V T ransient Response2.5V T ransient Response3.3V T ransient Response(See Figure 18 for all curves)1.8V T ransient ResponseTYPICAL PERFORMANCE CHARACTERISTICSLOAD CURRENT (A)E F F I C I E N C Y (%)758085154601A G0170656055505109095100LOAD CURRENT (A)50E F F I C I E N C Y (%)55657075100855104601A G026090958015LOAD CURRENT (A)100909585807570656055504601A G0351015E F F I C I E N C Y(%)V OUT 50mV/DIV 20μs/DIV4601A G04IOUT 5A/DIV1.2V AT 6A/μs LOAD STEPC OUT = 3 • 22μF 6.3V CERAMICS 470μF 4V SANYO POSCAP C3 = 100pFV OUT 50mV/DIV20μs/DIV4601A G05I OUT 5A/DIV 1.5V AT 6A/μs LOAD STEPC OUT = 3 • 22μF 6.3V CERAMICS 470μF 4V SANYO POSCAP C3 = 100pFV OUT 50mV/DIV20μs/DIV4601A G06IOUT 5A/DIV1.8V AT 6A/μs LOAD STEPC OUT = 3 • 22μF 6.3V CERAMICS 470μF 4V SANYO POSCAP C3 = 100pFV OUT 50mV/DIV20μs/DIV4601A G07I OUT 5A/DIV 2.5V AT 6A/μs LOAD STEPC OUT = 3 • 22μF 6.3V CERAMICS 470μF 4V SANYO POSCAP C3 = 100pFV OUT 50mV/DIV20μs/DIV4601A G08I OUT 5A/DIV3.3V AT 6A/μs LOAD STEPC OUT = 3 • 22μF 6.3V CERAMICS 470μF 4V SANYO POSCAP C3 = 100pF64601afb(See Figure 18 for all curves)Start-Up, I OUT = 12A (Resistive Load)Start-Up, I OUT = 0AV IN to V OUT Step-Down RatioShort-Circuit Protection, I OUT = 0AShort-Circuit Protection, I OUT = 12AT rack, I OUT = 12AT YPICAL PERFORMANCE CHARACTERISTICS V OUT0.5V/DIV5ms/DIV4601A G09I IN 0.5A/DIVV IN = 12V V OUT = 1.5V C OUT = 470μF 3s 22μFSOFT-START = 10nFV OUT 0.5V/DIV 2ms/DIV4601A G10I IN 1A/DIVV IN = 12V V OUT = 1.5V C OUT = 470μF 3s 22μFSOFT-START = 10nFINPUT VOL TAGE (V)O U T P U T V O L T A G E (V )3.04.05.55.0164601A G112.01.02.53.54.51.50.5042861214181020 3.3V OUTPUT WITH 130k ADDED FROM V OUT TO f SET 5V OUTPUT WITH 100k RESISTOR ADDED FROM f SET TO GND5V OUTPUT WITH NO RESISTOR ADDED FROM f SET TO GND 2.5V OUTPUT 1.8V OUTPUT 1.5V OUTPUT1.2V OUTPUTV FB 0.5V/DIV TRACK/SS 0.5V/DIV2ms/DIV4601A G12V OUT 1V/DIVV IN = 12V V OUT = 1.5V C OUT = 470μF 3s 22μFSOFT-START = 10nFV OUT 0.5V/DIV 50μs/DIV 4601A G13I IN 1A/DIVV IN = 12VV OUT = 1.5V C OUT = 470μF 3s 22μFSOFT-START = 10nFV OUT 0.5V/DIV 50μs/DIV 4601A G14I IN 1A/DIVV IN = 12VV OUT = 1.5V C OUT = 470μF 3s 22μFSOFT-START = 10nF74601afb(See Package Description for Pin Assignment)V IN (Bank 1): Power Input Pins. Apply input voltage be-tween these pins and PGND pins. Recommend placing input decoupling capacitance directly between V IN pins and PGND pins.V OUT (Bank 3): Power Output Pins. Apply output load between these pins and PGND pins. Recommend placing output decoupling capacitance directly between these pins and PGND pins. Review the fi gure below.PGND (Bank 2): Power ground pins for both input and output returns.V OSNS – (Pin M12): (–) Input to the Remote Sense Amplifier . This pin connects to the ground remote sense point. The remote sense amplifi er is used for V OUT ≤3.3V .NC1 (Pin M12): No Connect On the L TM4601A-1. V OSNS + (Pin J12): (+) Input to the Remote Sense Amplifi er . This pin connects to the output remote sense point. The remote sense amplifi er is used for V OUT ≤3.3V .NC2 (Pin J12): No Connect On the L TM4601A-1.DIFFV OUT (Pin K12): Output of the Remote Sense Ampli-fi er . This pin connects to the V OUT_LCL pin.NC3 (Pin K12): No Connect On the L TM4601A-1.DRV CC (Pin E12): This pin normally connects to INTV CC for powering the internal MOSFET drivers. This pin can be biased up to 6V from an external supply with about 50mA capability, or an external circuit shown in Figure 16. This improves effi ciency at the higher input voltages by reducing power dissipation in the module.INTV CC (Pin A7, D9): This pin is for additional decoupling of the 5V internal regulator . These pins are internally connected. Pin A7 is a test pin.PLLIN (Pin A8): External Clock Synchronization Input to the Phase Detector . This pin is internally terminated to SGND with a 50k resistor . Apply a clock above 2V and below INTV CC . See Applications Information.TRACK/SS (Pin A9): Output Voltage T racking and Soft- Start Pin. When the module is confi gured as a master output, then a soft-start capacitor is placed on this pin to ground to control the master ramp rate. A soft-start capacitor can be used for soft-start turn on as a stand alone regulator . Slave operation is performed by putting a resistor divider from the master output to the ground, and connecting the center point of the divider to this pin. See Applications Information.MPGM (Pins A12, B11): Programmable Margining Input. A resistor from this pin to ground sets a current that is equal to 1.18V/R. This current multiplied by 10kΩ will equal a value in millivolts that is a percentage of the 0.6V reference voltage. See Applications Information. To parallel L TM4601As, each requires an individual MPGM resistor . Do not tie MPGM pins together . Both pins are internally connected. Pin A12 is a test pin.f SET (Pins B12, C11): Frequency Set Internally to 850kHz. An external resistor can be placed from this pin to ground to increase frequency. This pin can be decoupled with a 1000pF capacitor . See Applications Information for fre-quency adjustment. Both pins are internally connected. Pin B12 is a test pin.V FB (Pin F12): The Negative Input of the Error Amplifier . Internally, this pin is connected to V OUT_LCL pin with a 60.4k precision resistor . Different output voltages can be programmed with an additional resistor between V FB and SGND pins. See Applications Information.MARG0 (Pin C12): This pin is the LSB logic input for the margining function. Together with the MARG1 pin will determine if margin high, margin low or no margin state is applied. The pin has an internal pull-down resistor of 50k. See Applications Information.PIN FUNCTIONSV IN BANK 11234567*L TM4601A-1 ONL Y89101112PGND BANK 2V OUT BANK 3V OSNS +/NC2*V OSNS –/NC1*DIFFV OUT /NC3*V OUT_LCL SGND f SET MARG0MARG1DRV CC V FB PGOOD I N T V C CP L L I N T R A C K /S S R U N C O M P M P G M TOP VIEW84601afbFigure 1. Simplifi ed L TM4601A/L TM4601A-1 Block DiagramMARG1 (Pin D12): This pin is the MSB logic input for the margining function. Together with the MARG0 pin will determine if margin high, margin low or no margin state is applied. The pin has an internal pull-down resistor of 50k. See Applications Information.SGND (Pins H12, H11, G11): Signal Ground. These pins connect to PGND at output capacitor point. See Figure 15. COMP (Pin A11): Current Control Threshold and Error Amplifi er Compensation Point. The current comparator threshold increases with this control voltage. The voltage ranges from 0V to 2.4V with 0.7V corresponding to zero sense voltage (zero current).PGOOD (Pins G12, F11): Output Voltage Power Good Indicator . Open-drain logic output that is pulled to ground when the output voltage is not within ±10% of the regula-tion point, after a 25μs power bad mask timer expires.RUN (Pin A10): Run Control Pin. A voltage above 1.9V will turn on the module, and when below 1V, will turn off the module. A programmable UVLO function can be ac-complished with a resistor from V IN to this pin that has a 5.1V zener to ground. Maximum pin voltage is 5V . Limit current into the RUN pin to less than 1mA.V OUT_LCL (Pin L12): V OUT connects directly to this pin to bypass the remote sense amplifi er, or DIFFV OUT con-nects to this pin when remote sense amplifi er is used. V OUT_LCL can be connected to V OUT on the L TM4601A-1, V OUT is internally connected to V OUT_LCL with 50Ω in the L TM4601A-1.MTP1, MTP2, MPT3 (Pins C10, D10, D11 ): E xtra Mounting Pads used for increased solder integrity strength. These pads must remain fl oating (electrical open circuit).(See Package Description for Pin Assignment)P IN FUNCTIONS SIMPLIFIED BLOCK DIAGRAMNOT INCLUDED IN THE L TM4601A-1V OSNS – = NC1V OSNS + = NC2DIFFV OUT = NC34601A F01SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS C IN External Input Capacitor Requirement(V IN = 4.5V to 20V, V OUT = 1.5V)I OUT = 12A, 3× 10μF Ceramics2030μFC OUT External Output Capacitor Requirement(V IN = 4.5V to 20V, V OUT = 1.5V)I OUT = 12A100200μFT A = 25°C, V IN = 12V. Use Figure 1 confi guration.Power Module DescriptionThe L TM4601A is a standalone nonisolated switching mode DC/DC power supply. It can deliver up to 12A of DC output current with few external input and output capacitors. This module provides precisely regulated output voltage programmable via one external resistor from 0.6V DC to 5.0V DC over a 4.5V to 20V wide input voltage. The typical application schematic is shown in Figure 18.The L TM4601A has an integrated constant on-time current mode regulator, ultralow R DS(ON) FETs with fast switch-ing speed and integrated Schottky diodes. The typical switching frequency is 850kHz at full load. With current mode control and internal feedback loop compensation, the L TM4601A module has suffi cient stability margins and good transient performance under a wide range of operat-ing conditions and with a wide range of output capacitors, even all ceramic output capacitors.Current mode control provides cycle-by-cycle fast current limit. Besides, foldback current limiting is provided in an overcurrent condition while V FB drops. Internal overvoltage and undervoltage comparators pull the open-drain PGOOD output low if the output feedback voltage exits a ±10% window around the regulation point. Furthermore, in an overvoltage condition, internal top FET Q1 is turned off and bottom FET Q2 is turned on and held on until the overvoltage condition clears.Pulling the RUN pin below 1V forces the controller into its shutdown state, turning off both Q1 and Q2. At low load current, the module works in continuous current mode by default to achieve minimum output voltage ripple. When DRV CC pin is connected to INTV CC an integrated 5V linear regulator powers the internal gate drivers. If a 5V external bias supply is applied on the DRV CC pin, then an effi ciency improvement will occur due to the reduced power loss in the internal linear regulator. This is especially true at the higher input voltage range.The L TM4601A has a very accurate differential remote sense amplifier with very low offset. This provides for very accurate remote sense voltage measurement. The MPGM pin, MARG0 pin and MARG1 pin are used to sup-port voltage margining, where the percentage of margin is programmed by the MPGM pin, and the MARG0 and MARG1 select margining.The PLLIN pin provides frequency synchronization of the device to an external clock. The TRACK/SS pin is used for power supply tracking and soft-start programming.DECOUPLING REQUIREMENTSOPERATION94601afbThe typical L TM4601A application circuit is shown in Figure 18. E xternal component selection is primarily determined by the maximum load current and output voltage. Refer to Table 2 for specifi c external capacitor requirements for a particular application.V IN to V OUT Step-Down RatiosThere are restrictions in the maximum V IN and V OUT step down ratio that can be achieved for a given input voltage. These constraints are shown in the Typical Performance Characteristics curves labeled “V IN to V OUT Step-Down Ratio”. Note that additional thermal derating may apply. See the Thermal Considerations and Output Current Derating section of this data sheet.Output Voltage Programming and MarginingThe PWM controller has an internal 0.6V reference voltage. As shown in the Block Diagram, a 1M and a 60.4k 0.5% internal feedback resistor connects V OUT and V FB pins together. The V OUT_LCL pin is connected between the 1M and the 60.4k resistor. The 1M resistor is used to protect against an output overvoltage condition if the V OUT_LCL pin is not connected to the output, or if the remote sense amplifi er output is not connected to V OUT_LCL. The output voltage will default to 0.6V. Adding a resistor R SET from the V FB pin to SGND pin programs the output voltage:V OUT=0.6V 60.4k+R SETR SETTable 1. R SET Standard 1% Resistor Values vs V OUTR SET(kΩ)Open60.440.230.125.519.113.38.25V OUT (V)0.6 1.2 1.5 1.82 2.5 3.35The MPGM pin programs a current that when multipliedby an internal 10k resistor sets up the 0.6V reference ±offset for margining. A 1.18V reference divided by theRPGM resistor on the MPGM pin programs the current.Calculate V OUT(MARGIN):V OUT(MARGIN)=%V OUT100•V OUTwhere %V OUT is the percentage of V OUT you want to margin,and V OUT(MARGIN) is the margin quantity in volts:R PGM=V OUT0.6V•1.18VV OUT(MARGIN)•10kwhere R PGM is the resistor value to place on the MPGMpin to ground.The output margining will be ± margining of the value.This is controlled by the MARG0 and MARG1 pins. Seethe truth table below:MARG1MARG0MODELOW LOW NO MARGINLOW HIGH MARGINUPHIGH LOW MARGIN DOWNHIGH HIGH NO MARGINInput CapacitorsL TM4601A module should be connected to a low ACimpedance DC source. Input capacitors are required tobe placed adjacent to the module. In Figure 18, the 10μFceramic input capacitors are selected for their ability tohandle the large RMS current into the converter. An inputbulk capacitor of 100μF is optional. This 100μF capacitor isonly needed if the input source impedance is compromisedby long inductive leads or traces.APPLICATIONS INFORMATION104601afbLTM4601A/LTM4601A-1For a buck converter, the switching duty-cycle can be estimated as:D =V OUT V INWithout considering the inductor current ripple, the RMS current of the input capacitor can be estimated as:I CIN(RMS)=I OUT(MAX) %In the above equation, η% is the estimated effi ciency of the power module. C IN can be a switcher-rated electrolytic aluminum capacitor, OS-CON capacitor or high volume ceramic capacitor. Note the capacitor ripple current rat-ings are often based on temperature and hours of life. This makes it advisable to properly derate the input capacitor, or choose a capacitor rated at a higher temperature than required. Always contact the capacitor manufacturer for derating requirements.In Figure 18, the 10μF ceramic capacitors are together used as a high frequency input decoupling capacitor. In a typical 12A output application, three very low ESR, X5R or X7R, 10μF ceramic capacitors are recommended. These decoupling capacitors should be placed directly adjacent to the module input pins in the PCB layout to minimize the trace inductance and high frequency AC noise. Each 10μF ceramic is typically good for 2A to 3A of RMS ripple current. Refer to your ceramics capacitor catalog for the RMS current ratings.Multiphase operation with multiple L TM4601A devices in parallel will lower the effective input RMS ripple current due to the interleaving operation of the regulators. Application Note 77 provides a detailed explanation. Refer to Figure 2 for the input capacitor ripple current requirement as a function of the number of phases. The fi gure provides a ratio of RMS ripple current to DC load current as function of duty cycle and the number of paralleled phases. Pickthe corresponding duty cycle and the number of phases to arrive at the correct ripple current value. For example, the 2-phase parallel L TM4601A design provides 24A at 2.5V output from a 12V input. The duty cycle is DC = 2.5V/12V = 0.21. The 2-phase curve has a ratio of ~0.25 for a duty cycle of 0.21. This 0.25 ratio of RMS ripple current to a DC load current of 24A equals ~6A of input RMS ripple current for the external input capacitors. Output CapacitorsThe L TM4601A is designed for low output voltage ripple. The bulk output capacitors defi ned as C OUT are chosen with low enough effective series resistance (ESR) to meet the output voltage ripple and transient requirements. C OUT can be a low ESR tantalum capacitor , a low ESR polymer capacitor or a ceramic capacitor . The typical capacitance is 200μF if all ceramic output capacitors are used. Additional output fi ltering may be required by the system designer, if further reduction of output ripple or dynamic transient spike is required. Table 2 shows a matrix of different output voltages and output capacitors to minimize the voltage droop and overshoot during a 5A/μs transient. The table optimizes total equivalent ESR and total bulk capacitance to maximize transient performance.Figure 2. Normalized Input RMS Ripple Current vs Duty Factor for One to Six Modules (Phases)A PPLICATIONS INFORMATION DUTY FACTOR (V OUT /V IN )0.60.50.40.30.20.104601A F02R M S I N P U T R I P P L E C U R R E N T D C L O A D C U R R E N TLTM4601A/LTM4601A-1Multiphase operation with multiple L TM4601A devices in parallel will lower the effective output ripple current due to the interleaving operation of the regulators. For example, each L TM4601A’s inductor current of a 12V to 2.5V multiphase design can be read from the Inductor Ripple Current vs Duty Cycle graph (Figure 3). The large ripple current at low duty cycle and high output voltagecan be reduced by adding an external resistor from f SET to ground which increases the frequency. If the duty cycle is DC = 2.5V/12V = 0.21, the inductor ripple current for 2.5V output at 21% duty cycle is ~6A in Figure 3.Figure 4 provides a ratio of peak-to-peak output ripple cur-rent to the inductor current as a function of duty cycle and the number of paralleled phases. Pick the corresponding duty cycle and the number of phases to arrive at the correct output ripple current ratio value. If a 2-phase operation is chosen at a duty cycle of 21%, then 0.6 is the ratio. This 0.6 ratio of output ripple current to inductor ripple of 6A equals 3.6A of effective output ripple current. Refer to Ap-plication Note 77 for a detailed explanation of output ripple current reduction as a function of paralleled phases.The output voltage ripple has two components that are related to the amount of bulk capacitance and effective series resistance (ESR) of the output bulk capacitance. Therefore, the output voltage ripple can be calculated with the known effective output ripple current. The equation: ΔV OUT(P-P) ≈ (ΔI L /(8 • f • m • C OUT ) + ESR • ΔI L ), where fFigure 4. Normalized Output Ripple Current vs Duty Cycle, Dlr = V T/L , Dlr = Each Phase’s Inductor CurrentFigure 3. Inductor Ripple Current vs Duty CycleAPPLICATIONS INFORMATIONDUTY CYCLE (V OUT /V IN )I L (A )24681012204060804601A F032.5V OUTPUT5V OUTPUT 1.8V OUTPUT 1.5V OUTPUT 1.2V OUTPUT 3.3V OUTPUT WITH 130k ADDED FROM V OUT TO f SET 5V OUTPUT WITH 100k ADDED FROM f SETTO GNDDUTY CYCLE (V O /V IN )1.000.950.900.850.800.750.700.650.600.550.500.450.400.350.300.250.200.150.100.0504601A F04P E A K -T O -P E A K O U T P U T R I P P L E C U R R E N T D I r R A T I O =。

目录一、BSA460CN-R1EN 规格书 1. 零件及图纸清单 2. 压缩机规格 3. 一般规格书 4. 性能曲线 二、图纸———————1～12———————13～24◎零件及图纸清单 PARTS AND DRAWING LIST 图号 Drawing code SC01DA14 SC01D074 使用 数量 Q’ty 备注 Remarks 尺寸简图 Dimensioned sketchBSA460CN-R1EN◆ 外形图 OUTLINE DWG. ◆ 接线图 WIRING DIAGRAM ◆ 电气部品 Electrical components 马达保护器 Motor protector 运转电容 Running capacitor ◆ 接线盒部品 Terminal parts accessories 接线盒盖 Terminal cover 弹簧夹 Clip 密封垫 Packing ◆ 防振部品 Mounting accessories 安装脚示意图 Mount assy 橡胶避振脚 Rubber mountSC01DA36H11 SC01DB62H171 *BF220-JB 6.5µF-450WVSC01D775 SC01D076 SC01D0751 1 1SC01D750 SC01D0243*.不提供，仅供参考。

Out of supply，for reference.1/24BSA460CN-****型压缩机规格书 THE SPECIFICATION FOR BSA460CN-**** COMPRESSOR◆ 一 般 规 格 书 General specification ◆ 压 缩 机 Compressor data 滚动活塞式旋转式 Rolling piston type rotary 1 4.6 电容分相 Permanent split capacitor P revolution 2 3354/3415 E Ω 形 式 Design 气 缸 数 Number of cylinder 排 气 量 Displacement 3 ◆ cm 电 动 机 Motor data 形 式 Motor type 极 数 Pole number 额 定 转 速 Nominal 绝 缘 等 级 rpm Insulation class 绕 组 阻 抗 Motor resistance ◆ 制 冷 剂 Refrigerant ◆ 冷冻机油 Oil 种 类 Brand 封 入 量 Charge 3 ◆重 cm 量（含油） Mass(include.oil) kg 源 Power source ◆电 额 定 电 压 Rated voltage 额 定 频 率 Rated 相 数 Hz Phase ◆性 能 Performance 制 冷 量 Refrigerating 输 入 功 率 W(Btu/hr) Motor input 电 流 Current 测 试 条 件 Conditions SHEC-YG106 SHEC-EG012Main 主.17.8/ Aux 副.36.7R-134a（CH2FCF3）L22E or NEO 32 or equivalent amount 153 4.2V frequency208-230 60 1capacity W A605/615-5%263/282 ±7.5％ 1.27 蒸发温度 Evaporating temp. 冷凝温度 Condensing temp. 吸气温度 Return gas temp. 环境温度 Ambient temp. 膨胀阀前温度 Liquid temp. 电源 Power source+10%7.2 ℃ 54.4℃ 35.0 ℃ 35.0 ℃ 46.1 ℃ 单相 1ph.208/230V 60Hz性 能 曲 线 Performance curve ◆起 动 Starting performance 堵 转 电 流 L.R.A. 最 低 起 动 电 压 Lowest starting voltageSHEC-XQ197A V5.5 ≤ 176.82/24BSA 型压缩机一般规格书1.使用基准及使用限制 压缩机在使用时，必须满足以下的使用基准和限制。

Description:The OPB460, OPB470, OPB480 and OPB490 series of Photologic® photo integrated circuit switches provide optimum flexibility for the design engineer. Building from a standard housing with a 0.125” (3.180 mm) wide slot, a user can specify the type and polarity of TTL output, discrete shell material, aperture width and choice of mounting configurations. OPB460 through OPB473 have 0.425” (10.795 mm) PCBoard leads with 0.320” (8.1 mm) spacing. OPB480 through OPB493 have 24” (609 mm) 26 AWG wires (UL approved wires).All devices in this series exhibit performance over supply voltages ranging from 4.5 V to 16.0 V, and may be specified as buffered or inverted with 10 kW Pull-up or Open Collector output. Devices are also TTI/LSTTL compatible and can drive up to 10 TTL loads.Custom electrical, wire and cabling and connectors are available. Contact your local representative or OPTEK for more information.OPTEK Assembly6 —7 —8 —9 —0 — Buffered 10 kΩ Output1 — Buffered Open-Collector Output2 — Inverted 10 kΩ Output3 — Inverted Open-Collector OutputAll PCBoard Versions RoHS Compliant:Z = Wire Version RoHS CompliantSensor Aperture:1 = 0.010” [0.25 mm]Emitter Aperture:1 = 0.010” [0.25 mm]Mounting Configurations:L — Emitter side mounting tab onlyN — No mounting tabsP — Sensor side mounting tab onlyT — Two mounting tabsPart Number Guide — OPB460, OPB470, OPB480, OPB490 Series Applications:• Mechanical switch replacement• Speed indication (tachometer)• Mechanical limit indication• Edge sensingDIMENSIONS ARE IN:CONTAINS POLYSULFONETo avoid stress cracking, we suggest using ND Industries’ Vibra-Tite for thread-locking. Vibra-Tite evaporates fast without causing structuralfailure in OPTEK’s molded plastics.Applies to: OPB460, OPB470, OPB480, OPB490.INCHES[ MILLIMETERS]Color-Pin Description Red -1 Anode Black-2 Cathode White-3 Vcc Blue -4 Output Green -5GroundNotes:(1) RMA flux is recommended. Duration can be extended to 10 seconds maximum when flow soldering.(2) Derate linearly 1.67 mW/°C above 25° C (OPB460, OPB470) or derate linearly 1.82 mW/°C above 25° C (OPB480, OPB490). (3) Derate linearly 1.50 mW/°C above 25° C (OPB460, OPB470) or derate linearly 1.64 mW/°C above 25° C(OPB480, OPB490). (4) Derate linearly 3.17 mW/°C above 25° C (OPB460, OPB470) or derate linearly 3.45 mW/°C above 25° C (OPB480, OPB490). (5) The OPB460/OPB470 series are terminated with 0.020” square leads designed for printed circuit board mounting.(6) The OPB480/OPB490 series of switches are terminated with 24” (609.600 mm) of 7-strand 26 AWG, UL rated insulated wire oneach terminal. Insulation colors and functions are: red (anode), black (cathode), white (V CC,), blue (output) and green (ground). Other wire lengths and/or colors in addition to customer selected connectors are available. Contact your local representative or call the factory.Absolute Maximum Ratings (T A =25°C unless otherwise noted)Storage & Operating Temperature Range-40° C to +85° CLead Soldering Temperature [1/16 inch (1.6mm) from the case for 5 sec. with soldering iron](1) 260°C Input Infrared LEDSupply Voltage, V CC (not to exceed 3 seconds) 18 V Diode Forward DC Current 40 mA Diode Reverse DC Voltage 2 V Input Diode Power Dissipation (2) 75 mWOutput Photologic®Voltage at Output Lead (Open Collector Output) 25 V Output Photologic® Power Dissipation (3)200 mWTotal Device Power Dissipation (4)275 mWOPB460/470/480/490 Buffered 10K Pull-UpOPB462/472/482/492 Inverted 10K Pull-Up OPB463/473/483/493 Inverted Open-CollectorOPB461/471/481/491 Buffered Open-CollectorNotes:(1) Normal application would be with light source blocked, simulated by I F = 0 mA. (2) All parameters tested using pulse technique.Electrical Characteristics (T A = 25°C unless otherwise noted)SYMBOL PARAMETER MIN TYP MAX UNITS TEST CONDITIONS Input DiodeV F Forward Voltage - - 1.7 V I F = 20 mA, T A = 25° C I R Reverse Current - - 100 µA V R = 2 V, T A = 25° COutput Photologic® SensorV CCOperating DC Supply Voltage 4.5 - 16 VI CCLLow Level Supply Current:Buffered with 10k pull-up (1)Buffered Open-Collector Output - - 7.5 mA V CC = 16 V, I F = 0 mA (1) Inverted with 10k pull-up:Inverted Open-Collector Output - - 7.5 mA V CC = 16 V, I F = 12 mA I CCHHigh Level Supply Current: Buffered with 10k pull-upBuffered Open-Collector Output - - 7.5 mA V CC = 16 V, I F = 12 mA Inverted with 10k pull-up:Inverted Open-Collector Output - - 7.5 mA V CC = 16 V, I F = 0 mA (1)V OLLow Level Output Voltage: Buffered with 10k pull-upBuffered Open-Collector Output - - 0.4 V V CC = 4.5 V, I OL = 16 mA, I F = 0 mA Inverted with 10k pull-up:Inverted Open-Collector Output - - 0.4 V V CC = 4.5 V, I F = 12 mA (1) V OHHigh Level Output Voltage: Buffered with 10k pull-up V CC -1.5 - - V V CC = 4.5 V to 16 V, No Load, I F = 12 mA Inverted with 10k pull-up:Inverted Open-Collector Output (1) V CC -1.5- - V V CC = 4.5 V to 16 V, No Load, I F = 0 mAI OHHigh Level Output Voltage:Buffered Open-Collector Output - - 14 µAV CC = 16 V, I F = 12 mA, V OH = 25 V,T A = 25° C Inverted with 10k pull-up:Inverted Open-Collector Output (1) - - 14 µAV CC = 16 V, I F = 0 mA, V OH = 25 V,T A = 25° C I F(+)LED Positive-Going Threshold Current- - 10 mA V CC = 5 V, T A = 25° C I F(+)/I F(-) Hysteresis - 1.4 - - V CC = 5 V t r t fRise Time, Fall Time- 50 - nsV CC = 5 V, T A = 25° C, I F = 0 or 12 mAt PLH t PHL Propagation Delay-3-µs R L = 300 Ω to 5 V, C L = 50 pFOPB480T55 - Flag in Middle of Slot0.000.050.100.150.200.25Displacement Distance (inches)OPB480T55 - Flag Next to SensorDisplacement Distance (inches)OPB480T55 - Flag Next to Emitter0.000.050.100.150.200.25Displacement Distance (inches)OPB481N51 - Flag in Middle of Slot0.000.200.400.600.801.001.200.000.050.100.150.200.25Displacement Distance (inches)L o g i cOPB481N51 - Flag Next to Emitter0.000.200.400.600.801.001.200.000.050.100.150.200.25Displacement Distance (inches)L o g icOPB481N51 - Flag Next to Sensor0.000.200.400.600.801.001.200.000.050.100.150.200.25Displacement Distance (inches)L o g i cOPB460N11 - Flag in Middle of Slot0.000.050.100.150.200.25Displacement Distance (inches)OPB460N11 - Flag Next to Sensor0.000.050.100.150.200.25Displacement Distance (inches)OPB460N11 - Flag Next to Emitter Displacement Distance (inches)。

NA1(Inm=2000~6300)万能式断路器1抽屉式断路器2345678910111213141516安装板固定式断路器智能控制器操作机构辅助触头钥匙锁灭弧室二次插接件钢缆连锁杠杆连锁分励脱扣器闭合电磁铁欠电压脱扣器电动储能机构摇手柄NA1-2000~6300万能式断路器1245689111213141516断路器类断路器类A1.1 适用范围NA1-2000~6300万能式断路器(以下简称断路器)适用于交流50Hz，额定工作电压至AC690V，额定工 作电流至6300A及以下的配电网络中，用来分配电能和保护线路及电源设备免受过载、欠电压、短路、 单相接地等故障的危害；该断路器具有智能化保护功能，选择性保护精确，能提高供电可靠性，避免 不必要的停电。

该断路器能广泛适用于电站、工厂、矿山(特别是690V)和现代高层建筑，特别是智能楼宇中的配电系 统，在风力发电、太阳能发电等绿色能源项目中也有广泛应用。

符合标准：GB 14048.2、IEC/EN 60947-2，全系列通过3C认证和CB认证、PCT认证、RCC认证、KEMA认证。

1.2 型号含义及分类N A 1 - □ / 4极数(3极可不写)壳架等级额定电流设计代号(企业)万能式断路器代号企业特征代号1.3 运行条件a.环境温度周围空气温度为-5℃~+40℃；24h的平均值不超过+35℃(特殊申明除外)。

注：用户特殊定货，注明低温型产品，周围空气温度为-45℃~+40℃。

b.海拔高度安装地点海拔不超过2000m。

c.极限大气条件大气相对湿度在周围空气温度为+40℃时不超过50%，在较低温度下可以有较高的相对湿度，最湿月 的月平均最大相对湿度为90%，同时该月的月平均最低温度为+25℃，并考虑到因温度变化发生在产 品表面上的凝露。

d.污染等级：3级。

e.使用类别：Bf.安装类别：断路器的安装类别为Ⅳ，当主回路的额定工作电压小于等于AC400V时，辅助电路安装类别除了欠压 脱扣器线圈和电子脱扣器用的电源变压器初级线圈与断路器相同外，其余均为Ⅲ；当主回路的额定工 作电压大于AC400V小于等于AC690V时，辅助电路需要用隔离变压器与主回路隔离，隔离变压器的容 量≥5kVA,并且控制回路的最高工作电压为AC400V，辅助电路安装类别均为Ⅲ。

VHF/UHF调频手持式收发机DJ-160C1/C2J,DJ-460C1/C2J说明书1一、概述二、备件三、特性四、使用操作五、控制功能：六、接收和发射七、存储操作（一）如何置电台为存储状态（二）如何写入存储信道八、扫描功能（一）存储扫描（二）存储扫描跳行（三）扫描操作（四）选择忙扫描或定时扫描（五）如何停止扫描功能九、单音频率选择十、转换功能十一、单音编码器十二、单音静噪（选择功能）十三、DSQ（DTMF静噪）功能（一）选呼功能（二）编码静噪功能（三）DSQ码2（四）群码选择（五）选择自身码和其它用户码（六）选择DSQ（七）群呼功能（八）组内特定用户选呼功能（九）特定个人选呼功能（十）接收选呼功能（十一）编码静噪功能（十二）手动DSQ功能和DTMF输出十四、拨号功能：（一）此功能用于进入自动接线（二）选择拨号号码（三）输入16位号码（四）修改某些输入号码（五）清除所有输入号码（六）如何存入所需的号码（七）改变LCD上显示的拨号存储器号码十五、自动拨号器功能十六、频率锁定功能十七、亮灯功能十八、自动省电功能十九、静噪断开功能3一、概述祝贺你，拥有了我们众多产品之一。

你得到的DJ-160/460在厂里经过精心的制造和严格的测试，它将供你使用多年并使你感到心满意足。

二、备件DJ-160C,DJ-460C的辅助条件A EBP-10N７．２伏７００毫安镍氢电池（标准）B EBP-12N１２伏７００毫安镍氢电池C EDC-13外接电源插头／连线D EDC-16带噪声滤波器的外接电源插头／连线E EDC-17(220V) ７．２伏７００毫安镍氢电池充电器（标准）E EDC-18(220V) １２伏镍氢电池充电器I EBC-1背带夹J EME-6耳机K EME-4耳机／麦克风L EMS-2 扬声器/麦克风M EME-10 带VOX/PTT的头戴式送受话器N ESC-10 EBP-10N的软套O EJ-6U 单音静噪装置三、特性■一般特性，频率范围：DJ-160C1J 138~155MHzDJ-160C2J 150~170MHzDJ-460C1J 400~420MHzDJ-460C2J 450~470MHz发射类型：16F34天线阻抗：50Ω工作电压：额定9伏工作电流：高（3W）：900毫安低（0.3W）：400毫安尺寸：142（高）×57（宽）32×（深）毫米重量：约350克■接收机工作方式：两次变频，第一中频：55.05MHz第二中频：455KHz灵敏度：12db SINAD优于﹣15 dbμ选择性：﹣6 db＞±7.5k kHz﹣6 0db＜±15kHz静噪灵敏度：＜15 dbμ音频输出：＞250毫瓦（10%THD）。

Eaton 198556Eaton Moeller® series Rapid Link - Speed controller, 4.3 A, 1.5 kW, Sensor input 4, 400/480 V AC, AS-Interface®, S-7.4 for 31 modules, HAN Q5General specificationsEaton Moeller® series Rapid Link Speed controller198556RASP5-4404A31-5120000S14015081964314157 mm 270 mm 220 mm 3.41 kgUL approval CE RoHSIEC/EN 61800-5-1 UL 61800-5-1Product NameCatalog NumberModel CodeEANProduct Length/Depth Product Height Product Width Product Weight Certifications Catalog Notes can be switched over from U/f to (vector) speed control Connection of supply voltage via adapter cable on round or flexible busbar junction Diagnostics and480 VIs the panel builder's responsibility. The specifications for the switchgear must be observed.480 V AC, 3-phase400 V AC, 3-phaseMeets the product standard's requirements.1.5 kW500 VMeets the product standard's requirements.-40 °C380 VInternal DC linkPC connectionKey switch position AUTOSelector switch (Positions: REV - OFF - FWD)Two sensor inputs through M12 sockets (max. 150 mA) for quick stop and interlocked manual operationThermo-click with safe isolationKey switch position OFF/RESETKey switch position HANDPTC thermistor monitoringFour fixed speedsIGBT inverterControl unit0 Hz200 %, IH, max. starting current (High Overload), For 2 seconds every 20 seconds, Power section Electromagnetic compatibility (EMC)Configuration to Rockwell PLC for Rapid LinkGeneration Change RA-SP to RASP5Generation change from RA-SP to RASP 4.0Connecting drives to generator suppliesGeneration change RAMO4 to RAMO5Generation change from RA-MO to RAMO 4.0Generation Change RASP4 to RASP5Rapid Link 5 - brochureDA-SW-drivesConnect - InstallationshilfeDA-SW-drivesConnect - installation helpDA-SW-USB Driver PC Cable DX-CBL-PC-1M5DA-SW-Driver DX-CBL-PC-3M0DA-SW-drivesConnect USB Driver DX-COM-PCKITDA-SW-USB Driver DX-COM-STICK3-KITDA-SW-drivesConnectMaterial handling applications - airports, warehouses and intra-logisticsProduct Range Catalog Drives EngineeringProduct Range Catalog Drives Engineering-ENDA-DC-00004184.pdfDA-DC-00004514.pdfDA-DC-00003964.pdfDA-DC-00004508.pdfeaton-bus-adapter-rapidlink-speed-controller-dimensions-003.eps eaton-bus-adapter-rapidlink-speed-controller-dimensions-002.eps eaton-bus-adapter-rapidlink-speed-controller-dimensions-004.eps eaton-bus-adapter-rapidlink-speed-controller-dimensions.epsETN.RASP5-4404A31-5120000S1.edzIL034085ZUMains voltage - max10.11 Short-circuit ratingRated operational voltage10.4 Clearances and creepage distancesOutput at quadratic load at rated output voltage - max Output voltage - max10.2.3.1 Verification of thermal stability of enclosures Ambient storage temperature - minMains voltage - minFitted with:Output frequency - minStarting current - max Application notes BrochuresCatalogs Certification reports DrawingseCAD model Installation instructions10 kA40 °CAS-Interface2 HP500 Hz8 kHz, 4 - 32 kHz adjustable, fPWM, Power section, Main circuitParameterization: drivesConnectDiagnostics and reset on device and via AS-Interface Parameterization: FieldbusParameterization: KeypadParameterization: drivesConnect mobile (App)-10 °C≤ 0.6 A (max. 6 A for 120 ms), Actuator for external motor brakeDoes not apply, since the entire switchgear needs to be evaluated.4.3 ADoes not apply, since the entire switchgear needs to be evaluated.Does not apply, since the entire switchgear needs to be evaluated.Speed controller Rapid Link 5MN034004EN MZ040046_EN MN040003_ENramo5_v19.dwg rasp5_v19.stpRated conditional short-circuit current (Iq)Ambient operating temperature - maxCommunication interfaceAssigned motor power at 115/120 V, 60 Hz, 1-phase Output frequency - maxSwitching frequencyFeaturesAmbient operating temperature - minBraking currentNumber of HW-interfaces (serial TTY)10.6 Incorporation of switching devices and components Nominal output current I2N10.2.6 Mechanical impact10.3 Degree of protection of assembliesProduct categoryRadio interference class Installation videos Manuals and user guidesmCAD modelC1: for conducted emissions onlyC2, C3: depending on the motor cable length, the connected load, and ambient conditions. External radio interference suppression filters (optional) may be necessary.Heat dissipation capacity Pdiss0 WRated control voltage (Uc)24 V DC (-15 %/+20 %, external via AS-Interface® plug) 400/480 V AC (external brake 50/60 Hz)Assigned motor power at 460/480 V, 60 Hz, 3-phase2 HPNumber of HW-interfaces (RS-422)Mains current distortion120 %ProtocolAS-Interface profile cable: S-7.4 for 31 modulesASI10.9.2 Power-frequency electric strengthIs the panel builder's responsibility.Overvoltage categoryIIIDegree of protectionIP65NEMA 12Ambient storage temperature - max70 °CRated impulse withstand voltage (Uimp)2000 VConnectionPlug type: HAN Q5Overload currentFor 60 s every 600 sAt 40 °CFunctionsFor actuation of motors with mechanical brakeOutput at linear load at rated output voltage - max1.5 kWMains voltage tolerance380 - 480 V (-10 %/+10 %, at 50/60 Hz)Leakage current at ground IPE - max3.5 mAConverter typeU converter10.2.2 Corrosion resistanceMeets the product standard's requirements.Supply frequency50/60 Hz10.2.4 Resistance to ultra-violet (UV) radiationMeets the product standard's requirements.10.2.7 InscriptionsMeets the product standard's requirements.Shock resistance15 g, Mechanical, According to IEC/EN 60068-2-27, 11 ms, Half-sinusoidal shock 11 ms, 1000 shocks per shaftApplication in domestic and commercial area permittedYesNumber of inputs (analog)Number of phases (output)310.12 Electromagnetic compatibilityIs the panel builder's responsibility. The specifications for the switchgear must be observed.10.2.5 LiftingDoes not apply, since the entire switchgear needs to be evaluated.Number of HW-interfaces (RS-485)1Number of HW-interfaces (industrial ethernet)Efficiency98 % (η)System configuration typeCenter-point earthed star network (TN-S network)AC voltagePhase-earthed AC supply systems are not permitted.10.8 Connections for external conductorsIs the panel builder's responsibility.ProtectionFinger and back-of-hand proof, Protection against direct contact (BGV A3, VBG4)Braking voltage400/480 V AC -15 % / +10 %, Actuator for external motor brakeApplication in industrial area permittedYesClimatic proofing< 95 %, no condensationIn accordance with IEC/EN 5017810.9.3 Impulse withstand voltageIs the panel builder's responsibility.Overload current IL at 150% overload6.5 AInput current ILN at 150% overload4.1 ANumber of HW-interfaces (RS-232)Number of inputs (digital)4Current limitationAdjustable, motor, main circuit0.4 - 4.3 A, motor, main circuitCable lengthC2 ≤ 5 m, maximum motor cable lengthC1 ≤ 1 m, maximum motor cable lengthC3 ≤ 25 m, maximum motor cable length10.5 Protection against electric shockDoes not apply, since the entire switchgear needs to be evaluated.Mounting positionVerticalMains switch-on frequencyMaximum of one time every 60 seconds10.13 Mechanical functionThe device meets the requirements, provided the information in the instruction leaflet (IL) is observed.10.9.4 Testing of enclosures made of insulating materialIs the panel builder's responsibility.Heat dissipation per pole, current-dependent Pvid0 WElectromagnetic compatibility1st and 2nd environments (according to EN 61800-3)Resolution0.1 Hz (Frequency resolution, setpoint value)Assigned motor power at 460/480 V, 60 Hz2 HPRelative symmetric net voltage tolerance10 %Rated operational current (Ie)4.3 A at 150% overload (at an operating frequency of 8 kHz and an ambient air temperature of +40 °C)Number of outputs (analog)Rated operational power at 380/400 V, 50 Hz, 3-phase1.5 kWNumber of HW-interfaces (USB)Operating modeU/f controlBLDC motorsSensorless vector control (SLV)Synchronous reluctance motorsPM and LSPM motorsRated frequency - min45 HzDelay time< 10 ms, Off-delay< 10 ms, On-delayNumber of outputs (digital)Power consumption46 W10.2.3.2 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.Number of HW-interfaces (other)1Rated frequency - max66 HzVibrationResistance: According to IEC/EN 60068-2-6Resistance: 57 Hz, Amplitude transition frequency on accelerationResistance: 10 - 150 Hz, Oscillation frequencyResistance: 6 Hz, Amplitude 0.15 mmShort-circuit protection (external output circuits)Type 1 coordination via the power bus' feeder unit, Main circuit10.7 Internal electrical circuits and connectionsIs the panel builder's responsibility.Braking torque≤ 30 % (I/Ie)Adjustable to 100 % (I/Ie), DC - Main circuitRelative symmetric net frequency tolerance10 %10.10 Temperature riseThe panel builder is responsible for the temperature rise calculation. Eaton will provide heat dissipation data for the devices.Number of HW-interfaces (parallel)Assigned motor power at 230/240 V, 60 Hz, 1-phase2 HPInterfacesMax. total power consumption from AS-Interface® power supply unit (30 V): 190 mANumber of slave addresses: 31 (AS-Interface®) Specification: S-7.4 (AS-Interface®)Number of phases (input)3Eaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. All Rights Reserved. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmedia32.3 W at 25% current and 0% speed 33.2 W at 25% current and 50% speed 35.2 W at 50% current and 90% speed 36.2 W at 50% current and 0% speed 37.6 W at 50% current and 50% speed 46.3 W at 100% current and 90% speed 48.7 W at 100% current and 0% speed 48.7 W at 100% current and 50% speed 0Max. 2000 mAbove 1000 m with 1 % performance reduction per 100 mHeat dissipation at current/speed Number of interfaces (PROFINET)Altitude。

"1A60" 是一个铝合金的材料牌号，通常用于制造各种铝合金产品，如铝合金板材、铝合金型材、铝合金零件等。

这个牌号代表了该铝合金的化学成分和性能特点。

以下是一些关于1A60铝合金的常见信息：
1. **化学成分**：1A60铝合金的化学成分通常包括铝（Al）作为主要元素，以及少量的合金元素如硅（Si）、铜（Cu）、镁（Mg）和锰（Mn）等。

这些元素的含量会根据具体的生产标准和要求而有所不同。

2. **性能特点**：1A60铝合金通常具有良好的耐腐蚀性、机械性能和加工性能。

它可以通过热处理来改变其硬度和强度等性能。

3. **应用领域**：1A60铝合金广泛用于航空航天工业、汽车制造、建筑业、电子工业和其他领域。

由于其良好的强度和轻质特性，铝合金在许多应用中都能发挥重要作用。

请注意，具体的1A60铝合金的性能和应用可能会因不同的制造商、国家或行业标准而有所不同。

本文档中所含信息包含文档中所含产品性能的常规描述和/或技术特性。

本文档不代表或不用于确定用于特定用户应用产品的适用性或可靠性。

用户或集成商有责任就有关产品的具体应用或用途进行适合且完整的风险分析、评估和测试。

æ￿½è￿￿å¾·ç￿µæ°￿å￿￿å￿¶å￿￿æ￿¯æ￿ºæ￿￿æ￿￿å­￿å￿¬å￿¸å°±é￿￿误使ç￿¨æ￿¬æ￿￿æ¡£æ￿￿å￿«ä¿¡æ￿¯ä¸￿è´￿ä»»ä½￿责任ã￿￿产品参数表产品特性XY2CJL15Latching emergency stop rope pull switch,Telemecanique rope pull switches XY2C, eXY2CJ, left side, 1NC+1 NO, Pg13.5主要信息产品系列Telemecanique Emergency stop rope pull switches XY2C 产品类型拉线急停开关产品短名XY2C外壳颜色红色 RAL 3000过电压种类Class I 符合 EN/IEC 61140补充信息本地信号指示色标电缆数量1拉线最大长度30 m本体材料Zamak 覆盖材料电镀钢复位拉绳开关触点类型 1 NC + 1 NO 触点动作慢断拉线固定点左边接线能力螺旋压入式端子, 1 x 0.5...2 x 1.5 mm²紧固力矩0.8…1.2 N.m电缆进线孔数量 1 开发入门 适用 Pg 13.5 电缆戈兰安全等级可以达到 PL = e 带相应监控系统与正确接线 符合 EN/ISO 13849-1可以达到 4 类 带相应监控系统与正确接线 符合 EN/ISO 13849-1可以达到 SIL 3 带相应监控系统与正确接线 符合 EN/IEC 61508安全可靠的数据B10d = 500000 价值由20年生命时间确定，受机械或接触磨损限制 符合 IEC 60947-5-5标识CE 机械寿命100000 次电缆卡具之间的距离5 m额定工作电流 [Ie]3 A 在…上 240 V, AC-15, A300 符合 EN/IEC 60947-5-1 附录 A 0.27 A 在…上 250 V, DC-13, Q300 符合 EN/IEC 60947-5-1 附录 A 约定封闭发热电流 [Ithe]10 A额定绝缘电压 [Ui]500 V （污染等级 3) 符合 EN/IEC 60947-1300 V 符合 UL 508300 V 符合 CSA C22.2 No 14额定冲击耐受电压 [Uimp]6 kV 符合 EN/IEC 60947-1强制打开有 符合 EN/IEC 60947-5-1Maximum resistance across terminals 25 MΩ 符合 EN/IEC 60255-7 级别 325 MΩ 符合 NF C 93-050 方法 A 短路保护10 A 熔丝管 类型 gG 符合 EN/IEC 60269ISO n°1端子(21-22)NC (13-14)NO 产品重量0.669 kg 型号XY2CJ环境符合标准EN/IEC 60947-5-1UL 508EN/IEC 60947-5-5工作设备规范 2009/104/ECEN/IEC 60204-1CSA C22.2 No 14EN/ISO 13850机械规范 2006/42/EC产品认证UL NISD紧急停止设备目录CSACCCEAC保护处理TC运行温度-25…70 °C贮存环境温度-40…70 °C抗振动10 gn (f= 10…150 Hz) 符合 EN/IEC 60068-2-6抗冲击50 gn 11 ms 符合 EN/IEC 60068-2-27IP 保护等级IP66 符合 screwedIP67 符合 screwed包装单位Unit Type of Package 1PCENumber of Units in Package 11Package 1 Height9.0 cmPackage 1 Width16.0 cmPackage 1 Length20.3 cmPackage 1 Weight790.0 gUnit Type of Package 2P06Number of Units in Package 248Package 2 Height80.0 cmPackage 2 Width80.0 cmPackage 2 Length60.0 cmPackage 2 Weight50.972 kgUnit Type of Package 3S03Number of Units in Package 36Package 3 Height30.0 cmPackage 3 Width30.0 cmPackage 3 Length40.0 cmPackage 3 Weight 5.396 kg可持续性产品类型Green Premium 产品REACh法规REACh 声明欧盟ROHS指令主动合规性（超出欧盟 RoHS 法定范围的产品）欧盟ROHS声明无汞是RoHS 豁免信息是环境披露产品环境文件合同保修保修单18 个月。