丰业达POWER CONNECTOR

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丰业达簧冠夹powerclip

丰业达簧冠夹powerclip

SHENZHEN FRENDA TECH. CO., LTDFRENDATEL: +86 755 27824365 FAX: +86 755 27824360 E-MAIL: amy.chen@ ,/ jarou20@簧冠夹连接器 POWER CLIPPower clip is mainly used for “N+1” rectifiers, power supplies and power systems for connecting. Power clip adopts two parallel wideclips toenlarge the contacting area, silver plating lets connectingfunction better that others and can carry big current.型号: HGJ-01主要技术指标:● 工作温度 -55~125℃ ● 耐电压 2500V (AC50HZ ) ● 绝缘电阻 3000M Ω ● 额定电流 300A ● 热插拔电流 200A ● 最大插入力 4.5kg ● 最小拔出力 1.5kg ● 机械寿命 500次材料● 夹座外壳 PET+30%玻璃纤维,黑,UL94V-0 ● 簧片带 QBe2.0Y δ=0.2 ● 簧片夹 H62Y δ=0.8 ● 接触件表面处理 镍层上镀金0.1μm外形及安装尺寸External Sizes and Installation Dimensions (mm):此簧冠夹连接器主要用于“N+1”式整流器、电源和开关电源系统的连接。

它采用两条宽的平行簧片带作为弹性接触件,接触面积大并进行镀金处理,从而使产品具有较好的接触性能,接触压降小并可进行大电流传输。

HGJ 系列连接器Main Technical Specifications:●Working temperature -55~125℃ ●Withstand V oltage 2500V (AC50HZ ) ● Insulation Resistance 3000M Ω ● Rated Current 300A ● Hot-plug Current 200A ● Max. Insertion force 4.5kg ● Mini. Pull out force 1.5kg ● Mechanical Life 500 timesMaterial●Housing PET G30, UL94V-0,Black ●Contact Reed QBe2.0Y δ=0.2 ●Clip Holder H62Y δ=0.8 ●Contact plating 300A0.1μm Gold plated over nickel 0.1μm。

英业达 Unipower 在线式 UPS D33xx 系列 10-80kVA 用户手册说明书

英业达 Unipower 在线式 UPS D33xx 系列 10-80kVA 用户手册说明书

在线式不间断电源系统On-Line Uninterruptible Power Supply使用手册User ManualUnipower D33XX系列(10-80kVA)目录安装空间 (3)准备安装 (4)检查包装箱 (4)放置 (4)电气系统设置 (6)保护 (6)连接 (7)市电和负载连接 (7)旁路路径隔离连接 (7)远程控制面板和信号 (9)检验连接 (9)开机程序 (10)运行检测 (10)CUSTOMISATION (10)运行模式 (11)方框图 (11)正常运行 (12)电池运行 (12)旁路运行 (12)维修旁路开关SWMB (13)维护 (13)技术规格 (14)系统 (15)整流输入(标准UPS) (15)整流输入 (16)(UPS带谐波抑制滤波器) (16)整流输出 (16)电池 (16)旁路 (16)控制面板功能 (17)概况 (17)报警信息 (18)控制面板 (20)基本菜单 (20)K EY MENU 1,1:LANGUAGES (21)K EY MENU 2"VOLTMETER":VOLTAGE MEASUREMENT (21)注意: (21)K EY MENU 3"KEY",命令 (22)K EY MENU 4:"记录器":历史记录事件 (26)K EY MENU 5:声音报警排除 (27)K EY MENU 6:"时钟":日期/时间 (27)K EY MENU 7"ARROW DOWN":内部编码 (27)K EY MENU 8"ARROW UP":正常 (28)附录 (29)布局 (29)尺寸与重量 (32)注意本说明书介绍UPS之安装与操作。

安装之前工程技术人员请详细阅读。

由于含有UPS使用的基本资料,请妥善保存本说明书,以便查阅。

Richtek技术公司产品说明书:RT8055高效同步步下电源转换器

Richtek技术公司产品说明书:RT8055高效同步步下电源转换器

RT8055®©Copyright 2012 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Featuresz High Efficiency : Up to 95%z Low R DS(ON) Internal Switches : 100m Ωz Programmable Frequency : 300kHz to 2MHz z No Schottky Diode Requiredz0.8V Reference Voltage Allows for Low Output Voltagez Forced Continuous Mode Operation z 100% Duty Cycle Operation z Input Over Voltage ProtectionzRoHS Compliant and Halogen FreeApplicationsz Portable Instrumentsz Battery-Powered Equipment z Notebook Computersz Distributed Power Systems z IP Phonesz Digital Cameras z3G/3.5G Data CardGeneral DescriptionThe RT8055 is a high efficiency synchronous, step-down DC/DC converter. Its input voltage range is from 2.6V to 5.5V and provides an adjustable regulated output voltage from 0.8V to 5V while delivering up to 3A of output current.The internal synchronous low on-resistance power switches increase efficiency and eliminate the need for an exter nal Schottky diode. The switching frequency is set by an external resistor. The 100% duty cycle provides low dropout operation extending battery life in portable systems. Current mode operation with external compensation allows the transient response to be optimized over a wide range of loads and output capacitors.The RT8055 is operated in forced continuous PWM Mode which minimizes ripple voltage and reduces the noise and RF interference.The RT8055 is available in the WDFN-10L 3x3 and SOP-8 (Exposed Pad) packages.Ordering InformationPin Configurations(TOP VIEW)WDFN-10L 3x33A, 2MHz, Synchronous Step-Down ConverterNote :Richtek products are :` RoHS compliant and compatible with the current require-ments of IPC/JEDEC J-STD-020.` Suitable for use in SnPb or Pb-free soldering processes.COMP FB VDD PVDDPVDDSHDN/RTGND LX PGNDCOMP FB PVDDVDD SOP-8 (Exposed Pad)G : Green (Halogen Free and Pb Free)Z : ECO (Ecological Element with Halogen Free and Pb free)RT8055©Copyright 2012 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Typical Application CircuitTable 1. Recommended Component SelectionV OUT Marking InformationJN= : Product Code YMDNN : Date CodeRT8055GQWRT8055GSPRT8055GSP : Product NumberYMDNN : Date CodeJN : Product Code YMDNN : Date CodeRT8055ZQWRT8055©Copyright 2012 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Function Block DiagramRT8055©Copyright 2012 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Absolute Maximum Ratings (Note 1)zSupply Input Voltage, VDD, PVDD ----------------------------------------------------------------------------−0.3V to 6.5Vz LX Pin Switch Voltage --------------------------------------------------------------------------------------------−0.3V to (PVDD + 0.3V)<10ns ----------------------------------------------------------------------------------------------------------------−5V to 8.5V z Other I/O Pin Voltages -------------------------------------------------------------------------------------------−0.3V to 6.5V z LX Pin Switch Current --------------------------------------------------------------------------------------------4A z Power Dissipation, P D @ T A = 25°CWDFN-10L 3x3-----------------------------------------------------------------------------------------------------1.667W SOP-8 (Exposed Pad)-------------------------------------------------------------------------------------------1.333W z Package Thermal Resistance (Note 2)WDFN-10L 3x3, θJA -----------------------------------------------------------------------------------------------60°C/W WDFN-10L 3x3, θJC -----------------------------------------------------------------------------------------------7.8°C/W SOP-8 (Exposed Pad), θJA -------------------------------------------------------------------------------------75°C/W SOP-8 (Exposed Pad), θJC -------------------------------------------------------------------------------------15°C/W z Junction T emperature ---------------------------------------------------------------------------------------------150°C z Lead Temperature (Soldering, 10 sec.)-----------------------------------------------------------------------260°C z Storage T emperature Range ------------------------------------------------------------------------------------−65°C to 150°C z ESD Susceptibility (Note 3)HBM (Human Body Model)--------------------------------------------------------------------------------------2kVElectrical Characteristics(V DD = 3.3V, T A= 25°C, unless otherwise specified)Recommended Operating Conditions (Note 4)z Supply Input Voltage ----------------------------------------------------------------------------------------------2.6V to 5.5V z Junction T emperature Range ------------------------------------------------------------------------------------ −40°C to 125°C zAmbient T emperature Range ------------------------------------------------------------------------------------ −40°C to 85°CRT8055©Copyright 2012 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Note 1. Stresses beyond those listed “Absolute Maximum Ratings ” may cause permanent damage to the device. These arestress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions may affect device reliability.Note 2. θJA is measured at T A = 25°C on a high effective thermal conductivity four-layer test board per JEDEC 51-7. θJC ismeasured at the exposed pad of the package.Note 3. Devices are ESD sensitive. Handling precaution is recommended.Note 4. The device is not guaranteed to function outside its operating conditions.Note 5. Guaranteed by design.RT8055©Copyright 2012 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Typical Operating CharacteristicsOutput Voltage vs. Input Voltage3.303.313.323.333.343.353.363.53.73.94.14.34.54.74.95.15.35.5Input Voltage (V)O u t p u t V o l t a g e (V)Output Voltage vs. Output Current3.263.273.283.293.303.313.323.333.343.353.363.373.380.00.30.60.91.21.51.82.12.42.73.0Output Current (A)O u t p u t V o l t a g e (V)Efficiency vs. Output Current01020304050607080901000.00.30.60.91.21.51.82.12.42.73.0Output Current (A)E f f i c i e n c y (%)Switching Frequency vs. Temperature1.51.61.71.81.92.02.1-50-25255075100125Temperature (°C)S w i t c h i n g F r e q u e n c y (M H z )Switching Frequency vs. Input Voltage1.51.61.71.81.92.02.13.53.73.94.14.34.54.74.95.15.35.5Input Voltage (V)S w i t c h i n g F r e q u e n c y (M H z )V IN UVLO vs. Temperature2.002.052.102.152.202.252.302.352.402.452.50-50-25255075100125Temperature (°C)V I N U V L O (V )RT8055©Copyright 2012 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Output RippleTime (500ns/Div)V IN = 5V, V OUT = 3.3V I OUT = 0AV LX (5V/Div)V OUT (5mV/Div)Output Ripple Time (500ns/Div)V IN = 5V, V OUT = 3.3V I OUT = 3A V LX (5V/Div)V OUT(5mV/Div)Reference Voltage vs. Temperature0.7600.7680.7760.7840.7920.8000.8080.8160.8240.8320.840-50-25255075100125Temperature (°C)R e f e r e n c e V o l t a g e (V )Output Current Limit vs. Temperature2.02.53.03.54.04.55.05.56.0-50-25255075100125Temperature (°C)O u t p u t C u r r e n t L i m i t (A)Output Current Limit vs. Input Voltage2.02.53.03.54.04.55.05.56.03.53.73.94.14.34.54.74.95.15.35.5Input Voltage (V)O u t p u t C u r r e n t L i m i t (A)Output Voltage vs. Temperature3.203.223.243.263.283.303.323.343.363.383.40-50-25255075100125Temperature (°C)O u t p u t V o l t a g e (V)RT8055©Copyright 2012 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Power On from V INTime (1ms/Div)V IN = 5V, V OUT = 3.3V I OUT = 0AV LX (5V/Div)V IN (2V/Div)V OUT (1V/Div)Load Transient ResponseTime (100μs/Div)I OUT (1A/Div)V OUT(200mV/Div)V IN = 5V, V OUT = 3.3V I OUT = 0A to 2ALoad Transient ResponseTime (100μs/Div)I OUT (1A/Div)V OUT(200mV/Div)V IN = 5V, V OUT = 3.3V I OUT = 0A to 3AUVP ShutdownTime (10μs/Div)V LX (5V/Div)V OUT (1V/Div)V IN = 5V, V OUT = 3.3VRT8055©Copyright 2012 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Application InformationThe basic RT8055 application circuit is shown in TypicalApplication Circuit. External component selection is determined by the maximum load current and begins with the selection of the inductor value and operating frequency followed by C IN and C OUT .Output Voltage SettingThe output voltage is set by an external resistive divider according to the following equation :Figure 1. Setting the Output Voltage⎟⎠⎞⎜⎝⎛+×=R2R11V V REF OUT Soft-StartThe RT8055 contains an internal soft-start clamp that gradually raises the clamp on the COMP pin.Operating FrequencySelection of the operating frequency is a tradeoff between efficiency and component size. High frequency operation allows the use of smaller inductor and capacitor values.Operation at lower frequency improves efficiency by reducing internal gate charge and switching losses but requires larger inductance and/or capacitance to maintain low output ripple voltage.The operating frequency of the RT8055 is determined by an external resistor that is connected between the SHDN/RT pin and GND. The value of the resistor sets the ramp current that is used to charge and discharge an internal timing capacitor within the oscillator. The RT resistor value can be determined by examining the frequency vs. R RT curve. Although frequencies as high as 2MHz are possible,the minimum on-time of the RT8055 imposes a minimum limit on the operating duty cycle. The minimum on-time is typically 110ns. Therefore, the minimum duty cycle is equal to 100 x 110ns x f (Hz).Figure 2100% Duty Cycle OperationWhen the input supply voltage decreases toward the outputvoltage, the duty cycle increases toward the maximum on-time. Further reduction of the supply voltage forces the main switch to remain on for more than one cycle eventually reaching 100% duty cycle.The output voltage will then be determined by the input voltage minus the voltage drop across the internal P-MOSFET and the inductor.Low Supply OperationThe RT8055 is designed to operate down to an input supply voltage of 2.6V. One important consideration at low input supply voltages is that the R DS(ON) of the P-Channel and N-Channel power switches increases. The user should calculate the power dissipation when the RT8055 is used at 100% duty cycle with low input voltages to ensure that thermal limits are not exceeded.Slope Compensation and Inductor Peak Current Slope compensation provides stability in constant frequency architectures by preventing sub-harmonic oscillations at duty cycles greater than 50%. It is accomplished internally by adding a compensating ramp to the inductor current signal. Normally, the maximum inductor peak current is reduced when slope compensation is added. In the RT8055, however, separated inductor current signals are used to monitor over current condition.0.00.51.01.52.02.53.002004006008001000R OSC (K )S w i t c h i n g F r e q u e n c y (M H z )(k Ω)where V REF equals to 0.8V typical.The resistive divider allows the FB pin to sense a fraction of the output voltage as shown in Figure 1.RT8055©Copyright 2012 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.This formula has a maximum at V IN = 2V OUT , where I RMS = I OUT /2. This simple worst-case condition is commonly used for design because even significant deviations do not offer much relief. Choose a capacitor rated at a higher temperature than required.Several capacitors may also be paralleled to meet size or height requirements in the design.The selection of C OUT is determined by the effective series resistance (ESR) that is required to minimize voltage ripple and load step transients, as well as the amount of bulk capacitance that is necessary to ensure that the control loop is stable. Loop stability can be checked by viewing the load transient response as described in a later section.The output ripple, ΔV OUT , is determined by :1V V V V I I OUTININ OUT OUT(MAX)RMS −=⎦⎤⎢⎣⎡+Δ≤ΔOUT L OUT 8fC 1ESR I V This keeps the maximum output current relatively constant regardless of duty cycle.Short Circuit ProtectionWhen the output is shorted to ground, the inductor current decays very slowly during a single switching cycle. A current runaway detector is used to monitor inductor current. As current increasing beyond the control of current loop, switching cycles will be skipped to prevent current runaway from occurring.Inductor SelectionThe inductor value and operating frequency determine the ripple current according to a specific input and output voltage. The ripple current ΔI L increases with higher V IN and decreases with higher inductance.OUT OUT L IN V V I =1f L V ⎡⎤⎡⎤Δ×−⎢⎥⎢⎥×⎣⎦⎣⎦OUT OUT L(MAX)IN(MAX)V V L =1f I V ⎡⎤⎡⎤×−⎢⎥⎢×Δ⎣⎦⎣⎦Having a lower ripple current reduces not only the ESR losses in the output capacitors but also the output voltage ripple. However, it requires a large inductor to achieve this goal.For the ripple current selection, the val ue of ΔI L = 0.4(I MAX )will be a reasonable starting point. The large st ripple current occurs at the highest V IN . To guarantee that the ripple current stays below the specified maximum, the inductor value should be chosen according to the following equation :The inductor's current rating (caused a 40°C temperature rising from 25°C ambient) should be greater than the maximum load current and its saturation current should be greater than the short circuit peak current limit.C IN and C OUT SelectionThe input capacitance, C IN , is needed to filter the trapezoidal current at the source of the top MOSFET . To prevent large ripple voltage, a low ESR input capacitor sized for the maximum RMS current should be used. RMS current is given by :The output ripple is highest at maximum input voltagesince ΔI L increases with input voltage. Multiple capacitors placed in parallel may be needed to meet the ESR and RMS current handling requirements. Dry tantalum, special polymer, aluminum electrolytic and ceramic capacitors are all available in surface mount packages. Special polymer capacitors offer very low ESR but have lower capacitance density than other types. Tantalum capacitors have the highest capacitance density but it is important to only use types that have been surge tested for use in switching power supplies. Aluminum electrolytic capacitors have significantly higher ESR but can be used in cost-sensitive applications provided that consideration is given to ripple current ratings and long term reliability. Ceramic capacitors have excellent low ESR characteristics but can have a high voltage coefficient and audible piezoelectric effects.The high Q of ceramic capacitors with trace inductance can also lead to significant ringing.Using Ceramic Input and Output CapacitorsHigher values, lower cost ceramic capacitors are now becoming available in smaller case sizes. Their high ripple current, high voltage rating and low ESR make them ideal for switching regulator applications. However, care must be taken when these capacitors are used at the input and output. When a ceramic capacitor is used at the inputDS8055-05 November 2012©Copyright 2012 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.and the power is supplied by a wall adapter through long wires, a load step at the output can induce ringing at the input, V DD . At best, this ringing can couple to the output and be mistaken as loop instability. At worst, a sudden inrush of current through the long wires can potentially cause a voltage spike at V IN large enough to damage the part.Thermal ConsiderationsFor continuous operation, do not exceed absolute maximum junction temperature. The maximum power dissipation depends on the thermal resistance of the IC package, PCB layout, rate of surrounding airflow, and difference between junction and ambient temperature. The maximum power dissipation can be calculated by the following formula :P D(MAX) = (T J(MAX) − T A ) / θJAwhere T J(MAX) is the maximum junction temperature, T A is the ambient temperature, and θJA is the junction to ambient thermal resistance.For recommended operating condition specifications, the maximum junction temperature is 125°C. The junction to ambient thermal resistance, θJA , is layout dependent. For SOP-8 (Exposed Pad) packages, the thermal resistance,θJA , is 75°C/W on a standard JEDEC 51-7 four-layer thermal test board. For WDFN-10L 3x3 packages, the thermal resistance, θJA , is 70°C/W on a standard JEDEC 51-7 four-layer thermal test board. The maximum power dissipation at T A = 25°C can be calculated by the following formulas :P D(MAX) = (125°C − 25°C) / (75°C/W) = 1.333W for SOP-8 (Exposed Pad) packageP D(MAX) = (125°C − 25°C) / (70°C/W) = 1.429W for WDFN-10L 3x3 packageThe maximum power dissipation depends on the operating ambient temperature for fixed T J(MAX) and thermal resistance, θJA . The derating curves in Figure 3 allow the designer to see the effect of rising ambient temperature on the maximum power dissipation.Figure 3. Derating Curve of Maximum Power Dissipation Layout ConsiderationsFollow the PCB layout guidelines for optimal performance of RT8055.`A ground plane is recommended. If a ground plane layer is not used, the signal and power grounds should be segregated with all small-signal components returning to the GND pin at one point that is then connected to the PGND pin close to the IC. The exposed pad should be connected to GND.`Connect the terminal of the input capacitor(s), C IN , as close as possible to the PVDD pin. This capacitor provides the AC current into the internal power MOSFETs.`LX node is with high frequency voltage swing and should be kept within small area. Keep all sensitive small-signal nodes away from the LX node to prevent stray capacitive noise pick-up.`Flood all unused areas on all layers with copper.Flooding with copper will reduce the temperature rise of powercomponents.You can connect the copper areas to any DC net (PVDD,VDD, VOUT , PGND, GND, or any other DC rail in your system).`Connect the FB pin directly to the feedback resistors.The resistor divider must be connected between V OUT and GND.0.00.10.20.30.40.50.60.70.80.91.01.11.21.31.41.50255075100125Ambient Temperature (°C)M a x i m u m P o w e r D i s s i p a t i o n (W )©Copyright 2012 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Table 3. Capacitors for C and C Recommended component selection for Typical ApplicationFigure 4. PCB Layout GuideFand GND as closer as possibleLX should befrom this tracenear RT8055Connect the FB pin directly to feedback resistors. TheDS8055-05 November 2012©Copyright 2012 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.W-Type 10L DFN 3x3 PackageRichtek Technology Corporation5F, No. 20, Taiyuen Street, Chupei City Hsinchu, Taiwan, R.O.C.Tel: (8863)5526789Richtek products are sold by description only. Richtek reserves the right to change the circuitry and/or specifications without notice at any time. Customers shouldobtain the latest relevant information and data sheets before placing orders and should verify that such information is current and complete. Richtek cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Richtek product. Information furnished by Richtek is believed to be accurate and reliable. However, no responsibility is assumed by Richtek or its subsidiaries for its use; nor for any infringements of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of Richtek or its subsidiaries.HM(Bottom of Package)8-Lead SOP (Exposed Pad) Plastic Package。

Xantrex Technology PV5208-PV30208三相208VAC脉宽调节电源转换系

Xantrex Technology PV5208-PV30208三相208VAC脉宽调节电源转换系

PV – 5208, 10208, 15208, 20208 & 30208POWER CONVERSION SYSTEM FORGRID – TIED PHOTOVOLTAIC APPLICATIONS TECHNICAL DESCRIPTIONXantrex Technology Inc.Distributed Industrial and Utility Markets161-G South Vasco RoadLivermore, CA 94550Phone: 925/245.5400Fax: 925/245.1022Revised May 20011.0 General System OverviewThis document describes Xantrex Technology’ PV5208 through PV30208 power conversion systems for grid-connected photovoltaic applications. These inverters incorporate the advanced, insulated gate bipolar transistor (IGBT) based power electronics technology developed by Xantrex Technology. The power conversion system consists of a three-phase, 208 VAC pulse-width-modulated inverter, switchgear (optionally supplied by Xantrex) for isolation and protection of the connected AC and DC power systems, and an isolation transformer (also, optionally supplied by Xantrex). The following technical specifications and diagram detail the components, operation, and interconnection of the system. A more detailed description of operation may be found in the operation and maintenance manual for each individual inverter design.2.0 InverterXantrex Technology manufactures a patented insulated gate bipolar transistor (IGBT) based power electronic inverter. There is presently over 2200 MW of installed capacity of Xantrex Technology inverters throughout the world in wind, solar photovoltaic, battery energy storage, industrial drive and stand-alone hybrid power system applications. The production and reliability history that has been established in this application is unique in the power conversion industry.HardwareInverter2.1The inverter is detailed on the attached block diagram at the end of thisdocument. Descriptions of operation of the major components are asfollow.2.1.1 Inverter Circuit and Capacitor BankThe inverter matrix utilizes IGBT technology as the main powersemiconductor-switching device. This technology exhibits both thehigh power levels and low conduction losses associated with bipolardevices, as well as the low switching losses and high switchingfrequencies associated with MOSFET devices. In addition, XantrexTechnology employs IPM (Intelligent Power Module) switchingTechnology. Together the IGBT and IPM offer protection logic forshort circuit, over temperature, DC overvoltage and ACover/undervoltage conditions.2.1.2 Integrated Bus Board (PV5208 through PV20208)The integrated bus board receives logic level timing signals from thedigital signal processor (DSP) board and converts these signals toIGBT switching states. Additionally, the integrated bus boardmonitors the condition of the IGBTs and reports fault conditions tothe DSP controller. The DSP is plugged directly into the integratedbus board and is designed to the industry standard specification PC–104.2.1.3 Digital Signal Processor (DSP) BoardThe DSP controller board utilizes a digital signal processor integratedchip to implement control and system monitoring functions. The DSPsoftware implements the peak power tracker function for optimizingthe power delivery from the PV array.The DSP commands the integrated bus board to issue the appropriate gating signal to the IGBTs, as determined from the digitized current and voltage waveforms at the inverter input and output, and by the control commands received through the operatorinterface. The DSP based control board communicates with the operator interface board via PC–104 bus.2.1.4 AC Line FilterThe AC line filter removes harmonic currents at the utility power system interconnection. Due the high switching frequency and the pulse-width-modulation (PWM) technique used with the inverter, thefilter is modest in size, and need only remove high frequency harmonic current components.2.1.5 Operator InterfaceThere are three means of operator interface with the PV series inverter family. An optional configuration (standard configuration onthe PV5208) consists of three LED lights and an on/off toggle switchlocated on the front door of the inverter. The LED lights indicate system status and detail any fault conditions. The two optional operator interfaces consist of a liquid crystal display and a graphicaluser interface (GUI) for use with an external computer. The on/off toggle switch is used to enable or disable inverter operation and clear fault conditions. It is included in all operator interface configurations.The standard PV series configuration (PV10208 through PV30208)consists of an LCD display and an on/off toggle switch located on thefront door of the inverter. It consists of a four-line text display, whichcontinuously reports system status, AC power, DC voltage, DC current, as well as any fault conditions.The optional GUI interface program may be used in conjunction witheither the LED or LCD display configurations. The GUI interface allows access via an RS-232 cable to the inverter system status, inverter controls, expanded details of operation (line currents, linevoltages, frequency, etc.), and user adjustable system operationparameters. Contact Xantrex Technology for further information.QualityPower2.2The state-of-the-art technology used in the Xantrex Technology inverterresults in exceptional power quality. The use of IGBT devices allows forhigh switching frequencies. The combination of the high switchingfrequencies and AC line filter produces high fidelity waveforms which arewell below the IEEE-519 recommended limits for total harmonic currentdistortion.Unlike line-commutated inverters, the Xantrex Technology inverter allowspower factor to be regulated precisely at unity, eliminating the need forexternal reactive power compensation.FeaturesSelf-Protective2.3The inverter has many built-in protective features to prevent or limit damageto the photovoltaic system, the inverter, and the utility distribution system inthe event of a component or system-level malfunction. These featuresprovide for orderly system shut-down without the need for many externalprotective devices. Among the features are:DeviceProtectionIGBT2.3.1IGBTs are protected by DC overvoltage, overcurrent andovertemperature functions. Setpoints for these functions are fixed atthe time of factory test, and can only be changed through thediagnostic port on the microprocessor controller inside the enclosure.2.3.2 Utility Voltage and Frequency Monitoring and ProtectionThe DSP controller constantly monitors the stability of the utilityvoltage waveform. If the waveform degrades beyond allowable limitsthe inverter will stop processing power and disconnect from theutility. Once stable utility voltage is restored for five minutes, the DSPwill automatically clear the fault and resume normal operation. Tripmagnitudes and time delays are user settable through the operatorinterface.Protection2.3.3IslandingUtilityDetection of islanding from the utility grid is achieved via ACover/undervoltage and over/underfrequency detection functions aswell as load destabilization algorithms in compliance with UL1741.Setpoints and time delays for some of these functions are fieldsettable through the graphical operator interface program. Settingsare password protected, requiring a certified technician to make anychanges to factory defaults.Protection2.3.4Additional• AC current unbalance detection to prevent single-phasing due toblown fuses• DC ground fault detection and annunciation resulting in anorderly inverter shutdown.Standards2.3.5The Trace family of photovoltaic inverters; PV5208 through PV20208is in compliance with IEEE519 and IEEE929 utility standards,Underwriters Laboratories (UL1741) and the National Electric Code(NEC). The PV30208 is pending UL1741 certification, due July 2001.Our facility is registered by Underwriters Laboratories Inc. under theInternational Organization for Standardization ISO9000.Considerations2.4EnvironmentalThe PV Series control hardware is housed in an outdoor rated NEMA4/3Rpolyester powder coated steel enclosure. The inverter may bemanufactured to tolerate an outdoor, exposed environment. However, werecommend protected, indoor installation to maximize the lifetime of theinverter.The PV Series should also be protected from harsh and corrosiveenvironments. The allowable temperature range of operation is -20 to 50°C.The PV Series should be allowed a 15 minute warm up period prior tooperations when powered up below 0°C.2.5 Summary of PV Series Inverter Specifications:PV5208 PV10208 PV15208 PV20208 PV30208AC Line InterfaceContinuous AC Output Power 5kW 10kW 15kW 20kW 30kWFull Load Efficiency Greater than 95% (see efficiency curve in section 8.0)Nominal Line Frequency 50/60 Hz +/- 0.5HzNominal Line Voltage 208Vac –12%, +10% (per UL1741 & IEEE929)Continuous AC Output15.2Aac 30.5Aac 45.8Aac 61.0Aac 91.6Aac CurrentPower Factor Unity +/-0.02AC Current Distortion Less than 5% Ithd, 3% IhdPV Array Configuration Monopole-Negative Grounded, Bipolar-Neutral Grounded, or FloatedMaximum PV Array Voltage 600VdcPV Peak Power Point Window 300* - 600Vdc*Minimum PV Peak PowerVoltage280 – 330Vdc dependant upon actual AC line voltage at inverterPV Array Maximum InputCurrent17.8Adc 35.7Adc 53.6Adc 71.4Adc 107.1Adc PV Ripple Current Less than 5%Operator InterfaceStandard Interface LED LCD LCD LCD LCDLED Display Three LED Display: Green, Yellow, and RedLCD Display 4 Line Liquid Crystal DisplayLDC Display Parameters Target StateOperating StateAC Output Power (kW)DC VoltageFault DescriptionsGraphical User Interface (optional)Operating Display ParametersOperating StateAC Power (kW)AC Line Voltages (Line–to-Line) AC Output Phase CurrentsPV DC VoltagePV DC Reference VoltageGround Fault Current Fault Codes and Descriptions Protective Function TargetsInverter StatusSerial Interface RS-232 DB9 Female Serial Cable to Computer COM1 PortUser Settable ParametersPV Start VoltagePeak Power Point Reference VoltagePV Shutdown PowerPeak Power Tracker Perturbation StepGround Current Fault ThresholdUtility Voltage & Frequency Trip Points*Utility Voltage & Frequency Time Delays* Protective FunctionsActive Protection FeaturesAC Line Over/Under VoltageDC Over VoltageAC Line AC Over CurrentInverter Over TemperatureIsland Detection/PreventionAC Line Over/Under Frequency EnvironmentalTemperature -20°C to +50°CRelative Humidity 90% Non-CondensingElevation Derated above 3300 feetEnclosure Rating NEMA4 Outdoor NEMA3R/4 Cooling Natural Forced Air ConvectionDimensions 20Hx16Wx13D 26Hx16Wx12D29Hx24Wx16D 52Hx26Wx19DWeight (Approximate) 75lbs 90lbs 175lbs 375lbs UL1741 Certification Yes PendingRegulatory Compliance NEC, IEEE519, IEEE929 *May only be adjusted by qualified personnel, with agreement from the local utility3.0 Control and InstrumentationMode3.1OperatingThe converter utilizes Xantrex Technology unique power tracking algorithmto operate in a power maximization mode to ensure there is sufficientirradiance at all times to overcome inverter losses. Inverter start-up occurswhen the PV open circuit DC input voltage rises above the user settablewake-up voltage. The inverter transitions back to the idle state for nightlyshutdown when losses exceed input power for user settable time period.The power-tracking algorithm includes the intelligence and rapid responsetime necessary to limit the DC input power to its design value. Cloudenhancement effects are handled within the algorithm by moving off of themaximum power point and remaining at the design rated power level. Thiseliminates the need for the source circuit dumping contactors, crowbarcircuits, and similar unreliable schemes used to protect other types ofinverters.3.2 LocalControlLocal control is implemented through an on/off toggle switch located on thefront door of the inverter. The switch enables or disables inverter operationand is used to clear fault conditions.3.3 Local Instrumentation (Optional)The following real-time system status parameters are available though theLCD operator interface:• AC Voltage• AC Output Current• PV Voltage• Converter Status and Alarm Descriptions3.4 Remote Control and Instrumentation (Optional)The DSP control board has provisions for installation of an RS-232communication link for interface to an external computer and graphical userinterface program. All local interface parameters, as well as additionaloperating parameters, status indicators, protective function targets, anduser-adjustable parameters are accessible through from the GUI interface.3.5 User Settable ParametersThe PV series operating parameters are factory set to be in compliancewith UL1741 and IEEE929, as well as to provide stable efficient operationwith most PV installations. Parameters may be adjusted via the optionalgraphical user interface. Some parameters related to utility protectionfunctions may only be adjusted by qualified personnel, with agreement fromthe local utility.4.0 Isolation Transformer (Required: Available from Xantrex Technology)An isolation transformer is required if local regulations require grounding of the PV system, or if the utility voltage is not 208 VAC. Due to the low level of harmonic distortion produced by the converter, a general purpose dry type transformer is suitable for this application. The transformer must have a 208 volt delta secondary winding, a primary winding rated to match the interconnect voltage, and any local utility interconnection requirements. An optional enclosed, molded-case, thermal-magnetic circuit breaker may be provided for transformer over-current protection.This breaker may serve as the utility disconnect, eliminating the requirement for the AC disconnect switch described above.Isolation transformers are available from Xantrex Technology. We commonly provide transformers with 208V delta (inverter side) to WYE rated at the utility interconnection voltage, 97-98% efficient, housed in a NEMA3R enclosure.Contact Xantrex Technology for other available transformer configurations.PV SeriesInverterWt. (lbs.)Isolation Transformer(Inches, typical) MountingTransformerWt. (lbs.)PV5208 75 19Hx16Wx9D Wall 130 PV10208 90 24H x 22.5W x 22D Floor 220PV15208 115 24H x 22.5W x 22D Floor 300PV20208 180 24H x 22.5W x 22D Floor 350PV30208 375 30H x 20W x 24D Floor 3505.0 AC and DC Disconnect Switches (Optional)Disconnect switches for isolating the inverter from AC and DC power sources are available from Xantrex Technology. These switches are rated for use with the inverter and PV applications. Fusible and non-fusible models are available. All Xantrex Technology supplied switches are NEMA3R outdoor rated, pad-lockable, and equipped with external operator handles. Contact Xantrex Technology for further information.6.0 Photovoltaic Combiner Boxes (Optional)Interface enclosures for paralleling multiple PV string circuits are available from Xantrex Technology. These devices have been listed under UL1741 and areNEMA3R outdoor rated. They are capable of paralleling up to 10 or 12 individual PV source circuits. Circuits may be protected with up to a 20 ampere, 600Vdc fuse. Diode equipped reverse-current protection models are also available. The 12 circuit model is equipped with ‘touch safe’ break apart fuse holders for additional personnel safety and protection. Contact Xantrex Technology for further information.Requirements7.0 MaintenanceRoutine maintenance requirements are minimal, consisting only of periodic inspection of the cooling fans, enclosure seals, and electrical connections.Graph8.0 EfficiencyInverter Schematic Block Diagram。

GF Piping Systems 2016 塑料焊接设备和工具产品手册说明书

GF Piping Systems 2016 塑料焊接设备和工具产品手册说明书

d-d
code weight
(mm)
(kg)
20 ‐ 63 790131005 50,000
卡具片
• 每种尺寸的卡具片都不同。 用于夹持和定位管材部件。
d
code weight Pieces
(mm)
(kg)
20 790131038 0,090
1
25 790131039 0,090
1
32 790131040 0,052
1
790133027 0,400
1
790133028 0,691
1
790133029 0,644
1
790133030 0,500
1
790133031 0,600
1
790133032 0,600
1
790133463 0,560
1
790133033 0,700
1
790133034 0,270
型号:
• 整装的红外焊接设备,可焊接SYGEF Standard、SYGEF Plus、PROGEF
Standard、PROGEF Natural、PROGEF Plus、 ecoFIT,尺寸范围为d 63-225 mm,2个USB 接口,带图标的单色显示器,支持12种语言。
• 主机(1 个) • 加热器总成(1 件) • 切削器总成(1 件) • 可移动卡具平台(1 个) • 卡具片d 63-225 mm (每种尺寸8片) • PE管帽 d 63-225 mm (每种尺寸4个) • 运输锁定件(1 个) • 梅花/开口扳手 13 mm (1 把) • 清洁刷 (1 把) • 连接电缆400 V - 230 V (1 个) • 手柄球(1 个) • 手册(1 本) • 单相 AC (50/60 Hz) 230 V L/N/PE 或 三相 AC (50/60 Hz) 400 V/230 V L1/L2/L3/N/PE • 工作台,高洁净(1 张) • 管材定位器(1 件) • 六角扳手 5 mm (1 把) • 六角扳手 6 mm (1 把)

Xantrex技术有限公司新世代自由SW系列电源充电器说明说明书

Xantrex技术有限公司新世代自由SW系列电源充电器说明说明书

Over-temperature shutdown
541 Roske Drive, Suite A
Automatic overload protection
Elkhart, Indiana
Short-circuit protection USA 46516
Integrated, resettable AC breakers
2000
Watts
3000
Watts
Certified to CSA Standard C22.2 No. 107.1 UL 458 with marine supplement FCC Class B
Parallel and Series Stacking - NEW FEATURE Parallel stacking enables the Freedom SW inverter/chargers to double the AC output in inverter mode Series stacking enables the Freedom SW inverter/chargers to generate 120/240 V split phase output²
Regulatory & Environmental Compliance
Flooded / gel / AGM 1 leg of 30 A < 20 ms - 4°F to 140°F (- 20°C to 60°C) - 40°F to 185°F (- 40°C to 85°C) 7.75 x 13.5 x 15.25” (19.7 x 34.3 x 38.7 cm) 27.5 kg (60.5 lbs) 2 years 1 11.8 x 17.1 x 20.5” (30 x 43.5 x 52.2 cm) 30 kg (66 lbs) 815-2012

麦格纳电子MT系列大功率机柜式可扩展至多兆瓦的可编程直流电源型号订购指南说明书

麦格纳电子MT系列大功率机柜式可扩展至多兆瓦的可编程直流电源型号订购指南说明书

MT 系列大功率机柜式程控直流电源 • 可扩展至多兆瓦概述麦格纳电子设备公司的MT系列产品使用与MagnaDC程控电源产品线中的其他产品具有相同的可靠电流馈电式功率处理工艺技术和控制方式,但具有更大的功率型号:分别为100kW、150 kW和250 kW规格。

基于高频IGBT的MT系列产品是市场上单体功率最大的标准程控直流电源产品之一,与小功率型号产品相比,最大限度地减少了开关元器件的数量。

使用UID47装置可实现兆瓦功率级的扩展,该装置可提供主从控制:一个主控电源产品控制其他从机电源产品,以实现真正的系统级操作控制。

所有MT系列产品均配备额定全功率的交流输入断路器,作为额外的安全防护措施。

250 kW型号标配嵌入式12脉冲谐波中和器,确保较低THD(总谐波失真)。

通过外部附加的500kW 24脉冲或1,000 kW 48脉冲谐波中和器可获得更优质的交流波形,此项功能由麦格纳电子设100 kW 和 150 kW 型号250 kW 型号备公司为其MT系列产品专门设计和制造。

1标准型号规定纹波。

对于具有高转换速率输出(+HS)的型号,纹波更高。

详情请参考选项页。

2通过多个250 kW MT系列型号的主从并联可实现大于250 kW的功率等级。

关于此类配置的更多详情,请联系您的麦格纳电子设备公司销售代表。

第 26 页麦格纳电子设备公司第 27 页数据表 (4.4.0)MagnaDC 程控直流电源规格通过 RoHS 认证是(170.2 x 182.9 x 80.0 cm)GPIB: IEEE-488额定型号 >1000 Vdc 或具有+ISO选项的型号±6000 Vdc, 对地最大输出电压主要特性• SCPI远程编程API (应用程序界面)• 程控设置保护限制• 高精度测量 • 主从式操作功能• 快速瞬态响应• 远地感应•远程接口软件• 37-pin外部模拟量I/O接口• NI LabVIEW™IVI驱动• RS232接口• 联锁功能迅速切断输入• 可选配以太网接口和GPIB接口•在美国设计和制造可用选项• 阻流二极管(+BD)• 高隔离输出(+ISO)• 高转换速率输出(+HS)• IEEE-488 GPIB通信(+GPIB)•LXI TCP/IP以太网通信(+LXI)注:参数如有更改,恕不另行通知。

杰斐锋Bobcat 200Air Pak 气压机 生成器 电池充电器 扭转扇 焊接机说明书

杰斐锋Bobcat 200Air Pak 气压机 生成器 电池充电器 扭转扇 焊接机说明书

Issued May 2017 • Index No. ED/4.35Welder/generator/air compressor/battery charger is warranted for three years, parts and labor. Engine is warranted separately by the engine manufacturer.Bobcat ™200Air Pak™Gas Engine-DrivenAir Compressor/Generator/Battery Charger/Crank Assist/WelderThe Bobcat 200 Air Pak is the industry-leading power solution for increasing yourcapabilities, reducing your expenses, and boosting profitability and efficiencyMaximize available payload.Reduce weight by up to 550pounds and increase available payload by up to 24 cubic feet.Reduce fuel consumption.Minimize fuel costs by reducing truck engine idle time by as much as 75 percent or if you have a separate engine driven compressor by only operating one engine.Minimize operating costs.Potentially save more than $50,000 over ten years from increased fuel efficiency,decreased maintenance costs, and increased asset life.Professional appearance.The components of the Bobcat 200 Air Pak are concealed within a durable, environment resistant,precision-engineered enclosure.Miller Electric Mfg. Co.An ITW Welding Company 1635 West Spencer Street P.O. Box 1079Appleton, WI 54912-1079 USAEquipment Sales US and Canada Phone: 866-931-9730FAX: 800-637-2315International Phone: 920-735-4554International FAX: 920-735-4125AircompressorGenerator powerBattery charge/crank assistDC stick welding2Legendary ReliabilityTestingRuggedly built and rigorously tested to ANSI and CSA standards, the Bobcat 200 Air Pak is proven to withstand high temperatures, rain, salt, dust, impact, vibration and more. Its welding, auxiliary power, battery charging and crank assist systems are tested to meet the highest applicable industry safety standards.Easy-starting powerWith industry-exclusive eChoke ™* technology, the Bobcat 200 Air Pak starts easily in any weather —and its powerful engine allows simultaneous use of the air compressor with any other feature.*eChoke is a trademark of Kohler Co.Function and Benefit Guide1.Air compressor switch and indicator lights. When the air compressorswitch is in on position, engine runs at 3,600 rpm until set pressure is reached.2.Battery charge and crank assist / generator and weld switch andindicator lights. The top position allows 12-volt battery charge and crank assist. The middle position allows 24-volt battery charge and crank assist. The bottom position allows generator and welding power. 3.Fine weld amperage control 4.Weld range switch5.Battery charge/crank assist receptacle for connection to batterycharge/crank assist (12 or 24 volt). 6.M aintenance display provides fuel level, engine hours and oil changeinterval information.7.Engine control switch is used to start the engine, select speed, andstop engine. In Run/Idle position, engine runs at idle speed at no load and at weld/power speed under load. In Run position, engine runs at weld/power speed.8.120 VAC and 240 VAC receptacles with circuit breakersNote: For matching plug, order 119172.Bobcat ™200 Air Pak ™Features3Performance DataMounting SpecificationsProcess Battery charge/crank assist DC stickRated Weld Output at 104°F (40°C)*Charge: 100 A Crank assist: 300 A150 A at 26 V, 100% duty cycle 180 A at 27 V, 60% duty cycle 210 A at 25 V,20% duty cycleOutput Ranges 12/24 V 50–210 ASingle-Phase Generator Power Continuous/peak 5,500 wattsSound Levels at 7 m (23 ft.)Idle: 66 dB (90.7 Lwa)High speed, no load: 73 dB (98 Lwa)High speed, loaded: 75 dB (100.1 Lwa)NetWeight**558 lb. (253 kg)DimensionsH: 23.76 in. (604 mm)H: 29.78 in. (756 mm) (to top of exhaust)W:20 in. (508 mm)D: 46.64 in. (1,185 mm)*Rated at sea level. **Net weight without fuel.External Mounting A. 20 in. (508 mm)B. 21.77 in. (553 mm)C. 0.88 in. (22 mm)D. 8.21 in. (209 mm)E. 29.86 in. (758 mm)F. 46.64 in. (1185 mm)G. 9/16 in. (14 mm) diameter H. 22.73 in. (577 mm)Internal MountingA. 0.5 in. (12.7 mm) diameterB. 27.48 in. (698 mm)C. 8.88 in. (226 mm)D. 17 in. (432 mm)Certified by Canadian Standards Association to both the Canadian and U.S. Standards.Engine Specifications (Engines warranted separately by the engine manufacturer.)*Fuel stabilizer is recommended for gas engines that are used infrequently.5101520253012345650100150200U .S . G a l./h o u rSCFM (Air Compressor at 175 psi)KVA at 100% Duty Cycle (Auxiliary Power)DC Amperes (Welding)Ordering InformationEquipment Stock No. Description Qty. Price Bobcat ™200 Air Pak ™ 907706 Kohler gas engine with eChoke ™Field Options Options listed below can be added to the above engine drive. Installation is required. GFCI Receptacles 300975Auxiliary Fuel Tank Pump 301450 Air Compressor Oil Heater 301448 Full KVA Adapter Cord 300517Battery Charge/Jump Cables with Plug 300422 25-footTune-Up/Service Kits See above. Order from Miller Service Parts Accessories Running Gear 301460Protective Covers See aboveStick Weld Leads 173851 50 ft., 2/0, 350-amp, 100-percent duty cycle Spectrum ®Plasma Cutters 907529HWY-Mid Frame Trailer 301438 Trailer with lights, fenders and dual hitch. For highway use Cable Tree 043826 Trailer-mounted cable holderDual Hitch 301441 Combination 2-inch (50 mm) ball hitch and 3-inch (76 mm) lunette eye in one reversible assembly2-In-1 Document/Fire Extinguisher Holder 301236 Stores documents and holds a 5-pound fire extinguisherDate: Total Quoted Price:©2017 Miller Electric Mfg. Co.Distributed by:Full KVA Adapter Cord 300517FieldMulti-Terrain Running Gear 301460Includes two heavy-duty Never Flat tires, two 8-inch rubber swivel heavy-duty handle.Recommended for all surfaces and applications,Heavy-duty, water-resistant and mildew-HWY-Mid Frame Trailer 3014381,424-pound (646 kg) capacity highway trailer Genuine Miller ®Options and AccessoriesFemale Receptacle。

松下继电器选型一览

松下继电器选型一览

P.47
0.05A
0.15A 70Ω 120Ω
0.28ms 0.5ms 0.04ms 0.2ms
0.12A
0.3A 30Ω 50Ω
1.3mA 3mA 0.4mA 1.2mA 0.6ms 0.8ms 0.05ms 0.2ms 5,000V AC
UL、C-UL、BSI
Panasonic Electric Works Automation Controls Business Unit panasonic-denko.co.jp/ac/c
AQY212S 60V 60V
AQY210S 350VV
AQV212S 60V 60V
AQV215S 100V 100V
AQV217S 200V 200V
AQV210S 350V 350V
AQV214S 400V 400V
AQV216S 600V 600V
1A 连续 负载电流
PhotoMOS选型参数表
GU…通用、变更较大 GU GE RF HE HF HS PD Power
商品名称
外形尺寸
( ) 高度包括支架尺寸。 单位mm
1a(4脚型) AC/DC兼用
4.3
4.4
2.1
GU SOP
1a(6脚型) AC/DC兼用
6.3
4.4 2.1
订购产品号 负载电压
AC(峰值) DC
AQV212 60V 60V
0.55A
1.2A 0.83Ω 2.5Ω 80pF
0.65ms 2ms
0.08ms 0.2ms
端子排列 或 印刷电路板加工图 (BOTTOM VIEW)
国外标准 重量(约) 备注 目录记载页
GU 1a(6脚型) AC/DC兼用

WKQ A微机厂用电快切装置 使用说明书

WKQ A微机厂用电快切装置 使用说明书

许继电气股份有限 公司使用说明书WKQ-801A 微机厂用电快切装置0XJ 461 201共 34 页第1页1. 概述............................................................................................................................................................................... 41.1. 快切装置简介....................................................................................................................................................... 4 1.2. 性能特点 .............................................................................................................................................................. 42. 基本技术参数............................................................................................................................................................... 62.1. 基本数据 .............................................................................................................................................................. 6 2.2. 功率消耗 .............................................................................................................................................................. 6 2.3. 过载能力 .............................................................................................................................................................. 6 2.4. 输出触点 .............................................................................................................................................................. 6 2.5. 绝缘性能 .............................................................................................................................................................. 7 2.6. 冲击电压 .............................................................................................................................................................. 7 2.7. 寿命 ...................................................................................................................................................................... 7 2.8. 机械性能 .............................................................................................................................................................. 7 2.9. 环境条件 .............................................................................................................................................................. 7 2.10. 抗干扰能力........................................................................................................................................................... 7 2.11. 快速切换断电时间............................................................................................................................................... 8 2.12. 记录容量 .............................................................................................................................................................. 82.12.1. 故障录波内容和故障事件报告容量 .......................................................................................................... 8 2.12.2. 手动录波 ...................................................................................................................................................... 8 2.12.3. 事件记录容量 .............................................................................................................................................. 8 2.13. 与后台通讯接口................................................................................................................................................... 8 2.14. 对时方式 .............................................................................................................................................................. 83. 装置整体说明............................................................................................................................................................... 93.1. 硬件平台说明....................................................................................................................................................... 9 3.2. 软件平台说明....................................................................................................................................................... 9 3.3. 与电厂自动化系统接口说明............................................................................................................................. 10 3.4. 装置面板布置图................................................................................................................................................. 10 3.5. 结构与安装(外形尺寸、开孔尺寸) ...................................................................................................................113.5.1. WKQ-801A 机箱外形尺寸.........................................................................................................................11 3.5.2. WKQ-801A 机箱安装开孔尺寸.................................................................................................................11 3.6. 装置背视图和接线端子......................................................................................................................................114. 切换原理..................................................................................................................................................................... 124.1. 快速切换 ............................................................................................................................................................ 14 4.2. 同期捕捉切换..................................................................................................................................................... 14 4.3. 残压切换 ............................................................................................................................................................ 15 4.4. 延时切换 ............................................................................................................................................................ 155. 装置功能..................................................................................................................................................................... 15旧底图号 底图总号 签字 日期更换 标记2010F-0352 沈燕华 2010-7-19 处数 更改文件号 签字 日期资料来源 提出部门编制 校核 审核 标准化 审定 批准沈燕华 张鹏远 郭宝甫 杨慧霞 张克元日期 日期 日期 日期 日期 日期2010/07/20 2010/07/20 2010/07/20 2010/07/23 2010/07/230XJ 461 201共 34 页第2页旧底图总号 底图总号 签字 日期5.1. 切换功能 ............................................................................................................................................................ 15 5.1.1. 手动切换 .................................................................................................................................................... 155.1.1.1. 并联切换.................................................................................................................................................................. 16 5.1.1.2. 串联切换.................................................................................................................................................................. 16 5.1.1.3. 同时切换.................................................................................................................................................................. 165.1.2. 事故切换 .................................................................................................................................................... 175.1.2.1. 串联切换.................................................................................................................................................................. 17 5.1.2.2. 同时切换.................................................................................................................................................................. 175.1.3. 低压切换 .................................................................................................................................................... 17 5.1.4. 偷跳切换 .................................................................................................................................................... 17 5.2. 低压减载功能..................................................................................................................................................... 18 5.3. 启动后加速保护功能......................................................................................................................................... 18 5.4. 去耦合功能......................................................................................................................................................... 18 5.5. 闭锁及报警功能................................................................................................................................................. 18 5.5.1. 保护闭锁开入 ............................................................................................................................................ 18 5.5.2. 切换功能投退开入 .................................................................................................................................... 18 5.5.3. 定值退出 .................................................................................................................................................... 19 5.5.4. 开入异常 .................................................................................................................................................... 19 5.5.5. TV 断线...................................................................................................................................................... 19 5.5.6. TV 检修...................................................................................................................................................... 19 5.5.7. 目标电源失电 ............................................................................................................................................ 19 5.5.8. 切换完毕 .................................................................................................................................................... 19 5.5.9. 装置异常 .................................................................................................................................................... 19 5.6. 单操功能 ............................................................................................................................................................ 20 5.6.1. 单操功能 .................................................................................................................................................... 20 5.6.2. 单操闭锁 .................................................................................................................................................... 205.6.2.1. 保护闭锁开入 .......................................................................................................................................................... 20 5.6.2.2. 单操投退开入 .......................................................................................................................................................... 20 5.6.2.3. TV 断线 ................................................................................................................................................................... 20 5.6.2.4. TV 检修 ................................................................................................................................................................... 20 5.6.2.5. 装置异常.................................................................................................................................................................. 206. 定值清单及说明......................................................................................................................................................... 217. 订货需知..................................................................................................................................................................... 228. WKQ-801A 装置使用说明 ....................................................................................................................................... 238.1. 装置人机对话界面............................................................................................................................................. 23 8.1.1. 装置液晶显示说明 .................................................................................................................................... 23 8.1.2. 操作键盘说明 ............................................................................................................................................ 238.2. 命令菜单使用说明............................................................................................................................................. 23 8.2.1. 浏览 ............................................................................................................................................................ 248.2.1.1. 实时参数.................................................................................................................................................................. 24 8.2.1.2. 开入量...................................................................................................................................................................... 25 8.2.1.3. 定值.......................................................................................................................................................................... 25 8.2.1.4. 版本.......................................................................................................................................................................... 250XJ 461 201共 34 页第3页8.2.1.5. 报告.......................................................................................................................................................................... 258.2.2. 打印 ............................................................................................................................................................ 25 8.2.3. 整定 ............................................................................................................................................................ 268.2.3.1. 定值整定.................................................................................................................................................................. 26 8.2.3.2. 就地操作.................................................................................................................................................................. 26 8.2.3.3. 通信设置.................................................................................................................................................................. 27 8.2.3.4. 时钟设置.................................................................................................................................................................. 28 8.2.3.5. 密码设置.................................................................................................................................................................. 288.2.4. 调试 ............................................................................................................................................................ 288.2.4.1. 通道传动.................................................................................................................................................................. 28 8.2.4.2. 对点表...................................................................................................................................................................... 28 8.2.4.3. 通道.......................................................................................................................................................................... 29 8.2.4.4. 通道额定值修改 ...................................................................................................................................................... 29 8.2.4.5. 手动录波.................................................................................................................................................................. 30附录 A 装置背视图及接线端子汇总................................................................................................................................ 311. WKQ-801A 装置背视图 ........................................................................................................................................... 312. WKQ-801A 装置接线端子 ....................................................................................................................................... 312.1. WKQ-801A 装置电源及通信插件接线端子 .................................................................................................... 31 2.2. WKQ-801A 装置开入开出及交流插件接线端子 ............................................................................................ 32附录 B 装置运行及报文说明............................................................................................................................................ 34装置运行状态 ..................................................................................................................................................................... 34检修压板使用说明 ............................................................................................................................................................. 34装置自检异常告警信息 ..................................................................................................................................................... 34旧底图总号 底图总号 签字 日期0XJ 461 201共 34 页第4页1. 概述1.1. 快切装置简介WKQ-801A 微机型厂用电快切装置,适用于发电厂厂用电切换,以及化工、冶金、煤炭等有较多电动机 负荷场合的电源切换。

15 Watt单输出开框SMD选择指南说明书

15 Watt单输出开框SMD选择指南说明书

RP15-4805SOFW RP15-483.3SOFW15 Watt Single OutputOpen Frame SMDSelection Guide 24V and 48V Input TypesPart NumberInput Output Output Input (1)Efficiency (2)Capacitive (3)Range Voltage Current Current Load max.VDC VDC mA mA %RP15-243.3SOFW**9-36 3.3400060/680851000µF RP15-2405SOFW**9-365300070/754871000µF RP15-2412SOFW**9-3612130010/79386330µF RP15-2415SOFW**9-3615100010/76386220µF RP15-483.3SOFW**18-75 3.3400040/340851000µF RP15-4805SOFW**18-755300040/377871000µF RP15-4812SOFW**18-7512130010/39786330µF RP15-4815SOFW**18-7515100010/38286220µF** Standard part is without suffix and has no Trim or CTRL connections* add suffix /P for CTRL function with positive logic (1=ON, 0=OFF) including trim pin * add suffix /N for CTRL function with negative logic (0=ON, 1=OFF) including trim pin . * add suffix -R for Tape and Reel Packaging Ordering ExamplesRP15-4805SOFW = 48V 4:1 Input, 5V Output, No CTRL pin, No Trim PinRP15-4805SOFW/P = 48V 4:1 Input, 5V Output, Positive Logic CTRL pin and Trim pin fitted.RP15-243.3SOFW/N = 24V 4:1 Input, 3.3V Output, Negative Logic CTRL pin and Trim pin fittedDescription●Ultraminiature Open Frame SMD ●15 Watts Output Power ●4:1 Input Voltage Range ●Single Output●2.25kVDC Isolation●Fixed Operating Frequency●Optional Remote On/Off and Trim pins ●Efficiency to 87%FeaturesThe RP15-SOFW series are SMD open frame ultraminiature power DC/DC converters in a case half the size of industry standard 15W converters. The converters use solder ball pins to enable SMD mounting and can be reflow soldered. Despite their small size,the RP15-SOFW converters are fully specified devices with output currents up to 4 Amps, no minimum load, 2250VDC isolation and low ripple/noise figures.The outputs are also fully protected against short circuits, overcurrent and overvoltage. The RP15-S0FW series will find many uses in telecommunications and otherdemanding applications where price, board space or board height is at a premium.Please Read Application NotesREV:0/2014P-37RP15-SOFWPOWERLINEDC/DC-Converterwith 3 year WarrantyDerating graphs are valid only for the shownpart numbers. If you need detailed derating-information about a part-number not shown here please contact our technical support **********************************125755025100Ambient Temperature Range (°C)-40-10050608090100O u t p u t P o w e r (%)76Natural Convection-2570RP15-4805SOFWUL-60950-1 Certified E196683RoHS2011/65/EU6/6Derating Graph(Ambient T emperature)Input Voltage Range 24V nominal input 9-36VDC 48V nominal input18-75VDC Input FilterPi Type Input Surge Voltage (100 ms max.)24V Input 50VDC 48V Input100VDC Input Reflected Ripple (nominal Vin and full load) (4)30mAp-p Start Up Time (nominal Vin and constant resistor load)30ms max.Optional Remote ON/OFF (5)DC-DC ON Short or 0V < Vr < 1.2V Negative logic (/N)DC-DC OFF Open or 3.0V < Vr < 15V DC-DC ON Open or 3.0V < Vr < 15V Positive logic (/P)DC-DC OFF Short or 0V < Vr < 1.2VRemote Pin drive current Nominal Vin -0.5mA~1.0mARemote OFF input currentNominal Vin 2.5mAOutput Voltage Accuracy (full Load and nominal Vin)±1%Optional Output Trim (5)±10%Minimum Load0%Line Regulation (low line, high line at full load)All Output voltages ±0.2%Load Regulation (0% to full load)All Output voltages ±0.2%Ripple and Noise (20MHz bandwith, with 1µF MLCC on output)All Output voltages 100mVp-p Temperature Coefficient±0.02%/°C max.Transient Response (25% load step change)250µs Over Voltage Protection3.3V 3.7-5.4V Zener diode clamp (only single)5V 5.4-7.0V 12V 13.5-19.6V 15V16.8-20.5V Over Load Protection (% of full load at nominal Vin)150% typUndervoltage Lockout See Application Notes Short Circuit Protection Hiccup, automatic recovery Efficiencysee …Selection Guide“ tableIsolation Voltage (rated for one minute)Basic Isolation2250VDC Isolation Resistance 1 G Ωmin.Isolation Capacitance 1500pF max.Operating Frequency 3.3V, 5V 350kHz typ All others400kHz typOperating Temperature Range -40°C to +85°C (with derating)Storage Temperature Range -55°C to +125°CThermal Impedance Natural convection18.2°C/Watt Thermal Shock MIL-STD-810FVibration 10-55Hz, 2G, 30 Min. along X, Y and ZRelative Humidity 5% to 95% RHBase Material FR4 PCB Weight 10.5gPacking QuantityRefer to App Notes for tube dimensions20 pcs per Tube 120 pcs per ReelDimensions 27.9 x 23.9 x 8.5mm continued on next pageSpecifications (typical at nominal input and 25°C unless otherwise noted)POWERLINEDC/DC-ConverterRP15-SOFW SeriesR P 15-S O F WREV: 0/P-38Specifications (typical at nominal input and 25°C unless otherwise noted)POWERLINEDC/DC-ConverterRP15-SOFW SeriesConducted Emissions (6)EN55022Class A/B Radiated Emissions EN55022ClassB Radiated Immunity EN61000-4-3Perf. Criteria A Fast Transient (7)EN61000-4-4Perf. Criteria A Surge (7)EN61000-4-5Perf. Criteria A Conducted Immunity EN61000-4-6Perf. Criteria A MTBF (8)Bellcore TR-NWT-0003321322 x 103hours MIL-HDBK 217F515 x 103hours1. Values at nominal input voltage and no load/full load.2. Typical Value at nominal input voltage and full load.3.Test by minimum Vin and constant resistor load.4.Simulated source impedance of 12µH. 12µH inductor in series with +Vin.5.If no suffix is specified, the control and trim pins will be omitted. If fitted, the ON/OFF control function can be positive or negative logic. The pin voltage is referenced to negative input.Positive logic ON/OFF is marked with suffix-P (eg. RP15-2405SOFW/P)Negative logic ON/OFF is marked with suffix-N (eg. RP15-2405SOFW/N).6. Meets Class A with external components shown above. Will meet Class B with external common mode filter (see Application Notes)7.Requires external capacitor to meet EN61000-4-4_5: 220µF/100V, low ESR (48mOhm)8.BELLCORE TR-NWT-000332. Case l: 50% Stress, Temperature at 40°C.MIL-HDBK 217F Notice 2. Ta = 25°C, full load, (Ground Benign, controlled environment).Notes :REV:0/2014P-39RP15-S0FWEMC Filtering - For Class B filter suggestion, see Application NotesClass A Filter470pF/ 3kVVin=24V: C1=6.8µF/50V 1812 MLCC, L1 = 10µH, 2.6A, 40mOhm, 0705 SMD Vin=48V: C1= 2.2µF/100V 1812 MLCC, L1 = 18µH, 1.6A, 1Ohm, 0705 SMDPOWERLINEDC/DC-ConverterRP15-SOFWSeriesPackage Style and Pinning (mm)Pin ConnectionsPin #Standard /P or /N 1+Vin +Vin 2-Vin -Vin 3no pin CTRL 4+Vout +Vout 5no pin Trim 6-Vout-VoutPCB Tolerance ±0.5 mmSMD Pin Pitch Tolerance ±0.25mmR P 15-S O F WREV: 0/P-40Trim UpR UTrim DownR D5654External Output Trimming (optional)With /P or /N suffix, output can be externally trimmed by using the method shown here. See Application Notes for details.Typical Characteristics301848Efficiency VS Input Voltage3642245460667072747678808284868890E f f i c i e n c y (%)Input Voltage (V)7225075Efficiency VS Output load501004045505560657075808590Output Load (%)E f f ic ie n c y (%)RP15-4805SOFWRP15-4805SOFW27.923.91.81.8Recommended Pads =2.8mm dia.The product information and specifications are subject to change without prior notice. All products are designed for non-safety critical commercial and industrial applications.The Buyer agrees to implement safeguards that anticipate the consequences of any failures that might cause harm, loss of life and/or damage property.RP15-4805SOFW RP15-483.3SOFW。

100HA系列伺服驱动器使用说明书

100HA系列伺服驱动器使用说明书
注意事项
——驱动器端子排 R、S、T 动力电源为单相交流 220V(接 R、S、T 任意两端)或 三相交流 220V(接 R、S、T),推荐使用单相或三相隔离变压器。PE 为接地 端子。
——r、t 为驱动器控制电路电源,接单相交流 220V。 ——驱动器不能直接接交流 380V,否则会造成驱动器损坏。 ——驱动器端子排 U、V、W、PE 端子必须与电机的 U、V、W、PE 一一对应连接。 ——电机后部装有精密编码器,安装时严禁敲击电机。 ——电机后部的精密编码器已调整零点,用户不允许自行拆卸反馈元件。 ——为避免水、油等流入电机内,安装电机时尽可能请将电缆插头朝下。 ——断电后,驱动器内部仍有残余高压,因此 5 分钟内不得接触强电端子;不允
6.2 第 2 层···································································································45 6.2.1 监视方式 ·····················································································45 6.2.2 参数设置 ·····················································································47 6.2.3 参数管理 ·····················································································47 6.2.4 速度试运行 ·················································································50 6.2.5 JOG 运行 ·····················································································50

Maxi-Power 150 T4F 电源生成器零件手册说明书

Maxi-Power 150 T4F 电源生成器零件手册说明书

Parts ManualMAXI-POWER™ 150 T4FCopyright © 2019 AllmandHoldrege, NE, USA 68949 All rights reserved.Part No.: 116705Revision: AenTABLE OF CONTENTS1.0 TRAILER PARTS GROUPTrailer Axle, Jack, and Coupler ....................................................................(1.1) Front Enclosure Panels ..................................................................................(1.2) Left Enclosure Panels and Doors ..................................................................(1.3) Right Enclosure Panels and Doors ...............................................................(1.4) Rear Enclosure Panels ...................................................................................(1.5) Top Enclosure Panels ....................................................................................(1.6) Door Panel Urethane Foam Linings ..............................................................(1.7) Cover Panel Urethane Foam Linings ...........................................................(1.8)2.0 ENGINE AND GENERATOR GROUPJohn Deere 6068HFG05 Engine and Filter Group .......................................(2.1) Engine Finger and Fan Guards .....................................................................(2.2) Engine Air Intake Group ..............................................................................(2.3) Engine Exhaust Group ...................................................................................(2.4) Engine Cooling Group ....................................................................................(2.5) Engine DEF System Group ...........................................................................(2.6) Fuel Tank and Fuel Lines ..............................................................................(2.7) Engine Mounting and Generator Assembly Group .....................................(2.8)3.0 ELECTRICAL GROUPControl Box Group .........................................................................................(3.1) Electrical Outlet Box Group ...........................................................................(3.2) Battery Cables Group ....................................................................................(3.3) Tail Lights and Tail Light Harness ..................................................................(3.4) Cam Lock Group .............................................................................................(3.5) Battery Charger, Battery Heater, and Block Heater .......................................(3.6) Maxi-Power™ 150 T4F Parts CatalogTABLE OF CONTENTS4.0 DECALSFront, Left, and Rear Side Enclosure Decals ...............................................(4.1) Right and Top Side Enclosure Decals .........................................................(4.2) Control and Outlet Box Decals ....................................................................(4.3) Trailer Interior Decals .....................................................................................(4.4)©2019 Allmand®SN 27-000100 and UP 1.1 - Trailer Axle, Jack, and CouplerTo Be Determined000000_AMaxi-Power™ 150 T4F Parts Catalog1.1SN 27-000100 and UP 1.1 - Trailer Axle, Jack, and Coupler©2019 Allmand®1.1SN 27-000100 and UP 1.2 - Front Enclosure PanelsSN 27-000100 and UP 1.2 - Front Enclosure Panels©2019 Allmand®1.2SN 27-000100 and UP 1.3 - Left Enclosure Panels and DoorsSN 27-000100 and UP 1.3 - Left Enclosure Panels and Doors©2019 Allmand®1.3SN 27-000100 and UP 1.4 - Right Enclosure Panels and DoorsSN 27-000100 and UP 1.4 - Right Enclosure Panels and Doors©2019 Allmand®SN 27-000100 and UP 1.5 - Rear Enclosure PanelsSN 27-000100 and UP 1.5 - Rear Enclosure Panels©2019 Allmand®SN 27-000100 and UP 1.6 - Top Enclosure PanelsMaxi-Power™ 150 T4F Parts CatalogSN 27-000100 and UP 1.6 - Top Enclosure Panels©2019 Allmand®SN 27-000100 and UP 1.7 - Door Panel Urethane Foam LiningsMaxi-Power™ 150 T4F Parts CatalogSN 27-000100 and UP 1.7 - Section One©2019 Allmand®SN 27-000100 and UPSN 27-000100 and UP 1.8 - Cover Panel Urethane Foam Linings©2019 Allmand®SN 27-000100 and UP 2.1 - John Deere 6068HFG05 Engine and Filter GroupMaxi-Power™ 150 T4F Parts CatalogSN 27-000100 and UP 2.1 - John Deere 6068HFG05 Engine and Filter Group©2019 Allmand®SN 27-000100 and UP 2.2 - Engine Finger and Fan GuardsMaxi-Power™ 150 T4F Parts CatalogSN 27-000100 and UP 2.2 - Engine Finger and Fan Guards©2019 Allmand®SN 27-000100 and UP 2.3 - Engine Intake GroupMaxi-Power™ 150 T4F Parts CatalogSN 27-000100 and UP 2.3 - Engine Intake Group©2019 Allmand®SN 27-000100 and UP 2.4 - Engine Exhaust GroupSN 27-000100 and UP 2.4 - Engine Exhaust Group©2019 Allmand®SN 27-000100 and UP 2.5 - Engine Cooling GroupMaxi-Power™ 150 T4F Parts CatalogSN 27-000100 and UP 2.5 - Engine Cooling Group©2019 Allmand®SN 27-000100 and UPMaxi-Power™ 150 T4F Parts CatalogSN 27-000100 and UP 2.6 - Engine DEF System Group©2019 Allmand®SN 27-000100 and UPMaxi-Power™ 150 T4F Parts CatalogSN 27-000100 and UP 2.7 - Fuel Tank and Fuel Lines©2019 Allmand®SN 27-000100 and UPMaxi-Power™ 150 T4F Parts CatalogSN 27-000100 and UP 2.8 - Engine Mounting and Generator Assembly Group©2019 Allmand®SN 27-000100 and UPMaxi-Power™ 150 T4F Parts Catalog3.1 - Control Box Group11820231719191425202426202810271110333342302934351634329215312213421578126CONTROL PANEL DETAILCHANGE DEVICESIDE DETAILCONTROL BOX INTERIOR DETAILSN 27-000100 and UP 3.1 - Control Box Group©2019 Allmand®SN 27-000100 and UPMaxi-Power™ 150 T4F Parts Catalog3.2 - Electrical Outlet Box Group192325303127262224292813824131439423943151720392116397898793TERMINAL PLATE DETAIL21065432323340363534373741111218OUTLET PANEL DETAILSN 27-000100 and UP 3.2 - Electrical Outlet Box Group©2019 Allmand®SN 27-000100 and UP 3.3 - Battery Cables GroupSN 27-000100 and UP 3.3 - Battery Cables GroupSN 27-000100 and UP 3.4 - Tail Lights and Tail Light HarnessTo Be Determined000000_ASN 27-000100 and UP 3.4 - Tail Lights and Tail Light HarnessSN 27-000100 and UP3.5 - Cam Locks Option115304_A678510348976211111312SN 27-000100 and UP 3.5 - Cam Locks OptionSN 27-000100 and UP 3.6 - Battery Charger, Battery Heater, and Block Heater (1 of 2)117427_A532126241BATTERY CHARGER INSTALL RECESSED PLUGS INSTALLSN 27-000100 and UP 3.6 - Battery Charger, Battery Heater, and Block Heater (1 of 2)SN 27-000100 and UP 3.6 - Battery Charger, Battery Heater, and Block Heater (2 of 2)SN 27-000100 and UP 4.1 - Front, Left, and Rear Side Enclosure Decals。

ITW5025A规格书

ITW5025A规格书

BVDSS Drain-to-Source Breakdown Voltage 500 --
--
V VGS=0V, ID=250uA
IDSS
Drain-to-Source Leakage Current
IGSS
Gate-to-Source Leakage Current
--
--
5
VDS=40V, VGS=0V
300 260
V
A
mJ V/ns
W W/℃

TJ& TSTG
Operating and Storage Temperature Range
-55 to 150
Caution: Stresses greater than those listed in the “Absolute Maximum Ratings” may cause permanent damage to the device.
BVDSS 500V
RDS(ON),typ. 220mΩ
ID 25A
Applications
BLDC Motor Driver Electric Welder High Efficiency SMPS
Ordering Information
Part Number Package
ITW5025A
Pulsed Source Current[2] Diode Forward Voltage Reverse recovery time Reverse recovery charge
Min Typ. Max. Unit
--
--
25
A
--
--
96

IDEC FC5A型 说明书

IDEC FC5A型 说明书

FC9Y-B1269M ICRO S MART FC4A与FC5AFC4A和FC5A CPU模块功能之间的比较CPU模块FC4A FC5A程序容量最多31,200字节(5,200步)最多62,400/127,800字节(10,400/21,300步) (注释1)I/O点数最多264点最多512点高级指令最多72个最多152个32位处理—可能浮点型数据处理—可能三角函数/对数—可能处理时间LOD指令1 µs0.056 µs以上MOV指令66 µs0.167 µs以上基本指令 1.65 ms (1000步)83 µs (1000步)END处理(注释2)0.64 ms0.35 ms内部继电器最多1,584个最多2,048个移位寄存器最多128个最多256个数据寄存器最多7,600个最多48,000个基本指令中的位寻址—可能计数器最多100个256定时器最多100个256捕捉输入/中断输入最小打开脉宽/最小关闭脉宽四个输入(I2~I5)40 µs/150 µs5 µs/5 µs高速计数器计数频率最大20 kHz最大100 kHz计数范围0~65535 (16位)0~4,294,967,295 (32位)多段比较—可能比较动作比较输出比较输出中断程序频率测量—可能脉冲输出输出点最多2点最多3点输出脉冲频率最大20 kHz最大100 kHz 通信通信速度最大19,200 bps(数据连接: 最大38,400 bps)最大115,200 bps (注释3)Modbus主机/从机通信—可能AS-Interface模块数量最多1个最多2个PID高级自动调节—可能联机编辑/测试程序下载—可能运行时程序下载大小最多600字节无限制系统程序下载—可能内存盒下载程序可能可能注释1: 对于FC5A-D12K1E和FC5A-D12S1E,可以选择是否使用62,400字节或127,800字节的程序容量。

富力电子 RT9525 单元型立物电池充电器说明书

富力电子 RT9525 单元型立物电池充电器说明书

1DS9525-01 May 2011Linear Single Cell Li-Ion Battery Charger with Auto Power PathGeneral DescriptionThe RT9525 is an integrated single cell Li-ion battery charger with Auto Power Path Management (APPM). No external MOSFET s are required. The RT9525 enters sleep mode when power is removed. Charging tasks are optimized by using a control algorithm to vary the charge rate including pre-charge mode, fast charge mode and constant voltage mode. For the RT9525, the charge current can also be programmed with an external resister.Additionally, the internal thermal feedback circuitry regulates the die temperature to optimize the charge rate for all ambient temperatures. The charging task will always be terminated in constant voltage mode when the charging current reduces to the termination current of 20%I CHG_FAST . Other features include under voltage protection and over voltage protection for the VIN supply.Featuresz 28V Maximum Rating for VIN Powerz Selectable Power Current Limit (0.1A / 0.5A / 1.5A)z Integrated Power MOSFETsz Auto Power Path Management (APPM)zProgrammable Charging Current Timer and Safe Charge Timerz Under Voltage Protection z Over Voltage Protectionz Power Good and Charger Status Indicator z Optimized Charge Rate via Thermal Feedback z 16-Lead WQFN PackagezRoHS Compliant and Halogen FreeApplicationsz Digital CameraszPDAs and Smart Phones zPortable InstrumentsOrdering InformationNote :Richtek products are :` RoHS compliant and compatible with the current require-ments of IPC/JEDEC J-STD-020.` Suitable for use in SnPb or Pb-free soldering processes.Pin Configurations(TOP VIEW)WQFN-16L 3x3BAT TS BAT NC SYS SYS E N 2E N 1G N DI S E T A S Y S O F F V I NT I M E RENP G O O D CHGMarking InformationJG = : Product CodeYMDNN : Date CodeG : Green (Halogen Free and Pb Free)2DS9525-01 May 2011Typical Application Circuit3DS9525-01 May 2011Function Block Diagram4DS9525-01 May 2011Electrical Characteristics(V IN = 5V, V BAT = 4V, T A = 25°C , unless otherwise specification)Absolute Maximum Ratings (Note 1)zSupply Input Voltage, V IN ------------------------------------------------------------------------------------------------−0.3V to 28V z CHG, PGOOD--------------------------------------------------------------------------------------------------------------−0.3V to 28V z Other Pins-------------------------------------------------------------------------------------------------------------------−0.3V to 6V z CHG, PGOOD Continuous Current ------------------------------------------------------------------------------------20mA z BAT Continuous Current (total in two pins) (Note 2)------------------------------------------------------------2.5A z Power Dissipation, P D @ T A = 25°CWQFN-16L 3x3------------------------------------------------------------------------------------------------------------1.471W z Package Thermal Resistance (Note 3)WQFN-16L 3x3, θJA -------------------------------------------------------------------------------------------------------68°C/W WQFN-16L 3x3, θJC ------------------------------------------------------------------------------------------------------7.5°C/W z Lead Temperature (Soldering, 10 sec.)-------------------------------------------------------------------------------260°C z Junction T emperature -----------------------------------------------------------------------------------------------------150°Cz Storage T emperature Range --------------------------------------------------------------------------------------------−65°C to 150°C z ESD Susceptibility (Note 4)HBM (Human Body Mode)----------------------------------------------------------------------------------------------2kV MM (Machine Mode)------------------------------------------------------------------------------------------------------200VRecommended Operating Conditions (Note 5)z Supply Input Voltage, V IN (EN2 = H, EN1 = L)---------------------------------------------------------------------4.45V to 6V z Supply Input Voltage, V IN (EN2 = L, EN1 = X)---------------------------------------------------------------------4.65V to 6V z Junction T emperature Range --------------------------------------------------------------------------------------------−40°C to 125°C zAmbient T emperature Range --------------------------------------------------------------------------------------------−40°C to 85°C5DS9525-01 May 2011To be continued6DS9525-01 May 2011Note 1. Stresses listed as the above “Absolute Maximum Ratings ” may cause permanent damage to the device. These are forstress ratings. Functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may remain possibility to affect device reliability.Note 2. Guaranteed by design.Note 3. θJA is measured in natural convection at T A = 25°C on a high-effective thermal conductivity four-layer test board ofJEDEC 51-7 thermal measurement standard. The measurement case position of θJC is on the exposed pad of the package.Note 4. Devices are ESD sensitive. Handling precaution is recommended.Note 5. The device is not guaranteed to function outside its operating conditions.7DS9525-01 May 2011Typical Operating CharacteristicsLoad Transient ResponseTime (1ms/Div)APPM, 1.5A Mode, V IN = 5V, V BAT = 3.7V R ISETA = 1k Ω, I SYS = 0 to 2ASYSOFF On/Off With Input Power Time (5ms/Div)V BAT (5V/Div)V SYSOFF (5V/Div)V SYS (5V/Div)I BAT(200mA/Div)V IN = 6V, V BAT= 3.7V, 1.5A Mode, R ISETA = 1k ΩV IN = 5V, V BAT = 3.7V, 1.5A Mode, R ISETA = 1k ΩCharger Detect SequenceTime (10ms/Div)V BAT (2V/Div)I BAT(500mA/Div)SYSOFF On/Off Without Input PowerTime (5ms/Div)V BAT (5V/Div)V SYSOFF (5V/Div)V SYS (5V/Div)I BAT(500mA/Div)V IN = NC, V BAT = 3.7V, 1.5A Mode,R ISETA = 1k Ω, R SYS = 10k ΩOVP FaultTime (50μs/Div)V SYS (2V/Div)V IN (10V/Div)V BAT (1V/Div)I BAT(500mA/Div)V IN = 5V to 15V, V BAT = 3.7V,1.5A Mode, R ISETA = 1k Ω, R SYS = 10ΩV INV SYSV BATI BATTime (250μs/Div)V IN (5V/Div)V BAT (2V/Div)I BAT(500mA/Div)V IN = 5V, V BAT = 3.7V, R ISETA = 620ΩBAT(1V/Div)SYS(1V/Div)V BAT = 3.7V, V SYS = GND9DS9525-01 May 2011OVP Threshold Voltage vs. Temperature6.336.366.396.426.456.486.516.54-50-25255075100125Temperature (°C)O V P T h r e s h o l d V o l t a g e (V )Charger Current vs. Temperature0.0068.75137.50206.25275.00343.75412.50481.25550.00-50-25255075100125Temperature (°C)C h a r g e r C u r r e n t (mA )Dropout Voltage (In-Out) vs. Temperature050100150200250300350400450-50-25255075100125Temperature (°C)D r o p o u t V o l t a g e (mV )Dropout Voltage (Bat-Out) vs. Temperature010203040506070-50-25255075100125Temperature (°C)D r o p o u t V o l t a g e(m V )10DS9525-01 May 2011 Application InformationThe RT9525 is a fully integrated single cell Li-ion battery charger ideal for portable applications. The internal thermal feedback circuitry regulates the die temperature to optimize the charge rate for all ambient temperatures. Other features include under voltage protection and over voltage protection.Pre-Charge ModeWhen the output voltage is lower than 2.8V, the chargingcurrent will be reduced to a fast charge current ratio set by R ISETA to protect the battery life time.Fast Charge ModeWhen the output voltage is higher than 3V, the charging current will be equal to the fast charge current set by R ISETA .Constant Voltage ModeWhen the output voltage is near 4.2V and the charging current falls below the termination current, after a deglitch time check of 25ms, the charger will become disabled and CHG will go from L to H.Re-Charge ModeWhen the chip is in charge termination mode, the charging current will gradually go down to zero. However, once the voltage of the battery drops to below 4V, there will be a deglitch time of 100ms, and then the charging current will resume again.Charging Current DecisionThe charge current can be set according to the following equations :I CHG_FAST = V ISETA / R ISETA x 300 (A)I CHG_PRE = 10% x I CHG_FAST (A)where V ISETA unit = V; R ISETA unit = ΩTime FaultThe Fast Charge Fault Time can be set according to the following equations :Fast Charge Fault Time : t FCHG = 14400 x C TIMER (s)Pre-Charge Fault Time : t PCHG = 1/8 x t FCHG (s)where C TIMER unit is μF.During the fast charge phase, several events may increase the timer duration.For example, the system load current may have activated the APPM loop which reduces the available charging current, the device has entered thermal regulation because the IC junction temperature has exceeded T REG .During each of these events, if 3V < V BAT < 4V, the internal timers are slowed down proportionately to the reduction in charging current. However, once the duration exceeds the fault time, the CHG output will flash at approximately 2Hz to indicate a fault condition and a charger current ~1mA.t FCHG_true = t FCHG xt FCHG_true : modified timer in fast charge t FCHG : original timer in fast charget FCHG = 14400 sec x ( )t PCHG =t PCHG : timer in pre-charge Time fault release :(1) Re-plug power (2) Toggle /EN(3) Enter/Exit USB suspend mode (4) Removes Battery (5) OVPNote that the fast charge fault time is independent of the charge current.Power GoodVIN Power Good (PGOOD = L)ISETA2V TIMERC 1μF FCHGt 8DS9525-01 May 2011Charge EnableWhen EN is low, the charger turns on. When EN is high,the charger turn off. EN is pulled low for initial condition.Battery Pack Temperature MonitoringThe RT9525 features an external battery pack temperaturemonitoring input. The TS input connects to the NTC thermistor in the battery pack to monitor battery temperature and prevent dangerous over temperature conditions. If at any time the voltage at TS falls outside of the operating range, charging will be suspended. The timers maintain their values but suspend counting. When charging is suspended due to a battery pack temperature fault, the CHG pin remains low and continues to indicate charging.When temperature reaches at “Too Cold ” state,R NTC = R COLDWhen temperature reaches at “Too Hot ” state,R NTC = R HOTFrom (1), (2), the R T1 and R T2 can be calculated by the following equations :T1COLD T2NTC T1COLD T2NTC (R + R )R I = 2.1V (V)(R + R ) + R where I = 75 A (typ.)μ××T1HOT T2NTC T1HOT T2(R + R )R I = 0.3V (V)(R + R ) + R ×× (1)(2)HOT COLD T1T1 HOT 1500(R + R )R 3000μμ−×=+Figure 1R Suspend ModeSet EN1 = EN2 = H, and the charger will enter Suspend Mode. In Suspend Mode, CHG is in high impedance and I SUS(MAX) < 330μA.Power SwitchFor the RT9525, there are three power scenarios :(1) When a battery and an external power supply (USB or adapter) are connected simultaneously :If the system load requirements exceed that of the input current limit, the battery will be used tosupplement the current to the load. However, if the system load requirements are less than that of the input current limit, the excess power from the external power supply will be used to charge the battery.(2)When only the battery is connected to the system :The battery provides the power to the system.(3)When only an external power supply is connected to the system :The external power supply provides the power to the system.APPM Profile 1.5A ModeI BAT I SYSI V INV BAT V INV SYS V ADPM Thermal Regulation and Thermal Shutdown The RT9525 provides a thermal regulation loop function to monitor the device temperature. If the die temperature rises above the regulation temperature, T REG , the charge current will automatically be reduced to lower the die temperature. However, in certain circumstances (such as high VIN, heavy system load, etc.) even with the thermal loop in place, the die temperature may still continue to increase. In this case, if the temperature rises above the thermal shutdown threshold, T SD , the internal switch between VIN and SYS will be turned off. The switch between the battery and SYS will remain on, however, to allow continuous battery power to the load. Once the die temperature decreases by ΔT SD , the internal switch between VIN and SYS will be turned on again and the device returns to normal thermal regulation.Input DPM ModeFor the RT9525, the input voltage is monitored when the USB100 or USB500 is selected. If the input voltage is lower than V DPM , the input current limit will be reduced to stop the input voltage from dropping any further. This can prevent the IC from damaging improperly configured or inadequately designed USB sources.APPM ModeOnce the sum of the charging and system load currents becomes higher than the maximum input current limit,the SYS pin voltage will be reduced. When the SYS pin voltage is reduced to V APPM , the RT9525 will automatically operate in APPM mode. In this mode, the charging current is reduced while the SYS current is increased to maintain system output. In APPM mode, the battery termination function is disabled.Battery Supplement Mode Short Circuit Protect In APPM mode, the SYS voltage will continue to drop if the charge current is zero and the system load increases beyond the input current limit. When the SYS voltage decreases below the battery voltage, the battery will kick in to supplement the system load until the SYS voltage rises above the battery voltage.While in supplement mode, there is no battery supplement current regulation. However, a built in short circuit protection feature is available to prevent any abnormal current situations. While the battery is supplementing the load, if the difference between the battery and SYS voltage becomes more than the short circuit threshold voltage,SYS will be disabled. After a short circuit recovery time,t SHORT_R , the counter will be restarted. In supplement mode, the battery termination function is disabled. Note that for the battery supply mode exit condition, V BAT −V SYS < 0V.Battery Disconnect (SYSOFF input)The RT9525 features a SYSOFF input that allows the user to turn off the switch to disconnect the battery from the SYS pin.DS9525-01 May 2011I BAT I SYSI USB T1T2T3T4T5T6T7V BATV USB V SYS V APPM USB 500mA ModeThermal ConsiderationsFor continuous operation, do not exceed absolute maximum junction temperature. The maximum power dissipation depends on the thermal resistance of the IC package, PCB layout, rate of surrounding airflow, and difference between junction and ambient temperature. The maximum power dissipation can be calculated by the following formula :P D(MAX) = (T J(MAX) − T A ) / θJAwhere T J(MAX) is the maximum junction temperature, T A is the ambient temperature, and θJA is the junction to ambient thermal resistance.For recommended operating condition specifications of the RT9525, the maximum junction temperature is 125°C and T A is the ambient temperature. The junction to ambient thermal resistance, θJA , is layout dependent. For WQFN-16L 3x3 packages, the thermal resistance, θJA , is 68°C/W on a standard JEDEC 51-7 four-layer thermal test board.The maximum power dissipation at T A = 25°C can be calculated by the following formula :P D(MAX) = (125°C − 25°C) / (68°C/W) = 1.471W for WQFN-16L 3x3 packageThe maximum power dissipation depends on the operating ambient temperature for fixed T J(MAX) and thermal resistance, θJA . For the RT9525 package, the derating curve in Figure 2 allows the designer to see the effect of rising ambient temperature on the maximum power dissipation.Figure 2. Derating Curve for the RT9525 Package0.000.200.400.600.801.001.201.401.60255075100125Ambient Temperature (°C)M a x i m u m P o w e r D i s s i p a t i o n (W )Layout ConsiderationsThe RT9525 is a fully integrated low cost single cell Li-Ionbattery charger ideal for portable applications. Careful PCBlayout is necessary. For best performance, place allperipheral components as close to the IC as possible. Ashort connection is highly recommended. The followingguidelines should be strictly followed when designing aPCB layout for the RT9525.` Input and output capacitor should be placed close to IC andconnected to ground plane. The trace of input in the PCBshould be placed far away from the sensitive devices ANDshielded by the ground.` The GND and exposed pad should be connected to a strongground plane for heat sinking and noise protection.` The connection of R ISETA should be isolated from othernoisy traces. A short wire is recommended to prevent EMIand noise coupling.Figure 3. PCB Layout GuideDS9525-01 May 2011Richtek Technology CorporationHeadquarter5F, No. 20, Taiyuen Street, Chupei City Hsinchu, Taiwan, R.O.C.Tel: (8863)5526789 Fax: (8863)5526611Information that is provided by Richtek Technology Corporation is believed to be accurate and reliable. Richtek reserves the right to make any change in circuit design, specification or other related things if necessary without notice at any time. No third party intellectual property infringement of the applications should be guaranteed by users when integrating Richtek products into any application. No legal responsibility for any said applications is assumed by Richtek.Richtek Technology CorporationTaipei Office (Marketing)5F, No. 95, Minchiuan Road, Hsintien City Taipei County, Taiwan, R.O.C.Tel: (8862)86672399 Fax: (8862)86672377Email:*********************W-Type 16L QFN 3x3 Package。

人民电器 智领系列 RDW7系列万能式断路器 选型说明书

人民电器 智领系列 RDW7系列万能式断路器 选型说明书

适应-35℃~+70℃温度范围,产品能在高海拔、温差大等严酷环境下稳定运行。

环境适应能力强控制器采用新型微机处理技术,功能强、精度高,数据处理更快速高效。

智能人机互联、远程控制采用先进的多孔分层灭弧和快速磁吹技术,创新灭弧室设计,真正实现零飞弧。

零飞弧、分断能力高适应用户多种接线需求,可自由选择垂直接线、水平接线、混合接线方式,给用户带来较多方便。

母排连接线方灵活-35℃断路器附件配置表表1选型指南举例:需订一台RDW7-1600型,三极抽屉式,额定电流为1000A ,智能控制器为H 型,控制电压为AC400V ,配一锁一钥匙的断路器。

表示为:RDW7-1600-3-D-1000A-H-AC400V-一锁一钥匙 数量为1台注:其它配置可多项选择/01RDW7系列智能型万能式断路器/02主要技术参数□ 污染等级:3级□ 使用环境温度:周围空气温度为-5℃~+40℃,24h 的平均值不超过+35℃,超出范围跟制造厂家协商定制;□ 空气相对湿度:在周围空气温度为+40℃时不超过50%;在较低的温度下可以有较高的相对湿度;例如最湿月的平均最大相对湿度为90%,同时该月的平均最低温度为+20℃,对由于温度变化偶尔产生的凝露应采取处理措施。

□ 海拔高度:不超过2000m ;□ 主电路安装类别:IV当主回路的额定工作电压不大于AC400V 时,控制电路和辅助电路安装类别除了欠电压脱扣器线圈和智能控制器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AC400V ~AC690V 时,控制电路和辅助电路需要用变压器与主回路隔离,并且控制电路和辅助电路的最高工作电压为AC400V ,控制电路和辅助电路安装类别均为Ⅲ;□ 电磁环境:A符合标准RDW7系列智能型万能式断路器主要用于交流50/60Hz ,额定工作电压为400V/690V ,额定电流至6300A 以下的配电网络中,主要用作配电、馈电和发电保护,使线路及电源设备免受过载、欠电压、过电压、电流电压不平衡、短路和接地/漏电等故障的危害。

PowerConnect B-DCX-4S发货支架安装指南说明书

PowerConnect B-DCX-4S发货支架安装指南说明书

53-1001803-01 *53-1001803-01*January 31, 2010PowerConnect B-DCX-4S Shipping Bracket Install Guide InsertDELLInstalling the DCX-4S Shipping BracketsUse the following instructions to install the DCX-4S shipping brackets. These brackets are required when DCX-4S is installed with the intent to ship preinstalled in a cabinet.Figure 1-0: Shipping brackets stand alone (left side only)1.Prior to installing the chassis into the cabinet, remove the 10 flat head 6-32 fan bay attach screws located on both the left and right side chassis panels. (see Figure 1-1) 2. Install both side plates using the 10 pan head 6-32 screws supplied with the kit, making sure to note that the left and rightside plates are different. The left side and right side plates are part marked with “A” and “B” respectively. (see Figure 1-1) NOTE: The side plates have 5 sets of discrete holes, part marked 27 through 31. Use the holes that correspond with thedocument number 53-1001181-XX. 4.Install the clip nuts or nut retainers. NOTE: The clip nuts are used with cabinets that utilized square holes, and nut retainers are used with cabinets that utilize round holes. The locations of the clip nuts or nut retainers match the location for the port side rack brackets outlined in 53-1001181-XX. 5.Secure the L-brackets to the cabinet rails using the 6 10-32 pan head screws with square cone washers supplied with the kit, making sure to notice the left and right side brackets are different. The left side and right side L-brackets are part marked with “A” and “B” respectively. (see Figure 1-2) Torque the screws to 32 in/lbs. 6. Once the L-brackets are mounted to the rails they can be secured to the side plates using the 18 10-32 pan head screws withsquare cone washers supplied with the kit. (see Figure 1-2) Torque the screws to 32 in/lbs.Figure 1-1 Figure 1-2。

DAM-3018D

DAM-3018D

0x00 // 获得模块基本信息 0x01 // 设置模块基本信息 0x02 // 容错处理
0x10 // 获得 DO 输出值 0x11 // 设置 DO 输出值 0x12 // 获得 DO 上电值 0x13 // 设置 DO 上电值 0x14 // 获得 DO 安全值 0x15 // 设置 DO 安全值
北京阿尔泰科技发展有限公司
DAM-3000 Data Acquisition Modules User’s Manual(V6.10)
#define CMD_START_STOP_WATCHDOG
0x90 // 启/停软件看门狗
#define CMD_GET_WATCHDOG_STATUS
0x91 // 获得看门狗状态
DAM-3000 Data Acquisition Modules User’s Manual(V6.10)
★端子分布图
DAM-3018D 说明书
★主要指标
8 路继电器输出模块 ■ 输出:8 路 A 型继电器 ■ 触点容量:250VAC @ 1A;30VDC @ 2A ■ 继电器接通时间:5ms ■ 继电器断开时间:2ms ■ 击穿电压:1000VAC (50/60Hz) ■ 绝缘电阻:最小 1000MΩ (1000VAC) ■ 支持双看门狗 ■ LED 指示输出状态 ■ 电源:未调理 +10~+30VDC ■ 功耗:2.4W @ 24VDC
3.4 设置数字量输出上电值
发送请求
字节号
0
1
2
功能
报头 模块地址 包长
Header Address PackSize
指令格式 A5
XX
08
Public Const CMD_SET_DO_POWER 0x13
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JMT 系列电源连接器 Series Power Connector ……………. 32 产品概况 Introduction …………………………………… 32 产品介绍 Main Technical Specifications ……………… 35 定货说明 How To Order ……………………………… 43
switching power supplies, who is a Hi-Tech company, integrated design, production and sale as a whole. 主导产品:公司自始至终以技术为核心,致力于发展矩形模块电源连接器、矩形弹片式电源连接器、圆形连接 器、排针排母、绝缘柱(绝缘子)以及气动压接工具等。产品广泛应用于电力电源、通信电源、 UPS 不间断电源、抽屉式配电柜、逆变电源,也运用于大型网络、计算机通讯、铁路电源、太阳 能、LED、新能源电动汽车等多种领域。 Leading Products: JMD Series Power Connectors, JMT Series Power Blade Connectors, PHD Series Edge Card Connector, Pin Header and Female Header、YDL Series Circular Power Connector, Pin Contact, Socket Contact, Standoff Isolator, Pneumatic Crimping Tools and Pneumatic Socket Series. All Frenda products are widely used in Large network project, Computer communication and Industry control, Electric power, UPS, Railway, Solar energy, LED, New energy electric automobile etc. VIP Clients: 公司主要的合作伙伴有美国 Liebert 、泛斯泰电子、新西兰 POWERWARE 印度 PRASHA 、 伊朗通讯制造、山特电子 SANTAK、台达电子、珠江电信、先控电源等,客户遍布全球 20 多个 国家和地区。 理 念: 客户满意是我们服务的目标! Concept: Do Our Best To Satisfy Your Target Request!
JMD 系列电源连接器 Series Power Connector ……………. 1 产品概况 Introduction …………………………………… 1 产品介绍 Main Technical Specifications ……………… 5 定货说明 How To Order ……………………………… 30
JMD series connector is hot-plug, both signal and power in one, which includes JMD3A-, JMD4-, JMD4A-, JMD8A, JMD8C, JMD10, JMD13, JMD15, JMD17, JMD18, JMD19, JMD19A, JMD20, JMD25, JMD28, JMD29, JMD29A, JMD33, JMD37-1, JMD37-2, JMD40, JMD40A JMD52, JMD83, JMD83A core connectors etc. The connector adopts the most advanced crown spring as contact part, so the product has high reliability of dynamic contact. And the contacts are silver-gilt except #22 and #20 is gilded. The female connector (T) is installed with the sockets, and the male connector (Z) is installed with the pins. At present the optional terminal styles include crimping, solder cup, PCB tail and thread.
接触件额定电流 Rated Current for Contact (A)
20#
16#
12#
8#
4#
5
15
35
75
125
接触件数量 Contact’s Quantity
3
4
8
4
2
2
6
2
2(100A)
3
9
6
13
4
11
7
0#
Page
150
No.
P7
产品一览表 Product List
Product Type
22#
3
JMD-3AZ JMD-4Z JMD-4AZ JMD-8AZ JMD-8CZ JMD-10Z JMD-13Z JMD-15Z1 JMD-17Z JMD-18Z
JMD-3AT JMD-4T JMD-4AT JMD-8AT JMD-8CT JMD-10T JMD-13T JMD-15T1 JMD-17T JMD-18T
SHENZHEN FRENDA TECH. CO., LTD
JMD 系列电源连接器
JMD 电源连接器 Series Power Connectors
产品简介 Introduction
JMD 型热插拔连接器集信号与动力于一体,现有 JMD-3A、4、4A、8A、8C、10、13、 15、17、18、19、19A、20、25、28、29、29A、33、37、40、40A、52、83、83A 芯等型号。 该产品采用当今世界最为先进的冠簧插孔为接触件,因而具有高动态接触可靠性。除 22#、 20#接触件镀金外,其他的接触件镀银。目前接触件的端接形式有压接、板接、焊接和螺纹 连接等。我们可以按照客户的要求,在短时间内,设计出最满意的产品。
公司简介 Introduction 发展状况:深圳丰业达科技有限公司 2012 年应时崛起,是集研发、生产、销售
于一体的民营股份制企业。公司以人为本,秉承“不断提升产品水准,持续满足客户需求” 的经营理念,在生产过程中严格执行 ISO9001 质量管理体系,并依靠灵活的量身定制应急能力, 已成为业内一支能灵活适应市场并快速反应的团队。我们坚持以市场为导向,努力打造更高品质更 高效率的企业。 Development: Shenzhen Frenda Tech. CO., LTD is a manufacturer of hot-pluggable power connectors and special
PDL 系列电源连接器 Series Power Connector……………. 47 产品概况 Introduction …………………………………… 47 产品介绍 Main Technical Specifications ……………… 48 定货说明 How To Order………………………………… 49
ቤተ መጻሕፍቲ ባይዱ
电源模块
材料 Material
壳体材料 Housing Material:PET+30% fiber glass(G30),UL94V-0,black
接触件材料 Contacts Material: 插针和插孔外套:黄铜或铜合金;Pin & Socket: brass or copper alloy
SHENZHEN FRENDA TECH. CO., LTD
JMD SERIES POWER CONNECTOR
应用范围 Applications
产品广泛应用于: 1. 智能高频开关电源: 大型网络、计算机通信电源、电力电源、铁路电源、大型 LED 电源、太阳能光伏电 源、电动汽车及充电设备、工控电源、医疗美容设备; 2. 不间断电源:UPS; 3. 逆变电源; 4. 抽屉式低压配电柜 1. Intelligence high frequency switching power supply: Communication power supply, electric power, railway power supply, LED power, solar photovoltaic power, Electric drive and charging equipment, industrial power, medical beauty equipment. 2. UPS 3. Contravariant power 4. Drawer low-voltage cabinet etc.
T is female connector, T 即为头 Distinction Symbol: A, B…… Total Quantity of Contacts Power Connector
FRENDA
TEL: +86 755 27824365
FAX: +86 755 27824360
E-MAIL: amy.chen@,/ jarou20@
PHD 系列电源连接器 Series Power Connector …………. 44 产品概况 Introduction …………………………………… 44 产品介绍 Main Technical Specifications ……………… 45 定货说明 How To Order ……………………………… 46
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SHENZHEN FRENDA TECH. CO., LTD
OUR PRODUCTS, YOUR BEST SELECTION
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