SWD-H60并行板(双速)说明书

第一章SWD-F50串行控制系统功能介绍A、基本功能列表B、特殊功能列表C、安全保护功能列表第二章SWD-F50串行控制系统构成与部件介绍2.1 系统结构框图系统的结构框图如图所示。

本系统以微机主控单元SWD-F50为控制核心。

该主控单元采用串行通讯技术通过CAN总线或485HVG总线与轿厢操纵盘及厅外呼梯单元进行数据交换，对井道、安全回路等信息采用并行信号采集方式。

微机通过对采集到的信息数据进行逻辑分析及运算后，输出相应的控制信号和应答来对变频器、门电机及抱闸等进行控制。

使电梯的逻辑功能、故障诊断等功能得以实现。

2.2 SWD-F系列串行控制系统产品类别及型号及列表2.3 系统主要部件性能指标2.3.1 性能特点◆主控制器采用性能稳定的32位高速ARM7CPU，运算速度更快；◆CAN总线串行通讯，通信方式由原来的标准RS485通信模式升级成485HVG模式，专门适用于干扰强、距离远的场合；◆线路板采用四层板SMT（表面贴装技术），外形美观质量可靠；◆独特的抗干扰设计，采用24V的通信总线大大增强了抗干扰能力，整个通信总线无需屏蔽电缆；◆操作界面为大屏液晶显示器,中文菜单式操作，简洁方便，分级密码进行参数设置，安全可靠，还可故障记录查询等操作，便于维修与调试；◆支持并联、群控、远程监控、智能刷卡管理功能；◆轿内指令板32层以下通用，超过32层增加一块扩展板；◆贯通门任意设定、节能定时熄灯控制，满载、超载、到站钟控制、开/关门及限位等更节省随行电缆；◆外呼指令板与层显一体化设计，采用拉幕式点阵显示，各种工作状态也可直接显示；2.3.2 适用范围◆电梯集选，两台并联，三至八台群控；◆速度范围0.5-5m/s；◆适用楼层：最高64层；◆客梯、货梯、医用电梯、住宅梯等等；◆适用于不同变频器及不同的门机系统；◆适用于各种有齿曳引机和无齿轮永磁同步曳引机；2.3.3 参照标准《GB7588-2003电梯制造与安装安全规范》2.3.4 电源规格电压：DC24V ±1.2V 电流：4.5A(楼层≤10层)；6A（楼层＞10层）2.3.5 工作温度元器件工作温度-40℃～+80℃(液晶操作器除外)第三章系统主要部件介绍主控制器 SWD-F503.1 主控制器SWD-F50的外形3.2 主控制器的安装尺寸图3.3 部件说明1、插件规格CN1、CN2、CN3、CN4、CN5、CN6、CN7、CN8、CN9、CN10为多脚插座SH231-5.08，额定电压：250V；额定电流：12A；脚距：5mm 。

SIMOREG DC-MASTER使用说明书6RM70全数字直流调速柜版本：AB内部索引号：058 100.0003.0103.2003目 录Siemens Electrical Drives Ltd. 058 100.0003.010-1SIMOREG DC-MASTER 6RM70 使用说明书目 录定 义.........................................................................................................................................0-21电路简图.....................................................................................................................................1-12运输、拆包装、安装...................................................................................................................2-12.1运输和拆包装..............................................................................................................................2-12.2贮 存.........................................................................................................................................2-12.3安 装.........................................................................................................................................2-23连 接.........................................................................................................................................3-13.1主回路和励磁回路接线...............................................................................................................3-13.2电机风机接线..............................................................................................................................3-23.3柜内匹配变压器..........................................................................................................................3-23.4电机转速测量信号......................................................................................................................3-33.4.1模拟测速机的选择和使用............................................................................................................3-33.4.2模拟测速机的连接......................................................................................................................3-33.4.3脉冲编码器的选择和使用............................................................................................................3-33.4.4脉冲编码器的连接......................................................................................................................3-43.5外部速度给定信号......................................................................................................................3-43.6外部启动、允许信号...................................................................................................................3-43.7输出信号.....................................................................................................................................3-53.8抑制无线电干扰的措施...............................................................................................................3-54启 动.........................................................................................................................................4-14.1柜门上操作开关说明...................................................................................................................4-24.2启动的操作步骤..........................................................................................................................4-25维 护.........................................................................................................................................5-16技术数据.....................................................................................................................................6-17订货和设计数据..........................................................................................................................7-1定 义03.20030-2Siemens Electrical Drives Ltd. 058 100.0003.01SIMOREG DC-MASTER 6RM70 使用说明书0 定 义合格人员为了理解本使用说明书和产品上的警示标记，“合格人员”是指熟悉本产品的装配、安装、启动、运行和存在的危险。

共2份
图1 TRT系统结构示意图
第二章起动、运行与停机
第一节透平发电机在下列情况下禁止起动
一、调速阀、紧切阀、旁通阀、静叶或保安系统不正常。

二、转速表全部失灵。

三、辅助油泵自启动装置工作不正常。

四、透平发电机在盘车时发现转动部分有磨擦声。

五、机组振动不合格。

六、油质不合格。

七、高低压电力系统不正常。

八、自动化控制系统不正常。

九、氮气压力不足
十、粉尘含量过高
第二节起动前的准备工作
一、详细检查全部设备，检查工作全部结束运行，专用工具应齐全。

二、起动前静态试验（如危急保安器，紧急停机按钮），试验紧急切断阀快关、旁通快开、静叶快关。

DetectorSlidePushRotaryPowerDual-in-line Package TypeSmall size General Use Type Big size General Use TypePC board mounting hole dimensions（Viewed from direction A）8.57}Operating force with detent : 2.2Nb J a b J c: shaft length14.53NTravelPC boardmounting face Terminal No.1233.30.52215.50.352.5222a b c }a Jbc J bA15.3222.510-ø0.7 hole1.5 1.51.62242-pole, 3-position15.514.5Travel PC boardmounting faceTerminal No.1233.38.52270.352.50.5R Operating force with detent : 2.5NAr : shaft length32-pole, 2-position15.3222.56-ø0.7 hole1.5 1.51.6DimensionsUnit:mmStyleNo.8.57}Operating force with detent : 2.2N b ab c : shaft length14.53NTravelPC boardmounting face Terminal No.1233.30.52215.50.352.5222a b c }a bc bA15.3225-ø0.7 hole1.5 1.51.6221.2521-pole, 3-positionTravelPC boardmounting faceTerminal No.1Operating force with detent : 2.5N233.38.52215.50.5R A71.250.35r : shaft length14.511-pole, 2-position15.3223-ø0.7 hole1.51.51.61.25Vertical Actuator Type17.570.352.5PC boardmounting faceTerminal No. 1Operating force with detent : 2.5N233.38.5222220.5RATravel16.5r : shaft length17.3212-ø0.7 hole1.5 1.51.62222.5254-pole, 2-positionSSSF／8.5(H)mm, 2mm-travel TypeDetectorSlide Push Rotary Power Dual-in-line Package Type Small size General Use Type Big size General Use TypeStyle15.3222.56-ø0.7 hole1.5 1.51.68TravelPC boardmounting faceTerminal No. 1Operating force with detent : 2.5N22215.5353.38.50.5Ar: shaft length14.572.50.35RR-12-pole, 2-position15.3222.510-ø0.7 hole1.5 1.51.6229Travel22a b cPC boardmounting faceTerminal No. 1222215.5353.38.50.5Operating force with detent :3N}}2.2NA: shaft length14.572.50.35-12-pole, 3-position2212-ø0.7 hole1.5 1.51.62222.517.310TravelPC boardmounting faceTerminal No.Operating force with detent : 2.5N22217.5353.38.52220.5172.50.35RR-1Ar: shaft length16.54-pole, 2-positionNo.PC board mounting hole dimensions（Viewed from direction A）15.3225-ø0.7 hole1.5 1.51.6221.257Travel22a b cPC boardmounting faceTerminal No. 1222215.5353.38.5Operating force with detent :2N3N} }0.5A0.351.257-1: shaft length14.51-pole, 3-position6TravelPC boardmounting faceTerminal No. 1Operating force with detent : 2.5N22215.5353.38.50.5A0.351.257RR-1r: shaft length14.51-pole, 2-position15.3223-ø0.7 hole1.5 1.51.61.25Horizontal Actuator TypeDimensionsUnit:mm8.5(H)mm, 2mm-travel TypeSSSFDetectorSlidePushRotaryPowerDual-in-line Package TypeSmall size General Use Type Big size General Use TypeSSSF／8.5(H)mm, 2mm-travel Typec123Circuit Diagram（Viewed from Direction A）1-pole, 2-position Drawing No.1, 6cc123451-pole, 3-position Drawing No.2, 7c c1234562-pole, 2-position Drawing No.3, 8c c c c123456789!02-pole, 3-position Drawing No.4, 9c c cc123456789!1!2!04-pole, 2-position Drawing No.5, 1090˚2.50.050.30.60.60.60.330.05Actuator ConfigurationUnit:mmThickness of PC board t=1.62-R 0.7R0.751.53AShape of Frame LegUnit:mm1 - 21 - 32 - 22 - 34 - 215.515.517.517.5APole - positionVerticalHorizontalDetectorSlide Push Rotary Power Dual-in-line Package Type Small size General Use Type Big size General Use Type300200100A max.BDCETime (s)F max.Pre-heatingRoomtemperatureTemperature(C)1. The condition mentioned above is the temperature on the mounting surface of a PC board. There are cases where thePC board’s temperature greatly differs from that of the switch, depending on the PC board’s material, size, thickness, etc.The above-stated conditions shall also apply to switch surface temperatures.2. Soldering conditions differ depending on reflow soldering machines. Prior verification of soldering condition is highlyrecommended.NotesExample of Reflow Soldering Condition1. Heating method: Double heating method with infrared heater.2. T emperature measurement: T hermocouple φ0.1 to 0.2 CA （K）or CC （T）at soldering portion （copper foil surface）.A heat resisting tape should be used for fixed measurement.3. Temperature profileSlide Switches / Soldering ConditionsSSSS8SSSS7SSACSoldering temperature Duration of immersionPreheating temperature Preheating timeSSAG, SSAJ, SSALSSSS9SSSS2SSSF, SSSUSeriesSeries3+1/0s4s max.3s max.3s max.3s max.3s max.2s max.ItemsSoldering timeDip solderingSSSS9SSSS2120℃ max.100℃ max.100℃ max.100℃ max.60s max.60s max.60s max.60s max.260±5℃260±5℃5+0/-1s （2 times）3±1s SSSF, SSSU260±5℃10±1s/5±1s SSAC260±5℃5±1s Reference for Hand SolderingReference for Dip Soldering(For PC board terminal types)330±5℃320±5℃300±10℃350±10℃350±10℃350±10℃350±5℃Soldering temperatureSSSS2Vertical1-pole, 3-positionVertical1-pole, 2-positionHorizontal1-pole, 2-position1-pole, 3-position2-pole, 3-positionSSAG, SSAJ, SSAL, SSSS8, SSS7260150 Series（Reflow type）26025023040180120A（℃）3s max.B（℃）C（s）D（℃）E（℃）F（s）。

User ManualEPC-P30X6 SeriesThin Embedded Slim Computer微型计算机（薄型嵌入式微型计算机）微型電腦（薄型嵌入式微型電腦）Copyright/ 版权声明/ 版權聲明The documentation and the software included with this product are copyright 2020 byAdvantech Co., Ltd. All rights are reserved. Advantech Co., Ltd. reserves the right tomake improvements in the products described in this manual at any time withoutnotice. No part of this manual may be reproduced, copied, translated or transmittedin any form or by any means without the prior written permission of Advantech Co.,Ltd. Information provided in this manual is intended to be accurate and reliable. How-ever, Advantech Co., Ltd. assumes no responsibility for its use, nor for any infringe-ments of the rights of third parties, which may result from its use.随附本产品发行的文件为研华公司2020 年版权所有，并保留相关权利。

针对本手册中相关产品的说明，研华公司保留随时变更的权利，恕不另行通知。

目录前言 ................................................................ ３一般安全要求 ........................................................ ４快速操作指南 ........................................................ ５操作手册 ................................................................ ６一、功能简介 ................................................ ６二、产品特点 ................................................ ７三、技术参数 ................................................ ７四、前面板示意图 ........................................ ９指示灯 .................................................... ９拨码开关 ............................................ １０按钮开关 ............................................ １３五、台式后面板示意图............................. １４电源输入 ............................................ １４E1接口 ............................................... １５ETHERNET（以太网）接口................. １５六、底板示意图 ........................................ １６两位拨码开关 .................................... １６壁挂孔 ................................................ １６七、机框前面板示意图............................. １７网管卡 ................................................ １７功能卡 ................................................ １７电源板 ................................................ １７１八、机框后面板示意图............................. １８地址开关 ............................................ １８级联口 ................................................ １８九、做线方式 ............................................ １９十、安装步骤 ............................................ ２０故障诊断及排除 ................................................ ２１典型组网方案 .................................................... ２２术语解释 ............................................................ ２５２前言数据通信标准经协商一致、发表并为众人遵循。

FOR PARALLELING MODULEAPM 2000INTRODUCTIONThe APM 2000 Paralleling Module (part number 9 1473 00 100) is designed for use with the Basler APR63-5, APR125-5, and XR2002 voltage regulators. The APM 2000 is designed for the standard paralleling schemes, known as reactive droop compensation and reactive differential compensation. An externally connected unit/parallel mode switch (S1) prevents unwanted voltage droop caused by the regulator's working on the generator output and not on the bus load.The APM 2000 operates in conjunction with an external parallel current transformer. The APM 2000 then provides the droop signal necessary to two or more generators to share reactive loads and reduce circulating currents between them.The voltage regulator and Paralleling Module must be connected into the generating system as shown in the Interconnection diagrams.ELECTRICAL SPECIFICATIONSCT InputNominal Rating: 1 Aac or 5 AacRange1 A Input: 0.7 to 1.0 Aac5 A Input: 3.5 to 5.0 AacBurden: 5VA Generator Voltage Drop5% for 0.8 power factor load at 70% of nominal CT current ratingUL RecognitionStandard 508, file number E75380CSA RecognitionStandard CAN/CSA-C22.2, number 14-M91,CSA file number LR23131PHYSICAL SPECIFICATIONSTemperatureOperating: –55 to 70°C (–67 to 158°F) Storage: –65 to 85°C (–85 to 185°F) Weight590 g (1.3 lb)INSTALLATIONMountingThe rugged construction of the APM 2000 Paralleling Module permits mounting directly on the engine or genset. It can also be mounted directly on the switchgear or control panel. The APM 2000 may be mounted in any position without affecting its operation. For mounting, see Figure 1. INTERCONNECTIONCurrent Sensing Input (Terminals C, 5A/1A)Generator line current is sensed by either a 1 A or a 5 A (5 VA) secondary current transformer installed on the generator B-phase output lead. The CT secondary should deliver from 0.7 to 1 Aac for the 1 A tap or from 3.5 to 5 Aac for the 5 A tap when the generator is at rated load and power factor. The CT develops a voltage signal across adjustable resistor R1 in the Paralleling Module that is proportional in amplitude and phase to the generator line current. This voltage is applied to the primary of transformer T1. The secondary of T1 is connected in series with the voltage applied to the voltage regulator sensing circuit. The result signal that is applied to the voltage regulator sensing circuit is the vector sum of the generator ac voltage and the voltage developed by the APM 2000. Paralleling Signal Sensing Output (Terminals 6 and 7) When a resistive load (at unity power factor) is applied to the generator, the voltage that appears across R1 (and transformer T1) leads the sensing voltage by 90 degrees. Since the vector sum of these two voltages is nearly the same as the original sensing voltage, almost no change will occur in the generator output voltage.When an inductive load (lagging power factor) is applied to the generator, the voltage across R1 becomes more in phase with the sensing voltage and the combined vectors of the two voltages result in a larger voltage being applied to the voltage regulator sensing circuit. Since the action of the regulator is to maintain a constant voltage at its sensing terminals, the voltage regulator reacts by decreasing generator voltage.When a capacitive load (leading power factor) is applied to the generator, the voltage across R1 becomes out of phase with the sensing voltage and the combined vectors of the two voltages result in a smaller voltage being applied to the voltage regulator sensing circuit. Since the action of the regulator is to maintain a constant voltage at its sensing terminals, the voltage regulator reacts by increasing generator voltage.PARALLEL COMPENSATIONWhen two generators are operating in parallel (Figures 2 and 3) the field excitation on one generator becomes excessive, causing a circulating current to flow between generators. The current appears as an inductive load to the generator (lagging power factor) with excessive field current and as a capacitive load to the other (leading power factor). The reactive droop compensation circuit in the APM 2000 will cause the voltage regulator to decrease its field excitation on the generator with the lagging power factor load in order to minimize the circulating currents between the generators.This type of circuit is called reactive droop compensation. It allows two or more paralleled generators to proportionally share inductive loads by causing a decrease or droop in the generator system voltage.The APM 2000 also provides the secondary circuit isolation for reactive differential compensation operation (Figures 4 and 5). Reactive differential compensation allows two or more paralleled generators in an isolated system to share inductive, reactive loads with no decrease or droop in the generator system output voltage. This is accomplished by the action and circuitry described previously for reactive droop compensation and by the cross connecting of the CT secondary leads. The figures show the finish of the first CT connected to the start of the second CT, etc. until all CTs are connected in series. The final step is to connect the finish of the last CT to the start of the first CT. This forms a closed, series loop that interconnects the CTs of all generators to be paralleled. The signals from the interconnected CTs cancel each other when the line currents are proportional and in phase and no drop in system voltage occurs.Reactive differential compensation can be used only if the regulators are identical and if the regulators on all the generators operating on a common bus are cross connected into the closed series loop. Generators of different kW ratings may be operated with reactive differential compensation if parallel CTs are selected that give approximately the same secondary current of each generator's rated load.In reactive differential compensation applications of more than two generators, an external Unit-Parallel switch should be placed across terminals 1A and C and set to the Unit position when not operating on the load bus. If it is not, a voltage drop will be introduced into the system. This is because the unloaded generator parallel CT is not supplying its compensating signal, but allowing a voltage drop to occur across it. This drop will also cause the voltage of the incoming generator to fluctuate prior to paralleling. This fluctuation can be eliminated by utilizing an auxiliary contact on the main generator circuit as a Unit-Parallel switch. This auxiliary contact will be closed when the main generator circuit breaker closes. When this auxiliary contact is closed, the Unit-Parallel switch is not needed.OPERATIONBefore paralleling, the following test should be performed to confirm that the correct polarity and phase relationship exists between the voltage regulator, parallel current transformer, and paralleling module. Repeat this test for all systems that are to be paralleled.If reactive differential compensation is used, the interconnection loop between the generators should be left open until completing these tests. (See Figures 4 and 5.)1. Adjust R1 (APM 2000) to the maximum resistanceposition (fully clockwise).2. Set the Unit-Parallel switch to Unit or place a jumperacross terminals C and 1A.3.With the generator operating at rated speed and voltage, apply a lagging power factor load. (Unity power factor load cannot be used for this test.) Record the generator voltage.4. With the load still applied, place the Unit-Parallelswitch in the Parallel position and record the generator voltage.5. Verify that the voltage obtained with the Unit-Parallelswitch set to Parallel is less than the voltage obtained with the switch set to Unit.6. If a higher voltage was obtained with the Unit-Parallelswitch set to Parallel, stop the system and verify that the CT and sensing leads are connected to the correct generator lines. If all connections are proper and correct, interchange the parallel CT secondary leads. 7. If step 6 was required, repeat steps 1 through 4 toensure that the system voltage droop is obtained.REPLACEMENT PARTSTable 1 lists the SPM 2000 components and assemblies that have maintenance significance. When ordering parts from Basler Electric, specify the APM 2000 part number (9 1473 00 100), component reference designation, component part number, and component description.Table 1. Replacement PartsRef.Des.Part Number Qty DescriptionR1 14855 1Resistor, variable, 6Ω, 12.5WS1* 02660 1SwitchT1 BE19289-001 1 Transformer* Unit-Parallel Switch S1 is not supplied with the APM 2000 and must be ordered separately.Figure 4. Reactive Differential Compensation, CT Interconnection, 1 A SensingFigure 5. Reactive Differential Compensation, CT Interconnection, 5 A Sensing。

32位微机全并行电梯控制系统SWD-H60发布日期：2011-5-30 16:06:01 浏览人数:8241 、性能特点◆采用全并行的通讯结构，输入输出点可自定义，可与备用点进行更换；◆线路板采用四层板SMT（表面贴装技术），外形美观质量可靠；◆采用上下两个平层开关实现换速停车,节省井道电缆和换速开关；◆呼梯方式单、双呼可任意选择◆贯通门方式设置灵活，手动门、自动门可任意设定；◆层显多样化，可实现七段码、BCD码、格雷码任意的显示，DC24V共阳极显示；◆采用大屏中文操作器，简洁方便，分级密码进行参数设置，安全可靠，还可故障记录查询等操作，便于维修与调试；◆可进行运行次数查询；◆可实现变频调速的开环控制；2、适用范围◆速度范围：双速速度最高可达0.5m/s，变频时速度最高可达到1m/s；◆适用楼层：≤8层8站；◆适用于不同变频器及不同的门机系统；◆驱动方式：双速、交流调速和变频调速；3、参照标准《GB7588-2003电梯制造与安装安全规范》4 、电源规格电压：DC24V ±1.2V 电流：4.5A轿内控制器SWD-F51发布日期：2011-5-30 16:10:53 浏览人数:8391、主要特点：◆与32位微机全串行主控制器SWD-F50、SWD-F30配套使用；◆32层以下通用，超过32层增加一块扩展板；◆贯通门任意设定；◆节能定时熄灯控制；◆满载、超载、到站钟控制等更节省随行电缆；2 参照标准《GB7588-2003电梯制造与安装安全规范》32位微机全串行电梯主控制器SWD-F50（变频）发布日期：2011-5-30 16:11:44 浏览人数:9551、主要特点：◆主控制器采用性能稳定的PHILIPS公司的32位高速ARM7 CPU，运算速度更快；◆ CAN总线串行通讯，通信方式由原来的标准RS485通信模式升级成485HVG模式，专门适用于干扰强、距离远的场合；◆线路板采用四层板SMT（表面贴装技术），外形美观质量可靠；◆独特的抗干扰设计，采用24V的通信总线大大增强了抗干扰能力，整个通信总线无需屏蔽电缆；◆操作界面为大屏液晶显示器,中文菜单式操作，简洁方便，分级密码进行参数设置，安全可靠，还可故障记录查询等操作，便于维修与调试；◆支持并联（无需增加）、群控、远程监控、智能刷卡管理功能；◆轿内指令板32层以下通用，超过32层增加一块扩展板；◆贯通门任意设定、节能定时熄灯控制，满载、超载、到站钟控制、开/关门及限位等更节省随行电缆；◆外呼指令板与层显一体化设计，采用拉幕式点阵显示，各种工作状态也可直接显示2、适用范围◆电梯集选，两台并联，三至八台群控；◆速度范围≤5m/s；◆适用楼层：最高64层；◆客梯、货梯、医用电梯、住宅梯等等；◆适用于不同变频器及不同的门机系统；◆适用于各种有齿曳引机和无齿轮永磁同步曳引机；3 参照标准《GB7588-2003电梯制造与安装安全规范》4 电源规格电压：DC24V ±1.2V 电流：4.5A(楼层≤10层)；6A（楼层＞10层）32位微机全串行电梯控制系统SWD-F30(双速、调速)发布日期：2011-5-30 16:09:20 浏览人数:8931、性能特点◆主控制器采用性能稳定的PHILIPS公司的32位高速ARM7 CPU，运算速度更快；◆ CAN总线串行通讯，通信方式由原来的标准RS485通信模式升级成485HVG模式，专门适用于干扰强、距离远的场合；◆线路板采用四层板SMT（表面贴装技术），外形美观质量可靠；◆独特的抗干扰设计，采用24V的通信总线大大增强了抗干扰能力，整个通信总线无需屏蔽电缆；◆操作界面为大屏液晶显示器,中文菜单式操作，简洁方便，分级密码进行参数设置，安全可靠，还可故障记录查询等操作，便于维修与调试；◆支持并联、远程监控、智能刷卡管理功能；◆轿内指令板32层以下通用，超过32层增加一块扩展板；◆贯通门任意设定、节能定时熄灯控制，满载、超载、到站钟控制、开/关门及限位等更节省随行电缆；◆外呼指令板与层显一体化设计，采用拉幕式点阵显示，各种工作状态也可直接显示；◆用于双速、调速电梯控制系统2 适用范围◆电梯集选，两台并联；◆速度范围≤0.63m/s；◆适用楼层：最高64层；◆适用于各种不同的门机系统；3 参照标准《GB7588-2003电梯制造与安装安全规范》4 电源规格电压：DC24V ±1.2V 电流：4.5A(楼层≤10层)；6A（楼层＞10层）产品名称规格型号单位说明主控电脑板（变频）SWD-F30块最高支持64层轿厢通讯板SWD-F51块32层站以下通用外呼通讯及显示板SWD-F52块拉幕式点阵显示外呼通讯及显示板（横显）SWD-F52A块拉幕式点阵显示群控电脑板SWD-F53块最多8台群控注：本表内容可能会随产品更新有所变更，仅供参考。

Eaton 118560Eaton Moeller® series DIL-SWD Function element, contactor, SmartWire-DT, DIL/MSCGeneral specificationsEaton Moeller® series DIL-SWD SWD contactor module118560401508116830972 mm 38 mm 45 mm 0.04 kgCSA File No.: 2324643 CSA Class No.: 3211-07 CSA-C22.2 No. 14-05 ULUL File No.: E29184 CSAIEC/EN 61131-2UL Category Control No.: NKCR CE EN 50178 IEC/EN 60947 IEC/EN 60947-4-1 UL 508Product NameCatalog Number EANProduct Length/Depth Product Height Product Width Product Weight CertificationsFieldbus connection over separate bus coupler possibleContactor actuationDisplay of Switch status Contactor, status of the digital inputs 1 and 2For connecting the contactors to SmartWire-DTOwn supplySpring clamp connection ≤ 2.8 m, Connection auxiliary contact 40 mA, SmartWire-DT network3 mA210.5 AII2SmartWire-DT slaveOther bus systemsSWD contactor modulesDC1 g, 8.4 - 150 Hz, according to IEC/EN 61131-2, Vibrations 3,5 mm, 5 - 8.4 Hz, according to IEC/EN 61131-2, Vibrations 50 mm Drop height, Drop to IEC/EN 60068-2-310.3 m -25 °C 60 °C 30 °C 70 °CFeaturesFunctionsFitted with:Electric connection type Cable lengthCurrent consumption Input current at signal 1 Number of inputs (digital) Number of outputs (digital) Output current Overvoltage category Pollution degreeProduct category ProtocolTypeVoltage typeConstant accelerationConstant amplitudeDrop and toppleHeight of fall (IEC/EN 60068-2-32) - max Ambient operating temperature - min Ambient operating temperature - max Ambient storage temperature - min Ambient storage temperature - maxAs DILM7 to DILM3815 g, Mechanical, according to IEC/EN 60068-2-27, Half-sinusoidal shock 11 ms, 9 Impacts Condensation: prevent with appropriate measures 5 - 95 % (non-condensing, IEC/EN 60068-2-30) 5 - 95 % (non-condensing, IEC/EN 60068-2-30)8 kV, according to IEC 61131-2, level 3, ESD4 kV, according to IEC/EN 61131-2, Level 2, ESD1 V/m at 2.0 - 2.7 GHz (according to IEC/EN 61131-2:2008) 10 V/m at 80 - 1000 MHz (according to IEC/EN 61131-2:2008) 3 V/m at 1.4 -2 GHz (according to IEC/EN 61131-2:2008)10 V (IEC/EN 61131-2:2008, Level 3)Class A (EN 55011)0.2 - 1.5 mm² (24 - 16 AWG), solid 0.25 - 1.5 mm², flexible with ferrule15 V DC (auxiliary contact)0 VAC0 VAC15 VDC15 VDC500 mA (for DILM 17-38)188 mA (for DILM 12-15)125 mA (for DILM 7-9)3 W for DILM 7-9 (Pick-up power)4.5 W for DILM 12-15 (Pick-up power) 4.5 W for DILM 12-15 (Sealing power) 12 W for DILM 17-38 (Pick-up power) 3 W for DILM 7-9 (Sealing power)0.5 W for DILM 17-38 (Sealing power)Address set automaticallyYesPush in terminals, Auxiliary contactSWD: Plug, 8-poleExternal device plug SWD4-8SF2-5, SmartWire-DTStatus indication of SmartWire-DT network: Green and orange LEDMounting position Shock resistance Environmental conditions Relative humidity Relative humidityAir dischargeContact discharge Electromagnetic fields Radiated RFIRadio interference class Terminal capacityRated operational voltageSupply voltage at AC, 50 Hz - min Supply voltage at AC, 50 Hz - max Supply voltage at DC - min Supply voltage at DC - maxPick-up current Power consumption Sealing current AddressingConnection to SmartWire-DT Connection typeLED indicator125 mA, SmartWire-DT network for DILM 7-921 mA, SmartWire-DT network for DILM 17-38188 mA, SmartWire-DT network for DILM 12-15SmartWire-DT slave, SmartWire-DT network2NoneNoneConnection auxiliary contact: no 0 W0 W0 AMeets the product standard's requirements.Meets the product standard's requirements.Meets the product standard's requirements.Meets the product standard's requirements.Meets the product standard's requirements.Does not apply, since the entire switchgear needs to be evaluated.Does not apply, since the entire switchgear needs to be evaluated.Meets the product standard's requirements.Does not apply, since the entire switchgear needs to be evaluated.StationNumber of auxiliary contactsExplosion safety category for dust Explosion safety category for gas Potential isolation Equipment heat dissipation, current-dependent PvidHeat dissipation capacity PdissRated operational current for specified heat dissipation (In) 10.2.2 Corrosion resistance10.2.3.1 Verification of thermal stability of enclosures10.2.3.2 Verification of resistance of insulating materials to normal heat10.2.3.3 Resist. of insul. mat. to abnormal heat/fire by internal elect. effects10.2.4 Resistance to ultra-violet (UV) radiation10.2.5 Lifting10.2.6 Mechanical impact10.2.7 Inscriptions10.3 Degree of protection of assembliesMeets the product standard's requirements.Does not apply, since the entire switchgear needs to be evaluated.Does not apply, since the entire switchgear needs to be evaluated.Is the panel builder's responsibility.Is the panel builder's responsibility.Is the panel builder's responsibility.Is the panel builder's responsibility.Is the panel builder's responsibility.The panel builder is responsible for the temperature rise calculation. Eaton will provide heat dissipation data for the devices.Is the panel builder's responsibility. The specifications for the switchgear must be observed.Is the panel builder's responsibility. The specifications for the switchgear must be observed.The device meets the requirements, provided the information in the instruction leaflet (IL) is observed.Product Range Catalog Switching and protecting motorsSwitching and protecting motors - catalogSmartWire-DT CatalogDA-DC-00004109.pdfDA-DC-00004244.pdfDA-DC-00004246.pdfDA-DC-00004108.pdfDA-DC-00003912.pdfDA-DC-00004204.pdfDA-DC-00004245.pdfDA-DC-00004880.pdfDA-DC-00004881.pdfDA-DC-00004913.pdfDA-DC-00004878.pdfDA-DC-00004910.pdfDA-DC-00004912.pdfDA-DC-00004911.pdfDA-DC-00004879.pdfDA-DC-00004937.pdfeaton-modular-plc-swd-dil-swd-function-element-dimensions-002.eps eaton-manual-motor-starters-function-dil-swd-function-element-3d-drawing.epsETN.DIL-SWD-32-001IL03402036ZWIN-WIN with push-in technologyMN05006002Z_ENMN05006001Z_EN10.4 Clearances and creepage distances10.5 Protection against electric shock10.6 Incorporation of switching devices and components 10.7 Internal electrical circuits and connections10.8 Connections for external conductors10.9.2 Power-frequency electric strength10.9.3 Impulse withstand voltage10.9.4 Testing of enclosures made of insulating material 10.10 Temperature rise10.11 Short-circuit rating10.12 Electromagnetic compatibility10.13 Mechanical function CataloguesCertification reports Declarations of conformityDrawingseCAD modelInstallation instructions Installation videos Manuals and user guides mCAD modelEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. All rights reserved. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmediaDA-CD-dil_swd_32 DA-CS-dil_swd_32。

前言感谢您选用德力西（杭州）变频器有限公司生产的CDI 9600系列小功率矢量变频器。

在使用CDI9600系列小功率矢量变频器之前,请您仔细阅读本手册，以保证正确使用。

不正确的使用可能会造成变频器运行不正常、发生故障或降低使用寿命，乃至发生人身伤害事故。

因此使用前应认真阅读本说明书，严格按说明使用。

本手册为标准附件，务必请您阅读后妥善保管，以备今后对变频器进行检修和维护时使用。

本手册除叙述操作说明外，还提供接线图供您参考。

如果您对本产品的使用存在疑难或有特殊要求，可以联系本公司各地办事处或经销商，当然您也可以直接致电我公司总部客户服务中心，我们将竭诚为您服务。

本手册包含0.75kW～5.5kW功率等级的CDI9600系列小功率矢量变频器使用说明，内容如有变动，恕不另行通知。

开箱时，请认真确认以下内容：1、产品在运输过程中是否有破损，零部件是否有损坏、脱落，主体是否有碰伤现象。

2、本机铭牌所标注的额定值是否与您的订货要求一致，箱内是否包含您订购的机器、产品合格证、用户操作手册及保修单。

本公司在产品的制造及包装出厂方面，质量保证体系严格，但若发现有某种检验遗漏，请速与本公司或您的供货商联系解决。

警告未经书面许可,不得翻印、传播或使用本手册及其相关内容，违者将对所造成的损害追究法律责任。

目录前言第一章安全运行及注意事项 (1)第二章产品信息 (3)2.1 铭牌数据及命名规则 (3)2.2 技术规范 (4)2.3 CDI9600系列小功率矢量变频器 (6)2.4 外型及安装尺寸 (7)2.5 日常使用的保养与维护 (8)第三章变频器的安装及接线 (12)3.1 变频器前盖与数字操作键盘的安装 (12)3.1.1 变频器前盖的安装 (12)3.1.2 数字操作键盘的安装 (12)3.2 安装地点及空间的选择 (13)3.3 安装地点及空间的选择 (15)3.3.1 主回路输入侧的接线注意事项 (15)3.3.2 主回路输出侧的接线注意事项 (16)3.3.3 主回路输出侧的接线注意事项 (18)3.4 控制电路的接线 (20)3.4.1控制电路端子排列及接线图 (20)3.4.2 控制电路端子的功能 (22)3.5 接地 (24)第四章键盘操作与运行 (25)4.1 操作方式的选择 (25)4.2 试运行及检查 (25)4.2.1 试运行前的注意事项及检查 (25)4.2.2 试运行 (26)4.2.3 运行时的检查 (26)4.3 键盘的操作方法 (27)4.3.1 键盘按键及功能 (27)4.3.2 键盘显示方式 (27)4.3.3 查看/设定参数的方法（用数字键盘） (29)4.3.4 键盘设定频率的方法 (30)第五章功能参数表 (31)第六章功能参数说明 (47)6.1 基本功能参数P00组 (47)6.2 辅助功能参数P01组 (64)6.3 输入输出端子与多段速运行功能P02组 (78)6.4多段速运行功能P03组 (97)6.5 其他功能参数P04组 (106)6.6 显示功能参数P05组 (110)第七章故障排除 (111)7.1 故障的诊断与排除措施 (111)7.2 报警显示和解释 (113)7.3 电机故障和排除措施 (113)附录RS-485通讯协议修正 (115)第一章 安全运行及注意事项CDI9600系列小功率矢量变频器安装、运行、维护和检查之前要认真阅读本说明书。

北京德威特电力系统自动化有限公司系统硬件系列DVP – 601微机中央信号装置使用说明书北京德威特电力系统自动化有限公司北京中关村中国科学院电工研究所科峰公寓2002.11目录1.本保护装置的适用范围 (1)2.装置的功能及特点 (1)2.1装置的主要特点 (1)2.2 装置配备的保护及保护原理 (2)3.技术数据 (3)4.结构说明 (5)4.1装置组成 (5)4.2安装与开孔 (6)5 .保护装置的原理图与装置端子接线说明 (7)5.1保护装置的原理图（直流操作） (7)5.2保护装置的原理图（交流操作） (8)5.3装置端子图及接线说明 (9)6. 数码管的六种显示及按键的使用说明 (11)6.1数码管的六种显示: (11)6.2按键使用说明: (11)6.2.1输入密码的方法: (11)6.2.2搜索的三种方法(适用于定点显示和进入定值区的显示): (11)6.3几种显示列表: (11)6.3.1正常循环显示 (11)6.3.2定点显示 (12)6.3.3 进入定值区的显示(输入密码1111) (13)6.3.4有报警或预告时的显示: (13)7.调试大纲(适用于现场调试人员及检修维护人员) (14)7.1查看、输入或修改保护定值: (14)7.2开关量(交直流通用)的检查 (14)7.3继电器的出口检查 (14)7.4模拟量输入检查及精度检查 (15)7.5保护试验 (15)7.5.1在线监测量报警逻辑试验: (15)7.5.2检查报警开关量输入回路 (16)DVP-601 微机中央信号装置说明书7.5.3检查网络或信号小母线输入回路 (16)7.5.4检查电铃或电笛的试验按钮及复归按钮 (16)8.运行人员注意事项及要求 (16)9.检修及维护: (16)DVP-601 微机中央信号装置说明书1 1.本保护装置的适用范围DVP-601微机中央信号监控装置主要用于以DVP600系列微机保护装置为基础构成的变电站综合自动化系统中，完成全站事故信号及预告信号报警输出；同时可以在线监测直流系统电压异常，直流系统接地，直流系统电压及控制回路电流；主变油温及环境温度。