西门子EIB智能控制方案

20 A4 Shutter 540E02Siemens AG540E02, 6 pagesTechnical manualAutomation and Drives GroupElectrical Installation TechnologySiemens AG 2001Update: http://www.siemens.de/installationstechnikP.O. Box 10 09 53, D-93009 Regensburg Subject to change without further noticeUse of the application programProduct family: Shutter Product type: SwitchManufacturer: SiemensName: Shutter switch N 522/01 Order no.: 5WG1 522-1AB01Functional descriptionThe shutter switch N 522/01 is used for shuttermovement and louvre adjustment, whereby only one drive mechanism may be connected per channel. This application program makes it possible to control the four channels of the shutter switch N 522/01 individually. Shutter movement and louvre adjustment functions can be carried out using both “Up/Down” switchingcommands and positioning commands (with positioning information in percentages).The position of the louvres is automatically adjusted by means of a sophisticated Astro control system which is dependent on the current angle of illumination of direct sunlight. This ensures on the one hand that directsunlight is reflected but on the other hand that as much diffuse daylight as possible is let into the room. The energy costs of lighting the room can thereby be reduced.Each channel of the actuator can be switchedindividually to manual or automatic mode via its ownobject. A further object is used to switch all four channelssimultaneously from manual to automatic mode or vice versa via a sophisticated central control system.All four channels can be triggered simultaneously via a central “Up/Down” switching command to move to the upper or lower limit position. In addition, it is possible to direct the shutters and louvres for a pair of channels (A+B or C+D) into an intermediate position using central positioning commands (0...100%).Separate objects for each channel for positioning the shutters and adjusting the louvres are available both in manual mode via an EIB shutter switch and in automatic mode via a sophisticated brightness or time control system. Manually positioning the shutters or adjusting the louvres always causes the relevant channel to switch from automatic to manual mode. When an “Up/Down” central command is received to raise or lower all the shutters, all the channels of the actuator are always switched to automatic mode first.Each channel has two status objects which can transmit the current position of a shutter and its louvres at any time as percentage values in a range of 0 – 100% (0% = shutter or louvres fully closed, 100% = shutter or louvres fully open). This can be carried out either on request or automatically once a new position has been reached.The positions of the shutter and louvres are established using the travel time of the shutter or the adjustment period of the louvres from one limit position to another. Using an automatic process, they are repeatedlycorrected or synchronised via the response of the limit switch.If required, once the shutter has moved to the lower limit position and the limit switch has been addressed, the louvres can be automatically rotated to a setintermediate position so that more daylight comes into the room.Communication objectsNote:The view of the objects can vary depending on the parameter settings.20 A4 Shutter 540E02Technical manual 540E02, 6 pagesSiemens AGAutomation and Drives Group Update: http://www.siemens.de/installationstechnik Siemens AG 2001Electrical Installation TechnologySubject to change without further noticeP.O. Box 10 09 53, D-93009 RegensburgObj Function Object name Type Flags 0 SafetySafety1 Bit CWTUThis object can be linked with a safety address e.g. from a wind, rain or ice detector. A wind detector for example sends a logic 0 in the idle state and a logic 1 in the event of a wind alarm. If the parameter “Safety” is set to “enabled”, the shutter switch moves the shutter after a wind alarm to the position that is specified in the parameter “Safety position”. The shutter is locked in this position for the duration of the wind alarm. The same occurs if the setting “enabled” has beenselected for the parameter “Monitoring time” and no telegrams have been received during the set period. In both cases, telegrams for shutter movement or louvre adjustment as well as operation of the integrated button in the actuator are ignored until a logic 0 is received for the safety object. If a safety alarm is active, there is also no automatic toggling between automatic and manual mode or vice versa which would otherwise be triggered by movement commands to the objects 1, 8, 9, 13, 14, 18, 19, 23 and 24. 1 Up / Down Shutter / roller blind central,Channel A-D1 Bit CWTUIf a telegram is received via this object, all the channels of the shutter switch are first automatically switched to “automatic mode” and then all the shutters are moved. If a logic 0 is received, the shutters are raised (opened); if a logic 1 is received, the shutters are lowered (closed). If the shutter travels to the lower limit position via this object, the louvre position specified via the parameter “Louvres adjustment after shutter down in percent” is automatically selected. 2 Off / On Manual mode / automaticmode, central1 Bit CWTUOne variable is available internally for the operating mode (manual/automatic) in the application program for each channel (4 variables in total). All the channels can toggle between the “automatic mode” and “manual mode” simultaneously via this object. Object values: 0 = manual mode 1 = automatic modeObj Function Object name Type Flags38-bit ValueShutter/roller blind position, automatic mode, A/B1 Byte CWTUThe shutters of channels A and B can be moved together to any position with this object. If one of the channels is set to manual mode, the movement command is not carried out for this channel.This object makes it possible to transfer shutter positions as EIS 6 values in a value range of 0 to 255. The following benchmark values apply: 0 invalid value (ignored) 1 (=0%) shutter raised completely 255 (=100%) shutter lowered completely As soon as the shutter reaches the position preset via this object, the louvre position that was last selected via object 4 (“Louvres position automatic mode”) is automatically restored. If the shutter is moved first to an intermediate position after mains voltage recovery, it is moved beforehand to the limit switch which is nearest to the preset shutter position. The louvres then remain fully open until a positioning command is received for louvre adjustment.If the shutter movement has finished or a limit switch haspreviously been reached, the motor is switched off. The object value of both status objects (shutter and louvres) is updated and the object value of the status objects of both channels is transmitted on the bus depending on the parameter settings. 48-bit ValueLouvres position automatic mode, Channel A/B1 Byte CWTU The louvres of channels A and B can be adjusted together into any position with this object. If one of the two channels is in manual mode, the movement command is not carried out for this channel. Slight deviations in the height of the shutter can be produced by louvre adjustment. If the current louvre position is invalid, the louvres are not adjusted. The louvre position becomes valid by moving the shutter to one of the limit switches.This object makes it possible to transfer louvre positions as EIS 6 values in a value range of 0 to 255. The following benchmark values apply: 0 invalid value (ignored) 1 (=0%) louvres fully opened 255 (=100%) louvres fully closedAs soon as the louvre adjustment has finished or a limit switch has been addressed, the motor is switched off. The object value of both status objects (shutter and louvres) is updated and the object value of the status objects of both channels is transmitted on the bus, depending on the parameter settings.20 A4 Shutter 540E02Siemens AG540E02, 6 pagesTechnical manualAutomation and Drives GroupElectrical Installation TechnologySiemens AG 2001Update: http://www.siemens.de/installationstechnikP.O. Box 10 09 53, D-93009 Regensburg Subject to change without further noticeObj Function Object name Type Flags58-bit ValueShutter/roller blind position, automatic mode, C/D1 Byte CWTU The shutters of channels C and D can be moved together to any position with this object. If one of the channels is set to manual mode, the movement command is not carried out for this channel.This object makes it possible to transfer shutter positions as EIS 6 values in a value range of 0 to 255. The following benchmark values apply: 0 invalid value (ignored) 1 (=0%) shutter raised completely 255 (=100%) shutter lowered completely As soon as the shutter reaches the position preset via this object, the louvre position that was last selected via object 4 (“Louvres position automatic mode”) is automatically restored. If the shutter is moved first to an intermediate position after mains voltage recovery, it is moved beforehand to the limit switch which is nearest to the preset shutter position. The louvres then remain fully open until a positioning command is received for louvre adjustment.If the shutter movement has finished or a limit switch haspreviously been reached, the motor is switched off. The object value of both status objects (shutter and louvres) is updated and the object value of the status objects of both channels is transmitted on the bus depending on the parameter settings. 68-bit ValueLouvres position automatic mode, Channel C/D1 Byte CWTU The louvres of channels C and D can be adjusted together into any position with this object. If one of the two channels is in manual mode, the movement command is not carried out for this channel. Slight deviations in the height of the shutter can be produced by louvre adjustment. If the current louvre position is invalid, the louvres are not adjusted. The louvre position becomes valid by moving the shutter to one of the limit switches.This object makes it possible to transfer louvre positions as EIS 6 values in a value range of 0 to 255. The following benchmark values apply: 0 invalid value (ignored) 1 (=0%) louvres fully opened 255 (=100%) louvres fully closedAs soon as the louvre adjustment has finished or a limit switch has been addressed, the motor is switched off. The object value of both status objects (shutter and louvres) is updated and the object value of the status objects of both channels is transmitted on the bus, depending on the parameter settings.Obj Function Object name Type Flags 7, 12, 17, 22Off / On Manual mode / automatic mode, Channel A (7), B (12), C (17), D (22)1 Bit CRWTU One variable is available internally for the operating mode (manual/automatic) in the application program for each channel (4 variables in total). All the channels can toggle between the “automatic mode” and “manual mode”simultaneously via this object. The object value of these objects is updated by changing the operating mode of the channel (automatic or manual mode) and can be read out via the bus.Object values: 0 = manual mode 1 = automatic mode 8, 13,18,23Up / Down Shutter manual mode, Channel A (8),B (13),C (18),D (23)1 Bit CWTU With this object, the shutter movement Up/Down (EIS 7) is initiated for the respective channel. If a telegram with this object is received, the operating state of the channel is first switched to manual mode.The shutter is raised on receipt of a logic “0” and lowered on receipt of a logic “1”. If the shutter travels to the lower limit position (Down) via this object, the louvre position specified via the parameter “Louvres adjustment after shutter down in percent” is automatically selected.9, 14,19,24 Open / Closed Louvres manual mode, Channel A (8), B (14), C (19),D (24)1 Bit CWTU This EIS7 object is used for louvre adjustment for the corresponding channel or for stopping a shutter while it is moving. If a telegram with this object is received, theoperating state of the respective channel is first switched to manual mode.The percentage value selected in the parameter “Louvre adjustment per step in percent” is converted internally together with the total travel time of the louvres into anadjustment time. During louvre adjustment, the drive motor of the shutter is always controlled according to the length of the adjustment time i.e. a louvre adjustment can if necessary lead to a reduction in shutter movement if the louvre adjustment range is exceeded.As soon as the louvre adjustment has finished or a limit switch has been addressed, the motor is switched off. The object value of both status objects (shutter and louvres) is updated and the object value of the status objects of both channels is transmitted on the bus, depending on the parameter settings.The shutter movement can also be stopped by the STEP command for louvre adjustment in accordance with EIS 7. The object value of both status objects is likewise updated by this STEP command and the object value of the statusobjects of both channels is transmitted on the bus, depending on the parameter settings.20 A4 Shutter 540E02Technical manual 540E02, 6 pagesSiemens AGAutomation and Drives Group Update: http://www.siemens.de/installationstechnik Siemens AG 2001Electrical Installation TechnologySubject to change without further noticeP.O. Box 10 09 53, D-93009 RegensburgObj Function Object name TypeFlags10, 15, 20, 258-bit Value Statusshutter position, Channel A (10), B (15), C (20), D (25)1 Byte CRTU The status of the shutter position of the correspondingchannel can be sent or queried via the group address that is linked to this object.The following benchmark values apply: 0 unknown shutter position 1 (=0%) shutter raised completely (open) 255 (=100%) shutter lowered completely (closed) An unknown shutter position occurs after a mains voltage recovery. The shutter position becomes valid by moving the shutter to one of the limit positions.11, 16, 21, 268-bit Value Statuslouvres position, Channel A (11), B (16),C (21), D (26)1 Byte CWTU The status of the louvre position of the corresponding channel can be sent or queried via the group address that is linked to this object.The following benchmark values apply: 0 unknown louvre position 1 (=0%) louvres fully opened 255 (=100%) louvres fully closedAn unknown louvre position occurs after a mains voltage recovery. The louvre position becomes valid by moving theshutter to one of the limit positions.Maximum number of group addresses: 40 Maximum number of associations:65ParametersGeneralNote:The settings printed in bold type correspond to the factory settings (default values).Parameters SettingsOperating modeManual and automatic mode Manual modeIt is set via this parameter whether the actuator manages the manual and automatic operating modes or is only controlled in manual mode (if manual mode is selected, the communication objects that are required for automatic mode are not displayed).ParametersSettingsSend status objectsusing read request only on change in statusVia this parameter, it can be set whether the status objects for the shutter and louvre position of all the channels can only be read out (using read request only) or the corresponding value is sent automatically when a new position is reached (on change in status). If “on change in status” is selected, the additional parameter “Send status objects at bus voltage recovery or supply voltage recovery” is displayed.Channel A (B, C, D)Parameters Settings FunctionShutter Roller blindThis parameter determines whether a shutter or roller blind drive mechanism is connected to the channel. If a roller blind drive is connected, the communication objects that are not required are greyed out. It is also ensured that a multiple transmission of stop commands is ignored and does not lead to a step-by-step adjustment of the roller blind. Factor for shutter movement time (600-60000, Base: 0.02 s)600...60000 (3000) (=12 sec....20 min.; 60 s ) This parameter determines the total time required by the shutter to travel from the upper to the lower limit switch. This travel time serves as a basis for determining the position of the shutter and for travelling to intermediate positions. It should therefore be entered as accurately as possible as a multiple of 0.02 s.Factor for louvresmovement time from open to close(1-255, Base: 0.02 s)1...255 (100) (0.02 s...5.1 s; 2 s ) This parameter determines the travel time required by the louvres to move from the closed position (vertical louvres) to the open position (horizontal louvres). This travel time serves as a basis for determining the position of the louvres and for travelling to intermediate positions. It should therefore be entered as accurately as possible as a multiple of 0.02 s.20 A4 Shutter 540E02Siemens AG540E02, 6 pagesTechnical manualAutomation and Drives GroupElectrical Installation TechnologySiemens AG 2001Update: http://www.siemens.de/installationstechnikP.O. Box 10 09 53, D-93009 Regensburg Subject to change without further noticeParametersSettings Factor for louvres movement total time (1-255, Base: 0.02 s)1...255 (100) (0.02 s...5.1 s; 2 s ) It is a prerequisite that the shutter is lowered with closed louvres and raised with opened louvres. It can be set via this parameter the travel time required by the louvres to move from the closed position to the position in which the transition from louvre position to shutter movement begins. This parameter is particularly necessary for shutters which adjust the louvres horizontally before moving upwards.This travel time serves as a basis for determining the position of the louvres and for travelling to intermediate positions. It should therefore be entered as accurately as possible as a multiple of 0.02 s. If the shutter is raised with the louvres in a horizontal position, the time set in this parameter must be identical to the setting for “Factor for louvres movement from open to close”.Louvres adjustment per step in percent (5-100):5...100 (20) The selected percentage value is converted together with the “Factor for louvres movement from open to close)” into an adjustment time per step. In the event of a louvre adjustment command (STEP command), the drive motor of the shutter is controlled according to the adjustment time per step. If the louvre end position has already been reached, a further STEP command leads to the shutter travelling a short distance in the same direction of adjustment. Louvres adjustment after shutter down in percent (0-100):0...100 (50) Once the shutter has travelled to the lower limit position via one of the objects 1, 8, 13, 18, 23, the louvres are adjusted from their vertical position to one defined via this parameter. 0% = louvres fully opened 100% = louvres fully closed Pause on change in direction 0.6 seconds 0.9 seconds1.2 secondsThe pause between changes in direction of a drive is set in this parameter.Behaviour on bus voltage failure no action move upwardsmove downwardsThis parameter determines which limit position the shutter should move to in the event of a failure in bus communication (e.g. due to a failure of the bus voltage) or whether it should maintain its current position. Behaviour on supply volt. recovery without bus voltage recovery or -failure no action move upwards move downwardsThis parameter determines whether the shutter should be raised or lowered on mains voltage recovery.See channel A for descriptions of the parameters and default settings for channels B, C and D.SafetyMonitoring timedisabled enabledThis parameter determines whether the safety object should monitor the cyclical receipt of telegrams.If “enabled” is selected, the additional parameter “Monitoring time” is displayed. Monitoring time 1 minutes5 minutes 10 minutes 30 minutes If the parameter “Monitoring time” is set to “enabled”, it is possible to select in this parameter the maximum time period for receiving telegrams with a logic “0” via the safety object. Safety (Wind alarm) disabledenabledIt can be set via this parameter whether the safety object and the safety function are enabled for this channel. Safety position topbottomThis parameter determines the limit position of the shutter in the event of a safety alarm.20 A4 Shutter 540E02Space for notesTechnical manual 540E02, 6 pages Siemens AGAutomation and Drives Group Update: http://www.siemens.de/installationstechnik Siemens AG 2001 Electrical Installation TechnologySubject to change without further notice P.O. Box 10 09 53, D-93009 Regensburg。

EIB简介一、EIB系统的由来20世纪80年代中期，随着计算机技术和通讯技术的迅速发展，工业自动控制领域对现场底层设备之间的通讯和控制提出了越来越高的要求，促使了现场总线技术的诞生。

比较有代表性的有Profibus 、FF、CAN、HART 等，它们在全世界得到了广泛的应用。

相对于对实时性、精确性及通讯效率等要求极高的工业自动化领域而言，建筑自动化领域的要求相对要低一些，从经济成本角度考虑，上面那些造价昂贵的现场总线技术也并不非常适合于建筑领域。

但是作为建筑本身的发展而言，随着用户对建筑提出的功能要求越来越高，满足这些功能而使用的现代化技术也日益复杂，在所谓的智能建筑中就集成了现代的通讯技术、微电子技术等多项尖端技术。

这些技术的应用，不仅给建筑带来了较重的建设成本压力，其运行和维护的管理成本也越来越高，正是建筑对安全性、经济性、舒适性、应变性等各方面的不断提高的要求成为建筑领域的现场总线技术标准――欧洲安装总线（European Installation Bus）技术产生和发展的基础。

1990年，由SIEMENS牵头，联合其它六家德国著名的电气产品制造商组成联盟，制定了EIB技术标准并成立了中立的非商业性组织EIBA（EIB Associate，欧洲安装总线协会）。

EIBA协会的成立极大的推动了EIB标准的发展，迄今为止，已有一百多家制造厂上成为了EIBA的会员，按照开放的EIB标准生产能够相互兼容和交互操作的各种元器件，各类产品品种多达4000多种，几乎覆盖了建筑中各个行业和各种用途的需要。

经过十多年的发展，EIB不仅成为事实上的欧洲标准，也被成功地引入世界各地。

2001年，EIB技术开始被引入中国，在短短的两年多时间内，以其优越的性能和质量获得了很大的成功。

二、EIB系统基本原理EIB技术对传统电气安装技术而言是一次突破性的革命，它具有现场总线技术的核心优点如全分散控制；设计/安装/维护方便等，是当今建筑技术领域非常优秀的现场总线标准。

内容：z KNX/EIB 楼宇智能控制系统概述 z 应用与比较优势 z 项目结构与分析 z 数据传输基础 z 总线设备与选型 z 总线安装技术z 使用工程工具软件(ETS3)实现项目设计z 使用工程工具软件(ETS3)实现项目调试与诊断 z 项目数据的备份z 线路耦合器的安装与调试 z简单场景控制器的安装与调试本课程讲授KNX/EIB 总线安装技术的数据传输基础、项目结构、总线设备、系统安装以及如何使用工程工具软件(ETS3)进行系统调试与诊断。

本课程还包括KNX/EIB 理论和实践测试， 测试及格者将被颁发KNX 协会课程证书 建筑电气安装技术的基本概念建筑电气设计、系统集成、安装与维护人员 3750元/人 课程价格 E1001 描述/目的：必备条件： 培训对象： 课程代号 Instabus KNX/EIB 楼宇智能控制系统基础课程（KNX 协会授权）西门子工业自动化与驱动技术培训英文教材语言5 天培训天数English西门子工业自动化与驱动技术培训课程计划时间和地点：培训中心 一月 二月 三月 四月 五月 六月2010上半年上海 03.01 - 03.05 06.28 - 07.02培训中心 七月 八月 九月 十月 十一月 十二月2010下半年上海 08.30 - 09.03 11.22 - 11.26Siemens Industry Automation& Drives Technologies Training中文Instabus KNX/EIB Combined CourseCode RMB 3750/PersonE1001PriceDuration 5 days Textbook Language English Participants:Operators, designers, service engineersPrerequisites:Basic knowledge of building systemEngineering experience in handling PC application programs and theWindows operating systemDescription/Objectives:z The participants should learn how to recognize the advantage of thesystem compared to traditional installation techniquesz Master the main application and devices of the EIB busz Make an optimum choice of devices as regards their functionality andinter workingz Configure the bus according to the requirements of the installationz Handle the ETS planning softwarez Carry out the installationz Carry out commissioning and serviceContents:z EIB, EIBAz Examples and application and advantages of the bus systemz EIB technology, topology, hierarchy and addressing, telegrams,system functionalityz Devices and componentsz Planning, installation, commissioning, diagnosis and service ofsample installations using the ETS softwareSiemens Industry Automation& Drives Technologies Training Location and Schedule:Training Center January February March April May JuneThe firsthalf yearof 2010Shanghai 03.01 - 03.05 06.28 - 07.02Training Center July August SeptemberOctober November DecemberThesecondhalf yearof 2010 Shanghai 08.30 - 09.03 11.22 - 11.26。

EIB控制系统能实现什么功能可能各位对于EIB控制系统不大熟悉，其实EIB控制系统是类似国外引进的i——bus 系统，代表厂家有ABB，西门子等，其具有分布性，开放性，互操作性和灵活性的特点。

那么，EIB控制系统能实现什么功能呢？一、什么是EIB控制系统1990年5月8日，由110多个欧洲电气制造商联合成立了European Installation Bus Association，总部设于比利时的布鲁塞尔，并制订了欧洲安装总线规范European Installation Bus。

EIBA会员占据了欧洲楼宇、家庭自动化设备销售额的80%。

自EIB于1992年第一次出现在德国汉诺威交易会以来，一场翻天覆地的电气安装革命已经悄悄地开始了。

据统计，在德国的商业功能建筑和大型超市中，大约30%的楼宇都不同程度地安装了EIB 系统，而在计划建造的楼宇中，这一比例则达到了60%。

EIB系统在欧洲被称为European Installation Bus，即欧洲安装总线。

在亚洲则是指Electrical Installation Bus，即电器安装总线。

鉴于其优秀表现，该协议已被美国消费电子制造商协会（CEMA）吸收作为家庭网络EIA-776标准。

经过十多年的发展，EIB不仅成为事实上的欧洲规范，并在2000年在IEC国际现场总线标准大会上提名为国际标准之一。

EIB最大的特点是通过单一多芯电缆替代了传统分离的控制电缆和电力电缆，并确保各开关可以互传控制指令，因此总线电缆可以以线型、树型或星型铺设，方便扩容与改装。

元件的智能化使其可以通过编程来改变功能，既可独立完成诸如开关、控制、监视等工作，也可根据要求进行不同的组合。

与传统安装方式比较，EIB不增加元件数量而实现了功能倍增，从而具有了高度的灵活性。

它的开放性更使得不同公司基于EIB协议开发的电气设备可以完全兼容，并为后续公司进入EIB市场提供可能。

EIB系统既是一个面向使用者、体现个性的系统又是一个面向管理者的系统，使用者可根据个人的喜好任意修改系统的功能，达到自己所需要的效果，并可通过操作探测器（如按钮开关等）来控制系统的动作；另一方面，EIB系统还提供基于Windows的软件平台，管理者（如小区物业中心、大楼管理中心、车库管理处等）将安装此套软件的计算机连接至EIB系统即可对EIB系统进行控制并进行管理，从而达到集中管理的功能。

希思罗（Heathrow）国际机场数字照明设计方案英国希思罗（Heathrow）国际机场，是世界最大的机场之一。

其T5航站楼工程总投资金额42亿英磅，是现今英国最大的基础建筑项目，主体包括一座核心候机楼与两个用高速链路相连接的卫星楼。

航站楼的主候机楼，两个卫星楼，公共通道、电梯前室以及交通中心候车、停车、公共卫生间等公共部位照明以及广告、标识装饰等照明，均采用西门子instabus KNX/EIB系统实现照明控制。

系统简介1.西门子instabus KNX/EIB系统KNX是一个分布式现场总线标准，其拓扑结构包括：线路（Line）、区域（Area）以及系统（System）。

线路（Line）是最小的组成单元，每条线路最多64个设备,每个区域（Area）最多15条线路,而每个系统最多15个区域。

随着网络技术和局域网（LAN）的普及，KNX标准中提出了EIBnet/IP的概念，通过EIBnet/IP协议，KNX总线可以直接与TCP/IP系统连接，总线信号可以在高速以太网上传输。

EIBnet/IP协议的出现，使得系统的扩展不再受传输距离的影响，而数据的传输量和传输速度也不再成为KNX系统的问题。

西门子instabus KNX/EIB系统是基于KNX标准的全分布总线系统，最大的优点在于其控制的灵活、功能的强大及系统的可塑性。

选择不同的模块化设备，通过积木式的不同组合就可以实现各种功能控制，同时挂在总线上的设备运行相互独立，系统的改造和扩展就变得非常容易了。

2.DALI数字可寻址灯光接口现代建筑照明中，荧光灯的使用相当普及。

随着人们对光环境要求的提高，荧光灯的控制也从简单的开关发展到亮度的调节，而荧光灯调光控制方法又取决于电子镇流器技术。

于是从1984年Philips首先推出第一个商业系列电子镇流器以来，电子镇流器的技术获得了飞速的发展。

从1-10V模拟量接口电子镇流器，到数字信号接口（DSI）电子镇流器，以及最新的DALI数字式可寻址灯光接口镇流器，荧光灯的调光方式已完成了模拟量控制向数字化控制的飞跃。