自营1756-L72工控模块备件AB

易卖工控网（www.ymgk.com）提供”1756-L72工控模块备件AB”，产品详情：品牌/厂家：AB、型号：1756-L72、成色：全新、货期：现货 1天内发货、保修：180天，更多产品详情就上易卖工控网。

1756-L72工控模块备件AB传动系统和PLC间通信采用FL-NET总线,光纤连接，变频器与HUB之间，以太网通讯。结构见图7
EN：Ethernet接口模板 I/O：输入输出模板 EGD: Ethernet Global dataL-NET：FL-NET模板 Switch：开关
PLC系统配置了0块FL612接口模块和0块EGD模块，与各变频器进行数据交换。各变频器地址均在EGD中配置，传动与PLC及传动与传动之间数据交换都是通过EGD来完成。IS220UCSAH1A使用的是QNX操作系统。

它有0个667兆赫的飞思卡尔8349处理器。

该板由12瓦、18-36 V直流电源供电。

IS220UCSAH1A的前面板包括六个母插孔连接器、0个USB端口和各种LED指示灯。

即使在其0大额定温度下，该板也可以在0到65摄氏度的温度范围内工作，并且不需要风扇来冷却。

它包含位于前面板左侧的Link/Act LED指示灯，以及位于面板中央的0排指示灯，分别标有“电源”、“启动”、“在线”、“闪光”、“DC”和“诊断”。

以太网连接通过插孔连接器实现，允许电路板与其他Mark VI、Mark VIe或EX2100励磁控制器以及维护和操作员站接口。ABB推出两款0新的机器人控制器OmniCore? E10和V250XT，以扩展其OmniCore?控制器系列，服务更广泛的制造应用

速度更快、柔性更高，助力客户持续提高生产效率，以响应不断变化的市场需求

新款控制器支持1000余种软硬件功能扩展，满足客户不同需求

为了满足更快、更高效的生产需求，ABB OmniCore?控制器系列推出了0新E10和V250XT控制器。两款控制器可与ABB多种型号机器人配合使用，提供业界0先的运动控制功能，节省高达20%的能源，并通过内置数字化连接和1000多种可扩展功能来满足未来不断变化的需求。E10和V250XT控制器的推出将为电子装配、汽车、物流、通用工业等行业客户带来更强大的机器人控制体验。

今天，各个行业对快速、多样化生产的需求不断增长，同时要求我们对飞速变化的市场状况作出更快速的响应，以提供更快速、准确、灵活的解决方案。作为ABB OmniCore?控制器家族的新成员，E10和V250XT为制造商提供了更多的可能性，使他们能够0大限度地缩短停机时间，提高生产效率，以满足日益变化的需求。

——Antti Matinlauri ABB机器人0球产品管理负责人

两款0新的控制器均支持1000余种硬件和软件功能扩展，涉及编程、离线调试和模拟、维护、视觉和安0等0域。此外，通过连接云端ABB Ability?互联服务，控制器强化了预防性维护和生命周期管理功能，从而进0步提升了机器人性能。

ABB还为OmniCore?控制器设计了物联网网关开放式自动化软件。物联网网关技术实现了数据从工厂车间、机器到机器（M2M）、机器人到其他机器，以及机器人到传感器、到MES/ERP系统或云端的无缝传输，使真正的联合生产成为可能。

此外，两款控制器都支持ABB的TrueMove和QuickMove运动控制技术应用，从而能够提供行业0先的速度、节拍时间、重复定位精度和路径精度。这使得ABB机器人比其他同级别机器人运行速度更快。相较上0代ABB机器人产品，采用新款控制器的机器人速度将提升25%。

E10采用超薄的19英寸机架式设计，适用于狭窄空间和高密度生产线，如电子行业的小件装配和物料搬运等要求布局紧凑的应用。E10控制器可应用于ABB SCARA机器人（如IRB 920T）和负载达11kg的多关节机器人（如IRB 1300）。

OmniCore? V250XT控制器可应用于负载直至300kg的多关节机器人（如IRB 6700），为电动汽车生产、汽车制造、物流和通用工业等众多应用提供多样和强大的支持。

OmniCore? E10和V250XT控制器采用了节能的能量回馈技术和制动能量回收技术，与ABB之前的IRC5控制器相比，能耗降低20%，可以帮助制造商减少能源消耗、降低能源成本。

新款控制器均可与ABB示教器配套使用。超大8英寸多点触控显示屏支持标准手势操作，如轻触、滑动和点击，简化了机器人编程。ABB示教器支持"热插拔"式连接方式，可在不中断操作的情况下拔掉插头或重新连接使用，从而供多台机器人共享，不仅提升了机器人部署效率还能0大限度降低成本。

E10和V250XT控制器的推出为ABB OmniCore?控制器家族翻开了0新篇章，目前OmniCore?控制器系列可与14款机器人搭配使用，为机器人提供更加强大的动力和柔性。所有OmniCore?控制器都基于ABB行业0先的RobotWare操作系统开发，未来将进0步扩展到ABB其他机器人型号中，更多应用将在2022年陆续推出。


FL-NET网络以Ethernet为物理层，采用总线拓扑结构，是日本采纳的0种PLC网络标准，其协议栈高层为UDP/IP+ UDP/IP+独自循环通信协议，以保证通信的实时性。

PLC系统与传动系统间数据交换基于EGD(Ethernet Global Data)以太网0局数据处理通信，EGD协议是美国GE自动化公司基于以太网技术的数据交换协议，它以数据报文形式在0个发送者和多个发送者之间实现100Mbps数据高速传送，遵循UDP/IP独自循环通信协议。数据发送时间间隔短，安0性强，不易丢失，各站为双向角色，既是服务器也是客户端。

3. 系统调试

从图5中可以看出，这是0个典型的双闭环控制系统，TMd-10e2提供了多种调试手段，从静态的电机自测试到负荷调试，其目的都是为了确保系统的稳定和快速响应。

3.1 系统转矩优化测试Fully meet the requirements of real-time acquisition and control.



Other PLC fixed communication data storage addresses are inconvenient for application. S7-1200 can define different data addresses for different sub stations.



Some PLC communication instruction packages such as Omron or delta fix the data read by each communication in a specific register. When you want to use it, you can "transfer" it out of this register for use. This always means that when PLC reads different data of the same equipment or different equipment, you must "plan" to "move" the data you need from the public fixed data register "accurately" and "timely" according to different times, otherwise the public fixed data register may be replaced by "new" data refresh, resulting in data confusion. To complete these tasks, you must have good programming habits and write a lot of programs for timing processing. If the amount of data is large, it is definitely a test for an engineer.



S7-1200 is much more flexible in this regard. You can put the data you read into any defined data background data block, which is very easy and simple. 0近新能源汽车和锂电池生产线的话题非常火爆，国内锂电大厂宁德时代加速布局海外市场，0近宣布了计划投资73.4亿欧元（相当于500亿人民币），在匈牙利建设第二座欧洲工厂，生产新能源锂电池，以供应欧洲市场的新能源汽车。之前也有消息说，宁德时代计划投资50亿美元在北美建厂，因为各种敏感性问题，北美计划暂时被搁置。0对值编码器在新建生产线上可以起到什么作用？

      据了解宁德时代公司目前在0球有十大生产基地，早在2018年宁德时代就宣布第0家海外工厂设立在德国图林根州，但是目前来看德国工厂的反馈意见，就是成本太高和建设周期太长，考虑到目前的国际形势，海外建设周期过长可能到投产时就已经减弱了市场竞争力。

      所以无论是匈牙利建厂还是计划北美建厂，甚至在国内建新厂，因疫情和进口涨价的因素，新建生产线都面临着同样问题：

出差要少，调试周期要短，0次通过率要高，使用维护要简单方便，要快速出产能。 针对客户这样的诉求，就有对生产线上自动化设备和器件“性价比”的重新思考，性价比与可靠性的关系在海外的本地化生产需考虑到工人培训、效率、生产线维护对成本的影响。



      0近小米的雷军在演讲中也有相似的表述，其实产品技术先进性，也是要为提高产品性价比服务的。客户既有对技术先进性的追求，可持续发展，又有对于生产线投入产出成本及今后使用成本的考量。面对太新的技术，却感觉成本太高；面对0些把便宜就当作性价比的产品，对于其稳定性可靠性又难以信任。在“先进技术”与“性价比”这两者之间如何做出选择？

可见“技术为本，性价比为纲”已是科技大佬们共同思考的问题。   无论是海外建厂还是国内新建生产线，生产线上设备如何考虑性价比和可靠性?中国制造的自动化设备在海外的生产线上能占多少比重?如何降低采用进口器件受涨价因素和货期因素的影响?上海精浦编码器已有多年随着设备出口欧洲的经验，也有国内参与自动化生产线建设应用的经验，那么我们的0对值编码器在生产线上起什么样的作用呢?
0对值编码器的加入，就可以帮助客户减少对于“可靠性”与“使用成本”的担忧。

首先就从我们编码器的角度来讲，新建生产线至少有这么几点是需要考虑的：
第0点、性价比
FL-NET bus, optical fiber connection, Ethernet communication between frequency converter and HUB are used for communication between the drive system and PLC. The structure is shown in Figure 7.



EN: Ethernet Interface Template I/O: Input/Output Template EGD: Ethernet Global data



FL-NET: FL-NET templateSwitch: switch



The PLC system is configured with a FL612 interface module and an EGD module for data exchange with each frequency converter. Each frequency converter address is configured in EGD, and the data exchange between transmission and PLC and between transmission and transmission is completed through EGD. IS220UCSAH1A uses the QNX operating system.



It has a 667 MHz Freescale 8349 processor.



The board is powered by a 12 watt, 18-36 V DC power supply.



The front panel of IS220UCSAH1A includes six female connectors, a USB port and various LED indicators.



Even at its maximum rated temperature, the board can work in the temperature range of 0 to 65 degrees Celsius, and does not need a fan to cool it.



It contains the Link/Act LED indicator located on the left side of the front panel, and a row of indicators located in the center of the panel, labeled "Power", "Start", "Online", "Flash", "DC", and "Diagnostics".



Ethernet connection is realized through jack connector, allowing the circuit board to interface with other Mark VI, Mark VIe or EX2100 excitation controllers and maintenance and operator stations. ABB launched two new robot controllers, OmniCore? E10 and V250XT to extend their OmniCore? Controller series, serving a wider range of manufacturing applications



Faster and more flexible, helping customers continuously improve production efficiency to respond to changing market demands



The new controller supports more than 1000 kinds of software and hardware function expansion to meet different customer needs



To meet faster and more efficient production requirements, ABB OmniCore? The controller family introduced the new E10 and V250XT controllers. The two controllers can be used together with various types of ABB robots to provide industry-leading motion control functions, save up to 20% of energy, and meet the changing needs of the future through built-in digital connections and more than 1000 expandable functions. The introduction of E10 and V250XT controllers will bring more powerful robot control experience to customers in electronic assembly, automobile, logistics, general industry and other industries.



Today, the demand for rapid and diversified production in various industries is growing, and at the same time, we are required to respond more quickly to the rapidly changing market conditions to provide faster, more accurate and more flexible solutions. As ABB OmniCore? The new members of the controller family, E10 and V250XT, provide more possibilities for manufacturers to minimize downtime and improve productivity to meet changing needs.



——Antti Matinlauri Head of Global Product Management for ABB Robotics



Both new controllers support more than 1000 kinds of hardware and software function expansion, involving programming, offline debugging and simulation, maintenance, vision, security and other fields. In addition, by connecting the cloud ABB Ability? Interconnection service, the controller strengthens the preventive maintenance and lifecycle management functions, thus further improving the robot performance.



ABB also offers OmniCore? The controller has designed the open automation software of the Internet of Things gateway. The IoT gateway technology realizes the seamless transmission of data from factory workshops, machines to machines (M2M), robots to other machines, robots to sensors, MES/ERP systems or the cloud, making true joint production possible.



In addition, both controllers support ABB's TrueMove and QuickMove motion control technology applications, which can provide industry-leading speed, beat time, repetitive positioning accuracy and path accuracy. This makes ABB robots run faster than other robots of the same level. Compared with the previous generation of ABB robot products, the robot speed using the new controller will increase by 25%.



The E10 adopts an ultra-thin 19 inch rack design, which is suitable for narrow space and high-density production lines, such as small parts assembly and material handling in the electronic industry, which require compact layout. The E10 controller can be applied to ABB SCARA robots (such as IRB 920T) and multi joint robots with a load up to 11kg (such as IRB 1300).



OmniCore? The V250XT controller can be applied to multi joint robots with loads up to 300kg (such as IRB 6700), providing diversified and powerful support for many applications such as electric vehicle production, automobile manufacturing, logistics and general industry.



OmniCore? E10 and V250XT controllers adopt energy-saving energy feedback technology and braking energy recovery technology. Compared with the IRC5 controller before ABB, the energy consumption is reduced by 20%, which can help manufacturers reduce energy consumption and energy cost.



The new controller can be used together with ABB teaching pendant. The large 8-inch multi touch display supports standard gesture operations such as tapping, sliding and clicking, simplifying robot programming. ABB teaching pendant supports the "hot plug" connection mode, which can be used to unplug or reconnect without interrupting the operation, so that it can be shared by multiple robots, which not only improves the robot deployment efficiency but also minimizes the cost.



The introduction of E10 and V250XT controllers is ABB OmniCore? The controller family has opened a new chapter. At present, OmniCore? The controller series can be used with 14 robots to provide more powerful power and flexibility for robots. All OmniCore? The controllers are developed based on ABB's industry-leading RobotWare operating system and will be further extended to other ABB robot models in the future. More applications will be introduced in 2022.




FL-NET network takes Ethernet as the physical layer and adopts bus topology structure. It is a PLC network standard adopted by Japan. Its protocol stack layer is UDP/IP+UDP/IP+independent circular communication protocol to ensure real-time communication.



The data exchange between PLC system and transmission system is based on EGD (Ethernet Global Data) Ethernet global data processing communication. EGD protocol is a data exchange protocol based on Ethernet technology of GE Automation Company in the United States. It realizes high-speed transmission of 100Mbps data between one sender and multiple senders in the form of data message, and follows UDP/IP independent circular communication protocol. The data transmission interval is short, the security is strong, and it is not easy to lose. Each station has a two-way role, which is both a server and a client.



3. System commissioning



It can be seen from Figure 5 that this is a typical double closed loop control system. TMd-10e2 provides a variety of debugging methods, from static motor self-test to load debugging, to ensure the stability and rapid response of the system.



3.1 Fully meet the requirements of real-time acquisition and control





Other PLC fixed communication data storage addresses are inconvenient for application. S7-1200 can define different data addresses for different sub stations.





Some PLC communication instruction packages such as Omron or delta fix the data read by each communication in a specific register. When you want to use it, you can "transfer" it out of this register for use. This always means that when PLC reads different data of the same equipment or different equipment, you must "plan" to "move" the data you need from the public fixed data register "accurately" and "timely" according to different times, otherwise the public fixed data register may be replaced by "new" data refresh, resulting in data confusion. To complete these tasks, you must have good programming habits and write a lot of programs for timing processing. If the amount of data is large, it is definitely a test for an engineer.





S7-1200 is much more flexible in this regard. You can put the data you read into any defined data background data block, which is very easy and simple. Recently, the topic of new energy vehicles and lithium battery production lines is very hot. The domestic lithium power plant Ningde Times has accelerated its layout in the overseas market. Recently, it announced that it plans to invest 7.34 billion euros (equivalent to 50 billion yuan) to build a second European factory in Hungary to produce new energy lithium batteries to supply new energy vehicles in the European market. It was also reported that Ningde Times planned to invest US $5 billion to build a factory in North America. Because of various sensitive issues, the North American plan was temporarily shelved. What role can the absolute encoder play in the new production line?



It is understood that Ningde Times has ten major production bases in the world at present. As early as 2018, Ningde Times announced that its first overseas factory was set up in Thuringia, Germany. However, the feedback from the German factory is that the cost is too high and the construction period is too long. Considering the current international situation, the long overseas construction period may have weakened the market competitiveness when it is put into production.



Therefore, whether it is to build a factory in Hungary, or plan to build a factory in North America, or even to build a new factory in China, due to the epidemic situation and the increase in import prices, the new production line faces the same problem:



Less business trips, short debugging cycle, high one-time pass rate, simple and convenient use and maintenance, and rapid production. In response to customers' demands, there is a reconsideration of the "cost performance" of automation equipment and devices on the production line. The relationship between cost performance and reliability in overseas localization production needs to take into account the impact of worker training, efficiency, and production line maintenance on costs.





Recently, Lei Jun of Xiaomi made a similar statement in his speech. In fact, the advanced technology of the product is also intended to improve the cost performance of the product. Customers not only pursue technological advancement and sustainable development, but also consider the input-output cost and future use cost of the production line. Facing too new technology, I feel the cost is too high; It is difficult to trust the stability and reliability of some products that regard cheap as cost-effective. How to choose between "advanced technology" and "cost performance"?



It can be seen that "technology based, cost-effective" has been the common thinking of technology leaders. Whether it is an overseas factory or a domestic production line, how to consider the cost performance and reliability of the equipment on the production line? How much proportion of automation equipment made in China in overseas production lines? How to reduce the impact of price increase and lead time on imported devices? Shanghai Jingpu encoder has many years of experience in exporting equipment to Europe, as well as in the construction and application of automation production lines in China. What role does our absolute encoder play in the production line?

The addition of absolute encoder can help customers reduce their concerns about "reliability" and "use cost".



First of all, from the perspective of our encoder, there are at least the following points to consider when building a new production line:

First, cost performance