Description
IS200IGPAG2AED Product Introduction
The specific application scope of the product
will depend on the needs of system integration and industrial application, but generally speaking, this type of embedded controller module can be applied to the following categories:
manufacturing processes, etc.
monitoring and control system.
of the controller module, as well as the specific needs of the customer.
designed to manage gas or steam turbines.
It has a CIMPLICITY graphical interface and an HMI with software suitable for running heavy-duty turbines.
be installed at the bottom of the cabinet. For a small setup that is easy to serve a triple redundant system, up to three components can be installed side by side.
he board can operate within a temperature range of 0 to 65 degrees Celsius without the need for a fan for cooling. NFPA Class 1. This board can be used for two applications.
Caijing: Can we say that ABB is part of Made in China 2025? Spiesshofer: Of course, we are a very important part. We were involved in coming up with this idea and we will be deeply involved in making it happen. Now we have about 18,000 employees in China, with many manufacturing plants and large R&D centers. We also have a software center in China to develop artificial intelligence technology used on robots. At present, China not only has a market for ABB, but also has an excellent team that I am very proud of. Caijing: The current problem is that Made in China 2025 has posed a challenge to Europe and the United States. They believe that they need to pay close attention to it. The current trade policy of the United States is also very targeted at Made in China 2025. How do you view this criticism? Spiesshofer: I don’t want to comment too much on policy. China”s competitiveness has grown significantly over the past few decades, but the rest of the world has not stood still. Take Europe”s technological development, for example. Europe is playing a leading role in the fourth industrial revolution. I want to have a level playing field and give everyone a chance. It is true that China is an economic power, and there are other economic powers in the world. The world is big enough to accommodate the friendly coexistence of all these forces. The Industrial Internet is inseparable from industrial control Caijing: Regarding digitization, there are two questions. Why digitization? How to digitize? Spiesshofer: People have been benefiting from technologies that improve productivity. Through digitalization, we can improve productivity very well. We introduce a closed loop of “perception, analysis, and action” to sense through digital technologies such as sensors , communication devices, and connected devices. We learn the operation status of assets through sensor technology, upload it to the cloud, and summarize the information. After we have the information, we need to analyze the information. AI technology plays an important role in this process, that is, intelligent algorithms for analyzing data. Then comes the action part, where you need to get into the control loop of an industrial process or maintenance plan to make it work. Like AI, we should not be afraid of digitalization, but rather see it as an opportunity to create prosperity and wealth. Caijing: Regarding the Industrial Internet, GE, which proposed this concept, has changed its CEO and its performance is poor. Does this mean that its development is not going smoothly? How do you see the future of the Industrial Internet? Spiesshofer: If used well, the industrial Internet can be very effective. To review what I said: perception, analysis and action are required. Our strategy is different from GE”s strategy. They stop after sensing and analyzing, while we still have an action phase. Through our control system, the Industrial Internet is connected to the control loop through intelligent algorithms, which can create a lot of value for customers. ABB is one of the two major industrial control technology companies in the world. Siemens is the leader in the discrete industry. We are second only to Siemens. In the process industry, ABB ranks first and Siemens second. This is the biggest difference between ABB and GE: GE does not control the circulation or has no control ability. It is like you are a doctor. You only diagnose high fever and give the patient your suggestions, but ABB not only gives suggestions, but also helps patients implement the suggestions. . Caijing: You also mentioned the concept of global energy internet. Is this a future concept or something that is already happening? What is its value? Spiesshofer: The energy challenge facing people today is how to provide predictable, high-quality, low-carbon baseload energy. There are different ways to achieve this, bringing together different renewable and conventional energy sources, plus nuclear power. All of the previously mentioned energy sources can also be connected together through a globally interconnected power grid. We must also incorporate active demand-side management and intelligent demand-side optimization to achieve peak-cutting effects through demand-side model optimization. Overall, there will be a globally interconnected power system in the future that will operate completely differently with demand-side dynamics ranging from long distances all the way to local. The roof of your house is equipped with solar energy. It may be a power station in the morning, a power user in the afternoon, and it may be an energy storage power station in the evening because you are charging your electric car. Optimizing all of this is what I call the Internet of Power, and that”s what we”re working on.
DS200PLIBG2ACA From General Electric in the United States
IS200ICIAH1ABB High performance processor module GE
IS200ERDDH1ABA From General Electric in the United States
DS200SHVMG1A I/O excitation redundant module GE
IS200VCMIH1B Gas turbine system Mark VI
IS200VCCCH1B High performance processor module GE
IS410STCIS2A I/O excitation redundant module GE
IS200VVIBH1B Gas turbine system Mark VI
IS210AEBIH1ADB Processor/Controller Mark VI System
DS3820PSCB1C1B From General Electric in the United States
DS200PCCAG7A High performance processor module GE
IS200BPIIH1A Gas turbine system Mark VI
IS215WEMAH1B High performance processor module GE
DS200TCQAG1B Gas turbine system Mark VI
IS230TDBTH6A GE power control board
IS220PPROH1A From General Electric in the United States
IS200DSPXH1D From General Electric in the United States
IS200TBCIH1B From General Electric in the United States
IS220PAOCH1A High performance processor module GE
IS200VCMIH2B GE power control board
IS200ESELH1AAA I/O excitation redundant module GE
IS200PSCDG1A GE power control board
IS215UCVEM08B High performance processor module GE
IS200ICBDH1ABB High performance processor module GE
DS200ACNAG1A Gas turbine system Mark VI
IS200TBAIH1C High performance processor module GE
IS200DSPXH1DBD Gas turbine system Mark VI
IS200ERGTH1AAA From General Electric in the United States
IS200IGPAG2AED Processor/Controller Mark VI System
IS220PAICH1A Gas turbine system Mark VI
IS420UCSCH2A GE power control board
IS420PUAAH1A I/O excitation redundant module GE
DS200TCDAG1PR5A High performance processor module GE
IS200RAPAG1A High performance processor module GE
IS200DAMDG1AAA I/O excitation redundant module GE
IS200EPSMG2ADC GE power control board
IS200HFPAG1A I/O excitation redundant module GE
IS420YDIAS1B I/O excitation redundant module GE
IS200RAPAG1A From General Electric in the United States
IS210AEAAH1B High performance processor module GE
IS210AEAAH1B Gas turbine system Mark VI
DS200SLCCG4A High performance processor module GE
DS200ADMAH1A High performance processor module GE
IS215UCVEM01A High performance processor module GE
IS210MACCH2A High performance processor module GE
IS410JPDHG1A High performance processor module GE
IS215VCMIH2BB From General Electric in the United States
IS220PDIOH1B High performance processor module GE
GDS1168-PFF-PA-NF From General Electric in the United States
IS200IGDMH1AAA Processor/Controller Mark VI System
IS200TVIBH2B Gas turbine system Mark VI
IS220PSCAH1A Gas turbine system Mark VI
IS220PPDAH1A High performance processor module GE
IS420USBH1A I/O excitation redundant module GE
IS410STCIS2A GE power control board
IS200STCIH6AED Processor/Controller Mark VI System
IS200VTURH2BAC Processor/Controller Mark VI System
IS200VRTDH1B Processor/Controller Mark VI System
IS200SRTDH2ACB GE power control board
IS215AEPCH1C Processor/Controller Mark VI System
IS220PAOCH1A Gas turbine system Mark VI
DS200DTBDG1ABB GE power control board
IS420UCSCH1B Gas turbine system Mark VI
DS200PLIBG1ACA High performance processor module GE
IS200SSBAG1A GE power control board
IS200STAOH2AAA GE power control board
