Description
8440-2082 EG3200XT WOODWARD generator set speed control board
Non differential regulation is mainly used for constant speed control and is suitable for single machine operation or multiple prime movers working together in an isolated power grid. Differential regulation provides more control flexibility.
further enhancing its performance and application range.
rich additional functions, and high-precision output signals. Whether it is in the fields of generator sets, compressors, pump stations, or ships and locomotives, it can effectively ensure the stable operation of equipment within the set range.
power measurement level 1, editable screen, multi interface toolkit connection, etc. All details can be found in Woodward easyYgen manual 37582A
The rated operating temperature range of this model is -20 to 70 ° C; the rated temperature range of the LT model is -40 to 70 ° C, suitable for outdoor use.
8440-2082 EG3200XT is equipped with a monitor (not available on the 3100 model) and is designed for front panel installation.
The built-in HMI has a color LCD and soft keys (now with dedicated buttons) for direct control of the 8440-2082 EG3200XT device. Multi level password protection can prevent unauthorized changes.
The generator set has four operating modes and the option to configure a manual circuit breaker control device.
How to use 8440-2082 EG3200XT?
What is 8440-2082 EG3200XT used for?
8440-2082 EG3200XT Customs Code
How giants brought the robotics industry upAffected by the trend of China”s manufacturing transformation and upgrading, the “machine substitution” craze has arrived. Since 2013, China”s industrial robot market has begun to develop rapidly. Judging from the purchase volume of robots, China has become the world”s largest application market.However, more than half of the dividends generated by China”s huge market have been captured by the “four major families” of robots (Japan”s Yaskawa Electric, FANUC, Germany”s KUKA, and Switzerland”s ABB).According to Zhiyan Information, China”s industrial robot market is dominated by foreign brands, and the “four major families” accounted for 57% of the domestic market in 2017. In the field of high-end industrial robots, the share of the four major families of multi-jointed robots with six axes or above is 95%, the share of the four major families in the automotive industry with concentrated downstream high-end applications is 90%, and the share in the welding field is 84 % .It can be seen that the oligopoly competition pattern in the high-end field has basically been established. Correspondingly, the market share of domestic robots still needs to be improved. For independent brands to catch up with foreign brands, there is still a long way to go in terms of core technology and user services.On the other hand, the development of the “four major families” of robots to this day is world-renowned, which is inseparable from decades of intensive cultivation. The growth path behind them is worth learning and exploring by domestic ontology manufacturers.1. Build unique advantages with core technologiesFor robot manufacturing, the four major families firmly grasp the key technologies of core components.Especially when it comes to servo motors, Japan”s Yaskawa Electric Co., Ltd., which is dominated by servo drives, cannot be avoided. In the process of Yaskawa Electric”s development and growth, this critical step is inseparable, and it is also a pioneering work in the field of motors – the development of the world”s first DC servo motor Minertia .As the company that developed the world”s first servo motor, Yaskawa Electric, founded in 1915, has been leading the trend with ultra-high-speed, ultra-precision motion control technology for many years.The biggest advantage of its robot is its high stability, which can still maintain normal operation even under overload conditions. Therefore, Yaskawa Electric is very popular in heavy-load application fields such as the automotive industry.Combining market demand with concentration and investment in technology is the key to Yaskawa Electric achieving major breakthroughs. The development of servo motors is based on the urgent need to improve production efficiency by major Japanese manufacturers.At that time, the motor took a long time to start and stop, which made it impossible to further improve production efficiency. Undoubtedly, if this technical difficulty can be solved, huge market potential will be released.Yaskawa Electric keenly captures this market pain point and concentrates on research and development here. However, success does not come overnight. In the early stages of technological breakthroughs, there will always be countless experimental failures.Fortunately, hard work paid off. With the advantages of advance layout and technology accumulation, Yaskawa Electric was able to achieve this major innovation – Mitsuyuki Fukuda, an engineer at Yaskawa Electric at the time, used the method of attaching coils to the rotor surface. , to reduce the rotor diameter and control the motor “s moment of inertia to a minimum. It is understood that the response speed of this motor was almost 100 times that of ordinary motors at the time, which made Yaskawa Electric widely welcomed by the market.Of course, this landmark technological leap did not stop Yaskawa Electric. Since then, Yaskawa Electric has continued to polish its own technology with the spirit of craftsmanship, and has continued to innovate in order to develop products that better meet user needs. Every technological breakthrough means leading the entire industry to progress.According to reports, in 2018 (March-November), Yaskawa achieved revenue of 361.3 billion yen, a year-on-year increase of 6.3%. As of September 2015, the cumulative number of robots sold by Yaskawa Electric has exceeded 280,000 units, becoming the global robot sales champion.Similarly, FANUC, known as the “Microsoft of robotics”, its founder Seiemon Inaba is also very convinced of the power of technology. He believes that continuous experimentation and innovation through mistakes are the key to FANUC. A creed that has always been there.In order to stay ahead of its peers in technology, Inaba established a basic development research institute and a commodity research institute respectively. The former is mainly responsible for the products that the market will need in five or ten years; the latter is responsible for establishing commercialization goals and delivering results within one year. FANUC is always aware of crises, and the team atmosphere in its research institute is always full of fighting atmosphere.The most prominent competitive advantage of its industrial robots is its extremely high precision. It is reported that the repeated positioning accuracy of Fanuc”s multi-functional six-axis small robot can reach plus or minus 0.02mm. Therefore, the market is very popular in light-load, high-precision applications.
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