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  • Applied Materials 0200-00991 - AMAT CERAMIC BLADE, 300MM HIGH SHOE
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  • Applied Materials 0200-00991 - AMAT CERAMIC BLADE, 300MM HIGH SHOE

    110V-380V
    5W-130W
    1A-30A
    1 year
    30
    United States, France, Japan, Viet Nam, Australia, Russia, Germany, Italy, Arabia
    The Applied Materials 0200-00991 is a high-performance automation component engineered specifically for demanding environments in the power industry, petrochemical processing, and general automation sectors. Renowned for its robust design and reliabl
    • ¥14091.00
      ¥13185.00
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    Weight:18.630KG
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Description
The Applied Materials 0200-00991 is a high-performance automation component engineered specifically for demanding environments in the power industry, petrochemical processing, and general automation sectors. Renowned for its robust design and reliabl

Applied Materials 0200-00991 - AMAT CERAMIC BLADE, 300MM HIGH SHOE

The Applied Materials 0200-00991 is a high-performance automation component engineered specifically for demanding environments in the power industry, petrochemical processing, and general automation sectors. Renowned for its robust design and reliable operation, this model integrates seamlessly into complex systems requiring precise control and durable hardware capable of withstanding rigorous industrial conditions. One of the key technical features of the Applied Materials 0200-00991 is its superior input/output (I/O) capacity, which supports high-speed data transmission with minimal latency. The model is built to handle both analog and digital signals efficiently, ensuring stable communication across various automation frameworks. Its input channels provide flexible compatibility with sensors and field devices, while the output capacity supports multiple actuators and control units, making it ideal for real-time system responsiveness. 


Durability is another hallmark of this model; the 0200-00991 is constructed with industrial-grade materials and features enhanced thermal management, allowing it to maintain optimal performance even in high-temperature or corrosive environments common in petrochemical plants and power generation facilities. Additionally, the unit exhibits impressive performance metrics—such as a mean time between failures (MTBF) exceeding industry standards, and resistance to electromagnetic interference (EMI)—which translates to fewer maintenance cycles and extended operational uptime. In practical terms, the application of 0200-00991 in power industry settings includes use cases such as automated control of turbine operations, grid load balancing, and safety system monitoring. In the petrochemical sector, it excels in managing complex chemical processing operations, where precision control of valves, pumps, and compressors is essential to maintain safety and efficiency.


For general automation, this model provides reliable integration with programmable logic controllers (PLCs) and supervisory control and data acquisition (SCADA) systems, enabling streamlined production workflows and enhanced system diagnostics. When comparing the Applied Materials 0200-00991 to other models within the brand, its unique advantages become clear. Unlike the Applied Materials 0040-75907 or the Applied Materials 0020-84596, which are optimized for lighter automation tasks, the 0200-00991 delivers greater I/O scalability and tougher environmental resistance, making it the preferred choice for heavy-duty industrial processes. Compared to the Applied Materials 0100-20003 REV G or Applied Materials 0010-10901, which focus on modular design for ease of replacement, the 0200-00991 offers a more integrated approach with enhanced signal processing capabilities that reduce system latency and improve overall throughput.


Furthermore, while models like the Applied Materials 0200-03406 and Applied Materials 0020-34338 provide reliable performance, they lack the advanced EMI shielding and thermal management found in the 0200-00991, limiting their use in more extreme conditions. Alongside the Applied Materials 0200-00991, we also offer complementary models such as the Applied Materials 0190-16235 and Applied Materials 0010-19589, which specialize in sensor integration and advanced signal conditioning to augment control systems. The Applied Materials 0100-01321 and Applied Materials 0020-63694 enhance system communication and diagnostics, while the Applied Materials 0010-27417 Rev. 001 and Applied Materials 0040-00143 provide robust interfacing solutions for legacy equipment compatibility. For applications requiring onboard processing and compact form factors, the Applied Materials On-Board 8 and Applied Materials 0010-38437 are excellent additions to a comprehensive automation setup.


Incorporating the Applied Materials 0200-00991 into your automation infrastructure ensures a blend of high throughput, durability, and precision control tailored for complex industrial environments. Whether optimizing operations in the power industry, managing critical processes in petrochemical plants, or streamlining general automation workflows, this model stands out as a reliable backbone component. As part of the broader Applied Materials automation products portfolio, the 0200-00991 reflects the brand’s commitment to innovation, quality, and long-term operational excellence. For industries seeking dependable automation solutions, the application of 0200-00991 in power industry, petrochemical, and general automation scenarios delivers tangible benefits in system stability, efficiency, and maintenance reduction. Its compatibility with a range of other Applied Materials models further enables custom-tailored configurations designed to meet the evolving demands of modern industrial automation.

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