Welcome to the Industrial Automation website!

NameDescriptionContent
XING-Automation
E-mail  
Password  
  
Forgot password?
  Register
当前位置:
  • Applied Materials 0010-17871 - HEATER ASSEMBLY, HA-12, HARP 200MM SACVD AMAT
    ❤ Add to collection
  • Applied Materials 0010-17871 - HEATER ASSEMBLY, HA-12, HARP 200MM SACVD AMAT

    110V-380V
    5W-130W
    1A-30A
    1 year
    30
    United States, France, Japan, Viet Nam, Australia, Russia, Germany, Italy, Arabia
    The Applied Materials 0010-17871 is a high-performance automation component engineered specifically to meet the rigorous demands of the power industry, petrochemical sector, and general automation applications. Designed to deliver exceptional reliabi
    • ¥5178.00
      ¥9114.00
    • Satisfaction:

      Sales: 0

      Review: 0

    Weight:15.080KG
    • Quantity:
    • (Inventory: 4)
Description
The Applied Materials 0010-17871 is a high-performance automation component engineered specifically to meet the rigorous demands of the power industry, petrochemical sector, and general automation applications. Designed to deliver exceptional reliabi

Applied Materials 0010-17871 - HEATER ASSEMBLY, HA-12, HARP 200MM SACVD AMAT

The Applied Materials 0010-17871 is a high-performance automation component engineered specifically to meet the rigorous demands of the power industry, petrochemical sector, and general automation applications. Designed to deliver exceptional reliability and operational efficiency, this model stands out for its robust input/output capacity, advanced durability features, and superior performance metrics that ensure seamless integration within complex industrial environments. At the core of the Applied Materials 0010-17871’s technical capabilities is its versatile input/output interface, which supports a wide range of signal types with high precision and rapid response times. This flexibility enables it to handle extensive data throughput and control signals critical for automated process management in power plants and petrochemical facilities. The unit’s durability is reinforced by its industrial-grade construction, incorporating corrosion-resistant materials and advanced thermal management systems that allow it to operate consistently under harsh environmental conditions, including extreme temperatures and exposure to chemicals.


Performance-wise, the 0010-17871 delivers low latency communication and high fault tolerance, ensuring minimal downtime and optimized system uptime—a factor crucial to maintaining continuous production and safety standards in industrial automation. Real-world applications of the Applied Materials 0010-17871 showcase its adaptability and reliability. In the power industry, it functions seamlessly within automated grid management systems, facilitating real-time data acquisition and control to enhance energy distribution efficiency. In petrochemical plants, the 0010-17871 is instrumental in monitoring and controlling process parameters such as temperature, pressure, and flow rates, thereby improving operational safety and process optimization. For general automation, this model integrates effortlessly with existing control systems to automate manufacturing lines, reducing human error and increasing throughput. Its compatibility with various protocols and ease of integration make it an indispensable asset in modern industrial automation setups.


When compared to other models within the Applied Materials lineup, the 0010-17871 offers unique advantages in terms of scalability and environmental resilience. For instance, unlike the Applied Materials 0010-06231 and the Applied Materials 0010-14320, which are tailored for more specialized or less demanding automation tasks, the 0010-17871 balances robust performance with flexible application potential. Additionally, models such as the Applied Materials 0225-09249 and Applied Materials 0090-A2760, while excellent in niche roles, may lack the comprehensive input/output capacity and enhanced durability features found in the 0010-17871. Its competitive edge is further highlighted when placed alongside the Applied Materials 0010-22938 and Applied Materials 0010-30256, both of which serve critical automation functions but do not offer the same level of integration versatility or environmental tolerance.


Alongside the Applied Materials 0010-17871, we also offer complementary models such as the Applied Materials 0010-09416 and Applied Materials 0190-66224, which provide additional support for signal conditioning and interface expansion in complex automation systems. The Applied Materials 0010-15210 and Applied Materials 0090-03568 further enhance system robustness by offering specialized modules for safety interlocks and process monitoring. For enhanced connectivity and control, the Applied Materials 0200-02812 and Applied Materials 0010-27417 Rev. 001 serve as ideal adjuncts, extending the functional scope of automation networks. Additionally, the Applied Materials 0200-00991 and Applied Materials 0040-85721 provide high-precision control capabilities that complement the 0010-17871’s core strengths.


The application of the 0010-17871 in power industry, petrochemical, and general automation sectors underscores its critical role in advancing industrial automation technologies. Its integration leads to increased operational efficiency, reduced maintenance costs, and improved safety compliance. By leveraging the Applied Materials 0010-17871 alongside other specialized Applied Materials automation products, industries can build scalable, resilient, and highly efficient automation infrastructures capable of meeting today’s demanding production and safety standards. In summary, the Applied Materials 0010-17871 stands as a versatile and reliable automation product, engineered for the complexities of the power, petrochemical, and general automation industries. Its superior input/output capacity, durability, and performance metrics make it a preferred choice for system integrators and engineers seeking dependable solutions. When paired with complementary models such as the Applied Materials 0010-22938, Applied Materials 0225-09249, and Applied Materials 0200-02812, it forms the backbone of advanced automation systems that drive productivity and innovation across multiple industrial sectors.

  • User name Member Level Quantity Specification Purchase Date
  • Satisfaction :
No evaluation information
  • ADLINK cPCI-3720: 3U CompactPCI Low Power Pentium III CPU Module
  • ADLINK NuPRO-E47: PICMG 1.3 13th Generation Core Industrial SHB
  • ADLINK NuPRO-E43: PICMG 1.3 Core 7th Generation Industrial SHB
  • ADLINK NuPRO-780 PICMG Bus Core CPU Card
  • ADLINK cPCI-6965 6U CompactPCI Core Dual Core Single Board Computer
  • ADLINK USB/LPCI/LPCIe-3488A GPIB Interface Card Selection and Application Guide
  • Rittal SK 3241.700 Blue e+Cabinet Fan Filter Unit
  • ADLINK CPCI-8168 8-Axis Motion Control Card and HSL Network Integration Solution
  • ADLINK PCIe-PXIe-8638 High Speed PXIe Bus Expansion Scheme
  • ADLINK PCIe GIE7x Poe+Frame Grabber Hardware and Power Management Detailed Explanation
  • ADLINK PCIe-7396 Digital I/O Card Deployment Guide
  • ADLINK PCI-8164 Advanced Motion Control Card Deployment Guide
  • ADLINK PCI-8154 Motion Control Card Deployment Guide
  • ADLINK PCI-8134 Motion Control Card Deployment Guide
  • ADLINK NuPRO-E42 Industrial Control Motherboard Deployment Guide
  • ADLINK MXC-6600 Embedded Platform Deployment Guide
  • ADLINK MXC-6000 Industrial Control Computer Deployment and Optimization Guide
  • ADLINK MXC-2300 Embedded System Deployment Guide
  • ADLINK MCM-204 Edge DAQ Deployment Configuration Guide
  • ADLINK MCM-100/102 Deployment Calibration Guide
  • Deployment and Performance Optimization of ADLINK MXC-6400 Industrial Control Computer
  • Selection and Deployment of ADLINK Matrix Series Industrial Control Computers
  • российские промышленные новые машины.Наш отдел дебютировал в 2026 году в России Международная промышленная ярмарка INNOPROM
  • Deeply cultivating the Eurasian industrial market, linking new industrial opportunities between China and Russia
  • Deployment and troubleshooting of ADLINK GIE64+PoE acquisition card
  • Honeywell UMS Security System Troubleshooting Guide
  • Honeywell Expert Series C I/O Troubleshooting Guide
  • ADLINK EOS-1200 Vision System Deployment and Troubleshooting
  • ADLINK DLAP-5200 series AI engine deployment and optimization
  • ADLINK DLAP-4000 Deployment and BIOS Optimization
  • ADLINK Matrix MXC-2000 Deployment and Troubleshooting
  • ADLINK DAQe-2000 series acquisition card calibration and synchronization
  • ADLINK cPCI-6520 Core i7 Processor Blade Engineering Application Guide
  • ADLINK CM1-86DX3 PC/104 Embedded Single Board Computer Engineering Application Guide
  • Honeywell DC1000 Series PID Temperature Controller Engineering Application Guide
  • ALSTOM MiCOM C264 Substation Controller Engineering Application Guide
  • EMERSON AMS 2140 Practical Guide for On site Dynamic Balance and Vibration Analysis
  • ADLINK NuPRO-E320 motherboard deployment and tuning guide
  • ADLINK NuPRO-800 Dual PIII Industrial SBC Maintenance and Upgrade Guide
  • ADLINK NuPRO-598 SBC Maintenance Practical Guide
  • ADLINK MXC-6300 Fanless Embedded Industrial Control Computer Deployment Guide
  • ADLINK Express-BASE7 Carrier Board Quick Deployment and Debugging Guide
  • ADLINK DLAP-211 Edge AI Platform Selection and Deployment Guide
  • ADLINK 7230 Series Isolation DIO Card Selection and Engineering Application Guide
  • ADLINK cPCI-6965 SBC Embedded Installation and BIOS Tuning Guide
  • ADLINK 7200 Series High Speed DIO Card Practical Guide
  • ADLINK DLAP Series Edge AI Acceleration Platform Selection and Deployment Practical Guide
  • DEIF TCM-2 thyristor control module: Wind power cut in control engineering guide
  • DEIF MVR-200 Medium Voltage Relay: Installation and Wiring Engineering Guide
  • DEIF MDR-2 Differential Relay: Engineering Guide for Generator Differential Protection
  • DEIF Delomatic 3 AOM: Engineering Guide for Analog Output Modules
  • DEIF AGI 400 Graphic Interface: Ship and Industrial HMI Solution
  • DEIF BRW-1 Marine Instruments: Installation and Calibration Guide for Offshore Bridge Indicators
  • DEIF AGC 200 Controller: Quick Deployment and Configuration Guide for Generator Sets
  • DEIF AGC-2 Controller: The Ultimate Guide to Automatic Control and Protection of Generator Sets
  • ABB SPA-ZC400 Gateway: REM54x Access to IEC 61850 Ultimate Engineering Guide
  • ABB REM 543/545 Terminal
  • Modular Architecture Analysis of DEIF PPU 300 Ship Generator Controller
  • DEIF DM-4 Marine&Offshore Ship Power Management System
  • Detailed Explanation of DEIF Delomatic Generator Control System Architecture
  • DEIF AGC-4 Mk II Generator Controller Depth Configuration Guide
  • DEIF AGC-4 Generator Controller Configuration and Debugging Guide
  • DEIF PPM Power Management System Operation and Troubleshooting
  • Installation and wiring of DEIF Multi line 2
  • Practical configuration and maintenance of Beckwith M-6280 capacitor bank controller
  • Beckwith M-3311 Transformer Protection Relay Setting and Engineering Application
  • Beckwith M-3311A Transformer Protection Relay Configuration and Optimization Guide
  • Beckwith M-3310 Transformer Protection Relay Complete Guide
  • Beckwith M-0359 synchronous inspection relay
  • Beckwith M-0293A Voltage Regulating Controller Replacement and Debugging Guide
  • Complete Guide to DEIF GPU-3 Generator Protection Unit
  • Installation and I/O configuration of DEIF PPM-3 power management module
  • Beckwith M-3520 Interconnection Protection Relay
  • Beckwith M-3430 Generator Protection Relay
  • Beckwith M-2293B adapter panel replacement GE regulator guide
  • Selection and Networking of Beckwith M-2001C Digital Voltage Regulating Controller
  • Beckwith M-2001B Digital Voltage Regulating Controller
  • Beckwith M-0388/M-0389 Synchronous Inspection Relay Application Guide
  • Beckwith M-0193B Synchronizer Debugging and System Integration Guide
  • Beckwith M-0115A Parallel Balance Module Debugging Guide
  • Beckwith M-0067E On Load Voltage Regulating Controller Selection and Debugging Guide
  • Debugging and Fault Handling of Beckwith M-4272 Digital Busbar Conversion System
  • Beckwith M-3311A Transformer Protection Relay Debugging Guide
  • Beckwith M-3425A Generator Protection Relay Debugging Guide
  • Setting and troubleshooting of Basler BE1-27/59 voltage relay
  • Debugging and troubleshooting of Basler AVC63-12/AVC125-10 voltage regulator
  • Basler L301kc Line Array Camera Technology and Troubleshooting
  • Selection and Debugging of Basler CBS 212A Current Boosting System
  • Selection and commissioning of Basler BE3-25 synchronous inspection relay
  • Basler BE1-32R/32O/U Direction Power Relay Setting and Testing Guide
  • Basler PRS 250 Synchronous Relay Maintenance and Replacement Guide
  • Basler piA2400-17gc Industrial Camera Replacement and Optimization Guide
  • Basler BE1-11g Generator Protection System
  • Basler VR63-4C/UL Voltage Regulator
  • Basler BE1-DFPR feeder protection relay
  • Basler CBS 310/320 Current Boosting System
  • Basler UFOV 250A/260A protection module
  • Basler MVC104/MVC108/MVC232 manual voltage control device
  • Basler XR2002/XR2002F Regulator
  • Basler DECS-400 excitation system
  • Basler DGC-2020 Generator Set Controller: Integrated Control and Debugging Guide
  • Basler MVC-300 Manual Voltage Controller: Characteristics and Engineering Applications
  • Basler MVC Series Manual Voltage Controller: Application and Selection
  • Basler SSR Static Voltage Regulator: A Complete Guide to Debugging and Troubleshooting
  • Basler SR4A/SR8A Voltage Regulator: Detailed Debugging and Troubleshooting Explanation
  • Basler BE2000E Voltage Regulator: Replacement and Application Details
  • Basler DECS-2100 Excitation System: Modular Upgrade and Engineering Application
  • Basler BE1-851 Overcurrent Protection System: A Complete Guide to Professional Debugging and Troubleshooting
  • Basler APR 63-5 Voltage Regulator: Professional Debugging and Troubleshooting Guide for Industrial Generator Excitation Systems
  • Basler BE1-FLEX Protection System: A Complete Guide to Professional Installation, Configuration, and Troubleshooting
  • Debugging and Testing of Basler BE1-700 Relay
  • Basler BE1-87B busbar differential setting test
  • Basler BE1-40Q demagnetization relay setting test
  • Basler BE1-60 Voltage Balance Relay Setting Test
  • Basler BE1-47N Relay Field Setting and Testing Guide
  • Basler BE1-81O/U Frequency Relay: On site Debugging and Protection Configuration Guide
  • Basler BE1-11f Feedline Protection System Debugging and Troubleshooting Guide
  • Basler DECS-250 Excitation System: Installation, Configuration, and Troubleshooting Practice Guide
  • Basler DECS-100 Digital Excitation System Debugging Guide
  • Application Guide for Basler BE1-BPR Circuit Breaker Protection Relay
  • Basler BE1-50/51B-255 Replacement CO Relay Guide
  • Basler BE1-25 synchronous inspection relay principle and testing
  • Basler BE1-51 Time Overcurrent Relay Debugging Guide
  • Practical Guide to Basler DECS-300 Digital Excitation System
  • Mitsubishi FX Series PLC Data Communication Practical Manual
  • Selection of Hirschmann cSCALE S6/C8 Mobile Safety Controller
  • Hirschmann OZD Profi G12D repeater explosion-proof installation configuration
  • Hirschmann OCTOPUS OS20/24 Switch Installation Power Supply