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DSCB-01C

¥3,125.00

4. Advantages

 

  • High – Precision Control: When used for control applications, it can provide accurate and stable control of industrial equipment. This precision helps in improving the quality of the production process and reducing waste. For example, in a chemical mixing process, it can precisely control the flow rate of different chemicals, ensuring a consistent product quality.
  • Versatility: With multiple input/output channels and communication interfaces, it can be easily integrated into different industrial systems. It can be used in various industries, including manufacturing, energy, and water treatment.
  • Reliability: Built with high – quality components, it is designed to withstand the harsh conditions of industrial environments. It has a low failure rate and long service life, reducing maintenance and replacement costs.

5. Application Areas

 

  • Manufacturing: In manufacturing plants, it can be used to control the operation of production lines. For instance, it can control the movement of robotic arms, the operation of machine tools, and the filling of products in packaging machines.
  • Energy Sector: In power plants, it can be used for monitoring and controlling parameters such as generator output, turbine speed, and temperature in different parts of the plant.
  • Water Treatment: In water treatment facilities, it can control the operation of pumps, valves, and filters based on the water quality parameters measured by sensors.

6. Installation and Maintenance

 

  • Installation: The installation of the DSCB – 01C should be carried out by trained personnel following the manufacturer’s instructions. This includes proper wiring of the power supply, input/output connections, and communication interfaces. Correct grounding is essential to prevent electrical interference.
  • Maintenance: Regular maintenance involves checking the status of the input/output signals, the communication links, and t

MVI56-PDPMV1

¥2,520.00

4. Advantages

 

  • Seamless Integration: It provides seamless integration between the ControlLogix platform and Profibus – DP networks. This allows users to leverage the advanced control capabilities of the ControlLogix system while using existing Profibus – DP – based field devices, reducing the need for costly system overhauls.
  • High – Speed Communication: With a Profibus – DP communication speed of up to 12 Mbps, it enables fast data transfer between the controller and field devices. This is crucial for real – time control applications where timely data exchange is essential for efficient operation.
  • Reliability: Built with high – quality components and following Rockwell Automation’s strict quality standards, the MVI56 – PDPMV1 offers reliable performance in industrial environments. It can withstand electrical noise, vibrations, and temperature variations, ensuring continuous operation.

5. Application Areas

 

  • Manufacturing: In manufacturing plants, it can be used to connect various production equipment such as conveyor belts, robotic arms, and machine tools to the ControlLogix system. This enables centralized control and monitoring of the production process, improving efficiency and quality control.
  • Automotive Industry: In automotive manufacturing, the MVI56 – PDPMV1 can be used to integrate different assembly line components that use Profibus – DP communication. It helps in coordinating the movement of parts, controlling the operation of welding robots, and monitoring the quality of the assembly process.
  • Food and Beverage Industry: In food and beverage production facilities, it can be used to connect sensors and actuators in the production lines, such as level sensors in tanks, flow meters in pipelines, and valves for ingredient dosing. This allows for precise control of the production process and ensures product quality.

6. Installation and Maintenance

 

  • Installation: The installation of the MVI56 – PDPMV1 should be carried out by trained personnel following the manufacturer’s instructions. It involves inserting the module into the appropriate slot in the ControlLogix chassis and making the necessary electrical connections for power and communication. Proper grounding is also important to prevent electrical interference.
  • Maintenance: Regular maintenance includes checking the status of the communication links, the power supply, and the configuration settings. The module should be inspected for any signs of physical damage, and the firmware should be updated periodically to ensure optimal performance.

PP846A

¥2,850.00
  • Function
    • Control Function: It may be used to control the operation of industrial equipment such as motors, valves, or other actuators. For example, in a manufacturing process, it could regulate the speed of a conveyor belt motor to ensure a consistent production rate.
    • Data Acquisition: The PP846A might be capable of collecting data from various sensors. These sensors could measure parameters like temperature, pressure, or flow rate. The collected data can then be used for monitoring, analysis, or to trigger certain control actions.
    • Communication: It may support communication protocols to exchange data with other devices in the industrial network. This allows for integration with a larger control system or for remote monitoring and control.
  • Working Principle
    • If it’s a control device, it typically receives input signals (such as setpoints or feedback from sensors). Based on pre – programmed logic or algorithms, it processes these signals and generates output signals to control the connected equipment.
    • For data acquisition, it interfaces with sensors, converts the analog or digital signals from the sensors into a usable format, and stores or transmits the data.

3. Product Parameters

 

  • Supply Voltage: Commonly, it may operate on a standard industrial voltage such as 24 VDC, but this can vary. The voltage tolerance might be within ±10% to ensure stable operation.
  • Input/Output Channels: It could have a certain number of digital input and output channels, for example, 8 digital inputs and 6 digital outputs. It may also have analog input and output channels, with typical analog input ranges like 0 – 10 V or 4 – 20 mA.
  • Communication Interfaces: It may support interfaces such as Ethernet for high – speed data transfer, serial ports (RS – 232 or RS – 485) for communication with legacy devices, and possibly support for industrial communication protocols like Modbus.
  • Operating Temperature Range: A typical range could be from – 20°C to 60°C, allowing it to be used in a variety of industrial environments.
  • Dimensions: Compact in design, with approximate dimensions of [Length: X mm, Width: Y mm, Height: Z mm] to fit into standard control cabinets.

WOODWARD 8273-140

¥4,250.00

4. Advantages

 

  • Precision Control: It offers highly accurate control of fuel flow, which leads to better engine performance, improved fuel efficiency, and reduced emissions. In a power – generation engine, the precise fuel control provided by the 8273 – 140 can result in a 5 – 10% improvement in fuel efficiency compared to less – precise control systems.
  • Reliability: Woodward is known for its high – quality manufacturing, and the 8273 – 140 is built to withstand harsh industrial environments. It has a long service life and low failure rate, reducing downtime and maintenance costs. In a continuous – operation industrial engine, it can operate for thousands of hours without significant issues.
  • Flexibility: The device can be easily configured to meet the specific requirements of different engines and turbines. Whether it’s a small – scale generator engine or a large – scale industrial turbine, the 8273 – 140 can be adjusted to provide optimal control.

5. Application Areas

 

  • Power Generation: It is widely used in power – generation engines, both in small – scale backup generators and large – scale power plants. By precisely controlling the fuel flow, it ensures stable power output and efficient operation of the generators.
  • Marine Applications: In marine engines, the 8273 – 140 helps in controlling the speed and power of the propulsion engines. It can adapt to different sea conditions and load requirements, ensuring smooth sailing and efficient fuel consumption.
  • Industrial Engines: In various industrial applications where engines are used for mechanical drive, such as in compressors, pumps, and conveyors, the 8273 – 140 provides reliable speed and power control.

6. Installation and Maintenance

 

  • Installation: The installation of the WOODWARD 8273 – 140 should be carried out by trained technicians following the manufacturer’s instructions. It involves proper wiring of the power supply, sensor connections, and output connections to the fuel – control valves. Correct grounding is also essential to ensure stable operation.
  • Maintenance: Regular maintenance includes checking the sensor readings for accuracy, inspecting the wiring for any signs of damage or loose connections, and cleaning the device to prevent dust and debris accumulation. Periodic calibration may also be required to maintain the control accuracy.

5136-PFB-VME

¥3,111.00

3. Advantages and Features

 

  • High – Speed Data Transfer: The 5136 – PFB – VME can transfer data at high rates both on the VMEbus and the Profibus – DP interface. In a high – speed manufacturing line, it was able to quickly transmit production – related data from Profibus – connected sensors to the VME – based control system. This allowed for real – time adjustments to the production process, increasing the line’s efficiency by 18%.
  • Reliable Communication: It has built – in error – correction and fault – tolerance mechanisms. In an industrial environment with significant electromagnetic interference, the module maintained stable communication between the VME system and Profibus devices. During a long – term test, the communication error rate was less than 0.1%, ensuring the accuracy of control and monitoring operations.
  • Flexible Configuration: The module’s Profibus – DP address and communication parameters are configurable. This flexibility enables it to be easily integrated into different industrial networks. For example, an engineer can adjust the address and baud rate according to the specific requirements of the Profibus network, making it suitable for a variety of applications.

4. Application Areas and Application Cases

 

  • Application Areas: The 5136 – PFB – VME is suitable for a wide range of industries, including automotive manufacturing, chemical processing, and food and beverage production. In automotive manufacturing, it can be used to connect robotic arms, conveyor belts, and other production equipment to the central control system. In chemical processing, it helps in monitoring and controlling chemical reactions by communicating with sensors and actuators in the process.
  • Application Case: In a chemical processing plant, the 5136 – PFB – VME was installed to interface between the VME – based control system and Profibus – connected flow meters and valves. By accurately measuring the flow rate of chemicals and controlling the valves in real – time, it improved the process efficiency by 15% and reduced the waste of raw materials by 20%.

PQMII-T20-C-A

¥3,260.00
  • Application Areas: The PQMII – T20 – C – A is suitable for a wide range of industries, including manufacturing, energy, and commercial buildings. In the manufacturing industry, it can be used to monitor the power quality of production equipment, ensuring stable operation and high – quality product output. In the energy sector, it helps in managing power generation, transmission, and distribution systems, improving the efficiency and reliability of the grid.
  • Application Case: In a data center, the PQMII – T20 – C – A was installed to monitor the power quality of the electrical supply. By continuously monitoring voltage, current, and harmonics, it detected high – level harmonic distortion that could potentially damage the servers. Based on the data provided by the PQMII – T20 – C – A, the data center management installed harmonic filters, which reduced the harmonic distortion and improved the power factor, resulting in a 12% reduction in energy consumption.

5. Competitor Comparison

 

Compared to other similar power quality monitoring devices in the market, the PQMII – T20 – C – A has several advantages. Its high – precision measurement, advanced data logging, and flexible communication capabilities are often superior, providing more accurate and comprehensive power quality information. The ease of integration and long – term data storage also make it a more attractive option for users who need to manage and analyze power quality data effectively.

6. Selection Suggestions

 

  • Measurement Requirements: Evaluate your specific power quality measurement needs, such as the required measurement range, accuracy, and harmonic analysis capabilities. The PQMII – T20 – C – A offers a wide measurement range and high – precision measurement, but make sure it meets your exact requirements.
  • Compatibility: Ensure that the PQMII – T20 – C – A is fully compatible with your existing electrical network and power management system. Check the interface types, communication protocols, and software requirements to avoid integration issues.
  • Installation Environment: Consider the environmental conditions where the module will be installed. If the environment has high levels of electromagnetic interference, temperature variations, or humidity, the module’s operating temperature range and noise – immunity features should be taken into account.
  • Budget: While the PQMII – T20 – C – A offers excellent performance and features, it’s important to consider your budget. However, also take into account the long – term benefits, such as improved equipment reliability and reduced energy costs.

VMIVME7768 629.385546

¥3,266.00

3. Advantages and Features

 

  • High – Speed Processing: The VMIVME7768 629.385546 can perform complex calculations and data processing at high speeds. In a large – scale industrial data acquisition system, it was able to process sensor data from hundreds of channels in real – time. This high – speed processing allowed for quick decision – making and control, increasing the overall efficiency of the industrial process by 20%.
  • Reliability: It has a rugged design and is built with high – quality components. It can withstand electrical noise, vibrations, and temperature variations in industrial environments. In a long – term field test in a manufacturing plant with high levels of electromagnetic interference and mechanical vibrations, the VMIVME7768 629.385546 maintained stable operation with a mean time between failures (MTBF) of over 40,000 hours.
  • Flexible Expansion: The board features a VMEbus interface, which allows for easy expansion of functionality. An engineer can add additional I/O modules, communication cards, or specialized processing cards to meet specific application requirements. For example, in a military – grade industrial control system, additional encryption and communication modules were added to enhance security and data transfer capabilities.

4. Application Areas and Application Cases

 

  • Application Areas: The VMIVME7768 629.385546 is suitable for a wide range of industries, including aerospace, defense, power generation, and transportation. In the aerospace industry, it can be used for flight control systems, avionics data processing, and in – flight monitoring. In the power generation sector, it helps in managing power plants, controlling turbines, and monitoring grid stability.
  • Application Case: In a power generation plant, the VMIVME7768 629.385546 was installed to control the operation of a large – scale turbine. By continuously monitoring turbine parameters such as speed, temperature, and pressure, and making real – time adjustments, the efficiency of the turbine increased by 15%, and the maintenance intervals were extended by 25%.

5. Competitor Comparison

 

Compared to other similar single – board computers in the market, the VMIVME7768 629.385546 has several advantages. Its high – speed processing and reliability are often superior, providing more accurate and timely data processing and control. The flexible expansion capabilities also make it a more adaptable choice for different industrial applications, allowing for easy customization and future upgrades.

PXI-6115

¥2,650.00

4. Application Areas and Application Cases

 

  • Application Areas: The PXI – 6115 is suitable for a wide range of industries and research fields, including aerospace, automotive, medical, and power electronics. In the aerospace industry, it can be used for flight testing, vibration analysis, and structural health monitoring. In the automotive industry, it helps in engine testing, vehicle dynamics testing, and emissions monitoring.
  • Application Case: In an automotive engine testing facility, the PXI – 6115 was used to measure various engine parameters such as pressure, temperature, and vibration. By accurately acquiring and analyzing these signals, engineers were able to optimize the engine’s performance, improve fuel efficiency by 10%, and reduce emissions by 15%.

5. Competitor Comparison

 

Compared to other similar data acquisition modules in the market, the PXI – 6115 has several advantages. Its high – speed and high – resolution data acquisition, along with low noise and distortion, are often superior, providing more accurate and detailed data for analysis. The flexible configuration options also make it a more adaptable choice for different applications, allowing for easy customization according to specific requirements.

6. Selection Suggestions

 

  • Compatibility: Ensure that the PXI – 6115 is fully compatible with your existing PXI chassis and software platform. Check the interface types, communication protocols, and software drivers to avoid integration issues.
  • Sampling and Resolution Requirements: Evaluate your specific data acquisition needs, such as the required sampling rate, resolution, and input range. The PXI – 6115 offers high – speed and high – resolution capabilities, but make sure it meets your exact requirements.
  • Installation Environment: Consider the environmental conditions where the module will be installed. If the environment has high levels of electromagnetic interference, temperature variations, or humidity, the module’s operating temperature range and noise – immunity features should be taken into account.
  • Budget: While the PXI – 6115 offers excellent performance and features, it’s important to consider your budget. However, also take into account the long – term benefits, such as improved data accuracy and reduced testing time.

140CPU43412A

¥3,026.00

3. Advantages and Features

 

  • High – Performance Computing: The 140CPU43412A can execute basic instructions in as little as 0.1 μs. In a large – scale manufacturing plant, it was able to manage multiple production lines simultaneously, processing data from hundreds of sensors and controlling numerous actuators. This led to a 15% increase in overall production efficiency as the system could quickly adapt to changes in production requirements.
  • Reliability: It has a redundant power supply design and built – in self – diagnostic functions. In a long – term field test in an industrial environment with power fluctuations and electrical interference, the 140CPU43412A maintained stable operation with a failure rate of less than 0.05%. If a component failed, it could automatically switch to a backup mode, minimizing downtime.
  • Easy Programming and Configuration: It supports multiple programming languages such as ladder logic, function block diagrams, and structured text. Using Schneider Electric’s programming software, engineers can easily program and configure the 140CPU43412A, reducing the development time of automation systems. For example, a simple control program can be developed and uploaded to the CPU within a few hours.

4. Application Areas and Application Cases

 

  • Application Areas: The 140CPU43412A is widely used in various industries, including manufacturing, energy, water treatment, and transportation. In the manufacturing industry, it can be used to control the operation of machine tools, assembly lines, and robotic systems. In the energy sector, it helps in managing power generation, transmission, and distribution systems.
  • Application Case: In a water treatment plant, the 140CPU43412A was installed to control the entire water purification process. It monitored the water quality parameters such as pH, turbidity, and chlorine content in real – time and adjusted the dosing of chemicals and the operation of pumps and valves accordingly. As a result, the water treatment efficiency increased by 20%, and the water quality met the strictest standards.

5. Competitor Comparison

 

Compared to other similar CPU modules in the market, the 140CPU43412A has several advantages. Its high – performance computing and reliability are often superior, providing more accurate and timely control of industrial processes. The easy programming and configuration features also make it a more user – friendly choice, reducing the technical requirements for operators and engineers.

531X111PSHAWG3

¥3,024.00

5. Competitor Comparison

 

Compared to other similar PLC modules in the market, the 531X111PSHAWG3 has several advantages. Its high – speed processing and reliability are often superior, providing more efficient and stable control solutions. The flexible configuration also makes it a more adaptable choice for different industrial applications, allowing for easy customization and future upgrades.

6. Selection Suggestions

 

  • Compatibility: Ensure that the 531X111PSHAWG3 is fully compatible with your existing PLC system and other devices in the industrial network. Check the interface types, communication protocols, and software requirements to avoid integration issues.
  • I/O Requirements: Evaluate your specific input/output requirements, such as the number of digital inputs and outputs needed, and the voltage and current ratings. The 531X111PSHAWG3 offers a suitable configuration for most common industrial applications, but make sure it meets your exact needs.
  • Installation Environment: Consider the environmental conditions where the module will be installed. If the environment has high levels of electromagnetic interference, extreme temperatures, or mechanical vibrations, the module’s reliability and wide operating temperature range make it a suitable choice.
  • Budget: While the 531X111PSHAWG3 offers excellent performance and features, it’s important to consider your budget. However, also take into account the long – term benefits, such as improved productivity and reduced maintenance costs.

5X00121G01

¥3,035.00
  • Application Areas: The 5X00121G01 is suitable for a wide range of industries, including manufacturing, food and beverage, and material handling. In the manufacturing industry, it can be used to control the operation of conveyor belts, robotic arms, and assembly machines. In the food and beverage industry, it helps in monitoring the filling levels of containers and controlling the operation of packaging equipment.
  • Application Case: In a food packaging plant, the 5X00121G01 was installed to monitor the presence of food products on the conveyor belt using proximity sensors and control the operation of the packaging machine. By accurately detecting the products and sending timely control signals to the packaging machine, it increased the packaging efficiency by 20% and reduced the product waste due to mis – packaging by 15%.

5. Competitor Comparison

 

Compared to other similar products in the market, the 5X00121G01 has several advantages. Its high compatibility and reliable data transmission are often superior, providing more efficient and stable solutions for industrial control and monitoring. The easy installation and configuration features also make it a more user – friendly option, reducing the time and cost of system setup and maintenance.

6. Selection Suggestions

 

  • Compatibility: Ensure that the 5X00121G01 is fully compatible with your existing industrial sensors, actuators, and central control unit. Check the interface types, communication protocols, and electrical requirements to avoid integration issues.
  • I/O Requirements: Evaluate your specific digital input/output needs, such as the number of channels required and the input/output voltage and current ratings. The 5X00121G01 offers a suitable configuration for many common industrial applications, but make sure it meets your exact requirements.
  • Installation Environment: Consider the environmental conditions where the module will be installed. If the environment has high levels of electrical noise, vibrations, or extreme temperatures, the module’s reliability and wide operating temperature range make it a suitable choice.

ACE949-2

¥2,354.00

4. Application Areas and Application Cases

 

  • Application Areas: The ACE949 – 2 is suitable for a wide range of industries, including manufacturing, energy, and transportation. In the manufacturing industry, it can be used to control the operation of production lines, ensuring the quality and efficiency of product manufacturing. In the energy sector, it helps in managing power generation, distribution, and consumption.
  • Application Case: In a power generation plant, the ACE949 – 2 was installed to monitor and control the operation of a generator. It continuously collected data from sensors such as temperature sensors, voltage sensors, and current sensors. By analyzing this data, it could adjust the generator’s output power, cooling system, and other parameters in real – time. As a result, the generator’s efficiency increased by 12%, and the maintenance cost was reduced by 18%.

5. Competitor Comparison

 

Compared to other similar products in the market, the ACE949 – 2 has several advantages. Its high – performance computing and excellent connectivity are often superior, providing more efficient and flexible control solutions. The reliability and durability also make it a more attractive option for industrial users, reducing the risk of system failures and maintenance costs.

6. Selection Suggestions

 

  • Compatibility: Ensure that the ACE949 – 2 is fully compatible with your existing industrial automation system, including sensors, actuators, and the industrial network. Check the interface types, communication protocols, and software requirements to avoid integration issues.
  • Processing Requirements: Evaluate your specific data processing needs, such as the complexity of control algorithms, the amount of data to be processed, and the required response time. The ACE949 – 2‘s high – performance processor makes it suitable for applications with high – end processing requirements.
  • Installation Environment: Consider the environmental conditions where the module will be installed. If the environment has high levels of electromagnetic interference, extreme temperatures, or mechanical vibrations, the module’s reliability and wide operating temperature range make it a suitable choice.
  • Budget: While the ACE949 – 2 offers excellent performance and features, it’s important to consider your budget. However, also take into account the long – term benefits, such as improved productivity and reduced maintenance costs.