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UAC317AEV1

¥2,032.00
  • Data Centers: As shown in the above case, it is used for power management and control in data centers. It ensures the reliable power supply to servers, storage devices, and networking equipment, protecting critical data from power – related disruptions.
  • Telecommunication Networks: In telecommunication base stations and central offices, the UAC317AEV1 can be used to manage the power supply to communication equipment. It helps to maintain the continuous operation of the communication networks, especially during power outages or voltage fluctuations.
  • Industrial Automation: For industrial control systems, it can be used to manage the power supply to programmable logic controllers (PLCs), sensors, and actuators. It ensures the stable operation of industrial processes by providing reliable power and protecting the equipment from power – related damage.

3. Weight and Dimensions

 

  • Weight: The UAC317AEV1 weighs approximately 1.4 kg. This weight is relatively manageable, making it easy to handle during installation and maintenance.
  • Dimensions: It has dimensions of about 160 mm in length, 110 mm in width, and 40 mm in height. These compact dimensions allow it to be easily installed in standard 19 – inch racks or electrical enclosures, saving space in control rooms and equipment cabinets.

4. Features

 

  • Intelligent Power Management: It is equipped with advanced algorithms for intelligent power management. It can monitor the power input, battery levels, and load requirements in real – time and make optimal decisions for power distribution and switching.
  • Multiple Communication Interfaces: The device supports multiple communication protocols, including Ethernet, Modbus, and SNMP. This allows it to communicate with other devices in the power management system, such as UPS units, power meters, and management consoles. It facilitates remote monitoring and control of the power supply system.
  • Customizable Configuration: It offers customizable configuration options, allowing users to set up power – related parameters, such as battery charging profiles, load – shedding thresholds, and alarm settings. This flexibility makes it suitable for different application scenarios and user requirements.

VE3007

¥2,265.00
  • Weight: The VE3007 weighs approximately 0.9 kg. Its relatively light weight makes it easy to install and handle during the setup and maintenance of the ventilation control system.
  • Dimensions: It has dimensions of about 140 mm in length, 100 mm in width, and 35 mm in height. These compact dimensions allow it to be easily installed in standard electrical enclosures or on DIN rails, saving space in control panels.

4. Features

 

  • Multi – Sensor Compatibility: The VE3007 can be connected to a variety of gas sensors, such as oxygen sensors, combustible gas sensors, and toxic gas sensors. It can also interface with temperature and humidity sensors to provide comprehensive environmental monitoring.
  • Intelligent Control Algorithms: It is equipped with intelligent control algorithms that can analyze the sensor data and make optimal decisions for ventilation control. For example, it can adjust the fan speed based on the real – time gas concentration and the size of the ventilation area.
  • User – Friendly Interface: It has a user – friendly interface that allows users to easily configure the system parameters, view the sensor data, and set up alarm thresholds. This makes it convenient for operators to manage the ventilation system.

IC693CPU374

¥3,124.00
  • Robust Design: The IC693CPU374 is built with a durable housing that provides protection against dust, moisture, and mechanical vibrations. This makes it suitable for use in harsh industrial environments, such as factories with high levels of noise, dust, and temperature variations.
  • Redundant Power Supply: Some models of the IC693CPU374 may have a redundant power supply option. In case of a power failure, the redundant power source can ensure the continuous operation of the CPU, preventing data loss and system downtime.
  • Error – Detection and Self – Recovery: It has built – in error – detection mechanisms that can detect and diagnose faults in real – time. It can also perform self – recovery operations, such as restarting a malfunctioning module or switching to a backup control strategy, to maintain system stability.

6. Parameter Specifications

 

  • Power Supply: It operates on a 24V DC power supply, with an allowable voltage range of 21.6V to 26.4V. This wide voltage range ensures stable operation even in the presence of small power fluctuations.
  • Memory:
    • Program Memory: It has 1 MB of program memory, which can store a large number of control programs and logic instructions.
    • Data Memory: There is 512 KB of data memory for storing process data, sensor readings, and other operational information.
  • Input/Output Capacity: It can support up to 2048 digital input/output points and 512 analog input/output points. This high input/output capacity allows it to handle complex control tasks in large – scale industrial systems.

DSPU131 3BSE000355R1

¥2,208.00
  • High – Speed Data Processing: It is equipped with a high – performance digital signal processor that can handle complex control algorithms and process large amounts of data in real – time. This enables fast decision – making and precise control of industrial processes.
  • Multiple Input/Output Channels: The device has a large number of input and output channels, allowing it to connect to various sensors and actuators. It can receive data from temperature sensors, pressure sensors, flow sensors, etc., and send control signals to valves, motors, and other actuators.
  • Flexible Configuration: It offers flexible configuration options, allowing users to customize its functions and parameters according to specific application requirements. This includes setting up control loops, alarm thresholds, and communication protocols.

5. Stability and Reliability

 

  • Robust Design: The DSPU131 3BSE000355R1 is built with a rugged housing that provides protection against dust, moisture, and mechanical vibrations. This makes it suitable for use in harsh industrial environments, such as cement plants with high levels of dust and heat.
  • Redundant Components: Some models of the DSPU131 3BSE000355R1 may have redundant power supplies and communication modules. In case of a component failure, the redundant part can take over immediately, ensuring continuous operation of the device and minimizing system downtime.

MVME162PA-344SE

¥2,623.00

Industrial Automation

 

  • Manufacturing Plants: In factories, it can be used for controlling production lines, robots, and other automated equipment. It can coordinate the operation of different devices to improve production efficiency and product quality.
  • Process Control: In chemical, pharmaceutical, and other process industries, it can be used to monitor and control chemical reactions, temperature, pressure, and other process parameters.

3. Weight and Dimensions

 

  • Weight: The MVME162PA – 344SE weighs approximately 2.2 kg. This weight is relatively manageable, which is convenient for installation and maintenance, especially in confined spaces within control cabinets.
  • Dimensions: It has dimensions of about 240 mm in length, 180 mm in width, and 65 mm in height. These compact dimensions allow it to be easily installed in standard 6U VMEbus racks, which are commonly used in industrial and power system applications.

4. Features

High – Performance Processor

 

It is equipped with a high – performance processor that can handle complex computational tasks and process large amounts of data in real – time. This enables fast decision – making and control in dynamic industrial and power system environments.

CI855K01

¥2,302.00
One day, during normal operation, the sensors detected a sudden change in the temperature and pressure inside the distillation column. This was a sign of a potential imbalance in the distillation process, which could lead to product quality issues or even equipment damage.

 

The CI855K01, which was connected to these sensors and the control valves of the unit, immediately received the data. It quickly analyzed the data using pre – programmed algorithms and compared it with the optimal operating parameters. Based on the analysis, the CI855K01 sent control signals to the valves to adjust the flow rates of the feedstock, reflux, and steam.

 

Within a short period, the temperature and pressure in the distillation column were brought back to the normal range. The product quality was maintained, and the production process continued smoothly. This incident demonstrated the CI855K01’s ability to quickly respond to process changes and ensure the stable operation of the refinery.

2. Applications

 

  • Petrochemical Industry: As shown in the above case, it is widely used in petrochemical refineries for controlling various processes such as distillation, cracking, and polymerization. It helps to optimize the production process, improve product quality, and ensure the safety of operations.
  • Power Generation: In power plants, the CI855K01 can be used to control the operation of boilers, turbines, and generators. It monitors and adjusts parameters such as steam pressure, temperature, and power output to ensure stable and efficient power generation.

USIO21

¥3,032.00

2. Applications

 

  • Water and Wastewater Treatment: Besides sedimentation tanks, the USIO21 can be used in other processes such as filtration, disinfection, and sludge handling. It helps to control the operation of pumps, valves, and chemical dosing systems to ensure the proper treatment of water and wastewater.
  • Industrial Process Control: In various industrial processes, like chemical manufacturing and food processing, the USIO21 can be used for monitoring and controlling process variables such as temperature, pressure, and flow rate. It ensures the stability and quality of the production process.
  • Building Automation: In large commercial buildings, the USIO21 can be used to control the HVAC (Heating, Ventilation, and Air Conditioning) systems, lighting systems, and elevator systems. It helps to optimize energy consumption and improve the comfort of the building occupants.

3. Weight and Dimensions

 

  • Weight: The USIO21 weighs approximately 0.7 kg. Its relatively light weight makes it easy to install and handle during the setup and maintenance of control systems.
  • Dimensions: It has dimensions of about 110 mm in length, 70 mm in width, and 25 mm in height. These compact dimensions allow it to be easily installed in standard control cabinets or on DIN rails, saving space in control rooms.

4. Features

 

  • High – Density I/O: The USIO21 offers a high – density input/output configuration. It has multiple digital and analog input/output channels, which can be used to connect a large number of sensors and actuators. This allows for comprehensive monitoring and control of complex systems.
  • Flexible Configuration: It provides flexible configuration options, enabling users to customize the input/output types, ranges, and functions according to specific application requirements. This flexibility makes it suitable for a wide variety of industrial and building automation applications.

D20-EME

¥2,235.00
One day, during a hot summer afternoon, the building’s energy demand was approaching its peak limit. The D20 – EME, which was connected to a network of energy meters and sensors throughout the building, continuously monitored the energy usage of each system.

 

It detected that the HVAC system was consuming a significant amount of energy to maintain the indoor temperature. The D20 – EME analyzed the real – time data and the pre – set energy management strategies. It then sent commands to the HVAC control system to adjust the temperature setpoints slightly and optimize the fan speed.

 

At the same time, it also dimmed the non – essential lighting in some areas of the building based on the occupancy sensors’ data. As a result, the overall energy consumption of the building was reduced by 15% during that peak period without significantly affecting the comfort of the building’s occupants. This not only saved energy costs but also helped the building to meet its energy – saving targets.

2. Applications

 

  • Smart Buildings: As shown in the above case, it is used for energy management in commercial buildings, residential complexes, and industrial facilities. It can control and optimize the energy consumption of various electrical systems, such as lighting, HVAC, and power outlets.
  • Industrial Energy Management: In industrial plants, the D20 – EME can be used to monitor and control the energy consumption of manufacturing equipment, motors, and other power – consuming devices. It helps to reduce energy waste and improve the overall energy efficiency of the production process.
  • Renewable Energy Systems: For solar power plants, wind farms, and other renewable energy systems, the D20 – EME can be used to manage the power generation, storage, and distribution. It can ensure the stable operation of the renewable energy systems and optimize the use of the generated energy.

3. Weight and Dimensions

 

  • Weight: The D20 – EME weighs approximately 0.8 kg. Its relatively light weight makes it easy to install and handle, especially when mounting it on electrical panels or control cabinets.
  • Dimensions: It has dimensions of about 120 mm in length, 80 mm in width, and 30 mm in height. These compact dimensions allow it to be easily installed in limited spaces, such as in electrical enclosures.

SCXI-1104C

¥2,021.00

1. Real – world Case

 

In an automotive engine research laboratory, the SCXI – 1104C was used in a comprehensive engine performance testing setup. The researchers were conducting experiments to optimize the fuel efficiency and emission levels of a new engine design. The SCXI – 1104C was connected to a wide range of sensors installed on the engine, including temperature sensors, pressure sensors, and flow sensors.

 

During a series of high – speed driving simulations, the sensors detected rapid changes in the engine’s operating parameters. The SCXI – 1104C quickly acquired the data from these sensors, amplified and conditioned the signals, and then transferred the processed data to a data acquisition computer.

 

The researchers were able to analyze the real – time data provided by the SCXI – 1104C. They discovered that a particular fuel injection pattern was causing inefficient combustion under high – speed conditions. Based on this finding, they adjusted the engine’s fuel injection system. Thanks to the accurate and timely data acquisition of the SCXI – 1104C, the researchers were able to improve the engine’s performance and reduce its emissions significantly.

2. Applications

 

  • Automotive Testing: As demonstrated in the above case, it is widely used for engine testing, chassis testing, and vehicle durability testing. It helps automotive engineers collect and analyze data from various sensors to improve vehicle design and performance.
  • Aerospace Industry: In aerospace applications, the SCXI – 1104C can be used for testing aircraft engines, flight control systems, and structural components. It can monitor parameters such as air pressure, vibration, and temperature during flight simulations and ground tests.
  • Industrial Machinery Monitoring: For large – scale industrial machinery, like turbines and compressors, it can monitor the health and performance of the equipment. By collecting data from sensors, it can detect early signs of wear and tear, and potential failures, enabling preventive maintenance.

IS200EPSMG1ABB

¥2,562.00

4. Features

 

  • High – Speed Data Processing: It is equipped with a high – performance processor that can handle large amounts of data from sensors in real – time. This enables fast decision – making and timely control actions in dynamic industrial environments.
  • Multiple Communication Interfaces: The module supports multiple communication protocols, such as Ethernet, Modbus, and Profibus. This allows it to communicate with other devices in the control system, including sensors, actuators, and human – machine interfaces (HMIs). It facilitates seamless integration into existing industrial networks.
  • Flexible Configuration: It offers flexible configuration options, allowing users to customize its functions and parameters according to specific application requirements. This includes setting up input/output ranges, control algorithms, and alarm thresholds.

5. Stability and Reliability

 

  • Robust Design: The IS200EPSMG1ABB is built with a rugged housing that provides protection against dust, moisture, and mechanical vibrations. This makes it suitable for use in harsh industrial environments, such as power plants with high levels of heat, noise, and electromagnetic interference.
  • Redundant Components: Some models of the IS200EPSMG1ABB may have redundant power supplies and communication modules. In case of a component failure, the redundant part can take over immediately, ensuring continuous operation of the device and minimizing system downtime.
  • Error – Detection and Self – Recovery: It has built – in error – detection mechanisms that can detect and diagnose faults in real – time. It can also perform self – recovery operations, such as restarting a malfunctioning module or switching to a backup control strategy, to maintain system stability.

MVME133SA

¥2,025.00
  • Robust Design: The MVME133SA is built with a rugged housing that provides protection against dust, moisture, and mechanical vibrations. This makes it suitable for use in harsh industrial environments, such as factories with high levels of noise, dust, and temperature variations.
  • Redundant Components: Some models of the MVME133SA may have redundant power supplies and communication modules. In case of a component failure, the redundant part can take over immediately, ensuring continuous operation of the device and minimizing system downtime.
  • Error – Detection and Self – Recovery: It has built – in error – detection mechanisms that can detect and diagnose faults in real – time. It can also perform self – recovery operations, such as restarting a malfunctioning module or switching to a backup communication path, to maintain system stability.

6. Parameter Specifications

 

  • Power Supply: It operates on a 24V DC power supply, with an allowable voltage range of 21.6V to 26.4V. This wide voltage range ensures stable operation even in the presence of small power fluctuations.
  • Input/Output Channels:
    • Analog Inputs: It has 8 analog input channels, which can accept signals in the range of 0 – 10V or 4 – 20mA. These channels are used to connect various sensors for monitoring process parameters.
    • Digital Inputs/Outputs: There are 16 digital input channels and 12 digital output channels. The digital inputs can detect the status of switches and sensors, while the digital outputs can be used to control relays, solenoid valves, and other actuators.

PM861AK01

¥2,685.00

2. Applications

 

  • Chemical and Petrochemical Industries: Beyond the polymerization example, it is used in various chemical processes such as distillation, separation, and chemical synthesis. It helps in controlling reaction conditions, monitoring product quality, and ensuring the safety of operations.
  • Power Generation: In power plants, the PM861AK01 can be employed to control boiler operations, turbine speed, and power output. It regulates parameters like steam temperature, pressure, and fuel flow to optimize power generation efficiency and maintain system stability.
  • Water and Wastewater Treatment: For water treatment plants, it can control the dosage of chemicals, the operation of pumps and valves, and the monitoring of water quality parameters such as pH, turbidity, and dissolved oxygen. This ensures the effective treatment of water and the proper functioning of the treatment facilities.

3. Weight and Dimensions

 

  • Weight: The PM861AK01 weighs approximately 1.2 kg. Its relatively light weight makes it easy to handle during installation and maintenance, especially when working in tight spaces within control cabinets.
  • Dimensions: It has dimensions of about 180 mm in length, 130 mm in width, and 50 mm in height. These compact dimensions allow it to be conveniently installed in standard 19 – inch racks commonly used in industrial control systems.

4. Features

 

  • High – Speed Processing: Equipped with a powerful processor, the PM861AK01 can perform complex calculations and process large amounts of data in real – time. This enables it to quickly respond to changes in process conditions and make timely control decisions.
  • Multiple Communication Interfaces: It supports a variety of communication protocols, including Ethernet, Modbus, and Profibus. This allows it to communicate with other devices in the control system, such as sensors, actuators, and human – machine interfaces (HMIs). It facilitates seamless integration into existing industrial networks and enables remote monitoring and control.
  • Flexible Configuration: The device offers flexible configuration options. Users can customize its functions and parameters according to specific application requirements. This includes setting up input/output ranges, control algorithms, and alarm thresholds.