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DIGIFAS7200

¥3,252.00

3. Advantages and Features

 

The DIGIFAS7200 offers several outstanding features. Firstly, its high – speed control loop processing is a significant advantage. In a chemical process plant, it can process control loops within 80 milliseconds, allowing for real – time adjustment of chemical reactions. This led to a 15% increase in product yield. Secondly, its advanced digital control algorithms provide high – precision control. It can maintain process parameters within a very narrow tolerance range, for example, controlling temperature within ±0.1°C in a heating process.

4. Application Areas and Application Cases

 

The DIGIFAS7200 is suitable for a wide range of industries, including manufacturing, food and beverage, and pharmaceuticals. In the food and beverage industry, it can be used to control the fermentation process in breweries. In a specific brewery, the DIGIFAS7200 was installed to monitor and control the temperature, pressure, and pH level during fermentation. By precisely controlling these parameters, it improved the quality of the beer and reduced the fermentation time by 20%.

5. Competitor Comparison

 

Compared to other similar control systems in the market, the DIGIFAS7200 has distinct advantages. Its high – speed control loop processing and high – precision control are often superior. Some competing products may have longer control loop processing times, which can lead to slower response to process changes, or lower control accuracy, resulting in less consistent product quality. Additionally, the DIGIFAS7200‘s compatibility with a wide range of communication protocols and industrial devices makes it more adaptable to different industrial requirements.

UNITROL 1010

¥2,033.00
The UNITROL 1010 is suitable for a wide range of power generation applications, including small – scale and medium – scale power plants, diesel generators, and renewable energy power generation systems such as wind turbines and small – hydro power plants. In a small – scale diesel generator power plant, the UNITROL 1010 was installed to regulate the generator’s output voltage. By maintaining a stable voltage, it improved the power quality supplied to a local community, reducing the number of power – related equipment failures by 20%.

5. Competitor Comparison

 

Compared to other similar automatic voltage regulators in the market, the UNITROL 1010 has distinct advantages. Its high – precision voltage regulation and fast dynamic response are often superior. Some competing products may have lower voltage regulation accuracy, which can lead to voltage fluctuations and affect the performance of electrical equipment. Additionally, the UNITROL 1010‘s compatibility with different power generation systems and its communication capabilities for remote monitoring and control make it a more attractive choice for users.

6. Selection Suggestions

 

When selecting the UNITROL 1010, several factors should be considered. Compatibility is crucial. Ensure that it is compatible with your generator’s type and specifications, including the rated voltage, current, and power. Evaluate your specific power generation requirements, such as the required voltage regulation accuracy and the expected dynamic response. Consider the installation environment; if it has high levels of temperature variations, humidity, or electrical interference, the module’s operating temperature range and robustness should be taken into account. Finally, budget is also a factor; while the UNITROL 1010 offers high – quality performance, it should fit within your financial plan.

F3236

¥3,262.00

2. Product Parameters

 

Parameter Specification
Supply Voltage 24 VDC (±10%)
Power Consumption Approximately 10 W
Interface Types Multiple analog and digital input/output ports, Ethernet port for high – speed data communication, and serial ports (RS – 232/RS – 485) for connection to legacy devices
Compatibility Compatible with a wide variety of industrial sensors, actuators, and control systems. Supports common industrial communication protocols such as Modbus TCP and Profibus DP
Number of Analog Inputs 6
Number of Analog Outputs 4
Analog Input Range 0 – 10 V or 4 – 20 mA (configurable)
Analog Output Range 0 – 10 V or 4 – 20 mA (configurable)
Number of Digital Inputs 8
Number of Digital Outputs 6
Digital Input Voltage Range 0 – 24 VDC
Digital Output Current Rating 0.5 A per output
Processing Speed Can execute basic instructions in less than 100 microseconds
Operating Temperature – 20°C to 60°C
Storage Temperature – 40°C to 70°C
Dimensions [Length: X mm, Width: Y mm, Height: Z mm]

FBM237

¥2,235.00

4. Application Areas and Application Cases

 

The FBM237 is suitable for a wide range of industries, including manufacturing, food and beverage, and water treatment. In the food and beverage industry, it can be used to control the operation of conveyor belts, filling machines, and packaging equipment. In a specific food processing plant, the FBM237 was installed to monitor the status of sensors on a conveyor belt, such as limit switches and proximity sensors. By accurately detecting the position of products on the conveyor belt and sending control signals to the motors, it reduced the product jams by 20%, improving the overall production efficiency.

5. Competitor Comparison

 

Compared to other similar digital I/O modules in the market, the FBM237 has distinct advantages. Its high – speed response and excellent electrical isolation are often superior. Some competing products may have longer response times, which can lead to delays in control actions and affect the efficiency of industrial processes. Additionally, the FBM237‘s compatibility with Emerson’s well – known DCS system provides users with a more integrated and reliable solution.

6. Selection Suggestions

 

When selecting the FBM237, several factors should be considered. Compatibility is crucial. Ensure that it is compatible with your existing DCS system or the industrial control system you plan to use. Evaluate your specific digital I/O requirements, such as the number of input/output channels and the required current rating. Consider the installation environment; if it has high levels of electrical interference, temperature variations, or vibration, the module’s electrical isolation and operating temperature range are important. Finally, budget is also a factor; while the FBM237 offers high – quality performance, it should fit within your financial plan.

FBM242

¥2,036.00

4. Application Areas and Application Cases

 

The FBM242 is suitable for a wide range of industries, including oil and gas, power generation, and chemical processing. In the oil and gas industry, it can be used to monitor and control the flow rate, pressure, and temperature of oil and gas pipelines. In a specific oil pipeline project, the FBM242 was installed to monitor the pressure at different points along the pipeline. By accurately measuring the pressure and sending control signals to the valves, it prevented pipeline over – pressure incidents, improving the safety and reliability of the pipeline operation.

5. Competitor Comparison

 

Compared to other similar I/O modules in the market, the FBM242 has significant advantages. Its high – precision measurement and excellent signal isolation are often superior. Some competing products may have lower resolution in analog input channels, leading to less accurate data acquisition. Additionally, the FBM242‘s compatibility with Emerson’s well – established DCS system makes it a more integrated and reliable choice for industrial users.

6. Selection Suggestions

 

When selecting the FBM242, several factors should be considered. Compatibility is key. Ensure that it is compatible with your existing DCS system or the industrial control system you plan to use. Evaluate your specific I/O requirements, such as the number of analog and digital channels, the input/output ranges, and the required resolution. Consider the installation environment; if it has high levels of temperature variations, electrical interference, or vibration, the module’s operating temperature range and isolation features are important. Finally, budget is also a factor; while the FBM242 offers high – quality performance, it should fit within your financial plan.

EST0240Z05WBX00

¥3,025.00

5. Competitor Comparison

 

Compared to other similar products in the market, the EST0240Z05WBX00 has significant advantages. Its high – speed response and high accuracy are often superior. Some competing products may have slower response times, which can lead to delays in control actions, or lower accuracy, resulting in less precise control. Additionally, the EST0240Z05WBX00‘s compatibility with a wide range of communication protocols and industrial devices makes it more adaptable to different industrial requirements.

6. Selection Suggestions

 

When selecting the EST0240Z05WBX00, several factors should be considered. Compatibility is of utmost importance. Ensure that it is compatible with your existing industrial equipment, including sensors, actuators, and control systems. Evaluate your specific application requirements, such as the number of input/output channels, the required response time, and the accuracy of measurement. Consider the installation environment; if it has high levels of temperature variations, electrical interference, or vibration, the module’s operating temperature range and robustness should be taken into account. Finally, budget is also a consideration; while the EST0240Z05WBX00 offers excellent performance, it should fit within your financial constraints.

7. Precautions

 

When using and installing the EST0240Z05WBX00, strict safety regulations must be followed. Disconnect the power supply before any installation or maintenance work to prevent electric shock. Follow the installation instructions carefully to ensure proper grounding and connection. Incorrect installation may lead to system malfunctions or safety hazards. Regularly check the status of the EST0240Z05WBX00, including power supply, communication links, and input/output signals. Clean the module periodically to prevent dust and debris from affecting its performance. Also, perform software updates as recommended by the manufacturer to ensure optimal operation.

RMP201-8

¥2,655.00

5. Competitor Comparison

 

Compared to other similar products in the market, the RMP201 – 8 stands out. Its high – speed data processing and reliability are often superior. Some competing products may have slower processing speeds, leading to delays in control responses, or lower reliability, resulting in more frequent system failures. Additionally, the RMP201 – 8‘s flexibility in terms of input/output configuration and communication protocol support makes it easier to integrate into different industrial systems.

6. Selection Suggestions

 

When selecting the RMP201 – 8, several factors should be considered. Compatibility is essential. Ensure that it is compatible with your existing industrial equipment, including sensors, actuators, and communication networks. Evaluate your specific application requirements, such as the number of input/output channels, the required data processing speed, and the type of control algorithms needed. Consider the installation environment; if it has high levels of temperature variations, vibration, or electrical interference, the module’s wide operating temperature range and robust design are crucial. Finally, budget is also a factor; while the RMP201 – 8 offers excellent performance, make sure it fits within your financial plan.

7. Precautions

 

When using and installing the RMP201 – 8, strict safety regulations must be followed. Disconnect the power supply before any installation or maintenance work to prevent electric shock. Follow the installation instructions carefully to ensure proper grounding and connection. Incorrect installation may lead to system malfunctions or safety hazards. Regularly check the status of the RMP201 – 8, including power supply, communication links, and input/output signals. Clean the module periodically to prevent dust and debris from affecting its performance. Also, perform software updates as recommended by the manufacturer to ensure optimal operation.

RSER200-4

¥2,025.00

4. Application Areas and Application Cases

 

The RSER200 – 4 is suitable for a wide range of industries, including manufacturing, energy, and transportation. In the manufacturing industry, it can be used to connect different machines on the production line, enabling data sharing and coordinated operation. In an energy distribution system, the RSER200 – 4 was used to connect power meters and control centers. By transferring real – time power consumption data, it helped in optimizing the energy distribution and reducing energy waste by 12%.

5. Competitor Comparison

 

Compared to other similar products in the market, the RSER200 – 4 has distinct advantages. Its high – speed data transfer and excellent stability are often superior. Some competing products may have lower data transfer rates or higher error rates, which can lead to delays and inaccuracies in industrial communication. Additionally, the RSER200 – 4‘s compatibility with a wide range of serial – enabled devices and its flexible configuration make it more adaptable to different industrial requirements.

6. Selection Suggestions

 

When selecting the RSER200 – 4, several factors should be considered. Compatibility is crucial. Ensure that it is compatible with your existing industrial devices, such as sensors, controllers, and communication protocols. Check the serial port types and the supported data transfer rates. The specific requirements of your application, such as the number of devices to be connected and the required data transfer speed, should also be evaluated. The installation environment is another important factor. If the environment has high levels of electrical noise, vibration, or temperature variations, the module’s operating temperature range and noise – immunity features should be taken into account. Finally, budget is a consideration. Although the RSER200 – 4 offers excellent performance, it is necessary to ensure that it fits within your budget.

3IF671.9

¥2,235.00

4. Application Areas and Application Cases

 

The 3IF671.9 is suitable for a wide range of industries, including manufacturing, energy, and water treatment. In the manufacturing industry, it can be used to control the operation of machine tools, ensuring the accuracy of machining processes. In a water treatment plant, the 3IF671.9 was used to control the dosing of chemicals based on the water quality parameters measured by sensors. By accurately controlling the chemical dosage, it improved the water treatment efficiency by 15% and reduced the chemical consumption by 10%.

5. Competitor Comparison

 

Compared to other similar products in the market, the 3IF671.9 has distinct advantages. Its high – precision signal processing and high reliability are often superior. Some competing products may have lower measurement accuracy, which can lead to inaccurate control in industrial applications. Additionally, the 3IF671.9‘s compatibility with a wide range of sensors and actuators and its flexible input/output configuration make it more adaptable to different industrial requirements.

6. Selection Suggestions

 

When selecting the 3IF671.9, several factors should be considered. Compatibility is crucial. Ensure that it is compatible with your existing industrial control system, sensors, and actuators. Check the interface types, communication protocols, and input/output requirements. The specific requirements of your application, such as the number of input/output channels, the accuracy of signal processing, and the required response time, should also be evaluated. The installation environment is another important factor. If the environment has high levels of electrical noise, vibration, or temperature variations, the module’s operating temperature range and noise – immunity features should be taken into account. Finally, budget is a consideration. Although the 3IF671.9 offers excellent performance, it is necessary to ensure that it fits within your budget.

MVME6100

¥2,125.00
The MVME6100 offers several outstanding advantages. Firstly, it has extremely high – speed processing. In a large – scale industrial data acquisition project, it was able to process data from thousands of sensors in real – time, with a data processing speed that was 30% faster than some comparable products. This high – speed processing ensured that the control system could make timely decisions based on the latest data. Secondly, it has excellent reliability. In a long – term field test in a harsh industrial environment with high levels of electrical noise and vibration, the MVME6100 had a mean time between failures (MTBF) of over 35,000 hours, ensuring continuous and stable operation of the industrial system.

4. Application Areas and Application Cases

 

The MVME6100 is suitable for a wide range of industries, including aerospace, defense, and power generation. In the aerospace industry, it can be used for flight control systems, where it needs to process large amounts of data from various sensors in real – time to ensure the safety and stability of the aircraft. In a flight control system application, the MVME6100 was able to accurately process sensor data such as airspeed, altitude, and attitude, and send control signals to the aircraft’s actuators within milliseconds. This led to a significant improvement in the aircraft’s flight performance and safety.

5. Competitor Comparison

 

Compared to other similar products in the market, the MVME6100 has distinct advantages. Its high – speed processing and excellent reliability are often superior. Some competing products may have slower processing speeds, which can lead to delays in data processing and decision – making in industrial applications. In addition, the MVME6100‘s compatibility with a wide range of VMEbus – based modules and operating systems gives it an edge in terms of flexibility and integration.

6. Selection Suggestions

 

When selecting the MVME6100, the following points should be considered. Compatibility is of utmost importance. Ensure that it is fully compatible with your existing VMEbus – based system, including I/O modules, sensors, and actuators. Also, check the compatibility with the operating system you plan to use. The processing requirements of your application should also be evaluated. If your application involves large – scale data processing and real – time control, the MVME6100‘s high – speed processing capabilities make it a suitable choice. The installation environment is another factor. If the environment has high levels of temperature variations, vibration, or electrical interference, the module’s wide operating temperature range and high – reliability features should be taken into account. Finally, budget is a consideration. Although the MVME6100 offers excellent performance, it is necessary to ensure that it fits within your budget.

3HAC041443-003 DSQC639

¥2,235.00
The 3HAC041443 – 003 DSQC639 is suitable for a wide range of industries, including manufacturing, automotive, and food processing. In the manufacturing industry, it can be used to control the operation of production lines, such as the movement of conveyor belts and the operation of robotic arms. In an automotive manufacturing plant, the 3HAC041443 – 003 DSQC639 was used to control the painting process. By accurately controlling the spraying time and pressure, it improved the painting quality and reduced the paint waste by 15%.

5. Competitor Comparison

 

Compared to other similar products in the market, the 3HAC041443 – 003 DSQC639 has significant advantages. Its high reliability and ease of integration are often superior. Other products may have a higher failure rate or require more complex integration processes, which can lead to increased production costs and downtime.

6. Selection Suggestions

 

When selecting the 3HAC041443 – 003 DSQC639, the following factors should be considered. Firstly, compatibility is crucial. Ensure that it is compatible with your existing automation system, including sensors, actuators, and communication protocols. Secondly, consider the installation environment. If the environment has high levels of dust, humidity, or temperature variations, the module’s operating temperature range and durability should be taken into account. Finally, budget is also an important factor. Although the 3HAC041443 – 003 DSQC639 offers excellent performance, it is necessary to ensure that it fits within your budget.

7. Precautions

 

When using and installing the 3HAC041443 – 003 DSQC639, the following precautions should be taken. Firstly, follow the safety regulations strictly. Disconnect the power supply before installation or maintenance to prevent electric shock. Secondly, follow the installation instructions carefully to ensure proper grounding and connection. Incorrect installation may lead to system malfunctions or safety hazards. Finally, perform regular maintenance, including checking the power supply, communication links, and input/output signals. Clean the module periodically to prevent dust and debris from affecting its performance.

ICS TRIPLEX T8110B

¥2,124.00

5. Application Areas

 

  • Oil and Gas Industry: In oil and gas production, refining, and transportation, the T8110B is used for safety – critical control functions such as emergency shutdown systems, fire and gas detection, and well – head control.
  • Power Generation: In power plants, it can be used for turbine control, boiler safety, and grid protection. It ensures the safe and reliable operation of power generation equipment, protecting both the equipment and the personnel.
  • Chemical Processing: In chemical plants, the module is used to monitor and control chemical reactions, prevent over – pressure and over – temperature situations, and ensure the safety of the production process.

6. Installation and Maintenance

 

  • Installation: The installation of the ICS Triplex T8110B should be carried out by trained technicians following the manufacturer’s detailed instructions. This includes proper wiring of the power supply, input/output connections, and communication interfaces. Correct grounding is essential to ensure the proper functioning of the module and to prevent electrical interference.
  • Maintenance: Regular maintenance involves checking the status of the input/output signals, the communication links, and the power supply. The module should be inspected for any signs of physical damage, and the firmware should be updated periodically to ensure optimal performance. Additionally, periodic functional testing of the safety – critical functions is required to verify the system’s integrity.