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ABB 3ASC25H215E DATX131 voltage divider circuit board

ABB 3ASC25H215E DATX131 is an advanced voltage divider circuit board that is an important component of ABB’s comprehensive industrial control and power management solutions.

Model ABB 3ASC25H215E DATX131
Brand ABB
Type voltage divider circuit board
Input voltage range 100-480 V AC
Output voltage ratio 1:10, 1:5
Maximum output current of 200 mA
Working temperature -20 ° C to+60 ° C
Installation method: DIN rail or screw installation
Size 160 x 100 x 24 millimeters
Weight 0.14 kg
Communication protocols Modbus, Profibus
Environmental protection level IP20

 

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Description

ABB 3ASC25H215E DATX131 is an advanced voltage divider circuit board that is an important component of ABB’s comprehensive industrial control and power management solutions.

3ASC25H215E DATX131

3ASC25H215E DATX131

As a voltage divider, its main function is to divide the input voltage into smaller, proportional voltages. This is achieved through a carefully designed circuit layout on the circuit board, which integrates components such as resistors, capacitors, and diodes. These components work together to accurately divide the voltage according to the required ratio.

3ASC25H215E DATX131

3ASC25H215E DATX131

Main features and advantages:
In terms of functional performance, it provides high-precision voltage segmentation. This circuit board has been carefully designed to provide extremely precise voltage ratios, ensuring that the output voltage is within strict tolerances. This precision is crucial for applications where even small voltage deviations can cause problems, such as in precision electronic manufacturing processes. It also has a fast response time, which means it can quickly adapt to changes in input voltage and maintain stable output voltage in dynamic industrial environments.

The hardware design of ABB 3ASC25H215E DATX131 is both robust and compact. It can withstand harsh conditions in industrial environments and has the characteristics of dust prevention, vibration resistance, and temperature resistance. Circuit boards are usually protected by coatings to prevent their components from being affected by environmental factors, especially in environments with high levels of conductive dust such as the metal processing industry. Despite its sturdy structure, it has a relatively small volume and is suitable for installation in control cabinets with limited space. It usually adopts standard installation methods, simplifying the installation process.

In terms of compatibility, ABB 3ASC25H215E DATX131 performs well. It is designed to seamlessly collaborate with various input voltage levels, ranging from low voltage DC to high voltage AC. It also supports multiple communication protocols and can be easily integrated with other components in the control system, such as sensors, actuators, and control units. This compatibility is not only applicable to ABB control systems of different generations, but also to some non ABB equipment, providing flexibility for system integrators.

Long term reliability is a major advantage of ABB 3ASC25H215E DATX131. The components used on the circuit board are of high quality, and measures have been taken in their design to ensure efficient heat dissipation. This prevents overheating, which is a common cause of component failure. With proper maintenance, the circuit board can operate continuously for many years, reducing the need for frequent replacement and lowering overall maintenance costs.

3ASC25H215E DATX131

3ASC25H215E DATX131

Technical specifications:
Model ABB 3ASC25H215E DATX131
Brand ABB
Type voltage divider circuit board
Input voltage range 100-480 V AC
Output voltage ratio 1:10, 1:5
Maximum output current of 200 mA
Working temperature -20 ° C to+60 ° C
Installation method: DIN rail or screw installation
Size 160 x 100 x 24 millimeters
Weight 0.14 kg
Communication protocols Modbus, Profibus
Environmental protection level IP20

 

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3ASC25H215E DATX131

3ASC25H215E DATX131

Application areas:
In the manufacturing industry, especially in factories producing high-tech electronic products, ABB 3ASC25H215E DATX131 is used to regulate and manage voltage levels. These electronic product manufacturing processes require extremely high power stability. Voltage fluctuations may cause defects in precision electronic components during the production process. The DATX131 circuit board ensures stable voltage supply to manufacturing equipment through its voltage divider function. This helps to reduce the rate of defective products and improve overall production efficiency.

Automobile assembly plants also rely on ABB 3ASC25H215E DATX131. This circuit board is usually integrated into motor control systems. The motor that provides power for conveyor belts, robotic arms, and other mechanical equipment needs to run smoothly. By dividing the input voltage into appropriate levels, DATX131 achieves better control over motor speed and torque. This not only improves the performance of the motor, but also extends its service life and reduces the maintenance cost of the factory.

In the energy industry, especially in the fields of power generation and distribution, ABB 3ASC25H215E DATX131 plays a role in monitoring and controlling electrical systems. It can be used to reduce high voltage signals to a level suitable for measurement and control equipment. This is crucial for ensuring the safe and efficient operation of the power grid, as accurate voltage monitoring helps prevent equipment failures or power outages caused by overvoltage or undervoltage.

3ASC25H215E DATX131

3ASC25H215E DATX131

Related products:
ABB 3ASC25H209 DATX110- a related control module that provides different voltage divider capabilities and can be used in scenarios that require different voltage ratios. It can be integrated with ABB 3ASC25H215E DATX131 into more complex voltage management systems.
ABB DI801- a digital input module that can be used in conjunction with ABB 3ASC25H215E DATX131. In industrial settings, DI801 can be used to receive digital signals from sensors, while DATX131 can adjust the power supply voltage associated with these sensors.
ABB DO801- a digital output module that can be used in conjunction with ABB 3ASC25H215E DATX131. DO801 can be used to control actuators, while DATX131 ensures that the voltage supplied to these actuators is at an appropriate level.
ABB DAPC100 3ASC25H203- another module from ABB with similar applications in the field of voltage management. It can be used as a substitute or in combination with ABB 3ASC25H215E DATX131 according to the specific requirements of industrial control systems.
ABB DASD103 3ASC25H283- a high-performance module that can be integrated with ABB 3ASC25H215E DATX131 in applications that require precise voltage control and advanced motion control, such as in certain industrial robot settings.
ABB 3ASC25H215E DATX131-V2- An upgraded version of ABB 3ASC25H215E DATX131 with enhanced functionality, possibly improving voltage segmentation accuracy or compatibility with new industrial communication protocols.
ABB SITOP power supplies – These power supplies can be used in conjunction with ABB 3ASC25H215E DATX131 to provide stable power for the entire industrial control system, ensuring smooth voltage division process.

 

Installation and maintenance:
Before installing ABB3ASC25H215E DATX131, it is essential to carefully plan the layout of the control cabinet. Ensure there is sufficient clearance around the circuit board for proper ventilation. During the voltage division process, heat is generated, and good ventilation is crucial to prevent overheating, which can affect the performance and lifespan of the circuit board. When installing circuit boards, whether using DIN rails or screw mounting methods, ensure that the mounting surface is clean and free of any debris. Check the connections on the circuit board to ensure they are not damaged.

In terms of maintenance, it is recommended to conduct regular visual inspections. Look for any signs of physical damage, such as cracks or loose connections on the circuit board. Check for discoloration of the components, which may indicate overheating. Regularly measure the voltage at the input and output terminals of the circuit board to verify its proper functioning. If any deviation from the expected voltage ratio is detected, please follow the troubleshooting guidelines provided by ABB. Follow the official ABB website for firmware updates (if available). These updates can improve the performance of the circuit board, add new features, or fix any known issues. However, before applying firmware updates in production environments, it is recommended to conduct testing in non critical settings to ensure compatibility and stability.

 

 

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