50KW Mercury Lamp Power Supply Reliable Ballasts for UV Applications

1. Compact Design, save installation space and less wiring needed.
2. Wide input voltage range, can work at 360V-480V.
3. Fast dynamic respond, takes only 500ms from standby to full power output.
4. High voltage output, from 3350 to 3550V. compatible with uv lamps with operation voltage 3500V.
5. Integrated inverter fan control to ensure appropriate heat dissipation and improve working efficiency.
6. High efficiency, less energy consumption.

Product Details

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50KW Mercury Lamp Power Supply Reliable Ballasts for UV Applications

50KW Mercury Lamp Power Supply Reliable Ballasts for UV Applications.jpg

Brief Parameters for the 50KW UV Electronic Ballast

Product Name
 Intelligent uv ballastProduct brand
FIVER
Product Power
50KWProduct model
FUV50KW
Input Voltage (V)
360-480V ac
Max Output Current (A)
15A
Input Current (A)
76A Lamp Operating Voltage
3500V
Output Voltage Range (V)
3350-3550Cooling MethodAir Cooling

( For more details please check the datasheet in PDF attachment)


Product Featueres for this Intelligent UV Ballast

1. Wide voltage adaptability, Fiver's 50KW power supply for uv lamp can operate normally with input voltage of 360V-480V.Different regions and countries may have varying voltage standards. A device with wide voltage adaptability can be used in multiple locations without the need for additional voltage converters or adapters. what's more it can withstand these fluctuations and operate reliably under different voltage conditions.  Eliminating the need for additional voltage converters or adapters can save costs for users and reduce the complexity of the setup process.

2. Fast dynamic response speed, Our uv electronic ballast only takes 500ms from standby to full power output. Devices with fast dynamic response speed can improve user experience by delivering quick and responsive feedback. This can be particularly important for uv curing systems. Fast dynamic response speed helps maintain system stability by minimizing delays in responding to changes. This is crucial in applications where stability is critical, such as in power electronics or control systems. Faster response times can also contribute to energy efficiency by optimizing the performance of the device and reducing unnecessary energy consumption.

3. Stepless Dimming. Fiver's intelligent uv ballast, can Infinitely adjustable output power from 10% to 100% with smooth dimming, and the standby power can operate stably for a long period.

4. Independent air duct design, Our ballasts for uv applications effectively isolating components and pollutants, ensuring the power supply can operate in harsh environments for a long period.

5. Excellent heat dissipation, High Overload Capacity. This 50KW UV ballast, Integrated variable frequency fan control function, intelligently controlling the ventilation. enhancing the product's overload capacity..

6. LCD Operation Panel. Fiver's UV Power Supply units integrated LCD control panel, easy for operation.

7. Self-resonant Technology. Our uv stepless power supply utilizing self-resonant technology, by optimizing parameters, higher excitation voltage is achieved, making lamp ignition easier.

8. UV Light Intensity Detection. The addition of energy detection functionality allows for light intensity collection, alarm triggering when light intensity exceeds set values, and enables closed-loop control of light intensity.

9. Multipal Communication Interface. Standard RS485 communication interface, supporting Modbus RTU protocol.and expansion for CANopen and Ethernet communication.



Applications for This Fast Dynamic Response UV Ballast and Power Supplies.


Applications for This Fast Dynamic Response UV Ballast and Power Supplies..jpg


What Are The  Advantages of Curing and Coating in the Electronics industry with UV Technology?

Manufacturers in various industries, including aerospace, automotive, medical, and consumer electronics, utilize UV curing to enhance production efficiency and product quality. UV curing is a popular choice for electronics applications like adhesive bonding, component marking, gasketing, potting, encapsulating, and conformal coating. The quick curing process and lower temperatures of UV technology allow for faster production rates without risking damage to delicate electronic components.

UV curing facilitates in-line testing, streamlined assembly processes, reduced handling, improved throughput, and extended product lifespan. Additionally, UV curing eliminates the need for heat curing, saving space and energy in the production environment.


How does UV Curing Technology Contribute to the Improved Quality of Electronic Products in Various industries?


UV curing technology plays a crucial role in enhancing the quality of electronic products across various industries. By utilizing UV curing for processes such as adhesive bonding, component marking, and conformal coating, manufacturers can achieve precise and uniform results that contribute to the overall reliability and performance of electronic components. The rapid curing process of UV technology ensures consistent and durable bonds, reducing the risk of defects and ensuring product longevity. Additionally, UV curing helps to minimize the presence of contaminants and air bubbles, resulting in higher-quality electronic products that meet stringent industry standards.


What are the Key Advantages of Using UV Curing for Adhesive Bonding and Assembly in the Electronics Industry?

The key advantages of using UV curing for adhesive bonding and assembly in the electronics industry include fast curing times, precise control over the curing process, and the ability to bond a wide range of substrates. UV curing allows for rapid curing within seconds, leading to increased production efficiency and shorter cycle times. The process also offers excellent control over the curing process, ensuring uniform and consistent bonds across different components. Additionally, UV-curable adhesives can bond various substrates, including plastics, metals, and glass, providing versatility in electronic assembly applications. The low heat output of UV curing also minimizes the risk of thermal damage to sensitive electronic components, further enhancing the quality of adhesive bonding and assembly in the electronics industry.


How can manufacturers optimize their production processes by implementing UV curing for electronics applications?

Manufacturers can optimize their production processes by implementing UV curing for electronics applications in several ways. One key strategy is to streamline the assembly line by integrating UV curing equipment into existing production systems. This allows for seamless and efficient curing of adhesives and coatings, reducing bottlenecks and improving overall productivity. Additionally, manufacturers can benefit from the cost-effectiveness of UV curing technology, as it eliminates the need for lengthy drying times and energy-intensive curing methods. By leveraging the speed and precision of UV curing, manufacturers can achieve higher throughput rates and lower production costs, ultimately enhancing the efficiency and profitability of their operations.


What Are the Key Benefits of integrating Energy Detection Capabilities into UV Curing Systems?

Integrating energy detection capabilities into UV curing systems offers several key benefits. Firstly, it allows for precise monitoring and control of the light intensity, ensuring consistent and uniform curing results. This leads to improved product quality and reliability. Secondly, energy detection enables operators to optimize the curing process by adjusting parameters in real-time based on energy feedback, resulting in increased efficiency and reduced energy consumption. Additionally, the ability to detect and respond to fluctuations in energy levels enhances system safety and helps prevent potential issues that could impact the curing process.


How Does the Energy Detection Feature Enhance the Monitoring and Control of light intensity in UV Curing Systems??

The energy detection feature enhances the monitoring and control of light intensity in UV curing systems by providing real-time feedback on the amount of energy being delivered to the curing process. This allows for precise adjustments to be made to ensure optimal curing results and consistency in the final product. By monitoring energy levels, operators can also detect any fluctuations or abnormalities in the system, enabling timely intervention to prevent potential issues or defects in the curing process.




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