Tester per scariche parziali: Tutto quello che devi sapere

Partial discharges are a common phenomenon in electrical systems and devices operating at high voltage. They occur when a discharge happens within the insulation of electrical components before a complete insulation breakdown occurs. These discharges can cause severe damage and significantly shorten the lifespan of high-voltage systems. Partial discharge measuring devices are used to measure and detect partial discharges early. In this article, you will learn why partial discharge measuring devices are crucial in the quality control and maintenance of high-voltage systems and how to choose the right devices for your application. 

What are Partial Discharge Measuring Devices? 

Partial discharge measuring devices are specialized instruments used to detect and measure partial discharges in electrical insulation. These devices can capture small discharge impulses that occur in high-voltage systems without causing a complete breakdown. These discharges are often a sign of insulation degradation and, if not detected in time, can lead to more significant damage over time. 

Partial discharges can occur in various electrical components such as cables, transformers, generators, and switchgear. Therefore, measuring partial discharges is an essential part of the routine maintenance and safety testing of high-voltage systems. 

Key Features of Partial Discharge Measuring Devices 

Partial discharge measuring devices offer several features specifically designed for the detection and analysis of partial discharges. The most important features include: 

• Detection of Partial Discharges: The primary task of a partial discharge measuring device is to accurately capture discharges within the insulation. These devices are designed to detect even the smallest discharge impulses, which are invisible to the naked eye. 
  
• Measurement of Discharge: Partial discharge measuring devices measure the strength and frequency of discharges that may indicate damaged insulation. These measurements help assess the condition of the insulation and determine the need for repairs or maintenance actions. 
  
• Determination of the Partial Discharge Level: The measurement results from a partial discharge measuring device provide important information about the severity of the partial discharge. A high value may indicate serious insulation issues, while a low value suggests that the insulation is still in good condition. 
  
• Frequency Analysis: Some advanced partial discharge measuring devices offer a frequency analysis of discharge impulses to precisely determine the source of the discharges. This helps identify potential weak points in the insulation or electrical components. 
  
• Localization of Discharges: For larger systems and devices, locating partial discharges can be critical. Some partial discharge measuring devices can pinpoint the location of the discharge within specific parts of the system or component, making maintenance and repair work more efficient. 
  

Why are Partial Discharge Measuring Devices Important? 

The significance of partial discharge measuring devices lies primarily in their ability to detect insulation problems early, before they lead to severe damage or failures. Regular measurement of partial discharges offers a variety of benefits: 

• Early Problem Detection: Partial discharges are often a precursor to future insulation failure. By identifying partial discharges early, companies can take action before more significant damage occurs and expensive repairs are needed. 
  
• Extension of System Lifespan: By continuously monitoring and timely maintaining the insulation, companies can extend the lifespan of their high-voltage systems and reduce the likelihood of failures. 
  
• Improved Safety: Partial discharges can, in the worst case, lead to a complete insulation breakdown, causing dangerous short circuits or fires. A partial discharge measuring device can detect such risks early and prevent them. 
  
• Reduction of Downtime: Through preventive maintenance based on partial discharge measurement results, downtime can be significantly reduced. This not only saves costs but also ensures the continuous operation of systems. 
  
• Compliance with Standards: Many industries have strict regulations and standards that require regular measurement of partial discharges to ensure the safety and efficiency of electrical systems. Partial discharge measuring devices help meet these requirements and ensure compliance with standards. 
  

Applications of Partial Discharge Measuring Devices 

Partial discharge measuring devices are important in various industries and applications. Key areas of use include: 

• Power Supply Industry: In the power supply industry, partial discharge measuring devices are used to test transformers, cables, and other high-voltage components. Monitoring partial discharges helps detect problems and ensures the operational safety of the power grid. 
  
• Electrical Industry and Mechanical Engineering: In the electrical industry, partial discharge measuring devices are used to monitor electrical systems, machinery, and equipment. These measurements are crucial for quality control and maintaining electrical safety. 
  
• Automotive Industry: In the automotive industry, particularly with electric and hybrid vehicles, partial discharge measuring devices are used to monitor high-voltage batteries and electrical systems, ensuring they are properly insulated. 
  
• Medical Devices: In medical technology, partial discharge measuring devices are used to monitor the insulation of medical devices that operate with high voltage, such as X-ray machines, MRIs, and defibrillators. 
  
• Research and Development: In research and development for high-voltage systems and new technologies, partial discharge measuring devices are used to test the insulation of prototypes and new devices. 
  

Tips for Selecting the Right Partial Discharge Measuring Device 

Choosing the right partial discharge measuring device depends on several factors. Here are some key criteria to consider: 

• Measurement Range and Sensitivity: Ensure that the partial discharge measuring device covers the required measurement range and sensitivity for your applications. The measurement range can vary depending on the device type. 
  
• User-Friendliness and Interface: The device should provide an easy-to-use interface that allows for quick and simple measurements. 
  
• Frequency Analysis and Localization: If you need detailed information about the source of partial discharges, choose a device that offers frequency analysis and the ability to locate discharges. 
  
• Certifications and Standards: Ensure that the partial discharge measuring device complies with relevant safety standards and is certified for reliable and accurate measurement. 
  
• Portability and Durability: If you need to use the device on-site, ensure that it is portable and durable to provide reliable performance even in harsh conditions. 
  

Partial Discharge Measuring Devices as Key to Preventive Maintenance 

Partial discharge measuring devices are indispensable tools for monitoring electrical insulation and detecting issues early in high-voltage systems. They help ensure the safety and reliability of electrical systems by capturing small discharges that indicate potential insulation problems. By regularly measuring and analyzing partial discharges, companies can operate their systems more efficiently, avoid costly repairs, and extend the lifespan of their electrical components.