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Finally meeting after two years - Electronica South China

Finally meeting after two years - Electronica South China

2023-10-27

Electronics South China exhibition will be held from October 30th to November 1st at the Shenzhen International Convention and Exhibition Center (Bao'an New Hall). Based in the Greater Bay Area of Guangdong, Hong Kong, and Macao, radiating into the markets of South China, Southwest China, and Southeast Asia, focusing on popular technology applications such as new energy vehicles, energy storage, data centers, intelligent cabins, smart homes, wearable healthcare, industry, edge AI, and intelligent sensing.

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Decrypting the electron beam welding production line of milliohm electrons

Decrypting the electron beam welding production line of milliohm electrons

2023-08-07

The electron beam welding production line for deciphering milliohm electrons is a high-precision and efficient welding method widely used in many fields, including aerospace, automotive manufacturing, and electronic equipment production. In this field, Microelectronics has become a leader in the industry with its leading technology and innovative capabilities. This article will take you in depth to understand the electron beam welding production line of milliohm electronics, and focus on introducing its key component - high-power splitter. Firstly, let's understand the principle of electron beam welding. Electron beam welding uses high-speed particles from the electron beam to heat the welding material, and uses high-energy electron beams to instantly heat the welding material to the melting point, achieving the welding effect. This welding method has the advantages of high welding seam accuracy, controllable depth of penetration, and small heat affected zone, making it particularly suitable for situations with extremely high welding quality requirements. In the electron beam welding production line of milliohm electrons, high-power splitters are a key component. A high-power splitter can distribute the energy of the electron beam to different welding areas, ensuring consistency and stability of welding quality. At the same time, high-power diverters can also be adjusted according to welding needs to meet the welding requirements of different materials. Its high efficiency and intelligent working mode enable electron beam welding of milliohm electrons

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Characteristics and advantages of low-temperature drift high-precision alloy resistance

Characteristics and advantages of low-temperature drift high-precision alloy resistance

2023-08-16

Low temperature drift high-precision alloy resistor is an electronic component with unique characteristics and advantages. In high-power diverters, low-temperature drift high-precision alloy resistors play an important role. This article will provide a detailed introduction to the characteristics and advantages of low-temperature drift high-precision alloy resistors, and explore their application in high-power diverters. Low temperature drift high-precision alloy resistance has the following significant characteristics. Firstly, it has a very low temperature coefficient, meaning that its resistance value changes very little under temperature changes. This feature enables low-temperature drift high-precision alloy resistors to maintain stable performance in environments with significant temperature changes. Secondly, it has extremely high accuracy and can provide very accurate resistance values. This is crucial for high-power shunts, as they require precise distribution of current across various branches. Once again, low-temperature drift high-precision alloy resistors have excellent high-temperature resistance and can operate stably for a long time in high-temperature environments. This enables it to withstand high-power loads in high-power diverters without performance degradation due to temperature rise. Low temperature drift high-precision alloy resistors have a wide range of applications in high-power diverters. Firstly, it can be used as a current detector to monitor the magnitude of the current by measuring the resistance value. This is crucial for ensuring the normal operation of the diverter

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How to choose a suitable high-power splitter?

How to choose a suitable high-power splitter?

2023-08-16

How to choose a suitable high-power splitter? A high-power splitter is a device that can distribute electrical energy to different circuits, and it plays a crucial role in many fields. However, there are various high-power diverters to choose from in the market, which makes it easy for people to feel confused. In this article, we will explore how to choose a suitable high-power splitter to help you make wise decisions. Firstly, we need to consider the power demand. High power splitters typically have different power output options, so you need to determine the power range you need. To achieve this, you need to consider the power requirements of the devices used in your circuit and ensure that the high-power splitter can meet these requirements. If your power demand is high, you may need to choose a higher power output splitter. Secondly, we need to consider the safety performance of the splitter. High power diverters generate heat during operation, so you need to choose a diverter with good heat dissipation performance to ensure its safe operation. In addition, you also need to ensure that the shunt has overload protection function to avoid damage to the equipment due to overcurrent conditions. In addition, the reliability of the splitter is also an important consideration. You need to choose a certified brand,

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What is the difference between manganese copper resistors and other resistors?

What is the difference between manganese copper resistors and other resistors?

2023-08-16

What is the difference between manganese copper resistors and other resistors? The resistor in electronic devices is a very important component that can help control the flow of current. Manganese copper resistance is a common type of resistance that is widely used on circuit boards. So, what is the difference between manganese copper resistors and other resistors? Firstly, the materials used for manganese copper resistors are different from other resistors. Manganese copper resistors are made of manganese copper alloys, while other resistors can use different materials such as carbon, ceramics, graphite, and metal films. Therefore, manganese copper resistors differ from other resistors in terms of performance and characteristics. Secondly, the accuracy and stability of manganese copper resistors are also different from other resistors. Manganese copper resistors have high accuracy, typically reaching 1% or higher. In addition, manganese copper resistors have high stability and can maintain their performance for a longer period of time. In contrast, other resistors may have significant errors and drift, requiring frequent calibration and replacement. Finally, the temperature coefficients of manganese copper resistors and other resistors are also different. The temperature coefficient of manganese copper resistance is small and can maintain relatively stable resistance values at different temperatures. The temperature coefficient of other resistors is relatively large, and temperature changes can lead to changes in their resistance values. In summary, there are differences in material, accuracy, stability, and temperature coefficient between manganese copper resistors and other resistors

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Why choose manganese copper resistance better than other alloy resistance?

Why choose manganese copper resistance better than other alloy resistance?

2023-08-16

Manganese copper resistor is a high-quality resistance material that has better performance and usage effect compared to other alloy resistors. This article will provide you with a detailed introduction to the characteristics and advantages of manganese copper resistors, allowing you to better understand the advantages of this resistance material. The advantages of manganese copper resistance are mainly reflected in the following aspects: firstly, the temperature coefficient of manganese copper resistance is very small, which means that the resistance value of manganese copper resistance changes relatively small at different temperatures, which is very advantageous for some circuits that require high stability. 2、 Good stability: Due to the small temperature coefficient of the manganese copper resistance, the resistance value of the manganese copper resistance changes very little at different temperatures, which makes the manganese copper resistance very stable during long-term use. 3、 The material of manganese copper resistor with long service life has excellent corrosion resistance, so it is not easily affected by the environment during use, and its service life is longer than other alloy resistors. In short, manganese copper resistance is a very excellent resistance material, which has excellent characteristics such as low temperature coefficient, good stability, and long service life. If you need to choose a high-performance resistance material, manganese copper resistance will be your better choice.

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