TWW3J1R5E

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Through Hole Resistors are widely used in various fields such as power electronic and power engineering applications. In order to meet the high power and high frequency performance needed in these applications, the technique of using TWW3J1R5E through hole resistors was developed.

Tube while welding (TWW) process involves the welding of two metal plates, for example, nickel, which are embedded in a plastic material. This plastic material is then filled with a toluene or ABS resin. This provides a unique form of wire-to-board assembly process that can be used for through hole resistors.

A TWW3J1R5E application field is used in high thermal cycling applications, including on-board resistors, high temperature and thermal conductivity applications, such as automotive, aerospace, and industrial enterprises. It is also used as the preferred application in printed circuit boards (PCBs) for the high-temperature, high power requirements in industrial controls.

The working principle of TWW3J1R5E Through Hole Resistor is based on a system of components that comprise two opposing laser emitters, two opposing laser receivers, two x-ray emitter plates, and a single laser receiver. When the x-rays interact with the surrounding material, they cause a thermal reaction which in turn weakens the structure of the material. This process can achieve a maximum weak spot of 0.079 mm.

Once this weak spot has been achieved, the two opposing laser emitters can create a strong laser beam which penetrates the material. This laser beam is then received by the receiver plate, and then is amplified by the laser receivers. The amplified signal is received and transmitted by the receiver to the x-ray plate.

The TWW3J1R5E Through Hole Resistor\'s x-ray plates are then used to weld the two metal plates together. The tight bonding between the two metal plates ensures a long life of the resistor. This process is suitable for high resistance and high accuracy applications.

The TWW3J1R5E Through Hole Resistor also has significant advantages in terms of power dissipation and current switching. The process increases the current density in the resistor by a factor of 4 and also reduces the temperature rise of the resistor by up to 50%. This increases its efficiency. Additionally, the process also reduces the thermal conductivity of the resistor by up to 10%.

The TWW3J1R5E Through Hole Resistor provides many advantages for various applications that require high power and high frequency performance. Its precise welding process guarantees long life and high efficiency for resistors. Furthermore, its x-ray plates also provide increased temperature and current switching ability, resulting in more efficient, reliable, and cost effective resistors.

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