H476K8BCA

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Through Hole Resistors are resistors that get fixed directly into a circuit or hardware by being pushed through a circuit board\'s holes and then soldered onto the opposite side. H476K8BCA is a particularly popular type of through-hole resistor because it is relatively cheap and is widely used in various applications. This article will discuss the application field and working principle of the H476K8BCA resistor.

In general, H476K8BCA resistors are most commonly used in low power applications where tolerances are not particularly strict. Common applications include audio and video circuitry, personal computers, and telecommunications. These resistors can be used to maintain currents, limit currents, and divide voltages, making them a versatile component.

The H476K8BCA resistor is made up of a resistor element surrounded by an insulating material or coating to enclose it and prevent it from having contact with other conductive materials. The element is typically made up of a resistive material, such as graphite, that is electrochemically deposited and then etched into sheets or films. The material is then rolled up and coated with an insulating material. The amount of resistance the resistor element has depends on the type of material used, the coating thickness, and the length and width of the resistor element.

The amount of current a H476K8BCA resistor can handle depends on the amount of power that is passing through it. The power determines the resistance of the resistor and the amount of current that passes through it. If the current going through the resistor is too high, it will heat up and eventually fail. Therefore, the maximum power it can handle must be taken into account when selecting the correct resistor for a particular application.

H476K8BCA resistors are also designed to withstand extreme temperatures, making them a popular choice for applications which need to withstand hydrothermal testing. By forming the resistive element out of materials that have high thermal conductivity, the resistor is able to dissipate heat more quickly, allowing it to withstand higher temperatures without failing. This makes it ideal for those applications that require reliability in high temperatures.

In conclusion, the H476K8BCA resistor is a versatile, low-cost component that is widely used in a variety of applications. Its ability to withstand higher temperatures makes it an ideal choice for applications that need to withstand extreme temperature environments. Its resistance is determined by the materials used and the coating thickness, allowing it to be used in low power applications where tolerances are not strictly necessary.

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