H4768KBCA

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Through hole resistors are a key component of most electrical systems. When dealing with high power applications, it is usually necessary to use thick walled resistors that can handle the heat generated. The H4768KBCA is a thick walled resistor that is designed to resist the heat, over-current, or shock that is created in high power applications. It is an ideal choice for applications such as base station power supplies, industrial process control systems, industrial automation systems, and power line systems.

The H4768KBCA is designed with a two-layer construction that is resistant to physical damage and helps reduce the resistance of the resistor. It is made out of high quality, lead-free silver and bismuth nitride. This combination of metals makes it very durable and able to resist high temperatures up to 350°C (660°F). The H4768KBCA also has a very low thermal impedance, making it ideal for applications that use high power for long periods of time.

The H4768KBCA has a high thermal resistance rating of 1.4W/K, which is ideal for applications that require efficient heat dissipation. The package construction of this resistor is also designed to prevent short circuits and provide superior resistance to mechanical shocks. The H4768KBCA is also able to dissipate up to 30 watts of heat, which is more than enough for most applications.

The working principle of a through hole resistor is simple. When an electrical current is applied, it causes a resistive force to be generated, which is proportional to the applied current. This resistive force consumes some of the current and reduces the voltage of the electrical signal. This reduction in voltage helps protect sensitive components from over-voltage that could damage them. The resistive force also generates heat that needs to be dissipated in order for the resistor to remain cool and remain within its thermal specifications.

The H4768KBCA is an ideal choice for high-power applications due to its excellent electrical and thermal properties. It is designed to resist the heat, over-current, or shock that is created in high power applications. Its two-layer construction helps reduce the resistance and provides excellent mechanical shock resistance. This resistor is also rated to dissipate up to 30 watts of heat and has a very low thermal impedance, making it ideal for applications that require efficient heat dissipation.

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