CFM14JT3K00

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Through Hole Resistors are devices that are used to contain or transfer electrons in electrical circuits. CFM14JT3K00 is a non-inductive, axial-leaded, carbon-film power resistor which is typically used for low power applications. This type of medical device reduces electrical noise and dissipates heat energy in control circuits.

The application field of CFM14JT3K00 is mainly in low power electrical circuits. It is suitable for applications in medical, medical equipment, electrical machinery, home appliance, and information application, as long as the voltage and current requirements are met. There are also specific areas such as remote sensing, vibration sensors, and acceleration sensing that use this type of resistor.

CFM14JT3K00’s working principle is fairly simple. In a normal operating environment, the resistor’s resistance limits the flow of current in the circuit. When the flow of current through the resistor reaches a certain level, the resistance will heat up, producing a voltage drop across it. This voltage drop decreases the current flow, thereby controlling the flow of electricity in the circuit.

The structure of the CFM14JT3K00 consists of two components - a ceramic core and a resistive film. The ceramic core has an inner ferrite material which provides the electrical insulation. The resistive film is made up of a metal film, such as copper or nickel-plated copper, which is then covered with carbon, or other resistive material to provide an even electrical resistance across the resistor.

The CFM14JT3K00 uses a high-precision ceramic substrate for contact electrodes on its two ends. This ensures a low-resistance connection and also provides electrical insulation between the two objects. The contact electrodes have two protrusions on their inside edges, which create an electrical contact point. This contact point ensures a low-resistance link, which enables the resistor to function correctly.

When using the CFM14JT3K00 in an electrical circuit, it is important to understand the current-voltage (I-V) relationship and the meaning of the resistor\'s values. The I-V relationship defines the maximum current that the resistor can handle before it becomes hot, and should be specified before installing it. The resistor will always operate with a voltage across it, which will affect its resistance and current flow. As the resistance and current flow increases, the voltage will drop and the element will become hot.

CFM14JT3K00 is designed to protect electronic systems from overcurrent and high inrush currents. It also provides a steady voltage supply to the components in the circuit. This type of resistor is a great choice for applications that require low power consumption and a more cost effective option compared to other resistive devices. In addition, its compact size and low temperature rise makes it an ideal choice for high density, compact circuits.

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