Through Hole Resistors
CF14JT47R0 is a type of through hole resistor, consisting of a resistive element and a terminal. It is the most widely used type of low-power electronics component. It can be used as a device for limiting the current in circuits, especially for circuit protection, signal attenuation and power dissipation.
Application Field
CF14JT47R0 is typically used in low-power applications such as instrumentation, test equipment, and low-power consumer electronics. Since they can be cheaply manufactured in a wide variety of sizes, shapes, and configurations, they are the most common high-power resistor of choice for many applications. Additionally, through hole resistors are equally suitable for low-current and high-current applications.
Generally speaking, through hole resistors are commonly used in power supplies, amplifier circuits, motor controls, and communication applications. Furthermore, CF14JT47R0 like other through hole resistors are used for signal or audio attenuation, overload protection, and level shifting in logic circuits. In a variety of applications, such as in robotics and scientific instruments, they are likewise used to suppress interference signals.
Working Principle
CF14JT47R0 resistor works in the same way as any other through-hole component. It operates by presenting a relatively low electrical resistance to the flow of electrical current, while its terminals allow connection of multiple components in a circuit. A typical resistor consists of a resistive element and two terminals which are connected to each other.
The resistive element is often composed of metal, carbon, or polyester materials. This material is designed to increase the resistance of the resistor so that it can prevent current from flowing through the circuit. The terminal contacts of the resistor are usually connected to other components in the circuit. These terminals form an electrical circuit because the electrical current that flows through it will be proportional to the resistance of the part.
An ideal resistor operates in such a way that when the applied voltage is increased, the current through the resistor increases and vice versa. This is known as Ohm\'s law, which not only applies to resistors but is also applicable to many other types of circuit elements. The total resistance of any identifiable circuit element is calculated by taking the inverse of the total current divided by the total voltage applied to the element.