CW010400R0KE733

Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us:   sales@allicdata.com

Through-Hole Resistors are objects that are designed to impede the flow of electric current, producing a voltage drop across the object for a given current. This resistance is measured in ohms and developed from a combination of both the design of the object and the material it is made up of, usually metal or ceramic. The CW010400R0KE733 is an example of a through-hole resistor designed to be as versatile as possible. It is used in a variety of applications and works on the principle of impedance.

The CW010400R0KE733 is a through-hole resistor that is designed for high accuracy, precision, and performance. This type of resistor is manufactured to meet the various needs of the industrial and military electronics communities. It is constructed from high-density ceramic and is equipped with metalized electrodes. These electrodes are designed to offer improved thermal and electrical stability. The body of the device is designed to facilitate better thermal conduction properties, allowing for better performance with minimal thermal stress.

The CW010400R0KE733 has a wide range of applications, allowing it to be used for a variety of applications in fields such as industrial and military electronics, automotive, medical and power conversion. The resistor can be used to control the amount of voltage or current applied to a circuit, regulate the amount of power that can flow through a circuit, balance loads, or to isolate one part of a circuit from another. In addition, the resistor can also be used to absorb transient currents and reduce common-mode voltage. The resistor is also designed to withstand extreme temperatures, vibration, and shock, making it suitable for use in harsh environments.

The working principle of the CW010400R0KE733 through-hole resistor is based on the concept of impedance. This concept is based on the relationship between voltage, current, and resistance in an electrical circuit. Impedance is the ratio of voltage and current, and is mainly composed of resistance, inductance, and capacitance. The resistance of the resistor will cause an opposing current, which will result in a voltage drop along the resistor. This voltage drop will depend on the resistive value of the resistor, as well as the amount of current that is passing through the resistor. The voltage drop can also be used to regulate the load of the circuit. For example, increasing the voltage drop will cause a decrease in the load of the circuit.

The CW010400R0KE733 through-hole resistor is an example of a versatile resistor that can be used in a wide variety of industrial and military applications. It is designed to provide improved thermal and electrical stability, allowing for optimal performance. Its wide range of applications allows it to be used for voltage and current control, power regulation, load balancing, and transient current absorption. Finally, its working principle is based on impedance, with its resistance causing a voltage drop along the resistor for a given amount of current. This voltage drop can be used to regulate the load of the circuit.

The specific data is subject to PDF, and the above content is for reference