IMS02WWDBH6R8K40

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Fixed inductors are electronic components that act as coils or inductor devices that store electric energy in a magnetic field. The IMS02WWDBH6R8K40 is a commercial, high-temperature, ultra-compact chip inductor that offers ultra-high power, low insertion loss, low acacia, and high radiation tolerance. It is designed for use in high-power high-frequency systems that require high 3D electromagnetic field tolerance, and is provided in a standard 0603 package.

Feature

• Power rating: 2W
• Working frequency: DC to 1 MHz
• Inductance: 6.8 nH
• Size: 0603 (inch: 0.063x0.031)
• Insulation resistance: 100 Megohm
• DC resistance (DCR): 0.13ohm
• Current consumption: ±40 A
• Dropouts and spurious response: 6.4 dB (maximum)
• High temperature stability

Application Field

The IMS02WWDBH6R8K40 inductor provides a high power rating, low insertion loss and low acacia characteristics in a small package form. Its high temperature stability and ultra-high power specifications make it ideal for high frequency applications in the automotive, telecommunications, and military fields. Its ultra-high power capabilities and 3-dimensional electromagnetic field tolerance make it well-suited for high-power, high frequency and space constrained applications such as power amplifiers, high frequency transceivers, cellular base station modules, radar systems, IEEE 802.11 wireless LANs, WiMAX applications, High Capacity Data Residence, and satellite communication systems. In addition, it can also be used for high stability power source regulation circuits, DC-DC converters, motor drivers, and LED lighting control.

Working Principle

The working principle of an inductor is based on Faraday’s law of electromagnetic induction. This law states that a change in the magnetic field within a conductor will induce a voltage within the conductor that is proportional to the rate of change in the magnetic field. In the case of a fixed inductor, the magnetic field is constantly changing due to the current flowing through the device. This causes a voltage to be induced in the inductor. The voltage induced in the inductor is then used to generate a magnetic field, which is then used for various applications. In the case of the IMS02WWDBH6R8K40, this voltage is used to generate a high power, low insertion loss, low acacia, and high radiation tolerant inductor.

Conclusion

The IMS02WWDBH6R8K40 is a high power, ultra-compact chip inductor that offers high temperature stability, ultra-high power, low insertion loss, low acacia, and high radiation tolerance. It is suitable for a variety of applications such as power amplifiers, high frequency transceivers, cellular base station modules, radar systems, IEEE 802.11 wireless LANs, WiMAX applications, High Capacity Data Residence, and satellite communication systems. Its working principle is based on Faraday’s law of electromagnetic induction, whereby a change in the magnetic field within a conductor will induce a voltage proportionate to the rate of change in the magnetic field. This makes it an ideal choice for high-power, high-frequency, and space constrained applications.

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