Plastic Cover EMI Suppression Flat Nizn Ferrite Core SCFS TYPE

Quick Detail:

• Place of Origin:Guangdong, China
• Brand Name:VIIP
• Model Number:V18014FS
• Tolerance:±1%
• Delivery Time:within 7 days
• Item name:Flat ferrite
• Material:F9
• Impedance:155 ohm min at 100MHz
• Condition:EMC ,EMI
• PB Free Status:RoHS REACH
• Color:Black
• Operation Temperature:-40 to +125°C

Description:

RFI EMI Noise Suppressor Cable Clip:EMI RFI Noise Filter Clip;Ferrite core with plastic cover; Helps to reduce EMI on AC power lines.

Ferrite Cores:Reduce electro-magnetic interference and improve signal integrity; Easy to install, just clip it on and you will get clearer signal and faster data transmission.

Specifications:

What can you do with a ferrite core?

Ferrite cores are versatile components used in a wide range of electronic and electrical applications. Here are several common uses for ferrite cores:

EMI Suppression: One of the primary uses of ferrite cores is to suppress electromagnetic interference (EMI) in electronic circuits, cables, and wiring. They are often placed around cables or wires to absorb and attenuate high-frequency noise, reducing the impact of EMI on electronic devices and systems.

Inductors and Transformers: Ferrite cores are employed in the construction of inductors and transformers. When wound with wire, the ferrite core helps to concentrate and guide the magnetic field, enhancing the inductance and performance of these components.

Noise Filters: Ferrite cores are used in noise suppression and filtering applications, where they help to eliminate unwanted electromagnetic noise from power lines, signal lines, and data cables. They are commonly integrated into noise suppression devices and filters to improve the signal quality and reduce interference.

Power Supplies: Ferrite cores play a crucial role in the design of power supplies, where they are used in the construction of inductors and transformers to manage power conversion and distribution. They help to regulate and control the flow of electrical energy within power supply circuits.