Multilayer Chip Beads / Chip Inductors
RF chip inductors, Thin film chip bead
Chip Beads (multilayer structure) are a reliable solution for a wide range of electronic circuit applications. They come in various sizes and specifications, ensuring long-lasting and trouble-free use. Ferrite beads, also known as ferrite chokes, are passive electronic components that effectively suppress or filter high-frequency noise in circuits. These noise suppression devices work by dissipating high-frequency currents in a ferrite ceramic. Ferrite beads may also be referred to as blocks, cores, rings, EMI filters, or chokes. They are an ideal solution to mitigate EMI issues due to their cost-effectiveness, ease of use, broad range of characteristics and dimensions, and availability in different materials to suit various applications.
SMD multilayer chip inductor is formed by several layers of ceramic (ferrite) material. Multilayer chip inductors feature with low cost and miniature size compared to the wire-wound inductor. The multilayer inductor builds up the gap between the wirewound and thin-file type of RF inductor. The inductance value, Q factor, rated current, dimension, price, and other characteristics, all of these have a good balance in this multilayer structure. A Multilayer inductor is suitable for RF circuit matching, wireless applications, or other communication / portable devices.
SMD thin film chip inductor, the structure of this RF inductor is similar to a multilayer chip inductor but the coil is formed with high accuracy of micro-processing technology. This thin file chip inductor has a miniature compact size of 0603 (0.6*0.3mm) and has an excellent q factor and SRF (self-resonant frequency) value. This thin file RF inductor is suitable for RF circuit matching and resonance applications.
The chip beads/chip inductors / thin film chip inductors could be used on the below applications, such as smartphones, Personal computers, TV remote control, audio players, DVDs, game machines, tablets, and several other electronic circuits.
Applications
- RF module of telecommunication products, cellular phones, computer communications, Display Monitor, Gaming Machine, etc…
Ceramic Thin Film Chip Inductors
Thin film ceramic chip inductor features high frequency, high SRF, Excellent Q factor, and superior...
Ferrite Multilayer Chip Beads
Ferrite chip beads (multilayer) have different sizes from 0603(0201) to 8530(3312), As known...
Ceramic Multilayer Chip Inductors
Ceramic chip inductors (multilayer structure) aim at high frequency applications, such as signal...
Multilayer Ferrite Chip Inductors
Normally, the Inductors of the multilayer structure will be chip beads to work as the EMI filter....
Multilayer Chip Beads / Chip Inductors | High Current Power Inductor Manufacturer | Coilmaster Electronics
Located in Taiwan since 1995, Coilmaster Electronics Co., Ltd. has been a manufacturer of magnetic components. Its main magnetic components include, Multilayer Chip Beads / Chip Inductors, common mode chokes, SMD molding power chokes, chock coil inductors, SMD shielded and semi-shielded power inductors, low profile and high current power inductors, high voltage power inductors, ethernet and LAN power transformers, flat wire inductors, RJ45 jacks with integrated magnetics and high frequency transformers, and ceramic or air coil multilayer chip inductors.
Coilmaster is a professional manufacturer for inductor, common mode choke, chip beads and transformer. Our vision is “Creating high-performance inductors, reducing energy loss, and contributing to sustainable” To achieve this, our engineer team is keen to design the power inductor to have better efficiency. With more than 20 years of experience in magnetic territory, Coilmaster Electronics is specialized in the production of SMD power inductors, common mode choke, high frequency transformers.
Coilmaster Electronics has been providing customers with high current power inductors since 1995, with both advanced technology and 29 years of experience, Coilmaster Electronics ensures that each customer's requirements are met.