1uH, 17A Low Profile Molded Power Inductor
SEP0604EB-1R0M-LF
1uH, 17A Low Loss Molded Power Inductor
Low profile shielded high current power inductor with 4.0mm height and up to 10uH inductance value. Typically the molded power choke need to support a ripple current without saturating. For this SMD molded high current inductor, 1uH could carry 17 Amps of saturate current. The core material is low core loss and also excellent temperature stability, the inductance value will be similar from 25℃ to 125℃. It is able to meet the current requirement of high-density which will result in the high internal temperatures. Furthermore, the leakage of magnetic flux and audible buzzing will always be important point when doing the design. The molded power inductor also could avoid these two issues even in the high density mounting. The process of the molded will utilize the high pressure to let the gap between each particles as small as possible. Hence, any vibrations in the winding are restrained by the molded construction and only little leakage of magnetic flux will happen.
Customization
Except for the standard characteristic of our series specification, Coilmaster Electronics also offer the customization product with low minimum order quantity (MOQ). Because our engineer team has a solid background at ferrite powder territory, we could modify the core powder, design and produce the most suitable product to fit customer's applications.
Leadtime
Coilmaster’s standard lead time is 6~8 weeks, in urgent case, the fast delivery program is available. For specific product series, we could send out the goods within 10 or 20 working days.
Key features
- Metal Alloy, Magnetic Shielded Construction
- Low DCR
- Excellent temperature rise current
- Low Profile 3mm
- Ultra low buzz noise
- Energy storage up to 3MHz
Applications
- Notebook, DC to DC converter, Desktop, IPC, Converter, Power supplies
- Graphics cards, battery power systems(BPS), CPU
Construction
- Shielded Inductor
Size(mm)
- 7.5x6.8x4.0
Inductance(uH)
- 1
Inductance tolerance
- ±20%
Test Frequency(MHz)
- 0.1
Isat(A)
- 17
Irms(A)
- 14
DCR(mΩ)
- 7
- Related Product
370Ω, 0.22A Wirewound chip common mode choke
MM2012-371-LF
370Ω, 0.22A Wirewound chip common mode choke utilize the ferrite powder as the core body....
Details Add to List31Ω, 6A SMD high current chip ferrite bead
MI3216-310-6A-LF
The high current bead from Coilmaster is the reliable solutions to enhance signal quality,...
Details Add to List8.2uH, 3.2A Semi Shielded Chokes
SQH6045S-8R2M-LF
Semi-shielded SMT High Current Power Inductor - SQH6045S series with footprint 6.2x6.2mm and low profile...
Details Add to List- Download
1uH, 17A Low Profile Molded Power Inductor | Magnetic components | Transformer, Inductor, Choke Manufacturer | Coilmaster Electronics
Located in Taiwan since 1995, Coilmaster Electronics Co., Ltd. has been a manufacturer of magnetic components. Its main magnetic components include, 1uH, 17A Low Profile Molded Power Inductor, 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.