A high current inductor refers to a"₩ n inductor with high ₩≤¶stability and resist♦↓→☆ance to high current and high curΩ✔rent. It has the characteristic§≥§£s of a regular chip inductor,‍β but its performance differs grea✔≠tly from that of a regular inductor.

The high current inductor has the ch•Ω¶aracteristics of all SMD power induc±♦ εtors, in addition to ♥₹★the following features:

1. Magnetic shielding structure, closed♥φ magnetic circuit, strong resi Ω∏stance to electromagnetic inλ÷terference (EMI), ultra-low buzzin≤βε₩g, and high-density installatα>φion.

2. Low magnetic loss, l₹‌ow DC resistance, an✘σd the highest current among producβ≤ts of similar specifi&☆cations.

3. The modular structure is stu←↓≤rdy.

4. Small volume, large current, goodα ♦ temperature rise current an​®§d Saturation current under ✔∞ high frequency and high tempe ♥γrature environment.

5. Adopting a rapid pain↑÷₹∞t removal process, the surf↓ ace of the PIN pin is smooth, non deδ∑δformable, and easy to solde★₩¶>r.

6. Applied to industrial co♣ε"×ntrol motherboards, ₹↔laptops, on-board equipment, distri∑∞bution power systems,←Ω•™ DC/DC converters, LED drive ≈γ≠‌power supplies, communication equipm≥$ent, medical equipment, militar€→→y electronics, aerospace technology, e→≈♠tc.

High current inductance - The di¶φ←&fference between ordina™‌ry power inductance and high c☆§≠ urrent inductance:

1. High current resistanc↓σ≠"e, the high current inσ♠ductance coil is wound with thick and  ♦flat wires, which can withs&σtand high current an✘✘‍d can withstand up to 80A curren₩<>∏t.

2. High stability, high curre↕‍nt inductance adopts a ful‌‌¶πly enclosed magnetic λ'​shielding structure, w‌•δ★hich has good sealing and ✘€₩high stability.

3. Widely applicable'>"↓, high current inductors haπ÷♠ve strong weather resistance and ♠β↓can be used on computer ‍®motherboards, microcontrδ≤βollers, graphics cards, and other lon≈§↕λg-term working devices.

Ordinary power inductors can only be u £sed as DC-DC modules,&♥₹→ filtering circuits, etc. Al♠↑∑πthough they play the sam →"‍e role, the responsibilit•∞$ y of high current inductors is much $®↕♦greater than that of ordinary poweα¥∞r inductors.