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TDK’s CLF-NI-D series wire-wound power inductors are products that benefit from the use of highly heat resistant materials, unique structural designs and methods. The products offer high reliability across a wide range of temperatures from -55°C to +150°C.
Find the best inductor! REDEXPERT has the world’s most accurate AC loss model, which even includes the DC-bias current. With dedicated DC-DC topologies or the generic loss simulator, you can accurately determine the AC and DC losses for your converter.
Characteristics. WE-KI series offers you an excellent Q factor and highest possible self resonant frequencies up to 12.5 GHz. High quality. Inductance tolerances: 2% and 5% High thermal stability. Recommended soldering: Reflow. Operating temperature: –40°C to +125°C. Custom designs on request. Applications.
Inductor coil winding machines can ensure consistent winding with precise control over the number of turns, wire tension, and layering patterns and have built-in sensors or monitoring systems to detect faults or irregularities during winding, ensuring higher-quality products and minimizing defects.
FEATURES. Very strong solderability by reflow • Highly resistant to mechanical soldering, soldering iron or wavesoldering shocks and pressure. Highly accurate dimensions • Highly reliable in sudden. Automated mounting capable temperature and humidity changes. Terminals are highly resistant to • Superb Q characteristics pull forces.
Wire-wound inductors are formed by winding copper wire into a spiral shape around a ceramic core while the multilayer inductor is created by layering a ferrite material and a coil conductor to generate a multilayer inductor (Figure 2).
Wire wound chip inductor Product features • 1210 (3225 metric) package • High Q value • Tight inductance tolerance • Inductance range from 0.12 uH to 560 uH • Moisture sensitivity level (MSL): 1 Applications • Industrial connectivity (IoT) • Computing/gaming consoles • Smart meters • Industrial equipment • Machine-to-machine ...
