Alloy Molded 100 One-piece Chip Power Inductor Magnetic Shielding
Structure
1.Product Description
The Alloy Molded 100 Chip Power Inductor is a high - performance
electronic component designed for power - intensive applications.
With the "100" likely indicating a specific inductance value (such
as 100 microhenries, though it could vary depending on the
manufacturer's naming convention), it offers a defined inductance
crucial for tasks like energy storage and filtering in power -
related circuits. Its alloy - molded construction provides enhanced
mechanical strength and thermal conductivity. This not only ensures
the inductor can withstand harsh operating conditions but also
effectively dissipates heat generated during operation, maintaining
stable performance. The chip - type design allows for easy surface
- mount integration onto printed circuit boards (PCBs), making it
suitable for space - constrained applications, similar to modern
smartphones, tablets, and compact power supplies. It is engineered
to handle substantial electrical currents, meeting the power
demands of various circuits and ensuring stable operation under
different load conditions, playing a pivotal role in power
conversion and management systems to regulate current and voltage
efficiently.
1. Excellent electrical performance: with a specific inductance
value, “100” probably means 100 microhenries, this precise
inductance value is crucial for energy storage and filtering in
power-related circuits, and can efficiently fulfill the task of
guaranteeing the normal operation of the circuits. At the same
time, it is designed to carry high currents to meet the power
requirements of various circuits, ensure stable operation under
different load conditions, and efficiently regulate current and
voltage in power conversion and management systems.
2. Good physical characteristics: the alloy molded structure
greatly enhances the mechanical strength, enabling it to withstand
harsh working conditions and is not easily damaged; it also has
excellent thermal conductivity, which can effectively dissipate the
heat generated during operation, maintain stable performance, and
reduce performance degradation and the risk of malfunction due to
overheating.
3. High application convenience: The chip-based design facilitates
surface mount integration onto printed circuit boards (PCBs), which
is particularly suitable for space-constrained applications, such
as modern smartphones, tablet PCs and compact power supplies. This
design not only saves space, but also improves productivity and
facilitates mass production and application.
2.Performance Characteristics
| Performance Feature | Description |
| Inductance Value | Likely around 100 microhenries. This inductance value is crucial
for energy storage and filtering functions in power - related
circuits, ensuring accurate electrical performance. |
| Current - carrying Capacity | Engineered to handle substantial electrical currents, meeting the
high - power demands of various circuits. It can maintain stable
operation under different load conditions, which is essential for
power - intensive applications. |
| Package Type | Chip - type design for surface - mount technology (SMT). This
allows for easy integration onto printed circuit boards (PCBs),
especially suitable for space - constrained applications such as
smartphones, tablets, and compact power supplies, enabling
miniaturized circuit designs. |
| Thermal Conductivity | Due to its alloy - molded construction, it has excellent thermal
conductivity. This helps in effectively dissipating heat generated
during operation, maintaining stable performance and preventing
overheating, which could otherwise lead to performance degradation
or component failure. |
| Magnetic Shielding | Features magnetic shielding, which curbs electromagnetic
interference (EMI). It can work stably in noisy electrical
environments and also reduces the interference it may cause to
other components in the circuit, enhancing the overall
electromagnetic compatibility of the system. |
| Mechanical Strength | The alloy - molded structure provides enhanced mechanical strength.
It can withstand harsh operating conditions, including vibrations
and impacts during transportation and normal use, ensuring long -
term reliability and durability. |
| Tolerance Level | Although not explicitly stated by a letter like in some inductors,
it is likely to have a defined tolerance level for inductance. This
tolerance ensures that the inductance value remains within an
acceptable range, providing reliable performance in different
circuit applications. |
| DC Resistance | Has a relatively low DC resistance. This minimizes power
dissipation when current flows through it, increasing the overall
efficiency of the circuits it is part of and reducing unnecessary
energy consumption. |
