4.7UH Large Current Shielded Surface Mount High Power Inductor
Magnetic Multilayer1.Product DescriptionThe 4.7μH Magnetic Shielded Multilayer Inductor is a sophisticated
electronic component designed to meet the demands of modern - day
electronics. With an inductance value of 4.7μH, it is well - tuned for
applications that require precise energy storage and transfer. Its magnetic shielding, crafted from high - quality magnetic
materials, serves a dual purpose. It effectively curbs the electromagnetic interference (EMI) emitted
by the inductor, preventing it from disrupting nearby sensitive
components in a circuit. Simultaneously, it shields the inductor from external EMI sources,
ensuring stable performance even in electrically noisy
environments. The multilayer construction of this inductor offers several
advantages. It increases the inductance density, allowing for a more compact
form factor while maintaining high performance. This makes it an ideal choice for space - constrained applications,
such as in smartphones, wearable devices, and compact circuit
boards. In power - management circuits, the 4.7μH Magnetic Shielded
Multilayer Inductor plays a crucial role in filtering out high -
frequency noise and stabilizing the power supply. It stores electrical energy during periods of low demand and
releases it when the load requires a sudden surge of power. This helps in maintaining a consistent voltage level, protecting
delicate electronic components from voltage fluctuations. Additionally, in signal - processing applications, it can be used
to isolate and filter signals, enhancing the quality and integrity
of the transmitted data. Overall, this inductor combines high - performance capabilities
with a compact design, making it an essential component in a wide
range of electronic devices. 2.Product Advantages | Advantage | Description | | Precise Inductance Value | The 4.7uH inductance value is highly precise, which is crucial for
applications demanding accurate energy storage and transfer. In
circuits where specific electrical characteristics need to be
maintained, such as in high - precision measurement devices or
certain types of communication modules, this accurate inductance
value enables stable operation. For example, in a radio - frequency
(RF) circuit, the 4.7uH value can help in tuning the circuit to the
exact frequency required for signal transmission and reception,
ensuring optimal performance. | | Effective Magnetic Shielding | Constructed from high - quality magnetic materials, the magnetic
shielding has a two - fold benefit. Firstly, it significantly
reduces the electromagnetic interference (EMI) generated by the
inductor itself. In a densely - populated circuit board with
multiple components, this shielding prevents the inductor from
interfering with other sensitive components like microcontrollers
or analog - to - digital converters. Secondly, it shields the
inductor from external EMI sources. In an industrial environment
filled with strong electromagnetic fields from motors and other
machinery, the shielded inductor can maintain its performance
without being affected, ensuring the reliability of the circuits it
is part of. | | Multilayer Structure Benefits | The multilayer construction increases inductance density. This
allows for a more compact form factor while still maintaining high
performance. In space - constrained applications such as
smartphones, wearable devices, and miniaturized electronics, the
compact size of the 4.7uH Magnetic Shielded Multilayer Inductor is
highly advantageous. It enables manufacturers to fit more
components on a limited - size circuit board, contributing to the
overall miniaturization and portability of the device.
Additionally, the multilayer structure can enhance the inductor's
ability to handle higher currents, as the multiple layers
distribute the current more evenly, reducing the risk of
overheating and improving the inductor's lifespan. | | Versatile Application Suitability | In power - management circuits, the inductor plays a vital role in
filtering high - frequency noise and stabilizing the power supply.
It stores energy during low - demand periods and releases it during
peak - load times, maintaining a consistent voltage level and
protecting sensitive electronic components from voltage
fluctuations. This is particularly important in battery - powered
devices, where stable power is essential for long - term operation.
In signal - processing applications, the inductor can isolate and
filter signals, enhancing the quality and integrity of transmitted
data. Whether in a wired communication system or a wireless
network, the inductor helps to ensure clear and reliable signal
transmission, making it suitable for a wide range of electronic
devices and systems. |
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4.Company Profile
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