Panasonic, ETQP4M Shielded Wire-wound SMD Inductor with a Metal Composite Core, 10 μH ±20% 5.2A Idc

Subtotal (1 reel of 500 units)*

£200.50

(exc. VAT)

£240.50

(inc. VAT)

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500 +£0.401£200.50

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RS Stock No.:
238-3591
Mfr. Part No.:
ETQP4M100KFN
Brand:
Panasonic
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Brand

Panasonic

Inductance

10 μH

Maximum DC Current

5.2A

Length

6.4mm

Automotive Standard

AEC-Q200

Depth

6mm

Height

4.8mm

Dimensions

6.4 x 6 x 4.8mm

Shielded

Yes

Tolerance

±20%

Series

ETQP4M

Core Material

Metal Composite

Maximum Self Resonant Frequency

100kHz

Maximum Operating Temperature

+150°C

Minimum Operating Temperature

-40°C

Moulded

Yes

Panasonic ETQP4M Series Wire-Wound Surface Mount Inductor, 10μH Inductance, 5.2A Maximum DC Current - ETQP4M100KFN


This wire-wound surface mount inductor is designed for high-performance applications in the electronics and automotive sectors. With dimensions of 6.4 x 6 x 4.8mm, this component ensures efficient power management and signal filtering. Its robust construction and compliance with AEC-Q200 standards make it ideal for critical automotive applications.

Features & Benefits


• Offers a nominal inductance of 10 μH for various electronic needs
• Handles a maximum DC current of 5.2 A to support high current levels
• Designed with metal composite materials for enhanced performance
• Features a maximum operating temperature of +150°C for reliability
• Shielded construction minimises electromagnetic interference
• Tolerance of ±20% ensures compatibility with diverse applications

Applications


• Used with automotive power management systems
• Suitable for filtering in communication equipment
• Ideal for energy storage in DC-DC converters
• Effective in power supply circuits for consumer electronics

What is the significance of the inductance value in your application?


The inductance value of 10 μH plays a crucial role in determining how the inductor reacts to changes in current, helping to stabilise voltage and optimise energy storage in circuit designs.

How does the maximum DC resistance of 44.44mΩ influence performance?


A low maximum DC resistance of 44.44mΩ ensures minimal power losses within the circuit, allowing for better efficiency and thermal management in high current applications.

What are the advantages of using a shielded inductor in sensitive electronics?


A shielded inductor reduces the amount of emitted electromagnetic interference, protecting sensitive components from noise that could disrupt functionality and performance in complex electronic systems.

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