Panasonic, ETQP3M, 0530 Surface Mount Inductor with a Metal Composite Core, 4.7 μH Integral Construction ±20/±10 % 4.1 A

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RS-stocknr.:
122-1744
Fabrikantnummer:
ETQP3M4R7KVP
Fabrikant:
Panasonic
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Merk

Panasonic

Inductance

4.7μH

Product Type

Surface Mount Inductor

Maximum DC Current

4.1A

Package/Case

0530

Length

5.5mm

Automotive Standard

AEC-Q200

Minimum Operating Temperature

-55°C

Maximum DC Resistance

45.6mΩ

Maximum Operating Temperature

155°C

Series

ETQP3M

Inductance Tolerance

±20/±10 %

Termination Style

Surface Mount

Depth

5mm

Height

3mm

Core Material

Metal Composite

Standards/Approvals

RoHS

Maximum Self Resonant Frequency

100kHz

Inductor Construction

Integral Construction

Moulded

Yes

Land van herkomst:
JP

Panasonic ETQP3M Series Surface Mount Inductor, 4.7μH Inductance, 4.1A Maximum DC Current - ETQP3M4R7KVP


This surface mount inductor is designed for high-performance electronic applications, particularly in automotive settings. With Compact dimensions of 5.5mm x 5mm x 3mm, this model provides effective inductance of 4.7 μH while supporting maximum DC current of 4.1A. Its robust metal composite core ensures durability and efficiency in various conditions.

Features & Benefits


• AEC-Q200 compliant for automotive reliability

• Wire-wound construction provides improved inductance stability

• Shielded design minimises electromagnetic interference

• Low DC resistance of 50.16mΩ enhances energy efficiency

• Temperature range from -55 °C to +155 °C for versatile applications

• Compact footprint allows for efficient circuit design

Applications


• Ideal for automotive electronic control units

• Suitable for power supply circuits in Compact devices

• Used in signal filtering for communication equipment

• Effective in energy storage for DC-DC converters

What is the significance of AEC-Q200 compliance for this component?


AEC-Q200 compliance ensures that the inductor meets automotive standards, providing assurance of reliability and performance in automotive applications under various environmental conditions.

How does the shielding affect performance in electronic circuits?


The shielding reduces electromagnetic interference, leading to more stable performance in sensitive electronic applications, thus enhancing overall circuit efficiency.

What measures should be taken when operating at maximum temperature?


When operating near the maximum temperature of +155 °C, ensure adequate cooling and avoid prolonged exposure to high temperatures to maintain optimal performance and extend the component's life.

What advantages does wire-wound construction offer?


Wire-wound construction allows for a higher inductance Value and better current handling capabilities, making it suitable for applications requiring efficient energy storage and transfer.

How does low DC resistance contribute to energy savings in circuits?


A low DC resistance results in decreased energy loss as heat, enabling systems to operate more efficiently, which is Crucial for battery-powered or energy-sensitive applications.

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