Panasonic, ETQP5M, PCC-M Wire-wound SMD Inductor with a Metal Composite Core, 22 μH ±20% Wire-Wound 6.2A Idc
- RS Stock No.:
- 106-7521
- Mfr. Part No.:
- ETQP5M220YFC
- Brand:
- Panasonic
Subtotal (1 reel of 1000 units)*
£536.00
(exc. VAT)
£643.00
(inc. VAT)
FREE delivery for orders over £50.00
In Stock
- 1,000 unit(s) ready to ship
Need more? Click ‘Check delivery dates’ to find extra stock and lead times.
Units | Per unit | Per Reel* |
|---|---|---|
| 1000 + | £0.536 | £536.00 |
*price indicative
- RS Stock No.:
- 106-7521
- Mfr. Part No.:
- ETQP5M220YFC
- Brand:
- Panasonic
Specifications
Technical Reference
Legislation and Compliance
Product Details
Find similar products by selecting one or more attributes.
Select all | Attribute | Value |
|---|---|---|
| Brand | Panasonic | |
| Inductance | 22 μH | |
| Maximum DC Current | 6.2A | |
| Package/Case | PCC-M | |
| Length | 10.7mm | |
| Automotive Standard | AEC-Q200 | |
| Depth | 10mm | |
| Height | 5.4mm | |
| Dimensions | 10.7 x 10 x 5.4mm | |
| Tolerance | ±20% | |
| Maximum DC Resistance | 50mΩ | |
| Series | ETQP5M | |
| Core Material | Metal Composite | |
| Maximum Self Resonant Frequency | 100kHz | |
| Inductor Construction | Wire-Wound | |
| Maximum Operating Temperature | +150°C | |
| Moulded | Yes | |
| Minimum Operating Temperature | -40°C | |
Select all | ||
|---|---|---|
Brand Panasonic | ||
Inductance 22 μH | ||
Maximum DC Current 6.2A | ||
Package/Case PCC-M | ||
Length 10.7mm | ||
Automotive Standard AEC-Q200 | ||
Depth 10mm | ||
Height 5.4mm | ||
Dimensions 10.7 x 10 x 5.4mm | ||
Tolerance ±20% | ||
Maximum DC Resistance 50mΩ | ||
Series ETQP5M | ||
Core Material Metal Composite | ||
Maximum Self Resonant Frequency 100kHz | ||
Inductor Construction Wire-Wound | ||
Maximum Operating Temperature +150°C | ||
Moulded Yes | ||
Minimum Operating Temperature -40°C | ||
- COO (Country of Origin):
- JP
Panasonic ETQP5M Series Wirewound Surface Mount Inductor, 22μH Inductance, 6.2A Maximum DC Current - ETQP5M220YFC
This wirewound surface mount inductor is an essential component designed for high-performance applications. With dimensions of 10.7 x 10 x 5.4mm, it features a robust design suitable for a range of electronic devices, particularly in the automotive sector. It adheres to automotive standards, ensuring reliability in demanding environments.
Features & Benefits
• Shielded design minimises electromagnetic interference
• Metal composite core enhances efficiency and thermal performance
• Operating temperature range from -40°C to +150°C ensures versatility
• Tolerance of ±20% caters to diverse applications
• Maximum DC current of 6.2A accommodates high power requirements
• Low DC resistance of 50 mΩ improves energy efficiency
• Metal composite core enhances efficiency and thermal performance
• Operating temperature range from -40°C to +150°C ensures versatility
• Tolerance of ±20% caters to diverse applications
• Maximum DC current of 6.2A accommodates high power requirements
• Low DC resistance of 50 mΩ improves energy efficiency
Applications
• Utilised in automotive power modules for enhanced reliability
• Employed in electric vehicles to optimise performance
• Ideal for various electronic circuit designs needing compact components
• Suitable for noise filtering in power electronics
• Employed in electric vehicles to optimise performance
• Ideal for various electronic circuit designs needing compact components
• Suitable for noise filtering in power electronics
What is the advantage of using a shielded design in electronic circuits?
A shielded design helps reduce electromagnetic interference, improving the overall performance and reliability of the circuit by minimising noise.
How does the metal composite core material benefit performance?
The metal composite core contributes to higher efficiency and better thermal management, allowing the inductor to operate effectively under varying conditions.
What makes it suitable for automotive use?
It meets AEC-Q200 standards, ensuring it can withstand the rigorous demands of automotive environments while maintaining reliability and performance.
What are the implications of a low DC resistance?
A low DC resistance of 50 mΩ contributes to reduced energy losses in the circuit, thus enhancing efficiency and performance in various applications.
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