Panasonic, ETQP4M, 0645 Shielded Wire-wound SMD Inductor with a Metal Core, 10 μH ±20% Wire-Wound 8.3A Idc
- RS Stock No.:
- 811-7178P
- Mfr. Part No.:
- ETQP4M100YFN
- Brand:
- Panasonic
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Units | Per unit |
|---|---|
| 1 + | £1.09 |
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- RS Stock No.:
- 811-7178P
- Mfr. Part No.:
- ETQP4M100YFN
- 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 | 10 μH | |
| Maximum DC Current | 8.3A | |
| Package/Case | 0645 | |
| Length | 6.5mm | |
| Depth | 6mm | |
| Automotive Standard | AEC-Q200 | |
| Height | 4.5mm | |
| Dimensions | 6.5 x 6 x 4.5mm | |
| Shielded | Yes | |
| Tolerance | ±20% | |
| Maximum DC Resistance | 59.6mΩ | |
| Series | ETQP4M | |
| Core Material | Metal | |
| Maximum Self Resonant Frequency | 100kHz | |
| Minimum Operating Temperature | -40°C | |
| Maximum Operating Temperature | +150°C | |
| Moulded | Yes | |
| Inductor Construction | Wire-Wound | |
Select all | ||
|---|---|---|
Brand Panasonic | ||
Inductance 10 μH | ||
Maximum DC Current 8.3A | ||
Package/Case 0645 | ||
Length 6.5mm | ||
Depth 6mm | ||
Automotive Standard AEC-Q200 | ||
Height 4.5mm | ||
Dimensions 6.5 x 6 x 4.5mm | ||
Shielded Yes | ||
Tolerance ±20% | ||
Maximum DC Resistance 59.6mΩ | ||
Series ETQP4M | ||
Core Material Metal | ||
Maximum Self Resonant Frequency 100kHz | ||
Minimum Operating Temperature -40°C | ||
Maximum Operating Temperature +150°C | ||
Moulded Yes | ||
Inductor Construction Wire-Wound | ||
- COO (Country of Origin):
- JP
Panasonic ETQP4M Series Surface Mount Inductor, 10 μH Inductance, 8.3A Maximum DC Current - ETQP4M100YFN
This surface mount inductor is designed for high-efficiency electrical applications. With an inductance value of 10 μH and a maximum direct current rating of 8.3A, this component is suitable for a variety of circuits. The compact dimensions of 6.5 x 6 x 4.5mm make it ideal for constrained spaces, while its wire-wound construction ensures reliable performance across operating conditions.
Features & Benefits
• Designed to meet AEC-Q200 automotive standards for safety
• Maximum operating temperature rated at +150 °C for durability
• Shielded construction minimises electromagnetic interference
• Low DC resistance of 59.6 mΩ enhances energy efficiency
• Offers a tolerance of ±20 % for versatile applications
• Capable of operating from -40 °C to +150 °C for extreme environments
• Maximum operating temperature rated at +150 °C for durability
• Shielded construction minimises electromagnetic interference
• Low DC resistance of 59.6 mΩ enhances energy efficiency
• Offers a tolerance of ±20 % for versatile applications
• Capable of operating from -40 °C to +150 °C for extreme environments
Applications
• Used in electronic control units within automotive systems
• Employed in power supply circuits for efficient energy management
• Suitable for DC-DC converters ensuring stable performance
• Incorporated in signal processing to reduce noise
• Utilised in industrial automation for reliable operation
• Employed in power supply circuits for efficient energy management
• Suitable for DC-DC converters ensuring stable performance
• Incorporated in signal processing to reduce noise
• Utilised in industrial automation for reliable operation
What specifications should be considered when selecting an inductor for automotive applications?
The inductor's compliance with AEC-Q200 standards is crucial for automotive use as it assures robustness. Additionally, evaluating its maximum DC current and resistance helps ensure that it can withstand the demands of the application without overheating or losing performance.
How does the temperature range affect the usability in different environments?
A wide temperature range of -40 °C to +150 °C means it can function in various climates, maintaining reliability in both hot and cold conditions. This versatility supports deployment in outdoor and industrial settings where thermal conditions fluctuate.
What impact does the low DC resistance have on circuit efficiency?
A low DC resistance of 59.6 mΩ reduces power losses, thereby improving overall circuit efficiency. This characteristic is essential for applications where energy conservation is a priority, particularly in battery-operated devices.
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