- RS Stock No.:
- 811-7178
- Mfr. Part No.:
- ETQP4M100YFN
- Manufacturer:
- Panasonic
The image is for reference only, please refer to product details and specifications
3 In stock for delivery within 6 working days
Added
Price (VAT excluded) Each
TWD41.00
(exc. GST)
TWD43.05
(inc. GST)
Units | Per unit |
1 - 249 | TWD41.00 |
250 - 499 | TWD40.00 |
500 + | TWD39.00 |
- RS Stock No.:
- 811-7178
- Mfr. Part No.:
- ETQP4M100YFN
- Manufacturer:
- Panasonic
Product overview and Technical data sheets
Legislation and Compliance
- COO (Country of Origin):
- JP
Product Details
ETQP4M Series Wire Wound Chokes
Panasonic ETQP4M choke coils provide a high reliability solution. New metal composite core technology creates low buzz noise, and the integral construction enables high vibration resistance. Featuring heat resistance up to +150°C, the use of ferrous alloy magnetic material provides excellent inductance stability.
AEC-Q200 qualified
High reliability
High bias current
Stable
Low buzz noise
High efficiency
Low RDC of winding
Low eddy-current loss of the core
High reliability
High bias current
Stable
Low buzz noise
High efficiency
Low RDC of winding
Low eddy-current loss of the core
Applications
Typical applications include DC-DC converters and noise filters for drive circuitry that need high peak current and operating temperature handling capabilities. These choke coils are AEC-Q200 qualified and are suitable for automotive applications.
Standards
AEC-Q200
For products that are Customized and under Non-cancellable & Non-returnable, Sales & Conditions apply.
Panasonic Non Standard SMT Inductors (Chokes)
Specifications
Attribute | Value |
---|---|
Inductance | 10 μH |
Maximum DC Current | 8.3A |
Package/Case | 0645 |
Length | 6.5mm |
Depth | 6mm |
Height | 4.5mm |
Dimensions | 6.5 x 6 x 4.5mm |
Tolerance | ±20% |
Maximum DC Resistance | 59.6mΩ |
Series | ETQP4M |
Core Material | Metal |
Maximum Self Resonant Frequency | 100kHz |
Minimum Operating Temperature | -40°C |
Moulded | Yes |
Maximum Operating Temperature | +150°C |
Inductor Construction | Wire-Wound |