- Datasheet Download Datasheet
- Stock & Prices $ Price & Stock for EEHZA1J470P
- Part Number EEHZA1J470P
- Manufacturer Panasonic
- Pin Count 2
- Part Category Capacitor Polarised
- Package Category Other
- Footprint Name Other - Hybrid_F
- Released Date Sep 29, 2021
- Last Modified Date Mar 7, 2023 4:10 PM UTC
- Pinout / Pin List Click Here (Member Only)
EEHZA1J470P Details
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Manufacturer Part Number:
EEHZA1J470P
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Rohs Code:
Yes
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Part Life Cycle Code:
Active
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Package Description:
CHIP
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Reach Compliance Code:
Compliant
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Country Of Origin:
Japan
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ECCN Code:
EAR99
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HTS Code:
8532.22.00.20
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Manufacturer:
Panasonic Electronic Components
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YTEOL:
9
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Additional Feature:
ESR IS MEASURED AT 100 KHZ
EEHZA1J470P Frequently Asked Questions (FAQs)
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The recommended land pattern for EEHZA1J470P can be found in the Panasonic Electronic Components' recommended footprint document or by consulting with a PCB design expert. A general guideline is to use a land pattern with a pad size of 2.5mm x 1.5mm and a spacing of 1.5mm between pads.
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To handle the power rating of EEHZA1J470P, ensure that the component is used within its specified operating temperature range and that the maximum power rating is not exceeded. This can be achieved by calculating the power dissipation using the component's impedance and the maximum current rating, and ensuring that the PCB design provides adequate heat dissipation.
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The ESR of EEHZA1J470P is not explicitly stated in the datasheet, but it can be estimated based on the component's impedance and capacitance values. A general guideline is to assume an ESR of around 10-20 mohms for this type of capacitor.
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EEHZA1J470P is a general-purpose capacitor and may not be suitable for high-vibration environments. If your design requires operation in a high-vibration environment, consider using a capacitor with a more robust construction, such as a ceramic capacitor with a vibration-resistant design.
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To ensure the reliability of EEHZA1J470P, follow proper PCB design and assembly guidelines, including using a robust soldering process, avoiding excessive thermal stress, and ensuring that the component is operated within its specified ratings. Additionally, consider implementing derating and margining in your design to account for component tolerances and variations.
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EEHZA1J470P Overview
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