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B88069X5690T502 - TDK

Description: Surge Arresters, 2 electrodes Arresters, Nominal DC sparkover voltage = 2500V

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PCB Footprints
B88069X5690T502 - TDK PCB footprint - Other - Other - EF2500X
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3D Models
B88069X5690T502 - TDK  - 3D model - Other - EF2500X
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B88069X5690T502 Details

  • Manufacturer Part Number:

    B88069X5690T502

  • Rohs Code:

    Yes

  • Part Life Cycle Code:

    Active

  • Package Description:

    PACKAGE-2

  • HTS Code:

    8542.39.00.01

  • Factory Lead Time:

    12 Weeks

  • Manufacturer:

    TDK Corporation

  • YTEOL:

    6

  • JESD-30 Code:

    O-XALF-W2

  • Number of Functions:

    1

  • Number of Terminals:

    2

  • Operating Temperature-Max:

    90 °C

  • Operating Temperature-Min:

    -40 °C

  • Package Body Material:

    UNSPECIFIED

  • Package Code:

    ALF

  • Package Shape:

    ROUND

  • Package Style:

    LONG FORM

  • Surface Mount:

    NO

  • Telecom IC Type:

    GAS DISCHARGE TUBE SUPPRESSOR

  • Temperature Grade:

    INDUSTRIAL

  • Terminal Form:

    WIRE

  • Terminal Position:

    AXIAL

B88069X5690T502 Frequently Asked Questions (FAQs)

  • TDK provides a recommended PCB layout and land pattern in their application notes and design guides. It's essential to follow these guidelines to ensure optimal performance, minimize parasitic effects, and prevent thermal issues.
  • The B88069X5690T502 is designed for high-frequency switching applications. However, the datasheet may not provide detailed information on the inductor's behavior under specific switching conditions. Engineers should consult TDK's application notes or contact their support team for guidance on high-frequency performance.
  • The SRF is not explicitly stated in the datasheet. However, it can be estimated using the inductor's values and formulas. The SRF is critical in high-frequency designs, as it can affect the inductor's impedance and overall circuit performance. Engineers should consider the SRF when designing their circuits.
  • The temperature coefficient is specified in the datasheet, but its impact on performance over a wide operating temperature range may not be immediately apparent. Engineers should consider the temperature coefficient when designing their circuits, especially in applications with high temperature variations.
  • The derating curve is not typically provided in the datasheet. Engineers should consult TDK's application notes or contact their support team for guidance on derating the inductor under high-temperature and high-current conditions to ensure reliable operation.

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B88069X5690T502 Overview

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About TDK

TDK-Lambda is a global supplier of power supplies and related products. It is a subsidiary of TDK Corporation, a leading electronics company based in Japan. TDK-Lambda specializes in designing and manufacturing a wide range of AC-DC power supplies, DC-DC converters, programmable power supplies, and EMC/EMI filters for various industries and applications.

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