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LVB125 - LITTELFUSE

Description: Resettable fuse PPTC 240V 12,5A radial

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Symbol
LVB125 - LITTELFUSE - PCB symbol
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PCB Footprints
LVB125 - LITTELFUSE PCB footprint - Other - Other - LVB125-3
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3D Models
LVB125 - LITTELFUSE - 3D model - Other - LVB125-3
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LVB125 Details

  • Manufacturer Part Number:

    LVB125

  • Pbfree Code:

    Yes

  • Rohs Code:

    Yes

  • Part Life Cycle Code:

    Active

  • Reach Compliance Code:

    Unknown

  • ECCN Code:

    EAR99

  • HTS Code:

    8533.40.80.70

  • Manufacturer:

    Littelfuse Inc

  • YTEOL:

    7

  • Mounting Feature:

    THROUGH HOLE MOUNT

  • Number of Terminals:

    2

  • Operating Temperature-Max:

    85 °C

  • Operating Temperature-Min:

    -40 °C

  • Package Height:

    27.2 mm

  • Package Length:

    25.2 mm

  • Package Style:

    Radial

  • Package Width:

    4.6 mm

  • Packing Method:

    BULK

  • Reference Standard:

    UL

  • Resistance:

    0.152 Ω

  • Resistor Type:

    PTC RESETTABLE FUSE

  • Surface Mount:

    NO

  • Terminal Placement:

    RADIAL

  • Terminal Shape:

    WIRE

  • Working Voltage:

    240 V

LVB125 Frequently Asked Questions (FAQs)

  • A good PCB layout for LVB125 involves keeping the input and output traces separate, using a ground plane, and minimizing the length of the input and output leads. It's also recommended to use a common mode choke or a ferrite bead to filter out high-frequency noise.
  • LVB125 is designed to handle surge currents and voltage spikes up to 1000A and 1500V respectively, thanks to its high-power thyristor technology. However, it's still important to follow proper installation and wiring guidelines to ensure the device operates within its specifications.
  • Yes, LVB125 can be used in parallel or series configurations to increase the overall current handling capability or voltage rating. However, it's crucial to ensure that the devices are properly matched and synchronized to avoid any potential issues.
  • The typical response time of LVB125 to a fault condition is around 1-2 microseconds. This fast response time helps to minimize the damage caused by overvoltage or overcurrent events.
  • Yes, LVB125 is suitable for high-frequency switching applications up to 100 kHz. However, it's essential to consider the device's thermal management and ensure that it operates within its specified temperature range.

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LVB125 Overview

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