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NLCV32T-1R5M-EFRD - TDK

Description: TDK - NLCV32T-1R5M-EFRD - INDUCTOR, AEC-Q200, 1.5UH, 20%, 80MHZ

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PCB Footprints
NLCV32T-1R5M-EFRD - TDK PCB footprint - Inductor Moulded - Inductor Moulded - SIZE CODE 1210-3
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3D Models
NLCV32T-1R5M-EFRD - TDK  - 3D model - Inductor Moulded - SIZE CODE 1210-3
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NLCV32T-1R5M-EFRD Details

  • Manufacturer Part Number:

    NLCV32T-1R5M-EFRD

  • Rohs Code:

    Yes

  • Part Life Cycle Code:

    Active

  • Package Description:

    CHIP

  • ECCN Code:

    EAR99

  • HTS Code:

    8504.50.80.00

  • Factory Lead Time:

    10 Weeks

  • Manufacturer:

    TDK Corporation

  • YTEOL:

    6

  • Case/Size Code:

    1310

  • Construction:

    Rectangular

  • Core Material:

    FERRITE

  • DC Resistance:

    0.095 Ω

  • Inductance-Nom (L):

    1.5 µH

  • Inductor Type:

    GENERAL PURPOSE INDUCTOR

  • Number of Functions:

    1

  • Number of Terminals:

    2

  • Operating Temperature-Max:

    125 °C

  • Operating Temperature-Min:

    -40 °C

  • Package Height:

    2.2 mm

  • Package Length:

    3.2 mm

  • Package Style:

    SMT

  • Package Width:

    2.5 mm

  • Packing Method:

    TR, Blister Plastic, 7 Inch

  • Rated Current-Max:

    1.4 A

  • Reference Standard:

    AEC-Q200

  • Shape/Size Description:

    RECTANGULAR PACKAGE

  • Shielded:

    NO

  • Special Feature:

    DC RESISTANCE IS MEASURED AT 20% TOLERANCE

  • Surface Mount:

    YES

  • Terminal Placement:

    DUAL ENDED

  • Terminal Shape:

    L BEND

  • Test Frequency:

    7.96 MHz

  • Tolerance:

    20%

NLCV32T-1R5M-EFRD Frequently Asked Questions (FAQs)

  • The recommended PCB land pattern can be found in the TDK Corporation's application note or on their website. It typically includes a recommended pad size, shape, and spacing to ensure proper soldering and thermal management.
  • Thermal derating is typically handled by reducing the maximum current rating of the inductor as the operating temperature increases. TDK Corporation provides thermal derating curves in their datasheet or application notes, which can be used to determine the maximum current rating at a given temperature.
  • The self-resonant frequency (SRF) is typically not specified in the datasheet, but it can be estimated using the inductor's inductance and capacitance values. The SRF can affect the inductor's impedance and Q factor, which may impact the performance of the circuit. Engineers should consider the SRF when designing filters, resonant circuits, or other applications where the inductor's impedance is critical.
  • While the NLCV32T-1R5M-EFRD is designed for general-purpose use, its high-frequency performance may not be suitable for all applications. Engineers should review the inductor's impedance vs. frequency characteristics and consider the core material's high-frequency losses before using it in a high-frequency application.
  • To ensure reliability, engineers should follow proper PCB design and layout guidelines, ensure proper soldering and thermal management, and avoid exceeding the inductor's rated voltage, current, and temperature. Additionally, they should consider the inductor's moisture sensitivity level (MSL) and follow proper handling and storage procedures.

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NLCV32T-1R5M-EFRD Overview

Use the download button to access the NLCV32T-1R5M-EFRD schematic symbol, PCB footprint, and 3D model.
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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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