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LTR100LJZPFU10L0 - ROHM Semiconductor

Description: 3264(1225)Size, High Power Low Ohmic Chip Resistor <Wide Terminal Type> (AEC-Q200 Qualified)

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LTR100LJZPFU10L0 - ROHM Semiconductor PCB footprint - Resistor Chip - Resistor Chip - LTR100
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LTR100LJZPFU10L0 - ROHM Semiconductor  - 3D model - Resistor Chip - LTR100
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LTR100LJZPFU10L0 Details

  • Manufacturer Part Number:

    LTR100LJZPFU10L0

  • Rohs Code:

    Yes

  • Part Life Cycle Code:

    Active

  • Package Description:

    CHIP

  • Reach Compliance Code:

    Compliant

  • ECCN Code:

    EAR99

  • HTS Code:

    8533.21.00.30

  • Manufacturer:

    ROHM Semiconductor

  • YTEOL:

    9

  • Additional Feature:

    STANDARD: IEC60115-1

  • Construction:

    Rectangular

  • Mounting Feature:

    SURFACE MOUNT

  • Number of Terminals:

    2

  • Operating Temperature-Max:

    155 °C

  • Operating Temperature-Min:

    -65 °C

  • Package Height:

    0.58 mm

  • Package Length:

    3.1 mm

  • Package Style:

    SMT

  • Package Width:

    6.4 mm

  • Packing Method:

    TR, EMBOSSED, 7 INCH

  • Rated Power Dissipation (P):

    4 W

  • Rated Temperature:

    70 °C

  • Reference Standard:

    AEC-Q200, IEC60115-8

  • Resistance:

    0.01 Ω

  • Resistor Type:

    FIXED RESISTOR

  • Size Code:

    1225

  • Surface Mount:

    YES

  • Technology:

    METAL GLAZE/THICK FILM

  • Temperature Coefficient:

    0,300 ppm/°C

  • Terminal Shape:

    WRAPAROUND

  • Tolerance:

    1%

LTR100LJZPFU10L0 Frequently Asked Questions (FAQs)

  • ROHM recommends a PCB layout with a thermal pad connected to a large copper area on the bottom layer, and multiple vias to dissipate heat efficiently. A minimum of 2oz copper thickness is recommended.
  • ROHM recommends following the derating guidelines in the datasheet, using a heat sink if necessary, and ensuring good airflow around the device. Additionally, consider using a thermistor or thermal sensor to monitor the temperature.
  • The maximum allowable voltage on the enable pin is VCC + 0.3V, but it's recommended to keep it within VCC to ensure reliable operation.
  • Yes, the LTR100LJZPFU10L0 is suitable for switching regulator applications, but ensure that the device is properly bypassed and decoupled to minimize noise and voltage spikes.
  • Power dissipation can be calculated using the formula: Pd = (VIN - VOUT) x IOUT x Efficiency. Refer to the datasheet for the efficiency curve and thermal resistance values.

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LTR100LJZPFU10L0 Overview

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