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CSD13381F4

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12-V, N channel NexFET™ power MOSFET, single LGA 1 mm x 0.6mm, 180 mOhm, gate ESD protection

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Data sheet

CSD13381F4

ACTIVE
Data sheet Order now

Product details

VDS (V) 12 Configuration Single Rds(on) max at VGS=4.5 V (mOhms) 180 IDM - pulsed drain current (Max) (A) 7 QG typ (nC) 1.06 QGD typ (nC) 0.14 Package (mm) LGA 1.0x0.6mm VGS (V) 8 VGSTH typ (V) 0.85 ID - silicon limited at Tc=25degC (A) 2.1 ID - package limited (A) 2.1 Logic level Yes
VDS (V) 12 Configuration Single Rds(on) max at VGS=4.5 V (mOhms) 180 IDM - pulsed drain current (Max) (A) 7 QG typ (nC) 1.06 QGD typ (nC) 0.14 Package (mm) LGA 1.0x0.6mm VGS (V) 8 VGSTH typ (V) 0.85 ID - silicon limited at Tc=25degC (A) 2.1 ID - package limited (A) 2.1 Logic level Yes
  • Low on-resistance
  • Low Qg and Qgd
  • Low threshold voltage
  • Ultra-small footprint (0402 case size)
    • 1.0 mm × 0.6 mm
  • Ultra-low profile
    • 0.35-mm height
  • Integrated ESD protection diode
    • Rated > 4-kV HBM
    • Rated > 2-kV CDM
  • Lead and halogen free
  • RoHS compliant
  • Low on-resistance
  • Low Qg and Qgd
  • Low threshold voltage
  • Ultra-small footprint (0402 case size)
    • 1.0 mm × 0.6 mm
  • Ultra-low profile
    • 0.35-mm height
  • Integrated ESD protection diode
    • Rated > 4-kV HBM
    • Rated > 2-kV CDM
  • Lead and halogen free
  • RoHS compliant

This 140-mΩ, 12-V N-channel FemtoFET™ MOSFET technology is designed and optimized to minimize the footprint in many handheld and mobile applications. This technology is capable of replacing standard small signal MOSFETs while providing at least a 60% reduction in footprint size.

This 140-mΩ, 12-V N-channel FemtoFET™ MOSFET technology is designed and optimized to minimize the footprint in many handheld and mobile applications. This technology is capable of replacing standard small signal MOSFETs while providing at least a 60% reduction in footprint size.
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Technical documentation

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Type Title Date
* Data sheet CSD13381F4 12-V N-Channel FemtoFET™ MOSFET datasheet (Rev. E) 19 Oct 2021
Technical article Understanding the benefits of “lead-free” power MOSFETs 08 Feb 2019
Technical article The real secret to become a better cook. Integrate smart scale technology in kitchen appliances. 25 Oct 2016
Design guide FemtoFET Surface Mount Guide (Rev. D) 07 Jul 2016
Technical article When to use load switches in place of discrete MOSFETs 03 Feb 2016
Technical article 48V systems: Driving power MOSFETs efficiently and robustly 08 Oct 2015

Design & development

For additional terms or required resources, click any title below to view the detail page where available.

Support software

Power Loss Calculation Tool for Load Switch

SLPC019.ZIP (338 KB)
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Simulation model

CSD13381F4 Unencrypted PSpice Model (Rev. B)

SLPM075B.ZIP (3 KB) - PSpice Model
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Simulation model

CSD13381F4 TINA-TI Spice Model

SLPM196.ZIP (4 KB) - TINA-TI Spice Model
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Calculation tool

MOSFET-LOSS-CALC — Power Loss Calculation Tool for MOSFET Products

The MOSFET-LOSS-CALC is an Excel based tool that allows users to estimate power loss in a synchronous buck converter based on system and MOSFET parameters. For help selecting a discrete MOSFET or power block solution for your buck converter application, check out our Buck Converter NexFET™ (...)
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Calculation tool

NONSYNC-BOOST-FET-LOSS-CALC — Power loss calculation tool for non-synchronous boost converter

MOSFET power loss calculator for non-synchronous boost converter
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Calculation tool

SYNC-BUCK-FET-LOSS-CALC — MOSFET power loss calculator for synchronous buck converter applications

MOSFET power loss calculator for synchronous buck converter applications
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Reference designs

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This reference design is ready tested for 10 cells in series battery pack monitoring, balancing and protection for power tools. Power tools increasingly use highly power-dense Li-Ion or Li-Iron phosphate cells based battery packs that need to be protected from explosion due to incorrect charging or (...)
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Reference designs

TIDA-00792 — Multi-Cell 36-48V Battery Management System Reference Design

This reference design provides monitoring, balancing, primary protection and gauging for a 12- to 15-cell lithium-ion or lithium-iron phosphate-based batteries. This board is intended to be mounted in an enclosure for industrial systems. The reference design provides battery protection and gauging (...)
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Reference designs

TIDA-01525 — 8-channel, 16-bit, 200mA current output DAC reference design

This reference design combines the small size and high performance of the DAC80508 8-channel, 16-bit digital-to-analog converter (DAC) with precision op-amps to create a high-density and accurate current-source solution. The reference design has an maximum output current of 200 mA and allows for a (...)
document-pdfAcrobat Schematic
Reference designs

TIDA-01165 — IR Filter Analog Controller Reference Design

Reference design TIDA-01165 is an analog controller for IR Filters.  This design highlights the DRV8837C motor driver used to open and close an Infrared Filter when the module is exposed to high intensity sunlight.  The simplified layout is suited to cost-conscious applications while (...)
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Reference designs

TIDA-00765 — 1g Resolution over 15kg Range Sub-100nVpp Noise Front-End Reference Design

TIDA-00765 is a less than 100nVpp analog front end for resistive strain gauge bridge load cell-based weight and vibration measurement. It is ideally suited for appliances, which require high-resolution due to large dynamic range or have considerable weight offset. In the face of significant levels (...)
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Reference designs

TIDA-00514 — Load Switches for Power MUXing & Reverse Current Blocking Reference Design

In systems that can be powered from multiple power sources, achieving a seamless transition when switching between sources can be challenging, especially when it is also neccesary to block reverse current flow. This reference design demonstrates how two load switches can be used to MUX power (...)
document-pdfAcrobat Schematic
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