Product details

VDS (V) 60 Configuration Single Rds(on) max at VGS=4.5 V (mOhms) 75 Rds(on) max at VGS=10 V (mOhms) 65 IDM - pulsed drain current (Max) (A) 21 QG typ (nC) 11 QGD typ (nC) 1.6 Package (mm) LGA 1.5x0.8mm VGS (V) 20 VGSTH typ (V) 1.75 ID - silicon limited at Tc=25degC (A) 2.2 ID - package limited (A) 2.2 Logic level Yes
VDS (V) 60 Configuration Single Rds(on) max at VGS=4.5 V (mOhms) 75 Rds(on) max at VGS=10 V (mOhms) 65 IDM - pulsed drain current (Max) (A) 21 QG typ (nC) 11 QGD typ (nC) 1.6 Package (mm) LGA 1.5x0.8mm VGS (V) 20 VGSTH typ (V) 1.75 ID - silicon limited at Tc=25degC (A) 2.2 ID - package limited (A) 2.2 Logic level Yes
  • Low On-Resistance
  • Ultra-Low Qg and Qgd
  • Ultra-Small Footprint
    • 1.53 mm × 0.77 mm
  • Low Profile
    • 0.35-mm Height
  • Integrated ESD Protection Diode
    • Lead and Halogen Free
    • RoHS Compliant
    • Low On-Resistance
    • Ultra-Low Qg and Qgd
    • Ultra-Small Footprint
      • 1.53 mm × 0.77 mm
    • Low Profile
      • 0.35-mm Height
    • Integrated ESD Protection Diode
      • Lead and Halogen Free
      • RoHS Compliant

      This 54-mΩ, 60-V, N-Channel FemtoFET™ MOSFET technology is designed and optimized to minimize the footprint in many space constrained industrial load switch applications. This technology is capable of replacing standard small signal MOSFETs while providing a significant reduction in footprint size.



      This 54-mΩ, 60-V, N-Channel FemtoFET™ MOSFET technology is designed and optimized to minimize the footprint in many space constrained industrial load switch applications. This technology is capable of replacing standard small signal MOSFETs while providing a significant reduction in footprint size.



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      Technical documentation

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      Type Title Date
      * Data sheet CSD18541F5 60-V N-Channel FemtoFET™ MOSFET datasheet (Rev. A) 04 Aug 2017
      Technical article Understanding the benefits of “lead-free” power MOSFETs 08 Feb 2019
      Technical article How to Select a MOSFET – Load Switching 14 Feb 2018
      User guide Ultra-Small Footprint N-Channel FemtoFET™ MOSFET Test EVM 06 Dec 2017
      Technical article How to power your thermostat using solid state relays 11 Aug 2016
      Design guide FemtoFET Surface Mount Guide (Rev. D) 07 Jul 2016
      Technical article Shrink your industrial footprint with new 60V FemtoFETs 20 Jun 2016

      Design & development

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

      Evaluation board

      CSD1FNCHEVM-889 — FemtoFET N-ch Evaluation Module

      This FemtoFET N-ch EVM includes seven daughter cards, each card containing a different FemtoFET N-ch part number.  The daughter cards allow the engineer to easily connect and test these tiny devices.  The seven FemtoFETs range from 12V to 40V Vds, and the size of the devices include F3 (...)
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      Support software

      Power Loss Calculation Tool for Load Switch

      SLPC019.ZIP (338 KB)
      Simulation model

      CSD18541F5 Unencrypted PSpice Model (Rev. B)

      SLPM180B.ZIP (3 KB) - PSpice Model
      Simulation model

      CSD18541F5 TINA-TI Spice Model

      SLPM228.ZIP (4 KB) - TINA-TI Spice Model
      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
      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
      Reference designs

      TIDA-010049 — TUV-assessed digital input reference design for IEC 61508 (SIL-2)

      This 8-channel, group-isolated, digital input module reference design, focuses on applications with the need for industrial functional safety. This design has diagnostics implemented to help detect both permanent and transient random hardware faults. The concept of this input module has been (...)
      Reference designs

      TIDA-01065 — Isolated Self-Powered AC Solid State Relay with MOSFETs Reference Design

      The isolated self-powered AC solid state relay with MOSFETs reference design is a relay replacement that enables efficient power management for a low-power alternative to standard electromechanical relays. The galvanic isolation is implemented capacitively, creating a cost-efficient, reduced (...)
      Reference designs

      TIDA-01064 — Low BOM Cost AC Solid State Relay with MOSFETs Reference Design

      The low BOM cost ac solid state relay with MOSFETs reference design is a single relay replacement that enables efficient power management for a low-power alternative to standard electromechanical relays in thermostat applications. This SSR reference design is the base model of the self-powered (...)
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