XPH2R404PS

Power MOSFET (N-ch single 30V<VDSS≤60V)

  • Related Reference Design(1)

Description

Application Scope Automotive / Motor Drivers / Switching Voltage Regulators
Polarity N-ch
Generation U-MOSⅨ-H
Internal Connection Single
PPAP Capable(*)
AEC-Q101 Qualified(*)
RoHS Compatible Product(s) (#) Available

*: For detail information, please contact to our sales.

Package Information

Toshiba Package Name SOP Advance(WF)
Package Image SOP Advance(WF)
Pins 8
Mounting Surface Mount
Width×Length×Height
(mm)
5.0×6.0×0.95
Package Dimensions View
Land pattern dimensions View

 Please refer to the link destination to check the detailed size.

Absolute Maximum Ratings

Characteristics Symbol Rating Unit
Drain-Source voltage VDSS 40 V
Gate-Source voltage VGSS +20/-8 V
Drain current ID 90 A
Power Dissipation PD 93 W

Electrical Characteristics

Characteristics Symbol Condition Value Unit
Gate threshold voltage (Max) Vth - 3.0 V
Gate threshold voltage (Min) Vth - 2.0 V
Drain-Source on-resistance (Max) RDS(ON) |VGS|=6V 4.1
Drain-Source on-resistance (Max) RDS(ON) |VGS|=10V 2.4
Input capacitance (Typ.) Ciss - 2500 pF
Total gate charge (Typ.) Qg VGS=10V 40 nC
Purchase and Sample
Please contact one of Toshiba's official distributors or the nearest Toshiba sales office.
You can search for and purchase a small on-line sample by clicking on the following link.

Document

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Jun,2022

Jun,2022

Aug,2024

Aug,2024

Mar,2023

Oct,2024

(Note1)

LTspice ® is a trademark and simulation software of ADI (Analog Devices, Inc.).

(Note2)

SIMetrix® is simulation software and registered trademarks of SIMetrix Technologies Ltd.

(Note3)

ELDO™ is a trademark and simulation software of Siemens Industry Software Inc.
Click here for the list of trademarks related to Siemens Industry Software Inc.

Orderable part number

Orderable part number
(example)
MOQ(pcs) Reliability
Information
RoHS AEC_Q100-Q101
XPH2R404PS,L1Q 5000 Yes -
XPH2R404PS,L1XHQ 5000 - Yes Yes

Reference Design

Motor Driving Circuit for Automotive Body Electronics Using SmartMCD™
We developed an automotive body motor control circuit that supports sensorless vector control using SmartMCD™, a gate driver IC with a built-in microcontroller. This reference design provides explanations of design points of various circuits, design data, and usage methods.

Technical inquiry

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Frequently Asked Questions

FAQs

Notes

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