TPS732
This product has been released to the market and is available for purchase. For some products, newer alternatives may be available.
Cap-Free, NMOS, 250mA Low Dropout Regulator with Reverse Current Protection

 

Models (22)

Title Category Type Date
TPS73218 Unencrypted PSpice Transient Model PSpice Model ZIP 14 Apr 2016
TPS73233 Unencrypted PSpice Transient Model PSpice Model ZIP 14 Apr 2016
TPS73201 Unencrypted PSpice Transient Model PSpice Model ZIP 14 Apr 2016
TPS73216 Unencrypted PSpice Transient Model PSpice Model ZIP 14 Apr 2016
TPS73215 Unencrypted PSpice Transient Model PSpice Model ZIP 14 Apr 2016
TPS73230 Unencrypted PSpice Transient Model PSpice Model ZIP 14 Apr 2016
TPS73213 Unencrypted PSpice Transient Model PSpice Model ZIP 14 Apr 2016
TPS73250 Unencrypted PSpice Transient Model PSpice Model ZIP 14 Apr 2016
TPS73219 Unencrypted PSpice Transient Model PSpice Model ZIP 14 Apr 2016
TPS73225 Unencrypted PSpice Transient Model PSpice Model ZIP 14 Apr 2016
TPS73201 PSpice Transient Model (Rev. A) PSpice Model ZIP 26 Aug 2013
TPS73225 PSpice Transient Model PSpice Model ZIP 15 Aug 2013
TPS73219 PSpice Transient Model PSpice Model ZIP 15 Aug 2013
TPS73218 PSpice Transient Model PSpice Model ZIP 15 Aug 2013
TPS73216 PSpice Transient Model PSpice Model ZIP 15 Aug 2013
TPS73230 PSpice Transient Model PSpice Model ZIP 15 Aug 2013
TPS73233 PSpice Transient Model PSpice Model ZIP 15 Aug 2013
TPS73215 PSpice Transient Model PSpice Model ZIP 15 Aug 2013
TPS73213 PSpice Transient Model PSpice Model ZIP 15 Aug 2013
TPS73250 TINA-TI Transient Reference Design TINA-TI Reference Design TSC 06 Aug 2013
TPS73250 TINA-TI Transient Spice Model TINA-TI Spice Model ZIP 06 Aug 2013
TPS73250 PSpice Transient Model PSpice Model ZIP 23 Jul 2013

Design kits & evaluation modules (2)

Name Part# Type
DEM-SOT223LDO Compatible with Most Positive Output LDOs in SOT223 (DCQ) Package DEM-SOT223LDO Evaluation Modules & Boards
TPS73201DRBEVM-518 Evaluation Module TPS73201DRBEVM-518 Evaluation Modules & Boards

Reference designs

Copper-to-fiber 100BASE-FX or 1000BASE-X media converter reference design for grid applications

This reference design details a methodology to use the DP83849 evaluation board to implement a 10/100BASE-TX to 10/100BASE-FX media converter, which enables copper based legacy equipment to be easily connected to a fiber network. Copper based Ethernet (10/100BASE-TX) has been widely used in grid (...)

View the Important Notice for reference designs covering authorized use, intellectual property matters and disclaimers.

Description Part Number Company Tool Type
Flyback, Linear Regulator for Medical Pack (5.75V @ 10mA) PMP2187 Texas Instruments Reference designs
Non-Isolated LDO for Transportation/Automotive using TPS73201 w/ input of 1.8 VDC 1.3V@0.22A PMP7177 Texas Instruments Reference designs

CAD/CAE symbols

Part# Package | Pins CAD File (.bxl) STEP Model (.stp)
TPS732 Download
Download
Download

Texas Instruments and Accelerated Designs, Inc. have collaborated together to provide TI customers with schematic symbols and PCB layout footprints for TI products.

Please follow the instructions below to view the CAD symbols:

Step 1: Download and install the Ultra Librarian software

Step 2: Download the Symbol and Footprint from the CAD.bxl file table.

Step 3: Open the .bxl file with the Ultra Librarian software.

You can always access the complete CAD/CAE Symbols database at //webench.ti.com/cad/

Both PCB footprints and schematic symbols are available for download in a vendor neutral format, which can then be exported to the leading EDA CAD/CAE design tools using the Ultra Librarian Reader. The reader is available as a free download.

The UL Reader is a subset of the Ultra Librarian toolset that can generate, import, and export components and their attributes in virtually any EDA CAD/CAE format.

question-circle

Thermal calculator

Estimate the LDO IC temperature at your design conditions:
Part number
    Range
Vin  V
Vout  V
Iout  A
Ambient temp  °C
Package option
Voltage option
PCB construction
Enhanced Thermal = single thermal spreading plane of 1 oz Cu
Minimum Thermal = single thermal spreading plane of 1/2 oz Cu
View the user guide for more details.

Junction temperature vs. PCB copper coverage area
These are estimated power dissipation and thermal results.
Care must be taken to ensure that device junction temperature
does not exeed the maximum ratings as indicated in the datasheet.

This calculator uses the PCB copper area to estimate the device junction temperature. See notes on usage and calculation method.