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LM43603PWP

LM43603PWP

Active
Texas Instruments

3.5V TO 36V, 3A SYNCHRONOUS STEP-DOWN VOLTAGE CONVERTER

LM43603PWP

LM43603PWP

Active
Texas Instruments

3.5V TO 36V, 3A SYNCHRONOUS STEP-DOWN VOLTAGE CONVERTER

Description

General part information

LM43603 Series

The LM43603-Q1 regulator is an easy-to-use synchronous step-down DC-DC converter capable of driving up to 3 A of load current from an input voltage ranging from 3.5 V to 36 V (42 V absolute maximum). The LM43603-Q1 provides exceptional efficiency, output accuracy, and dropout voltage in a very small solution size. An extended family is available in 0.5-A, 1-A, and 2-A load current options in pin-to-pin compatible packages. Peak current mode control is employed to achieve simple control loop compensation and cycle-by-cycle current limiting. Optional features such as programmable switching frequency, synchronization, power-good flag, precision enable, internal soft-start, extendable soft start, and tracking provide a flexible and easy to use platform for a wide range of applications. Discontinuous conduction and automatic frequency modulation at light loads improve light load efficiency. The family requires few external components and pin arrangement allows simple, optimum PCB layout. Protection features include thermal shutdown, VCCundervoltage lockout, cycle-by-cycle current limit, and output short circuit protection. The LM43603-Q1 device is available in the HTSSOP (PWP) 16-pin leaded package (6.6 mm × 5.1 mm × 1.2 mm). The LM43603A-Q1 version is optimized for PFM operation and recommended for new design. The device is pin-to-pin compatible with LM4360x and LM4600x family.

The LM43603-Q1 regulator is an easy-to-use synchronous step-down DC-DC converter capable of driving up to 3 A of load current from an input voltage ranging from 3.5 V to 36 V (42 V absolute maximum). The LM43603-Q1 provides exceptional efficiency, output accuracy, and dropout voltage in a very small solution size. An extended family is available in 0.5-A, 1-A, and 2-A load current options in pin-to-pin compatible packages. Peak current mode control is employed to achieve simple control loop compensation and cycle-by-cycle current limiting. Optional features such as programmable switching frequency, synchronization, power-good flag, precision enable, internal soft-start, extendable soft start, and tracking provide a flexible and easy to use platform for a wide range of applications. Discontinuous conduction and automatic frequency modulation at light loads improve light load efficiency. The family requires few external components and pin arrangement allows simple, optimum PCB layout. Protection features include thermal shutdown, VCCundervoltage lockout, cycle-by-cycle current limit, and output short circuit protection. The LM43603-Q1 device is available in the HTSSOP (PWP) 16-pin leaded package (6.6 mm × 5.1 mm × 1.2 mm). The LM43603A-Q1 version is optimized for PFM operation and recommended for new design. The device is pin-to-pin compatible with LM4360x and LM4600x family.

Technical Specifications

Parameters and characteristics for this part

SpecificationLM43603PWP
Current - Output3 A
Frequency - Switching (Max)2.2 MHz
Frequency - Switching (Min)200 kHz
FunctionStep-Down
Mounting TypeSurface Mount
Number of Outputs1
Operating Temperature (Max)125 °C
Operating Temperature (Min)-40 °C
Output ConfigurationPositive
Output TypeAdjustable
Package Length0.173 in
Package Name16-PowerTSSOP, 16-HTSSOP
Package Width4.4 mm
Synchronous RectifierYes
TopologyBuck
Voltage - Input (Max)36 V
Voltage - Input (Min)3.5 V
Voltage - Output (Max)28 V
Voltage - Output (Min/Fixed)1 V

Pricing

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CAD

3D models and CAD resources for this part

Documents

Technical documentation and resources

LM43603EVM User’s Guide
Low EMI Layout Made SIMPLE With LM43600/1/2/3 and LM46000/1/2 (Rev. A)
Compensation Made SIMPLE With LM4360x, LM4600x
AN-1889 How to Measure the Loop Transfer Function of Power Supplies (Rev. A)
AN-1566 Techniques for Thermal Analysis of Switching Power Supply Designs (Rev. A)
Inverting made simple by unleashing the buck
AN-2162 Simple Success With Conducted EMI From DC-DC Converters (Rev. C)
Synchronous Rectification in High-Performance Power Converter Design (Rev. A)
DC/DC converter datasheets - Quiescent current demystified: Part two
Understanding Inverting Buck-Boost Power Stages in Switch Mode Power Supplies (Rev. B)
AN-1997 Error Amplifier Limitations in High-Performance Regulator Applications (Rev. A)
Differences Between LM4600x/LM4360x A and Non-A OPNs
LM43603 3.5-V to 36-V, 3A Synchronous Step-Down Voltage Converter datasheet (Rev. D)
AN-1229 SIMPLE SWITCHER PCB Layout Guidelines (Rev. C)
A complete low-voltage backup battery solution for eCall systems
How to design a quiet and compact industrial power supply
Quantifying the value of wide VIN
Know Your Limits
SIMPLE SWITCHER Synchronous Regulator Series (Rev. B)
Semiconductor and IC Package Thermal Metrics (Rev. D)
Inverting Applications Made SIMPLE With LM4600x and LM4360x (Rev. B)
Input and Output Capacitor Selection
AN-1520 A Guide to Board Layout for Best Thermal Resistance for Exposed Packages (Rev. B)
LM43603DSU EVM User Guide
AN-2155 Layout Tips for EMI Reduction in DC/ DC Converters (Rev. A)
Automotive Line Transient Protection Circuit
DC/DC converter datasheets – System losses demystified
Thermal Design Made Simple With LM43603 and LM46002
AN-643 EMI/RFI Board Design (Rev. B)
Understanding and Applying Current-Mode Control Theory
AN-1197 Selecting Inductors for Buck Converters (Rev. B)
AN-1149 Layout Guidelines for Switching Power Supplies (Rev. C)
AN-1533 Overvoltage Protection Circuit for Automotive Load Dump (Rev. B)