Datasheet Texas Instruments TPS54320RHLR

Manufacturer	Texas Instruments
Series	TPS54320
Part Number	TPS54320RHLR

4.5V to 17V Input, 3A Synchronous Step-Down SWIFT™ Converter 14-VQFN -40 to 150

Datasheets

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PDF, 2.0 Mb, Revision: B, File published: Nov 24, 2014

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Status

Lifecycle Status	Active (Recommended for new designs)
Manufacture's Sample Availability	Yes

Packaging

Pin	14
Package Type	RHL
Industry STD Term	VQFN
JEDEC Code	S-PQFP-N
Package QTY	3000
Carrier	LARGE T&R
Device Marking	54320
Width (mm)	3.5
Length (mm)	3.5
Thickness (mm)	.9
Pitch (mm)	.5
Max Height (mm)	1
Mechanical Data	Download

Parametrics

Control Mode	Current Mode
Duty Cycle(Max)	98 %
Iout(Max)	3 A
Iq(Typ)	0.6 mA
Operating Temperature Range	-40 to 150 C
Package Group	VQFN
Rating	Catalog
Regulated Outputs	1
Special Features	Enable,Frequency Synchronization,Power Good,Pre-Bias Start-Up,Synchronous Rectification,Tracking
Switching Frequency(Max)	1200 kHz
Switching Frequency(Min)	200 kHz
Type	Converter
Vin(Max)	17 V
Vin(Min)	4.5 V
Vout(Max)	15 V
Vout(Min)	0.8 V

Eco Plan

RoHS

Compliant

Design Kits & Evaluation Modules

Evaluation Modules & Boards: DLPLCR6500EVM
DLPВ® LightCrafterВ™ 6500 Evaluation Module
Lifecycle Status: Active (Recommended for new designs)
- Download
Evaluation Modules & Boards: TPS54320EVM-513
Evaluation Module for TPS54320 4.5V to 17V Input, 3A Synchronous Step Down SWIFTВ™ Converter
Lifecycle Status: Active (Recommended for new designs)
- Download
Evaluation Modules & Boards: DLPLCR9000EVM
DLPВ® LightCrafterВ™ 9000 Evaluation Module
Lifecycle Status: Active (Recommended for new designs)
- Download

Application Notes

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Output Ripple Voltage for Buck Switching Regulator (Rev. A)
PDF, 2.4 Mb, Revision: A, File published: Oct 13, 2014
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Minimizing Output Ripple During Startup
PDF, 675 Kb, File published: Jun 22, 2017
A buck DC/DC switching converter has a minimum on-time at which it can operate. This limits theminimum output voltage a converter can regulate to while keeping a fixed frequency. The limitation of theminimum on-time is often only considered for the steady-state output voltage; however, when the outputvoltage ramps up, in most cases the output voltage ramps up from 0 V. When the converter tri
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Calculating Efficiency
PDF, 175 Kb, File published: Feb 19, 2010
This application report provides a step-by-step procedure for calculating buck converter efficiency and power dissipation at operating points not provided by the data sheet.
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Designing Type III Compensation for Current Mode Step-Down Converters (Rev. A)
PDF, 298 Kb, Revision: A, File published: Sep 15, 2010
One of the well-known benefits of current-mode control is that the system stability can be easily achieved by Type II compensation design. It is possible to improve the transient response of a current mode DC/DC converter by adopting Type III compensation to boost the crossover frequency and phase margin. Type III compensation is simple to design and needs only one extra component.
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Demystifying Type II and Type III Compensators Using Op-Amp and OTA for DC/DC Co
PDF, 782 Kb, File published: Jul 11, 2014
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Understanding Thermal Dissipation and Design of a Heatsink
PDF, 59 Kb, File published: May 4, 2011
Power dissipation performance must be well understood prior to integrating devices on a printed-circuit board (PCB) to ensure that any given device is operated within its defined temperature limits. When a device is running, it consumes electrical energy that is transformed into heat. Most of the heat is typically generated by switching devices like MOSFETs, ICs, etc. This application report discu
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Semiconductor and IC Package Thermal Metrics (Rev. C)
PDF, 201 Kb, Revision: C, File published: Apr 19, 2016

Model Line

Series: TPS54320 (2)

TPS54320RHLR TPS54320RHLT

Manufacturer's Classification

Semiconductors > Power Management > Non-isolated DC/DC Switching Regulator > Step-Down (Buck) > Buck Converter (Integrated Switch)