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TPS63805

ACTIVE

2-A, high-efficient, 11-µA quiescent current buck-boost converter with tiny solution size

Product details

Topology Buck-Boost Vin (min) (V) 1.3 Vin (max) (V) 5.5 Vout (max) (V) 5.2 Vout (min) (V) 1.8 Duty cycle (max) (%) 100 Features Enable, Light Load Efficiency, Load Disconnect, Power good, Pre-Bias Start-Up, Synchronous Rectification, UVLO Fixed Switch current limit (typ) (A) 5 Switching frequency (min) (kHz) 500 Switching frequency (max) (kHz) 3100 Iq (typ) (mA) 0.011 Iout (max) (A) 2 Rating Catalog Operating temperature range (°C) -40 to 125 Type Converter
Topology Buck-Boost Vin (min) (V) 1.3 Vin (max) (V) 5.5 Vout (max) (V) 5.2 Vout (min) (V) 1.8 Duty cycle (max) (%) 100 Features Enable, Light Load Efficiency, Load Disconnect, Power good, Pre-Bias Start-Up, Synchronous Rectification, UVLO Fixed Switch current limit (typ) (A) 5 Switching frequency (min) (kHz) 500 Switching frequency (max) (kHz) 3100 Iq (typ) (mA) 0.011 Iout (max) (A) 2 Rating Catalog Operating temperature range (°C) -40 to 125 Type Converter
DSBGA (YFF) 15 3.08000000000000022 mm² 1.4000000000000001 x 2.2
  • Three pin-to-pin device options: TPS63805, TPS63806, and TPS63807 with specific application focus
  • Input voltage range: 1.3 V to 5.5 V
    • Device input voltage > 1.8 V for start-up
  • Output voltage range: 1.8 V to 5.2 V (adjustable)
  • High efficiency over the entire load range
    • Power save mode and mode selection for forced PWM-mode
  • Peak current buck-boost mode architecture
    • Defined transition points between buck, buck-boost, and boost operation modes
    • Forward and reverse current operation
    • Start-up into pre-biased outputs
  • Safety and robust operation features
    • Integrated soft start
    • Overtemperature- and overvoltage-protection
    • True shutdown function with load disconnect
    • Forward and backward current limit
  • TPS63805
    • Optimized for smallest solution size of 18.5 mm2 (works with a 22-µF minimum output capacitor)
    • 2-A output current for VI ≥ 2.3 V, VO = 3.3 V
    • 11-µA operating quiescent current
  • TPS63806
    • Optimized for best load step response (180-mV load-step response at a 2 A current step)
    • Up to 2.5-A transient output current
    • 13-µA operating quiescent current
  • TPS63807
    • Optimized for smallest solution size of 18.5 mm2 (works with a 22-µF minimum output capacitor)
    • 2-A output current for VI ≥ 2.3 V, VO = 3.3 V
    • 11-µA operating quiescent current
    • Output discharge feature when EN is low
    • 480-µs Tramp for small inrush current during start-up
  • Three pin-to-pin device options: TPS63805, TPS63806, and TPS63807 with specific application focus
  • Input voltage range: 1.3 V to 5.5 V
    • Device input voltage > 1.8 V for start-up
  • Output voltage range: 1.8 V to 5.2 V (adjustable)
  • High efficiency over the entire load range
    • Power save mode and mode selection for forced PWM-mode
  • Peak current buck-boost mode architecture
    • Defined transition points between buck, buck-boost, and boost operation modes
    • Forward and reverse current operation
    • Start-up into pre-biased outputs
  • Safety and robust operation features
    • Integrated soft start
    • Overtemperature- and overvoltage-protection
    • True shutdown function with load disconnect
    • Forward and backward current limit
  • TPS63805
    • Optimized for smallest solution size of 18.5 mm2 (works with a 22-µF minimum output capacitor)
    • 2-A output current for VI ≥ 2.3 V, VO = 3.3 V
    • 11-µA operating quiescent current
  • TPS63806
    • Optimized for best load step response (180-mV load-step response at a 2 A current step)
    • Up to 2.5-A transient output current
    • 13-µA operating quiescent current
  • TPS63807
    • Optimized for smallest solution size of 18.5 mm2 (works with a 22-µF minimum output capacitor)
    • 2-A output current for VI ≥ 2.3 V, VO = 3.3 V
    • 11-µA operating quiescent current
    • Output discharge feature when EN is low
    • 480-µs Tramp for small inrush current during start-up

The TPS63805, TPS63806, and TPS63807 are high efficiency, high output current buck-boost converters. Depending on the input voltage, they automatically operate in boost, buck, or in a novel 4-cycle buck-boost mode when the input voltage is approximately equal to the output voltage.

The TPS63805, TPS63806, and TPS63807 are high efficiency, high output current buck-boost converters. Depending on the input voltage, they automatically operate in boost, buck, or in a novel 4-cycle buck-boost mode when the input voltage is approximately equal to the output voltage.

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Technical documentation

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Type Title Date
* Data sheet TPS6380x High-Efficiency, Low IQ Buck-Boost Converter with Small Solution Size datasheet (Rev. E) PDF | HTML 26 Aug 2021
Application note 4스위치 벅 부스트 전력 단계의 기본 계산 (Rev. C) PDF | HTML 02 Oct 2023
Application note Using TPS63805 for Extreme Low Ripple in Optical Module PDF | HTML 27 Oct 2021
Design guide TEC Driver Reference Design for 3.3-V Inputs (Rev. A) 06 Aug 2021
Application note Different Methods to Drive LEDs Using TPS63XXX Buck-Boost Converters (Rev. D) 04 Aug 2021
Application note Supercapacitor Backup Power Supply w/ Current Limit for Smart Electricity Meter (Rev. A) 03 Aug 2021
Application note Selecting a DC/DC Converter for Maximum Battery Life in Pulsed-Load Applications (Rev. A) 26 Jul 2021
Application note A Topical Index of TI Low-Power Buck-Boost Converter Application Notes (Rev. A) PDF | HTML 09 Jun 2021
Application note Layer Design for Reducing Radiated EMI of DC to DC Buck-Boost Converters (Rev. A) PDF | HTML 09 Jun 2021
Technical article Is there a universal tool for DC/DC voltage conversion? PDF | HTML 30 Sep 2019
Application note Improving Load Transient Response for Controlled Loads 12 Sep 2019
Application note Using Non-Inverting Buck-Boost Converter for Voltage Stabilization 01 Aug 2019
Application brief Buck-boost Converter Battery Life Time Estimation for Wireless Network Cameras (Rev. A) 28 May 2019
Application brief Buck-Boost Converters Solving Power Challenges in Optical Modules 13 May 2019
Application brief Precise Delayed Start-up with Precise Threshold Enable-pin 15 Apr 2019
Application brief Prevent Battery Overdischarge with Precise Threshold Enable Pin 02 Apr 2019
Application note Selecting the right DC/DC converter for maximum battery life 08 Feb 2019
Application brief Supercapacitor backup power supply with TPS63802 21 Jan 2019
Application note Performing Accurate PFM Mode Efficiency Measurements (Rev. A) 11 Dec 2018
Application note Understanding Undervoltage Lockout in Power Devices (Rev. A) 19 Sep 2018
Application note Basic Calculations of a 4 Switch Buck-Boost Power Stage (Rev. B) 09 Jul 2018
EVM User's guide TPS63805EVM-026 Evaluation Module User's Guide 08 Mar 2018
Application note Extending the Soft Start Time in the TPS63010 Buck-Boost Converter 05 Dec 2012
Analog Design Journal Design considerations for a resistive feedback divider in a DC/DC converter 26 Apr 2012
Application note Choosing an Appropriate Pull-up/Pull-down Resistor for Open Drain Outputs 19 Sep 2011
Analog Design Journal IQ: What it is, what it isn’t, and how to use it 17 Jun 2011

Design & development

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

Evaluation board

TPS63805EVM-026 — High Current, High Efficiency Buck-Boost Converter Evaluation Module

The TPS63805EVM-026 is designed to help the users easily evaluate and test the operation and functionality of the TPS63805 Buck-Boost Converter. The EVM operates from 1.3-V to 5.5-V input voltage. Output currents can go up to 2 A in buck mode and boost mode. The user can easily evaluate the (...)
User guide: PDF
Not available on TI.com
Support software

TIDCFU0 TIDA-050017 TEC Driver Software Example

Supported products & hardware

Supported products & hardware

Products
Buck-boost, inverting & split-rail converters (integrated switch)
TPS63802 2-A, high-efficient, 11-µA quiescent current buck-boost converter in QFN/DFN package TPS63805 2-A, high-efficient, 11-µA quiescent current buck-boost converter with tiny solution size TPS63807 2A,11-uA quiescent current buck-boost converter
Simulation model

TPS63805 Unencrypted PSpice Transient Model Package (Rev. B)

SLVMCQ6B.ZIP (50 KB) - PSpice Model
Calculation tool

SLVC808 Battery Lifetime Estimator

Supported products & hardware

Supported products & hardware

Products
Buck-boost, inverting & split-rail converters (integrated switch)
TPS63000 High efficiency Buck-Boost Converter with 1.8A Current Switches in 3x3 QFN TPS63000-Q1 Automotive 1.8V to 5.5V Input Range, 1.8A High Efficiency Buck/Boost Converter TPS63001 96% Buck-Boost Converter with 1.7A Current Switches, 3.3V fixed Output voltage in 3x3 QFN TPS63002 96% Buck-Boost Converter with 1.7A Current Switches, 5V fixed Output voltage in 3x3 QFN TPS63010 High Efficient Single Inductor Buck-Boost Converter with 2-A Switches TPS63011 High Efficient Single Inductor Buck-Boost Converter with 2-A Switches TPS63012 High Efficient Single Inductor Buck-Boost Converter with 2-A Switches TPS63020 High Efficiency Single Inductor Buck-Boost Converter with 4A Switch TPS63020-Q1 High Efficiency Automotive Single Inductor Buck-Boost Converter with 4A Switch TPS63021 High Efficiency Single Inductor Buck-Boost Converter with 4A Switch TPS63024 High Efficiency 1.5A Single Inductor Buck-Boost Converter TPS630241 High Efficiency 1.5A Single Inductor Buck-Boost Converter TPS630242 High Efficiency 1.5A Single Inductor Buck-Boost Converter TPS630250 4-A switch single-inductor buck-boost converter in 3.7 mm² DSBGA package TPS630251 4A switch Single-Inductor Buck-Boost Converter in WCSP TPS630252 4A switch Single-Inductor Buck-Boost Converter in WCSP TPS63027 High Efficiency 4.5A Switch Single-Inductor Buck-Boost Converter TPS63030 High Efficient Single Inductor Buck-Boost Converter with 1-A Switches TPS63031 High Efficient Single Inductor Buck-Boost Converter with 1-A Switches TPS63036 High Efficient Single Inductor Buck-Boost Converter with 1-A Switches TPS63050 TPS6305x Single Inductor Buck-Boost with 1-A Switches and Adjustable Soft Start TPS63051 Tiny Single Inductor Buck Boost Converter TPS63060 2.5V to 12V input voltage, 93% Efficient, 2.25A Switch Current Limit, Buck-Boost Converter TPS63060-EP HIGH INPUT VOLTAGE BUCK-BOOST CONVERTER WITH 2-A SWITCH CURRENT TPS63061 2.5V to 12V input voltage, 93% Efficient, 2.25A Switch Current Limit, Buck-Boost Converter TPS63070 Wide input voltage (2V-16V) buck-boost converter TPS63700 Adjustable, -15V Output Inverting DC/DC Converter in 3x3 QFN TPS63710 Low Noise, 1A Synchronous Inverting Buck Converter in 3x3 WSON Package TPS63802 2-A, high-efficient, 11-µA quiescent current buck-boost converter in QFN/DFN package TPS63805 2-A, high-efficient, 11-µA quiescent current buck-boost converter with tiny solution size TPS63806 2.5-A high-efficient buck-boost converter with optimized load step response in tiny WCSP TPS63807 2A,11-uA quiescent current buck-boost converter TPS63810 2.5-A high-efficient buck-boost converter with I²C interface for dynamic voltage scaling TPS63811 2.5-A high-efficient buck-boost converter with I²C interface for dynamic voltage scaling TPS63900 1.8-V to 5.5-V, 75-nA IQ buck-boost converter with input current limit and Dynamic Voltage Scaling
Simulation tool

PSPICE-FOR-TI — PSpice® for TI design and simulation tool

PSpice® for TI is a design and simulation environment that helps evaluate functionality of analog circuits. This full-featured, design and simulation suite uses an analog analysis engine from Cadence®. Available at no cost, PSpice for TI includes one of the largest model libraries in the (...)
Reference designs

TIDA-050017 — TEC driver reference design for 3.3V inputs

Many electronic components require their temperature to be regulated for best performance and for longer operating life times. Precise temperature control down to 0.1°C is critical for certain applications such as laser diodes used in optical modules, where even a 1°C change in temperature (...)
Design guide: PDF
Schematic: PDF
Package Pins Download
DSBGA (YFF) 15 View options

Ordering & quality

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Information included:
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