Startseite Energiemanagement AC/DC- und DC/DC-Wandler (integrierter FET)

TPS62304

AKTIV

Abwärtswandler, 1,2 V, 500 mA, 3 MHz, im QFN- oder Chip-Scale-Gehäuse

Eine neuere Version dieses Produkts ist verfügbar

Selbe Funktionalität wie der verglichene Baustein bei abweichender Anschlussbelegung
TPS62807 AKTIV Abwärtswandler mit extrem niedrigem Ruhestrom, in einem 0,7 mm x 1,05 mm großen WCSP-Gehäuse, 1,75-V Smaller solution size and lower quiescent current

Produktdetails

Rating Catalog Operating temperature range (°C) -40 to 85 Topology Buck Type Converter Iout (max) (A) 0.5 Vin (min) (V) 2.7 Vin (max) (V) 6 Switching frequency (min) (kHz) 2650 Switching frequency (max) (kHz) 3350 Features Enable, Forced PWM, Frequency synchronization, Light Load Efficiency, Light load efficiency, Synchronous Rectification Control mode Voltage mode Vout (min) (V) 1.2 Vout (max) (V) 1.2 Iq (typ) (µA) 86 Duty cycle (max) (%) 100
Rating Catalog Operating temperature range (°C) -40 to 85 Topology Buck Type Converter Iout (max) (A) 0.5 Vin (min) (V) 2.7 Vin (max) (V) 6 Switching frequency (min) (kHz) 2650 Switching frequency (max) (kHz) 3350 Features Enable, Forced PWM, Frequency synchronization, Light Load Efficiency, Light load efficiency, Synchronous Rectification Control mode Voltage mode Vout (min) (V) 1.2 Vout (max) (V) 1.2 Iq (typ) (µA) 86 Duty cycle (max) (%) 100
VSON (DRC) 10 9 mm² 3 x 3
  • Up to 93% Efficiency at 3-MHz Operation
  • Up to 500-mA Output Current at VI = 2.7 V
  • 3-MHz Fixed Frequency Operation
  • Best in Class Load and Line Transient
  • Complete 1-mm Component Profile Solution
  • –0.5%/+1.3% PWM DC Voltage Accuracy Over Temperature
  • 35-ns Minimum On-Time
  • Power-Save Mode Operation at Light Load Currents
  • Fixed and Adjustable Output Voltage
  • Only 86-µA Quiescent Current
  • 100% Duty Cycle for Lowest Dropout
  • Synchronizable On the Fly to External
    Clock Signal
  • Integrated Active Power-Down Sequencing (TPS6232x only)
  • Available in a 10-Pin QFN (3 × 3 mm), 8-Pin NanoFree™, and NanoStar™ (CSP) Packaging
  • APPLICATIONS
    • Cell Phones, Smart-Phones
    • WLAN and Bluetooth™ Applications
    • Micro DC-DC Converter Modules
    • PDAs, Pocket PCs
    • USB-Based DSL Modems
    • Digital Cameras

NanoFree, NanoStar, TMS320 are trademarks of Texas Instruments.
Bluetooth is a trademark of Bluetooth SIG, Inc.
PowerPAD is a trademark of Texas Instruments.

  • Up to 93% Efficiency at 3-MHz Operation
  • Up to 500-mA Output Current at VI = 2.7 V
  • 3-MHz Fixed Frequency Operation
  • Best in Class Load and Line Transient
  • Complete 1-mm Component Profile Solution
  • –0.5%/+1.3% PWM DC Voltage Accuracy Over Temperature
  • 35-ns Minimum On-Time
  • Power-Save Mode Operation at Light Load Currents
  • Fixed and Adjustable Output Voltage
  • Only 86-µA Quiescent Current
  • 100% Duty Cycle for Lowest Dropout
  • Synchronizable On the Fly to External
    Clock Signal
  • Integrated Active Power-Down Sequencing (TPS6232x only)
  • Available in a 10-Pin QFN (3 × 3 mm), 8-Pin NanoFree™, and NanoStar™ (CSP) Packaging
  • APPLICATIONS
    • Cell Phones, Smart-Phones
    • WLAN and Bluetooth™ Applications
    • Micro DC-DC Converter Modules
    • PDAs, Pocket PCs
    • USB-Based DSL Modems
    • Digital Cameras

NanoFree, NanoStar, TMS320 are trademarks of Texas Instruments.
Bluetooth is a trademark of Bluetooth SIG, Inc.
PowerPAD is a trademark of Texas Instruments.

The TPS623xx device is a high-frequency synchronous step-down dc-dc converter optimized for battery-powered portable applications. Intended for low-power applications, the TPS623xx supports up to 500-mA load current and allows the use of tiny, low cost chip inductor and capacitors.

The device is ideal for mobile phones and similar portable applications powered by a single-cell Li-Ion battery or by 3-cell NiMH/NiCd batteries. With an output voltage range from 5.4 V down to 0.6 V, the device supports the low-voltage TMS320 DSP family, processors in smart-phones, PDAs as well as notebooks, and handheld computers.

The TPS62300 operates at 3-MHz fixed switching frequency and enters the power-save mode operation at light load currents to maintain high efficiency over the entire load current range. For low noise applications, the device can be forced into fixed frequency PWM mode by pulling the MODE/SYNC pin high. The device can also be synchronized to an external clock signal in the range of 3 MHz. In the shutdown mode, the current consumption is reduced to less than 1 µA.

The TPS623xx is available in a 10-pin leadless package (3 × 3 mm QFN) and an 8-pin chip-scale package (CSP).

The TPS623xx device is a high-frequency synchronous step-down dc-dc converter optimized for battery-powered portable applications. Intended for low-power applications, the TPS623xx supports up to 500-mA load current and allows the use of tiny, low cost chip inductor and capacitors.

The device is ideal for mobile phones and similar portable applications powered by a single-cell Li-Ion battery or by 3-cell NiMH/NiCd batteries. With an output voltage range from 5.4 V down to 0.6 V, the device supports the low-voltage TMS320 DSP family, processors in smart-phones, PDAs as well as notebooks, and handheld computers.

The TPS62300 operates at 3-MHz fixed switching frequency and enters the power-save mode operation at light load currents to maintain high efficiency over the entire load current range. For low noise applications, the device can be forced into fixed frequency PWM mode by pulling the MODE/SYNC pin high. The device can also be synchronized to an external clock signal in the range of 3 MHz. In the shutdown mode, the current consumption is reduced to less than 1 µA.

The TPS623xx is available in a 10-pin leadless package (3 × 3 mm QFN) and an 8-pin chip-scale package (CSP).

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Technische Dokumentation

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Alle anzeigen 13
Typ Titel Datum
* Data sheet 500mA, 3MHz Synchronous Step-Down Converter in Chip Scale Packaging datasheet (Rev. E) 12 Nov 2007
Application note QFN and SON PCB Attachment (Rev. C) PDF | HTML 06 Dez 2023
Analog Design Journal Methods of output-voltage adjustment for DC/DC converters 14 Jun 2019
Application note Performing Accurate PFM Mode Efficiency Measurements (Rev. A) 11 Dez 2018
Analog Design Journal Understanding 100% mode in low-power DC/DC converters 22 Jun 2018
Application note Optimizing Transient Response of Internally Compensated DC-DC Converters (Rev. B) 29 Nov 2017
Analog Design Journal Achieving a clean startup by using a DC/DC converter with a precise enable-pin threshold 24 Okt 2017
Application note Extending the Soft Start Time Without a Soft Start Pin (Rev. B) 15 Jun 2017
Analog Design Journal Testing tips for applying external power to supply outputs without an input voltage 24 Okt 2016
Application note Basic Calculation of a Buck Converter's Power Stage (Rev. B) 17 Aug 2015
Analog Design Journal Five steps to a great PCB layout for a step-down converter 29 Jan 2015
Application note Understanding the Absolute Maximum Ratings of the SW Node (Rev. A) 13 Jan 2012
Analog Design Journal IQ: What it is, what it isn’t, and how to use it 17 Jun 2011

Design und Entwicklung

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