TPS62870

Name: TPS62870
Brand: TI
SKU: TPS62870
Price: 1.472 USD

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Paralleler synchroner Abwärtswandler, 6 V, 6 A, opt. Frequenzsynch., schnelles Einschwingverhalte

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Datenblatt

document-pdfAcrobat TPS6287x 2.7V to 6V Input, 6A, 9A, 12A, 15A, Fast Transient Stackable Synchronous Step-Down Converters With I2 C Interface and Remote Sense datasheet (Rev. E) (Englisch) PDF | HTML

TPS62870

AKTIV

Datenblatt

Jetzt bestellen

Produktdetails

Rating

Automotive, Catalog

Topology

Buck

Switch current limit (typ) (A)

12

Iout (max) (A)

6

Vin (max) (V)

6

Vin (min) (V)

2.7

Vout (max) (V)

3.35

Vout (min) (V)

0.4

Features

Adaptive/Dynamic Voltage Scaling, Differential Remote Sense, Enable, Fixed Output, Forced PWM, Frequency synchronization, I2C, I2C bus interface, I2C control, I2C interface, I2C/PMBus, Light Load Efficiency, Multiphase, Output discharge, Over Current Protection, Power good, Pre-Bias Start-Up, Soft Start Fixed, Spread Spectrum, Synchronous Rectification, UVLO Fixed, Wettable flanks package

EMI features

Low parasitic Hotrod packaging, Spread Spectrum

Control mode

Constant on-time (COT), DCS-Control

Switching frequency (min) (kHz)

1500

Switching frequency (max) (kHz)

3000

Operating temperature range (°C)

-40 to 125

Iq (typ) (µA)

1750

Duty cycle (max) (%)

70

Type

Converter

Rating

Automotive, Catalog

Topology

Buck

Switch current limit (typ) (A)

12

Iout (max) (A)

6

Vin (max) (V)

6

Vin (min) (V)

2.7

Vout (max) (V)

3.35

Vout (min) (V)

0.4

Features

Adaptive/Dynamic Voltage Scaling, Differential Remote Sense, Enable, Fixed Output, Forced PWM, Frequency synchronization, I2C, I2C bus interface, I2C control, I2C interface, I2C/PMBus, Light Load Efficiency, Multiphase, Output discharge, Over Current Protection, Power good, Pre-Bias Start-Up, Soft Start Fixed, Spread Spectrum, Synchronous Rectification, UVLO Fixed, Wettable flanks package

EMI features

Low parasitic Hotrod packaging, Spread Spectrum

Control mode

Constant on-time (COT), DCS-Control

Switching frequency (min) (kHz)

1500

Switching frequency (max) (kHz)

3000

Operating temperature range (°C)

-40 to 125

Iq (typ) (µA)

1750

Duty cycle (max) (%)

70

Type

Converter

VQFN-FCRLF (RXS)

16

9.0525 mm² 2.55 x 3.55

Available as an integrated-inductor power module: TPSM8287A06, TPSM8287A10, TPSM8287A12, TPSM8287A15
Functional Safety-Capable
- Documentation available to aid functional safety system design
2.7V to 6V input voltage range
6A, 9A, 12A, 15A pin-to-pin device family
Four output voltage ranges:
- 0.4V to 0.71875V in 1.25mV steps
- 0.4V to 1.0375V in 2.5mV steps
- 0.4V to 1.675V in 5mV steps
- 0.8V to 3.35V in 10mV steps
Output voltage accuracy ±1%
Differential remote sensing
7mΩ and 4.5mΩ internal power MOSFETs
Adjustable external compensation
Power-save or forced-PWM operation
Optional synchronization to external clock or spread-spectrum operation
I2C-compatible interface up to 1MHz
Stackable for increased output current capability
Thermal warning and thermal shutdown
Active output discharge
Power-good output with a window comparator
Available in 2.55mm × 3.55mm × 1mm VQFN package with wettable flanks
–40°C to 125°C junction temperature, TJ

Available as an integrated-inductor power module: TPSM8287A06, TPSM8287A10, TPSM8287A12, TPSM8287A15
Functional Safety-Capable
- Documentation available to aid functional safety system design
2.7V to 6V input voltage range
6A, 9A, 12A, 15A pin-to-pin device family
Four output voltage ranges:
- 0.4V to 0.71875V in 1.25mV steps
- 0.4V to 1.0375V in 2.5mV steps
- 0.4V to 1.675V in 5mV steps
- 0.8V to 3.35V in 10mV steps
Output voltage accuracy ±1%
Differential remote sensing
7mΩ and 4.5mΩ internal power MOSFETs
Adjustable external compensation
Power-save or forced-PWM operation
Optional synchronization to external clock or spread-spectrum operation
I2C-compatible interface up to 1MHz
Stackable for increased output current capability
Thermal warning and thermal shutdown
Active output discharge
Power-good output with a window comparator
Available in 2.55mm × 3.55mm × 1mm VQFN package with wettable flanks
–40°C to 125°C junction temperature, TJ

The TPS6287x is a family of pin-to-pin 6A, 9A, 12A, and 15A synchronous step-down DC/DC converters with differential remote sensing. For each current rating, there are full-featured device variants with I2C interface and limited-featured device variants without I2C interface. All devices offer high efficiency and ease of use. Low-resistance power switches allow up to 15A continuous output current at high ambient temperatures.

The devices can operate in stacked mode to deliver higher output currents or to spread the power dissipation across multiple devices.

The TPS6287x family implements a fixed-frequency DCS-Control scheme that supports fast transients. The devices can operate in power save mode for maximum efficiency, or forced-PWM mode for the best transient performance and lowest output voltage ripple.

The remote sensing feature allows voltage regulation at the point-of-load, hence the device achieves better than ±1% DC voltage accuracy under all operating conditions.

The switching frequency is resistor-selectable through the FSEL pin. The switching frequency can be set to 1.5MHz, 2.25MHz, 2.5MHz, or 3.0MHz, or synchronized to an external clock in the same frequency range.

The I2C-compatible interface offers several control, monitoring, and warning features, such as voltage monitoring and temperature-related warnings. The output voltage can be quickly adjusted to adapt the power consumption of the load to the performance needs of the application through the I2C-compatible interface. The default start-up voltage is resistor-selectable through the VSEL pin.

The TPS6287x is a family of pin-to-pin 6A, 9A, 12A, and 15A synchronous step-down DC/DC converters with differential remote sensing. For each current rating, there are full-featured device variants with I2C interface and limited-featured device variants without I2C interface. All devices offer high efficiency and ease of use. Low-resistance power switches allow up to 15A continuous output current at high ambient temperatures.

The devices can operate in stacked mode to deliver higher output currents or to spread the power dissipation across multiple devices.

The TPS6287x family implements a fixed-frequency DCS-Control scheme that supports fast transients. The devices can operate in power save mode for maximum efficiency, or forced-PWM mode for the best transient performance and lowest output voltage ripple.

The remote sensing feature allows voltage regulation at the point-of-load, hence the device achieves better than ±1% DC voltage accuracy under all operating conditions.

The switching frequency is resistor-selectable through the FSEL pin. The switching frequency can be set to 1.5MHz, 2.25MHz, 2.5MHz, or 3.0MHz, or synchronized to an external clock in the same frequency range.

The I2C-compatible interface offers several control, monitoring, and warning features, such as voltage monitoring and temperature-related warnings. The output voltage can be quickly adjusted to adapt the power consumption of the load to the performance needs of the application through the I2C-compatible interface. The default start-up voltage is resistor-selectable through the VSEL pin.

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Technische Dokumentation

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	Typ	Titel		Datum
*	Data sheet	TPS6287x 2.7V to 6V Input, 6A, 9A, 12A, 15A, Fast Transient Stackable Synchronous Step-Down Converters With I2 C Interface and Remote Sense datasheet (Rev. E)	PDF \| HTML	09 Okt 2025
	Analog Design Journal	Fixed-frequency DCS-Control: Fast transient response with clock synchronization	PDF \| HTML	12 Feb 2024
	Functional safety information	TPS6287x Functional Safety, FIT Rate, Failure Mode Distribution and Pin FMA	PDF \| HTML	23 Jan 2024
	Application note	QFN and SON PCB Attachment (Rev. C)	PDF \| HTML	06 Dez 2023
	Application note	Benefiting from Step-Down Converters with an I2C Communication Interface (Rev. B)	PDF \| HTML	29 Nov 2023
	Application note	AM68x Processor Power Solutions Using LP87334E PMIC for Industrial Applications	PDF \| HTML	14 Mär 2023
	Application note	Using the Filters with the DC/DC Step-Down Converter	PDF \| HTML	02 Feb 2023
	Application note	Operating TPS6287X-Q1 Devices in a Stacked Configuration	PDF \| HTML	30 Jan 2023
	Application note	Adjusting the Output Voltage of a Fixed Output Voltage DC-DC Converter	PDF \| HTML	22 Dez 2022
	EVM User's guide	TPS62873 Dual Buck Converter Evaluation Module (Rev. A)	PDF \| HTML	04 Nov 2022
	Application note	Understanding SOA Curves to Operate at High Output Currents and Temperature	PDF \| HTML	05 Mai 2022
	Application note	How to Measure Impedance of a Power Distribution Network of a DC-DC Converter	PDF \| HTML	20 Jan 2022
	Application note	Loop Gain Reconstruction of a Step-Down Converter from Output Impedance	PDF \| HTML	20 Jan 2022
	White paper	Enabling Higher Data Rates for Optical Modules With Small and Efficient Power		22 Mär 2021
	White paper	Benefits of a Resistor-to-Digital Converter in Ultra-Low Power Supplies		14 Okt 2019
	Analog Design Journal	Methods of output-voltage adjustment for DC/DC converters		14 Jun 2019
	Analog Design Journal	Achieving a clean startup by using a DC/DC converter with a precise enable-pin threshold		24 Okt 2017
	Analog Design Journal	Understanding frequency variation in the DCS-Control(TM) topology		30 Okt 2015
	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
	Analog Design Journal	High-efficiency, low-ripple DCS-Control offers seamless PWM/pwr-save transitions		25 Jul 2013
	Application note	Understanding the Absolute Maximum Ratings of the SW Node (Rev. A)		13 Jan 2012
	Application note	Choosing an Appropriate Pull-up/Pull-down Resistor for Open Drain Outputs		19 Sep 2011

Design und Entwicklung

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Evaluierungsplatine

TPS62873EVM-143 — Abwärtswandler-Evaluierungsmodul TPS62873-Q1 mit 2.7-V- bis 6-V-Eingang

Das TPS62873EVM-143-Evaluierungsmodul (EVM) ist dafür konzipiert, den Betrieb und die Funktionalität des TPS62873-Q1-Abwärtswandlers zu evaluieren und zu testen. Es kann auch dazu verwendet werden, die Bausteine TPS62870-Q1, TPS62871-Q1 und TPS62872-Q1 zu evaluieren. Das EVM wandelt eine (...)

Benutzerhandbuch: PDF | HTML

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Evaluierungsplatine

TPS62873EVM-144 — Evaluierungsmodul für den 30-A-Abwärtswandler TPS62873-Q1

Das Evaluierungsmodul (EVM) TPS62873EVM-144 ist ein synchroner Abwärtswandler mit hoher Frequenz, der für eine kleine Lösungsgröße und einen hohen Wirkungsgrad ausgelegt ist. Das EVM unterstützt den Benutzer bei der einfachen Evaluierung und Prüfung des Betriebs und der Funktionalität einer (...)

Benutzerhandbuch: PDF | HTML

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Simulationsmodell

TPS62870x, TPS62871x, TPS62872x, TPS62873x PSpice Encrypted Average Model (Rev. B)

SLVMDQ1B.ZIP (2687 KB) - PSpice Model

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Simulationsmodell

TPS62870x, TPS62871x, TPS62872x, TPS62873x SIMPLIS Encrypted Transient and Average Model (Rev. B)

SLVMDN7B.ZIP (1710 KB) - SIMPLIS Model

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Gehäuse	Pins	CAD-Symbole, Footprints und 3D-Modelle
VQFN-FCRLF (RXS)	16	Ultra Librarian

Es gelten die allgemeinen Geschäftsbedingungen von TI für Evaluierungsartikel.

TPS62870

Paralleler synchroner Abwärtswandler, 6 V, 6 A, opt. Frequenzsynch., schnelles Einschwingverhalte

TPS62870

Produktdetails

Technische Dokumentation

Design und Entwicklung

TPS62873EVM-143 — Abwärtswandler-Evaluierungsmodul TPS62873-Q1 mit 2.7-V- bis 6-V-Eingang

TPS62873EVM-144 — Evaluierungsmodul für den 30-A-Abwärtswandler TPS62873-Q1

TPS62870x, TPS62871x, TPS62872x, TPS62873x PSpice Encrypted Average Model (Rev. B)

TPS62870x, TPS62871x, TPS62872x, TPS62873x SIMPLIS Encrypted Transient and Average Model (Rev. B)

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