BQ25890

AKTIV

I2C, 1-Zellen, 5 A, Abwärts-Batterielader mit Maxcharge™-Technologie für hohen Eingang mit D+/D-

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Datenblatt

document-pdfAcrobat BQ25890/2 I2C Controlled Single Cell 5-A Fast Charger with MaxChargeTM Technology for High Input Voltage and Adjustable Voltage USB On-the-Go Boost Mode datasheet (Rev. D) (Englisch) PDF | HTML

BQ25890

AKTIV

Datenblatt

Jetzt bestellen

Produktdetails

Number of series cells

1

Charge current (max) (A)

5

Vin (max) (V)

14

Cell chemistry

Li-Ion/Li-Polymer

Battery charge voltage (min) (V)

3.84

Battery charge voltage (max) (V)

4.6

Absolute max Vin (max) (V)

22

Control topology

Switch-Mode Buck

Control interface

I2C

Features

BAT temp thermistor monitoring (JEITA profile), BAT temp thermistor monitoring (hot/cold profile), IC thermal regulation, ICO (Input Current Optimization), IINDPM (Input current limit), Input OVP, Integrated ADC, Power Path, USB C/PD compatible, USB D+/D-/BC1.2 integrated, USB OTG integrated

Vin (min) (V)

3.9

Rating

Catalog

Operating temperature range (°C)

-40 to 85

Number of series cells

1

Charge current (max) (A)

5

Vin (max) (V)

14

Cell chemistry

Li-Ion/Li-Polymer

Battery charge voltage (min) (V)

3.84

Battery charge voltage (max) (V)

4.6

Absolute max Vin (max) (V)

22

Control topology

Switch-Mode Buck

Control interface

I2C

Features

BAT temp thermistor monitoring (JEITA profile), BAT temp thermistor monitoring (hot/cold profile), IC thermal regulation, ICO (Input Current Optimization), IINDPM (Input current limit), Input OVP, Integrated ADC, Power Path, USB C/PD compatible, USB D+/D-/BC1.2 integrated, USB OTG integrated

Vin (min) (V)

3.9

Rating

Catalog

Operating temperature range (°C)

-40 to 85

WQFN (RTW)

24

16 mm² 4 x 4

High efficiency 5-A, 1.5-MHz Switch Mode buck charge
- 93% Charge efficiency at 2 A and 91% charge efficiency at 3-A charge current
- Optimize for high voltage input (9 V to 12 V)
- Low power PFM Mode for light-load operations
USB On-the-Go (OTG) with adjustable output from 4.5 V to 5.5 V
- Selectable 500-kHz and 1.5-MHz Boost Converter with up-to 2.4-A output
- 93% Boost efficiency at 5 V at 1-A output
- Accurate Hiccup Mode overcurent protection
Single input to support USB input and adjustable high voltage adapters
- Support 3.9-V to 14-V input voltage range
- Input current limit (100 mA to 3.25 A with 50-mA resolution) to support USB2.0, USB3.0 standard and high voltage adapters
- Maximum power tracking by input voltage limit up-to 14 V for wide range of adapters
- Auto detect USB SDP, CDP, DCP, and non-standard adapters (BQ25890)
Input Current Optimizer (ICO) to maximize input power without overloading adapters
Resistance Compensation (IRCOMP) from charger output to cell terminal
Highest battery discharge efficiency with 11-mΩ battery discharge MOSFET up to 9 A
Integrated ADC for system monitor (voltage, temperature, charge current)
Narrow VDC (NVDC) power path management
- Instant-on works with no battery or deeply discharged battery
- Ideal diode operation in Battery Supplement Mode
BATFET Control to support Ship Mode, wake up, and full system reset
Flexible autonomous and I²C Mode for optimal system performance
High integration includes all MOSFETs, current sensing and loop compensation
12-µA Low battery leakage current to support Ship Mode
High Accuracy
- ±0.5% Charge voltage regulation
- ±5% Charge current regulation
- ±7.5% Input current regulation
Safety
- Battery temperature sensing for charge and Boost Mode
- Thermal regulation and thermal shutdown

High efficiency 5-A, 1.5-MHz Switch Mode buck charge
- 93% Charge efficiency at 2 A and 91% charge efficiency at 3-A charge current
- Optimize for high voltage input (9 V to 12 V)
- Low power PFM Mode for light-load operations
USB On-the-Go (OTG) with adjustable output from 4.5 V to 5.5 V
- Selectable 500-kHz and 1.5-MHz Boost Converter with up-to 2.4-A output
- 93% Boost efficiency at 5 V at 1-A output
- Accurate Hiccup Mode overcurent protection
Single input to support USB input and adjustable high voltage adapters
- Support 3.9-V to 14-V input voltage range
- Input current limit (100 mA to 3.25 A with 50-mA resolution) to support USB2.0, USB3.0 standard and high voltage adapters
- Maximum power tracking by input voltage limit up-to 14 V for wide range of adapters
- Auto detect USB SDP, CDP, DCP, and non-standard adapters (BQ25890)
Input Current Optimizer (ICO) to maximize input power without overloading adapters
Resistance Compensation (IRCOMP) from charger output to cell terminal
Highest battery discharge efficiency with 11-mΩ battery discharge MOSFET up to 9 A
Integrated ADC for system monitor (voltage, temperature, charge current)
Narrow VDC (NVDC) power path management
- Instant-on works with no battery or deeply discharged battery
- Ideal diode operation in Battery Supplement Mode
BATFET Control to support Ship Mode, wake up, and full system reset
Flexible autonomous and I²C Mode for optimal system performance
High integration includes all MOSFETs, current sensing and loop compensation
12-µA Low battery leakage current to support Ship Mode
High Accuracy
- ±0.5% Charge voltage regulation
- ±5% Charge current regulation
- ±7.5% Input current regulation
Safety
- Battery temperature sensing for charge and Boost Mode
- Thermal regulation and thermal shutdown

The BQ25890, BQ25892 are highly-integrated 5-A switch-mode battery charge management and system power path management device for single cell Li-Ion and Li-polymer battery. The devices support high input voltage fast charging. The low impedance power path optimizes switch-mode operation efficiency, reduces battery charging time and extends battery life during discharging phase.

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Technische Dokumentation

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	Typ	Titel		Datum
*	Data sheet	BQ25890/2 I2C Controlled Single Cell 5-A Fast Charger with MaxChargeTM Technology for High Input Voltage and Adjustable Voltage USB On-the-Go Boost Mode datasheet (Rev. D)	PDF \| HTML	12 Okt 2022
	Application note	Selection of Single-Cell Buck Narrow VDC Switching Battery Chargers	PDF \| HTML	10 Nov 2022
	Application note	USB D+/D- Input Current Limit Detection	PDF \| HTML	30 Dez 2020
	Application note	Extracting Maximum Power from an Adapter with Input Current Optimization Feature (Rev. C)		02 Aug 2019
	Technical article	Finding the maximum adapter power for the fastest battery charging	PDF \| HTML	16 Okt 2017
	Application note	Battery Charger Overload Protection in Boost Mode Operation		12 Jul 2017
	Application note	Handshaking Between Adjustable HVDCP Adapters and Battery Chargers		15 Nov 2016
	Technical article	How to protect your EPOS processor from short-circuits in 9-V USB charging	PDF \| HTML	21 Apr 2016
	EVM User's guide	bq25890/892/895/895M EVM (PWR664) User's Guide (Rev. B)	PDF \| HTML	24 Nov 2015
	Analog Design Journal	4Q 2015 Analog Applications Journal		30 Okt 2015
	Analog Design Journal	Faster, cooler charging with dual chargers		30 Okt 2015
	EVM User's guide	bq25890, bq25892 Dual Cascade Charger EVM (PWR692) (Rev. A)		10 Jun 2015
	Application note	Using the bq2589x ADC to Estimate Battery Temperature		04 Mai 2015
	Analog Design Journal	Dynamic power management for faster, more efficient battery charging		28 Okt 2013

Design und Entwicklung

Weitere Bedingungen oder erforderliche Ressourcen enthält gegebenenfalls die Detailseite, die Sie durch Klicken auf einen der unten stehenden Titel erreichen.

Evaluierungsplatine

BQ25890EVM-664 — BQ25890 Komplettes Ladegerät – Evaluierungsmodul

The bq25890 evaluation module (EVM) is a complete charger module for evaluating the highly-integrated switch-mode battery charge management and system power path management device for 1 cell Li-Ion and Li-polymer battery in a wide range of smartphone and tablet applications.

The BQ25890EVM-664 (...)

Benutzerhandbuch: PDF | HTML

Nicht verfügbar auf TI.com

Anwendungssoftware und Frameworks

BQSTUDIO — Software „Battery Management Studio“ (bqStudio)

Battery Management Studio (bqStudio) bietet eine vollständige Suite robuster Tools, die Sie bei der Evaluierung, dem Design, der Konfiguration, dem Test oder der anderweitigen Nutzung von TI-Produkten für das Batteriemanagement unterstützen. Dazu gehören Funktionen, die den (...)

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Treiber oder Bibliothek

BQ25890SW-LINUX — Linux-Treiber für BQ25890

The Linux driver supports the BQ25890 5-A fast charger. The Linux driver supports communication through the I²C bus and interfaces with the power supply sub-system.

Linux mainline status

Available in Linux mainline: Yes
Available through git.ti.com: N/A

Linux source Files

The files associated with this (...)

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Simulationsmodell

bq2589x Calculation Tools (Rev. A)

SLURAX7A.ZIP (305 KB) - Power Model

Herunterladen

Referenzdesigns

PMP15011 — Kaskaden-Dual-Ladegerät-Referenzdesign für 1S Li-Ion-Batterie-betriebene Endgeräte

Smartphones and other handheld equipment with 3AHr+ 1S Li-Ion batteries require 3-A+ charger current for fast charging. Parallel chargers allow for high charge currents, resulting in shorter charge times, while distributing the heat losses across the end equipment PCB, thereby preventing (...)

Test report: PDF

Schaltplan: PDF

Referenzdesigns

TIDA-00818 — Referenzdesign zur Stromversorgung von mobilen Zahlungsterminals (mPOS)

The TIDA-00818 is mobile point of sale (mPOS) reference design features a 1S1P Li-Ion battery architecture to reduce system size and cost. Integrated load switches are used to reduce standby power consumption and maximize battery life to enable the single-cell architecture. A USB Type-C charging (...)

Design guide: PDF

Schaltplan: PDF

Referenzdesigns

TIDA-01582 — Referenzdesign für Schnellladung mit geschaltetem Kondensator für programmierbare USB-Stromversorgun

The goal of this reference design is to show the total system performance when using the switched-cap fast charge topology in a smart phone application. The system includes using a smart wall adapter that supports USB Power Delivery (PD) Programmable Power Supply (PPS) specifications to reduce (...)

Design guide: PDF

Schaltplan: PDF

Referenzdesigns

TIDA-00590 — Referenzdesign für Dual-Batterielader-IC (verbunden über Kaskodenkonfiguration)

Higher capacity 1S batteries in the latest smartphones and tablets need higher charge currents to charge faster. With 12-V power sources, two 5-A battery charger ICs connected in cascode, parallel configuration can provide more than 5-A charging current. In addition, the heat from the (...)

Schaltplan: PDF

Gehäuse	Pins	Herunterladen
WQFN (RTW)	24	Optionen anzeigen

Es gelten die allgemeinen Geschäftsbedingungen von TI für Evaluierungsartikel.

BQ25890

I2C, 1-Zellen, 5 A, Abwärts-Batterielader mit Maxcharge™-Technologie für hohen Eingang mit D+/D-

BQ25890

Produktdetails

Technische Dokumentation

Design und Entwicklung

BQ25890EVM-664 — BQ25890 Komplettes Ladegerät – Evaluierungsmodul

BQSTUDIO — Software „Battery Management Studio“ (bqStudio)

BQ25890SW-LINUX — Linux-Treiber für BQ25890

Linux mainline status

Linux source Files

bq2589x Calculation Tools (Rev. A)

PMP15011 — Kaskaden-Dual-Ladegerät-Referenzdesign für 1S Li-Ion-Batterie-betriebene Endgeräte

TIDA-00818 — Referenzdesign zur Stromversorgung von mobilen Zahlungsterminals (mPOS)

TIDA-01582 — Referenzdesign für Schnellladung mit geschaltetem Kondensator für programmierbare USB-Stromversorgun

TIDA-00590 — Referenzdesign für Dual-Batterielader-IC (verbunden über Kaskodenkonfiguration)

Bestellen & Qualität

Support und Schulungen

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Videoreihe

Videos