MAX17260

PRODUCTION

5.1µA 1-Cell Fuel Gauge with ModelGauge m5 EZ and Optional High-Side Current Sensing

Industry's Lowest I_Q Fuel Gauge with ModelGauge m5 EZ Eliminates Battery Characterization

Data Sheet (Rev. 2)

Product Selection Table

Part Models: 6
1ku List Price: Starting From $1.22

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Overview

ModelGauge m5 EZ
- No Characterization Required for EZ Performance
- Robust Against Battery Variation
- Eliminates Error Near Empty Voltage
- Eliminates Coulomb-Counter Drift
- Compensates for Age, Current, and Temperature
- Does Not Require Empty, Full, or Idle States
Low 5.1µA Operating Current
Accurate Current Sensing

High-Side or Low-Side Sensing Option

Wide Sense Resistor Range: 1mΩ to 1000mΩ
Trace Sensing with Temperature Compensation
Supports Li+ and Variants Including LiFePO₄
Thermistor or ±1°C Internal Temperature
Dynamic Power Estimates Power Capability During Discharge
Time-to-Empty and Time-to-Full Estimation
Predicts Remaining Capacity Under Theoretical Load
No Calibration Required
Alert Indicator for Voltage, SOC, Temperature, Current, and 1% SOC Change

The MAX17260 is an ultra-low power fuel gauge IC which implements the Maxim ModelGauge^™ m5 algorithm. The IC monitors a single-cell battery pack and supports both high-side and low-side current sensing.

The ModelGauge m5 EZ algorithm makes fuel gauge implementation easy by eliminating battery characterization requirements and simplifying host software interaction. The algorithm provides tolerance against battery diversity for most lithium batteries and applications. The algorithm combines the short-term accuracy and linearity of a coulomb counter with the long-term stability of a voltage-based fuel gauge, along with temperature compensation to provide industry-leading fuel gauge accuracy. The IC automatically compensates for cell-aging, temperature, discharge rate, and provides accurate state-of-charge (SOC) in percentage (%) and remaining capacity in milliampere-hours (mAh) over a wide range of operating conditions. As the battery approaches the critical region near empty, the algorithm invokes a special correction mechanism that eliminates any error. The IC provides accurate estimation of time-to-empty and time-to-full and provides three methods for reporting the age of the battery: reduction in capacity, increase in battery resistance, and cycle odometer.

The IC provides precision measurements of current, voltage, and temperature. The temperature of the battery pack is measured using an internal temperature sensor or external thermistor. A 2-wire I²C interface provides access to data and control registers. The IC is available in tiny lead-free 0.4mm pitch, 1.5mm x 1.5mm, 9-pin WLP package and 3mm x 3mm, 14-pin TDFN package.

Design Solution: Choose a Fuel Gauge with the Right Current Sensing for Your Battery System ›

Applications

Wearables, Smartwatches
Tablets, 2-in-1 Laptops
Bluetooth Headsets
Health and Fitness Monitors
Digital Still, Video, and Action Cameras
Medical Devices
Handheld Computers and Terminals
Wireless Speakers
Home and Building Automation, Sensors
Portable Game Players
Toys

Part Models: 6
1ku List Price: Starting From $1.22

Documentation

ADI has always placed the highest emphasis on delivering products that meet the maximum levels of quality and reliability. We achieve this by incorporating quality and reliability checks in every scope of product and process design, and in the manufacturing process as well. "Zero defects" for shipped products is always our goal. View our quality and reliability program and certifications for more information.

Part Model	Pin/Package Drawing	Documentation	CAD Symbols, Footprints, and 3D Models
MAX17260BEWL+	Wafer-Level Package 3x3 Bump, Full Array	Material Declaration Reliablity Data Package Resources	Ultra Librarian SamacSys
MAX17260BEWL+T	Wafer-Level Package 3x3 Bump, Full Array	Material Declaration Reliablity Data Package Resources	Ultra Librarian SamacSys
MAX17260SETD+	Thin Dual Flatpack No Leads	Material Declaration Reliablity Data Package Resources	Ultra Librarian SamacSys
MAX17260SETD+T	Thin Dual Flatpack No Leads	Material Declaration Reliablity Data Package Resources	Ultra Librarian SamacSys
MAX17260SEWL+	Wafer-Level Package 3x3 Bump, Full Array	Material Declaration Reliablity Data Package Resources	Ultra Librarian SamacSys
MAX17260SEWL+T	Wafer-Level Package 3x3 Bump, Full Array	Material Declaration Reliablity Data Package Resources	Ultra Librarian SamacSys

Part Models	Product Lifecycle	PCN

Feb 21, 2025 - 2453N ASSEMBLY
		pcn_2453n
MAX17260BEWL+	PRODUCTION
MAX17260BEWL+T	PRODUCTION
Feb 21, 2019 - 1917 WAFER FAB
		pcn_1917
MAX17260BEWL+T	PRODUCTION
MAX17260SETD+	PRODUCTION
MAX17260SETD+T	PRODUCTION
MAX17260SEWL+	PRODUCTION
Apr 27, 2024 - 2400 ASSEMBLY
		pcn_2400
MAX17260SETD+	PRODUCTION
MAX17260SETD+T	PRODUCTION
Apr 23, 2024 - 2419N ASSEMBLY
		pcn_2419n
MAX17260SETD+	PRODUCTION
MAX17260SETD+T	PRODUCTION
Feb 15, 2022 - 2247 TEST
		pcn_2247
MAX17260SEWL+	PRODUCTION
MAX17260SEWL+T	PRODUCTION

This is the most up-to-date revision of the Data Sheet.

Software Resources

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Hardware Ecosystem

Parts	Product Life Cycle	Description
Battery Charger ICs 1
MAX8971	PRODUCTION	Industry's Smallest 1.55A 1-Cell Li+ DC-DC Charger
Battery Monitors & Fuel Gauges 2
MAX17055	PRODUCTION	7µA 1-Cell Fuel Gauge with ModelGauge m5 EZ
MAX17201	PRODUCTION	Stand-Alone ModelGauge m5 Fuel Gauge with SHA-256 Authentication

Tools & Simulations

Software Development 2

Evaluation Kits

Evaluation Kit for the MAX17260

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Features and Benefits

ModelGauge m5 Algorithm
Monitors from 1S Cell Packs
Battery Pack Input Voltage Range of +2.3V to +4.9V
Thermistor Measurement Network
Optional On-Board PCB Trace Sense Resistor
Windows 7 or Newer Compatible Software
Proven PCB Layout
Fully Assembled and Tested

Product Details

The MAX17260G/MAX17260X evaluation kits (EV kits) are fully assembled and tested surface-mount PCBs that evaluate the stand-alone ModelGauge™ m5 host-side fuel-gauge ICs for lithium-ion (Li+) batteries in handheld and portable equipment.

The MAX17260G/MAX17260X EV kits include the Maxim DS91230+ USB interface, IC evaluation board, and RJ-11 connection cable. Windows^®-based graphical user interface (GUI) software is available for use with the EV kits and can be downloaded from Maxim’s website at www.maximintegrated.com/en/products/power/battery-management/MAX17260.html (under the Design Resources tab). Windows 7 or newer Windows operating system is required to use with the EV kit GUI software.

Applications