MAX17510

RECOMMENDED FOR NEW DESIGNS

Low-Voltage DDR Linear Regulators

Low-Cost, Low-Voltage DDR Linear Regulators Source and Sink Up to 3A Peak (typ) Using Internal n-Channel MOSFETs

Data Sheet (Rev. 9) Product Selection Table

Part Models: 6
1ku List Price: Starting From $3.45

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Overview

Internal Power MOSFETs with Current Limit (3A typ)
Fast Load-Transient Response
External Reference Input with Reference Output Buffer
1.1V to 3.6V Power Input
±15mV (max) Load-Regulation Error
Thermal-Fault Protection
Shutdown Input
Power-Good Window Comparator with 2ms (typ) Delay
Small, Low-Profile 10-Pin, 3mm × 3mm TDFN Package
Ceramic or Polymer Output Capacitors

The MAX1510/MAX17510 DDR linear regulators source and sink up to 3A peak (typ) using internal n-channel MOSFETs. These linear regulators deliver an accurate 0.5V to 1.5V output from a low-voltage power input (V_IN = 1.1V to 3.6V). The MAX1510/MAX17510 use a separate 3.3V bias supply to power the control circuitry and drive the internal n-channel MOSFETs.

The MAX1510/MAX17510 provide current and thermal limits to prevent damage to the linear regulator. Additionally, the MAX1510/MAX17510 generate a power-good (PGOOD) signal to indicate that the output is in regulation. During startup, PGOOD remains low until the output is in regulation for 2ms (typ). The internal soft-start limits the input surge current.

The MAX1510/MAX17510 power the active-DDR termination bus that requires a tracking input reference. The MAX1510/MAX17510 can also be used in low-power chipsets and graphics processor cores that require dynamically adjustable output voltages. The MAX1510/MAX17510 are available in a 10-pin, 3mm × 3mm thin DFN package.

Applications

Active Termination Buses
Chipset/RAM Supplies as Low as 0.5V
DDR Memory Termination
Graphics Processor Core Supplies
Notebook and Desktop Computers

Part Models: 6
1ku List Price: Starting From $3.45

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
MAX17510ATB+	Thin Dual Flatpack No Leads, Exposed Pad	Material Declaration Reliablity Data Package Resources	Ultra Librarian SamacSys
MAX17510ATB+T	Thin Dual Flatpack No Leads, Exposed Pad	Material Declaration Reliablity Data Package Resources	Ultra Librarian SamacSys
MAX17510ATB/V+	Thin Dual Flatpack No Leads, Exposed Pad	Material Declaration Reliablity Data Package Resources	Ultra Librarian SamacSys
MAX17510ATB/V+T	Thin Dual Flatpack No Leads, Exposed Pad	Material Declaration Reliablity Data Package Resources	Ultra Librarian SamacSys
MAX17510ATC/V+	Thin Dual Flatpack No Leads, Exposed Pad	Material Declaration Reliablity Data Package Resources	Ultra Librarian SamacSys
MAX17510ATC/V+T	Thin Dual Flatpack No Leads, Exposed Pad	Material Declaration Reliablity Data Package Resources	Ultra Librarian SamacSys

Part Models	Product Lifecycle	PCN

Aug 2, 2025 - 2505 PIN/ERRATA
		pcn_2505
MAX17510ATB+	PRODUCTION
MAX17510ATB/V+	PRODUCTION
Jun 20, 2016 - 1612 ASSEMBLY
		pcn_1612
MAX17510ATB+	PRODUCTION
MAX17510ATB+T	PRODUCTION
Jun 18, 2021 - 2161 ASSEMBLY
		pcn_2161
MAX17510ATB/V+	PRODUCTION
MAX17510ATB/V+T	PRODUCTION

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

Software Resources

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Reference Designs

Knightrider Zynq Ultrascale +MPSOC Automotive Power Delivery Board - Top View

Automotive ASIL-D Compliant Power Delivery Board

View Detailed Reference Design

Features and Benefits

Xilinx Zynq^® UltraScale+™ devices are the industry’s only cost-optimized FPGAs based on an advanced, production-proven 16nm architecture for best-in-class performance/watt.

Analog Devices, Inc. supports ASIL-D compliant automotive power delivery solutions for the Xilinx Zynq UltraScale+ MPSOC. The Knightrider board demonstrates the best-in-class power management supporting ASIL-D compliant solutions for functional safety.

Monolithic solutions are used to power Xilinx FPGA and/or SoC rails as well as other system rails. These regulators are highly integrated discrete solutions optimized for cost, efficiency and foot print.

ADI provides supporting documentation including power schematics, layout, LTpowerPlanner^® and applicable LTpowerPlay^® configuration files to enable you to validate the power solution for your application seamlessly.

For a complete list power designs and use cases, please contact your local FAE.

Key Power for full management devices are used as follows: