Validated Power Management Solutions for Intel® Agilex™ FPGAs

From edge to cloud, Intel has your Intel® Agilex™ FPGA power supply requirements covered with Intel Enpirion® Power Solutions. Combining Intel FPGA and power technology, optimize system power performance by:

  • Simplifying bring-up & reducing risk with power management devices designed and validated with Intel Agilex 
  • Reducing your FPGA power consumption with full Intel SmartVID compatibility  
  • Saving board space with high frequency, small form-factor power management solutions
  • Implementing intelligent system power management with real-time telemetry and system health monitoring
  • Reducing large, expensive bulk capacitance with fast response to dynamic power changes
  • Ensuring signal integrity while maintaining high efficiency with low noise power management

Maximize your system with the right FPGA power supplies optimized for Intel Agilex FPGAs

Intel Agilex Power Tree Example

Recommended Intel Enpirion Power Solutions

Power Rail Current Requirement Suggested Solution
≤0.4A EP5348
≤0.6A EP5357EP5358
≤0.8A EP5388
≤1.0A EP53A7EP53A8EN6310
≤1.5A EP53F8EN5319
≤2.0A EN5329
≤3.0A EN5339, EN6337EN6338
≤4.0A EN6340EN6347
≤6.0A EN6362EN6363
≤8.0A EN6382
≤10.0A EN29A0
≤12.0A EN63A0
≤20.0A EM2120
≤30.0A EM2130, EM2030
≤40.0A EM2140, EM2040
≤60.0A EM2260ED8401 + ET6160 multiphase
≤80.0A EM2280ED8401ET6160 multiphase
80.0A to 200.0A ED8401 + ET6160 multiphase

Build Flexible, Intelligent Systems with Intel Stratix® 10 FPGAs and SoCs Powered by Intel® Enpirion® Power Solutions

Powerful applications rely on the advanced performance and flexibility of Intel Stratix® 10 FPGAs, and Intel® Enpirion® Power Solutions are designed to enable Stratix 10 FPGAs to operate at peak performance. Together, Intel Stratix 10 FPGAs and Intel Enpirion Power Solutions enable designers to:

  • Reduce FPGA power consumption with SmartVID capability
  • Implement dynamic and intelligent system power management with the Intel Enpirion digital PowerSoC family and Intel® MAX® 10 FPGA board management controller capability
  • Save PCB space to shrink form factors or fit additional system features
  • Save time and lower risk with solutions that are designed and validated together

For more information, download the Powering Intel Stratix 10 Solution Brief. Visit the Intel Stratix 10 FPGAs homepage for additional resources. 

Intel Stratix 10 Power Tree Example

Intel Stratix 10 Devices Supported

Intel Stratix 10 GX, Intel Stratix 10 TX, Intel Stratix 10 SX, and Intel Stratix 10 MX devices.

Recommended Intel Enpirion Power Solutions

Power Rail Current Requirement Suggested Solution
≤0.4A EP5348
≤0.6A EP5357EP5358
≤0.8A EP5388
≤1.0A EP53A7EP53A8EN6310
≤1.5A EP53F8EN5319
≤2.0A EN5329
≤3.0A EN5339, EN6337EN6338
≤4.0A EN6340EN6347
≤6.0A EN6362EN6363
≤8.0A EN6382
≤10.0A EN29A0
≤12.0A EN63A0
≤20.0A EM2120
≤30.0A EM2130, EM2030
≤40.0A EM2140, EM2040
≤60.0A EM2260ED8401 + ET6160 multiphase
≤80.0A EM2280ED8401ET6160 multiphase
80.0A to 200.0A ED8401 + ET6160 multiphase

Looking for More?

Download the Solution Brief for Powering Intel Stratix 10 with Intel Enpirion Power Solutions.

Visit the Intel Stratix 10 device support page for more power and thermal management resources.

Visit the Intel Enpirion Power Solutions page for more power solutions resources.

Maximize Power Performance by Powering Intel® Arria® 10 FPGAs and SoCs with Intel Enpirion® Power Solutions  

With both FPGA and power expertise, Intel knows how to power FPGAs. The Intel® Enpirion® Power Solutions line of DC-DC Step-Down Converters are highly integrated and efficient, delivering high power in a tiny total footprint to save valuable PCB space. Intel Enpirion power management devices are also designed, tested, and validated to exceed Intel Arria® 10 device power requirements and complement Intel Arria 10 FPGA's full suite of tools to reduce FPGA power consumption, enabling designers to build high-performance yet low-power FPGA systems. Take full advantage of the Intel Arria 10 device features and performance without sacrificing board space or power budget with Intel Enpirion Power Solutions.

For more information, download the Powering Intel Arria 10 FPGAs Solution Brief

Visit the Intel Arria 10 FPGAs homepage for additional resources. 

Intel Arria 10 Device Power Tree Example

Intel Arria 10 Devices Supported

Intel Arria 10 GX, Intel Arria 10 GT, and Intel Arria 10 SX devices.

Recommended Intel Enpirion Power Solutions

Power Rail Current Requirement Suggested Solution
≤0.4A EP5348
≤0.6A EP5357EP5358
≤0.8A EP5388
≤1.0A EP53A7EP53A8EN6310
≤1.5A EP53F8EN5319
≤2.0A EN5329
≤3.0A EN5339, EN6337EN6338
≤4.0A EN6340EN6347
≤6.0A EN6362EN6363
≤8.0A EN6382
≤10.0A EN29A0
≤12.0A EN63A0
≤20.0A EM2120
≤30.0A EM2130, EM2030
≤40.0A EM2140, EM2040
≤60.0A EM2260ED8401 + ET6160 multiphase
≤80.0A EM2280ED8401ET6160 multiphase
80.0A to 200.0A ED8401 + ET6160 multiphase
Intel Arria 10 Device Power Reference Design

Powering Intel Arria 10 FPGAs and SoCs is made easy with a Power Solution Reference Design featuring Intel Enpirion Power Solutions. Designed and validated by Intel, this design achieves excellent power performance and high overall board power density.

This design delivers:

  • A complete Intel Arria 10 FPGA or SoC power solution, scalable for 20W to 40W Intel Arria 10 device core voltage (VCC) designs
  • ±8.7 mV steady-state Intel Arria 10 device VCC accuracy
  • <±2% Intel Arria 10 device VCC deviation during load transient

Visit the Intel Arria 10 Device Power Reference Design page to download the design schematics and bench validation results.

For a quick overview, download the Reference Design Solution Brief.

Looking for More?

Download the Solution Brief for Powering Intel Arria 10 with Intel Enpirion Power Solutions

Visit the Intel Arria 10 and Intel Arria 10 SoC support pages for more power and thermal management resources.

Visit the Intel Enpirion Power Solutions page for more power solutions resources.



† Tests measure performance of components on a particular test, in specific systems. Differences in hardware, software, or configuration will affect actual performance. Consult other sources of information to evaluate performance as you consider your purchase.  For more complete information about performance and benchmark results, visit www.intel.com/benchmarks.

Powering Intel® Cyclone® 10 FPGAs Is Easier with Intel® Enpirion® Power Solutions  

Save valuable design time and accelerate your schedule by combining Intel® Cyclone® 10 FPGAs with Intel Enpirion® Power Solutions. Intel Enpirion Power SoCs integrate nearly all the components needed for Intel Cyclone 10 FPGA power rails,providing a family of fully validated, easy-to-use solutions with up to 96% efficiency† – freeing designers to focus on their unique intellectual property (IP) and FPGA design and spend less time on power supply design.  

For more information, download the Powering Intel Cyclone 10 FPGAs Solution Brief.

Visit the Intel Cyclone 10 FPGAs homepage for additional resources.

Intel Cyclone 10 Power Tree Example

Recommended Intel Enpirion Power Solutions

Power Rail Current Requirement Suggested Solution
≤0.4A EP5348
≤0.6A EP5357EP5358
≤0.8A EP5388
≤1.0A EP53A7EP53A8EN6310
≤1.5A EP53F8EN5319
≤2.0A EN5329
≤3.0A EN5339EN6337
≤4.0A EN6340EN6347
≤6.0A EN6362, EN6363
≤8.0A EN6382
≤10.0A EN29A0
≤12.0A EN63A0
≤20.0A EM2120
≤30.0A EM2130, EM2030

Looking for More?

Download the Solution Brief for Powering Intel Cyclone 10 with Intel Enpirion Power Solutions 

Visit the Intel Cyclone 10 GX support page for more power and thermal management resources.

Visit the Intel Enpirion Power Solutions page for more power solutions resources.

Easily Build Flexible Yet Cost-Optimized Systems with Intel® Enpirion Power Solutions and Cyclone® V FPGAs and SoCs

Intel® Enpirion® power converters combined with Cyclone® V FPGAs and SoCs enables designers to build flexible and powerful yet low-cost and highly integrated systems. The Enpirion Power Solutions are ideal for exceeding Cyclone V device power requirements - including for noise-sensitive transceivers or high-performance embedded SoCs - while offering excellent power density and a highly reliable, easy-to-use form factor. Intel enables designers to focus on their unique IP and FPGA designs and spend less time on complex, robust power supply design.

For more information, download the Powering Intel Cyclone V FPGAs Solution Brief.

Visit the Intel Cyclone V FPGAs homepage for additional resources.

Cyclone V Power Tree Example

Cyclone V Devices Supported

Cyclone V E, Cyclone V GX, Cyclone V GT, Cyclone V SE, Cyclone V SX, Cyclone V ST

Recommended Intel Enpirion Power Solutions

Power Rail Current Requirement Suggested Solution
≤0.4A EP5348
≤0.6A EP5357EP5358
≤0.8A EP5388
≤1.0A EP53A7EP53A8EN6310
≤1.5A EP53F8EN5319
≤2.0A EN5329
≤3.0A EN6337, EN6338EN5339
≤4.0A EN6340EN6347
≤6.0A EN6362, EN6363
≤8.0A EN6382
≤10.0A EN29A0
≤12.0A EN63A0

Looking for More?

Download the Solution Brief for Powering Intel Cyclone V with Intel Enpirion Power Solutions

Visit the Cyclone V and Cyclone V SoC support pages for more power and thermal management resources.

Visit the Intel Enpirion Power Solutions page for more power solutions resources.

Shrink Your Solution Size and Simplify Your Design by Combining Intel® Enpirion® Power Solutions and Intel MAX® 10 FPGAs

Intel® Enpirion® Power Solutions integrate nearly all the components needed for a power supply, and Intel MAX® 10 FPGAs integrate programmable logic, flash memory, and an A/D converter.  Together, this integration enables Enpirion-powered Intel MAX 10 FPGA designs to reduce PCB footprint compared to discrete low-cost FPGA solutions – save significant solution size compared to Cyclone® V device implementations! Simplify your design, reduce system cost, and save valuable board space with the complete Intel solution.

For more information on powering Intel MAX 10 devices, download the Powering Intel MAX10 FPGAs Solution Brief.

To learn how to use the Intel MAX 10 FPGA as a Power Sequencer, download the Multi-Rail Power Sequencer and Monitor Solution Brief or watch this short video explaining the Multi-Rail Power Sequencer and Monitor. The Multi-Rail Power Sequencer and Monitor is available for download now. 

Visit the Intel MAX 10 FPGAs homepage for additional resources.

Intel MAX 10 Device Power Tree

Intel MAX 10 Devices Supported

Intel MAX 10 FPGA Single Supply, Intel MAX 10 FPGA Dual Supply

Recommended Intel Enpirion Power Solutions

Power Rail Current Requirement Suggested Solution
≤0.4A EP5348
≤0.6A EP5357EP5358
≤0.8A EP5388
≤1.0A EP53A7EP53A8EN6310
≤1.5A EP53F8EN5319
≤2.0A EN5329
≤3.0A EN6337, EN6338EN5339
≤4.0A EN6340EN6347
≤6.0A EN6362EN6363

Looking for More?

Download the Solution Brief for Powering Intel MAX10 with Intel Enpirion Power Solutions.

Visit the Intel MAX 10 FPGA page for more power and thermal management resources.

Visit the Intel Enpirion Power Solutions page for more power solutions resources.

Save Power and Reduce Cost without Changing Your Board

Maximize your transition from an FPGA to an Intel® eASIC™ device with Intel Enpirion® Power Solutions that, when used together, can enable you to:

  • Meet the lower power ASIC requirements with scalable power solutions
  • Save time and resources with footprint-compatible solutions – no need for a board spin
  • Reduce total cost of ownership with lower power solutions 

For more information, download the Powering Intel eASIC Solution Brief.

 

Intel eASIC Device Power Tree

Recommended Intel Enpirion Power Solutions

Power Rail Current Requirement Recommended Power Solutions Scalable, Footprint Compatible Options

≤1.5A

EN5319

EZ6301

EN5329 (2 A), EN5339 (3 A)

EZ6303 (2.2 A)

≤2A

EN5329

EN5319 (1.5 A), EN5339 (3 A)

≤3A

EN5339

EN6337

EZ6303

EN6338

EN5319 (1.5 A), EN5329 (2 A)

EN6347 (4 A)

EZ6301 (1.5 A)

N/A

≤4A

EN6340

EN6347

EN6363 (6 A)

EN6337 (3 A)

≤6A

EN6362

EN6363

EN6382 (8 A)

EN6340 (4 A)

≤8A

EN6382

EN6362 (6 A)

≤10A

EN29A0

N/A

≤12A

EC2650

EN63A0

EC2650 (can parallel up to 4)

N/A

≤20A

EM2120

EM2130 (30 A), EM2140 (40 A)

≤30A

EM2130

EM2030

EM2120 (20 A), EM2140 (40 A)

EM2040 (40 A)

≤40A

EM2140

 EM2040

EM2120 (20 A), EM2130 (30 A)

EM2030 (30 A)

≤60A

EM2260

ED8401+ET6160 multiphase

EM2280 (80 A)

N/A

≤80A

EM2280

ED8401+ET6160 multiphase

EM2260 (60 A)

N/A

80.0A to 200.0A ED8401+ET6160 multiphase N/A

Getting Started: Understanding Your Design's Power Needs

One of the biggest advantages of FPGAs is their incredible flexibility and customization for a designer's unique needs. However this benefit means that every design will also have unique power requirements. Intel provides a number of resources to help you better understand your design's requirements throughout the design process.

Early Power Estimator (EPE)

Get Intel® Enpirion® power converter recommendations automatically using Intel’s Early Power Estimator.

One file – seamless FPGA or SoC FPGA power consumption estimates and power converter recommendations, customized for your design’s unique needs. Intel’s Early Power Estimator, versions 13.1 and newer, now enables designers to:

  • Group the FPGA or SoC power rails according to the device’s Pin Connection Guidelines recommendations and the power rails needed for your design
  • Make system decisions, such as input voltage, amount of power supply margin, and special features like “Power OK”
  • View recommended Intel Enpirion Power Solutions that best meets the design’s requirements in the smallest footprint

Download your FPGA or SoC FPGA's latest Early Power Estimator now.

Power Distribution Network 

For each FPGA power supply, designers must choose a network of bulk and ceramic decoupling capacitors, which can be physically large and add significant system cost.  Intel Enpirion Power Solutions are designed for fast transient response and minimal bulk capacitance, which saves valuable PCB space, makes board layout easier, and lowers total cost.

Intel makes determining your system's decoupling capacitance easy with a Power Distribution Network (PDN) design tool that enable designers to quickly and accurately determine the right number of decoupling capacitors for optimal cost and performance trade-offs.

Learn more about Intel's Power Distribution Network (PDN) Design Tools.

Find the Right FPGA Power Supplies with these Additional Resources: