Milpitas, Calif., June 23, 2020 — Empower Semiconductor, the world leader in Integrated Voltage Regulators (IVR), today announced the EP70xx, a cutting edge family of power management ICs that will provide significant energy savings in data centers with the single biggest point-of-load power performance disruption in over a decade.
With its revolutionary product platform, the EP70xx, Empower has achieved the total integration of a triple output DC/DC power supply with no external components into a single tiny 5mm x 5mm package, attaining up to 10x higher current density, 3x tighter accuracy during transients, and 1000x faster dynamic voltage scaling than leading competitors.
“Customers are excited about the game-changing nature of our technology and the impact it is having on their systems and digital ICs”, said Tim Phillips, Chief Executive Officer and Founder of Empower Semiconductor. “The combination of density, speed and efficiency are allowing designers to utilize our products in groundbreaking ways, enabling breakthrough levels of system performance.”
Empower Semi’s patented digitally configurable hardware platform has simplified the adoption of DC/DC converters for designers. With a single footprint, no external components, extensive programmability, a wide range of current and output configurations, power designers can proliferate the EP70xx across nearly all designs and platforms. By having multiple entire power supplies in a single IC package, the usual concerns of component variation and sourcing, synchronization and stability are all either eliminated or reduced significantly.
“Empower Semiconductor had a vision to not only offer breakthrough performance and density, but to make the design process simple with high confidence. We made it simple to place the EP70xx on the PCB with no discrete components, select your settings using the provided GUI, and load the device via the I3C/I2C port. Just like that you have three outputs regulating at high currents with wide bandwidth and high efficiency”, said Trey Roessig, Chief Technology Officer & SVP of Engineering of Empower Semiconductor. “No input filter design, no output filter design, no feedback resistors, no loop compensation design, no component changes.”
The EP70xx family displays peak efficiencies of up to 91% with a nearly flat efficiency curve up through 10A of output current due to its unique architecture. The devices showcase 1,000x faster dynamic voltage scaling than competing products, enabling fast and lossless processor state changes that can save 30% or more of processor power.
EP70xx family comes to market with eight initial products: four triples, two duals and two singles. Outputs are available from 1A to 10A in a 5x5mm or 4x4mm package with a 0.75mm profile, which is 3-5x thinner than traditional integrated power modules and inductors. The products achieve a level of density and simplicity so high that they are also available in bumped die form for co-packaging with digital ICs, enabling full power management integration into the SoC.
|Part Number||Description||VR Regulated Outputs||VR1 lout [A]||VR2 lout [A]||VR3 lout [A]||Vout Min [V]||Vout Max [V]||Package Type||Package Size (L x W) [mm]||Package Thickness [mm]||Product Brief|
|EP7010C||Single Output 10A IVR||1||10||---||---||0.50||1.20||FcCSP||5 x 5||0.75||Download|
|EP7015C||Single Output 5A IVR||1||5||---||---||0.50||1.20||FcCSP||5 x 5||0.75||Download|
|EP7024C||Dual Output 6A Packaged IVR||2||3||3||---||0.50||1.20||FcCSP||5 x 5||0.75||Download|
|EP7027C||Dual Output 10A IVR||2||8||2||0.50||1.20||FcCSP||5 x 5||0.75||Download|
|EP7028C||Dual Output 10A Packaged IVR||2||6||4||0.50||1.20||FcCSP||5 x 5||0.75||Download|
|EP7029C||Dual Output 10A Packaged IVR||2||5||5||---||0.50||1.20||FcCSP||5 x 5||0.75||Download|
|EP7032C||Triple Output 6A Packaged IVR||3||2||2||2||0.50||1.20||FcCSP||5 x 5||0.75||Download|
|EP7037C||Triple Output 10A Packaged IVR||3||6||2||2||0.50||1.20||FcCSP||5 x 5||0.75||Download|
|EP7038C||Triple Output 10A Packaged IVR||3||4||2||4||0.50||1.20||FcCSP||5 x 5||0.75||Download|
To view product details visit https://www.empowersemi.com/product-page-ivr/
Product samples, demo boards, and reference designs of the EP70xx family with input voltages varying from 2.5V to 16V are available immediately to qualified customers. Production volumes planned for Q4 2020.
About Empower Semiconductor
The exponential increase in the amount of data being communicated and processed around the globe is driving the energy consumption of datacenters and communications networks to 17% of total electricity demand worldwide by 2030(1), dramatically increasing pollution, carbon emissions and cost. Empower Semiconductor was founded with the mission to “minimize the energy footprint of the digital economy” by developing novel fully integrated power management solutions that both increase the performance and reduce power consumption of energy-hungry, data-intensive applications.
Traditional power solutions require dozens of discrete components with big footprints, complex designs and deliver power inefficiently with poor response times and inaccuracies. Empower Semiconductor’s patented IVR technology integrates dozens of components into a single IC increasing efficiency, shrinking footprints by 10x and delivering power with unprecedented simplicity, speed & accuracy and with zero discrete components. The Empower IVR™ technology solves the power density challenge to address a wide range of applications including mobile, wearables, 5G, AI, and data centers. In 2020 the capacitor technology platform was added to further address power density. E-CAP revolutionized the capacitor industry as the world’s smallest, highest performing, and incredibly reliable capacitor for wearables, mobile, and SoC applications. The company is based in Milpitas, CA and is led by a team of highly experienced power experts and executives.
- Nature, “How to stop data centres from gobbling up the world’s electricity”, September 12, 2018
Empower Semiconductor and the Empower logo are trademarks or registered trademarks of Empower Semiconductor, Inc. All other brands, product names and marks are or may be trademarks or registered trademarks used to identify products or services of their respective owners.