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Powering LEO and MEO satellite networking ASICs

Powering LEO and MEO satellite networking ASICs

A satellite constellation with advanced communications technology has comparable latency to fiber and is capable of transporting multiple gigabits of network traffic to virtually any location. Bandwidth-intensive applications and the number of smart connected devices are rapidly increasing requiring high-performance connectivity, for businesses, ships, airplanes, autonomous vehicles and broadband internet users, anytime and anywhere around the world. 

New LEO and MEO satellites are equipped with breakthrough digital payload electronics and require, low noise, high density power delivery networks (PDNs) particularly for their advanced networking ASICs. These power delivery solutions must also be radiation tolerant and immune to single event upsets to power delivery.   

Vicor radiation-tolerant power solutions enable today’s LEO/MEO satellites

Vicor radiation-tolerant power solutions enable today’s LEO/MEO satellites

Vicor radiation tolerant power modules enable the ideal Power Delivery Network (PDN) for today’s LEO and MEO satellites, providing high efficiency, high density, low-noise voltage conversion to power advanced network communication ASICs and processors. Power delivery performance and reliability are enhanced with a dual power train fault-tolerant topology and qualification testing that meets MEO and LEO satellite environmental requirements (TID, SEE, etc.).  Providing complete source to point-of-load COTS solutions allows developers to reduce time to market and cost while maximizing board space utilization. Vicor power modules enable innovation in defense, avionics and supercomputing applications powering advanced communication arrays and the most advanced processors used for AI today.

Vicor Factorized Power Architecture, the ideal point-of-load power system

Factorized Power Architecture (FPA) factorizes power from the traditional single-function DC-DC converter into two distinct functions and power modules: a pre-regulation module, a PRM and a voltage transformation module, a VTM. The power switching topologies and control systems of each module are optimized for low noise and power losses, with zero current and zero voltage switching. The PRM and VTM components have high density, high efficiency, low noise operation and factorization allows the VTM to be placed close to the load minimizing board losses in high current applications.

Vicor Factorized Power Architecture

Example Power Delivery Network for LEO and MEO satellites

Satellite example power delivery network

Advantages of a better way to deliver power

Advantages of a better way to deliver power

Modular icon

Factorized modular power architecture

Low noise icon

Low noise

Efficiency

High efficiency

Density

High power and current density

A dual power train, fault-tolerant design

Single event-upset immunity is achieved using a redundant architecture, where two identical and parallel powertrains with fault-tolerant control ICs are housed in a single, high-density SM-ChiP package.

Dual Powertrain Diagram

Rad-tolerant power modules

BCM3423-SM-ChiP-K-factor-1-over-3-large-generic.jpg

BCM3423 Bus Converter Module

Input: 100V (94 – 105V, 120V transient)

Output: 33V (31 – 35V)

Power: 300W 

Bus converter ratio: K = 1/3

Typical full load efficiency: 94%

33.5 x 23.1 x 8.0mm

25.9g

PRM2919

PRM2919 regulator module
 

Input: 33V (30 – 36V)
 

Output: 32V (13.4 – 35V)

Power: 200W

Current: IOUT 8A max

Typical full load efficiency: 96%

29.2 x 19.0 x 8.0mm

18.2g

VTM2919

VTM2919 0.8V, 150A voltage transformation module

Input: 13.4 – 35V
 

Output: 0.42 – 1.1V

Power: 150A

Converter ratio:  K = 1/32

Typical full load efficiency: 89%

29.2 x 19.0 x 5.5mm

13.3g

VTM2919

VTM2919 3.3V, 50A voltage transformation module

Input: 16 – 32V
 

Output: 2 – 3.8V

Power: 50A

Converter ratio: K = 1/8

Typical full load efficiency: 91%

29.2 x 19.0 x 5.5mm

11g

Resources

Resources for the design engineer

Delivering high current at very low voltage for satellite antennas case study
Case Study

Delivering high current at very low voltage for satellite antennas

One wireless charger for multiple robots case study
Case Study

One wireless charger for multiple robots

See More in the Resource Library
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