Skip to main content

4 Port high power USB hub

In the last couple of years, I tried several powered USB hubs to drive some development boards and USB peripherals. Most of the USB hubs which we can find in the local market are unreliable or not designed to drive more than 500mA of a load.

After having a few bad experiences with powered USB hubs, I decided to build a USB hub by myself. I specifically design this hub to drive USB powered development boards and experimental peripherals.

The core element of this USB hub is the "FE1.1s" USB 2.0 hub controller. "FE1.1s" is a low cost, 4-port, high-speed USB hub controller, and this chip can easily order by eBay or AliExpress.

A prototype version of the USB hub.

Apart from FE1.1s features, this USB hub has the following additional features:
  • Switches to on/off and reset individual USB ports.
  • Capability to provide a maximum of 3A of current from each USB port.
  • Power using 9V to 15V DC voltage source.
This USB hub uses PIC16F630 MCU and four units of LM2596-5.0 switching regulators to achieve the above-listed features.

At the testing stages, we test this unit successfully on both Linux and Windows operating systems. In both platforms, it works without installing any additional device drivers. We used Ubuntu 18.04, Debian 10, and Windows 10 operating systems to conduct those tests.

To test the performance, we drive several single-board computers in parallel using this hub. Our load tests comprise with few Raspberry Pis, Arduino Dues, and several Orange Pi development boards.

The bottom side of the USB hub PCB.

With proper heatsink, the hub performs well with all the load combinations. Throughout the above analysis, the hub is powered using 12V - 20A power supply unit.

This project is an open-source hardware project. All the design files, firmware source codes, and binaries are available at github.com.

Comments

zoobab said…
Could you post a picture with the power supply?

Why not power it up with usb-c?

I was looking to do a similar thing to power many USB soldering guns, which draw 2a each.
RF-AV said…
Really great guide! Thanks a lot!
RF-AV is offering high quality Conference room equipment at best deals. The store provides important cables, cords, extenders, and other A/V equipment. For more details, visit https://rf-av.com/

Popular posts from this blog

CD2003 - yet another simple FM radio receiver

In the last few days, we are looking for some simple FM radio receiver to integrate into one of our ongoing projects. For that, we try several FM radio receiver ICs including TDA7000, CD2003/TA2003/TA8164, CXA1019, and KA22429. Out of all those chips we select CD2003 (or TA2003/TA8164) based receiver for our project because of its simplicity and outstanding performance. Except to CD2003, Sony CXA1019 also perform well but we drop it because of its higher component count. We design our receiver based on Toshiba TA2003 datasheet and later we try TA8164 and CD2003 with the same circuit. Either CD2003 or TA8164 can directly replace TA2003 IC, and as per our observations, TA8164 gives excellent results out of those 3 chips. A prototype version of CD2003 FM radio receiver The PCB design and schematic which we used in our prototype project are available to download at google drive (including pin-outs of crystal filters and inductors ). Except for CD2003 IC, this receiver consist...

Arduino superheterodyne receiver

In this project, we extend the shortwave superheterodyne receiver we developed a few years ago . Like the previous design, this receiver operates on the traditional superheterodyne principle.  In this upgrade, we enhanced the local oscillator with Si5351 clock generator module and Arduino control circuit. Compared to the old design, this new receiver uses an improved version of an intermediate frequency amplifier with 3 I.F transformers. In this new design, we divide this receiver into several blocks, which include, mixer with a detector, a local oscillator, and an I.F amplifier. The I.F amplifier builds into one PCB. The filter stage, mixer, and detector stages place in another PCB. Prototype version of 455kHz I.F amplifier. In this prototype build, the Si5351 clock generator drives using an Arduino Uno board. With the given sketch, the user can tune and switch the shortwave meter bands using a rotary encoder. The supplied sketch support clock generation from 5205kHz (tuner f...

Calculator for audio output transformers

Audio output transformers are heavily used in a vacuum tube and some (older) transistor base audio power amplifiers, but these days output transformer are quite hard to find and expensive item. For homebrew projects, the best option is to construct those transformers by ourselves and this script helps to calculate winding parameters for those transformers. This " AF output transformer calculator " script is written using Python and it works with most of the commonly available Python interpreters . The script is available to download at google drive under the terms of GNU General Public License version 3.0 . Homebrewed 25k: 4 output transformer Once supplied the input parameters this script provides a winding ratio, the number of turns required for primary and secondary winding and required copper wire gauges for both primary and secondary windings, etc. We construct several AF output transformers based on results of this script, which including transformers for M...