Versaloon Ported To STM8 And STM32 Discovery Boards

February 6, 2011 by 11 Comments

[Bingo] did some work porting Versaloon for STM8 and STM32 discovery boards. Versaloon is a multiple-architecture programmer that we saw a few weeks back. At its center is an STM32 microprocessor, which greatly simplifies the work necessary to use the two discovery boards instead. Flashing the firmware to the boards will zap the ST-link firmware and [Bingo] doesn’t know of a way to restore that so be warned. This hack is still pretty fresh off the bench, but so far it looks like vsprog and OpenOCD both work just fine with the new hardware.

ARM Prototyping On-the-cheap With STM32 Discovery

October 12, 2010 by 50 Comments

STMicroelectronics has another inexpensive development board out; the STM32 Discovery is an ARM Cortex-M3 prototyping platform. Coming in under $10 puts it right along the lines of their 8-bit offering, but this one is 32-bits with 5 KB of RAM and 128 KB of programming memory. It runs a bootloader and has on-board USB for easy programming. They’ve even got a trio of crippled IDE’s to get you started.

Unfortunately this is following a growing trend with the exclusion of Linux support. [Gordon] wrote in to let us know that there is hope in a couple of forms (but not using the USB functionality). The first is a serial programmer using the RS232 that [Paul] came up with (there’s a lot more on his blog so spend some time there). But you can also use the serial debug protocol to program the board.

Either way you’ll still need a method of compiling the code. We’ve had great success rolling our own GNU ARM cross compiler using this guide. Or you can grab a pre-built package by downloading Sourcery G++ lite.

STM8S-Discovery: Microcontrollers Reach A New Low

November 23, 2009 by 223 Comments

A complete microcontroller development kit for little more than the cost of a bare chip? That’s what STMicroelectronics is promising with their STM8S-Discoveryseven dollars gets you not only a board-mounted 8-bit microcontroller with an decent range of GPIO pins and functions, but the USB programmer/debugger as well.

The STM8S microcontroller is in a similar class as the ATmega328 chip on latest-generation Arduinos: an 8-bit 16 MHz core, 32K flash and 2K RAM, UART, SPI, I2C, 10-bit analog-to-digital inputs, timers and interrupts and all the usual goodness. The Discovery board features a small prototyping area and throws in a touch-sense button for fun as well. The ST-LINK USB programmer/debugger comes attached, but it’s easy to crack one off and use this for future STMicro-compatible projects; clearly a plan of giving away the razor and selling the blades.

The development tools are for Windows only, and novice programmers won’t get the same touchy-feely community of support that surrounds Arduino. But for cost-conscious hackers and for educators needing to equip a whole classroom (or if you’re just looking for a stocking stuffer for your geeky nephew), it’s hard to argue with seven bucks for a full plug-and-play setup.

[thanks Billy]

New Discovery Channel Show Starring Hackers

August 14, 2008 by 15 Comments


A new Discovery Channel show titled Prototype This! will debut on October 15, 2008. Hoping to capture the same demographic as Mythbusters‘ audience, the show is about designing and creating robots, gadgets, and other things that nerds will love. Prototype This! is hosted by four wide-ranging experts: [Zoz Brooks], who’s got a PhD in robotics, [Mike North], who also has a PhD, in material sciences, [Terry Sandin], a special effects veteran of the Hollywood film industry, and [Joe Grand], who we’ve covered recently for his Defcon badge work. [Daniel Terdiman]’s glimpse behind the scenes reveals some interesting projects, from a stair-climbing robot to the creation of a pyro pack. We’ll be sure to set our DVRs to record.

[via Zero Day]

Flipped Bit Could Mark The End Of Voyager 1‘s Interstellar Mission

February 9, 2024 by 95 Comments

Sometimes it’s hard to read the tea leaves of what’s going on with high-profile space missions. Weighted down as they are with the need to be careful with taxpayer money and having so much national prestige on the line, space agencies are usually pretty cagey about what’s going on up there. But when project managers talk about needing a “miracle” to continue a project, you know things have gotten serious.

And so things now sit with Voyager 1, humanity’s most distant scientific outpost, currently careening away from Mother Earth at 17 kilometers every second and unable to transmit useful scientific or engineering data back to us across nearly a light-day of space. The problem with the 46-year-old spacecraft cropped up back in November, when Voyager started sending gibberish back to Earth. NASA publicly discussed the problem in December, initially blaming it on the telemetry modulation unit (TMU) that packages data from the remaining operable scientific instruments along with engineering data for transmission back to Earth. It appeared at the time that the TMU was not properly communicating with the flight data system (FDS), the main flight computer aboard the spacecraft.

Since then, flight controllers have determined that the problem lies within the one remaining FDS on board (the backup FDS failed back in 1981), most likely thanks to a single bit of corrupted memory. The Deep Space Network is still receiving carrier signals from Voyager, meaning its 3.7-meter high-gain antenna is still pointing back at Earth, so that’s encouraging. But with the corrupt memory, they’ve got no engineering data from the spacecraft to confirm their hypothesis.

The team has tried rebooting the FDS, to no avail. They’re currently evaluating a plan to send commands to put the spacecraft into a flight mode last used during its planetary fly-bys, in the hope that will yield some clues about where the memory is corrupted, if indeed it is. But without a simulator to test the changes, and with most of the engineers who originally built the spacecraft long gone now, the team is treading very carefully.

Voyager 1 is long past warranty, of course, and with an unparalleled record of discovery, it doesn’t owe us anything at this point. But we’re not quite ready to see it slip into its long interstellar sleep, and we wish the team good luck while it works through the issue.

A schematic representation of the different ionospheric sub-layers and how they evolve daily from day to night periods. (Credit: Carlos Molina)

Will Large Satellite Constellations Affect Earth’s Magnetic Field?

February 7, 2024 by 48 Comments

Imagine taking a significant amount of metals and other materials out of the Earth’s crust and scattering it into the atmosphere from space. This is effectively what we have been doing ever since the beginning of the Space Age, with an increasing number of rocket stages, satellites and related objects ending their existence as they burn up in the Earth’s atmosphere. Yet rather than vanish into nothing, the debris of this destruction remains partially in the atmosphere, where it forms pockets of material. As this material is often conductive, it will likely affect the Earth’s magnetic field, as argued by [Sierra Solter-Hunt] in a pre-publication article.

A summary by [Dr. Tony Phillips] references a 2023 NASA research article by [Daniel M. Murphy] et al. which describes the discovery that about 10% of the aerosol particles in the stratosphere are aluminium and other metals whose origin can be traced back to the ‘burn-up’ of the aforementioned space objects. This is a factor which can increase the Debye length of the ionosphere. What the exact effects of this may be is still largely unknown, but fact remains that we are launching massively more objects into space than even a decade ago, with the number of LEO objects consequently increasing.

Although the speculation by [Sierra] can be called ‘alarmist’, the research question of what’ll happen if over the coming years we’ll have daily Starlink and other satellites disintegrating in the atmosphere is a valid one. As this looks like it will coat the stratosphere and ionosphere in particular with metal aerosols at levels never seen before, it might be worth it to do the research up-front, rather than wait until we see something odd happening.

X-Ray Investigations Hack Chat

January 22, 2024 by 6 Comments

Join us on Wednesday, January 24 at noon Pacific for the X-Ray Investigation Hack Chat with Ahron Wayne!

It’s hard to imagine a world where we didn’t figure out how to use X-rays to peer inside things. Before Röntgen’s discovery that X-rays could penetrate living tissue, doctors had only limited (and often unpleasant) ways to get a look at what was going on inside the human body, and few of us would want to return to those days.

As fantastically useful as X-rays and later computed tomography (CT) became in medicine, it didn’t take too long for other uses for the technology to come along. Non-clinical applications for X-ray and CT abound, including their use in non-invasively exploring relics of immense archaeological value. One recent effort in this space that gained a lot of coverage in the press was the combination of CT imaging and machine learning to read the ink inside carbonized papyrus scrolls from the ruins of Pompeii.

join-hack-chatThe result was the “Vesuvius Challenge,” where different teams looked for techniques to virtually unwrap the roasted relics. Ahron’s contribution to the project was a little unusual — he bought a used desktop CT scanner, fixed it up, and started experimenting with reading ink from the carbonized remains of simulated papyrus scrolls. In other words, he made some scrolls, cooked them to beyond well-done in the oven, and tried to understand what happens to ink on papyrus that gets blasted by a volcano. If that’s not enough to get you to stop by the Hack Chat when Ahron joins us, we’re not sure what else would be! Suffice it to say we’re pretty excited about what Ahron has to say about DIY CT,  X-rays, collaborative open-source citizen science, and unwrapping the mysteries of Pompeii.

Our Hack Chats are live community events in the Hackaday.io Hack Chat group messaging. This week we’ll be sitting down on Wednesday, January 24 at 12:00 PM Pacific time. If time zones have you tied up, we have a handy time zone converter.

Featured image: Daderot, CC0, via Wikimedia Commons