-
- News
- Books
Featured Books
- design007 Magazine
Latest Issues
Current IssueLevel Up Your Design Skills
This month, our contributors discuss the PCB design classes available at IPC APEX EXPO 2024. As they explain, these courses cover everything from the basics of design through avoiding over-constraining high-speed boards, and so much more!
Opportunities and Challenges
In this issue, our expert contributors discuss the many opportunities and challenges in the PCB design community, and what can be done to grow the numbers of PCB designers—and design instructors.
Embedded Design Techniques
Our expert contributors provide the knowledge this month that designers need to be aware of to make intelligent, educated decisions about embedded design. Many design and manufacturing hurdles can trip up designers who are new to this technology.
- Articles
- Columns
Search Console
- Links
- Events
||| MENU - design007 Magazine
Joe Grand Brings a Hacker Outlook to PCB Design
September 19, 2019 | Andy Shaughnessy, Design007 MagazineEstimated reading time: 8 minutes
From designing his own mischievous gadgets to testifying on Capitol Hill and starring in his own Discovery TV show “Prototype This!” Joe Grand has lived a hacker’s life. I spoke with Joe about his upcoming keynote at AltiumLive in San Diego, “When Hacking and Engineering Collide,” which will focus on the lighter side of engineering and the benefits of thinking like a hacker. Can Joe convince PCB designers to adopt a hacker’s outlook?
Andy Shaughnessy: Joe, can you tell us about how you became involved in electronics and hacking?
Joe Grand: I’ve been involved in computers since 1982 and grew up using the Atari 400. My brother, who is six years older than me, was a huge influence in the direction of my life. He collected video games on 5.25” floppy disks and had copy parties with his friends. Then, he decided to become a musician and got tired of using computers. That was great for me because I inherited all of his stuff. That was my gateway into discovering bulletin board systems on my own. I figured out how to make free phone calls, so I could connect to long-distance bulletin board systems outside of my local calling area. My first free phone call was when I seven-years-old; I didn’t even understand the concept other than you had to dial a 1-800 number, a six-digit code, and then the phone number of the bulletin board system.
From there, I discovered the software trading world and the hacker community. At the same time, I was fascinated with electronics. I was around 10-years-old when I started building projects out of magazines like Popular Electronics, Nuts & Volts, Circuit Cellar, BYTE, and Radio Electronics. Then, I started building my own stuff. I once built a universal garage door opener that would cycle through all possible passwords, which were normally set with DIP switches. I replaced the DIP switches with a 555 timer and binary counter, so all I had to do was hold the button down until the garage door opened, no matter what the password actually was.
Being able to create something real that was once just an idea in my head is what really solidified my love of engineering.
Andy Shaughnessy: Was this around the time when the Matthew Broderick movie “War Games” came out in 1983?
Grand: I didn’t see “War Games” until I was much older because I was seven when it came out, but it’s my favorite movie for sure. When I was a teenager in the early ‘90s, I joined a hacker group called L0pht Heavy Industries based out of Boston. That was one of the first publicly-facing hacker groups. The other guys in the group were older, so they became my mentors and kept me out of trouble. I call myself a “technological juvenile delinquent.” I caused a lot of trouble online and even offline, growing up and running around the streets of Boston, I had been going down the wrong path.
I needed some guidance, and I learned from their behavior. I learned about the importance of sharing information and educating and empowering others. The L0pht ended up testifying in front of Congress about the state of computer security related to hackers as the industry started to grow. Having a group of hackers with fake names sitting in the same room as politicians was a pretty big deal at the time!
I was still doing hardware analysis and design at that point. We started a security consulting company called @stake, which was one of the first boutique security consulting companies. Then, I became fed up with the whole world of VCs (venture capitalists) and how the business was running, having our hacker group forced into a corporate mold, so I went back to my passion, which was engineering.
Shaughnessy: Very cool. Now, give us a quick overview of your TV show.
Grand: “Prototype This!” was a show on Discovery Channel that filmed the real-life process of four engineers building crazy prototypes of things that had never been done before. The program was filmed by the same production company that made “MythBusters” and aired in 2007.
Shaughnessy: “MythBusters” was about blowing things up, but “Prototype This!” focused on building stuff.
Grand: Exactly. For “Prototype This!” they wanted real-life engineers, not people who just played them on TV. So, they crafted their own team of people; we came up with a ridiculous number of ideas, and 13 of them were chosen for the first season.
The producers had already selected Mike North and Terry Sandin. Mike is a materials scientist who had recently graduated from UC Santa Barbara. Terry is an amazing machinist and special effects creator out of Hollywood.
They had also already picked Zoz Brooks, a roboticist and software developer from MIT. It turns out that Zoz and I have a lot of the same friends, but we hadn’t actually met each other before. Zoz told the producers that we needed an electronics person to complete the team. At the time, I was an advisor for Make Magazine. The producers asked them, “Do you know anybody that could do the show?” They said, “Talk to Joe Grand.” I happened to be heading down to San Francisco for a conference, and we arranged a visit for the camera.
I had a massive fever, but I popped a bunch of Advil and talked about some of my projects. A couple of weeks later, they asked me to be on the show. I was actually a little hesitant, because I wasn’t sure how I’d enjoy working with other people again and having producers tell me what to do. But, it really came together and turned out to be an awesome experience.
Shaughnessy: That’s a great story. So, do you have an engineering degree?
Grand: Yes. I have a degree in computer engineering from Boston University as well as an honorary doctorate from the University of Advancing Technology in Arizona. I’m very proud of it, but my kids make fun of me because they say I’m not a real doctor.
Shaughnessy: Where are you located now?
Grand: I’m in Portland, Oregon. It’s a great community here. The tech world is nice too. I grew up in Boston, and my wife and I moved to San Diego when we were dating. Then, we moved to San Francisco to film the TV show, which we filmed on Treasure Island. When it was time for our kids to go to school, we decided to go to Portland; Intel is located here, and there are a lot of smaller companies too, but it’s not a mad gold rush like it is in California.
Shaughnessy: Let’s talk about your keynote. I like the title, “When Hacking and Engineering Collide.”
Grand: I thought it would be fun to combine the hacker and engineering worlds. I’ll mostly be talking about some of my favorite projects, experiences designing them, and tips from my design process. Hacking, in this sense, is thinking creatively about solutions to problems and not being bound by conventional wisdom or what other people think. It’s definitely going to be different than the more technical topics at AltiumLive.
Shaughnessy: I’ve been checking out your YouTube content. One of the things you say is that engineers need to think like hackers. What do you mean by that?
Grand: Usually, engineers aren’t trained to be hackers. They’re trained to be engineers. They’re trained to design products that work properly, are within budget, and make it to market on time. That’s totally reasonable. But hackers aren’t trained like engineers and aren’t bound by the same constraints. Hackers will take advantage of all the things that engineers need to put in place in order to make their products easy to design, debug, manufacture, and test.
You’ve got to have an adversarial mindset during the design process and put yourself in the mind of an attacker. How would they go about hacking your system and what can you implement to make that more difficult? Most of us are not thinking about the fact that somebody can open up our product, connect to test points or debug interfaces, sniff communication buses, extract firmware, or intentionally cause a fault in the system in order to gain unauthorized access.
Shaughnessy: You’re focused on the security side of it. What do you think of when you see IoT?
Grand: The problem with IoT is that it involves resource-constrained embedded systems connecting to a network. We have a hard enough time securing our laptops, desktops, and servers. It’s arguably more difficult to protect systems that have no or little computing power. A lot of IoT devices are based on reference designs where a vendor gives them a recommended implementation of the system, so lots of products are running the same versions of code with the same outdated libraries and the same exploitable flaws. And, there might not even be a mechanism to update or patch the system if a problem is discovered.
We also have to consider how these devices are communicating over the network and how they’re configured, which is sometimes done with some easily reverse-engineered smartphone app. There are just so many ways to go after an IoT device that I don’t think we’ll see it stopping any time soon.
Shaughnessy: One thing I want to mention is that the keynote description states that you’re going to profess your love for ferric chloride. Tell us about that.
Grand: I grew up etching my own boards using copper-clad FR4 and ferric chloride from Radio Shack. I etched my first board when I was 10 years old. I actually didn’t have a board professionally fabricated until I was 23. It was a meditative process that I really enjoyed—laying out the artwork, agitating the chemicals, watching it slowly etch. I figured some of the old-school engineers at AltiumLive could relate to that!
Shaughnessy: This has been fascinating, Joe. Thanks for speaking with me.
Grand: I appreciate the opportunity. Thanks so much.
Suggested Items
Insulectro’s 'Storekeepers' Extend Their Welcome to Technology Village at IPC APEX EXPO
04/03/2024 | InsulectroInsulectro, the largest distributor of materials for use in the manufacture of PCBs and printed electronics, welcomes attendees to its TECHNOLOGY VILLAGE during this year’s IPC APEX EXPO at the Anaheim Convention Center, April 9-11, 2024.
ENNOVI Introduces a New Flexible Circuit Production Process for Low Voltage Connectivity in EV Battery Cell Contacting Systems
04/03/2024 | PRNewswireENNOVI, a mobility electrification solutions partner, introduces a more advanced and sustainable way of producing flexible circuits for low voltage signals in electric vehicle (EV) battery cell contacting systems.
Heavy Copper PCBs: Bridging the Gap Between Design and Fabrication, Part 1
04/01/2024 | Yash Sutariya, Saturn Electronics ServicesThey call me Sparky. This is due to my talent for getting shocked by a variety of voltages and because I cannot seem to keep my hands out of power control cabinets. While I do not have the time to throw the knife switch to the off position, that doesn’t stop me from sticking screwdrivers into the fuse boxes. In all honesty, I’m lucky to be alive. Fortunately, I also have a talent for building high-voltage heavy copper circuit boards. Since this is where I spend most of my time, I can guide you through some potential design for manufacturability (DFM) hazards you may encounter with heavy copper design.
Trouble in Your Tank: Supporting IC Substrates and Advanced Packaging, Part 5
03/19/2024 | Michael Carano -- Column: Trouble in Your TankDirect metallization systems based on conductive graphite or carbon dispersion are quickly gaining acceptance worldwide. Indeed, the environmental and productivity gains one can achieve with these processes are outstanding. In today’s highly competitive and litigious environment, direct metallization reduces costs associated with compliance, waste treatment, and legal issues related to chemical exposure. What makes these processes leaders in the direct metallization space?
AT&S Shines with Purest Copper on World Recycling Day
03/18/2024 | AT&SThe Styrian microelectronics specialist AT&S is taking World Recycling Day as an opportunity to review the progress that has been made in recent months at its sites around the world in terms of the efficient use of resources: