Tag: MEDC

Calumet Electronics and Michigan Tech Praised

Calumet Electronics in Calumet, Michigan, with the help of incredible engineers from the Michigan Technological University up in Houghton, is doing incredible work on advanced packaging, particularly by making very advanced circuit boards for defense applications. And they’re expanding their capacity. 

Senator Gary Peters
Senator Peters, who spoke at the CHIPS and Science Implementation and Oversight Committee, praised Michigan Tech and Calumet Electronics for their semiconductor initiatives.
Senator Peters speaks at the hearing.

Gary Peters (D), Michigan’s United States senator, recently gave a well-deserved shout-out to both Michigan Technological University and Calumet Electronics. Peters spoke at the US Senate’s full committee hearing on “CHIPS and Science Act Implementation and Oversight,” held on October 4, 2023.

The hearing focused “on the implementation and oversight of the CHIPS and Science Act by the Department of Commerce and the National Science Foundation.” In short, it summarized the rollout of programs, research and development, and other semiconductor manufacturing initiatives.

The senator recalled that one of the main goals of the CHIPS and Science Act is onshoring semiconductor production. Then, he asserted the need for dedicating some of the Act’s R & D funds to supporting the advanced packaging industry. This industry is essential to securing the supply chain.

He pointed to Calumet Electronics as crucial to meeting US semiconductor advanced packaging needs. That is, Calumet Electronics is using the great alumni from Michigan Tech (engineering graduates) to grow this industry on-shore, right here in the UP. 

Calumet Electronics: Leading in Advanced Packaging

If you haven’t heard of Calumet Electronics, it is a leading commercial and non-traditional defense contractor. CE specializes in the research, design, engineering, and manufacturing of high-quality printed circuit boards (PCBs) and, more recently, organic substrates.

As an award-winning American-owned and operated company, Calumet is known for its thought leadership and innovative engineering and manufacturing. Also, CE is an SBA HUBZone certified small business that conducts all its operations domestically. Furthermore, it has established itself as a pure play manufacturer with a focus to support and grow its local economy and the surrounding communities in Michigan’s rural Upper Peninsula.

Calumet Electronics applauds Senator Peters for his ongoing commitment to domestic semiconductor chip manufacturing. During the recent Commerce Committee hearing, he cited the ‘incredible engineers’ of Calumet Electronics and our partnership with Michigan Tech in making advanced PCBs for defense applications. We’re very grateful for his confidence and support, and his tireless efforts to prioritize additional funding for this critical work.

Meredith Labeau, PhD, CTO of Calumet Electronics

Labeau continued, “Calumet Electronics and Michigan Tech have forged a remarkable partnership, producing a synergy that showcases the exceptional quality of engineers they graduate. Together, we are shaping the future of innovation and electronics right here in Michigan’s Upper Peninsula.”

David Lawrence, vice president for Global Campus and continuing education, recently visited Calumet Electronic, and was impressed by its facilities. He affirmed that “Michigan Tech’s relationship with Calumet Electronics is robust and the future is bright. We continue to work with industry partners to support the semiconductor initiatives.”

Securing US-Based Semiconductor Production

At the hearing, Secretary Gina Raimondo (U.S. Department of Commerce) and witness, acknowledged that keeping advanced packaging in the US is crucial. In short, it is important not only to the supply chain but also to National Security. Accordingly, the committee, which has “a plan in the works,” will soon release an advanced packaging strategy.

This hearing occurred just over a year after the US government rolled out the bipartisan 2022 CHIPS and Science Act . The Act implemented previous programs under the 2021 CHIPS for America Act (January 2021). Also, it authorized nearly $250 billion in semiconductors and scientific research and development.

The CHIPS and Science Act responded to both the decline in American microchip fabrication and semiconductor shortages. These shortages caused serious supply chain problems, especially for Michigan’s automotive industry. 

Responding to the semiconductor shortage, Michigan Tech has taken on projects that focus on onshoring semiconductor production. For instance, in 2022, MTU collaborated with the Michigan Economic Development Corporation (MEDC) on the Semiconductor Talent Action Team (TAT). The TAT had several goals: developing Michigan-created semiconductors, onshoring both legacy and advanced semiconductor systems, creating well-paying manufacturing jobs, reducing semiconductor shortages, and securing the supply chain.

During this hearing, Senator Raimondo reinforced that the US government is committed to stimulating both R & D and job training in semiconductors. Our goal is to have “a whole ecosystem that we want to deepen in the United States.” And a significant part of this ecosystem is the advanced packaging for which Calumet Electronics is known and respected.

We look forward to seeing Michigan Tech and Calumet Electronics as vital components of and important players in this ecosystem.

Brian Hannon Joins Global Campus

Brian Hannon

Global Campus is proud to welcome Brian Hannon (‘88), former MTU hockey star and long-time coach, as a part-time member of our team.

Currently Director of Strategic Partnerships and Alliances for the Keweenaw Research Institute, Hannon will be offering his expertise to GC for a few days a week.

Getting His Start at Tech

Born in 1965 in Clinton, NY, Hannon set season and career scoring records at Clinton High School. Michigan Tech quickly noticed his talent, putting Hannon to work as a sponsored student athlete in 1983, where he played hard for the university until 1988.

There were several other successes along the way. For instance, in 1983, he was named to the Lansing State Journal CCHA All-Rookie team and the GLI (Great Lakes Invitational) All-Tournament Team.

And in 1984, he was selected to play for the 1985 United States Junior Team in Helsinki, Finland. He performed extremely well, ending up as the 3rd leading scorer for Team USA.

An 1985 article from the Winter Carnival edition of The Lode praised his skills:

Several young players have made their presence known, too. Freshmen Center John Archibald and sophomores Brian Hannon (right wing), and Don Porter (left wing), have been big scorers both in goals and assists. Their game intensity, team work, and explosive styles promise to give Tech some big victories in the next few years

The Lode

Although an injury forced Hannon out of action in 1985-1986, he returned in full form for the 1986-1987 and 1987-1988 MTU seasons. In these seasons, he scored, respectively, an impressive 37 and then 47 points. During these years, he also had several honors. For instance, he was an Assistant Captain, a WCHA player of the week, and a member of the WCHA all-academic team.

In other words, Hannon was a bonafide star for MTU. In fact, he ended his career as the all-time American-born leading goal scorer in Huskies Hockey History and the tenth highest scorer overall.

Turning Pro

After graduating from Tech, Hannon brought his talents to professional hockey in ten different hockey leagues, primarily playing in Germany from 1990-2001.

Several of these years were spent playing for the Bundesliga/DEL, a German elite hockey league in operation from 1965 to 1994.

In 1988-1989, his team, the Carolina Thunderbirds, won the Kelly Cup in the ECHL (East Coast Hockey League). In that same season, Hannon scored a whopping 67 points.

For many of these teams, he also took on the responsibility of assistant coach.

Hannon Hockey Card from his time with The Frankfurt Lions
Hannon Hockey Card from his time with The Frankfurt Lions

Thereafter, Hannon hung up his professional hockey skates.

But he didn’t take a break for long. Coaching and hockey continued to call him. In 2002-2003, he worked as Head Coach for the Springfield Spirit before bringing his talents a little closer to home as Volunteer Assistant Coach for the Finlandia Lions from 2004 to 2023.

This is just a summary of his career.

So, I asked Brian some questions and let him do the talking.

Remembering His Time at Michigan Tech

What is your favorite memory of playing hockey and being a student at Tech?

There is not just one. I fondly remember my teammates (they were a very diverse group), the Greatest PEP Band in the Land, the fans, the GLI tourney, and the Winter Carnival, of course, which is the best festival on any college Campus!

What was it like being an MTU student back in the 1980s?

I think the biggest difference is that we were on trimesters and on an accelerated  summer track. Now there is a Fall and Spring term with a summer session and the students get out around the end of April. But we stayed until almost the end of May. I totally understand the reasoning for the change and feel that MTU has always evolved with the students’ best interests in mind. Also, we didn’t have today’s technology, so you had to go to class and retain what you were learning by getting your work done and studying hard. We relied a lot more on study groups and projects that were more apt to have group or team concepts.

Making Memories in Germany

So, I noticed you played hockey in Germany for a long time. So many games, too! And goals. Can you speak about your experience of playing hockey in Germany. That is, what was it like? What did you enjoy about it?

I had a great experience and still have great memories about my time in Europe. Truthfully, I decided to go to Germany because I wasn’t good enough to make it to the NHL; I mean, I wasn’t big enough for the style of game played during that generation. (Author’s note: in the 1988-1989 season, Brian Hannon was 5’10” and 180 pounds. In that season, the NHL’s top scorer was not, in fact, Wayne Gretzky, but Mario Lemieux, who stood 6’4″ and weighed in at a whopping 229 pounds.)

However, I was fast-skilled and could definitely score. The bigger ice rink in the European leagues was an advantage for me and my particular skill set, which was more in tune with the European game. Initially, I saw hockey as a vehicle to travel and experience the world before getting back to living a traditional life. But that decision actually turned into a pretty fun, long, and amazing career that I wouldn’t change for anything.

While in Germany, I was able to learn a new language and immerse myself and my family into a different culture. The friendships made there are also lifelong. I still have teammates that come to visit me here. And now that my son, Connor, is playing professionally in Germany (defense), I’ve had the opportunity to reunite with some of those same folks. Most of all, I was lucky enough to play on some great teams and win a few championships, which create bonds that you have for for life.

Learning Life Skills Through Hockey

Hockey has been a significant part of your life. Beyond the physical skills, what else can people learn from/through hockey?

No matter who you talk to, hockey is all about the people. It doesn’t matter if they’re your family, teammates, coaches or fans; the people are the ingredient that make the game so enjoyable, so worth playing.

From the first day I stepped on Michigan Tech campus as a student athlete, I quickly learned that no matter how many goals I scored or how well the team was doing, I was responsible for getting good grades and remaining in good academic standing. I think any current or former MTU student athlete will tell you the same thing. Because of the time you miss away from campus for travel to games, practice time, etc., you really learn to manage your time and prioritize your schedule. It takes a lot of work and planning to achieve your academic and athletic goals.

Obviously a team sport requires teamwork, but it also requires leading by example, committing to excellence, and devising a strategy to reach group goals. Looking back on those championship teams, I remember that everyone was playing for each other. Everyone was sacrificing individual success for the good of the group and invested in each other’s well-being. That’s why we were able to achieve our team goals. We were a family! Beyond these skills, hockey also taught me the importance of being self-disciplined and motivated enough to stick with a process until the end.

Returning to the Upper Peninsula

You were born in New York, spent several years living in Germany, but returned to the UP. What drew you back to the Upper Peninsula?

I would say that I never really left the UP. I would say I put down roots right when I started playing hockey in 1983. And then when I graduated on May 22, 1988 and married my wife, Pam, on June 17, those roots grew deeper. (She was also a Michigan Tech student from Houghton.) And even when I started my Pro Hockey career in September, 1988, I was still here for the summers.

Let me explain. Well, during my playing years, the summer usually begins at the last game of the season. That’s about a 4-month period where we didn’t compete, but we trained. So as a student and as a professional athlete, I would stay up here during the summer and train. Remember that 40 years ago, there weren’t many ice arenas in New York state, especially those with ice during the summer months! But Michigan Tech had ice to skate on and other world-class facilities to use.

Those years were wonderful; I could train with my former Huskies, golf, fish, relax, play baseball, work at the hockey school, visit family and friends. So it was a natural when one summer, I bought some property here. At that moment, we made a decision for our children’s future. Next thing, I am building a house with my father-in-law knowing that one day, when my playing days were over, we would raise our family here.

Sharing His Talents

You just mentioned hockey school. What has been your involvement in Summer Youth Programs at MTU?

I am proud to say that I am currently the longest serving on-ice summer youth hockey instructor in the history of MTU Hockey School. I began coaching at the hockey school after graduating in 1988 (old NCAA rule where we couldn’t coach while being a student) and have worked at least one week during every summer since. That is 33 years. It would have been 35, but one year they put a new compressor system in and there was a pause because of COVID.

I’ve always enjoyed coaching, passing on what I know to the next generation. And the kids are great! I am pleased that several of the youth I coached went on to play college or professional hockey. A great example is Hancock-born Michigan Tech’s former standout Tanner Kero, who is currently with The Texas Stars.

It is delight to see many of my corporate alumni contacts bringing their children to this camp, as well as other other great sports or stem-related summer youth programs offered at MTU.

Forging New Partnerships

Vice President for Global Campus and Continuing Education David Lawrence praised you for having impressive connections with Tech Alumni and with local industry. Can you speak more about these? How do you plan to leverage these for Global Campus?

I’ve had over 40 years of being associated with both the Michigan Tech brand and MTU initiatives. For instance, I was involved with the Youth Engineering and Science (YES) Expo. YES evolved into MTU’s nationally acclaimed Mind Trekkers program.

Overall, in various roles, I have had the great pleasure of meeting, interacting, and partnering with our Michigan Tech Alumni and friends, especially in the corporate world. I’ve also made a lot of connections with industry leaders who have relationships with Tech. As a result, I have quite a bit of experience navigating the cultures of various organizations. I am hoping to leverage my skills and contacts to reach out to both alumni and MTU corporate partners to introduce them to Global Campus.

We’re still growing our online offerings, I know. But I think I am well suited to listen to the needs of organizations and connect them to the best MTU online program, project, professional development, and continuing education. I’m just getting my feet wet learning about all our initiatives, such as our role on the Semiconductor TAT, but I believe I can be of value to the team.

Promoting the KRC and Michigan Tech

Along with Global Campus, I am proud, of course, to be a part of the multidisciplinary, Keweenaw Research Center (KRC), which is the UP’s best secret. This center is active across a broad spectrum of vehicle development. KRC also maintains more than 900 acres of proving grounds, specifically developed for the evaluation of ground vehicle systems. For instance, one of our main partners is the Department of Defense, so there are usually very tight security measures in place. Unfortunately, because of our work with DoD, I can’t say too much about my role at the KRC.

I’d like you all to know that on August 4, 2024, Alumni and interested public will be able to experience this amazing research center. As part of the Alumni Weekend, the KRC will be celebrating its 70th anniversary with its very first open house.

I’ll end by saying that I have been very lucky to have a great mentor in Jay Meldrum, whom I continue to work with. Now the Director of the Grand Traverse Area Initiative, he had a wealth of industry experience long before his career in academia. He instilled in me that if I am involved with a certain project, but there is no synergy for the potential partner, don’t give up. Find a way. That is, find out what they are interested in and reach out to a different campus group, program, or project and make a new connection, forge a new partnership.

Because at the end of the day, we all play for Michigan Tech.

Michigan Tech Signs on to MEDC’s Semiconductor Talent Action Team

Close-up of a circuit board, one of the products that require semiconductors.

Securing state-wide chip production is crucial to several manufacturing industries, such as mobility, and to maintaining the health of Michigan’s economy.

On November 17, 2022, Governor Gretchen Whitmer joined forces with The Michigan Economic Development Corporation (MEDC) to form the Semiconductor Talent Action Team (TAT). This collaboration, a public/private alliance led by the MEDC, aims at making Michigan a leader in semiconductor talent, production, and growth.

MEDC’s Talent Action Team involves this organization, the State of Michigan, SEMI (an industry association for global electronics design and its manufacturing supply chain), and four key universities: Michigan Technological University, Michigan State University, University of Michigan, and Wayne State University. Other partners include key community colleges.

 The Semiconductor TAT has several goals:

  • Expanding the development of Michigan-created semiconductors
  • Ensuring the onshoring of both legacy and advanced semiconductor systems
  • Creating well-paying manufacturing jobs
  • Reducing semiconductor shortages
  • Securing the supply chain

Addressing the Semiconductor Shortage

Semiconductors are the foundation for integrated circuits (or microchips), which are vital components in manufacturing. Semiconductors are material products that lie between insulators (glass) and pure conductors (such as copper and aluminum). These versatile products can have their conductivity altered (through the addition of impurities) to meet the needs of various devices. Chips are found in appliances, medical equipment, gaming devices, smartphones, computers, and, increasingly, automobiles.

In short, they’re everywhere.

But COVID put the brakes on chip production. Labor problems, the shutting down of assembly lines, the closing of factories, and disruptions of the global supply chain all contributed to a semiconductor shortage. There were also drastic reductions in raw materials and substrates and slowdowns in crucial processing steps, such as wire bonding and testing. As a result, consumers were unable to purchase electronic devices as well as larger goods such as appliances and vehicles.

Protecting the Automotive Industry

But the global semiconductor shortage caused significant problems for the automotive industry, driving down both production and sales. Some companies, such as GM, were even forced to build vehicles that were missing parts. By some estimates, the reductions in automotive sales were extreme: down by 80% in Europe, 70% in China, and nearly 50% in the United States.

Why the plummeting sales? Even the most basic automobile is heavily reliant upon semiconductors. That is, the average car can contain more than 100 chips. These tiny devices power such necessary components as the navigation display, digital speedometer, and fuel-pressure sensors.

More sophisticated vehicles, on the other hand, may contain thousands of these chips. For instance, these chips are found in advanced safety features, electrical and powertrain systems, and connectivity components.

And the need for these chips in expanding. Market research company Yole predicts that by 2026, semiconductors in cars will value $78.5 billion dollars, which adds up to a 14.75% CAGR from 2020.

Therefore, securing the semiconductor supply chain is especially crucial to the mobility industry, and, by extension, to Michigan’s economy. To help prevent these shortages and their repercussions, and to further tap into the burgeoning semiconductor market, Michigan’s Semiconductor TAT  is on board to secure the state’s semiconductor production.

Accessing Michigan’s Semiconductor Talent

Michigan is well-suited to take advantage of these funding opportunities. The state has a history of semiconductor manufacturing. That is, Michigan is home to Hemlock (semiconductors), SK Siltron (semiconductor wafers), and KLA (semiconductor R & D and supply). Even closer to Michigan Tech is Calumet Electronics, which has been in Calumet since 1968. This Michigan company specializes in manufacturing printed circuit boards for the domestic industrial, power, aerospace, defense, medical, and commercial markets.

What’s more. This state has almost 50 semiconductor-related courses and programs. Michigan Tech, for instance, from its undergraduate to graduate degrees in materials engineering, mechanical engineering, and its electrical and computer engineering ; as well as its specialized graduate certificates in manufacturing engineering and automotive systems, has a long history in preparing students for all things semiconductors. Whether its the materials from which they are made, to their design, processing, properties, applications, integrations, and even their repurposing, Tech has a program. The university also has a history of collaborating with the automotive industry and helping to ensure its success.

Furthermore, on May 5, 2022, The Michigan Strategic Fund approved the Semiconductor Technician Apprenticeship Network Program. Michigan is one of only three states, in fact, that is launching plans to define curricula that will support employers in the semiconductor industry.

In short, both Michigan Tech and the state have the drive, talent, resources, and history to advance semiconductor production and to make Michigan a leader on both the national and global stages.

Making a Historic Investment in Chip Technology

The Semiconducor TAT answers the call of the bipartisan 2022 CHIPS and Science Act (August 9, 2022). Nearly a year in the making, this act implemented previous programs under the 2021 CHIPS for America Act (January 2021). It also authorized nearly $250 billion in semiconductors and scientific research and development. This monumental amount adds up to the country’s largest publicly funded R & D program.

The CHIPS and Science Act responds not only to semiconductor shortages, but also to the decline in American microchip fabrication. That is, in January 2021, the US manufactured 12% of the world’s chips, which is down from 37% in the 1990s.

The act, which focuses on building key critical semiconductor technologies in the United States, has several goals:

  • Building a stronger and more diverse workforce
  • Creating high-paying technical manufacturing jobs
  • Supporting and extending American manufacturing
  • Investing in American science and innovation
  • Rebuilding and securing our supply chains

Most of the act’s funds ($169.9 billion) are dedicated to research and innovation. These funds are dispersed among several foundations, which include the National Science Foundation (NSF), Department of Commerce (DOC), Department of Energy (DOE), and the National Aeronautics and Space Administration (NASA).

All departments will expand semiconductor research, development, training, and talent. For instance, in its budget, NSF’s mandate is investing in research, building a STEM workforce, and expanding rural STEM education.

Supporting the Growth of Local and State Economies

The act also directs the DOC to create 20 geographically distributed regional technology hubs. These hubs will focus on developing technology, creating jobs, promoting U.S. innovation, and providing economic development activities for distressed communities.

Besides the $169.9 billion dedicated to research, there is a $54.2-billion-dollar federal advancement for domestic semiconductor production and public wireless supply chain innovation. $39 billion, the responsibility of the Department of Commerce (DOC) Manufacturing Incentives, is allocated to building, extending, and modernizing domestic semiconductor facilities. Another $200 million is for jump-starting the development of the domestic semiconductor workforce, which has faced extreme labor shortages.

In short, the CHIPS and Science Act will support American manufacturing and create jobs, It will also ensure that, when it comes to STEM education, semiconductor research, and chip production, the US will be a global force.

Taking First Crucial Steps: What’s Next for the TAT?

The ultimate goal of the Semiconductor TAT is to help Michigan access funding in order to increase its STEM workforce. Another objective is leveraging the state’s talent, assets, resources, so that it leads the future of the semiconductor industry.

But big goals begin with small steps. The TAT’s first objective is having its partners form advisory boards. These boards will provide strategic direction on the semiconductor programs, talent, and research that exist at Michigan’s universities and colleges. They will also analyze the “broader semiconductor and technology ecosystem” to develop a better understanding of industry needs for semiconductors.

The university community looks forward to learning about Michigan Tech’s contributions to the Semiconductor TAT as well as this group’s ongoing initiatives.