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Guilherme "Bill" Cardoso

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Bill Cardoso
Cardoso at SEMA 2023
BornApril 27, 1976 (age 48)
Porto Alegre, Rio Grande do Sul, Brazil
NationalityBrazilian-American
Alma materIllinois Institute of Technology
Known forBest Engineered Vehicle of the Year SEMA '23
AwardsInnovator of the Year Award - San Diego Business Journal (2015)

Top 50 CEOs in Electronics - Industry Week (2019)

Excellence in Engineering Award - Institute of Electrical and Electronics Engineers (IEEE) (2020)

Entrepreneur of the Year - Carlsbad Chamber of Commerce (2021)

Best Engineered Vehicle of the Year - SEMA (2023)
Scientific career
FieldsX-ray Inspection, Radiation Detection, Electric Vehicles
InstitutionsCreative Electron Inc., Scorpion-EV Inc.
Thesis Development of Automated Control Systems for Industrial Applications  (2006)
Doctoral advisorJafar Saniie

Guilherme "Bill" Cardoso (born April 27 1976) is a Brazilian-American entrepreneur, engineer, and scientist. Cardoso is the founder of Creative Electron, Inc., an X-ray inspection systems manufacturer, and Scorpion-EV Inc., an electric vehicle manufacturer. He has over 15 years of experience driving technological breakthroughs in radiation detection, electronics, and high-performance electric vehicles. Cardoso is most notably known for winning the Best Engineered Vehicle of the Year at the 2023 SEMA show for his '23 Cobra Venom conversion kit build.[1]

Early Life and Education

Cardoso was born in Porto Alegre, Rio Grande do Sul, Brazil, where he developed an early interest in engineering and technology. He earned his Associates degree from the Occidental School in Porto Alegre. He pursued a Bachelor’s degree in Electrical and Computer Engineering from the Federal University of Rio Grande do Sul (UFRGS), Brazil, before moving to the United States for further education. He completed his Master’s and Ph.D. in Electrical and Computer Engineering at the Illinois Institute of Technology (IIT) in Chicago, Illinois.

Cardoso also holds an MBA from the University of Chicago, with a focus on strategic management, economy, and entrepreneurship. His multidisciplinary education laid the foundation for his career in developing high-tech solutions for industries ranging from nuclear physics to automotive engineering.

Career

GCC

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Cardoso started his first company, GCC (Guilherme Cardoso de Cardoso), at the age of 14 after having graduated from the Occidental School of Porto Alegre with an associates degree in Electronics. GCC manufactured and sold light switch dimmers in Porto Alegre, Rio Grande do Sul, Brazil.

Robotec Automation Systems

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In the early 1990s, under the government of President Fernando Collor, Brazil began reducing import taxes on foreign-made electronics.[2] After decades of protectionist policies implemented during the military dictatorship, the sudden influx of lower-cost imports disrupted Brazil’s industrial sector. In response to this economic shift, Cardoso founded Robotec in 1993. The company aimed to assist Brazilian firms in redeveloping products to remain competitive in the evolving market. Robotec specialized in providing electronic design solutions for industries ranging from automotive to medical and industrial sectors.

Fermilab

After completing his education, Cardoso worked for over a decade at the Fermi National Accelerator Laboratory (Fermilab), where he led the Electronics Systems Engineering Department. At Fermilab, he was responsible for designing and developing radiation detector systems used in nuclear particle physics experiments.[3] His work contributed to several high-profile projects, including developing a pixel radiation detector used in experiments to explore the structure of matter and the origins of the universe.[4] Cardoso also contributed to the development of onboard electronics for NASA satellites and authored numerous technical papers on advanced semiconductor solutions and pixel detectors.[5]

Aquila Technologies

In 1996, Cardoso co-founded Aquila Technologies, a company focused on defense, medical imaging and radiation detection technologies. One of the company’s key innovations was the creation of the first handheld Radiation Threat Detector (RTD), capable of detecting, localizing, and identifying radiation sources within a wide energy range. His work at Aquila Technologies included securing over $1.5 million in research funding from various organizations, including the Department of Homeland Security (DHS), Department of Energy (DOE), and the National Institutes of Health (NIH).

An X-ray of the iPhone 14 Pro

Creative Electron Inc.

Cardoso founded Creative Electron, Inc. in 2008, in San Marcos, California. The company specializes in the design and manufacturing of X-ray inspection systems used for non-destructive testing in industries such as electronics, aerospace, and medical devices.

Creative Electron is one of the largest U.S. based manufacturers in the field of X-ray inspection, integrating advanced AI and machine learning technologies into its systems to automate and enhance quality control processes. Under Cardoso’s leadership, the company has secured several patents for innovations in X-ray imaging and inspection technology.

Creative Electron and iFixit X-ray Case Controversy

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In November 2023, Creative Electron became involved in a public controversy when accusations arose against Casetify, a phone case manufacturer, for allegedly stealing X-ray images of iPhones originally created by Creative Electron.[6] These X-ray images had been previously licensed to companies like iFixit and Dbrand, who used them for promotional phone cases.[7] Dbrand and iFixit accused Casetify of using these X-ray images without permission, prompting public outcry.

According to reports, Casetify was selling phone cases featuring these X-ray images without licensing or acknowledgment of Creative Electron, the original creator. iFixit and Dbrand publicly criticized Casetify, with Dbrand mocking the incident in a social media campaign. The controversy highlighted ongoing issues of intellectual property misuse in the design and tech industries, bringing significant attention to Creative Electron's X-ray imaging technology.[8]

Scorpion-EV

A production model Scorpion 600 EV

In 2021, during the COVID-19 pandemic lockdown, Cardoso founded Scorpion-EV, a company focused on producing high-performance electric vehicles and EV conversion kits.[9]

In 2023, Cardoso received the inaugural SEMA Best Engineered Vehicle of the Year Award for the '23 Cobra Venom.[10] This electric vehicle conversion car was designed to showcase Scorpion EV's Venom conversion kit, which simplifies the process of converting internal combustion engine vehicles to electric power.[11] The award, presented at the SEMA Show, recognizes excellence in vehicle engineering and highlights the growing importance of EV technology in the automotive industry. The '23 Cobra Venom was celebrated for its innovation and ability to inspire engineers and builders to explore new possibilities in vehicle design and electrification.

Philanthropy and Mentorship

Cardoso sits on the Illinois Institute of Technology Electrical and Computer Engineering Department Board of Advisors.[12]

Cardoso is committed to promoting STEM (Science, Technology, Engineering, and Mathematics) education. He actively supports initiatives that encourage underrepresented groups to pursue careers in engineering and technology. As part of this commitment, Creative Electron Inc and Scorpion EV Inc partner with MiraCosta Community College in Oceanside, California. This collaboration provides students with access to cutting-edge X-ray inspection technology, internship opportunities, guest lectures, and hands-on training to prepare them for careers in high-tech industries.[13]

Selected Publications

  • “Mapping CZT Charge Transport Parameters with Collimated X-Ray and Gamma-Ray Beams.” IEEE NSS/MIC/RTSD, 2008.[14]
  • “Sensitivity-Optimized Wide-Field Imaging with a CZT-Based Coded Mask Imager.” IEEE NSS/MIC/RTSD, 2008.[15]
  • "Reliability of pixellated CZT detector modules used for medical imaging and homeland security." SPIE, 2008.[16]
  • "Acoustic sensor array for sonic imaging in air." IEEE, 2010. [17]
  • “Readout ICs for High Spatial Resolution Slot-Scan Imaging with CZT or CdTe Pixel Arrays.” IEEE Transactions on Nuclear Science, 2004.[18]
  • “Study of Indium and Solder Bumps for the BTeV Pixel Detector.” IEEE Nuclear Science Symposium and Medical Imaging Conference, 2003.[19]
  • “Pixel Multichip Module Development at Fermilab.” Electronics for LHC and Future Experiments, 2005.[20]

See Also

References

  1. ^ "SEMA Announces Best Engineered Vehicle, Celebrates Ingenuity at 2023 Show". Specialty Equipment Market Association (SEMA). 2023-11-03. Retrieved 2024-09-13.
  2. ^ Brooke, James (July 5, 1990). "ERA OF FREE TRADE TO BEGIN IN BRAZIL". The New York Times. p. 1. Retrieved September 13, 2023.{{cite news}}: CS1 maint: url-status (link)
  3. ^ 2008 IEEE NSS/MIC/RTSD Conference Record, October 19-25, 2008, Dresden, Germnay. Dreseden, Germany: I EEE. 2008. ISBN 978-1-4244-2715-4.
  4. ^ Cardoso, Bill (Sep 23, 2008). "Pixel 2008 International Workshop". indico.fnal.gov. Retrieved Sep 23, 2008.{{cite web}}: CS1 maint: url-status (link)
  5. ^ Kwan, Simon; Lei, Cm; Menasce, Dario; Moroni, Luigi; Ngadiuba, Jennifer; Prosser, Alan; Rivera, Ryan; Terzo, Stefano; Turqueti, Marcos; Uplegger, Lorenzo; Vigani, Luigi; Dinardo, Mauro E. (2016-03-01). "The pixel tracking telescope at the Fermilab Test Beam Facility". Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment. 811: 162–169. doi:10.1016/j.nima.2015.12.003.
  6. ^ Mehta, Ivan (2023-11-27). "Dbrand is suing Casetify over stolen designs". TechCrunch. Retrieved 2024-09-13.
  7. ^ Flores, Inno (Nov 24, 2023). "iFixit Joins Dbrand in Accusations of iPhone X-Ray Theft Against Casetify". Tech Times.{{cite news}}: CS1 maint: url-status (link)
  8. ^ Shakir, Umar (2023-11-24). "The case of the stolen X-Ray cases is bigger and dumber than we thought". The Verge. Retrieved 2024-09-13.
  9. ^ Ross, David (2023-04-27). "Expo points towards a carbon-less future - Escondido Times-Advocate". Escondido Times-Advocate - The hometown newspaper of Escondido, California. Retrieved 2024-09-12.
  10. ^ "SEMA Announces Best Engineered Vehicle, Celebrates Ingenuity at 2023 Show". Specialty Equipment Market Association (SEMA). 2023-11-03. Retrieved 2024-09-13.
  11. ^ Andre, Jerome; Saraswati, Vivekanand (2024-02-06). "Venom - Scorpion EV's Kit Transforms Cobras in a Flash". EV Builder’s Guide: Learn about Electric Vehicle Conversions. Retrieved 2024-09-13.
  12. ^ "Board of Advisors | Electrical and Computer Engineering". www.iit.edu. Retrieved 2024-09-12.
  13. ^ "MiraCosta College - PIO - News Center". hub.miracosta.edu. Retrieved 2024-09-12.
  14. ^ Skelton, Robert T.; Matteson, James L.; Deal, Aaron C.; Stephan, Edwin A.; Cardoso, Bill (2008). "Mapping CZT charge transport parameters with collimated X-Ray and gamma-ray beams". 2008 IEEE Nuclear Science Symposium Conference Record. IEEE: 63–66.
  15. ^ Skelton, Robert T.; Matteson, James L.; Cardoso, Bill (2008). "Sensitivity-optimized wide-field imaging with a CZT-based coded mask imager". 2008 IEEE Nuclear Science Symposium Conference Record. IEEE: 468–471.
  16. ^ Chen, H.; Awadalla, S. A.; Harris, F.; Lu, P. H.; Bindley, G.; Lenos, H.; Cardoso, B. (2008). "Reliability of pixellated CZT detector modules used for medical imaging and homeland security". Hard X-Ray, Gamma-Ray, and Neutron Detector Physics X. 7079. SPIE: 31–40.
  17. ^ Turqueti, Marcos; Kunin, Vitaliy; Cardoso, Bill; Saniie, Jafar; Oruklu, Erdal (2010). "Acoustic sensor array for sonic imaging in air". 2010 IEEE International Ultrasonics Symposium. IEEE: 1833–1836.
  18. ^ Tumer, Tumay O.; Cajipe, Victoria B.; Albert Capote, M.; Cardoso, Guilherme; Clajus, Martin; Hayakawa, Satoshi; Lee, Michael; Volkovskii, Alexander (2008-10-02). "Readout ICs for high spatial resolution slot-scan imaging with CZT or CdTe pixel arrays". 2008 IEEE Nuclear Science Symposium Conference Record. IEEE: 412–418. doi:10.1109/nssmic.2008.4775197.
  19. ^ Kwan, S.; Andresen, J.; Appel, J.A.; Cardoso, G.; Christian, D.C.; Cihangir, S.; Kendziora, C.; Marinelli, M.; Ruschman, M.; Turqueti, M.; Wong, M.L.; Zimmermann, S. (2003). "Study of indium and solder bumps for the BTeV pixel detector". 2003 IEEE Nuclear Science Symposium. Conference Record (IEEE Cat. No.03CH37515). IEEE: 59–62 Vol.1. doi:10.1109/nssmic.2003.1351998.
  20. ^ Turqueti, M. A.; Andresen, J.; Brooks, M. L.; Butsyk, S. A.; Cardoso, G.; Christian, D.; Kapustinsky, J.; Kunde, G. J.; Kwan, S. W.; Lee, D. M.; Rivera, R. (2006). "Pixel Multichip Module Development at Fermilab for the PHENIX Experiment". 2006 IEEE Nuclear Science Symposium Conference Record. 465. IEEE: 496–499. doi:10.1109/nssmic.2006.356205.
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