Dan’s Biz Bookshelf: ‘Abundance: How We Build a Better Future’
Trouble in Your Tank: In Complex Systems, Design Rules Aren’t Optional
It’s Only Common Sense: The Phone Is Still Your Competitive Advantage
ERI Unveils Video Footage of AI-Driven Robots in Action
June 26, 2019 | Business WireEstimated reading time: 2 minutes
ERI, a fully integrated IT and electronics asset disposition provider and cybersecurity-focused hardware destruction company, has shared unique video footage of its groundbreaking artificial intelligence (AI)-driven robotic system at its Fresno facility.
The video, narrated by ERI’s Co-Founder, Chief Compliance Officer and COO, Aaron Blum, provides a sneak peek at the robots in action.
ERI’s first-in-industry AI and robotics technology system is made up of two robots: SAM and ERNIE. The robotic system, designed by Colorado-based AMP Robotics, is integrated into ERI’s scrap metal sorting line.
SAM (Super Automated Machine) separates shredded material such as aluminum, printed circuit boards, yellow brass, capacitors, and copper products into a clean stream, based off a vision system to identify the target material that then sends it to the A.I. (brain) that then determines what action the robot should pick. The picking is done via vacuum system. At ERI, SAM can achieve about 70 picks per minute in its current configuration. Plus, it processes 10 different streams of shredded material.
ERNIE (Electronic Recyclers Next Innovative Efficiency) is the industry’s first-ever robotic flat panel processor. This proprietary technology is used to automate e-waste recycling, and can shred 5000 pounds per hour of flat screen TVs and monitors in a controlled environment utilizing a carbon fume scrubber. ERNIE was developed by ERI to prepare for the future in which there will be fewer CRT devices in the end-of-life stream and more flat-screen TVs.
“With steady growth of 10-15 percent per year, we are always looking for innovative ways to enhance efficiencies,” said John Shegerian, ERI’s Co-Founder and Executive Chairman. “Working with our friends at AMP we developed smart technology that will continue to increase our sorting accuracy as our processing volume increases so we can free up our employees to perform ITAD and data wiping services. We are very proud of SAM and ERNIE and being the first in our industry to incorporate robotics and A.I. into the process.”
Shegerian added that by the end of 2019, the company will have added robotics and A.I. to its other facilities across the country.
About ERI
ERI is the largest fully integrated IT and electronics asset disposition provider and cybersecurity-focused hardware destruction company in the United States. ERI is certified at the highest level by all leading environmental and data security oversight organizations to de-manufacture, recycle, and refurbish every type of electronic device in an environmentally responsible manner. ERI has the capacity to process more than a billion pounds of electronic waste annually at its eight certified locations, serving every zip code in the United States. ERI’s mission is to protect organizations, people and the environment. For more information about e-waste recycling and ERI, call 1-800-ERI-DIRECT or visit https://eridirect.com.
Share on:
Subscribe
Stay ahead of the technologies shaping the future of electronics with our latest newsletter, Advanced Electronics Packaging Digest. Get expert insights on advanced packaging, materials, and system-level innovation, delivered straight to your inbox.
Subscribe now to stay informed, competitive, and connected.
Suggested Items
Driving Innovation: Selecting the Right Laser Source
04/28/2026 | Simon Khesin -- Column: Driving InnovationWhen I first joined Schmoll Maschinen, I brought experience from almost every PCB process, except for laser. As I immersed myself in laser processing, I realized why it can seem so daunting to a newcomer. The complexity arises from three intersecting factors: A vast variety of laser sources: CO2, UV-nano, green-pico, UV-pico, IR-pico, and others; a diverse range of applications: Drilling, cutting, ablation, and more; and an extensive list of materials: These have vastly different absorption rates. Choosing the right machine or laser source is rarely trivial. Even for experienced engineers, answering "Which source is best?" requires examining the business's specific goals.
Institute of Circuit Technology Spring Seminar 2026: A Bright Future in Europe
04/23/2026 | Pete Starkey, I-Connect007Through the leafy lanes and spring flowers of Warwickshire and back to Meridan, the traditional centre of England, and now officially part of the Metropolitan Borough of Solihull in the county of the West Midlands, I attended the Annual General Meeting and Spring Seminar of the Institute of Circuit Technology (ICT) on April 14. Out of the AGM came notable changes in leadership at the top of the Institute: the retirement of Mat Beadel as chair and Emma Hudson as technical director. Effective May 1, Steve Driver is the new chair, and Alun Morgan is the new technical director.
ACCM Unveils Negative and Near-zero CTE Materials for Large-Format AI Chips
04/21/2026 | Advanced Chip and Circuit MaterialsAdvanced Chip and Circuit Materials, Inc. (ACCM) has launched two new materials: Celeritas HM50, with a negative coefficient of thermal expansion (CTE) of -8 ppm/°C to offset the positive CTE and expansion of copper with temperature on circuit boards, and Celeritas HM001, with near-zero CTE and the low-loss performance needed for high-speed signal layers to 224 Gb/s and faster in artificial intelligence (AI) circuits.
Fresh PCB Concepts: Designing PCBs for Harsh Environments—Reliability Is Engineered Upstream
04/23/2026 | Team NCAB -- Column: Fresh PCB ConceptsWhen engineers hear the phrase “harsh environment,” they usually think of the extreme temperature swings, vibration and shock, pressure changes, or radiation in aerospace. However, aerospace is not the only harsh environment where electronic assemblies must survive. Automotive power electronics, downhole oil and gas tools, marine controls, rail systems, defense platforms, and industrial automation equipment all expose PCBs to environments that are equally unforgiving. The stress mechanisms may differ, but the physics does not.
Advanced Packaging for AI: Reliability Starts at the Cu/Cu/Cu Microvia Junction
04/20/2026 | Kuldip Johal, MKS' AtotechThe rapid growth of AI computing, from training clusters to inference at scale, is reshaping demand across the entire electronics supply chain. Advances in technology requirements, such as higher bandwidth, lower latency, and greater compute density, are driving the development of advanced packaging technologies and transforming the PCB industry across design, manufacturing, testing, and even architecture.