2029 National Electrical Code Panel 3

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2029 National Electrical Code Panel 3

July 7, 2026
mike@standardsmichigan.com
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Electrical Safety Catalog

2029 Revision Calendar

 

Articles covered by CMP-3:

Article 206
Non-Power-Limited Remote-Control and Signaling Circuits |
Article 300
General Requirements for Wiring Methods and Materials |
Article 335
Instrumentation Tray Cable — formerly Article 727 |
Article 720
Limited-Energy System Installations |
Article 721
Limited-Energy Power Sources |
Article 722
Limited-Energy Cables | 
Article 723
Raceways, Cable Routing Assemblies, and Cable Trays for Limited-Energy Systems |
Article 724
Class 1 Power-Limited Remote-Control and Signaling Circuits |
Article 725
Class 2 and Class 3 Power-Limited Circuits |
Article 726
Class 4 Fault-Managed Power Systems |
Article 728
Fire-Resistive Cable Systems |
Article 760
Fire Alarm Systems |
Article 772
Chapter 9 Tables

Top 10 Issues

Issue Summary
1. Consistency of Code Language Standardize terminology throughout the NEC by eliminating inconsistent wording, duplicate phrases, and varying expressions that describe the same technical concepts.
2. Compliance with the NEC Style Manual Many proposals seek removal of redundant requirements already addressed elsewhere in the Code, resulting in a cleaner, more concise document.
3. Restoring Lost Requirements Numerous submitters argue that important technical provisions disappeared during recent article reorganizations and should be restored.
4. Article Organization Improve article formatting, numbering, and overall structure to make the NEC easier to navigate and maintain.
5. Emerging Technologies Expand the Code to better accommodate fault-managed power, battery energy storage, portable power systems, EV-based power sources, hydrogen technologies, and new circuit classifications.
6. Installation Clarification Clarify requirements for raceways, wet locations, roof decks, cable trays, conductor spacing, barriers, and other installation practices.
7. Installer Safety & Reliability Enhance electrical safety through improved wiring practices, better physical protection, stronger cable support requirements, and fewer failure points.
8. Definition Ownership Assign definitions to the Code-Making Panels having primary technical expertise to improve long-term consistency and maintenance.
9. Coordination with Other Standards Improve harmonization between the NEC and companion standards such as UL, ANSI, NFPA 79, and hazardous-location requirements.
10. Reducing Complexity A recurring objective is to simplify the NEC by reducing duplication, improving readability, and making the Code easier for installers, inspectors, designers, trainers, and licensing authorities to use.

The Public Inputs demonstrate a broad desire to make the National Electrical Code more consistent, technically complete, better coordinated with related standards, and easier to understand without compromising electrical safety. Many proposals emphasize restoring requirements inadvertently lost during recent reorganizations while preparing the Code to accommodate rapidly emerging electrical technologies.

Mike recommends these issues as priority for the Joint IEEE IAS/PES committee
Ω

2029 Public Input Submittals CMP-3

N.B.  Public Input No. 2633-NFPA 70-2026 [ Global Input ]  PDF Page 6, regarding re-organization of the NEC into below 1000 V and above 1000 V.  

Noteworthy proposal concepts:

  1. Cable trays interfering with HVAC ductwork and fire sprinkler lines.  Parallel cable tray feasibility
  2. Difficulty accessing lighting fixtures and fire alarm components for maintenance.
  3. Potential violation of plenum clearance and airflow requirements.  Some cable trays in plenums reportedly contain non-plenum-rated cables, which is a fire code violation.
  4. Document flags this as a high-priority remediation item before any LED lighting retrofit proceeds.
  5. Existing security wiring (CCTV, access control, intrusion detection) is a mix of old analog coax and early Cat 5 cables.
  6. Many runs exceed recommended length for reliable video transmission.  Frequent signal degradation and reliability complaints.
  7. Security cables are sharing overcrowded cable trays with power-limited lighting control wires and fire alarm cabling.
  8. Risk of electromagnetic interference (EMI) noted due to proximity to higher-voltage lines.
  9. Plenum space constraints make it difficult to add new IP-based security cameras without major reorganization.
  10. Current security wiring cannot support newer high-resolution IP cameras or PoE+ powered devices.
  11. Several editorial proposals by Mike Holt. (He’s generally correct on clarity improvements that he needs for educational purposes)
Ω
For discussion next meeting, when we march through all proposals of interest to IEEE:
  • When electricians work in ceiling plenums above hallways while students pass below, several serious hazards emerge. Tools, screws, cable scraps, or ceiling tiles can fall, causing head injuries or slips. Disturbed dust, fiberglass, or potential asbestos particles may rain down, creating respiratory risks.
  • Live electrical work on lighting or cable trays raises shock/fire dangers if a fault occurs or debris shorts circuits. Open plenums can compromise fire-rated barriers, allowing smoke or flames to spread rapidly in an emergency.
  • Noise and visual distractions increase trip hazards for students. Without full barricades, lockout/tagout, and proper fall protection, these overhead activities expose young people to preventable injury. Scheduling work after hours or using full corridor closures is essential.
  • Power-limited (Class 2) cabling operates at low voltage (<60V DC) with current/power caps (~100VA), dramatically reducing shock and fire risks. Installation is simpler and cheaper—no conduit or heavy mechanical protection needed in many cases, allowing flexible routing. LEDs run cooler and more efficiently with remote drivers, improving lifespan and energy savings. Easier maintenance and safer for retrofits.
  • Severe distance and power limits due to voltage drop and 100W/5A caps require multiple drivers or shorter runs. Higher upfront costs for specialized power supplies. Potential reliability issues from more connection points. Less suitable for high-power or long-distance applications compared to line-voltage wiring.

Public Inputs Relevant to School and College Facilities

Campus Facility Relevant Issue Why It Matters
Student Health Centers, Medical Schools & Campus Hospitals Improved protection of underground feeders, raceways, and wiring methods, together with replacement of conductors damaged by water, fire, corrosion, or severe physical impact. Enhances electrical reliability for healthcare occupancies where continuous operation is essential.
Athletic Stadiums & Arenas Improved protection of underground services, direct-buried conductors, warning ribbons, and raceways. Supports reliable electrical service for stadium lighting, scoreboards, concessions, and outdoor utility infrastructure.
Temporary Athletic & Campus Events Recognition of modern portable power sources, including battery energy storage systems and portable fuel cells, in addition to traditional generators. Useful for commencement ceremonies, concerts, athletic tournaments, festivals, and temporary event power.
Research Laboratories Expanded wiring methods for hazardous (classified) locations, including ITC-HL cable installations. May affect university research laboratories, pilot plants, engineering facilities, and chemical research buildings.
Residence Halls & Classroom Buildings Improved protection against concealed wiring damage caused by nails, screws, and furring strips during construction and renovation. Helps reduce wiring damage during frequent campus remodeling and maintenance projects.
Campus Utility Infrastructure Clarifications involving direct boring, underground raceways, service feeders, and warning ribbon installation. Relevant to the large underground electrical distribution systems commonly found on university campuses.

Although these proposals would benefit campus infrastructure, the CMP-3 transcript contains very little discussion directed specifically at educational occupancies. Topics such as healthcare facilities (Article 517), stadium emergency systems, data centers, laboratories as occupancies, residence halls, libraries, and central utility plants largely fall within the jurisdiction of other NEC Code-Making Panels such as CMP-1 and CMP-15 where Mike has been a Principal or Alternate for IEEE.


April 29, 2026

 

At the request of IEEE Joint IAS/PES Standards Michigan, Mike Anthony moved to CMP-3 from CMP-15.

Articles Under CMP 3

  • Article 300 — General Requirements for Wiring Methods and Materials
  • Article 335 — Instrumentation Tray Cable (in some references for the 2029 cycle)
  • Article 590 — Temporary Installations (being relocated/renumbered in the 2026 cycle, e.g., potentially to Article 140 in Chapter 1, as temporary wiring is not treated as a special occupancy)
  • Article 720 — Limited-Energy System Installations (new/general article covering wiring methods for limited-energy systems)
  • Article 721 — Limited-Energy Power Sources
  • Article 722 — Limited-Energy Cable (covers cables for power-limited, fault-managed, etc.)
  • Article 723 — Raceways, Cable Routing Assemblies, and Cable Trays for Limited-Energy Systems (newly created in the 2026 cycle)
  • Article 725 — Class 2 and Class 3 Remote-Control, Signaling, and Power-Limited Circuits
  • Article 726 — Class 4 Fault-Managed Power Circuits and Equipment
  • Article 727 — Instrumentation Tray Cable
  • Article 728 — Fire-Resistive Cable Systems
  • Article 760 — Fire Alarm Systems (power-limited and non-power-limited portions)

CMP 3 also handles associated content in: Chapter 9 — Tables, including Tables 11(A) & (B) and Tables 12(A) & (B) (related to conductor properties and other supporting tables for the above topics).


  • Notes on Changes and Scope
    CMP 3 focuses on general wiring rules, cable types, raceways/trays for low-energy applications, and signaling/communications-related wiring (distinct from higher-power utilization equipment or special occupancies handled by other panels).
  • In the 2026 NEC cycle, there has been significant reorganization of Chapter 7 to consolidate limited-energy systems under articles like 720–726 (and related ones), moving away from older structures. This includes new articles for raceways/cable trays specific to limited-energy systems and adjustments to scopes for clarity.
  • Article 206 (Non-Power-Limited Remote-Control and Signaling Circuits) appears in some 2026-related references as newly designated or relocated material handled in this area.
    Temporary installations (Article 590) are transitioning out of “special” categories in restructuring efforts.

During today’s sessions of the IEEE E&H Committee and our own we will prepare draft proposals relevant to the safety and sustainability agenda of the USA education facility industry.  Use the login credentials at the upper right of our home page.

 

Brown University Electrical Design Criteria | Information Technology Resources Policy


Posted December 20, 2025

The University of Michigan has supported the voice of the United States education facility industry since 1993 — the second longest tenure of any voice in the United States.  That voice has survived several organizational changes but remains intact and will continue its Safer-Simpler-Lower Cost-Longer Lasting priorities on Code Panel 3 in the 2029 Edition.

Today, during our customary “Open Door” teleconference we will examine the technical concepts under the purview of Code Panel 3; among them:

Article 206 Signaling Circuits

Article 300 General Requirements for Wiring Methods and Materials

Article 335 Instrumentation Tray Cable

Article 590 Temporary Installations

Chapter 7 Large sections of limited energy cabling for signaling and information technology

Chapter 9 Conductor Properties Tables 11A & B, Tables 12A&B

Public Input on the 2029 Edition will be received until April 9, 2026.

Related:
  • Since the lifespan of educational buildings make the building core and shell susceptible to multiple changes not typically associated with commercial buildings, additional pathways should be placed in areas where the core and shell components of the facility are likely to re-main for extended periods of time
  • It is recommended that all areas of an educational building have wireless coverage unless prohibited

Reaction: June 18 Open Meeting

July 7, 2026
mike@standardsmichigan.com
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FERC HOME

Presentation & Report | The 2026 Summer Energy Market and Electric Reliability Assessment

 

The Commission voted on a series of mostly consent agenda items focused on electric reliability, market rules, compliance, infrastructure, and related matters.  Some of them are relevant to large, sometimes privatized, campus power systems:

Major initiative to accelerate large-load interconnections. The Commission’s headline action was the issuance of six “show cause” orders directing every jurisdictional RTO/ISO (except Texas/ERCOT) to justify or reform how they connect very large electric loads, particularly AI data centers. The objective is to reduce delays while protecting grid reliability and ensuring that costs are appropriately assigned.

Large customers expected to bear infrastructure costs. FERC made clear that new large loads should generally pay for the transmission and distribution upgrades needed to serve them, rather than shifting those costs onto existing retail customers. This principle is expected to influence future tariff filings nationwide

Encouragement of customer-owned generation. The Commission encouraged tariff structures that would allow large customers to supply some or all of their own electricity—such as on-site generation, microgrids, or other behind-the-meter resources—to reduce impacts on the bulk power system.

MISO emergency demand-resource improvements. The Commission conditionally accepted tariff revisions from MISO that improve the visibility, dispatch, and operation of demand-side resources during grid emergencies beginning with the 2028–2029 planning year. This strengthens reliability during extreme system conditions.

A clear policy shift toward speed-to-power. The June meeting signaled perhaps the strongest policy emphasis in years on rapidly connecting new electric demand while maintaining reliability. The Commission characterized the integration of very large loads—especially AI-related facilities—as a national priority and indicated that existing interconnection practices may no longer be adequate

For universities, research campuses, hospitals, semiconductor manufacturers, and data center developers, the June 2026 meeting represents a significant shift in federal policy. Rather than treating large-load requests as exceptional cases, FERC is moving toward standardized, faster interconnection procedures coupled with clearer cost-allocation rules. Institutions planning major campus expansions or new energy-intensive facilities should monitor the forthcoming tariff revisions from their regional transmission organizations, as these changes could substantially affect project schedules, interconnection costs, and opportunities to incorporate on-site generation or microgrids.

Power transformers and distribution transformers will face supply deficits of 30% and 10% in 2025

 

March 19, 2026

Key Reliability & Cybersecurity Actions. FERC approved important updates to Critical Infrastructure Protection (CIP) Reliability Standards. These included modernized rules for virtualization (allowing secure use of virtual machines), enhanced security management controls for low-impact cyber systems (CIP-003-11), and refinements to the definition of “control center” to better protect high-risk assets. The changes aim to strengthen the bulk-power system against rising cyber threats and extreme weather while reducing unnecessary administrative burdens.

Electric Rate and Complaint Resolutions. The Commission resolved several long-running rate complaints, including setting a base return on equity (ROE) of 9.57% for New England Transmission Owners. It addressed complaints involving spot market sales exceeding price caps in the WECC region and cost allocation issues in MISO related to DOE emergency orders. Several tariff revisions and generator interconnection filings were also accepted.

Other Actions. FERC modernized Electric Quarterly Report (EQR) filing requirements, authorized multiple asset transactions and dispositions, and approved several natural gas pipeline, storage, and abandonment projects. A presentation on the 2025 State of the Markets Report was also delivered.

FERC’s involvement in CHP plants at universities and hospitals depends on and how the facility interacts with the bulk electric power system and wholesale markets. In many cases, FERC’s role is indirect—but it can become significant under certain conditions.  We cover this topic separately in our periodic US Department of Energy Combined Heat & Power eCATALOG

Next Open Meeting: May 21.  Keep in mind that much “bandwidth” is devoted to administrative issues; the technical specifics of primary interest to us referenced in case dockets that are referenced here:  FERC Online

The current full complement of five FERC commissioners is relatively new as of December 23, 2025. The two most recent additions — Chairman Laura V. Swett (term expiring June 30, 2030) and Commissioner David A. LaCerte (term expiring June 30, 2026) — were confirmed by the U.S. Senate on October 7, 2025.
Ω
This restored FERC to its full five members after prior vacancies and transitions earlier in the year. The other commissioners (David Rosner, Lindsay S. See, and Judy W. Chang) have been in place since mid-2024 or earlier, but the current lineup only fully formed about two and a half months ago.
Ω
This followed changes tied to the new administration, including shifts in majority and leadership.
January 22.  Issues of interest discussed at the FERC Open Meeting on January 22, 2026, centered primarily on electric sector matters related to generator interconnection reforms, expedited processes for resource adequacy.  Our interest lies in the effect of FERC action will have on the utility costs of educational settlements which, of course, practically involves all utilities and how those decisions are reflected in state tariffs.
One issue of particular interest for Michigan: Midcontinent Independent System Operator, Inc. (MISO) Expedited Resource Addition Study (ERAS) process (Docket No. ER25-2454-002): The Commission addressed arguments on rehearing and sustained its prior July 21, 2025, order approving MISO’s ERAS framework. This provides an expedited interconnection study process for generation projects addressing urgent near-term resource adequacy and reliability needs in the MISO region.  Discussions involved balancing reliability concerns (e.g., load growth, resource shortfalls) against claims of undue discrimination or preference in interconnection queuing, as raised by public interest groups.  We will see these conclusions reflected in Michigan Public Service Commission action.Other agenda elements likely included routine administrative matters (e.g., A-1 Agency Administrative Matters, A-2 Customer Matters/Reliability/Security/Market Operations) and consent items (often non-controversial electric, gas, hydro, or certificate matters voted en bloc without discussion).
No major presentations were noted, and the meeting focused on these reliability/interconnection and market integrity issues amid broader grid challenges like queue backlogs, rapid load growth, and transitioning resources.The Q&A afterward involved energy media, with emphasis by Laura V. Swett on reliability concerns ahead of likely winter storms. The next public open meeting is scheduled for Thursday, February 19th. 

December 18. The public meetings are dominated by administrative procedures and mutual admiration.  Technical issues that require in-depth, expert-level understanding of complex laws, rules, guidelines, and precedents beyond surface-level awareness appear deeper into the FERC website.  There you will generally find:

  • Nuanced interpretation of statutes and agency decisions
  • Awareness of historical context and evolving policies
  • Insight into how rules interact with technical, economic, and operational realities
  • Impacts of changes and navigate compliance strategically

As interest and time allows we can pick through technical specifics regarding FERC oversight of interstate electricity with the IEEE colleagues.

Ω

Ω

 

 

Whats On a Utility Pole

Midwest Energy Communications: What’s On a Utility Pole?

 

Hegemon Cuyahoga & County Dublin

July 7, 2026
mike@standardsmichigan.com

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Financial Presentations & Webcasts

First Quarter 2026 Earnings Release | May 5, 2026

 

Here we shift our perspective 120 degrees to understand the point of view of the Producer interest in the American national standards system (See ANSI Essential Requirements).  The title of this post draws from the location of US and European headquarters.  We list proposals by a successful electrical manufacturer for discussion during today’s colloquium:

2026 National Electrical Code

CMP-1: short circuit current ratings, connections with copper cladded aluminum conductors, maintenance to be provided by OEM, field markings

CMP-2: reconditioned equipment, receptacles in accessory buildings, GFCI & AFCI protection, outlet placement generally, outlets for outdoor HVAC equipment(1)

(1) Here we would argue that if a pad mount HVAC unit needs service with tools that need AC power once every 5-10 years then the dedicated branch circuit is not needed.  Many campuses have on-site, full-time staff that can service outdoor pad mounted HVAC equipment without needing a nearby outlet.  One crew — two electricians — will run about $2500 per day to do anything on campus.

CMP-3: No proposals

CMP-4: solar voltaic systems (1)

(1) Seems reasonable – spillover outdoor night time lighting effect upon solar panel charging should be identified.

CMP-5: Administrative changes only

CMP-6: No proposals

CMP-7: Distinction between “repair” and “servicing”

CMP-8: Reconditioned equipment

CMP-9: Reconditioned equipment

CMP-10: Short circuit ratings, service disconnect, disconnect for meters, transformer secondary conductor, secondary conductor taps, surge protective devices, disconnecting means generally, spliced and tap conductors, more metering safety, 1200 ampere threshold for arc reduction technology, reconditioned surge equipment shall not be permitted, switchboard short circuit ratings

CMP-11: Lorem

CMP-12: Lorem

CMP-13: Lorem

Lorem ipsum

Lemonade

July 6, 2026
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University of Florida College of Agriculture and Life Sciences

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United States Department of Agriculture: Frozen Concentrate for Lemonade Grades and Standards

United States Food & Drug Administration: Canned Fruit Juices

Spoon University: My Perfect Lemonade Recipe

Standards Florida

Students’ top five loved lounge spots

July 6, 2026
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Standards Canada (CSI Group)Bureau de normalisation du Québec (BNQ)

Consolidated Financial Statement 2025: Deficit of $17.0M CAD

 

Higher education institutions worldwide exhibit a pronounced left-leaning bias primarily due to their structural dependence on large government. Public universities rely directly on taxpayer subsidies, while even elite private ones receive massive federal research grants, loan guarantees, and regulatory favors. This creates powerful incentives to support expansive government: more spending sustains enrollment via student aid, funds bureaucratic growth, and aligns research agendas with state priorities in climate, equity, and regulation.

Faculty and administrators, insulated by tenure and public-sector-like employment, internalize the worldview that justifies their funding model—favoring redistribution, identity politics, and skepticism of markets. Dissenting views threaten grant flows and institutional prestige tied to government alignment. Globally, from Europe to Latin America to Asia, state-dominated higher education reproduces this pattern, as independence from Leviathan remains rare. The result is ideological conformity masquerading as expertise.

Gad Saad, Professor of Marketing at Concordia Quebec, quotes E. O. Wilson (Edward Osborne Wilson), the renowned Harvard biologist and professor” “Karl Marx was right, socialism works, it is just that he had the wrong species.”

Tokens

July 6, 2026
mike@standardsmichigan.com
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Standards Michigan: Language*

American English is effectively the de facto reference language for most modern LLM tokenization.   During today’s session we explore the at-present advantage Americans have in the development of artificial applications — whether it should always be that way or not.  Tokenization isn’t language-neutral — it’s heavily skewed toward English due to data realities. This is one of the core reasons why “English-first” prompting often works best in today’s LLMs.

We will use the document linked below to begin the exploration:

NIST AI Consortium

Use the login credentials at the upper right of our home page


The Quick Brown Fox – Tokenization Example

Original English Sentence:

The quick brown fox jumps over the lazy dog.

1. Tokenization

Tokens: ["The", " quick", " brown", " fox", " jumps", " over", " the", " lazy", " dog", "."]

2. Token IDs (Numbers fed to the AI model)

Token Token ID
The 464
quick 2068
brown 7583
fox 1776
jumps 18045
over 625
the 262
lazy 16925
dog 3290
. 13

Final Input to the AI Model:

[464, 2068, 7583, 1776, 18045, 625, 262, 16925, 3290, 13]


Background:

The model only sees this list of numbers. It has no direct understanding of English words anymore — it learned patterns from billions of examples during training using these number sequences.This numerical input then goes through embeddings (turning numbers into vectors), attention layers, etc., to generate a response.  Most widely used tokenizers (e.g., OpenAI’s tiktoken, Llama’s, etc.) are trained primarily on English-heavy datasets (often 60–90%+ English in pre-training corpora).

Outcome:

    • Better compression for English — Common English words and patterns become single tokens or short subwords.
    • Worse efficiency for other languages — Non-English text often gets fragmented into more tokens (sometimes 2–5× more for the same semantic content).

Impact:

    • Higher token counts = higher API costs and shorter effective context windows for non-English users.
    • Poorer downstream performance on non-English tasks.
    • English becomes the “cheapest” and often “best-performing” language for prompting and reasoning.

Studies consistently show this “tokenization tax” or “language premium”: English typically has the lowest token-per-character or token-per-meaning ratio in major models.

Bias:

    • Multilingual models still underperform on low-resource languages.
    • It reinforces English as the default language for AI development.
    • It affects fairness, accessibility, and global adoption.

Efforts to fix this include dedicated multilingual tokenizers, language-specific fine-tuning, and more balanced approaches. However, because English dominates training data and benchmarks, it remains the practical standard that everything else is measured against.

Tokenization isn’t language-neutral — it’s heavily skewed toward English due to data realities. This is one of the core reasons why “English-first” prompting often works best in today’s LLMs.

 

* StandardsMichigan.COM normally deals with Language issues every Monday at least once per month.

How Your LLM Costs 5X More If You Don’t Speak English

Same content, 65% more expensive in Chinese! Cross-model tokenization comparison: Claude users pay the highest ‘Chinese tax’

Every day is a “standards” journey!

July 6, 2026
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U.S. Representation in ISO | ISO Secretariats Held by the United States

Research and Education

Healthcare Organization Management

Laboratory Design

Sustainable cities & communities

Energy Management Systems

More

The ISO Research Grant is awarded annually to one postgraduate student (Masters, PhD or postdoc) to conduct a research study related to a theme proposed by ISO. The grant amount is 25,000 CHF. A different theme is proposed each year, but the broad focus is on evaluating the impacts of international standards.  We  have covered it since its inception in the early days of the original Standards Michigan enterprise.  (See ABOUT).  We see no information on the next revision cycle but can provide information about the 2026 grant cycle in the link below:

ISO Research Grant 2025

ISO Research Grant 2021

ISO Research Grant 2022: Call for Proposals

ISO Research Grant 2021: ANSI Announcement

No photo description available.

Mike Anthony at ISO Offices Genève

Sport News

July 6, 2026
mike@standardsmichigan.com
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“Man’s life is brief, but through contests he touches the eternal.”

— Pindar, ‘Nemean Ode 6.23-24’

Michigan State University | Ingham County

Rocky Mountain Intercollegiate Skiing Association

College Bowl Games

Fernando Mendoza’s post game interview after winning the Big Ten
byu/justletmeregisteryou insports

 

 

 



Michigan Girl, Our Michigan Girl….

Sport Standards

 

 

Mixed Gender Sport by Design

Engineering in Sport



“Rowing is more poetry than sport.” — George Pocock (‘Boys in the Boat’ 2024), a British-born boat builder, rowing coach, and influential figure in American rowing, best known for his craftsmanship of racing shells and his philosophical approach to the sport.

Winter Sport

“There is no greater glory for a man than that which he wins with his own hands and feet.” (Homer, Iliad c. 8th Century BCE)

https://postharvest.ucdavis.edu/produce-facts-sheets/watermelon https://wvstateu.edu/news/wvsu-watermelon-research-published-in-the-plant-jo/

Vacation Bible School

July 6, 2026
mike@standardsmichigan.com

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