Enphase Energy Highlights Firefighter Feedback on Microinverter-Based Solar Systems From SAFE Training Program

Rhea-AI Summary

Enphase Energy (NASDAQ: ENPH) reported results from Solar and Fire Education (SAFE) trainings showing that more than 98% of participating firefighters would recommend microinverter-based solar systems after hands-on training. The sessions covered modern system design, emergency response, and safety features including all-AC panel-level microinverters that avoid long high-voltage DC roof runs and include built-in rapid shutdown compliant with the National Electrical Code. SAFE training feedback and firefighter testimonials describe reduced uncertainty for first responders and incorporation of learnings into local safety guidelines.

Positive

• Firefighter survey: >98% of participants would recommend microinverter systems
• All-AC microinverter architecture eliminates long high-voltage DC runs on roofs
• Panel-level rapid shutdown reduces need for external optimizers or transmitters
• SAFE trainings produced hundreds of firefighter participants across multiple U.S. states

Negative

• None.

Key Figures

Firefighters recommending microinverters: more than 98%

1 metrics

Firefighters recommending microinverters more than 98% Post-training SAFE program surveys on microinverter-based systems

Market Reality Check

Price: $39.93 Vol: Volume 5,654,995 is sligh...

normal vol

$39.93 Last Close

Volume Volume 5,654,995 is slightly below the 20-day average of 6,081,346 (relative volume 0.93x). normal

Technical Shares at $39.42 trade above the 200-day MA of $37.73 but remain 44.31% below the 52-week high of $70.78 and 52.94% above the 52-week low of $25.775.

Peers on Argus

Key solar peers like RUN, NXT, SEDG, CSIQ, and JKS showed gains between 0.61% an...

1 Down

Key solar peers like RUN, NXT, SEDG, CSIQ, and JKS showed gains between 0.61% and 3.57%, while ENPH was nearly flat at -0.10%, suggesting today’s safety and training update was more company-specific than part of a broad sector move.

Historical Context

5 past events · Latest: Jan 20 (Neutral)

Pattern 5 events

Date	Event	Sentiment	Move	Catalyst
Jan 20	Earnings call announcement	Neutral	-1.3%	Set date and access details for Q4 and full-year 2025 results call.
Jan 12	Product shipment launch	Positive	+4.2%	Began U.S. shipments of IQ9N-3P commercial microinverters with GaN technology.
Dec 16	Commercial agreement	Positive	+1.6%	Expanded safe harbor agreement projected to add about $55M revenue across two quarters.
Dec 03	EV charger launch	Positive	+0.9%	Started U.S. shipments of next-gen IQ EV Charger 2 with higher power capabilities.
Dec 02	Battery tech upgrade	Positive	+1.9%	Launched PowerMatch in Europe to extend IQ Battery 5P usable energy and savings.

Pattern Detected

Operational and product news has recently coincided with positive next-day moves, while scheduling announcements have seen softer reactions.

Recent Company History

Recent ENPH news has focused on product rollouts and commercial agreements, including IQ9 commercial microinverters, IQ EV Charger 2, and PowerMatch technology in Europe, plus a safe harbor deal projected to add $55 million in revenue across Q4 2025 and Q1 2026. Those items saw next-day gains between 0.93% and 4.15%. By contrast, a conference-call scheduling release on Jan 20, 2026 saw a modest -1.32% move. Today’s firefighter-focused safety messaging fits the broader operational narrative rather than a financial inflection.

Market Pulse Summary

This announcement highlights favorable firefighter feedback from the SAFE training program, with mor...

Analysis

This announcement highlights favorable firefighter feedback from the SAFE training program, with more than 98% of participants indicating they would recommend microinverter-based systems after learning about design and safety features. It reinforces Enphase’s focus on rooftop safety, rapid shutdown compliance with the NEC, and AC-based architectures. In context of recent product launches and restructuring disclosures, investors may watch how safety branding supports adoption and complements future financial updates.

Key Terms

microinverter, direct current (dc), alternating current (ac), string inverter, +2 more

6 terms

microinverter technical

"they would recommend microinverter-based solar energy systems, based on their understanding"

A microinverter is a small device attached to an individual solar panel that converts the panel’s direct electrical output into the alternating electricity used in homes and the grid. Like giving each panel its own power adapter instead of one big converter for a whole rooftop, microinverters can improve overall system output, ease troubleshooting and panel-level monitoring, and reduce single points of failure—factors that affect installation costs, long-term performance and investor returns in solar projects.

direct current (dc) technical

"By converting direct current (DC) to alternating current (AC) at each individual panel"

Direct current (DC) is a form of electric power where the flow of charge moves steadily in a single direction, like water running through a pipe one way. Investors care because many modern technologies—batteries, electric vehicles, solar panels and data centers—use or store DC power, and choices about DC systems affect product efficiency, compatibility and cost, which in turn influence a company’s capital needs and profitability.

alternating current (ac) technical

"By converting direct current (DC) to alternating current (AC) at each individual panel"

Alternating current (AC) is an electric power form in which the flow of electrons reverses direction many times per second, like water in a pipe sloshing back and forth rather than flowing one way. Investors care because most power grids, industrial equipment, and household systems use AC, so changes in AC supply, infrastructure upgrades, or technology shifts can affect utility revenues, capital spending, and the costs or competitiveness of energy-dependent businesses.

string inverter technical

"traditional centralized, or “string,” inverter designs. This all-AC architecture"

A string inverter is an electrical device that converts the direct current produced by a string of solar panels into the alternating current used by homes, businesses and the power grid. Think of it as the translator between solar panels and usable electricity; its efficiency, reliability and built‑in monitoring affect energy output, maintenance costs and project returns, so investors watch inverter choice as part of solar system performance and risk.

rapid shutdown regulatory

"designed with panel-level integration of rapid shutdown, a safety feature required"

A rapid shutdown system is a safety feature for solar panel installations that quickly cuts the electrical output of rooftop modules during emergencies so wires and panels become low‑voltage and safer to handle. Investors should care because required compliance, equipment choices, and installation costs affect product demand, project timelines, and liability exposure—think of it as a car’s airbag: a mandated safety add‑on that influences design, price and marketability.

national electrical code (nec) regulatory

"rapid shutdown, a safety feature required by the National Electrical Code (NEC)"

The National Electrical Code (NEC) is a widely adopted U.S. safety standard that sets minimum requirements for safe electrical design, installation and inspection in buildings and infrastructure. Investors should care because NEC updates influence construction costs, project timelines, regulatory compliance and liability—similar to a building’s rulebook changing the materials and methods contractors must use, which can affect profit margins, budgets and risk on any company with physical facilities or construction projects.

AI-generated analysis. Not financial advice.

FREMONT, Calif., Jan. 27, 2026 (GLOBE NEWSWIRE) -- Enphase Energy, Inc. (NASDAQ: ENPH), a global energy technology company, today shared feedback from firefighters who participated in Solar and Fire Education (SAFE) training programs focused on modern solar system design and emergency response considerations. In post-training surveys, more than 98% of participating firefighters indicated they would recommend microinverter-based solar energy systems, based on their understanding of system design and safety characteristics. The survey results reflect feedback from hundreds of firefighters across multiple U.S. states who took part in hands-on SAFE trainings.

The trainings are designed to help firefighters better understand how different solar energy systems behave during emergencies. A key focus of the training is system design. By converting direct current (DC) to alternating current (AC) at each individual panel, Enphase microinverter systems avoid the long, high-voltage DC runs commonly found in traditional centralized, or “string,” inverter designs. This all-AC architecture on the roof can reduce uncertainty for first responders and support clearer decision-making during residential incidents.

“Solar is becoming a standard feature on rooftops across the country, and firefighter training must evolve alongside it,” said Richard Birt, retired captain with Las Vegas Fire & Rescue, founder of Solar and Fire Education, and a consultant to Enphase Energy. “Our trainings are about giving firefighters real-world, practical knowledge so they can operate more confidently around energized structures. Based on my conversations with firefighters, when they understand how microinverter-based systems work – including the elimination of high-voltage DC on the roof and built-in safety features – many view them as a more straightforward option during emergency response.”

Enphase systems are also designed with panel-level integration of rapid shutdown, a safety feature required by the National Electrical Code (NEC) that reduces voltage to safer levels during emergencies. Because Enphase microinverters handle rapid shutdown at the panel level, it removes the need for additional components like optimizers or rapid shutdown transmitters that are required in DC-based string inverter systems. This can simplify installation, enhance safety, and ensure compliance with NEC regulations out of the box.

“Safety is foundational to how we design energy systems for homes and businesses, and it is inseparable from the work firefighters do every day to protect their communities,” said Marco Krapels, chief marketing officer and head of global energy markets at Enphase Energy. “Programs like SAFE help give first responders the training and confidence they need as energy systems evolve, and we are committed to supporting education and technology that can help reduce risk during emergency situations.”

To learn more about SAFE trainings, firefighter education, and the survey results, visit the website. The SAFE website also features a video with Captain Andrew Martinez of the San Mateo Consolidated Fire Department, who explains why firefighters should receive updated training before interacting with modern energy systems on homes and businesses. Martinez describes how trainings help reduce uncertainty during residential incidents and notes that his department is working to incorporate these safety learnings, including consideration of microinverter-based systems that avoid long high-voltage DC runs on the roof, into its official Safety Policy and Guidelines manual.

To learn more about Enphase products and services, please visit the Enphase website.

About Enphase Energy, Inc.

Enphase Energy, a global energy technology company based in Fremont, CA, is the world's leading supplier of microinverter-based solar and battery systems, EV chargers, home energy management systems, and virtual power plant (VPP) solutions. Enphase products enable people to harness the sun to make, use, save, and sell their own power, all controlled through the Enphase App. The company revolutionized the solar industry with its microinverter-based technology and has shipped approximately 84.8 million microinverters, with more than 5.0 million Enphase-based systems deployed in over 160 countries. For more information, visit https://enphase.com/.

©2026 Enphase Energy, Inc. All rights reserved. Enphase Energy, Enphase, the “e” logo, IQ, IQ8, and certain other marks listed at https://enphase.com/trademark-usage-guidelines are trademarks or service marks of Enphase Energy, Inc. Other names are for informational purposes and may be trademarks of their respective owners.

Forward-Looking Statements

This press release may contain forward-looking statements, including statements related to the expected capabilities and performance of Enphase Energy’s products, including safety, quality, and reliability. These forward-looking statements are based on Enphase Energy’s current expectations and inherently involve significant risks and uncertainties. Actual results and the timing of events could differ materially from those contemplated by these forward-looking statements as a result of such risks and uncertainties including those risks described in more detail in Enphase Energy’s most recently filed Annual Report on Form 10-K, and other documents filed by Enphase Energy from time to time with the SEC. Enphase Energy undertakes no duty or obligation to update any forward-looking statements contained in this release as a result of new information, future events or changes in its expectations, except as required by law.

Contact:

Enphase Energy

press@enphaseenergy.com

FAQ

What did Enphase announce about firefighter feedback on January 27, 2026 (ENPH)?

Enphase shared SAFE training survey results showing more than 98% of participating firefighters would recommend microinverter-based systems.

Why do firefighters prefer microinverter-based systems in Enphase's SAFE training (ENPH)?

Trainings highlighted that microinverters create an all-AC roof architecture, avoiding long high-voltage DC runs and simplifying emergency decision-making.

How do Enphase microinverters affect rapid shutdown and NEC compliance (ENPH)?

Enphase microinverters provide panel-level rapid shutdown, reducing the need for additional optimizers or rapid-shutdown transmitters and supporting NEC requirements.

How many firefighters participated in the SAFE trainings referenced by Enphase (ENPH)?

The announcement describes feedback from hundreds of firefighters across multiple U.S. states who attended hands-on SAFE trainings.

Will SAFE training feedback influence fire department policies, according to Enphase (ENPH)?

The release notes that at least one department is working to incorporate SAFE learnings, including microinverter considerations, into its official safety policy and guidelines.

Where can investors find more details about Enphase SAFE trainings and survey results (ENPH)?

The company points readers to the SAFE website and Enphase website for training information, a firefighter video, and the survey findings.