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5 min read

The Ultimate Guide to Standards for Solar Energy

The latest solar energy standards play a critical role in enhancing the safety, quality and reliability of photovoltaic (PV) systems.
Topics: AS/NZS 5033:2021 , Sustainability Standards

worker installing solar panels on rooftop


Compliance with these Standards, specifically the AS/NZS 5033, is essential for installers and manufacturers amid growing interest in green energy solutions. Around 
4m homes and businesses in Australia are now equipped with solar panels.

This guide will explore these Standards in depth to help solar companies make sense of the regulations, ensure compliance, and contribute to a safer and more efficient solar industry.


What is AS/NZS 5033?

Key Changes in AS/NZS 5033:2021

Why AS/NZS 5033 Matters for Solar Energy Installations

How AS/NZS 5033 Affects Australian Solar Installers

How to Ensure Compliance with AS/NZS 5033

  1. Read Standards
  2. Obtain certifications
  3. Use compliant equipment
  4. Conduct compliance verification

Future Trends in Solar Energy Standards

Conclusion: The Role of AS/NZS 5033 in Solar Energy Growth


What is AS/NZS 5033?

The AS/NZS 5033 Standard sets out guidelines for designing, installing, and maintaining solar PV systems in Australia and New Zealand. These systems have numerous high-voltage electrical components - panels, inverters, and battery storage - so it’s vital that they harness solar energy safely and efficiently.

The Standards were first introduced in 2014 and then revised in 2021 with updated guidance.

In both Australia and New Zealand, the AS/NSZ 5033 aims to enhance safety by reducing the risks of electrical hazards like shocks and fires, while creating a consistent framework to improve overall quality, performance, and reliability. 


Key Changes in AS/NZS 5033:2021

The AS/NZS 5033:2021 revision updated and extended the Standards to cater to shifts in the solar market.

Previously, arrays larger than 240 kW were not covered. Broadening the scope of the Standards made them relevant for most residential and commercial systems. Many of these systems were also using higher-wattage panels. The new Standard increased the maximum system voltage to 1,000 (up from 600) for domestic, and 1500 V for commercial.

The updated Standards also revised criteria for:

  • PV circuit current calculations
  • Disconnection points
  • Conductor sizing and selection
  • Cables in ceiling space
  • Labelling equipment

These changes give installers more choices about designing systems safely without sacrificing performance. 

Professionals in the industry welcomed AS/NSZ 5033:2021.

While 17 new pages were added to the documentation, the simpler layout and targeted changes resolved many challenges installers faced. It also raised awareness of safety practices and improved specialised training and certifications. Designers and engineers are now reevaluating their approaches based on the updated guidelines.

 

two solar workers inspecting solar panels


Why AS/NZS 5033 Matters for Solar Energy Installations

The Standards are not voluntary best practices. All solar energy manufacturers and installers must comply with AS/NZS 5033. Failing to meet requirements can lead to major project delays and grid access denial, and then serious legal penalties and fines.

In addition to legal compliance, the Standards are critical for creating a secure environment for solar work. The guidelines outline strict safety protocols for all aspects of PV installations. For example, how to use electrical isolation points and AC/DC circuit breakers. This prevents electrical fires and other major incidents, which protects everyone involved.

Adhering to AS/NZS 5033 also improves the overall quality of installations and consistency in getting work done. Better systems translate to better energy performance, which enhances the industry’s reputation. This then boosts customer satisfaction and trust; homeowners will be eager to work with companies that meet compliance and deliver high-quality, reliable PV systems.

And with growing concerns about how solar panel components will be recycled, the Standards help promote efficient performance and longevity. 



How AS/NZS 5033 Affects Australian Solar Installers 

AS/NZS 5033 must inform all the work completed before, during, and after a solar panel installation. It should dictate daily routines and be a guiding framework for safety protocols, installation techniques, and compliance measures.

Every stage of the process needs to align with the Standards. It’s the only way to ensure installations are completed safely and efficiently while meeting regulatory requirements.

In practical applications, the Standard empowers on-site workers to create an actionable installation roadmap and follow strict conventions about how each PV module is arranged and connected. It influences all aspects of an installation, from DC wiring and cable management to earthing and grounding, and the proper labelling of components.

When the systems are in place, the AS/NZS 5033 then outlines rigorous testing and inspection criteria. Installers must conduct exhaustive visual and functional checks to verify compliance and ensure the system works as intended. 

Solar panels on a traditional american house


How to Ensure Compliance with AS/NZS 5033

Ensuring compliance requires a proactive approach. Here are four practical tips for solar installers and companies to follow to meet AS/NZS 5033 requirements.


1. Read Standards

The 142-page document is a must-read and the definitive answer to “what is AS/NZS 5033”. Carefully review each section and pay special attention to technical specifications, safety protocols and compliance guidelines. Then create a reference guide outlining key points that all workers can access and follow.


2. Obtain certifications

Several industry-recognised certifications now include AS/NSZ 5033. Installers and technicians must be trained and certified in PV installation and know the importance of the Standards.


3. Use compliant equipment

Installers must verify that all equipment and materials used for a PV installation meet the AS/NZS 5033 Standard for safety and performance. If in doubt, switch to a supplier that provides compliant and certified components. 


4. Conduct compliance verification

All installations need to be tested and verified to ensure compliance. Inspectors must conduct resistance tests and continuity checks. These checks must be documented before final approval. 



Future Trends in Solar Energy Standards

The solar industry is always evolving; energy Standards will need to be revised accordingly, as we saw with the changes in 2021.

New trends will shape these Standards. In the solar industry, technologies such as bifacial solar panels which capture sunlight on both sides are becoming more popular and may influence future updates.

The Clean Energy Council (CEC) has confirmed that there will be a 14-month notice period for any future amendments to AS/NZS 5033.

Installers in Australia and New Zealand must also be aware of other relevant Standards in the renewable energy sector, such as NZS 4777 (grid connections) and AS/NZS 300 (wiring rules).



Conclusion: The Role of AS/NZS 5033 in Solar Energy Growth

Everyone involved in solar energy—contractors, engineers, suppliers, inspectors, and technicians—must ensure their designs and work meet AS/NZS 5033.

The Standards are the foundation for all solar installations, with the protocols and regulations vital for supporting the wider adoption of renewable energy in Australia and New Zealand. This is critical amid growing concerns about climate change.

To do their part and remain compliant, installers must fully understand the current Standards and stay up-to-date with future amendments and revisions to ensure the safety, compliance and efficiency of all PV systems.

Ready to transform your Standards Management?