
Selecting a solar panel brand is one of the most consequential decisions in any solar investment. Panels carry performance warranties of 25 to 30 years — meaning the quality of what goes on your roof today will determine your system’s energy output, reliability, and financial returns well into the 2050s.
With dozens of brands available in Malaysia and hundreds more marketed online, it is easy to feel overwhelmed — and even easier to make a decision based on price alone. This guide explains what professional solar engineers actually evaluate when specifying panels for a project, so you can have a more informed conversation with your installer before committing.
Key Takeaways
The term “Tier 1” is widely used in solar marketing, but it is frequently misunderstood — and sometimes misused.
Tier 1 does not mean the highest quality panel. It is a bankability classification published quarterly by Bloomberg New Energy Finance (BNEF), indicating that a major commercial bank has financed a solar project using panels from that manufacturer. The classification signals that the company has sufficient financial scale and operational credibility that lenders are willing to back projects using their products.
For Malaysian property owners, this matters for one specific reason: warranty longevity. A 25 or 30-year performance warranty from a manufacturer that exits the market in five years is effectively worthless. Tier 1 status provides reasonable confidence that the warranty will still be honoured decades from now.
What Tier 1 status does not tell you is how two panels from different Tier 1 manufacturers will compare in real-world Malaysian conditions. That requires a closer look at the technical specifications.
Every solar panel is tested and rated under Standard Test Conditions (STC) — a laboratory setting at 25°C. In Malaysia, however, roof surface temperatures on a sunny afternoon routinely reach 60 to 70°C.
Every degree above 25°C causes a measurable drop in panel output. The rate of that drop is called the temperature coefficient, expressed as a percentage loss per degree Celsius. A panel rated at -0.26%/°C loses significantly less output under Malaysia’s heat than one rated at -0.35%/°C — and over a 25 to 30-year system life, that difference in real-world energy yield is substantial.
Temperature coefficient is one of the most important specifications for tropical climates, yet it is frequently absent from simplified product comparisons and sales brochures. When reviewing any solar proposal, it should always be evaluated alongside efficiency and price.
As a general benchmark, panels with a temperature coefficient of -0.30%/°C or better are considered well-suited to Malaysia’s climate.
Solar panels are broadly categorised by the semiconductor technology used in their cells. The two main types currently available in the Malaysian market are N-type and P-type — and the difference matters more in tropical climates than in cooler ones.
P-type panels — most commonly using PERC (Passivated Emitter and Rear Cell) technology — have been the industry standard for much of the past decade. They remain cost-effective and are widely deployed in Malaysian commercial and industrial installations.
However, P-type panels are more susceptible to two forms of performance degradation:
N-type panels use a different semiconductor configuration that makes them inherently more resistant to both LID and PID. They also tend to carry a lower temperature coefficient, meaning better performance retention under heat.
In 2026, N-type panels — including those using TOPCon (Tunnel Oxide Passivated Contact) and HPBC (Hybrid Passivated Back Contact) cell structures — have become the technically recommended choice for most new residential and commercial installations in Malaysia where budget allows.
For larger commercial systems where per-watt cost is a primary driver, P-type PERC panels remain a viable option — provided the efficiency and degradation trade-offs are factored into the long-term yield calculation.
When reviewing a solar system proposal, these are the technical specifications worth understanding and asking your installer about:
The proportion of incident sunlight that the panel converts to electricity. Higher efficiency means more power generated from the same roof area — particularly important for space-constrained rooftops.
As covered above, this determines how much output the panel loses per degree above 25°C. In Malaysia’s climate, aim for -0.30%/°C or better.
The manufacturer’s guarantee that the panel will maintain a defined minimum output over time. 25 to 30 years is standard for established Tier 1 manufacturers. Critically, check the guaranteed output at year 25 — reputable brands typically guarantee 80 to 87% of original rated output at that point.
This covers manufacturing defects — separate from performance degradation. 12 to 15 years is typical for premium panels. A longer product warranty provides greater protection in the event of component failure in the system’s early years.
The percentage by which a panel’s output declines each year. Lower is better. Premium panels typically degrade at 0.4% to 0.55% per year — and this figure has a compounding effect across a 25 to 30-year system life.
Warranty documents are only meaningful if the company issuing them will still exist when you need to make a claim. Tier 1 classification is one indicator, but the manufacturer’s parent company backing, global shipment volumes, and length of market presence are all worth considering.
A common misconception is that solar buyers select a preferred solar panel brand the way they might choose a home appliance. In practice, panel specification for a professionally engineered solar system is a technical decision — not a consumer preference.
A qualified solar installer will determine the appropriate panel brand and model based on a combination of site-specific and project-level factors, including:
The installer’s role is to evaluate all of these variables together and specify the combination of components that delivers the best long-term performance and value for the specific installation — not to offer a menu of brand options.
Even if you are not selecting the solar panel brand yourself, understanding the reasoning behind what has been specified is a legitimate and worthwhile question to ask. A reputable solar installer should be able to explain:
If an installer cannot or will not answer these questions clearly, that itself is useful information.
Understanding how solar panels are technically evaluated — beyond brand names and marketing claims — puts you in a much stronger position when assessing proposals and asking the right questions.
Ray Go Solar’s ISPQ-certified engineers design each system around your property’s specific requirements, specifying panels from established Tier 1 manufacturers suited to Malaysia’s tropical climate and your project’s performance targets.