The primary duty of the power supply in a computer is to convert the alternating current to a direct current. This transformation is a necessity for all the connected elements to operate. Other than that, the power supply provides adequate voltages or power to the elements so they can function, overclock, and perform according to the expectations. There are many types of supply units, but we will look at what is better platinum or titanium power supply. Moreover, we will also look at all other types of power supplies and their power ratings.
No doubt, expensive power units have high-quality components, a stronger build, and nicer-sleeved modular cables. However, you must focus on buying the best value power supply that is perfect for your needs–don’t make expensive purchases if it’s not necessary. The 80 plus power supply ratings help us understand different types of power supplies. In this post, we will discuss all the essential information to make you understand this system, Platinum, Titanium, and other types of power supplies. Let’s explore together!
What do the power supply ratings mean?
To fully understand the difference between Platinum and titanium power supplies, you first have to go through the 80 Plus power rating system. But what is the 80-plus power rating system? If I simplify the topic, the 80 Plus system rates and differentiates different power supplies or PSUs depending on their efficiency and reliability. In this way, we can easily understand the versatility of a particular power supply and decide whether it’s good for us or not. For your information, the 80 Plus system looks like this:
|Certifications||10% load||20% load||50% load||100% load|
|80 Plus Bronze||–||82%||85% PFC ≥ 0.90||82%|
|80 Plus Silver||–||85%||88% PFC ≥ 0.90||85%|
|80 Plus Gold||–||87%||90% PFC ≥ 0.90||87%|
|80 Plus Platinum||–||90%||92% PFC ≥ 0.95||89%|
|80 Plus Titanium||90%||92% PFC ≥ 0.95||94%||90%|
So if I further elaborate on the 80 Plus system for Platinum and Titanium, it would be like this:
- 80 Plus Platinum: 90% efficient at 20% load, 92% effective at 50% load with 0.95 power factor, and 89% capable at 100% load.
- 80 Plus Titanium: 90% efficient at 10% load, 92% effective at 20% load with 0.95 power factor, 94% capable at 50% load, and 90% efficient at 100% load.
If we unfold some history pages, this system was introduced in 2004 with only the Gold, Silver, and Bronze categories. But today, the Platinum and Titanium categories are also introduced due to advancements by several brands. In addition, there are some considerations as well while discussing this system. The overall efficiency results may vary with the voltages, but in our case, it was 115V while calculating the efficiencies. Therefore, you must consider all these factors, facts, and specifications when purchasing a power supply.
What is efficiency rating, and why does it matter?
There will be some variation in the efficiency of each PSU. So, we need to understand that the higher the efficiency rating of a power supply, the less heat it generates, which reduces thermals in your case and makes it operate better. Lesser units will also consume more power since they do not process it as effectively as a higher-rated PSU. For a higher-rated PSU, you may save money in the long run by paying less for a lower-rated unit that uses more power. The efficiency of 80 PLUS Titanium PSU will be around 90%.
I was wondering if it would be more useful and worthwhile to acquire a titanium power supply beyond a platinum power supply for a higher-ended system, such as one with a 3090 and an R9 5950x. No. Increased efficiency does not guarantee improved quality. Titanium is approximately 2% more efficient than Platinum. There isn’t much of a difference, and it won’t affect your electricity cost significantly. The greater the metal, the better and more efficient the power supply, with “Titanium” now being the greatest and most costly choice.
What is better Platinum or Titanium power supply?
Well, this article is all about what power supply is best, Platinum or Titanium. Despite Platinum being a significantly rarer and more costly metal; still, the Titanium power supply is rated higher the Platinum. But why? Well, this is because they began with Bronze, progressed to silver, and then to Gold. After a while, they added Platinum and ran out of precious metals that the “Otto-Normalo” things are valuable. This happens regardless of the physical properties of the metal used (Bronze, Silver, Gold, Platinum, Titanium).
Platinum is the most technologically advanced type of Gold, and Titanium is considered the most robust metal in the world. Overall, if you’re a typical consumer trying to create a personal gaming system, you shouldn’t need an 80+ Titanium power supply. If you’re operating servers or crypto mining equipment, though, saving money on your energy bill makes more sense because these systems tend to draw a tremendous amount of power for lengthy periods.
What power supply ratings should you check?
When selecting a power supply, it can be daunting at first when you think about what power supply rating you should check. There are six ratings to look for in a power supply: 1 80 Plus, 2 Bronze, 3 Silver, 4 Gold, 5 Platinum, and 6 Titanium. It is always advisable to get a PSU with a larger wattage than is required so that it does not function at or near 100% all the time. The EVGA Supernova 1600 P2 is a fantastic Platinum-certified power supply. This power supply can provide 1600W at 92-94 percent efficiency and has a single +12V rail.
Power supply efficiency is essential for a variety of reasons. But what power supply to choose: Platinum or Titanium? Well, I voted for Titanium since it gives you better power efficiency, so it has several advantages over the Platinum power supply. Since it’s significantly better, you will get better performance, plus keep your PC safe and sound. Moreover, it will save electricity, so the money on your power bill in the long term if you choose a more efficient unit. Therefore, don’t try to save a lot of money, go for a Titanium power supply for overall better results.