The answer is simple: Nintendo Switch was using the LCD screen instead of the OLED because it would cost more money. That means the new gamers will have to spend more money to buy the new Nintendo Switch OLED Device.
The Nintendo Switch uses an LCD Screen which is similar to that of most other TVs today. One difference though is that this screen does not show any image when turned off, unlike most others including its predecessor, the Wii U gamepad. The reason for this design choice may be because it would require more battery power than what’s available in order to keep displaying an image when powered down making the Switch not as efficient as possible.
Nintendo has always been known to create consoles with more affordable technology than its competitors making them more accessible to gamers all around the world so no matter what technologies they use, their success is guaranteed by having an extremely solid foundation: great games that sell themselves.
Previously Nintendo announced that it won’t use an OLED screen because of its price which makes their product less expensive. Additionally OLED screens have a shorter life span, don’t work as well under direct sunlight, and are much more fragile than LCD screens so this decision to avoid using them was probably made taking all these factors into account. But eventually in October 2021; they just released the OLED version.
According to Eurogamer; Another reason why the Nintendo Switch doesn’t use an OLED screen is that it can cause motion sickness and players might get nauseous while playing games especially if they’re not used to it.
10 Advantages of Having LCD Screen in Nintendo Switch
1. LCD screens are lighter in weight than OLED screens.
2. A typical LCD screen can last for up to 50,000 hours of use before it burns out; an OLED screen typically lasts only 5,000 hours.
3. An LCD display is cheaper to produce than an OLED display.
4. An LCD Display has a better viewing angle compared to the viewing angle of an OLED Screen.
5. The battery life on a Nintendo Switch with a regular LCD Screen will be longer than the battery life on a Nintendo Switch with an OLED screen because it consumes less power.
6. Most people prefer playing games using their TV rather than using their handheld device so having the larger size and better resolution that comes along with a standard TV makes it more enjoyable for gamers who want to play at home or outdoors while relaxing in their backyard or watching fireworks from afar.
7. The Nintendo Switch’s LCD Screen will show better color representation than the OLED screen because it uses wider viewing angle technology.
8. For the price point, having a standard LCD display is cheaper for Nintendo to produce which can translate into lower costs for consumers when they purchase their own units.
9. Using an OLED screen would make the dock that much more expensive and since people do not always use the Nintendo Switch on its TV mode, using a regular LCD Display makes sense.
10. If Nintendo were to use an OLED screen then there would be some issues with keeping up high standards of quality while shipping out both the Regular model and the premium bundle which often come in different box sizes based on their bundled contents (console, joycons, cables).
11. The battery life of the Nintendo Switch is longer on an LCD screen.
12. It’s easier to see what’s happening in a dark room with an LCD screen.
13. You can play games for longer on your Nintendo Switch because it doesn’t tire your eyes as quickly as playing on an OLED screen does.
The Nintendo Switch has been the talk of the town for a while now. Recently, there’s been a discussion about whether or not the screen should be LCD instead of OLED and we want to share our thoughts on this topic with you! First things first, let’s take a look at what an LCD and OLED panel is capable of doing differently. A liquid crystal display (LCD) uses light from backlight lamps as its main source whereas an organic LED (OLED) generates its own light by applying electricity to organic materials such as plastic films that emit red, green, and blue lights in response.