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1.2 Features
Item | Standard Value |
Size | 2.4 |
Display Format | 240(RGB) *320 |
LCD Type | TFT , Transflective , Positive |
Viewing Direction(Gray Inversion) | 12 O’clock |
polaroid | Up: 0.17mm,Down,:0.17mm |
Backlight | White LED |
Interface | RGB/MCU |
Driver IC | Driver IC : ILI9341V |
2.2 Mechanical Specifications
Item | Standard Value | Unit |
Outline Dimension | 42.72 (W) * 59.26 (L) * 2.5 (H)+-0.05 | mm |
Active Area | 36.72 (W) * 48.96 (L) | mm |
Dot Size | 0.153 (W) * 0.153 (L) | mm |
2.4'' TFT LCD Display
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Enhancing User Experience and Functionality in Smart Wearables
In recent years, the rapid advancement of technology has led to the emergence of smart wearables, revolutionizing the way we interact with our devices. One of the key components driving this innovation is the OLED (Organic Light-Emitting Diode) screen. OLED technology has transformed the smart wear industry, enhancing user experience and functionality. This article explores the various applications of OLED screens in smart wearables and the benefits they offer.
1.
Display Quality: OLED screens are known for their exceptional display quality, making them an ideal choice for smart wearables. With vibrant colors, high contrast ratios, and wide viewing angles, OLED screens provide a visually stunning experience. Whether it's a smartwatch, fitness tracker, or augmented reality glasses, OLED screens ensure that users can easily read texts, view images, and navigate through various applications with clarity and precision.
2.
Energy Efficiency: Smart wearables need to be energy-efficient to ensure longer battery life. OLED screens excel in this aspect, as they only consume power when individual pixels are lit. Unlike traditional LCD screens that require a backlight, OLED screens emit their own light, resulting in reduced energy consumption. This allows smart wearables to operate for extended periods without frequent recharging, providing convenience and uninterrupted usage to the users.
3.
Flexibility and Durability: OLED screens are not only visually appealing but also offer flexibility and durability. This flexibility enables manufacturers to create curved or flexible displays, allowing for more ergonomic and comfortable designs. Additionally, OLED screens are thinner and lighter than LCD screens, making them ideal for smart wearables where weight and size are crucial factors. Moreover, OLED screens are resistant to shock and vibrations, ensuring their longevity even in demanding environments.
1.2 Features
Item | Standard Value |
Size | 2.4 |
Display Format | 240(RGB) *320 |
LCD Type | TFT , Transflective , Positive |
Viewing Direction(Gray Inversion) | 12 O’clock |
polaroid | Up: 0.17mm,Down,:0.17mm |
Backlight | White LED |
Interface | RGB/MCU |
Driver IC | Driver IC : ILI9341V |
2.2 Mechanical Specifications
Item | Standard Value | Unit |
Outline Dimension | 42.72 (W) * 59.26 (L) * 2.5 (H)+-0.05 | mm |
Active Area | 36.72 (W) * 48.96 (L) | mm |
Dot Size | 0.153 (W) * 0.153 (L) | mm |
2.4'' TFT LCD Display
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Enhancing User Experience and Functionality in Smart Wearables
In recent years, the rapid advancement of technology has led to the emergence of smart wearables, revolutionizing the way we interact with our devices. One of the key components driving this innovation is the OLED (Organic Light-Emitting Diode) screen. OLED technology has transformed the smart wear industry, enhancing user experience and functionality. This article explores the various applications of OLED screens in smart wearables and the benefits they offer.
1.
Display Quality: OLED screens are known for their exceptional display quality, making them an ideal choice for smart wearables. With vibrant colors, high contrast ratios, and wide viewing angles, OLED screens provide a visually stunning experience. Whether it's a smartwatch, fitness tracker, or augmented reality glasses, OLED screens ensure that users can easily read texts, view images, and navigate through various applications with clarity and precision.
2.
Energy Efficiency: Smart wearables need to be energy-efficient to ensure longer battery life. OLED screens excel in this aspect, as they only consume power when individual pixels are lit. Unlike traditional LCD screens that require a backlight, OLED screens emit their own light, resulting in reduced energy consumption. This allows smart wearables to operate for extended periods without frequent recharging, providing convenience and uninterrupted usage to the users.
3.
Flexibility and Durability: OLED screens are not only visually appealing but also offer flexibility and durability. This flexibility enables manufacturers to create curved or flexible displays, allowing for more ergonomic and comfortable designs. Additionally, OLED screens are thinner and lighter than LCD screens, making them ideal for smart wearables where weight and size are crucial factors. Moreover, OLED screens are resistant to shock and vibrations, ensuring their longevity even in demanding environments.
