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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 |
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
Application field:
TFT-lcd (Color thin Film Transistor liquid Crystal display) is mainly used in computer, video terminal, communication and instrument industry. Major applications include notebook computers, desktop computer monitors, workstations, industrial monitors, GPS (gps), personal data processing, game consoles, video phones, portable vcd,dvd and other portable devices.
Packaging & Shipping:
Packing details:(Packing method will depends on the quantity and shipment way.)
*********************************************************************************************************************
Understanding the Distinctions between LCD, TFT, and OLED
In the world of display technologies, LCD, TFT, and OLED are three commonly used terms. While they may sound similar, each technology has its own unique characteristics and features. This article aims to shed light on the specific differences between LCD, TFT, and OLED, providing a comprehensive understanding of these display technologies.
Liquid Crystal Display (LCD)
LCD technology has been widely used in various electronic devices, including televisions, computer monitors, and smartphones. LCD panels consist of liquid crystals sandwiched between two glass plates, with a backlight source positioned behind them. The liquid crystals act as light valves, controlling the passage of light through the panel.
One of the key advantages of LCD technology is its ability to produce high-quality images with excellent color reproduction. LCD displays also offer wide viewing angles, making them suitable for applications where multiple viewers need to see the screen simultaneously. However, LCDs have some limitations, such as relatively slower response times and higher power consumption compared to other display technologies.
Thin-Film Transistor (TFT)
TFT technology is an improved version of LCD, incorporating thin-film transistors as active elements within each pixel. These transistors regulate the amount of current flowing through the liquid crystals, allowing for faster response times and better control over image quality. The addition of TFTs also enables sharper images and higher resolutions.
TFT displays are commonly found in modern smartphones, tablets, and portable gaming devices. They offer enhanced color accuracy, improved contrast ratios, and reduced power consumption compared to traditional LCDs. The integration of TFT technology has significantly improved the overall performance and visual experience of LCD-based displays.
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 |
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
Application field:
TFT-lcd (Color thin Film Transistor liquid Crystal display) is mainly used in computer, video terminal, communication and instrument industry. Major applications include notebook computers, desktop computer monitors, workstations, industrial monitors, GPS (gps), personal data processing, game consoles, video phones, portable vcd,dvd and other portable devices.
Packaging & Shipping:
Packing details:(Packing method will depends on the quantity and shipment way.)
*********************************************************************************************************************
Understanding the Distinctions between LCD, TFT, and OLED
In the world of display technologies, LCD, TFT, and OLED are three commonly used terms. While they may sound similar, each technology has its own unique characteristics and features. This article aims to shed light on the specific differences between LCD, TFT, and OLED, providing a comprehensive understanding of these display technologies.
Liquid Crystal Display (LCD)
LCD technology has been widely used in various electronic devices, including televisions, computer monitors, and smartphones. LCD panels consist of liquid crystals sandwiched between two glass plates, with a backlight source positioned behind them. The liquid crystals act as light valves, controlling the passage of light through the panel.
One of the key advantages of LCD technology is its ability to produce high-quality images with excellent color reproduction. LCD displays also offer wide viewing angles, making them suitable for applications where multiple viewers need to see the screen simultaneously. However, LCDs have some limitations, such as relatively slower response times and higher power consumption compared to other display technologies.
Thin-Film Transistor (TFT)
TFT technology is an improved version of LCD, incorporating thin-film transistors as active elements within each pixel. These transistors regulate the amount of current flowing through the liquid crystals, allowing for faster response times and better control over image quality. The addition of TFTs also enables sharper images and higher resolutions.
TFT displays are commonly found in modern smartphones, tablets, and portable gaming devices. They offer enhanced color accuracy, improved contrast ratios, and reduced power consumption compared to traditional LCDs. The integration of TFT technology has significantly improved the overall performance and visual experience of LCD-based displays.
