Oxide Thin Film Transistor (TFT) is one of the display TFT technologies. Depending on the semiconductor material and its properties, TFTs are classified into amorphous silicon (a-Si), LTPS, and oxide. In the case of oxide TFTs, during the process involving indium, gallium, and zinc, a semiconductor oxide called In-Ga-Zn-O is formed. Since this material is an oxide, the technology is referred to as Oxide TFT. Like a-Si, oxide TFTs are also amorphous in form. However, compared with a-Si TFTs, electron mobility is more than 10 times higher, making them advantageous for implementing high-resolution displays. The higher the mobility, the easier it is to integrate TFT circuits, which allows for thinner bezels. Because a significant portion of the existing amorphous silicon process equipment can be utilized as is, production costs can be reduced. In addition, oxide TFTs offer excellent screen uniformity, making them well suited for large displays.
Oxide Thin Film Transistor (TFT) is one of the display TFT technologies. Depending on the semiconductor material and its properties, TFTs are classified into amorphous silicon (a-Si), LTPS, and oxide. In the case of oxide TFTs, during the process involving indium, gallium, and zinc, a semiconductor oxide called In-Ga-Zn-O is formed. Since this material is an oxide, the technology is referred to as Oxide TFT. Like a-Si, oxide TFTs are also amorphous in form. However, compared with a-Si TFTs, electron mobility is more than 10 times higher, making them advantageous for implementing high-resolution displays. The higher the mobility, the easier it is to integrate TFT circuits, which allows for thinner bezels. Because a significant portion of the existing amorphous silicon process equipment can be utilized as is, production costs can be reduced. In addition, oxide TFTs offer excellent screen uniformity, making them well suited for large displays.
Oxide Thin Film Transistor (TFT) is one of the display TFT technologies. Depending on the semiconductor material and its properties, TFTs are classified into amorphous silicon (a-Si), LTPS, and oxide. In the case of oxide TFTs, during the process involving indium, gallium, and zinc, a semiconductor oxide called In-Ga-Zn-O is formed. Since this material is an oxide, the technology is referred to as Oxide TFT. Like a-Si, oxide TFTs are also amorphous in form. However, compared with a-Si TFTs, electron mobility is more than 10 times higher, making them advantageous for implementing high-resolution displays. The higher the mobility, the easier it is to integrate TFT circuits, which allows for thinner bezels. Because a significant portion of the existing amorphous silicon process equipment can be utilized as is, production costs can be reduced. In addition, oxide TFTs offer excellent screen uniformity, making them well suited for large displays.
Oxide Thin Film Transistor (TFT) is one of the display TFT technologies. Depending on the semiconductor material and its properties, TFTs are classified into amorphous silicon (a-Si), LTPS, and oxide. In the case of oxide TFTs, during the process involving indium, gallium, and zinc, a semiconductor oxide called In-Ga-Zn-O is formed. Since this material is an oxide, the technology is referred to as Oxide TFT. Like a-Si, oxide TFTs are also amorphous in form. However, compared with a-Si TFTs, electron mobility is more than 10 times higher, making them advantageous for implementing high-resolution displays. The higher the mobility, the easier it is to integrate TFT circuits, which allows for thinner bezels. Because a significant portion of the existing amorphous silicon process equipment can be utilized as is, production costs can be reduced. In addition, oxide TFTs offer excellent screen uniformity, making them well suited for large displays.