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PART NUMBER | SMMC13264-AI-00-SYA |
DISPLAY FORMAT | 132*64DOTS |
SUPPLY VOLTAGE FOR LOGIC | 3.0V |
DISPLAY TYPE | STN-Y/G, POSITIVE ,REFLECTIVE |
VIEWING DIRECTION | 6.00 O’ CLOCK |
LCD DRIVING METHOD | 1/65 DUTY, 1/9 BIAS, 9.2V (J6392)the last sample:2017-5-23 |
CONNECTION | COG+FPC |
LCD DRIVER IC | ST7565R |
INSPECTION STANDARD OF LCD | A STANDARD |
INSPECTION STANDARD OF RoHS | RoHS COMPLIANCE |
Item | Symbol | MIN | Max | Unit |
SupplyVoltage | VDD | -0.3 | 3.6 | V |
VOUT | -0.3 | 13.5 | V | |
Operating temperature | Topr | -20 | 70 | ℃ |
Storage temperature | Tstr | -30 | 80 | ℃ |
Application:
BIGBOOK Factory:
Why choose Us:
Payment Method:
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
TFT LCD Screen Works:
Currently the most common use of twisted nematic TFT liquid crystal display (Twisted Nematic TFT LCD), the following diagram explains the working principle of this TFT monitor. Existing technologies vary widely, we will detail in other articles.
In upper and lower grooves on both layers, of which the upper Groove is vertical, while the lower level is arranged in horizontal. While the lower level is arranged in horizontal. When the applied voltage liquid crystal in a natural state, from the glowing Figure 2a twisted nematic TFT monitors schematic diagrams layer spread over the light through sandwich after, 90-degree twist can occur, which can lower a smooth flow.
After a voltage between the two layers, it generates an electric field LCD are arranged vertically, so the light would not reverse-the result is that the light cannot be passed down.
TFT (Thin-Film Transistor) color displays have become an integral part of our daily lives, from smartphones and tablets to televisions and computer monitors. These displays offer vibrant colors, sharp images, and wide viewing angles, providing an immersive visual experience. However, the development of TFT color displays is not without its challenges. In this article, we will explore some of the technical problems that need to be overcome for further advancements in this technology.
PART NUMBER | SMMC13264-AI-00-SYA |
DISPLAY FORMAT | 132*64DOTS |
SUPPLY VOLTAGE FOR LOGIC | 3.0V |
DISPLAY TYPE | STN-Y/G, POSITIVE ,REFLECTIVE |
VIEWING DIRECTION | 6.00 O’ CLOCK |
LCD DRIVING METHOD | 1/65 DUTY, 1/9 BIAS, 9.2V (J6392)the last sample:2017-5-23 |
CONNECTION | COG+FPC |
LCD DRIVER IC | ST7565R |
INSPECTION STANDARD OF LCD | A STANDARD |
INSPECTION STANDARD OF RoHS | RoHS COMPLIANCE |
Item | Symbol | MIN | Max | Unit |
SupplyVoltage | VDD | -0.3 | 3.6 | V |
VOUT | -0.3 | 13.5 | V | |
Operating temperature | Topr | -20 | 70 | ℃ |
Storage temperature | Tstr | -30 | 80 | ℃ |
Application:
BIGBOOK Factory:
Why choose Us:
Payment Method:
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
TFT LCD Screen Works:
Currently the most common use of twisted nematic TFT liquid crystal display (Twisted Nematic TFT LCD), the following diagram explains the working principle of this TFT monitor. Existing technologies vary widely, we will detail in other articles.
In upper and lower grooves on both layers, of which the upper Groove is vertical, while the lower level is arranged in horizontal. While the lower level is arranged in horizontal. When the applied voltage liquid crystal in a natural state, from the glowing Figure 2a twisted nematic TFT monitors schematic diagrams layer spread over the light through sandwich after, 90-degree twist can occur, which can lower a smooth flow.
After a voltage between the two layers, it generates an electric field LCD are arranged vertically, so the light would not reverse-the result is that the light cannot be passed down.
TFT (Thin-Film Transistor) color displays have become an integral part of our daily lives, from smartphones and tablets to televisions and computer monitors. These displays offer vibrant colors, sharp images, and wide viewing angles, providing an immersive visual experience. However, the development of TFT color displays is not without its challenges. In this article, we will explore some of the technical problems that need to be overcome for further advancements in this technology.
