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Display Format | 132*64DOTS |
Power Supply | 3.0V |
Display Type | FSTN, POSITIVE ,TRANSFLECTIVE |
Viewing Direction | 6.00 O’clock |
LCD Driving Method | 1/65 Duty, 1/9 Bias, 9.2V |
Driver IC | ST7565R |
Input Data | Parallel 6800 Series MPU Interface / Parallel 8080 Series MPU Interface / Serial 4-Line SPI Interface |
Module Size(W*H*T) | 73.4*37.8/44.8 *2.85(MAX)mm |
Viewing Area (W*H) | 67.50*34.40mm |
Active Area (W*H) | 58.04*30.68mm |
Dot Size (W*H) | 0.40*0.44 mm |
Dot Pitch (W*H) | 0.44*0.48 mm |
Item | Symbol | MIN | Max | Unit |
SupplyVoltage | VDD | -0.3 | 3.6 | V |
VLCD | -0.3 | 13.5 | V | |
Operating temperature | Topr | -20 | 70 | ℃ |
Storage temperature | Tstr | -30 | 80 | ℃ |
132*64DOT FSTN, POSITIVE ,TRANSFLECTIVE
Application:
BIGBOOK Factory:
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Exploring the Evolution of Flexible Display Technology
Future Applications:
The development trend of flexible display technology is expected to continue its upward trajectory, with numerous potential applications on the horizon. One area that holds great promise is the automotive industry. Flexible displays can be integrated into car dashboards, offering enhanced functionality and aesthetics. This technology can enable curved or even wrap-around displays, providing drivers with vital information in a more intuitive and visually appealing manner.
Another exciting application is in the field of healthcare. Flexible displays can be utilized in medical devices, such as smart bandages or wearable health monitors. These displays can provide real-time data and feedback, allowing healthcare professionals to monitor patients more effectively and improve overall patient care.
Moreover, the gaming industry stands to benefit from the advancements in flexible display technology. Curved or foldable displays can enhance the gaming experience, providing gamers with a more immersive and dynamic gameplay environment.
Conclusion:
LCD screens have come a long way in meeting the visual display needs of intelligent robots. From basic monochrome displays to high-resolution color screens, LCD technology has evolved significantly. In the future, LCD screens for intelligent robots will need to be flexible, offer high dynamic range imaging, integrate augmented reality capabilities, and be energy-efficient. By meeting these requirements, LCD screens will continue to play a crucial role in enabling intelligent robots to perceive and interact with their surroundings effectively.
Display Format | 132*64DOTS |
Power Supply | 3.0V |
Display Type | FSTN, POSITIVE ,TRANSFLECTIVE |
Viewing Direction | 6.00 O’clock |
LCD Driving Method | 1/65 Duty, 1/9 Bias, 9.2V |
Driver IC | ST7565R |
Input Data | Parallel 6800 Series MPU Interface / Parallel 8080 Series MPU Interface / Serial 4-Line SPI Interface |
Module Size(W*H*T) | 73.4*37.8/44.8 *2.85(MAX)mm |
Viewing Area (W*H) | 67.50*34.40mm |
Active Area (W*H) | 58.04*30.68mm |
Dot Size (W*H) | 0.40*0.44 mm |
Dot Pitch (W*H) | 0.44*0.48 mm |
Item | Symbol | MIN | Max | Unit |
SupplyVoltage | VDD | -0.3 | 3.6 | V |
VLCD | -0.3 | 13.5 | V | |
Operating temperature | Topr | -20 | 70 | ℃ |
Storage temperature | Tstr | -30 | 80 | ℃ |
132*64DOT FSTN, POSITIVE ,TRANSFLECTIVE
Application:
BIGBOOK Factory:
**********************************************************************************************************************
Exploring the Evolution of Flexible Display Technology
Future Applications:
The development trend of flexible display technology is expected to continue its upward trajectory, with numerous potential applications on the horizon. One area that holds great promise is the automotive industry. Flexible displays can be integrated into car dashboards, offering enhanced functionality and aesthetics. This technology can enable curved or even wrap-around displays, providing drivers with vital information in a more intuitive and visually appealing manner.
Another exciting application is in the field of healthcare. Flexible displays can be utilized in medical devices, such as smart bandages or wearable health monitors. These displays can provide real-time data and feedback, allowing healthcare professionals to monitor patients more effectively and improve overall patient care.
Moreover, the gaming industry stands to benefit from the advancements in flexible display technology. Curved or foldable displays can enhance the gaming experience, providing gamers with a more immersive and dynamic gameplay environment.
Conclusion:
LCD screens have come a long way in meeting the visual display needs of intelligent robots. From basic monochrome displays to high-resolution color screens, LCD technology has evolved significantly. In the future, LCD screens for intelligent robots will need to be flexible, offer high dynamic range imaging, integrate augmented reality capabilities, and be energy-efficient. By meeting these requirements, LCD screens will continue to play a crucial role in enabling intelligent robots to perceive and interact with their surroundings effectively.
