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This is a 128X64 DOTS MATRIX LCD module, which is fabricated by low power COMS technology. It has an STN panel composed of 128 segments and 64 commons. The LCM can be easily accessed by microcontroller serial.
Display Mode | Transflective |
STN,GREEN,Negative,transmissive | |
Display Format | 128X64 DOTS MATRIX |
Input Data | parallel |
Multiplexing Ration | 1/65Duty , 1/9Bias |
Driver | ST7565R |
Interface Type | Parallel interface,8080 series |
BACKLIGHT | White LED |
Item | Specifications | Unit |
Module Size(W*H*T) | 93.7X53.0X5.50 | mm |
Viewing Area (W*H) | 70.7X38.8 | mm |
Dot Pitch (W*H) | 0.52X0.52 | mm |
Dot Size (W*H) | 0.48X0.48 | mm |
Active Area (W*H) | 66.52X33.24 | mm |
Number of Dots | 128X64 | --- |
Application:
VA LCD PANEL Application:Automotive ,Medical。
TN LCD PANEL Application:Automotive ,Medical,Thermometer。
STN LCD PANEL Application:Electric Meter ,Elevator,Home appliance
Consumer Electronics,Watch。
*****************************************************************************************************************
Application of OLED in Smart wearable device:
Introduction:
Smart wearable devices have become increasingly popular in recent years. They offer a range of features that can help users monitor their health, track their fitness goals, and stay connected with the world around them. One of the key components of smart wearable devices is the display, which is responsible for presenting information to the user in a clear and concise manner. In recent years, OLED displays have emerged as a popular choice for smart wearable devices due to their high stability, low power consumption, and high resolution.
High Stability:
One of the key advantages of OLED displays is their high stability. Unlike traditional LCD displays, which rely on a backlight to illuminate the screen, OLED displays emit light directly from each pixel. This means that the display is less susceptible to damage from impact or vibration, making it an ideal choice for use in smart wearable devices that are designed to be worn on the wrist or other parts of the body.
Low Power Consumption:
Another advantage of OLED displays is their low power consumption. Since each pixel emits its own light, OLED displays do not require a separate backlight, which can consume a significant amount of power. This means that smart wearable devices with OLED displays can offer longer battery life, which is a key consideration for users who need to wear their devices for extended periods of time.
High Resolution:
Finally, OLED displays offer high resolution, which is essential for displaying detailed information on a small screen. Since each pixel emits its own light, OLED displays can produce brighter and more vivid images than traditional LCD displays. This makes them ideal for displaying text, graphics, and even video on smart wearable devices.
Conclusion:
In conclusion, OLED displays have become an increasingly popular choice for smart wearable devices due to their high stability, low power consumption, and high resolution. As the market for smart wearable devices continues to grow, it is likely that we will see even more advanced OLED displays that offer even greater performance and functionality. If you are in the market for a smart wearable device, be sure to look for one with an OLED display to take advantage of these benefits.
This is a 128X64 DOTS MATRIX LCD module, which is fabricated by low power COMS technology. It has an STN panel composed of 128 segments and 64 commons. The LCM can be easily accessed by microcontroller serial.
Display Mode | Transflective |
STN,GREEN,Negative,transmissive | |
Display Format | 128X64 DOTS MATRIX |
Input Data | parallel |
Multiplexing Ration | 1/65Duty , 1/9Bias |
Driver | ST7565R |
Interface Type | Parallel interface,8080 series |
BACKLIGHT | White LED |
Item | Specifications | Unit |
Module Size(W*H*T) | 93.7X53.0X5.50 | mm |
Viewing Area (W*H) | 70.7X38.8 | mm |
Dot Pitch (W*H) | 0.52X0.52 | mm |
Dot Size (W*H) | 0.48X0.48 | mm |
Active Area (W*H) | 66.52X33.24 | mm |
Number of Dots | 128X64 | --- |
Application:
VA LCD PANEL Application:Automotive ,Medical。
TN LCD PANEL Application:Automotive ,Medical,Thermometer。
STN LCD PANEL Application:Electric Meter ,Elevator,Home appliance
Consumer Electronics,Watch。
*****************************************************************************************************************
Application of OLED in Smart wearable device:
Introduction:
Smart wearable devices have become increasingly popular in recent years. They offer a range of features that can help users monitor their health, track their fitness goals, and stay connected with the world around them. One of the key components of smart wearable devices is the display, which is responsible for presenting information to the user in a clear and concise manner. In recent years, OLED displays have emerged as a popular choice for smart wearable devices due to their high stability, low power consumption, and high resolution.
High Stability:
One of the key advantages of OLED displays is their high stability. Unlike traditional LCD displays, which rely on a backlight to illuminate the screen, OLED displays emit light directly from each pixel. This means that the display is less susceptible to damage from impact or vibration, making it an ideal choice for use in smart wearable devices that are designed to be worn on the wrist or other parts of the body.
Low Power Consumption:
Another advantage of OLED displays is their low power consumption. Since each pixel emits its own light, OLED displays do not require a separate backlight, which can consume a significant amount of power. This means that smart wearable devices with OLED displays can offer longer battery life, which is a key consideration for users who need to wear their devices for extended periods of time.
High Resolution:
Finally, OLED displays offer high resolution, which is essential for displaying detailed information on a small screen. Since each pixel emits its own light, OLED displays can produce brighter and more vivid images than traditional LCD displays. This makes them ideal for displaying text, graphics, and even video on smart wearable devices.
Conclusion:
In conclusion, OLED displays have become an increasingly popular choice for smart wearable devices due to their high stability, low power consumption, and high resolution. As the market for smart wearable devices continues to grow, it is likely that we will see even more advanced OLED displays that offer even greater performance and functionality. If you are in the market for a smart wearable device, be sure to look for one with an OLED display to take advantage of these benefits.
