- All
- Product Name
- Product Keyword
- Product Model
- Product Summary
- Product Description
- Multi Field Search
(1) Display format : 240 128 dot-matrix ; 1/ 128 duty.
(2) Construction : STN/FSTN LCD, Bezel, Zebra ,PCB.
(3) Optional LED / EL / CCFL back-light.
(4) Built in controller T6963C or EQU.
(5) 5V single power input. Built-in DC/DC converter for LCD driving.
(6) Normal / Extended temperature type.
Parameter | Standard Value | Unit |
Dot size | 0.40 (W) 0.40(H) | mm |
Dot pitch | 0.45(W) 0.45(H) | mm |
Viewing area | 114.0(W) 64.0(H) | mm |
Module size (LED/CCFL back-light) | 144.0(W) 104.0(H) 13.7 max (T) | mm |
Parameter | Symbol | Min | Max | Unit | |
Logic Circuit Supply Voltage | VDD-VSS | 0 | 7.0 | V | |
LCD Driving Voltage | VDD-VO | 0 | 26 | V | |
Input Voltage | VI | VSS | VDD | V | |
Normal temp. type | Operating Temp. | TOP | 0 | 50 | C |
Storage Temp. | TSTG | -20 | 70 | C | |
Extended temp. type | Operating Temp. | TOP | -20 | 70 | C |
Storage Temp. | TSTG | -30 | 80 | C | |
********************************************************************************************************************
Knowledge Point:
Technology is evolving rapidly, and with it, the way we interact with screens is also changing. The LCD screen, which has been a staple in our lives for many years, may soon be replaced by new and innovative technologies. In this article, we will explore the possibilities of what could replace the LCD screen in the future.
LCD screens have been widely used in various devices, including televisions, computer monitors, smartphones, and tablets. They offer high-resolution displays and have become an integral part of our daily lives. However, as technology progresses, there is a constant demand for better, more efficient, and visually stunning displays.
One potential replacement for LCD screens is OLED (Organic Light Emitting Diode) technology. OLED screens are made up of organic compounds that emit light when an electric current is applied. This technology offers several advantages over LCD screens. Firstly, OLED screens can be made thinner and more flexible, allowing for curved and foldable displays. This opens up a whole new world of possibilities for device design and user experience.
Moreover, OLED screens provide deeper blacks and more vibrant colors compared to LCD screens. Each pixel in an OLED display emits its own light, resulting in better contrast and improved picture quality. Additionally, OLED screens offer wider viewing angles, ensuring that the image remains consistent regardless of the viewer's position.
Another potential contender to replace LCD screens is MicroLED technology. MicroLEDs are tiny, self-emitting LEDs that can be individually controlled to produce vibrant and high-resolution images. This technology offers several advantages, such as improved brightness, energy efficiency, and longevity. MicroLED screens can achieve higher peak brightness levels than LCD screens, making them ideal for outdoor displays and HDR content.
OLED Screens in Wearable Devices
OLED screens have become a common feature in wearable devices such as smartwatches and fitness trackers. The compact size, low power consumption, and high brightness of OLED screens make them ideal for wearable applications. OLED displays provide users with clear and vibrant visuals, even in direct sunlight. Furthermore, the flexibility of OLED screens allows for curved and flexible designs, ensuring a comfortable fit on the wrist or other parts of the body.
OLED Screens in Virtual Reality and Augmented Reality Devices
Virtual Reality (VR) and Augmented Reality (AR) devices heavily rely on OLED screens to deliver immersive experiences. The high refresh rates and low latency of OLED screens help reduce motion blur and ensure smooth visuals, crucial for an immersive VR experience.
OLED screens also offer high pixel density, enhancing the level of detail and realism in virtual environments. In AR devices, OLED screens provide clear and vibrant overlays, seamlessly blending virtual elements with the real world.
(1) Display format : 240 128 dot-matrix ; 1/ 128 duty.
(2) Construction : STN/FSTN LCD, Bezel, Zebra ,PCB.
(3) Optional LED / EL / CCFL back-light.
(4) Built in controller T6963C or EQU.
(5) 5V single power input. Built-in DC/DC converter for LCD driving.
(6) Normal / Extended temperature type.
Parameter | Standard Value | Unit |
Dot size | 0.40 (W) 0.40(H) | mm |
Dot pitch | 0.45(W) 0.45(H) | mm |
Viewing area | 114.0(W) 64.0(H) | mm |
Module size (LED/CCFL back-light) | 144.0(W) 104.0(H) 13.7 max (T) | mm |
Parameter | Symbol | Min | Max | Unit | |
Logic Circuit Supply Voltage | VDD-VSS | 0 | 7.0 | V | |
LCD Driving Voltage | VDD-VO | 0 | 26 | V | |
Input Voltage | VI | VSS | VDD | V | |
Normal temp. type | Operating Temp. | TOP | 0 | 50 | C |
Storage Temp. | TSTG | -20 | 70 | C | |
Extended temp. type | Operating Temp. | TOP | -20 | 70 | C |
Storage Temp. | TSTG | -30 | 80 | C | |
********************************************************************************************************************
Knowledge Point:
Technology is evolving rapidly, and with it, the way we interact with screens is also changing. The LCD screen, which has been a staple in our lives for many years, may soon be replaced by new and innovative technologies. In this article, we will explore the possibilities of what could replace the LCD screen in the future.
LCD screens have been widely used in various devices, including televisions, computer monitors, smartphones, and tablets. They offer high-resolution displays and have become an integral part of our daily lives. However, as technology progresses, there is a constant demand for better, more efficient, and visually stunning displays.
One potential replacement for LCD screens is OLED (Organic Light Emitting Diode) technology. OLED screens are made up of organic compounds that emit light when an electric current is applied. This technology offers several advantages over LCD screens. Firstly, OLED screens can be made thinner and more flexible, allowing for curved and foldable displays. This opens up a whole new world of possibilities for device design and user experience.
Moreover, OLED screens provide deeper blacks and more vibrant colors compared to LCD screens. Each pixel in an OLED display emits its own light, resulting in better contrast and improved picture quality. Additionally, OLED screens offer wider viewing angles, ensuring that the image remains consistent regardless of the viewer's position.
Another potential contender to replace LCD screens is MicroLED technology. MicroLEDs are tiny, self-emitting LEDs that can be individually controlled to produce vibrant and high-resolution images. This technology offers several advantages, such as improved brightness, energy efficiency, and longevity. MicroLED screens can achieve higher peak brightness levels than LCD screens, making them ideal for outdoor displays and HDR content.
OLED Screens in Wearable Devices
OLED screens have become a common feature in wearable devices such as smartwatches and fitness trackers. The compact size, low power consumption, and high brightness of OLED screens make them ideal for wearable applications. OLED displays provide users with clear and vibrant visuals, even in direct sunlight. Furthermore, the flexibility of OLED screens allows for curved and flexible designs, ensuring a comfortable fit on the wrist or other parts of the body.
OLED Screens in Virtual Reality and Augmented Reality Devices
Virtual Reality (VR) and Augmented Reality (AR) devices heavily rely on OLED screens to deliver immersive experiences. The high refresh rates and low latency of OLED screens help reduce motion blur and ensure smooth visuals, crucial for an immersive VR experience.
OLED screens also offer high pixel density, enhancing the level of detail and realism in virtual environments. In AR devices, OLED screens provide clear and vibrant overlays, seamlessly blending virtual elements with the real world.
