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(1) Display format : 122 32 dot-matrix ; 1/32 duty.
(2) Construction : STN / FSTN LCD, Bezel, Zebra and PCB.
(3) Optional LED or EL back-light.
(4) Controller : SED1520 or Equivalent.
(5) Besides +5V for logic circuit.
(6) Normal / Extended temperature type.
Parameter | Stand Value | Unit |
Dot size | 0.36(W) 0.41(H) | mm |
Dot pitch | 0.40(W) 0.45(H) | mm |
Viewing area | 60.0(W) 18.0(H) | mm |
Module size | 84.0(W) 44.0(H) 9.3 max (T) | mm |
Module size ( LED back-light) | 84.0(W) 44.0(H) 13.0 max (T) | mm |
Display Image
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Introduction to OLED Technology Subheading (OLED Screens in Smartphones and Tablets Subheading)
OLED Screens in Automotive Displays:
The automotive industry has embraced OLED screens for their versatility and aesthetic appeal. OLED displays are used in dashboard infotainment systems, providing drivers with crucial information such as navigation, vehicle diagnostics, and entertainment options. The high brightness, wide temperature range, and excellent visibility in various lighting conditions make OLED screens ideal for automotive applications. Additionally, the flexibility of OLED technology allows for curved and flexible displays, enabling manufacturers to integrate screens seamlessly into the interior design of vehicles.
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 : 122 32 dot-matrix ; 1/32 duty.
(2) Construction : STN / FSTN LCD, Bezel, Zebra and PCB.
(3) Optional LED or EL back-light.
(4) Controller : SED1520 or Equivalent.
(5) Besides +5V for logic circuit.
(6) Normal / Extended temperature type.
Parameter | Stand Value | Unit |
Dot size | 0.36(W) 0.41(H) | mm |
Dot pitch | 0.40(W) 0.45(H) | mm |
Viewing area | 60.0(W) 18.0(H) | mm |
Module size | 84.0(W) 44.0(H) 9.3 max (T) | mm |
Module size ( LED back-light) | 84.0(W) 44.0(H) 13.0 max (T) | mm |
Display Image
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Introduction to OLED Technology Subheading (OLED Screens in Smartphones and Tablets Subheading)
OLED Screens in Automotive Displays:
The automotive industry has embraced OLED screens for their versatility and aesthetic appeal. OLED displays are used in dashboard infotainment systems, providing drivers with crucial information such as navigation, vehicle diagnostics, and entertainment options. The high brightness, wide temperature range, and excellent visibility in various lighting conditions make OLED screens ideal for automotive applications. Additionally, the flexibility of OLED technology allows for curved and flexible displays, enabling manufacturers to integrate screens seamlessly into the interior design of vehicles.
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.
