China 0.6″ 800×600 OLED Screen Micro Display AMOLED For AR
Advanced Si-Base AMOLED Microdisplay for AR: Cutting-Edge Technology and Applications
Microdisplays have become indispensable in the modern era of augmented reality (AR) and virtual reality (VR). This article explores the remarkable 0.6-inch, 800×600 resolution AMOLED microdisplay, developed using proprietary top-emitting, high-luminance-efficiency Si-Base AMOLED technology. Engineered for AR systems, this microdisplay combines compact size, high resolution, and outstanding performance, making it a perfect fit for near-to-eye applications. With a consistent interface and pin definition, this series boasts advanced features such as SVGA resolution, integrated signal processing, and programmable control, all within a display area of 12.06×9.06 mm².
Key Features of the Si-Base AMOLED Microdisplay
Fabrication Technology
This series of microdisplays is built on a 0.18µm CMOS silicon substrate, enabling superior integration of digital video processing, temperature sensing, and signal enhancement. The proprietary Si-Base AMOLED technology ensures top-emitting luminance efficiency, making it a leader in the microdisplay industry.
Specifications Overview
- Resolution: SVGA (800×600)
- Display Area: 12.06×9.06 mm² (0.6 inches diagonal)
- Contrast Ratio: >10,000:1
- Luminance: Up to 1500 cd/m²
- Temperature Range: -40°C to +65°C
- Pixel Size: 15×15 µm
These attributes make the microdisplay suitable for AR/VR systems requiring compact, high-performance displays.
Advanced Functionalities
Digital Signal Processing
Compatibility with ITU-R BT.656 Standards
The microdisplay supports 8/16/24-bit digital video signals, including MONO, YCbCr, and RGB formats. It also accommodates popular video standards such as PAL, NTSC, and SMPTE. This broad compatibility ensures seamless integration with existing AR/VR devices.
Built-in Image Enhancement
Equipped with gamma correction, horizontal/vertical mirroring, and scanning direction control, the microdisplay offers unparalleled visual flexibility. These features ensure optimized viewing experiences, whether for consumer AR glasses or industrial-grade VR headsets.
Integrated Features
Embedded Modules and Sensors
This microdisplay integrates advanced components such as a Vcom DC-DC module, a two-wire serial programming interface, and a temperature sensor. These innovations reduce system complexity and enhance operational stability.
Programmable Display Settings
Brightness, contrast, display mode, and position can all be controlled programmatically via the two-wire serial communication interface. This level of customization is critical for AR/VR applications where adaptability is paramount.
General Specifications
The table below summarizes the specifications for this cutting-edge Si-Base AMOLED microdisplay:
| Specification | Details |
|---|---|
| Diagonal Size | 0.6 inch |
| Resolution | 800×600 (SVGA) |
| Panel Type | Micro OLED, Si-OLED |
| View Area | 12.06×9.06 mm² |
| Mechanical Size | 19.8×15.2×4.6 mm³ |
| Pixel Size | 15×15 µm |
| Interface | RGB, 40 pins |
| Luminance | 1000 or 1500 cd/m² |
| Color Gamut | 16.7M colors, 83% DCI-P3 |
| Contrast Ratio | >10,000:1 |
| Operating Temperature | -40°C to +65°C |
| Applications | AR/VR displays, binocular stereovision |
Applications in AR/VR
Driving Innovation in Augmented Reality
Compact and High-Resolution Design
The microdisplay’s compact size and high resolution make it ideal for lightweight AR glasses, enhancing user experience without compromising on portability.
Extended Temperature Range
Its ability to function within a wide temperature range ensures reliability in industrial and outdoor applications, from defense systems to sports optics.
Versatility in Virtual Reality
With its high contrast and luminance, this microdisplay creates vivid virtual environments for immersive VR headsets, gaming systems, and simulation training.
Conclusion
The 0.6-inch 800×600 AMOLED microdisplay represents a leap forward in AR/VR technology. With its advanced Si-Base AMOLED fabrication, integrated features, and versatile applications, this microdisplay sets a new benchmark for performance and innovation in the field.
Drawing
Pin Description
| Pin No. | Symbol | I/O | Function | Remark |
|---|---|---|---|---|
| 1 | 1V8 | P | 1.8V Power | |
| 2 | 5V | P | 5.0V Power | |
| 3 | 1V8 | P | 1.8V Power | |
| 4 | V5.0 | P | 5.0V Power | |
| 5 | GND | P | 0 V Ground | |
| 6 | GND | P | 0 V Ground | |
| 7 | SCL | I | Serial Port Clock | |
| 8 | Reset | I | Master Reset, Active Low, Can’t Floating | |
| 9 | M3D | I | 3D Left/Right Eye Mode Select | Not use, tie to ground |
| 10 | Addr Sel | I | Serial Port Address Select | |
| 11 | HS | I | Hsync Signal Input | |
| 12 | SDA | I/O | Serial Port Data I/O | |
| 13 | RED6 | I | Cr[6], Red[6] Video Input | |
| 14 | VS | I | Vsync Signal Input | |
| 15 | RED4 | I | Cr[4], Red[4] Video Data Input | |
| 16 | RED7 | I | Cr[7], Red[7] Video Data Input (MSB) | |
| 17 | RED2 | I | Cr[2], Red[2] Video Data Input | |
| 18 | RED5 | I | Cr[5], Red[5] Video Data Input | |
| 19 | RED0 | I | Cr[0], Red[0] Video Data Input | |
| 20 | RED3 | I | Cr[3], Red[3] Video Data Input | |
| 21 | DE | I | Data Enable Signal Input | |
| 22 | RED1 | I | Cr[1], Red[1] Video Data Input | |
| 23 | GND | P | 0V Ground | |
| 24 | PCLK | I | Pixel Clock Input | |
| 25 | GREEN6 | I | YCbCr[6], Y[6], Green[6] Video Data Input | |
| 26 | GREEN7 | I | YCbCr[7], Y[7], Green[7] Video Data Input (MSB) | |
| 27 | GREEN4 | I | YCbCr[4], Y[4], Green[4] Video Data Input | |
| 28 | GREEN5 | I | YCbCr[5], Y[5], Green[5] Video Data Input | |
| 29 | GREEN2 | I | YCbCr[2], Y[2], Green[2] Video Data Input | |
| 30 | GREEN3 | I | YCbCr[3], Y[3], Green[3] Video Data Input | |
| 31 | GREEN0 | I | YCbCr[0], Y[0], Green[0] Video Data Input (LSB) | |
| 32 | GREEN1 | I | YCbCr[1], Y[1], Green[1] Video Data Input | |
| 33 | BLUE6 | I | CbCr[6], Cb[6], Blue[6] Video Data Input | |
| 34 | BLUE7 | I | CbCr[7], Cb[7], Blue[7] Video Data Input (MSB) | |
| 35 | BLUE4 | I | CbCr[4], Cb[4], Blue[4] Video Data Input | |
| 36 | BLUE5 | I | CbCr[5], Cb[5], Blue[5] Video Data Input | |
| 37 | BLUE2 | I | CbCr[2], Cb[2], Blue[2] Video Data Input | |
| 38 | BLUE3 | I | CbCr[3], Cb[3], Blue[3] Video Data Input | |
| 39 | BLUE0 | I | CbCr[0], Cb[0], Blue[0] Video Data Input (LSB) | |
| 40 | BLUE1 | I | CbCr[1], Cb[1], Blue[1] Video Data Input |
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Frequently Asked Question
The microdisplay features a resolution of 800×600 (SVGA), making it suitable for high-quality AR/VR applications.
It is built using proprietary Si-Base AMOLED technology on a 0.18µm CMOS silicon substrate, enabling high luminance efficiency and advanced integration.
The display area measures 12.06×9.06 mm², with a diagonal size of 0.6 inches.
It supports ITU-R BT.656 standards, accommodating 8/16/24-bit digital video in MONO, YCbCr, and RGB formats, along with standards like PAL, NTSC, and SMPTE.
Features like gamma correction, digital video signal enhancement, horizontal/vertical mirroring, and scanning direction control contribute to superior display quality.
The microdisplay offers a luminance of up to 1500 cd/m², ensuring vivid visuals even in challenging environments.
It is designed for AR/VR devices, binocular stereovision systems, lightweight AR glasses, immersive VR headsets, and industrial-grade displays.
Its operating temperature range of -40°C to +65°C and robust design ensure reliable performance in extreme conditions.
Brightness, contrast, display mode, scanning direction, and other parameters can be programmed via a two-wire serial communication interface.
Integrated components such as a temperature sensor, Vcom DC-DC module, and built-in test patterns reduce system complexity and improve reliability.
