1.5 inch 128x64 COG LCD display module | STN(-) white on blue COG | ... Now Available!
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1.5"128x64 Dot matrix LCD Display | gray on white LCD | ST7565R Controller
This 128x64 1.5-inch COG display is a small graphic display core tailored for embedded systems. It is a 1.5-inch COG LCD display with a resolution of 128x64 pixels. Its core is a 1.5-inch white background monochrome dot matrix LCD screen. Thanks to the advanced COG (Chip on Glass) structural process, the driver chip is directly integrated on the glass substrate, which makes the module extremely compact and highly integrated.
The core driving force of the module comes from the built-in ST7567 controller, which, with the carefully optimized interface design, ensures excellent compatibility with mainstream microcontrollers on the market and provides nearly plug-and-play connection convenience. Whether it is the classic 8051, PIC, AVR series, or the popular Arduino platform, ARM core processor and even Raspberry Pi single-board computer, docking control can be easily achieved.
The innovation of this model of display is that it adopts a semi-transparent optical mode. In a dark environment with insufficient light, its built-in yellow-green LED backlight can penetrate the liquid crystal layer, and when it is lit, it presents a bright, clear and sharp yellow-green background display effect, which is particularly excellent in visual experience. In an environment with abundant natural light, the product can clearly reflect the displayed content to the observer due to its reflective properties. Regardless of the lighting conditions, this display can stably output high-quality visual performance.
As an important member of the dot matrix COG product line, the manufacturer provides a wealth of options to meet different needs. Users can choose from a variety of display technology types including STN(+/-), FSTN(+), DFSTN(-), and various appearance combinations such as blue text on gray background, black text on white background, and white text on black background according to specific applications. In addition, in order to optimize the viewing angle of the end user, 6:00 (bottom viewing angle) or 12:00 (top viewing angle) can be flexibly set as the best viewing direction according to the installation direction of the device. These flexible configuration options together constitute a highly adaptable embedded vision solution designed to meet the needs of a wide range of application scenarios.
