An STN (super-twisted nematic) display is a type of

liquid-crystal display A liquid-crystal display (LCD) is a flat-panel display or other Electro-optic modulator, electronically modulated optical device that uses the light-modulating properties of liquid crystals combined with polarizers to display information. Liq ...

(LCD). An LCD is a

flat-panel display A flat-panel display (FPD) is an electronic visual display, electronic display used to display device, display visual content such as text or images. It is present in consumer, medical, transportation, and industrial equipment. Flat-panel disp ...

that uses

liquid crystal Liquid crystal (LC) is a state of matter whose properties are between those of conventional liquids and those of solid crystals. For example, a liquid crystal can flow like a liquid, but its molecules may be oriented in a common direction as i ...

s to change its properties when exposed to an electric field, which can be used to create images. This change is called the

twisted nematic The twisted nematic effect (''TN effect'') was a major technological breakthrough that made the manufacture of large, thin liquid crystal displays practical and cost competitive. Unlike earlier flat-panel displays, TN cells did not require a curre ...

(TN) field effect. Earlier TN displays twisted the liquid crystal molecules at a 90-degree angle. STN displays improved on that by twisting the liquid crystal molecules at a much greater angle, typically between 180 and 270 degrees. This allows for a sharper image and

passive matrix addressing Passive matrix addressing is an Display addressing scheme, addressing scheme used in early liquid crystal displays, liquid crystal displays (LCDs). It is a matrix addressing scheme, meaning that only ''m'' + ''n'' control signals are requi ...

, a simpler way to control the pixels in an LCD. While STN displays were once common in various electronic devices, they have been largely replaced by TFT (thin-film transistor) displays.

Development

In 1982, C. M. Waters and E. P. Raynes patented STN displays, and by 1984 researchers at

Brown Boveri Brown, Boveri & Cie. (Brown, Boveri & Company; BBC) was a Swiss group of electrical engineering companies. It was founded in Baden bei Zürich, in 1891 by Charles Eugene Lancelot Brown and Walter Boveri who worked at the Maschinenfabrik Oerlik ...

(later

ABB ABB Group is a Swedish-Swiss multinational electrical engineering corporation. Incorporated in Switzerland as ABB Ltd., and headquartered in Zurich, it is dual-listed on the Nasdaq Nordic exchange in Stockholm, Sweden, and the SIX Swiss Excha ...

) built the first prototype STN matrix display, with 540 × 270 pixels. A key challenge was finding a way to address more pixels efficiently. Standard TN displays weren't ideal for this because of their voltage characteristics. STN displays, with their 180-270 degree twist, offered a solution. This twist allows for a clearer distinction between on and off states, making them suitable for passive-matrix addressing with more pixels. The main advantage of STN LCDs is their lower power consumption and affordability. They can also be made purely reflective for sunlight readability. In the late 1980s, they were used in portable computers and handheld devices like the Nintendo

Game Boy The is a handheld game console developed by Nintendo, launched in the Japanese home market on April 21, 1989, followed by North America later that year and other territories from 1990 onwards. Following the success of the Game & Watch single-ga ...

. While still found in some simple digital products like calculators, STN displays have largely been replaced by TFT LCDs, which offer superior image quality and faster response times.

Variants

CSTN

CSTN (color super-twist nematic) is a color variant of STN displays, developed by Sharp. It uses red, green, and blue

filters Filtration is a physical process that separates solid matter and fluid from a mixture. Filter, filtering, filters or filtration may also refer to: Science and technology Computing * Filter (higher-order function), in functional programming * Fil ...

to create color images. Early CSTN displays had limitations like slow response times and ghosting. However, advancements have improved response times to 100 ms (still longer than the 8 ms for TFT), widened viewing angles to 140 degrees, and enhanced color quality, making them a more competitive option at about half the cost of TFT displays. A newer passive-matrix technology, high-performance addressing (HPA), offers even better performance than CSTN.

CCSTN

CCSTN (color coded STN) is another color variant of STN that uses a type of liquid crystal that polarizes different wavelengths of light differently and achieves color without the use of sub pixels or color filters, this is possible because it uses a chiral liquid crystal instead of a symmetric one also known as chiral nematic liquid crystals similar to the ones used in mood rings. it works by tuning the polarization amount which in other STN types controls the brightness but because this liquid crystal polarizes colors differently it is can be used to achieve color. This effect is known as

birefringence Birefringence, also called double refraction, is the optical property of a material having a refractive index that depends on the polarization and propagation direction of light. These optically anisotropic materials are described as birefrin ...

. Theoretically it could be tuned for any wavelength but most devices that used it could only produce 3 colors: red, green and blue (and white for an off pixel). Having no color filters meant it did not have the low brightness disadvantage of other color LCDs. Research and development in this field has been inactive since the late 90s.

Other STN technologies

Other STN display variations were introduced, attempting to improve image quality and response times. They include: * Double layer STN: Uses an extra compensating layer to provide a sharper image. * DSTN (double STN or dual-scan STN): The screen is divided into halves, and each half is scanned simultaneously, thereby doubling the number of lines refreshed per second and providing a sharper appearance. Widely used on early portable computers. * FRSTN (fast-response STN) * : (film compensated STN, formulated STN or filtered STN): Uses a film compensating layer between the STN display and rear polarizer for added sharpness and contrast. Used on early portable computers before adoption of DSTN. * FFSTN (double film compensated STN) * MSTN (monochrome STN)

References

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External links

Display Types and Technologies
Display technology Malvern, Worcestershire Science and technology in Worcestershire Swiss inventions