Passive matrix addressing is an addressing scheme used in early LCDs. This is a matrix addressing scheme meaning that only m + n control signals are required to address an m × n display. A pixel in a passive matrix must maintain its state without active driving circuitry until it can be refreshed again.
The signal is divided into a row or select signal and a column or video signal. The select voltage determines the row that is being addressed and all n pixels on a row are addressed simultaneously. When pixels on a row are being addressed, a Vsel potential is applied, and all other rows are unselected with a Vunsel potential. The video signal or column potential is then applied with a potential for each m columns individually. An on-switched (lit) pixel corresponds to a Von, an off-switched (unlit) corresponds to a Voff potential.
The potential across pixel at selected row i and column j is
and
for the unselected rows.
This scheme has been expanded to define the limits of this type of addressing typical LCDs.
Passive matrix addressed displays, such as ferroelectric liquid crystal displays, do not need the switch component of an active matrix display, because they have built-in bistability. Technology for electronic paper also has a form of bistability. Displays with bistable pixel elements are addressed with a passive matrix addressing scheme, whereas TFT LCD displays are addressed using active addressing.
See also
References
- Wild, Peter J. "First-Hand Histories: Liquid Crystal Display Evolution - Swiss Contributions". Engineering and Technology History Wiki. ETHW. Retrieved June 30, 2017.
- P. M. Alt, P. Pleshko Scanning limitations of liquid-crystal displays, IEEE Trans. Electron Devices, vol. ED-21, pp. 146–155, Feb. 1974.
- J. Nehring, A. R. Kmetz: Ultimate limits for matrix addressing of RMS-responding liquid-crystal displays. IEEE Transactions on Electron Devices. Vol. 26, issue 5, pp. 795–802, May 1979.
- T. N. Ruckmongathan, V. Arun, Babu Hemanth Kumar: Line-by-Line Addressing of RMS Responding Matrix Displays With Wavelets. Journal of Display Technology. Vol. 3, issue 4, pp. 413–420 December 2007.