A process for creating an electronically addressable display includes multiple printing operations, similar to a multi-color process in conventional
screen printing. In some of the process steps, electrically non-active inks are printed onto areas of the receiving substrate, and in other steps, electrically active inks are printed onto different areas of the substrate. The printed display can be used in a variety of applications. This display can be used as an indicator by changing state of the display after a certain time has elapsed, or when a certain pressure, thermal, radiative,
moisture, acoustic, inclination, pH, or other threshold is passed. In one embodiment, the display is incorporated into a battery indicator. A sticker display is described. The sticker is
adhesive backed and may then be applied to a surface to create a functional information display unit. This invention also features a display that is both powered and controlled using radio frequencies. It describes a complete
system for controlling, addressing, and powering a display. The
system includes an antenna or antennae, passive charging circuitry, and
active control system, a display, and an
energy storage unit. There is also a separate
transmitter that provides the
remote power for the display. The system is meant to be used anywhere it is useful to provide intermittent updates of information such as in a store, on a highway, or in an airport. A tile-based display allowing a
modular system for large area display is created using a printable display material.