The classical definition of a charge is limited to assigning opposite polarities to it, which is used to design electric current circuits whose charges are sustained by an energy from a potential (voltage) difference for example. However, recent research and reviews of physical plasma chaotic behaviour revealed that the energy acquired by the charges can be studied closely in space and time domains using novel attributions such as charge (dimness) or (brightness). This is both qualitatively and computationally significant especially when building display screens. After the decline of physical plasma screens technology more than10 years ago, it has been recognized again as it provides unique displays for a variety of media channels. The research presented here concerns working on the so - called mixed modes pixels screens technology, where each screen pixel is allowed to house light emitting diodes elements in addition to making room for a physical plasma compartment to house an electric discharge. Switching between, or mixing, the output from these elements is what defines the overall viewer experience. Moreover, it will be shown that recent research on tracking charge transport across a display screen, allows for a selective capture of images from the sender and receiver at the screen surface, thereby enabling a possible two way televised transmission.