capacitordriven

Capacitordriven refers to a class of electronic circuits and systems in which a capacitance element is used as the primary means of coupling electrical energy, signals, or control information. The concept is rooted in the principle that a variable capacitance can form a coupling path between two nodes without any direct electrical contact, allowing voltage or current to be transferred by means of capacitive displacement. Capacitordriven techniques are commonly found in touch‑sensing touch panels, proximity detectors, and certain types of wireless power transfer. In touch controllers, a small capacitive plate is placed beneath the display surface; when a user touches the screen, the effective capacitance between the plate and an external reference changes, and this change is measured to determine position. In proximity sensors, the changing proximity of a user’s hand alters the capacitance of a sensing electrode, providing a detection mechanism without physical contact.

Capacitordriven circuits typically employ a test signal applied to a drive electrode, with a sensing electrode

The term “capacitordriven” has appeared in patent literature and semiconductor datasheets, and is often used interchanges