An electrolarynx includes tone-producing circuitry, a power switch to turn on the circuitry, a control button (i.e., a pushbutton) to actuate the power switch, a pressure-sensitive-resistor (PSR) that is physically coupled to the pushbutton, and a mode switch. PSR resistance is dependent on the amount of pressure applied to the pushbutton, and the tone-producing circuitry is configured to respond to such variations in PSR resistance according to a user-selected mode of electrolarynx operation set by operation of the mode switch. Said modes preferably include multiple frequency-varying modes (FVMs) in which the frequency of the electrolarynx tone is varied with different sensitivities to variations in PSR resistance, and multiple volume-varying modes (VVMs) having different sensitivities. A preferred embodiment also includes a communications-link mode, for receiving control information from an external device, and a disabled mode. Preferably, the tone-producing circuitry includes a microcontroller component that is configured for electrolarynx operation under program control.
