Abstract: A household electronic mixing-valve faucet for controlling a temperature of a mixed stream discharging from the faucet, including: (a) a faucet body; (b) a controller; (c) a first powered valve fluidly connected to the hot water flowpath; (d) a second powered valve fluidly connected to the cold water flowpath; (e) an arrangement adapted to determine extents of opening of the valves; (f) temperature sensors, operative to sense a temperature of fluids within the hot and cold water flowpaths; and pressure sensors; the controller adapted to maintain a difference between an actual temperature of the mixed stream and a setpoint temperature thereof within a particular range.

Abstract: A household electronic mixing-valve faucet for controlling a temperature of a mixed stream discharging from the faucet, including: (a) a faucet body; (b) a controller; (c) a first powered valve fluidly connected to the hot water flowpath; (d) a second powered valve fluidly connected to the cold water flowpath; (e) an arrangement adapted to determine extents of opening of the valves; (f) temperature sensors, operative to sense a temperature of fluids within the hot and cold water flowpaths; and pressure sensors; the controller adapted to maintain a difference between an actual temperature of the mixed stream and a setpoint temperature thereof within a particular range.

Abstract: A household electronic mixing-valve faucet including a faucet body having hot and cold water inlets, and an outlet; a controller; powered valves responsive to the controller; an arrangement adapted to determine an extent of opening of each valve; temperature sensors and pressure sensors disposed upstream of the valves; and a third pressure sensor disposed downstream with respect to the valves; the controller adapted to receive: extent of opening information, from the arrangement, and temperature and pressure information from the sensors, the controller having calibrated relationships relating (i) a flowrate of hot water flowing through a hot water flowpath, to the extent of opening of the powered valve thereof, as a function of a first pressure differential, and (ii) a flowrate of cold water flowing through a cold water flowpath, to the extent of opening of the powered valve thereof, as a function of a second pressure differential, and wherein, during operation, the controller controls the powered valves base