Abstract: A Robotic Coating System with Real-Time Mixing has a particular arrangement of a robotic gantry, two peristaltic pumps, a mixer, a hollow brush, two tanks, and a computerized controller. The invention has tubes providing fluid communication from a coating tank and a thinner tank through the pumps and mixer to the brush. The invention provides everything necessary for robotic coating in one compact system. This invention provides the ability to apply coatings to an item, without pre-mixing the coating components. A computerized controller drives the brush through a pre-programmed path to coat required areas and not coat sensitive areas. The System operates upon utility service, typically 110 VAC, and it also self-cleans.

Abstract: An air-conditioning system comprises a fan and a ventilation damper for drawing fresh air into a living space. The damper is able to open and close. The air-conditioning system is adapted and configured to store data indicative of air flow output of the fan over time, and to close the damper based on said data.

Abstract: An electrostatic shielding system is provided for an AC motor to eliminate generation of destructive motor bearing currents. Conductive end turn shields are layered over the stator coil end turns at each end of the stator. Conductive grounding clips mechanically and electrically engage the end turn shields at one end of the clip, and electrically and mechanically engage the slotted openings in the stator at the other end. Conductive strips extend longitudinally along the stator slotted openings.

Abstract: A digital power factor correction circuit including a digital comparator that compares the actual DC bus voltage of an electric circuit with a desired DC bus voltage to produce a digital attenuation signal in the form of a pulse width modulated signal that is used to attenuate the voltage from a time-varying source. The attenuated source voltage is used as the current demand signal for a current controller that controls the current drawn from the line.

Abstract: A drive circuit for a switched reluctance motor has phase circuits connected to a common dump capacitor which receives residual magnetic energy from each phase coil when it is switched off. One or more recovering phase circuits are connected to the dump capacitor and comprise a controlled switch and diode whereby energy stored in the dump capacitor is returned to a recovering phase coil in sequence.

Abstract: The present invention provides a sensorless circuit for detecting rotational speed of a rotor in an induction motor. The circuit includes a switch between the AC source driving the motor and a motor phase winding. When the switch is closed, there is developed across the phase winding a voltage waveform from the AC source. When the switch is subsequently opened, there is developed across the winding a residual voltage waveform induced by the rotor. The speed of the motor is determined by measuring a time interval between selected points on the voltage waveform.