Abstract: A circuit-based technique enhances the power output of electrostatic generators employing an array of axially oriented rods or tubes or azimuthal corrugated metal surfaces for their electrodes. During generator operation, the peak voltage across the electrodes occurs at an azimuthal position that is intermediate between the position of minimum gap and maximum gap. If this position is also close to the azimuthal angle where the rate of change of capacity is a maximum, then the highest rf power output possible for a given maximum allowable voltage at the minimum gap can be attained. This rf power output is then coupled to the generator load through a coupling condenser that prevents suppression of the dc charging potential by conduction through the load. Optimized circuit values produce phase shifts in the rf output voltage that allow higher power output to occur at the same voltage limit at the minimum gap position.

Abstract: Main circuit of an electric power generating apparatus for dispersed power supply, having a permanent magnet type electric power generator driven by windmill or waterwheel and having three windings, each inducing a different value of induced voltage, AC outputs of the generator rectified by rectifiers, and DC outputs of the rectifiers summed in parallel for output. First and second reactors are respectively connected in series between first and second rectifiers and output terminals of first and second windings, the first winding inducing the lowest induced voltage among the three windings, the second winding inducing the second lowest. A capacitor is connected between a third rectifier and an output terminal of a third winding inducing the highest induced voltage. The sum of inductive impedance by internal inductance of the third winding and capacitive impedance by the capacitor is capacitive impedance within a range of rotational speed of the generator.

Abstract: A device for generating electrical energy includes at least one a.c. generator which is coupled to a turbine driven by a flowing medium and is connected via capacitive elements to a rectifier with impressed output voltage. The capacitive elements are rated or are able to be controlled in relationship to the inductances existing in the generator electric circuit in a way that allows the resonant frequency of the oscillating circuit made up of the capacitive elements and the inductors to lie above the highest frequency that occurs under field conditions.

Abstract: An induction generator is disclosed wherein both the stator and rotor windings are utilized to generate power with the three phase winding of the stator and rotor each connected in parallel with a delta connected capacitive network connected therebetween. The electrical output may thus be increased by a factor of four over a conventional generator of the same size.

Abstract: A plurality of permanent magnets mounted at equally spaced angular intervals on a drive shaft are rotated past a plurality of electromagnets at equally spaced fixed angular intervals about the axis of the shaft on a plate supported by a frame. An electric motor drives the drive shaft. The electromagnets are connected across each its own capacitance. At the appropriate speed of rotation the frequency of electrical energy generated by the permanent magnets as they pass the electromagnets causes resonance to occur. This action controls the drive shaft speed. A plurality of capacitors is attached to the base plate and the cross bars of the frame supporting the plate.

Abstract: A generator set includes a prime mover and a three-phase asynchronous electrical machine coupled to this prime mover and acting as a generator. In addition, at least one set of three delta-connected excitation capacitors is provided, the vertices of the delta-connection each being connected to a respective phase of the electrical machine. A respective inductor is connected in series with each of the said capacitors so as to form at least one set of three L-C series resonators. The resonant frequency of the or each set of resonators is substantially equal to a corresponding predetermined odd harmonic of the frequency of the voltage delivered by the generator. In parallel with each phase of the electrical machine there is also connected a saturable reactor acting as a voltage regulator.

Abstract: In a device for starting an AC load powered by an AC generator and designed so that, prior to starting the load, the magnetic circuit of the generator is saturated to prevent an abrupt large drop of terminal voltage thereof when starting the load, and that in this state the load is started. A starting device comprising a coil for saturating the magnetic circuit of the generator and a starter coil both of which are wound in a same direction around a common closed magnetic path to couple these two coils magnetically, and operative so that, after saturating the magnetic circuit of the generator by the saturating coil, the connections of the two coils are switched over to start the load, and that by the reverse voltage induced in the starter coil by the energized saturating coil, the surge current which is produced, when the load is started, at the time of switching the coil connections is suppressed.