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In a power-generator control apparatus, a control circuit intermittently controls the supply of a field current from a battery to a field winding of a power generator in normal mode so as to adjust power induced in an output winding of the power generator. The control circuit interrupts the supply o

In a power-generator control apparatus, a control circuit intermittently controls the supply of a field current from a battery to a field winding of a power generator in normal mode so as to adjust power induced in an output winding of the power generator. The control circuit interrupts the supply of the field current from the battery to the field winding in transient mode when a transient voltage occurs. An energy absorbing circuit absorbs magnetic energy stored in the field winding independently of magnetic-energy consumption by a resistance of the field winding itself.

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What is claimed is: 1. A power-generator control apparatus for controlling a field current supplied from a battery to a field winding of a power generator, the field current generating a magnetic field, the magnetic field inducing power in an output winding of the power generator, the power-generat

What is claimed is: 1. A power-generator control apparatus for controlling a field current supplied from a battery to a field winding of a power generator, the field current generating a magnetic field, the magnetic field inducing power in an output winding of the power generator, the power-generator control apparatus comprising: a control circuit configured to intermittently control the supply of the field current from the battery to the field winding in normal mode so as to adjust the power induced in the output winding of the power generator, the control circuit being configured to interrupt the supply of the field current from the battery to the field winding in transient mode when a transient voltage occurs; and an energy absorbing circuit configured to absorb magnetic energy stored in the field winding independently of magnetic-energy consumption by a resistance of the field winding itself. 2. A power-generator control apparatus according to claim 1, wherein the control circuit comprises a first switching circuit connected between a positive terminal of the battery and one end of the field winding and configured to be turned on and off in the normal mode, the first switching circuit being configured to be turned off in the transient mode, and the energy absorbing circuit comprises: an electrical energy storage unit for storing therein electrical energy; and a second switching circuit for selectively connecting between the other end of the field winding and any one of a ground terminal and the electrical energy storage unit, the second switching circuit being configured to connect the other end of the field winding to the ground terminal in the normal mode and to connect the other end of the field winding to the electrical energy storage unit in the transient mode. 3. A power-generator control apparatus according to claim 2, wherein the first switching circuit comprises: a first transistor connected between the positive terminal of the battery and the one end of the field winding, the first transistor being configured to be turned on and off in the normal mode and configured to be turned off in the transient mode; and a first diode whose cathode is connected to the one end of the field winding and whose anode is grounded, and wherein the second switching circuit comprises: a second transistor connected between the other end of the field winding and the ground terminal, the second transistor being configured to be turned on in the normal mode and configured to be turned off in the transient mode; and a second diode whose cathode is connected to the electrical energy storage unit and whose anode is connected to the other end of the field winding. 4. A power-generator control apparatus according to claim 2, wherein the electrical energy storage unit comprises a capacitor. 5. A power-generator control apparatus according to claim 4, the capacitor is a smoothing capacitor connected between a pair of input terminals of a predetermined switching circuit. 6. A power-generator control apparatus according to claim 5, wherein the predetermined switching circuit is a DC to DC converter. 7. A power-generator control apparatus according to claim 5, wherein the predetermined switching circuit is an inverter for driving an AC motor. 8. A power-generator control apparatus according to claim 4, further comprising: a constant voltage diode connected in parallel to the capacitor. 9. A power-generator control apparatus according to claim 1, wherein the power generator is equipped with a full-wave rectifier composed of a plurality of constant voltage diodes connected in the form of a bridge, and the energy absorbing circuit is configured to apply, in the transient mode, a voltage based on the magnetic energy stored in the field winding to each of the plurality of constant voltage diodes so as to break down each of the plurality of constant voltage diodes. 10. A power-generator control apparatus according to claim 2, wherein the second switching circuit is configured to connect the other end of the field winding to the electrical energy storage unit in the transient mode, and, after a predetermined period of time has elapsed, to connect the other end of the field winding to the ground terminal. 11. A power-generator control apparatus according to claim 2, wherein the first switching circuit comprises: a first transistor connected between the positive terminal of the battery and the one end of the field winding, the first transistor being configured to be turned on and off in the normal mode and configured to be turned off in the transient mode; and a first diode whose cathode is connected to the one end of the field winding and whose anode is grounded, and wherein the second switching circuit comprises: a second transistor connected between the other end of the field winding and the ground terminal, the second transistor being configured to be turned on in the normal mode and configured to be turned off in the transient mode; and a varistor having one and the other ends, the one end of the varistor being connected to the positive terminal of the battery, the other end of the varistor being connected to the other end of the field winding. 12. A power-generator control apparatus according to claim 1, wherein the field winding is composed of a first field winding wire and a second field winding wire, the first switching circuit is composed of a pair of switching units, and the power generator is equipped with: a common rotary shaft; a first power generating unit composed of a first magnetic field core and the first field winding wire installed therein; and a second power generating unit composed of a second magnetic field core and the second field winding wire installed therein, the first and second magnetic field cores are attached tandem to the common rotary shaft, the other end of each of the first field winding wire and the second field winding wire is commonly connected to the second switching circuit, and the one ends of the first field winding wire and the second field winding wire are individually connected to the paired switching units, respectively.