Multiple winding multiple voltage alternator electrical supply system
First Claim
1. A multiple voltage electrical supply system continuously connected for individually charging a plurality of battery supplies continuously connected in series with one another to supply a plurality of load circuits having differing d.c. input voltage requirements, said load circuits also having differing expected electrical power consumption rates such that one of said battery supplies is normally expected to draw less charging current than the other of said battery supplies, said system comprising:
- an alternator structure including,a stator means having salient poles of ferromagnetic material,a rotor means magnetically coupled and rotably mounted with respect to said stator means and shaped so as to cause variations of magnetic flux within said salient poles in response to rotation thereof,a field winding mounted to generate magnetic flux in said rotor and stator means in response to electrical current flow in said field winding,a first generating winding disposed upon said salient poles of a first electrical conductor having a first characteristic resistance per unit length and producing a first a.c. output therefrom in response to rotation of said rotor means due to the magnetic flux variations produced thereby,a second generating winding electrically isolated from said first winding, said second winding also being disposed upon said salient poles so as to insure that the magnetic flux linking said first generating winding bears a substantially constant ratio to the magnetic flux linking said second generating winding,said second generating winding being formed of a second conductor having a second characteristic resistance per unit length greater than said first characteristic resistance per unit length thereby producing an increased internal voltage drop in said second winding as compared to said first winding for a given current flow, said second winding producing a second a.c. output therefrom in response to rotation of said rotor structure due to the magnetic flux variations produced thereby;
a first rectifier means continuously connected to said first generating winding and converting said first a.c. output into a corresponding first d.c. output which is, in turn, continuously connected to provide charging current to the said other of said battery supplies requiring the relatively greater expected charging current;
a second rectifier means continuously connected to said second generating winding and converting said second a.c. output into a corresponding second d.c. output which is, in turn, continuously connected to provide charging current to the said one of said battery supplies requiring the relatively smaller expected charging current; and
a single voltage regulator connected to sense the voltage at one of said first and second d.c. outputs an also connected to control the current flow in said field winding so as to maintain the voltage at said selected one of the d.c. outputs at a desired level and thereby also substantially maintain the voltage at the remaining d.c. output at a corresponding desired voltage level as a result of the relatively greater expected current to be drawn from said first generating winding and the increased internal voltage drop in said second generating winding as compared to said first generating winding for a given current flow due to the increased internal winding resistance of said second generating winding as compared to said first generating winding.
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Abstract
A multiple voltage electrical supply system continuously connected for individually charging a plurality of battery supplies continuously connected in series with one another to supply a plurality of load circuits having differing d.c. input voltage requirements and, typically, also having differing expected electrical power consumption rates. The system includes an alternator having electrically isolated generating windings disposed so as to insure that the magnetic flux linking each of the generating windings bears a substantially constant ratio to that linking the other of the generating windings. The exemplary embodiment has generating windings of different characteristic resistance per unit length such that there is an increased internal voltage drop in the winding intended to supply the lighter electrical load. The resultant voltage regulation characteristics are such that a single voltage regulator is sufficient to maintain both of the output voltages at a substantially constant predetermined ratio.
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Citations
14 Claims
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1. A multiple voltage electrical supply system continuously connected for individually charging a plurality of battery supplies continuously connected in series with one another to supply a plurality of load circuits having differing d.c. input voltage requirements, said load circuits also having differing expected electrical power consumption rates such that one of said battery supplies is normally expected to draw less charging current than the other of said battery supplies, said system comprising:
an alternator structure including, a stator means having salient poles of ferromagnetic material, a rotor means magnetically coupled and rotably mounted with respect to said stator means and shaped so as to cause variations of magnetic flux within said salient poles in response to rotation thereof, a field winding mounted to generate magnetic flux in said rotor and stator means in response to electrical current flow in said field winding, a first generating winding disposed upon said salient poles of a first electrical conductor having a first characteristic resistance per unit length and producing a first a.c. output therefrom in response to rotation of said rotor means due to the magnetic flux variations produced thereby, a second generating winding electrically isolated from said first winding, said second winding also being disposed upon said salient poles so as to insure that the magnetic flux linking said first generating winding bears a substantially constant ratio to the magnetic flux linking said second generating winding, said second generating winding being formed of a second conductor having a second characteristic resistance per unit length greater than said first characteristic resistance per unit length thereby producing an increased internal voltage drop in said second winding as compared to said first winding for a given current flow, said second winding producing a second a.c. output therefrom in response to rotation of said rotor structure due to the magnetic flux variations produced thereby; a first rectifier means continuously connected to said first generating winding and converting said first a.c. output into a corresponding first d.c. output which is, in turn, continuously connected to provide charging current to the said other of said battery supplies requiring the relatively greater expected charging current; a second rectifier means continuously connected to said second generating winding and converting said second a.c. output into a corresponding second d.c. output which is, in turn, continuously connected to provide charging current to the said one of said battery supplies requiring the relatively smaller expected charging current; and a single voltage regulator connected to sense the voltage at one of said first and second d.c. outputs an also connected to control the current flow in said field winding so as to maintain the voltage at said selected one of the d.c. outputs at a desired level and thereby also substantially maintain the voltage at the remaining d.c. output at a corresponding desired voltage level as a result of the relatively greater expected current to be drawn from said first generating winding and the increased internal voltage drop in said second generating winding as compared to said first generating winding for a given current flow due to the increased internal winding resistance of said second generating winding as compared to said first generating winding. - View Dependent Claims (2, 3)
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4. A multiple voltage electrical supply system for use with a plurality of load circuits having differing d.c. input voltage requirements, said system comprising:
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an alternator having a plurality of sets of generating windings producing a corresponding plurality of a.c. output voltages, at least one of said sets of generating windings being formed of differently sized conductors than another of said sets of generating windings, a plurality of rectifiers, each continuously connected with a respective one of said sets of generating windings, for rectifying said plurality of a.c. output voltages into a corresponding plurality of d.c. voltages, a plurality of batteries continuously connected in series with one another, each of said batteries having two terminals, a plurality of load circuits continuously connected across different pairs of said terminals of said series connected batteries so as to receive different d.c. voltages from said batteries, conductor means continuously connecting each of said plurality of d.c. voltages from said plurality of rectifiers across two respectively associated terminals of an individual respectively associated one of said batteries, said alternator having a magnetic flux conducting ferromagnetic core carrying said sets of generating windings and also having a field coil, the degree of excitation of which controls the total amount of magnetic flux passing through said core and the amplitude of the a.c. voltages induced in the windings of said sets of windings, said windings being mounted on said core in such a manner that a substantially constant ratio of magnetic flux magnetically links each of the sets of windings when compared to one another, and a single voltage regulator means responsive to the electrical output from a corresponding single one of said sets of generating windings for controlling the excitation of said field coil and maintaining the electrical output voltages from all of said sets of generating windings at substantially constant values without changing any electrical interconnections between said winding, rectifiers, batteries or load circuits the relative construction, size and disposition of said sets of generating windings being effective to automatically maintain substantially constant output voltages from all sets of generating windings in response to regulation from said single voltage regulator means while, at the same time, automatically varying the charging current produced from said sets of generating windings as required by the respectively corresponding connected batteries. - View Dependent Claims (5)
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6. A dual voltage electrical system comprising:
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an alternator having a first set of generating windings producing a first a.c. output voltage and also having a second set of generating windings electrically isolated from said first set of windings and producing a second a.c. output voltage; said first set of generating windings being formed of differently sized conductors than said second set of generating windings, a first rectifier for rectifying said first a.c. output voltage into a first d.c. voltage, said first rectifier having first and second output terminals across which said first d.c. voltage appears, a second rectifier for rectifying said second a.c. output voltage into a second d.c. voltage, said second rectifier having third and fourth output terminals across which said second d.c. voltage appears, said second and third terminals being of opposite polarity, conductor means electrically connecting said second and third terminals to one another continuously at a common point, a first battery continuously connected between said first terminal and said common point, a second battery continuously connected between said common point and said fourth terminal, a service load circuit connected across said first terminal and said common point so as to be in parallel with said first battery, a second load circuit requiring a higher input voltage than said service load circuit connected across said first and fourth terminals so as to be connected in parallel with the series combination of said two batteries, said alternator having a magnetic flux conducting ferromagnetic core carrying said first and second sets of generating windings and also having a field coil, each winding of one of said sets having a corresponding winding in the other of said sets and each winding and its corresponding winding being mounted on said core in such a manner that substantially all of the magnetic flux which passes through any one winding also passes through its corresponding winding and so that the voltage induced in one winding has a fixed ratio to the voltage induced in its corresponding winding, and a single voltage regulator responsive to the d.c. output voltage appearing across the two output terminals of one of said two rectifiers for controlling the excitation of said field coil to maintain said latter d.c. output voltage at a substantially constant value the relative construction, size and disposition of said sets of generating windings being effective to automatically maintain substantially constant output voltages from all sets of generating windings in response to regulation from said single voltage regulator means while, at the same time, automatically varying the charging current produced from said sets of generating windings as required by the respectively corresponding connected batteries. - View Dependent Claims (7, 8)
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9. A multiple voltage electrical supply system for use with a plurality of load circuits having differing d.c. input voltage requirements, said system comprising:
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an alternator having a plurality of sets of generating windings producing a corresponding plurality of a.c. output voltages, a plurality of rectifiers, each continuously connected with a respective one of said sets of generating windings, for rectifying said plurality of a.c. output voltages into a corresponding plurality of d.c. voltages, a plurality of batteries continuously connected in series with one another, each of said batteries having two terminals, a plurality of load circuits continuously connected across different pairs of said terminals of said series connected batteries so as to receive different d.c. voltages from said batteries, conductor means continuously connecting each of said plurality of d.c. voltages from said plurality of rectifiers across two respectively associated terminals of an individual respectively associated one of said batteries, said alternator having a magnetic flux conducting ferromagnetic core carrying said sets of generating windings and also having a field coil, the degree of excitation of which controls the total amount of magnetic flux passing through said core and the amplitude of the a.c. voltages induced in the windings of said sets of windings, said windings being mounted on said core in such a manner that a substantially constant ratio of magnetic flux magnetically links the sets of windings, a single voltage regulator means responsive to the electrical output from a corresponding single one of said sets of generating windings for controlling the excitation of said field coil and maintaining the electrical output voltages from all of said sets of generating windings at substantially constant values without changing any electrical interconnections between said windings, rectifiers, batteries or load circuits, each winding of one of said sets having a corresponding winding in each of the other sets and said ferromagnetic core of said alternator including a plurality of salient poles, corresponding windings of said sets of generating windings being mounted on the same one of said salient poles, and said alternator being an inductor alternator wherein said field coil, said core and said sets of generating windings are stationary relative to one another, said inductor alternator including a part of ferromagnetic material rotatable relative to said core for varying the reluctance of the flux paths through said salient poles of said core to in turn vary the amount of flux passing through said salient poles and the voltages induced in the windings on said poles.
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10. A multiple voltage electrical supply system for use with a plurality of load circuits having differing d.c. input voltage requirements, said system comprising:
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an alternator having a plurality of sets of generating windings producing a corresponding plurality of a.c. output voltages, a plurality of rectifiers, each continuously connected with a respective one of said sets of generating windings, for rectifying said plurality of a.c. output voltages into a corresponding plurality of d.c. voltages, a plurality of batteries continuously connected in series with one another, each of said batteries having two terminals, a plurality of load circuits continuously connected across different pair of said terminals of said series connected batteries so as to receive different d.c. voltages from said batteries, conductor means continuously connecting each of said plurality of d.c. voltages from said plurality of rectifiers across two respectively associated terminals of an individual respectively associated one of said batteries, said alternator having a magnetic flux conducting ferromagnetic core carrying said sets of generating windings and also having a field coil, the degree of excitation of which controls the total amount of magnetic flux passing through said core and the amplitude of the a.c. voltages induced in the windings of said set of windings, said windings being mounted on said core in such a manner that a substantially constant ratio of magnetic flux magnetically links the sets of windings, a single voltage regulator means responsive to the electrical output from a corresponding single one of said sets of generating windings for controlling the excitation of said field coil and maintaining the electrical output voltages from all of said sets of generating windings at substantially constant values without changing any electrical interconnections between said windings, rectifiers, batteries or load circuits, each winding of one of said sets having a corresponding winding in each of the other sets and said ferromagnetic core of said alternator including a plurality of salient poles, corresponding windings of said sets of generating windings being mounted on the same one of said salient poles, and said corresponding windings of said sets being wound in multifilar relationship with one another.
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11. A multiple voltage electrical supply system for use with a plurality of load circuits having differing d.c. input voltage requirements, said system comprising:
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an alternator having a plurality of sets of generating windings producing a corresponding plurality of a.c. output voltages, a plurality of rectifiers, each continuously connected with a respective one of said sets of generating windings, for rectifying said plurality of a.c. output voltages into a corresponding plurality of d.c. voltages, a plurality of batteries continuously connected in series with one another, each of said batteries having two terminals, a plurality of load circuits continuously connected across different pairs of said terminals of said series connected batteries so as to receive different d.c. voltages from said batteries, conductor means continuously connecting each of said plurality of d.c. voltages from said plurality of rectifiers across two respectively associated terminals of an individual respctively associated one of said batteries, said alternator having a magnetic flux conducting ferromagnetic core carrying said sets of generating windings and also having a field coil, the degree of excitation of which controls the total amount of magnetic flux passing through said core and the amplitude of the a.c. voltages induced in the windings of said sets of windings, said windings being mounted on said core in such a manner that a substantially constant ratio of magnetic flux magnetically links the sets of windings, a single voltage regulator means responsive to the electrical output from a corresponding single one of said sets of generating windings for controlling the excitation of said field coil and maintaining the electrical output voltages from all of said sets of generating windings at substantially constant values without changing any electrical interconnections between said windings, rectifiers, batteries or load circuits, each winding of one of said sets having a corresponding winding in each of the other sets and said ferromagnetic core of said alternator including a plurality of salient poles, corresponding windings of said sets of generating windings being mounted on the same one of said salient poles, and each of said sets of generating windings including three groups of windings in which electrical voltages of different phases are induced, the three groups of windings of each set being connected to one another to produce a three-phase a.c. output voltage, and each of said rectifiers being a three-phase rectifier for rectifying the three-phase a.c. voltage from the associated set of generating windings into a d.c. voltage.
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12. A dual voltage electrical system comprising:
- an alternator having a first set of generating windings producing a first a.c. output voltage and also having a second set of generating windings electrically isolated from said first set of windings and producing a second a.c. output voltage,
a first rectifier for rectifying said first a.c. output voltage into a first d.c. voltage, said first rectifier having first and second output terminals across which said first d.c. voltage appears, a second rectifier for rectifying said second a.c. output voltage into a second d.c. voltage, said second rectifier having third and fourth output terminals across which said second d.c. voltage appears, said second and third terminals being of opposite polarity, conductor means electrically connecting said second and third terminals to one another continuously at a common point, a first battery continuously connected between said first terminal and said common point, a second battery continuously connected between said common point and said fourth terminal, a service load circuit connected across said first terminal and said common point so as to be in parallel with said first battery, a second load circuit requiring a higher input voltage than said service load circuit connected across said first and fourth terminals so as to be connected in parallel with the series combination of said two batteries, said alternator having a magnetic flux conducting ferromagnetic core carrying said first and second sets of generating windings and also having a field coil, each winding of one of said sets having a corresponding winding in the other of said sets and each winding and its corresponding winding being mounted on said core in such a manner that substantially all of the magnetic flux which passes through any one winding also passes through its corresponding winding and so that the voltage induced in one winding has a fixed ratio to the voltage induced in its corresponding winding, and a single voltage regulator responsive to the d.c. output voltage appearing across the two output terminals of one of said two rectifiers for controlling the excitation of said field coil to maintain said latter d.c. output voltage at a substantially constant value, said windings of said first set windings being in bifilar relationship with the corresponding windings of said second set of windings.
- an alternator having a first set of generating windings producing a first a.c. output voltage and also having a second set of generating windings electrically isolated from said first set of windings and producing a second a.c. output voltage,
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13. A dual voltage electrical system comprising:
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an alternator having a first set of generating windings producing a first a.c. output voltage and also having a second set of generating windings electrically isolated from said first set of windings and producing a second a.c. output voltage, a first rectifier for rectifying said first a.c. output voltage into a first d.c. voltage, said first rectifier having first and second output terminals across which said first d.c. voltage appears, a second rectifier for rectifying said second a.c. output voltage into a second d.c. voltage, said second rectifier having third and fourth output terminals across which said second d.c. voltage appears, said second and third terminals being of opposite polarity, conductor means electrically connecting said second and third terminals to one another continuously at a common point, a first battery continuously connected between said first terminal and said common point, a second battery continuously connected between said common point and said fourth terminal, a service load circuit connected across said first terminal and said common point so as to be in parallel with said first battery, a second load circuit requiring a higher input voltage than said service load circuit connected across said first and fourth terminals so as to be connected in parallel with the series combination of said two batteries, said alternator having a magnetic flux conducting ferromagnetic core carrying said first and second sets of generating windings and also having a field coil, each winding of one of said sets having a corresponding winding in the other of said sets and each winding and its corresponding winding being mounted on said core in such a manner that substantially all of the magnetic flux which passes through any one winding also passes through its corresponding winding and so that the voltage induced in one winding has a fixed ratio to the voltage induced in its corresponding winding, and a single voltage regulator responsive to the d.c. output voltage appearing across the two output terminals of one of said two rectifiers for controlling excitation of said field coil to maintain said latter d.c. output voltage at a substantially constant value, said alternator being an inductor alternator wherein said ferromagnetic core, said field coil and said two sets of generating windings are fixed relative to one another and wherein changes in the magnetic flux passing through said two sets of generating windings on said ferromagnetic core are produced by a ferromagnetic part rotatable relative to said core.
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14. A dual voltage electrical system comprising:
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an alternator having a first set of generating windings producing a first a.c. output voltage and also having a second set of generating windings electrically isolated from said first set of windings and producing a second a.c. output voltage, a first rectifier for rectifying said first a.c. output voltage into a first d.c. voltage, said first rectifier having first and second output terminals across which said first d.c. voltage appears, a second rectifier for rectifying said second a.c. output voltage into a second d.c. voltage, said second rectifier having third and fourth output terminals across which said second d.c. voltage appears, said second and third terminals being of opposite polarity, conductor means electrically connecting said second and third terminals to one another continuously at a common point, a first battery continuously connected between said first terminal and said common point, a second battery continuously connected between said common point and said fourth terminal, a service load circuit connected across said first terminal and said common point so as to be in parallel with said first battery, a second load circuit requiring a higher input voltage than said service load circuit connected across said first and fourth terminals so as to be connected in parallel with the series combination of said two batteries, said alternator having a magnetic flux conducting ferromagnetic core carrying said first and second sets of generating windings and also having a field coil, each winding of one of said sets having a corresponding winding in the other of said sets and each winding and its corresponding winding being mounted on said core in such a manner that substantially all of the magnetic flux which passes through any one winding also passes through its corresponding winding and so that the voltage induced in one winding has a fixed ratio to the voltage induced in its corresponding winding, a single voltage regulator responsive to the d.c. output voltage appearing across the two output terminals of one of said two rectifiers for controlling the excitation of said field coil to maintain said latter d.c. output voltage at a substantially constant value, and said first set of windings being made of conductor having a smaller resistance per unit length than the conductor comprising said second set of windings.
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Specification