Title of Invention | AN ALTERNATOR WITH VARIABLE OUTPUT VOLTAGE |
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Abstract | An alternator with output-voltage comprising a stator coil winding of N strands per pole corresponding to N value of the output voltage required; and switching means which connects the said strands together in predetermined relationships, to create a predetermined number of turns of the said winding necessary to produce predetermined values of voltage at the output terminals of the said alternator. |
Full Text | This invention relates to an alternator with variable output voltage. During the operation of an alternator, it becomes necessary to run the same at one or more valuer, of output voltage depending upon the requirements of" specific applications. This invention proposes an alternator which Ls capable of providing variable .output voltage values without the need for carrying out any major constructional changes in the alternator system. The speed of the prime mover driving the alternator remains unaltered as long as the load on the J atter is within design limits. The change-over to various output voltage values is achieved quickly and effortlessly. The various features of this invention will be discernible from thfe following further description thereof given hereunder. The alternator with variable output-voltage, according to this invention, comprises a stator coil winding of N strands per phase corresponding to N values of the output voltage required; and switching means which connect the said strands- together in predetermined relationships, to create a predetermined number of turns of the said winding necessary to produce predetermined values of voltage at the output term inals of the said alternator. This invention will now be described with reference to the accompanying drawings which illustrate by way of example and not by way of limitation one of possible embodiments of the alternator proposed herein. Fig. 1 illustrating the phase winding of a normal alternator Fig.2 illustrating the phase winding of the alternator proposed herein Fig. 3 illustrating a layout diagram of the said embodiment The proposed alternator G will be seen to have N strands per phase (Fig.2) corresponding to X values of the output voltage. The prime mover driving the alternator is indicated by P. required. Fig. 1 illustrates the winding of the normal alternator. , Switching means B are provided and these means connect the said strands together in predetermined relationships, to create a predetermined number of turns of the said winding necessary to produce predetermined values of voltage at the output terminals of the said alternator. The cross sectional area of each of the N strands can be a fraction of the cross-sectional area of the conductor of the winding- of the corresponding known standard alternator so that the sum total of the cross-sectional areas of the N strands substantially equals the cross-sect]onal area of the said conductor. One of possible forms of the switching means comprise an electrical switching system whereby, on manual actuation of the said means, the N strands are connected together in the manner stated. Alternatively, the switching means comprise on electronic switching system, whereby, on manual actuation of the said means, the N strands are connected together in the manner stated. Alternatively, the switching means comprise a manual switching system e.g. multipole-multithrow switches, whereby on manual actuation of the said means the N strands are connected together in the manner stated. A chart indicates as to how the switching means are to be operated manually to connect the N strands in a predetermined manner to obtain the desired value of the output-voltage. Depending upon the value of the output voltage required, the N strands will be connected in series, parallel, series-parallel relationship. The alternator proposed herein will have a single phase or a multi-phase winding. The terms and expressions herein are of description and not of limitation, there being no intention of excluding any equivalents of the features illustrated and described, but it is understood that various of the embodiments of the alternator proposed herein are possible without departing from the scope and ambit of this invention. 1 Claim: 1. An alternator with variable output voltage comprising a stator coil winding of N strands per phase corresponding to N values of the output voltage required; and switching means which connect- the said strands together in predetermined relationships, to create a predetermined number of turns of the said winding necessary to produce predetermined values of voltage at the output terminals of the said alternator. 2. An alternator as claimed in Claim 1 wherein the cross-sectional area of each of the N strands is a fraction of the cross-sectional area of the conductor of the winding of the corresponding known standard induction motor so that the sum total of the cross-sectiona] areas of the N strands substantially equals the cross-sectiona1 area of the said conductor. 3. An alterna"tor as claimed in any one of the preceding Claims wherein the switching means comprise an electrical switching system. 4. An alternator as claimed in ^ny one of the preceding^ Claims 1 and 2 wherein the switchi ng means comprise an electronic switching system. 5. An alternator as claimed in (any one of the preceding) Claims 1 and 2 wherein the switching means compr.i se a manual switching system. 6. An alternator as claimed In any one of the preceding Claims wherein the predetermi ned relationship of the said strands comprises connection thereof in series, parallel, series-parallel relationship. 7. An alternator as claimed in any one of_ th^ preceding Claims provided with a single-phase winding. 8. An alternator as claimed in any one of the preceding I Claims 1 to 6 provided with a multi-phase w i nding. 9. An alternator with variable output-voltage substantially as herein described with reference to, and as illustrated in, the accompanying drawings. |
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0302-mas-2002 abstract duplicate.pdf
0302-mas-2002 claims duplicate.pdf
0302-mas-2002 correspondence-others.pdf
0302-mas-2002 correspondence-po.pdf
0302-mas-2002 description (complete) duplicate.pdf
0302-mas-2002 description (complete).pdf
0302-mas-2002 drawings duplicate.pdf
Patent Number | 201789 | ||||||||
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Indian Patent Application Number | 302/MAS/2002 | ||||||||
PG Journal Number | 05/2007 | ||||||||
Publication Date | 02-Feb-2007 | ||||||||
Grant Date | 21-Aug-2006 | ||||||||
Date of Filing | 18-Apr-2002 | ||||||||
Name of Patentee | MS. DAMAYANTI RAMACHANDRAN | ||||||||
Applicant Address | 20 A.T.D. STREET, RACE COURSE, COIMBATORE 641 018, | ||||||||
Inventors:
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PCT International Classification Number | H02K 3/46 | ||||||||
PCT International Application Number | N/A | ||||||||
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PCT Conventions:
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