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vppautogenp1
2005-07-08T11:44:11
vppautogenp1 - Microsoft Word
2014-04-22T12:10:53-04:00
2014-04-22T12:10:53-04:00
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( )Tj
512.4 0 Td
( )Tj
/TT1 9.96 Tf
-512.4 -22.8 Td
( )Tj
-0.0083 Tc 0.0383 Tw 0 -11.76 TD
( 6\) )Tj
0.0182 Tc 0.0118 Tw ( Simplified lumped parameters)Tj
0 Tc 0.03 Tw ( )Tj
/TT2 14.04 Tf
-0.03 Tw 0 -15.84 TD
( )Tj
0 -12.48 TD
( )Tj
/TT0 9.96 Tf
-0.0025 Tc 3.0775 Tw 10.08 0 Td
(In order to obtain the simplified power comparisons in)Tj
0 Tc -0.09 Tw ( )Tj
-0.0278 Tc 1.1978 Tw -10.08 -11.76 Td
(Section V, some simplifying assumptions were made. As can)Tj
0 Tc -0.09 Tw ( )Tj
0.0063 Tc 1.1517 Tw 0 -11.76 TD
(be found in Section V, equation \(15\), the power delivered to)Tj
0 Tc 0.03 Tw ( )Tj
-0.0099 Tc 0.5199 Tw T*
(an impedance)Tj
0.0433 Tc 0 Tw (-)Tj
-0.0014 Tc 0.2714 Tw 58.68 0 Td
(matched load )Tj
-0.0125 Tc 0.3625 Tw 56.88 0 Td
(is based on the mutual inductance )Tj
/TT1 9.96 Tf
-0.0178 Tc 0 Tw -115.56 -11.76 Td
(L)Tj
/TT1 6.48 Tf
0 Tc 5.52 -1.56 Td
(af)Tj
/TT0 9.96 Tf
-0.0151 Tc 2.0851 Tw 5.04 1.56 Td
( and the synchronous inductance)Tj
0 Tc 0.03 Tw ( )Tj
/TT1 9.96 Tf
-0.0178 Tc 0 Tw 142.44 0 Td
(L)Tj
/TT1 6.48 Tf
0 Tc 5.52 -1.56 Td
(s)Tj
/TT0 9.96 Tf
0.0047 Tc 2.0653 Tw 2.52 1.56 Td
(. This section obtains)Tj
0 Tc -0.09 Tw ( )Tj
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(these simplified inductances. For the non)Tj
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(-)Tj
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(salient wound field)Tj
0 Tc 0.03 Tw ( )Tj
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(alternator, no simplifying assumptions are made and therefore)Tj
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(\(A.61\) and \(A.62\) are used. For the sa)Tj
-0.0211 Tc 3.5311 Tw (lient wound field)Tj
0 Tc 0.03 Tw ( )Tj
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(alternator, the pole width is assumed to be half a pole pitch)Tj
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(\()Tj
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(2)Tj
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(/)Tj
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0.0282 Tc -27.84 2.4 Td
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0.0171 Tc -6.96 0 Td
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(\), the larger air gap is ignored )Tj
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-0.05 Tc 166.44 0 Td
(\245)Tj
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(\256)Tj
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(2)Tj
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0.04 Tc -5.88 2.52 Td
(g)Tj
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0.0182 Tc 2.0518 Tw 34.68 0 Td
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0 Tc 0.03 Tw ( )Tj
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(saliency is ignored )Tj
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ET
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h
W n
BT
/TT4 13.625 Tf
-0.0465 Tc 0.7215 0 0 1 187.44 570.96 Tm
(\))Tj
ET
Q
BT
/TT3 10 Tf
-0.05 Tc 180.84 570.96 Td
(f)Tj
/TT0 10 Tf
0.04 Tc -4.32 0 Td
(2)Tj
0.0367 Tc -16.44 0 Td
(cos)Tj
/TT0 9.96 Tf
-0.0078 Tc 6.8378 Tw 32.28 0 Td
( term\). The simplified)Tj
0 Tc 0.03 Tw ( )Tj
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(inductances are)Tj
0 Tc 0.03 Tw ( )Tj
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7.68 0 l
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13.32 0 l
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1.2 0.72 l
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0.96 w
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1.8 -3.36 l
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0.48 w
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2.52 10.32 l
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6.12 0 l
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q 1 0 0 1 177.84 537.6 cm
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14.04 0 l
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q 1 0 0 1 198.36 537.6 cm
0 0 m
7.8 0 l
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BT
/TT0 10 Tf
0.03 Tc 0 Tw 242.04 535.2 Td
(\))Tj
-0.025 Tc -34.32 0 Td
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(2)Tj
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(2)Tj
-3 15.48 Td
[(1)3300(2)]TJ
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(2)Tj
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(2)Tj
/TT0 8 Tf
-0.04 Tc 49.8 4.2 Td
(0)Tj
/TT1 8 Tf
0.008 Tc 66.96 -6.72 Td
(r)Tj
0.056 Tc -99.96 8.28 Td
(f)Tj
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(w)Tj
0.008 Tc -9.36 0 Td
(s)Tj
0.068 Tc -29.28 -6.72 Td
(af)Tj
/TT1 10 Tf
0.04 Tc 170.04 2.52 Td
(p)Tj
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[(p)3864(g)3636(p)]TJ
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(N)Tj
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(RL)Tj
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(a)Tj
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(k)Tj
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(N)Tj
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(L)Tj
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-0.05 Tc 180.48 0 Td
(q)Tj
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(m)Tj
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(p)Tj
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0 Tc 40.08 3.72 Td
(\367)Tj
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(\367)Tj
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(\370)Tj
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(\366)Tj
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(\347)Tj
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(\350)Tj
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(\346)Tj
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(\367)Tj
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(\367)Tj
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(\370)Tj
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(\366)Tj
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(\347)Tj
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0 Tc 0.03 Tw 179.28 0 Td
( )Tj
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( \(A.81\))Tj
0 Tc 0.03 Tw ( )Tj
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q 1 0 0 1 124.08 503.64 cm
0 0 m
7.8 0 l
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q 1 0 0 1 133.68 503.64 cm
0 0 m
14.28 0 l
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q 1 0 0 1 149.88 503.64 cm
0 0 m
13.2 0 l
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q 1 0 0 1 173.04 503.64 cm
0 0 m
7.92 0 l
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q 1 0 0 1 190.92 503.64 cm
0 0 m
6.48 0 l
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0 0 m
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(\367)Tj
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(\367)Tj
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(\366)Tj
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(\347)Tj
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(\347)Tj
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(\350)Tj
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(\346)Tj
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(\367)Tj
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(\367)Tj
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(\370)Tj
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(\366)Tj
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(\347)Tj
0 4.8 TD
(\347)Tj
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(\350)Tj
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(\367)Tj
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(\370)Tj
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(\366)Tj
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(\347)Tj
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(\350)Tj
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[(1)2205(2)]TJ
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(4)Tj
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(2)Tj
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(3)Tj
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(k)Tj
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(p)Tj
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(N)Tj
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(RL)Tj
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(a)Tj
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(k)Tj
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(N)Tj
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(L)Tj
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(w)Tj
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(s)Tj
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(w)Tj
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(s)Tj
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(s)Tj
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(m)Tj
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(p)Tj
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0 Tc 0.03 Tw 105 7.8 Td
[( )205( )-759( )]TJ
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( \(A.82\))Tj
0 Tc 0.03 Tw ( )Tj
0.0013 Tc 3.8953 Tw -201.6 -24.36 Td
(For the Lundell alternator, the poles are assumed to be)Tj
0 Tc 0.03 Tw ( )Tj
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(rectangular and with widths equal to a pole pitch)Tj
0 Tc -0.09 Tw ( )Tj
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(\()Tj
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0.0282 Tc -32.16 2.4 Td
[(b)2957(b)]TJ
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0.0397 Tc 25.32 0 Td
(t)Tj
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0.0171 Tc -6.96 0 Td
[(=)3161(=)]TJ
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[(2)3666(1)]TJ
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0.0032 Tc 4.1582 Tw 28.44 2.4 Td
(\) . In addition, saliency is ignored. The)Tj
0 Tc 0.03 Tw ( )Tj
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(simplified)Tj
-0.0016 Tc 0.0316 Tw ( inductances are )Tj
0 Tc 0.03 Tw ( )Tj
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7.8 0 l
S
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65.52 0 l
S
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q 1 0 0 1 189.36 417.36 cm
0 0 m
7.92 0 l
S
Q
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(\367)Tj
0 4.2 TD
(\367)Tj
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(\370)Tj
0 17.16 TD
(\366)Tj
-54.48 -10.68 Td
(\347)Tj
0 4.2 TD
(\347)Tj
0 -10.68 TD
(\350)Tj
0 17.16 TD
(\346)Tj
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(=)Tj
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0.0339 Tc 166.08 0 Td
(\))Tj
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(cos\()Tj
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(2)Tj
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(\))Tj
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(2)Tj
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(\()Tj
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(\))Tj
0.0459 Tc -17.16 0 Td
(2)Tj
0.0339 Tc -3.6 0 Td
(\()Tj
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(8)Tj
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(r)Tj
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(p)Tj
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(p)Tj
0.0117 Tc 9.96 16.56 Td
(s)Tj
0.0586 Tc -13.68 0 Td
(f)Tj
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(w)Tj
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(p)Tj
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(p)Tj
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(RL)Tj
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(k)Tj
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(p)Tj
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(t)Tj
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(t)Tj
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(m)Tj
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(p)Tj
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[( )-229( )]TJ
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0 Tc 0.03 Tw ( )Tj
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0 0 m
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0 0 m
7.8 0 l
S
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q 1 0 0 1 133.68 384.36 cm
0 0 m
14.28 0 l
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q 1 0 0 1 149.76 384.36 cm
0 0 m
13.2 0 l
S
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q 1 0 0 1 172.92 384.36 cm
0 0 m
8.04 0 l
S
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q 1 0 0 1 190.92 384.36 cm
0 0 m
13.32 0 l
S
Q
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(\367)Tj
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(\367)Tj
0 -10.56 TD
(\370)Tj
0 17.04 TD
(\366)Tj
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(\347)Tj
0 4.2 TD
(\347)Tj
0 -10.56 TD
(\350)Tj
0 17.04 TD
(\346)Tj
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(\367)Tj
0 4.2 TD
(\367)Tj
0 -10.56 TD
(\370)Tj
0 17.04 TD
(\366)Tj
-14.28 -10.68 Td
(\347)Tj
0 4.2 TD
(\347)Tj
0 -10.56 TD
(\350)Tj
0 17.04 TD
(\346)Tj
-3.72 -10.68 Td
(\367)Tj
0 4.2 TD
(\367)Tj
0 -10.56 TD
(\370)Tj
0 17.04 TD
(\366)Tj
-53.52 -10.68 Td
(\347)Tj
0 4.2 TD
(\347)Tj
0 -10.56 TD
(\350)Tj
0 17.04 TD
(\346)Tj
0.0371 Tc -47.28 -6.84 Td
(=)Tj
/TT1 9.987 Tf
0.0465 Tc 131.88 -7.8 Td
[(g)2511(p)2631(a)]TJ
0.0057 Tc -44.4 14.52 Td
(k)Tj
0.0465 Tc -9.24 -14.52 Td
(p)Tj
0.0586 Tc -6.48 14.52 Td
(N)Tj
-0.0075 Tc -36.12 -6.72 Td
(RL)Tj
0.0465 Tc -17.28 -7.8 Td
(a)Tj
0.0057 Tc 3 14.52 Td
(k)Tj
0.0586 Tc -11.88 0 Td
(N)Tj
-0.0328 Tc -22.44 -6.72 Td
(L)Tj
/TT1 7.99 Tf
-0.0491 Tc 105.6 4.2 Td
(w)Tj
0.012 Tc -13.2 0 Td
(s)Tj
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(w)Tj
0.012 Tc -9.24 0 Td
(s)Tj
-24.6 -6.72 Td
(s)Tj
/TT0 7.99 Tf
-0.0348 Tc 142.44 6.72 Td
(0)Tj
/TT0 9.987 Tf
0.0465 Tc -23.76 2.16 Td
(2)Tj
-39.48 -14.16 Td
(2)Tj
-9.6 14.16 Td
(4)Tj
-9 -14.16 Td
(2)Tj
0 14.16 TD
(3)Tj
/TT3 9.987 Tf
0.0074 Tc 75.36 0.36 Td
(m)Tj
0.0371 Tc -67.8 -14.52 Td
(p)Tj
/TT0 9.96 Tf
0 Tc 0.03 Tw 87 7.8 Td
[( )-590( )-759( )-759( )-759( )]TJ
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( \(A.84\))Tj
0 Tc 0.03 Tw ( )Tj
0.001 Tc 1.265 Tw -211.68 -22.32 Td
(For the homopolar inductor alternator, the width of a pole is)Tj
0 Tc -0.09 Tw ( )Tj
0.0044 Tc 0.5456 Tw 0 -12.48 TD
(made to span a pole pitch )Tj
0.5233 Tc 0 Tw (\()Tj
/TT1 8.019 Tf
-0.0494 Tc 140.16 -2.4 Td
[(p)3232(p)]TJ
/TT1 10.023 Tf
0.0282 Tc -27.84 2.4 Td
(b)Tj
/TT3 10.023 Tf
0.0397 Tc 21 0 Td
(t)Tj
/TT4 10.023 Tf
0.0171 Tc -6.96 0 Td
(=)Tj
/TT0 9.96 Tf
0.0054 Tc 0.5046 Tw 20.4 0 Td
(\), and the larger air gap is)Tj
0 Tc -0.09 Tw ( )Tj
0.0119 Tc 0.0181 Tw -146.76 -16.92 Td
(ignored \()Tj
/TT4 10 Tf
-0.05 Tc 0 Tw 63.96 0 Td
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