Design the shunt field winding so as to have a low resistance per turn (— small). \n, I (4) Use a simple two-circuit armature winding (a = 2). (5) Make the air-gap as small as possible. (6) Select a moderate value of flux density in the air-gap and... Washington University Studies - Page 43by Washington University (Saint Louis, Mo.) - 1914Full view - About this book
| Washington University (Saint Louis, Mo.) - 1914 - 426 pages
...is involved in the discussion of Fig. 8. (2) Design the armature winding with one turn per element (3) Design the shunt field winding so as to have a...Use a simple two-circuit armature winding (a = 2). (6) Select a moderate value of flux density in the air-gap and make Z correspondingly large. In other... | |
| Alexander Suss Langsdorf - 1915 - 438 pages
...fZ (§-*). 3. Design .the shunt field winding so as to have a low resistance per turn (— small I . \n, I 4. Use a simple two-circuit armature winding...correspondingly large. In other words, the armature should he magnetically powerful. It is interesting to note that for moderate speeds the cubic curve y'n of... | |
| Alexander Suss Langsdorf - 1915 - 434 pages
...is involved in the discussion of Fig. 312. 2. Design the armature winding with one turn per element 3. Design the shunt field winding so as to have a low resistance per turn ( — small j . 4. Use a simple two-circuit armature winding (a = 2). 5. Make the air-gap as small as possible.... | |
| Alexander Suss Langsdorf - 1919 - 498 pages
...(§-'); 3. Design the shunt field winding so as to have a low resistance per turn ( -' small ) . \fia / 4. Use a simple two-circuit armature winding (a =...interesting to note that for moderate speeds the cubic curve y'n of Fig. 312 docs not deviate greatly from the straight line L. For the slope of the line L, as... | |
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