ºÝºÝߣshows by User: nganesh90 / http://www.slideshare.net/images/logo.gif ºÝºÝߣshows by User: nganesh90 / Sun, 10 May 2020 07:31:30 GMT ºÝºÝߣShare feed for ºÝºÝߣshows by User: nganesh90 Logic gates and its realization /slideshow/logic-gates-and-its-realization/233503237 logicgatesanditsrealization-200510073131
Various logic gates are described with their logic symbol, truth table and the same are realized using Every Circuit app. ]]>

Various logic gates are described with their logic symbol, truth table and the same are realized using Every Circuit app. ]]>
Sun, 10 May 2020 07:31:30 GMT /slideshow/logic-gates-and-its-realization/233503237 nganesh90@slideshare.net(nganesh90) Logic gates and its realization nganesh90 Various logic gates are described with their logic symbol, truth table and the same are realized using Every Circuit app. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/logicgatesanditsrealization-200510073131-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> Various logic gates are described with their logic symbol, truth table and the same are realized using Every Circuit app.
Logic gates and its realization from nganesh90
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UNIT V Design of Electrical Apparatus /slideshow/unit-v-design-of-electrical-apparatus/192672984 synchronousmachines-22-191112083425
Output equation; Choice of Magnetic and Electric loadings; Main dimensions; Separation of D & L for Salient pole and Turbo m/c. Types; Design of Salient pole machines; Short circuit ratio; shape of pole face; Armature design; Armature parameters; Estimation of air gap length; Design of Rotor; Design of Damper windings; Determination of full load mmf; Design of field windings; Design of Turbo alternators; Rotor design. ]]>

Output equation; Choice of Magnetic and Electric loadings; Main dimensions; Separation of D & L for Salient pole and Turbo m/c. Types; Design of Salient pole machines; Short circuit ratio; shape of pole face; Armature design; Armature parameters; Estimation of air gap length; Design of Rotor; Design of Damper windings; Determination of full load mmf; Design of field windings; Design of Turbo alternators; Rotor design. ]]>
Tue, 12 Nov 2019 08:34:25 GMT /slideshow/unit-v-design-of-electrical-apparatus/192672984 nganesh90@slideshare.net(nganesh90) UNIT V Design of Electrical Apparatus nganesh90 Output equation; Choice of Magnetic and Electric loadings; Main dimensions; Separation of D & L for Salient pole and Turbo m/c. Types; Design of Salient pole machines; Short circuit ratio; shape of pole face; Armature design; Armature parameters; Estimation of air gap length; Design of Rotor; Design of Damper windings; Determination of full load mmf; Design of field windings; Design of Turbo alternators; Rotor design. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/synchronousmachines-22-191112083425-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> Output equation; Choice of Magnetic and Electric loadings; Main dimensions; Separation of D &amp; L for Salient pole and Turbo m/c. Types; Design of Salient pole machines; Short circuit ratio; shape of pole face; Armature design; Armature parameters; Estimation of air gap length; Design of Rotor; Design of Damper windings; Determination of full load mmf; Design of field windings; Design of Turbo alternators; Rotor design.
UNIT V Design of Electrical Apparatus from nganesh90
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UNIT IV design of Electrical Apparatus /slideshow/unit-iv-design-of-electrical-apparatus/192672100 ivdesignofinductionmotors-191112083141
Output equation of Induction motor; Main dimensions; Separation of D and L; Choice of Average flux density; length of air gap; Design of Stator core; Rules for selecting rotor slots of squirrel cage machines; Design of rotor bars and slots; Design of end rings; Design of wound rotor; Magnetic leakage calculations; Leakage reactance of polyphase machines; Magnetizing current; Short circuit current; Operating characteristics; Losses and Efficiency. ]]>

Output equation of Induction motor; Main dimensions; Separation of D and L; Choice of Average flux density; length of air gap; Design of Stator core; Rules for selecting rotor slots of squirrel cage machines; Design of rotor bars and slots; Design of end rings; Design of wound rotor; Magnetic leakage calculations; Leakage reactance of polyphase machines; Magnetizing current; Short circuit current; Operating characteristics; Losses and Efficiency. ]]>
Tue, 12 Nov 2019 08:31:41 GMT /slideshow/unit-iv-design-of-electrical-apparatus/192672100 nganesh90@slideshare.net(nganesh90) UNIT IV design of Electrical Apparatus nganesh90 Output equation of Induction motor; Main dimensions; Separation of D and L; Choice of Average flux density; length of air gap; Design of Stator core; Rules for selecting rotor slots of squirrel cage machines; Design of rotor bars and slots; Design of end rings; Design of wound rotor; Magnetic leakage calculations; Leakage reactance of polyphase machines; Magnetizing current; Short circuit current; Operating characteristics; Losses and Efficiency. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/ivdesignofinductionmotors-191112083141-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> Output equation of Induction motor; Main dimensions; Separation of D and L; Choice of Average flux density; length of air gap; Design of Stator core; Rules for selecting rotor slots of squirrel cage machines; Design of rotor bars and slots; Design of end rings; Design of wound rotor; Magnetic leakage calculations; Leakage reactance of polyphase machines; Magnetizing current; Short circuit current; Operating characteristics; Losses and Efficiency.
UNIT IV design of Electrical Apparatus from nganesh90
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Unit III Design of Electrical Machines /slideshow/unit-iii-design-of-electrical-machines/192670846 transformers-191112082801
Output equations; Main Dimensions; kVA output for 1 & 3 phase transformers; Window space factor; Design of core and winding; Overall dimensions; Operating characteristics; No-load current; Temperature rise in Transformers; Design of Tank; Methods of cooling of Transformers. ]]>

Output equations; Main Dimensions; kVA output for 1 & 3 phase transformers; Window space factor; Design of core and winding; Overall dimensions; Operating characteristics; No-load current; Temperature rise in Transformers; Design of Tank; Methods of cooling of Transformers. ]]>
Tue, 12 Nov 2019 08:28:01 GMT /slideshow/unit-iii-design-of-electrical-machines/192670846 nganesh90@slideshare.net(nganesh90) Unit III Design of Electrical Machines nganesh90 Output equations; Main Dimensions; kVA output for 1 & 3 phase transformers; Window space factor; Design of core and winding; Overall dimensions; Operating characteristics; No-load current; Temperature rise in Transformers; Design of Tank; Methods of cooling of Transformers. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/transformers-191112082801-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> Output equations; Main Dimensions; kVA output for 1 &amp; 3 phase transformers; Window space factor; Design of core and winding; Overall dimensions; Operating characteristics; No-load current; Temperature rise in Transformers; Design of Tank; Methods of cooling of Transformers.
Unit III Design of Electrical Machines from nganesh90
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Unit II Design of Electrical Machines /slideshow/unit-ii-design-of-electrical-machines/192669461 dcmachine-191112082414
Output Equation; Main dimensions; Separation of D & L; Choice of Electric and Magnetic Loadings; Magnetic circuit calculations; Carter’s Coefficient; Net length of Iron; Real and Apparent flux densities; Selection of No. of poles; Design of Armature; Design of Commutator and brushes; Performance prediction using design values. ]]>

Output Equation; Main dimensions; Separation of D & L; Choice of Electric and Magnetic Loadings; Magnetic circuit calculations; Carter’s Coefficient; Net length of Iron; Real and Apparent flux densities; Selection of No. of poles; Design of Armature; Design of Commutator and brushes; Performance prediction using design values. ]]>
Tue, 12 Nov 2019 08:24:14 GMT /slideshow/unit-ii-design-of-electrical-machines/192669461 nganesh90@slideshare.net(nganesh90) Unit II Design of Electrical Machines nganesh90 Output Equation; Main dimensions; Separation of D & L; Choice of Electric and Magnetic Loadings; Magnetic circuit calculations; Carter’s Coefficient; Net length of Iron; Real and Apparent flux densities; Selection of No. of poles; Design of Armature; Design of Commutator and brushes; Performance prediction using design values. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/dcmachine-191112082414-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> Output Equation; Main dimensions; Separation of D &amp; L; Choice of Electric and Magnetic Loadings; Magnetic circuit calculations; Carter’s Coefficient; Net length of Iron; Real and Apparent flux densities; Selection of No. of poles; Design of Armature; Design of Commutator and brushes; Performance prediction using design values.
Unit II Design of Electrical Machines from nganesh90
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Unit I design of electrical machines /slideshow/unit-i-design-of-electrical-machines/192667637 uniti-designofelectricalmachines-191112081859
Design factors; Limitations; Modern trends; Electrical Engineering Materials; Space factor; Choice of Specific Electric and Magnetic loadings; Thermal Considerations; Heat flow; Temperature rise; Insulating Materials; Properties; Rating of Machines; Various Standard Specifications ; ]]>

Design factors; Limitations; Modern trends; Electrical Engineering Materials; Space factor; Choice of Specific Electric and Magnetic loadings; Thermal Considerations; Heat flow; Temperature rise; Insulating Materials; Properties; Rating of Machines; Various Standard Specifications ; ]]>
Tue, 12 Nov 2019 08:18:59 GMT /slideshow/unit-i-design-of-electrical-machines/192667637 nganesh90@slideshare.net(nganesh90) Unit I design of electrical machines nganesh90 Design factors; Limitations; Modern trends; Electrical Engineering Materials; Space factor; Choice of Specific Electric and Magnetic loadings; Thermal Considerations; Heat flow; Temperature rise; Insulating Materials; Properties; Rating of Machines; Various Standard Specifications ; <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/uniti-designofelectricalmachines-191112081859-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> Design factors; Limitations; Modern trends; Electrical Engineering Materials; Space factor; Choice of Specific Electric and Magnetic loadings; Thermal Considerations; Heat flow; Temperature rise; Insulating Materials; Properties; Rating of Machines; Various Standard Specifications ;
Unit I design of electrical machines from nganesh90
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