voltage transformer - определение. Что такое voltage transformer
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Что (кто) такое voltage transformer - определение


Transformer         
  • "E" shaped plates for transformer cores developed by Westinghouse
  • Camouflaged]] transformer in [[Langley City]]
  • Interleaved E-I transformer laminations showing air gap and flux paths
  • Ideal transformer connected with source ''V''<sub>''P''</sub> on primary and load impedance ''Z''<sub>''L''</sub> on secondary, where 0&nbsp;<&nbsp;''Z''<sub>''L''</sub>&nbsp;<&nbsp;∞.
  • An [[electrical substation]] in [[Melbourne]], [[Australia]]
showing three of five 220&nbsp;kV – 66&nbsp;kV transformers, each with a capacity of 150&nbsp;MVA
  • Power transformer overexcitation condition caused by decreased frequency; flux (green), iron core's magnetic characteristics (red) and magnetizing current (blue).
  • Substation transformer undergoing testing.
  • Transformer at the [[Limestone Generating Station]] in [[Manitoba]], Canada
  • Leakage flux of a transformer
  • Core form = core type; shell form = shell type
  • Schematic of a large oil-filled power transformer 1. Tank 2. Lid
3. Conservator tank 4. Oil level indicator 5. Buchholz relay for detecting gas bubbles after an internal fault 6. Piping
7. Tap changer 8. Drive motor for tap changer 9. Drive shaft for tap changer
10. High voltage (HV) bushing
11. High voltage bushing current transformers
12. Low voltage (LV) bushing
13. Low voltage current transformers
14. Bushing voltage-transformer for metering
15. Core 16. Yoke of the core
17. Limbs connect the yokes and hold them up 18. Coils
19. Internal wiring between coils and tapchanger
20. Oil release valve
21. Vacuum valve
ELECTRICAL DEVICE THAT TRANSFERS ENERGY THROUGH ELECTROMAGNETIC INDUCTION FROM ONE CIRCUIT TO ANOTHER CIRCUIT
AC transformer; Powerstat; Primary coil; Secondary Coil; Transformers (electrical); Transfomer; Line transformer; Tap (transformer); Electrical transformer; Air-core transformer; Primary winding; Secondary winding; Voltage conversion; Power transformer; Secondary coil; Power drums; Step down transformer; Step up transformer; Electric transformer; Ideal transformer; Step-down transformer; Step-up transformer; Primary circuit; Secondary circuit; Xformer; Electricity transformer; Magnetizing current; Displacement factor; Unit auxiliary transformer; Dry-type transformer; Dry type transformer; Trafo; TRAFO; Transformer turn ratio; Transformer ratio; Turn ratio; Xfmr; Oil natural, air natural; Oil natural, air forced; Oil forced, air forced; Stepdown transformer; Voltage to Hertz ratio; Overfluxing; Applications of transformers
·noun One who, or that which, transforms. Specif. (Elec.), an apparatus for producing from a given electrical current another current of different voltage.
transformer         
  • "E" shaped plates for transformer cores developed by Westinghouse
  • Camouflaged]] transformer in [[Langley City]]
  • Interleaved E-I transformer laminations showing air gap and flux paths
  • Ideal transformer connected with source ''V''<sub>''P''</sub> on primary and load impedance ''Z''<sub>''L''</sub> on secondary, where 0&nbsp;<&nbsp;''Z''<sub>''L''</sub>&nbsp;<&nbsp;∞.
  • An [[electrical substation]] in [[Melbourne]], [[Australia]]
showing three of five 220&nbsp;kV – 66&nbsp;kV transformers, each with a capacity of 150&nbsp;MVA
  • Power transformer overexcitation condition caused by decreased frequency; flux (green), iron core's magnetic characteristics (red) and magnetizing current (blue).
  • Substation transformer undergoing testing.
  • Transformer at the [[Limestone Generating Station]] in [[Manitoba]], Canada
  • Leakage flux of a transformer
  • Core form = core type; shell form = shell type
  • Schematic of a large oil-filled power transformer 1. Tank 2. Lid
3. Conservator tank 4. Oil level indicator 5. Buchholz relay for detecting gas bubbles after an internal fault 6. Piping
7. Tap changer 8. Drive motor for tap changer 9. Drive shaft for tap changer
10. High voltage (HV) bushing
11. High voltage bushing current transformers
12. Low voltage (LV) bushing
13. Low voltage current transformers
14. Bushing voltage-transformer for metering
15. Core 16. Yoke of the core
17. Limbs connect the yokes and hold them up 18. Coils
19. Internal wiring between coils and tapchanger
20. Oil release valve
21. Vacuum valve
ELECTRICAL DEVICE THAT TRANSFERS ENERGY THROUGH ELECTROMAGNETIC INDUCTION FROM ONE CIRCUIT TO ANOTHER CIRCUIT
AC transformer; Powerstat; Primary coil; Secondary Coil; Transformers (electrical); Transfomer; Line transformer; Tap (transformer); Electrical transformer; Air-core transformer; Primary winding; Secondary winding; Voltage conversion; Power transformer; Secondary coil; Power drums; Step down transformer; Step up transformer; Electric transformer; Ideal transformer; Step-down transformer; Step-up transformer; Primary circuit; Secondary circuit; Xformer; Electricity transformer; Magnetizing current; Displacement factor; Unit auxiliary transformer; Dry-type transformer; Dry type transformer; Trafo; TRAFO; Transformer turn ratio; Transformer ratio; Turn ratio; Xfmr; Oil natural, air natural; Oil natural, air forced; Oil forced, air forced; Stepdown transformer; Voltage to Hertz ratio; Overfluxing; Applications of transformers
n. a step-down; step-up transformer
Transformer         
  • "E" shaped plates for transformer cores developed by Westinghouse
  • Camouflaged]] transformer in [[Langley City]]
  • Interleaved E-I transformer laminations showing air gap and flux paths
  • Ideal transformer connected with source ''V''<sub>''P''</sub> on primary and load impedance ''Z''<sub>''L''</sub> on secondary, where 0&nbsp;<&nbsp;''Z''<sub>''L''</sub>&nbsp;<&nbsp;∞.
  • An [[electrical substation]] in [[Melbourne]], [[Australia]]
showing three of five 220&nbsp;kV – 66&nbsp;kV transformers, each with a capacity of 150&nbsp;MVA
  • Power transformer overexcitation condition caused by decreased frequency; flux (green), iron core's magnetic characteristics (red) and magnetizing current (blue).
  • Substation transformer undergoing testing.
  • Transformer at the [[Limestone Generating Station]] in [[Manitoba]], Canada
  • Leakage flux of a transformer
  • Core form = core type; shell form = shell type
  • Schematic of a large oil-filled power transformer 1. Tank 2. Lid
3. Conservator tank 4. Oil level indicator 5. Buchholz relay for detecting gas bubbles after an internal fault 6. Piping
7. Tap changer 8. Drive motor for tap changer 9. Drive shaft for tap changer
10. High voltage (HV) bushing
11. High voltage bushing current transformers
12. Low voltage (LV) bushing
13. Low voltage current transformers
14. Bushing voltage-transformer for metering
15. Core 16. Yoke of the core
17. Limbs connect the yokes and hold them up 18. Coils
19. Internal wiring between coils and tapchanger
20. Oil release valve
21. Vacuum valve
ELECTRICAL DEVICE THAT TRANSFERS ENERGY THROUGH ELECTROMAGNETIC INDUCTION FROM ONE CIRCUIT TO ANOTHER CIRCUIT
AC transformer; Powerstat; Primary coil; Secondary Coil; Transformers (electrical); Transfomer; Line transformer; Tap (transformer); Electrical transformer; Air-core transformer; Primary winding; Secondary winding; Voltage conversion; Power transformer; Secondary coil; Power drums; Step down transformer; Step up transformer; Electric transformer; Ideal transformer; Step-down transformer; Step-up transformer; Primary circuit; Secondary circuit; Xformer; Electricity transformer; Magnetizing current; Displacement factor; Unit auxiliary transformer; Dry-type transformer; Dry type transformer; Trafo; TRAFO; Transformer turn ratio; Transformer ratio; Turn ratio; Xfmr; Oil natural, air natural; Oil natural, air forced; Oil forced, air forced; Stepdown transformer; Voltage to Hertz ratio; Overfluxing; Applications of transformers
In alternate current lighting the induction coil by which the primary current with high initial electro-motive force is caused to produce a secondary current with low initial electromotive force. A typical transformer consists of a core of thin iron sheets. The primary is of comparatively thin wire and often of ten or more times as many turns as the secondary. The latter is of thicker wire. Where the ratio of 10 to 1 as regards number of turns in the primary and secondary obtains, the initial E. M. F. of the secondary is one-tenth that of the primary circuit. The cores are laminated, as described, to avoid the formation of Foucault currents. The counter-electro-motive force of the transformer when the secondary circuit is open, prevents any but the slightest current from passing through the primary. In proportion as the secondary is closed and its resistance diminished, as by lighting more lamps in parallel, the counter-electro-motive force of the transformer falls and more current passes through the primary. Fig. 339. FERRANTI'S TRANSFORMER. The economy of the apparatus is in the fact that counter-electromotive force reduces current through a conductor without absorbing any energy. A resistance coil cuts down a current, but absorbs energy equal to the current multiplied by the potential difference between the terminals of the coil. This electric energy is converted into heat energy and is wasted. But the counter-electromotive force of a transformer is exerted to reduce current without production of heat and with little waste of energy. This is one of the advantages of the alternating current system of distribution of electric energy. The object of a transformer being to secure safety to the person or to life by the separation of the high potential primary or street circuit, and the low potential house circuit, any contact of the two circuits in the converter is a source of danger. Special care should be taken to ensure absence of leakage, as it is termed. Mica or other insulation is sometimes employed to prevent the wires from coming in contact by piercing or sparking with the core and with each other.

Википедия

Voltage transformer
thumb|A 120:120 instrument isolation transformer showing two polarity marking conventions