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1 compound-wound transformer
= compound-wound current transformer компенсированный трансформаторEnglish-Russian dictionary of mechanical engineering and automation > compound-wound transformer
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2 compound-wound transformer
Автоматика: (current) компенсированный трансформаторУниверсальный англо-русский словарь > compound-wound transformer
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3 compound-wound current transformer
English-Russian dictionary of mechanical engineering and automation > compound-wound current transformer
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4 compound-wound current transformer
compound-wound current transformer Stromwandler m mit ZusatzmagnetisierungEnglish-German dictionary of Electrical Engineering and Electronics > compound-wound current transformer
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5 compound-wound current transformer
трансформатор тока со вспомогательной обмоткой (для компенсации фазовой погрешности)
-EN
compound-wound current transformer
a current transformer having an auxiliary winding with an independent supply especially intended to reduce the phase displacement between the primary and secondary currents
[IEV number 321-02-14]FR
transformateur de courant compoundé
transformateur de courant comportant un enroulement auxiliaire, alimenté indépendamment et destiné essentiellement à réduire le déphasage entre les courants primaire et secondaire
[IEV number 321-02-14]Тематики
EN
DE
FR
Англо-русский словарь нормативно-технической терминологии > compound-wound current transformer
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6 compound-wound (current) transformer
Автоматика: компенсированный трансформаторУниверсальный англо-русский словарь > compound-wound (current) transformer
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7 compound-wound current transformer
Универсальный англо-русский словарь > compound-wound current transformer
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8 compound-wound current transformer
przekładnik prądowy z uzwojeniem korekcyjnym zasilanym z obcego źródłaEnglish-Polish dictionary for engineers > compound-wound current transformer
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9 compound-wound current transformer
Англо-русский словарь по электроэнергетике > compound-wound current transformer
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10 transformer
•- bar primary bushing-type current transformer
- bar primary-type current transformer
- bus-type current transformer
- cable-type current transformer
- capacitor voltage transformer
- cascade inductive voltage transformer
- cascade voltage transformer
- combined transformer
- compound-wound current transformer
- compound-wound transformer
- current transformer
- current-matching transformer
- differential transformer
- electric transformer
- extended rating-type current transformer
- fully insulated current transformer
- grounded voltage transformer
- hydraulic transformer
- hydropneumatic transformer
- instrument transformer
- linear differential transformer
- linear hydraulic transformer
- linear variable transformer
- matching transformer
- measuring current transformer
- measuring voltage transformer
- orbital transformer
- power transformer
- protective current transformer
- protective voltage transformer
- rotary hydraulic transformer
- step-down transformer
- step-up transformer
- summation current transformer
- support-type current transformer
- synchro control transformer
- triple-wound transformer
- ungrounded voltage transformer
- voltage transformer
- welding transformerEnglish-Russian dictionary of mechanical engineering and automation > transformer
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11 transformer
3) пищ. котёл для получения инвертированного сиропа•-
adapter transformer
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adjustable transformer
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air transformer
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air-blast transformer
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air-cooled transformer
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air-core transformer
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air-natural transformer
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amorphous-core transformer
- arc furnace transformer -
arc-welding transformer
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audio-frequency transformer
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autocompounded current transformer
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autocompounded voltage transformer
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autoconnected transformer
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auxiliary transformer
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balanced-to-unbalanced transformer
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balance-to-unbalanced transformer
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balanced-to-unbalance transformer
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balance-to-unbalance transformer
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balanced transformer
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balancing transformer
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ballast transformer
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banked distribution transformers
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bar-type transformer
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bell transformer
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booster transformer
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bridge transformer
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busbar current transformer
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capacitive voltage transformer
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cascade transformer
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cast resin transformer
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center-tapped transformer
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closed core transformer
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code transformer
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combined voltage and current transformer
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compensated current transformer
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compensated voltage transformer
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compound-filled instrument transformer
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constant-current transformer
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constant-potential transformer
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control circuit transformer
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control transformer
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converter transformer
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coreless transformer
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core-type transformer
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coupling transformer
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current transformer
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decoupling transformer
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differential transformer
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diode-split line-output transformer
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direct-current transformer
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distribution transformer
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double-stub transformer
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double-tuned transformer
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double-winding transformer
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driving transformer
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dry-type transformer
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dry transformer
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dry-type forced-air-cooled transformer
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dry-type self-cooled transformer
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E transformer
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earthed transformer
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earthing transformer
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effective grounded transformer
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EHV power transformer
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excitation transformer
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extra-high-voltage power transformer
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feed transformer
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feeder transformer
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feeding transformer
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filter transformer
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five-legged transformer
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flash transformer
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flyback transformer
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forced-air-cooled transformer
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forced-oil transformer
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frame-output transformer
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furnace transformer
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gas-filled transformer
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gas-insulated transformer
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general transformer
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general-purpose transformer
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grounded transformer
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grounding transformer
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high-potential transformer
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high-power transformer
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high-voltage transformer
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horizontal-output transformer
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house transformer
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hydropneumatic transformer
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ideal transformer
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image-output transformer
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impedance transformer
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impedance-matching transformer
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impulse current transformer
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indoor transformer
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induction voltage transformer
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injector transformer
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input transformer
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instrument transformer
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insulated-core transformer
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insulating transformer
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integral current transformer
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interphase transformer
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intervening current transformer
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iron-clad transformer
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iron-core transformer
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isolating transformer
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lightning-proof transformer
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line regulating transformer
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line transformer
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linear hydraulic transformer
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line-output transformer
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liquid-filled transformer
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loading transformer
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low-power transformer
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low-voltage transformer
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mains transformer
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manhole transformer
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matching transformer
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measuring transformer
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micromodular transformer
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mode transformer
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molded transformer
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multiratio current transformer
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multiratio voltage transformer
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multiwinding transformer
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natural-draft transformer
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network transformer
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nonmagnetic current transformer
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nonresonating transformer
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oil-cooled transformer
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oil transformer
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oil-filled instrument transformer
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oil-immersed forced-air-cooled transformer
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oil-immersed forced-oil-cooled transformer
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oil-immersed self-cooled transformer
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oil-immersed transformer
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oil-immersed water-cooled transformer
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one-coil transformer
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one-to-one transformer
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on-load tap-changing transformer
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open-core transformer
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outdoor transformer
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output transformer
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pad-mounted transformer
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peaking transformer
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peak transformer
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phase-shifting transformer
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pole-type transformer
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polyphase transformer
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potential transformer
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power transformer
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protection current transformer
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protection voltage transformer
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protective transformer
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pulse transformer
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pulse-forming transformer
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radio-frequency transformer
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reactance-earthed transformer
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reactor transformer
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rectifier transformer
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reducing transformer
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regulating transformer
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relay transformer
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resistance-earthed transformer
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resonance transformer
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rotary hydraulic transformer
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rotary transformer
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rotatabletransformer
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saturable current transformer
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saturable transformer
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saturating current transformer
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sealed transformer
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self-cooled transformer
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self-protected transformer
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series regulating transformer
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series transformer
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SF6-filled transformer
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shell-core transformer
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shell-form
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shell-type transformer
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shunt transformer
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signal transformer
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single-phase transformer
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single-turn current transformer
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small-power transformer
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solidly earthed transformer
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spare transformer
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standard current transformer
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standard instrument transformer
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standard potential transformer
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standby transformer
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starting transformer
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step-down transformer
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step-up transformer
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subdivided transformer
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submersible transformer
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substation transformer
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supply transformer
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tank transformer
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tap-changing transformer
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tap-changing-under-load transformer
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tapped transformer
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teaser transformer
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testing transformer
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test transformer
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thermal transformer
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three-circuit transformer
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three-legged transformer
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three-leg transformer
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three-phase transformer
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three-winding transformer
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through-type current transformer
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tool transformer
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toroidal-coretransformer
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toroidaltransformer
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track-circuit transformer
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track transformer
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traction-feeding transformer
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triple-wound transformer
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tuned transformer
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two-winding transformer
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unbalanced-to-balanced transformer
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unbalance-to-balanced transformer
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unbalanced-to-balance transformer
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unbalance-to-balance transformer
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unearthed transformer
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variable-ratio transformer
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vertical-output transformer
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voltage measuring transformer
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voltage transformer
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water-cooled transformer
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welding transformer
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window-type current transformer
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zero-phase sequence current transformer -
12 Kapp, Gisbert Johann Eduard Karl
SUBJECT AREA: Electricity[br]b. 2 September 1852 Mauer, Vienna, Austriad. 10 August 1922 Birmingham, England[br]Austrian (naturalized British in 1881) engineer and a pioneer of dynamo design, being particularly associated with the concept of the magnetic circuit.[br]Kapp entered the Polytechnic School in Zurich in 1869 and gained a mechanical engineering diploma. He became a member of the engineering staff at the Vienna International Exhibition of 1873, and then spent some time in the Austrian navy before entering the service of Gwynne \& Co. of London, where he designed centrifugal pumps and gas exhausters. Kapp resolved to become an electrical engineer after a visit to the Paris Electrical Exhibition of 1881 and in the following year was appointed Manager of the Crompton Co. works at Chelmsford. There he developed and patented the dynamo with compound field winding. Also at that time, with Crompton, he patented electrical measuring instruments with over-saturated electromagnets. He became a naturalized British subject in 1881.In 1886 Kapp's most influential paper was published. This described his concept of the magnetic circuit, providing for the first time a sound theoretical basis for dynamo design. The theory was also developed independently by J. Hopkinson. After commencing practice as a consulting engineer in 1884 he carried out design work on dynamos and also electricity-supply and -traction schemes in Germany, Italy, Norway, Russia and Switzerland. From 1891 to 1894 much of his time was spent designing a new generating station in Bristol, officially as Assistant to W.H. Preece. There followed an appointment in Germany as General Secretary of the Verband Deutscher Electrotechniker. For some years he edited the Electrotechnische Zeitschrift and was also a part-time lecturer at the Charlottenberg Technical High School in Berlin. In 1904 Kapp was invited to accept the new Chair of Electrical Engineering at the University of Birmingham, which he occupied until 1919. He was the author of several books on electrical machine and transformer design.[br]Principal Honours and DistinctionsInstitution of Civil Engineers Telford Medal 1886 and 1888. President, Institution of Electrical Engineers 1909.Bibliography10 October 1882, with R.E.B.Crompton, British patent no. 4,810; (the compound wound dynamo).1886, "Modern continuous current dynamo electric machines and their engines", Proceedings of the Institution of Civil Engineers 83: 123–54.Further ReadingD.G.Tucker, 1989, "A new archive of Gisbert Kapp papers", Proceedings of the Meeting on History of Electrical Engineering, IEE 4/1–4/11 (a transcript of an autobiography for his family).D.G.Tucker, 1973, Gisbert Kapp 1852–1922, Birmingham: Birmingham University (includes a bibliography of his most important publications).GWBiographical history of technology > Kapp, Gisbert Johann Eduard Karl
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