AT64773B - Device for controlling self-excited three-phase collector generators with series connection of the stator and rotor working circuits. - Google Patents

Device for controlling self-excited three-phase collector generators with series connection of the stator and rotor working circuits.

Info

Publication number
AT64773B
AT64773B AT64773DA AT64773B AT 64773 B AT64773 B AT 64773B AT 64773D A AT64773D A AT 64773DA AT 64773 B AT64773 B AT 64773B
Authority
AT
Austria
Prior art keywords
stator
excited
series connection
controlling self
working circuits
Prior art date
Application number
Other languages
German (de)
Original Assignee
Siemens Schuckertwerke Gmbh
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Siemens Schuckertwerke Gmbh filed Critical Siemens Schuckertwerke Gmbh
Application granted granted Critical
Publication of AT64773B publication Critical patent/AT64773B/en

Links

Landscapes

  • Control Of Eletrric Generators (AREA)

Description

  

   <Desc/Clms Page number 1> 
 
 EMI1.1 
 
 EMI1.2 
 
 EMI1.3 
 

 <Desc/Clms Page number 2> 

 



   Bei der Serienschaltung der Stator-und Rotorarbeitskreise ist die Netzspannung nahezu proportional der   Feldstärke   in der Maschine. Es ist daher zum richtigen Betrieb von Induktionsmotoren erforderlich, die Feldstärke gemeinsam mit der Frequenz zu regulieren. Das soll im wesentlichen dadurch geschehen, dass die   Charakter'stik   der Maschine und aller angeschlossenen Stromkreise gleichzeitig mit der   Frequenzanderung   reguliert wird, und zwar derart, dass, wie Fig. 2 zeigt, mit geringer werdender Frequenz immer tiefer und tiefer liegende magnetische Charakteristiken auftreten. Auf einfachste Weise kann dies erzielt werden, wenn man an geeignete Stromkreise des Generators eine variable Drosselspule mit gesättigtem Eisen anschliesst.

   Am   zweckmässigsten ist es   aber, den Reguliertransformator für die Frequenzregelung entsprechend hoch zu sättigen und ihn selbst als regelbaren magnetischen Kreis zu benutzen. Bei der Schaltung nach Fig. 1, bei der die Regulierkontakte des Transformators in den an den Stator angeschlossenen Leitungen liegen,   ändert   sich mit dem Verschieben dieser Kontakte die   Magnetcharakteristik   des Systems in der verlangten Weise. Geht man   nämlich   zu immer geringeren Windungszahlen über, so erfordert die   Sättigung des Transformators   immer weniger Spannung, so dass mit dem Heraufschieben der Kontakte die Charakteristik sich hauptsächlich in dem verlangten Sinne verändert. 



   Gleichzeitig ändert sich aber auch die Frequenz-die nahezu proportional der Sekundärwindungszahl des Transformators ist -in der richtigen Weise ; durch gleichzeitige geeignete Regulierung der Phase der Sekundärspannung am Transformator kann man ausserdem erzielen, dass die Widerstandslinien der Fig. 2 jede beliebige Lage erhalten und dass dadurch jede erwünschte 
 EMI2.1 
 der Übersetzung und der Phasenwinkel der Stromkreise die Frequenz regulieren   lässt.   Derartige   Mitte ! sind   in Patent Xr. 64771 angegeben. Zweitens   muss em Reguherapparat vorhanden sein.   der durch Veränderung der magnetischen Charakteristiken der   angeschlossenen Eisenkreise   eine Regulierung der synchronen Spannung der stabilen Selbsterregung der   Maschine gestaltet.   
 EMI2.2 




   <Desc / Clms Page number 1>
 
 EMI1.1
 
 EMI1.2
 
 EMI1.3
 

 <Desc / Clms Page number 2>

 



   When the stator and rotor working circuits are connected in series, the mains voltage is almost proportional to the field strength in the machine. It is therefore necessary for the correct operation of induction motors to regulate the field strength together with the frequency. This should essentially be done by regulating the characteristics of the machine and all connected circuits at the same time as the frequency change, in such a way that, as FIG. 2 shows, lower and lower-lying magnetic characteristics occur as the frequency decreases. This can be achieved in the simplest possible way by connecting a variable choke coil with saturated iron to suitable circuits of the generator.

   It is most useful, however, to saturate the regulating transformer for the frequency control to a correspondingly high level and to use it itself as a controllable magnetic circuit. In the circuit according to FIG. 1, in which the regulating contacts of the transformer are located in the lines connected to the stator, the magnetic characteristics of the system change in the required manner when these contacts are moved. If one goes over to ever smaller numbers of turns, the saturation of the transformer requires less and less voltage, so that when the contacts are pushed up, the characteristic changes mainly in the required sense.



   At the same time, however, the frequency - which is almost proportional to the number of secondary turns of the transformer - changes in the right way; by simultaneous suitable regulation of the phase of the secondary voltage on the transformer it is also possible to achieve that the resistance lines of FIG. 2 have any position and thus any desired position
 EMI2.1
 the translation and the phase angle of the circuits can regulate the frequency. Such a middle! are in patent Xr. 64771 specified. Second, a regulator must be available. which, by changing the magnetic characteristics of the connected iron circuits, regulates the synchronous voltage of the stable self-excitation of the machine.
 EMI2.2
AT64773D 1911-04-03 1912-02-08 Device for controlling self-excited three-phase collector generators with series connection of the stator and rotor working circuits. AT64773B (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
DE64773X 1911-04-03

Publications (1)

Publication Number Publication Date
AT64773B true AT64773B (en) 1914-05-11

Family

ID=5632533

Family Applications (1)

Application Number Title Priority Date Filing Date
AT64773D AT64773B (en) 1911-04-03 1912-02-08 Device for controlling self-excited three-phase collector generators with series connection of the stator and rotor working circuits.

Country Status (1)

Country Link
AT (1) AT64773B (en)

Similar Documents

Publication Publication Date Title
AT343223B (en) CIRCUIT ARRANGEMENT WITH A NUMBER OF INVERTERS, IN PARTICULAR DIRECT CONVERTERS IN STAR CONNECTION
AT64773B (en) Device for controlling self-excited three-phase collector generators with series connection of the stator and rotor working circuits.
AT42141B (en) Device for the automatic distribution of the wattless load and to avoid wattless equalizing currents with generators working in parallel.
AT112905B (en) Induction machine with a commutator rear machine that is excited in both the rotor and the stator.
DE637078C (en) Starting device for asynchronous machines, especially three-phase short-circuit motors, and asynchronous starting synchronous machines
AT110119B (en) Phase converter for converting single or multi-phase electricity to electricity of any number of phases with asynchronous behavior, especially for electric locomotives.
DE944505C (en) Forming arrangement
DE566167C (en) Unit for the excitation of commutator rear machines with mains frequency
AT107794B (en) Automatic control device for multi-phase AC machines connected in parallel.
AT140968B (en) Device for setting the ignition point for discharge vessels.
AT251708B (en) Self-excited synchronous machine
DE221248C (en)
DE463784C (en) High frequency melting or annealing furnace
AT39800B (en) Device for regulating and parallel connection of automatically regulated generators.
AT100396B (en) Electrical rectifying or regulating arrangement.
AT77976B (en) Device for load distribution, especially when Ab? and connection of synchronous generators that work in parallel and are driven by synchronous motors.
DE716297C (en) Device for the automatic constant power control of an alternating current machine by means of an electrical controller with an electrically remote adjustable power value
AT73207B (en) Device for pole changing of multiphase motors connected to three-phase networks.
AT206535B (en) Auxiliary machine group for starting, regenerative braking and increasing the power factor of 50 cycle single-phase collector motors
AT51907B (en) Multi-phase collector machine with several sets of brushes for each pole pair.
AT39799B (en) Device for the automatic control of two independently excited generators or generator groups working in parallel to a proportional load distribution.
AT48823B (en) Multi-phase alternating current machine with direct current armature.
AT151230B (en) Metadyne type DC machine.
DE471182C (en) Multi-phase commutator machine with a winding housed in the stand and powered by induction from the armature
AT26652B (en) Compensated single-phase collector motor.