OSCILLOGRAPH . In connexion with the study of alternating or varying electric current, appliances are required for determining the mode in which the current varies . Aninstrument for exhibiting optically or graphically these variations is called an oscillograph, or sometimes an ondograph . Several methods have been employed for making observations of the
See also:form of alternating current curves—(I) the point-by-point method, ascribed generally to Jules
See also:Joubert; (2) the stroboscopic methods, of which the
See also:wave transmitter of H . L . Callendar, E . B . Rosa, and E, Hospitalier are examples; (3) methods employing a high-
See also:free quency
See also:galvanometer or oscillograph, which originated with A . E . Blondel, and are exemplified by his oscillograph and that of W . Duddell; and (4) purely
See also:optical methods, such as those of I . Frohlich and K .
F . Braun . In the point-by-point method the
See also:shaft of an alternator, or an alternating current motor driven in step with it, is furnished with an insulating disk having a metallic slip inserted in its edge . Against this disk
See also:press two springs which are connected together at each revolution by the contact of the slip at an assigned instant during the phase of the alternating current . This contact may be made to close the circuit of a suitable
See also:voltmeter, or to
See also:charge a
See also:condenser in connexion with it, and the
See also:reading of the voltmeter will therefore not be the
See also:average or effective voltage of the alternator, but the instantaneous value of the electromotive force corresponding to that instant during the phase, determined by the position of the rotating contact slip with reference to the poles of the alternator . If the contact springs can be moved
See also:round the disk so as to vary the instant of contact, we can plot out the value of the observed instantaneous voltage of the machine or circuit in a wavy
See also:curve, showing the wave form of the electromotive force of the alternator . This
See also:process is a tedious one, and necessarily only gives the average form of thousands of different alternations . In the Hospitalier ondograph,' a synchronous electric motor driven in step with the periodic current in the circuit being tested drives a cylinder of insulating material having a metallic slip let into its edge . This cylinder is driven at a slightly
See also:speed than that of synchronism . Three springs press against the cylinder and make contact for a
See also:time during each revolution, so that a condenser is charged by the circuit at an assigned instant during the alternating current phase, and then subsequently connected to a voltmeter . This process, so to speak, samples or tests the varying electromotive force of the alternating current at one particular instant during the phase and
See also:measures it on a voltmeter . Owing to the fact that the cylinder is losing or gaining slightly in speed on the circuit periodicity, the voltmeter goes slowly, say in one minute, through all the phases 1 E .
Hospitalier, " The Slow
See also:Registration of Rapid Phenomena by Stroboscopic Methods," Journ . Inst . Elec . Eng . (
See also:London, 1904), 33, 175 . In this paper the author describes the " Ondographe " and " Puissancegraphe." See also a description of the ondograph in the Electrical Review, (1902), 50, 969 . of voltage which are performed rapidly during each
See also:period by the alternating current . The voltmeter
See also:needle may then be made to record its variations graphically on a
See also:drum covered with paper and so to delineate the wave form of the current . The process is analogous to the optical experiment of looking at a quickly rotating
See also:wheel or engine through slits in a disk, rotating slightly faster or slower than the
See also:object observed . We then see the engine going through all its motions but much more slowly, and can follow them easily . In another form devised by Callendar,' a revolving contact disk is placed on the shaft of an alternator, or of a synchronous motor driven by the alternating current under test . A pair of contact springs are slowly shifted over so as to close the circuit at successive assigned instants during a
See also:complete phase .
The electromotive force so selected is balanced against the steady potential difference produced between a fixed and a sliding contact on a
See also:wire traversed by another steady current, and if there is any difference between this last, the potential difference, and the instantaneous potential difference balanced against it, a relay is operated and sets in
See also:action a motor which shifts the contact point along the
See also:potentiometer wire and so restores the
See also:balance . This contact point also carries a
See also:pen which moves over a rotating drum covered with paper . As the brushes are slowly shifted over on the revolving contact so as to select different phases of the alternating electromotive force, the pen follows and draws a curve delineating the wave form of that electromotive force or current . An instrument devised by E . B . Rosa is not very different in construction.2 A commutator method has also been devised by T . R . Lyle (Phil . Mag.,
See also:November 1903, 6 . 517) in which at an assigned instant during the phase a selection is made from the periodic current and measured on a galvanometer . The oscillographs of A . E .
Blondel' and W . Duddell operate on a different principle . They consist essentially of a galvanometer of which the needle or coil has such a short natural periodic time that it can follow all the variations of a current which runs through itscycle in say IA-0th second . This needle or coil must be so damped that when the current is cut off it returns to zero at once without overshooting the mark . By means of an attached
See also:mirror and reflected ray of
See also:light the motion of the movable
See also:system can be indicated on a
See also:screen . This ray is also given a periodic motion of the same frequency by reflection from a
See also:separate oscillating mirror so as to make the two motions at right angles to one another, and thus we have depicted on the screen a bright
See also:line having the same form as the periodic current being tested . In W . Duddell's oscillograph' (fig. i) the galvanometer
See also:part consists of an electromagnet in the
See also:field of which is stretched a
See also:loop of very
See also:fine wire . To this is attached a mirror; hence, if a current goes up one side of a loop and down another, the wires are oppositely displaced in the field . The loop and mirror move in a cavity full of oil to render the system dead-
See also:beat . A ray of light is reflected from this mirror and from another mirror which is rocked by a small motor driven off the same circuit, so that the ray has two vibratory motions imparted to it at right angles, one a
See also:harmonic motion and the other a motion imitating the variation of the current or electromotive force under test . This ray can be received on a screen or photographic
See also:plate, and thus the wave form of the current is recorded .
In the Duddell oscillograph it is usual toplace a pair of loops in the magnetic field, each with its own mirror, so that a pair of curves can be delineated at the same time, and if there is any difference in phase between them, it will be detected . Thus we can take two curves, one showing the potential difference at the end of an inductive circuit, and the other the current flowing through the circuit . In one form of Blondel's oscillograph, the vibrating system is a small magnetic needle carrying a mirror, but the principle on which it operates is the same as that of the instrument above described . The oscillograph can be made to exhibit optically the form of the current curve in non-cyclical phenomena, such as the
See also:discharge of a condenser . In this case the large vibrating mirror must be oscillated by a current from an alternator, on the shaft of which is a disk of non-conducting material with brass slips let into it and so arranged with contact brushes that in each period of the alternator a contact is made, charging say a condenser and discharging it through the oscillograph . In this way an optical
See also:representation is obtained of the oscillatory discharge of the condenser . A form of thermal I the coils embracing the Braun
See also:tube . oscillograph has been devised by J . T . Irwin (Jour . Inst . Elec .
Eng . I References.—See J . A .
See also:Fleming, A Handbook for the Electrical Lond . 1907, 39 . 617) . In this instrument the periodic current, the Laboratory and Testing
See also:Room, vol. i . (London, 1901), which contains time variation of which is being studied, passes through a pair of fine a
See also:list of
See also:original papers on the oscillograph ; Id., The Principles of wires or strips, going up one wire and down the other . These wires Electric Wave Telegraphy (London, 1906), which gives illustrations are also traversed in the same direction by a
See also:constant current from of the use of the oscillograph and the Braun
See also:cathode. ray tube in a battery . The two currents are therefore added in one wire and depicting condenser discharges; also, for the development of the subtracted in the other, and produce a
See also:heating effect oscillograph, A . E . Blondel, " Oscillographs : New Apparatus for which causes unequal expansion, and this in turn is made to tilt a registering Electrical Oscillations " (a short description of the bifilar and soft iron oscillographs), Comptes rendus (1893), 116 .
502; 1H . L . Callendar, " An Alternating Cycle CurveRecorder," I Id., " On the Determination and Photographic Registration of Electrician, 41 . 582 . Periodic Curves," La Lumibre eleclrique (
See also:August 29th, 1901); Id., 2 E . B . Rosa, " An Electric Curve Tracer," Electrician, 40 . 126 . ' See Assoc .
See also:Franc. pour l'Avanc.
See also:des Sciences (1898), for a paper I ' See K . F . Braun, Wied .
See also:Ann . (1897), 6o . 552; H . M . Varley, on oscillographs describing Blondel's original invention of the Phil . Mag . (1902), 3500; and J . M . Varley and W . H . F .
See also:Murdock, oscillograph in 1891 .
" On some Applications of the Braun Cathode Ray Tube," Electrician 4 Electrician (1897) . 39 . 636 I (1905), 55 . 335 . causes a periodic displacement of the cathode ray and elongates the patch of light into a bright line . If this patch is also given a displacement in the direction of right angles by examining it in a steadily vibrating mirror, we see a wavy or oscillatory line of light which is an optical representation of the wave form of a current in mirror which reflects a ray of light on to a screen or photographic plate as in the Duddell oscillograph . Finally, purely optical methods have been employed . Braun' devised a form of cathode ray tube, consisting of a vacuum tube having a narrow tubular portion and a bulbous end . The cathode terminal is connected to the negative
See also:pole of an electrostatic machine, such as a Wimshurst or Voss machine, giving a steady pressure . A cathode discharge is projected through two small holes in plates in the narrow part of the tube on a fluorescent screen at the end of the enlarged end, and the cathode ray or pencil depicts on it a small bright greenish patch of light . If a pair of coils of wire through which an alternating current is passing are placed on either side of the tube, just beyond one of the plates with a hole in it, the field " New Oscillographs," L'E°clairage electrique (May 1902) ; Id., " Theory of Oscillographs," L'Eclairage electrique (
See also:October 28th, 1902) . " Hot Wire Wattmeters and Oscillographs," J .
T . Irwin, Jour . Inst . Elec . Eng . (1907), 39 . 617 . (J . A .
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