Thefunctionofthefloatingweightistoautomaticallykeepthestylusincloseengagementwiththerecord,thusinsuringaccuracyofreproduction。Theweightpressesthestylustoitswork,butbecauseofitsmassitcannotrespondtotheextremelyrapidvibrationsofthestylus。Theyarethereforecommunicatedtothediaphragm。
SomeofEdison'smostremarkableinventionsarerevealedinanumberofinterestingpatentsrelatingtotheduplicationofphonographrecords。Itwouldbeobviouslyimpossible,fromacommercialstandpoint,toobtainamusicalrecordfromahigh-classartistandsellsuchanoriginaltothepublic,asitscostmightbefromonehundredtoseveralthousanddollars。Consequently,itisnecessarytoprovidesomewaybywhichduplicatesmaybemadecheaplyenoughtopermittheirpurchasebythepublicatareasonableprice。
Themakingofaperfectoriginalmusicalorotherrecordisamatterofnosmalldifficulty,asitrequiresspecialtechnicalknowledgeandskillgatheredfrommanyyearsofactualexperience;butintheexactcopying,orduplication,ofsucharecord,withitsmanymillionsofmicroscopicwavesandsub-waves,thedifficultiesareenormouslyincreased。Theduplicatesmustbemicroscopicallyidenticalwiththeoriginal,theymustbefreefromfalsevibrationsorotherdefects,althoughbothoriginalandduplicatesareofsucheasilydefacablematerialaswax;andtheprocessmustbecheapandcommercialnotascientificlaboratorypossibility。
Formakingduplicatesitwasobviouslynecessarytofirstsecureamoldcarryingtherecordinnegativeorreversedform。Fromthiscouldbemolded,orcast,positivecopieswhichwouldbeidenticalwiththeoriginal。Whiletheartofelectroplatingwouldnaturallysuggestitselfasthemeansofmakingsuchamold,anapparentlyinsurmountableobstacleappearedontheverythreshold。Wax,beinganon-
conductor,cannotbeelectroplatedunlessaconductingsurfacebefirstapplied。Thecoatingsordinarilyusedinelectro-
depositionwereentirelyoutofthequestiononaccountofcoarseness,thedeepestwavesoftherecordbeinglessthanone-thousandthofaninchindepth,andmanyofthemprobablytentoonehundredtimesasshallow。Edisonfinallydecidedtoapplyapreliminarymetalliccoatingofinfinitesimalthinness,andaccomplishedthisobjectbyaremarkableprocessknownasthevacuousdeposit。Withthisheap-
pliedtotheoriginalrecordafilmofgoldprobablynothickerthanonethree-hundred-thousandthofaninch,orseveralhundredtimeslessthanthedepthofanaveragewave。
Threehundredsuchlayersplacedoneontopoftheotherwouldmakeasheetnothickerthantissue-paper。
Theprocessconsistsinplacinginavacuumtwoleaves,orelectrodes,ofgold,andbetweenthemtheoriginalrecord。
Aconstantdischargeofelectricityofhightensionbetweentheelectrodesiseffectedbymeansofaninduction-coil。Themetalisvaporizedbythisdischarge,andiscarriedbyitdirectlytowardanddepositedupontheoriginalrecord,thusformingtheminutefilmofgoldabovementioned。Therecordisconstantlyrotateduntilitsentiresurfaceiscoated。
AsectionaldiagramoftheapparatusFig。6。willaidtoaclearerunderstandingofthisingeniousprocess。
Afterthegoldfilmisformedinthemannerdescribedabove,aheavybackingofbasermetaliselectroplateduponit,thusformingasubstantialmold,fromwhichtheoriginalrecordisextractedbybreakageorshrinkage。
Duplicaterecordsinanyquantitymaynowbemadefromthismoldbysurroundingitwithacold-waterjacketanddippingitinamoltenwax-likematerial。Thiscongealsontherecordsurfacejustasmeltedbutterwouldcollectonacoldknife,andwhenthemoldisremovedthesurpluswaxfallsout,leavingaheavydepositofthematerialwhichformstheduplicaterecord。NumerousingeniousinventionshavebeenmadebyEdisonprovidingforavarietyofrapidandeconomicalmethodsofduplication,includingmethodsofshrinkinganewlymadecopytofacilitateitsquickremovalfromthemold;methodsofreaming,offormingribsontheinterior,andformanyotherimportantandessentialdetails,whichlimitsofspacewillnotpermitofelaboration。Thosementionedabovearebutfairexamplesofthepersistentandeffectiveworkhehasdonetobringthephonographtoitspresentstateofperfection。
InperusingChapterXoftheforegoingnarrative,thereaderundoubtedlynotedEdison'sclearapprehensionofthepracticalusesofthephonograph,asevidencedbyhispropheticutterancesinthearticlewrittenbyhimfortheNorthAmericanReviewinJune,1878。Inviewofthecrudityoftheinstrumentatthattime,itmustbeacknowl-
edgedthatEdison'sforesight,asvindicatedbylatereventswasmostremarkable。Nolessremarkablewashisintenselypracticalgraspofmechanicalpossibilitiesoffuturetypesofthemachine,forwefindinoneofhisearlyEnglishpatentsNo。1644of1878thediskformofphonographwhich,sometentofifteenyearslater,wassupposedtobeanewdevelopmentintheart。ThisdiskformwasalsocoveredbyEdison'sapplicationforaUnitedStatespatent,filedin1879。
ThisapplicationmetwithsomemerelyminortechnicalobjectionsinthePatentOffice,andseemstohavepassedintothe“abandoned“classforwantofprosecution,probablybecauseofbeingoverlookedinthetremendouspressurearisingfromhisdevelopmentofhiselectric-lightingsystem。
IX
THEINCANDESCENTLAMP
ALTHOUGHEdison'scontributionstohumancomfortandprogressareextensiveinnumberandextraordinarilyvastandcomprehensiveinscopeandvariety,theuniversalverdictoftheworldpointstohisincandescentlampandsystemofdistributionofelectricalcurrentasthecentralandcrowningachievementsofhislifeuptothistime。Thisviewwouldseementirelyjustifiablewhenweconsiderthewonderfulchangesintheconditionsofmodernlifethathavebeenbroughtaboutbythewide-spreademploymentoftheseinventions,andthegiganticindustriesthathavegrownupandbeennourishedbytheirworld-wideapplication。Thathewasinthisinstanceatruepioneerandcreatorisevidentasweconsiderthesubject,fortheUnitedStatesPatentNo。223,898,issuedtoEdisononJanuary27,1880,foranincandescentlamp,wasofsuchfundamentalcharacterthatitopenedupanentirelynewandtremendouslyimportantart——theartofincandescentelectriclighting。Thisstatementcannotbesuccessfullycontroverted,forithasbeenabundantlyverifiedaftermanyyearsofcostlylitigation。
Iffurtherproofweredesired,itisonlynecessarytopointtothefactthat,afterthirtyyearsofmoststrenuousandpracticalapplicationintheartbythekeenestintellectsoftheworld,everyincandescentlampthathaseversincebeenmade,includingthoseofmoderndays,isstilldependentupontheemploymentoftheessentialsdisclosedintheabove-namedpatent——namely,afilamentofhighresistanceenclosedinasealedglassglobeexhaustedofair,withconductingwirespassingthroughtheglass。
Anincandescentlampissuchasimple-appearingarticle——
merelyafilamentsealedintoaglassglobe——thatitsintrinsicrelationtotheartofelectriclightingisfarfrombeingap-
parentatsight。TothelayminditwouldseemthatthismusthavebeenTHEobviousdevicetomakeinordertoobtainelectriclightbyincandescenceofcarbonorothermaterial。
ButthereaderhasalreadylearnedfromtheprecedingnarrativethatpriortoitsinventionbyEdisonsuchadevicewasNOTobvious,eventothemosthighlytrainedexpertsoftheworldatthatperiod;indeed,itwassofarfrombeingobviousthat,forsometimeafterhehadcompletedpracticallampsandwasactuallylightingthemuptwenty-fourhoursaday,suchadeviceandsucharesultweredeclaredbythesesameexpertstobeanutterimpossibility。ForashortwhiletheworldoutsideofMenloParkheldEdison'sclaimsinderision。Hislampwaspronouncedafake,amyth,possiblyamomentarysuccessmagnifiedtothedignityofapermanentdevicebyanoverenthusiasticinventor。
Suchcriticism,however,didnotdisturbEdison。HeKNEWthathehadreachedthegoal。Longago,byacloseprocessofreasoning,hehadclearlyseenthattheonlyroadtoitwasthroughthepathhehadtravelled,andwhichwasnowembodiedinthephilosophyofhisincandescentlamp——
namely,afilament,orcarbon,ofhighresistanceandsmallradiatingsurface,sealedintoaglassglobeexhaustedofairtoahighdegreeofvacuum。Inoriginallycommittinghimselftothislineofinvestigationhewaswellawarethathewasgoinginadirectiondiametricallyoppositetothatfollowedbypreviousinvestigators。Theireffortshadbeenconfinedtolow-resistanceburnersoflargeradiatingsurfacefortheirlamps,butherealizedtheutterfutilityofsuchdevices。
Thetremendousproblemsofheatandtheprohibitivequantitiesofcopperthatwouldberequiredforconductorsforsuchlampswouldbeabsolutelyoutofthequestionincommercialpractice。
Hewasconvincedfromthefirstthatthetruesolutionoftheproblemlayinalampwhichshouldhaveasitsilluminatingbodyastripofmaterialwhichwouldoffersucharesistancetotheflowofelectriccurrentthatitcouldberaisedtoahightemperature——incandescence——andbeofsuchsmallcross-sectionthatitwouldradiatebutlittleheat。Atthesametimesuchalampmustrequirearelativelysmallamountofcurrent,inorderthatcomparativelysmallconductorscouldbeused,anditsburnermustbecapableofwithstand-
ingthenecessarilyhightemperatureswithoutdisintegration。
ItisinterestingtonotethattheseconceptionswereinEdison'smindatanearlyperiodofhisinvestigations,whenthebestexpertopinionwasthatthesubdivisionoftheelectriccurrentwasanignisfatuus。Hencewequotethefollowingnoteshemade,November15,1878,inoneofthelaboratorynote-books:
“Agivenstraightwirehaving1ohmresistanceandcertainlengthisbroughttoagivendegreeoftemperaturebygivenbattery。Ifthesamewirebecoiledinsuchamannerthatbutone-quarterofitssurfaceradiates,itstemperaturewillbeincreasedfourtimeswiththesamebattery,or,one-
quarterofthisbatterywillbringittothetemperatureofstraightwire。Orthesamegivenbatterywillbringawirewhosetotalresistanceis4ohmstothesametemperatureasstraightwire。
“Thiswasactuallydeterminedbytrial。
“Theamountofheatlostbyabodyisinproportiontotheradiatingsurfaceofthatbody。Ifonesquareinchofplatinabeheatedto100degreesitwillfallto,say,zeroinonesecond,whereas,ifitwasat200degreesitwouldrequiretwoseconds。
“Hence,inthecaseofincandescentconductors,iftheradiatingsurfacebetwelveinchesandthetemperatureoneachinchbe100,or1200forall,ifitissocoiledorarrangedthatthereisbutone-quarter,orthreeinches,ofradiatingsurface,thenthetemperatureoneachinchwillbe400。Ifreducedtothree-quartersofaninchitwillhaveonthatthree-
quartersofaninch1600degreesFahr。,notwithstandingtheoriginaltotalamountwasbut1200,becausetheradiationhasbeenreducedtothree-quarters,or75units;hence,theeffectofthelesseningoftheradiationistoraisethetemperatureofeachremaininginchnotradiatingto125degrees。Iftheradiatingsurfaceshouldbereducedtothree-thirty-secondsofaninch,thetemperaturewouldreach6400degreesFahr。Tocarryoutthislawtothebestadvantageinregardtoplatina,etc。,thenwithagivenlengthofwiretoquadrupletheheatwemustlessentheradiatingsurfacetoone-quarter,andtodothisinaspiral,three-quartersmustbewithinthespiralandone-quarteroutsideforradiating;hence,asquarewireorothermeans,suchasaspiralwithinaspiral,mustbeused。TheseresultsaccountfortheenormoustemperatureoftheElectricArcwithonehorse-power;as,forinstance,ifonehorse-powerwillheattwelveinchesofwireto1000degreesFahr。,andthisisconcentratedtohaveone-quarteroftheradiatingsurface,itwouldreachatemperatureof4000degreesorsufficienttomeltit;
but,supposingitinfusible,thefurtherconcentrationtoone-
eighthitssurface,itwouldreachatemperatureof16,000degrees,andtoone-thirty-seconditssurface,whichwouldbeabouttheradiatingsurfaceoftheElectricArc,itwouldreach64,000degreesFahr。Ofcourse,whenLightisradiatedingreatquantitiesnotquitethesetemperatureswouldbereached。
“Anothercuriouslawisthis:Itwillrequireagreaterinitialbatterytobringanironwireofthesamesizeandresistancetoagiventemperaturethanitwillaplatinawireinproportiontotheirspecificheats,andinthecaseofCarbon,apieceofCarbonthreeincheslongandone-eighthdiameter,witharesistanceof1ohm,willrequireagreaterbatterypowertobringittoagiventemperaturethanacylinderofthinplatinafoilofthesamelength,diameter,andresistance,becausethespecificheatofCarbonismanytimesgreater;
besides,ifIamnotmistaken,theradiationofaroughenedbodyforheatisgreaterthanapolishedonelikeplatina。“
Proceedinglogicallyupontheselinesofthoughtandfollowingthemoutthroughmanyramifications,wehaveseenhowheatlengthmadeafilamentofcarbonofhighresistanceandsmallradiatingsurface,andthroughaconcurrentinvestigationofthephenomenaofhighvacuaandoccludedgaseswasabletoproduceatrueincandescentlamp。Notonlywasitalampasamerearticle——adevicetogivelight——
butitwasalsoanintegralpartofhisgreatandcompletesystemoflighting,toeverypartofwhichitboreafixedanddefiniteratio,andinrelationtowhichitwasthekeystonethatheldthestructurefirmlyinplace。
TheworkofEdisononincandescentlampsdidnotstopatthisfundamentalinvention,butextendedthroughmorethaneighteenyearsofamostintenseportionofhisbusylife。Duringthatperiodhewasgrantedonehundredandforty-nineotherpatentsonthelampanditsmanufacture。
Althoughverymanyoftheseinventionswereoftheutmostimportanceandvalue,wecannotattempttoofferadetailedexpositionoftheminthisnecessarilybriefarticle,butmustreferthereader,ifinterested,tothepatentsthemselves,afulllistbeinggivenattheendofthisAppendix。
Theoutlinesketchwillindicatetheprincipalpatentscoveringthebasicfeaturesofthelamp。
ThelitigationontheEdisonlamppatentswasoneofthemostdeterminedandstubbornlyfoughtcontestsinthehistoryofmodernjurisprudence。Vastinterestswereatstake。Allofthetechnical,expert,andprofessionalskillandknowledgethatmoneycouldprocureorexperiencedevisewereavailedofinthebitterfightsthatragedinthecourtsformanyyears。AndalthoughtheEdisoninterestshadspentfromfirsttolastnearly$2,000,000,andhadonlyaboutthreeyearsleftinthelifeofthefundamentalpatent,Edisonwasthoroughlysustainedastoprioritybythedecisionsinthevarioussuits。Weshallofferafewbriefextractsfromsomeofthesedecisions。
InasuitagainsttheUnitedStatesElectricLightingCompany,UnitedStatesCircuitCourtfortheSouthernDistrictofNewYork,July14,1891,JudgeWallacesaid,inhisopinion:
“Thefutilityofhopingtomaintainaburnerinvacuowithanypermanencyhaddiscouragedpriorinventors,andMr。Edisonisentitledtothecreditofobviatingthemechanicaldifficultieswhichdisheartenedthem……Hewasthefirsttomakeacarbonofmaterials,andbyaprocesswhichwasespeciallydesignedtoimparthighspecificresistancetoit;thefirsttomakeacarboninthespecialformforthespecialpurposeofimpartingtoithightotalresistance;
andthefirsttocombinesuchaburnerwiththenecessaryadjunctsoflampconstructiontopreventitsdisintegrationandgiveitsufficientlylonglife。Bydoingthesethingshemadealampwhichwaspracticallyoperativeandsuccessful,theembryoofthebestlampsnowincommercialuse,andbutforwhichthesubdivisionoftheelectriclightbyincandescencewouldstillbenothingbuttheignisfatuuswhichitwasproclaimedtobein1879bysomeofthereamedexpertswhoarenowwitnessestobelittlehisachievementandshowthatitdidnotrisetothedignityofaninvention……Itisimpossibletoresisttheconclusionthattheinventionoftheslenderthreadofcarbonasasubstitutefortheburnerspreviouslyemployedopenedthepathtothepracticalsubdivisionoftheelectriclight。“
AnappealwastakenintheabovesuittotheUnitedStatesCircuitCourtofAppeals,andonOctober4,1892,thedecreeofthelowercourtwasaffirmed。ThejudgesLacombeandShipman,inalongopinionreviewedthefactsandtheart,andsaid,interalia:“Edison'sinventionwaspracticallymadewhenheascertainedthetheretoforeunknownfactthatcarbonwouldstandhightemperature,evenwhenveryat-
tenuated,ifoperatedinahighvacuum,withoutthephenomenonofdisintegration。Thisfactheutilizedbythemeanswhichhehasdescribed,alamphavingafilamentarycarbonburnerinanearlyperfectvacuum。“
InasuitagainsttheBostonIncandescentLampCompanyetal。,intheUnitedStatesCircuitCourtfortheDistrictofMassachusetts,decidedinfavorofEdisononJune11,1894,JudgeColt,inhisopinion,said,amongotherthings:
“Edisonmadeanimportantinvention;heproducedthefirstpracticalincandescentelectriclamp;thepatentisapioneerinthesenseofthepatentlaw;itmaybesaidthathisinventioncreatedtheartofincandescentelectriclighting。“
Opinionsofothercourts,similarintenortotheforegoing,mightbecited,butitwouldbemerelyinthenatureofreiteration。TheabovearesufficienttoillustratethedirectclearnessofjudicialdecisiononEdison'spositionasthefounderoftheartofelectriclightingbyincandescence。
EDISON'SDYNAMOWORK
ATthepresentwriting,when,afterthephenomenallyrapidelectricaldevelopmentofthirtyyears,wefindonthemarketagreatvarietyofmodernformsofefficientcurrentgeneratorsadvertisedunderthenamesofdifferentinventorsnone,however,bearingthenameofEdison,ayoungelectricalengineerofthepresentgenerationmightwellinquirewhetherthegreatinventorhadevercontributedanythingtotheartbeyondamereTYPEofmachineformerlymadeandbearinghisname,butnotnowmarketedexceptsecondhand。
Foradequateinformationhemightsearchinvainthebooksusuallyregardedasauthoritiesonthesubjectofdynamo-electricmachinery,forwithslightexceptionstherehasbeenasingularunanimityintheomissionofwriterstogiveEdisoncreditforhisgreatandbasiccontributionstoheavy-currenttechnics,althoughtheyhavebeenuniversallyacknowledgedbyscientificandpracticalmentohavelaidthefoundationfortheefficiencyof,andtobeembodiedinallmoderngeneratorsofcurrent。
ItmightnaturallybeexpectedthattheessentialfactsofEdison'sworkwouldappearonthefaceofhisnumerouspatentsondynamo-electricmachinery,butsuchisnotnecessarilythecase,unlesstheyarecarefullystudiedinthelightofthestateoftheartasitexistedatthetime。Whilesomeofthesepatentsespeciallytheearlieronescoverspecificdevicesembodyingfundamentalprinciplesthatnotonlysurvivetothepresentday,butactuallylieatthefoundationoftheartasitnowexists,thereisnorevelationthereinofEdison'sprecedingstudiesofmagnets,whichextendedovermanyyears,norofhislatersystematicinvestigationsanddeductions。
Dynamo-electricmachinesofaprimitivekindhadbeeninventedandwereinusetoaverylimitedextentforarclightingandelectroplatingforsomeyearspriortothesummerof1819,whenEdison,withanembryoniclightingSYSTEM
inmind,castaboutforatypeofmachinetechnicallyandcommerciallysuitableforthesuccessfulcarryingoutofhisplans。Hefoundabsolutelynone。Onthecontrary,allofthefewtypesthenobtainablewereuneconomical,indeedwasteful,inregardtoefficiency。Theart,ifindeedtherecanbesaidtohavebeenanartatthattime,wasinchaoticconfusion,andonlybecauseofEdison'smanyyears'studyofthemagnetwasheenabledtoconcludethatinsufficiencyinquantityofironinthemagnetsofsuchmachines,togetherwithpoorsurfacecontacts,renderedthecostofmagnetizationabnormallyhigh。Theheatingofsolidarmatures,theonlykindthenknown,andpoorinsulationinthecommutators,alsogaverisetoseriouslosses。Butperhapsthemostseriousdrawbacklayinthehigh-resistancearmature,baseduponthehighestscientificdictumofthetimethatinordertoobtainthemaximumamountofworkfromamachine,theinternalresistanceofthearmaturemustequaltheresistanceoftheexteriorcircuit,althoughtheapplicationofthisprincipleentailedtheuselessexpenditureofatleast50percent。oftheappliedenergy。
Itseemsalmostincrediblethatonlyalittleoverthirtyyearsagothesumofscientificknowledgeinregardtodynamo-
electricmachineswassomeagrethattheexpertsoftheperiodshouldsettleuponsuchadictumasthis,butsuchwasthefact,aswillpresentlyappear。Mechanicalgeneratorsofelectricitywerecomparativelynewatthattime;
theirtheoryandpracticewereveryimperfectlyunderstood;
indeed,itisquitewithintheboundsoftruthtosaythatthecorrectprincipleswerebefoggedbyreasonofthelackofpracticalknowledgeoftheiractualuse。Electriciansandscientistsoftheperiodhadbeenaccustomedformanyyearspasttolooktothechemicalbatteryasthesourcefromwhichtoobtainelectricalenergy;andinthepracticalapplicationofsuchenergytotelegraphyandkindreduses,muchthoughtandingenuityhadbeenexpendedinstudyingcombinationsofconnectingsuchcellssoastogetthebestresults。Inthetext-booksoftheperioditwasstatedasasettledprinciplethat,inordertoobtainthemaximumworkoutofasetofbatteries,theinternalresistancemustapproximatelyequaltheresistanceoftheexteriorcircuit。
Thisprincipleanditsapplicationinpracticewerequitecorrectasregardschemicalbatteries,butnotasregardsdynamomachines。Bothweregeneratorsofelectricalcurrent,butsodifferentinconstructionandoperation,thatrulesapplicabletothepracticaluseoftheonedidnotapplywithpropercommercialefficiencytotheother。Attheperiodunderconsideration,whichmaybesaidtohavebeenjustbeforedawnofthedayofelectriclight,thephilosophyofthedynamowasseenonlyinmysterious,hazyoutlines——
justemergingfromthedarknessofdepartingnight。Perhapsitisnotsurprising,then,thatthedynamowaslooselyregardedbyelectriciansasthepracticalequivalentofachemicalbattery;thatmanyofthecharacteristicsofperformanceofthechemicalcellwerealsoattributedtoit,andthatifthemaximumworkcouldbegottenoutofasetofbatterieswhentheinternalandexternalresistanceswereequalandthiswascommerciallythebestthingtodo,somustitbealsowithadynamo。
ItwasbynomiraclethatEdisonwasfarandawayaheadofhistimewhenheundertooktoimprovethedynamo。HewaspossessedofabsoluteKNOWLEDGEfarbeyondthatofhiscontemporaries。Thisheadacquiredbythehardestkindofworkandincessantexperimentwithmagnetsofallkindsduringseveralyearspreceding,particularlyinconnectionwithhisstudyofautomatictelegraphy。Hisknowledgeofmagnetswastremendous。Hehadstudiedandexperimentedwithelectromagnetsinenormousvariety,andknewtheirpeculiaritiesinchargeanddischarge,lag,self-
induction,staticeffects,condensereffects,andthevariousotherphenomenaconnectedtherewith。Hehadalsomadecollateralstudiesofiron,steel,andcopper,insulation,winding,etc。Hence,byreasonofthisextensiveworkandknowledge,Edisonwasnaturallyinapositiontorealizetheuttercommercialimpossibilityofthethenbestdynamomachineinexistence,whichhadanefficiencyofonlyabout40percent。,andwasconstructedonthe“cut-and-try“principle。
Hewasalsonaturallyinapositiontoassumethetaskhesetouttoaccomplish,ofundertakingtoplanand-buildanimprovedtypeofmachinethatshouldbecommercialinhav-
inganefficiencyofatleast90percent。Trulyaprodigiousundertakinginthosedarkdays,whenfromthestandpointofEdison'slargeexperiencethemostpracticalandcorrectelectricaltreatisewascontainedintheEncyclopaediaBritannica,andinaGermanpublicationwhichMr。UptonhadbroughtwithhimafterhehadfinishedhisstudieswiththeillustriousHelmholtz。ItwasatthisperiodthatMr。UptoncommencedhisassociationwithEdison,bringingtothegreatworktheverylatestscientificviewsandtheassistanceofthehighermathematics,towhichhehaddevotedhisattentionforseveralyearspreviously。
AssomeaccountofEdison'sinvestigationsinthisconnectionhasalreadybeengiveninChapterXIIofthenarrative,weshallnotenlargeuponthemhere,butquotefromAnHistoricalReview,byCharlesL。Clarke,LaboratoryAssistantatMenloPark,1880-81;ChiefEngineeroftheEdisonElectricLightCompany,1881-84:
“InJune,1879,waspublishedtheaccountoftheEdisondynamo-electricmachinethatsurvivedintheart。Thismachinewentintoextensivecommercialuse,andwasnotableforitsverymassiveandpowerfulfield-magnetsandarmatureofextremelylowresistanceascomparedwiththecombinedexternalresistanceofthesupply-mainsandlamps。
Bymeansofthelargemassesofironinthefield-magnets,andcloselyfittedjointsbetweentheseveralpartsthereof,themagneticresistancereluctanceoftheironpartsofthemagneticcircuitwasreducedtoaminimum,andtherequiredmagnetizationeffectedwiththemaximumeconomy。
AtthesametimeMr。Edisonannouncedthecommercialnecessityofhavingthearmatureofthedynamooflowresistance,ascomparedwiththeexternalresistance,inorderthatalargepercentageoftheelectricalenergydevelopedshouldbeutilizedinthelamps,andonlyasmallpercentagelostinthearmature,albeitthisprocedurereducedthetotalgeneratingcapacityofthemachine。Healsoproposedtomaketheresistanceofthesupply-mainssmall,ascomparedwiththecombinedresistanceofthelampsinmultiplearc,inordertostillfurtherincreasethepercentageofenergyutilizedinthelamps。Andlikewisetothisendthecombinedresistanceofthegeneratorarmaturesinmultiplearcwaskeptrelativelysmallbyadjustingthenumberofgeneratorsoperatinginmultipleatanytimetothenumberoflampstheninuse。Thefield-magnetcircuitsofthedynamoswereconnectedinmultiplewithaseparateenergizingsource;
andthefield-current;andstrengthoffield,wereregulatedtomaintaintherequiredamountofelectromotiveforceuponthesupply-mainsunderallconditionsofloadfromthemaximumtotheminimumnumberoflampsinuse,andtokeeptheelectromotiveforceofallmachinesalike。“
AmongtheearliestofEdison'sdynamoexperimentswerethoserelatingtothecoreofthearmature。Herealizedatoncethattheheatgeneratedinasolidcorewasaprolificsourceofloss。Heexperimentedwithbundlesofironwiresvariouslyinsulated,alsowithsheet-ironrolledcylindricallyandcoveredwithironwirewoundconcentrically。Theseexperimentsandmanyothersweretriedinagreatvarietyofways,until,astheresultofallthiswork,Edisonarrivedattheprinciplewhichhasremainedinthearttothisday。
Hesplituptheironcoreofthearmatureintothinlaminations,separatedbypaper,thuspracticallysuppressingFoucaultcurrentsthereinandresultingheatingeffect。Itwasinhismachinealsothatmicawasusedforthefirsttimeasaninsulatingmediuminacommutator。[27]
[27]Thecommercialmanufactureofbuilt-upsheetsofmicaforelectricalpurposeswasfirstestablishedattheEdisonMachineWorks,GoerckStreet,NewYork,in1881。
Elementaryastheseprincipleswillappeartothemodernstudentorengineer,theyweredenouncedasnothingshortofabsurdityatthetimeoftheirpromulgation——especiallysowithregardtoEdison'sproposaltoupsetthethensettleddictumthatthearmatureresistanceshouldbeequaltotheexternalresistance。Hispropositionwasderidedinthetechnicalpressoftheperiod,bothathomeandabroad。Aspublicopinioncanbebestillustratedbyactualquotation,weshallpresentacharacteristicinstance。
IntheScientificAmericanofOctober18,1879,thereappearedanillustratedarticlebyMr。UptononEdison'sdynamomachine,inwhichEdison'sviewsandclaimsweresetforth。Asubsequentissuecontainedasomewhatacri-
moniousletterofcriticismbyawell-knownmakerofdynamomachines。Attheriskofbeinglengthy,wemustquotenearlyallthisletter:“Icanscarcelyconceiveitaspossiblethatthearticleontheabovesubject“Edison'sElectricGenerator“inlastweek'sScientificAmericancouldhavebeenwrittenfromstatementsderivedfromMr。Edisonhimself,inasmuchassomanyoftheadvantagesclaimedforthemachinedescribedandstatementsoftheresultsobtainedaresomanifestlyabsurdastoindicateonthepartofbothwriterandprompterapositivewantofknowledgeoftheelectriccircuitandtheprinciplesgoverningtheconstructionandoperationofelectricmachines。
“Itisnotmyintentiontocriticisethedesignorconstructionofthemachinenotbecausetheyarenotopentocriticism,asIamnowandhavebeenformanyyearsengagedinthemanufactureofelectricmachines,butrathertocallattentiontotheimpossibilityofobtainingthedescribedresultswithoutdestroyingthedoctrineoftheconservationandcorrelationofforces……
“Itisstatedthat`theinternalresistanceofthearmature'
ofthismachine`isonly1/2ohm。'Onthisfactandthedisproportionbetweenthisresistanceandthatoftheexternalcircuit,thetheoryoftheallegedefficiencyofthemachineisstatedtobebased,forweareinformedthat,`whilethisgeneratoringeneralprincipleisthesameasinthebestwell-knownforms,stillthereisanall-importantdifference,whichisthatitwillconvertanddeliverforusefulworknearlydoublethenumberoffoot-poundsthatanyothermachinewillunderlikeconditions。'“ThewriterofthiscriticalletterthenproceedstoquoteMr。Upton'sstatementofthisefficiency:“`Nowtheenergyconvertedisdistributedoverthewholeresistance,henceiftheresistanceofthemachineberepresentedby1andtheexteriorcircuitby9,thenofthetotalenergyconvertednine-tenthswillbeuseful,asitisoutsideofthemachine,andone-tenthislostintheresistanceofthemachine。'“
Afterthisthecriticgoesontosay:
“HowanyoneacquaintedwiththelawsoftheelectriccircuitcanmakesuchstatementsiswhatIcannotunderstand。
Thestatementlastquotedismathematicallyabsurd。
ItimplieseitherthatthemachineisCAPABLEOFINCREASING
ITSOWNELECTROMOTIVEFORCENINETIMESWITHOUTANINCREASED
EXPENDITUREOFPOWER,orthatexternalresistanceisNOTresistancetothecurrentinducedintheEdisonmachine。
“DoesMr。Edison,oranyoneforhim,meantosaythatr/nenableshimtoobtainnE,andthatCISNOT=E/r/nR?
IfsoMr。EdisonhasdiscoveredsomethingMOREthanperpetualmotion,andMr。Keelyhadbetterretirefromthefield。
“FurtheronthewriterMr。Uptongivesusanotherexampleofthismodeofreasoningwhen,emboldenedandsatisfiedwiththeabsurdtheoryaboveexposed,heendeavorstoprovethecauseoftheinefficiencyoftheSiemensandothermachines。Couldn'tthewriterofthearticleseethatsinceC=E/rRthatbyR/norbymakingR=r,themachinewould,accordingtohistheory,havereturnedmoreusefulcurrenttothecircuitthancouldbeduetothepoweremployedandintheratioindicated,sothattherewouldactuallybeacreationofforce!……
“InconclusionallowmetosaythatifMrEdisonthinkshehasaccomplishedsomuchbytheREDUCTIONOFTHEINTERNAL
RESISTANCEofhismachine,thathehasmuchmoretodointhisdirectionbeforehismachinewillequalINTHISRESPECT
othersalreadyinthemarket。“
AnotherparticipantinthecontroversyonEdison'sgeneratorwasascientificgentleman,whoinalongarticlepublishedintheScientificAmerican,inNovember,1879,gravelyundertooktoinstructEdisonintheABCofelectricalprinciples,andthenproceededtodemonstratemathematicallytheIMPOSSIBILITYofdoingWHATEDISONHADACTUALLYDONE。Thiscriticconcludeswithagentlerebuketotheinventorforill-
timedjesting,andasuggestiontofurnishAUTHENTICinformation!
Inthelightoffacts,astheywereandare,thisarticleissofullofhumorthatweshallindulgeinafewquotationsItcommencesinABCfashionasfollows:“Electricmachinesconvertmechanicalintoelectricalenergy……Theratioofyieldtoconsumptionistheexpressionoftheefficiencyofthemachine……Howmanyfoot-poundsofelec-
tricitycanbegotoutof100foot-poundsofmechanicalenergy?Certainlynotmorethan100:certainlyless……
Thefactsandlawsofphysics,withtheassistanceofmathematicallogic,neverfailtofurnishpreciousanswerstosuchquestions。“
Thewould-becriticthengoesontotabulatetestsofcertainotherdynamomachinesbyacommitteeoftheFranklinInstitutein1879,theresultsofwhichshowedthatthesemachinesreturnedabout50percent。oftheappliedmechanicalenergy,ingenuouslyremarking:“Whyisitthatwhenwehaveproducedtheelectricity,halfofitmustslipaway?Somepersonswillbecontentiftheyaretoldsimplythatitisawaywhichelectricityhasofbehaving。ButthereisasatisfactoryrationalexplanationwhichIbelievecanbemadeplaintopersonsofordinaryintelligence。Itoughttobeknowntoallthosewhoaremakingorusingmachines。
Iamgrievedtoobservethatmanypersonswhotalkandwritegliblyaboutelectricitydonotunderstandit;someevenignoreordenythefacttobeexplained。“
HerefollowsHISexplanation,afterwhichhegoesontosay:“Atthispointplausiblycomesinasuggestionthattheinternalpartofthecircuitbemadeverysmallandtheexternalpartverylarge。Whynotsaymaketheinternalpart1andtheexternal9,thussavingnine-tenthsandlosingonlyone-tenth?Unfortunately,thesuggestionisnotpractical;
afallacyisconcealedinit。“
Hethengoesontoprovehiscasemathematically,tohisownsatisfaction,followingitsadlybycondolingwithandawarningtoEdison:“ButaboutEdison'selectricgenerator!……Noonecapableofmakingtheimprovementsinthetelegraphandtelephone,forwhichweareindebtedtoMr。
Edison,couldbeotherthananaccomplishedelectrician。
Hisreputationasascientist,indeed,issmirchedbythenewspaperexaggerations,andnodoubthewillbemorecarefulinfuture。Butthereisadangernearerhome,indeed,amonghisownfriendsandinhisveryhousehold。
“……Thewriterofpage242“theoriginalarticle“isprobablyafriendofMr。Edison,butpossibly,alas!awickedpartner。Whydoeshesaysuchthingsasthese?`Mr。Edisonclaimsthatherealizes90percent。ofthepowerappliedtothismachineinexternalwork。'……Perhapsthewriterisahumorist,andhadinhismindColonelSellers,etc。,whichhecouldnotkeepoutofaseriousdiscussion;butsuchjestsarenotgood。
“Mr。Edisonhasbuiltaveryinterestingmachine,andhehastheopportunityofmakingavaluablecontributiontotheelectricalartsbyfurnishingauthenticaccountsofitscapabilities。“
Theforegoingextractsareunavoidablylengthy,but,viewedinthelightoffacts,servetoillustratemostclearlythatEdison'sconceptionsandworkwerefarandawayaheadofthecomprehensionofhiscontemporariesintheart,andthathisachievementsinthelineofefficientdynamodesignandconstructionwereindeedtrulyfundamentalandrevolutionaryincharacter。Muchmoreofsimilarnaturetotheabovecouldbequotedfromotherarticlespublishedelsewhere,buttheforegoingwillserveasinstancesgenerallyrepresentingall。InthecontroversywhichappearedinthecolumnsoftheScientificAmerican,Mr。Upton,Edison'smathematician,tookupthequestiononhisside,andansweredthecriticsbyfurtherelucidationsoftheprinciplesonwhichEdisonhadfoundedsuchremarkableandradicalimprovementsintheart。ThetypeofEdison'sfirstdynamo-
electricmachine,thedescriptionofwhichgaverisetotheabovecontroversy,isshowninFig。1。
AnyaccountofEdison'sworkonthedynamowouldbeincompletediditomittorelatehisconceptionandconstructionofthegreatdirect-connectedsteam-drivengeneratorthatwastheprototypeofthecolossalunitswhichareusedthroughouttheworldto-day。
InthedemonstratingplantinstalledandoperatedbyhimatMenloParkin1880tendynamosofeighthorse-powereachweredrivenbyaslow-speedenginethroughacomplicatedsystemofcounter-shafting,and,toquotefromMr。
Clarke'sHistoricalReview,“itwasfoundthataconsiderablepercentageofthepoweroftheenginewasnecessarilywastedinfrictionbythismethodofdriving,andtopreventthiswasteandthusincreasetheeconomyofhissystem,Mr。Edisonconceivedtheideaofsubstitutingasinglelargedynamofortheseveralsmalldynamos,anddirectlycouplingitwiththedrivingengine,andatthesametimepreservetherequisitehigharmaturespeedbyusinganengineofthehigh-
speedtype。Healsoexpectedtorealizestillfurthergainsineconomyfromtheuseofalargedynamoinplaceofseveralsmallmachinesbyamorethancorrespondinglylowerarmatureresistance,lessenergyformagnetizingthefield,andforotherminorreasons。Tothesameend,heintendedtosupplysteamtotheengineunderamuchhigherboilerpressurethanwascustomaryinstationary-enginedrivingatthattime。“
Theconstructionofthefirstoneoftheselargemachineswascommencedlateintheyear1880。Earlyin1881itwascompletedandtested,butsomeradicaldefectsinarmatureconstructionweredeveloped,anditwasalsodemonstratedthatarateofenginespeedtoohighforcontinuouslysafeandeconomicaloperationhadbeenchosen。Themachinewaslaidaside。Anaccurateillustrationofthismachine,asitstoodintheengine-roomatMenloPark,isgiveninVanNostrand'sEngineeringMagazine,Vol。XXV,oppositepage439,andabriefdescriptionisgivenonpage450。
Withtheexperiencethusgained,Edisonbegan,inthespringof1881,attheEdisonMachineWorks,GoerckStreet,NewYorkCity,theconstructionofthefirstsuccessfulmachineofthistype。Thiswasthegreatmachineknownas“JumboNo。1,“whichisreferredtointhenarrativeashavingbeenexhibitedattheParisInternationalElectricalExposition,whereitwasregardedasthewonderoftheelectricalworld。Anintimationofsomeofthetremendousdifficultiesencounteredintheconstructionofthismachinehasalreadybeengiveninprecedingpages,henceweshallnotnowenlargeonthesubject,excepttonoteinpassingthattheterriblydestructiveeffectsofthesparkofself-inductionandthearcingfollowingitwerefirstmanifestedinthispowerfulmachine,butwerefinallyovercomebyEdisonafterastrenuousapplicationofhispowerstothesolutionoftheproblem。
Itmaybeofinterest,however,tomentionsomeofitsdimensionsandelectricalcharacteristics,quotingagainfromMr。Clarke:“Thefield-magnethadeightsolidcylindricalcores,8inchesindiameterand57incheslong,uponeachofwhichwaswoundanexciting-coilof3。2ohmsresistance,consistingof2184turnsofNo。10B。W。G。insulatedcopperwire,disposedinsixlayers。Thelaminatedironcoreofthearmature,formedofthinirondisks,was333/4incheslong,andhadaninternaldiameterof121/2inches,andanexternaldiameterof267/16inches。Itwasmountedona6-inchshaft。
Thefield-poleswere333/4incheslong,and271/2inchesinsidediameterThearmaturewindingconsistedof146copperbarsonthefaceofthecore,connectedintoaclosed-coilwindingbymeansof73copperdisksateachendofthecore。
Thecross-sectionalareaofeachbarwas0。2squareinchtheiraveragelengthwas42。7inches,andthecopperend-
diskswere0。065inchthick。Thecommutatorhad73sec-
tions。Thearmatureresistancewas0。0092ohm,[28]ofwhich0。0055ohmwasinthearmaturebarsand0。0037ohmintheend-disks。“AnillustrationofthenextlatesttypeofthismachineispresentedinFig。2。
[28]HadEdisoninUpton'sScientificAmericanarticlein1879proposedsuchanexceedinglylowarmatureresistanceforthisimmensegeneratoralthoughitsratiowasproportionatetotheoriginalmachine,hiscriticsmightprobablyhavebeensufficientlyindignantastobeunabletoexpressthemselvescoherently。
ThestudentmayfinditinterestingtolookupEdison'sUnitedStatesPatentsNos。242,898,263,133,263,146,and246,647,bearingupontheconstructionofthe“Jumbo“;
alsoillustratedarticlesinthetechnicaljournalsofthetime,amongwhichmaybementioned:ScientificAmerican,Vol。
XLV,page367;Engineering,London,Vol。XXXII,pages409and419,TheTelegraphicJournalandElectricalReview,London,Vol。IX,pages431-433,436-446;LaNature,Paris,9thyear,PartII,pages408-409;ZeitschriftfurAngewandteElektricitaatslehre,MunichandLeipsic,Vol。IV,pages4-14;
andDredge'sElectricIllumination,1882,Vol。I,page261。
Thefurtherdevelopmentofthesegreatmachineslateron,andtheirextensivepracticaluse,arewellknownandneednofurthercomment,exceptinpassingitmaybenotedthatsubsequentmachineshadeachacapacityof1200lampsof16candle-power,andthatthearmatureresistancewasstillfurtherreducedto0。0039ohm。
Edison'sclearinsightintothefuture,asillustratedbyhispersistentadvocacyoflargedirect-connectedgeneratingunits,isabundantlyvindicatedbypresent-daypractice。
HisJumbomachines,of175horse-power,soenormousfortheirtime,haveservedasprototypes,andhavebeensucceededbygeneratorswhichhaveconstantlygrowninsizeandcapacityuntilatthistime1910itisnotuncommontoemploysuchgeneratingunitsofacapacityof14,000kilowatts,orabout18,666horse-power。
WehavenotenteredintospecificdescriptionsofthemanyotherformsofdynamomachinesinventedbyEdison,suchasthemultipolar,thediskdynamo,andthearmaturewithtwowindings,forsub-stationdistribution;indeed,itisnotpossiblewithinourlimitedspacetopresentevenabriefdigestofEdison'sgreatandcomprehensiveworkonthedynamo-electricmachine,asembodiedinhisextensiveex-
perimentsandinoveronehundredpatentsgrantedtohim。
Wehave,therefore,confinedourselvestotheindicationofafewsalientandbasicfeatures,leavingittotheinterestedstudenttoexaminethepatentsandthetechnicalliteratureofthelongperiodoftimeoverwhichEdison'slaborswereextended。
Althoughhehasnotgivenanyattentiontothesubjectofgeneratorsformanyyears,aninterestinginstanceofhisincisivemethodofovercomingminordifficultiesoccurredwhilethepresentvolumeswereunderpreparation1909。
Carbonforcommutatorbrusheshasbeensupersededbygraphiteinsomecases,thelattermaterialbeingfoundmuchmoreadvantageous,electrically。Troubledeveloped,however,forthereasonthatwhilecarbonwashardandwouldwearawaythemicainsulationsimultaneouslywiththecopper,graphite,beingsofter,wouldwearawayonlythecopper,leavingridgesofmicaandthuscausingsparkingthroughunequalcontact。AtthispointEdisonwasaskedtodiagnosethetroubleandprovidearemedy。Hesuggestedthecuttingoutofthemicapiecesalmosttothebottom,leavingthecommutatorbarsseparatedbyair-spaces。
Thisschemewasobjectedtoonthegroundthatparticlesofgraphitewouldfilltheseair-spacesandcauseashort-
circuit。Hisanswerwasthattheair-spacesconstitutedthevalueofhisplan,astheparticlesofgraphitefallingintothemwouldbethrownoutbytheactionofcentrifugalforceasthecommutatorrevolved。Andthusitoccurredasamatteroffact,andthetroublewasremedied。Thisideawassubsequentlyadoptedbyagreatmanufacturerofgenerators。
XI
THEEDISONFEEDERSYSTEM
TOquotefromthepreambleofthespecificationsofUnitedStatesPatentNo。264,642,issuedtoThomasA。EdisonSeptember19,1882:“Thisinventionrelatestoamethodofequalizingthetensionor`pressure'ofthecurrentthroughanentiresystemofelectriclightingorothertranslationofelectricforce,preventingwhatisordinarilyknownasa`drop'inthoseportionsofthesystemthemoreremotefromthecentralstation……“
TheproblemwhichwassolvedbytheEdisonfeedersystemwasthatrelatingtotheequaldistributionofcurrentonalargescaleoverextendedareas,inorderthataconstantanduniformelectricalpressurecouldbemaintainedineverypartofthedistributionareawithoutprohibitoryexpenditureforcopperformainsandconductors。
Thisproblemhadatwofoldaspect,althougheachsidewasinseparablyboundupintheother。Ontheonehanditwasobviouslynecessaryinalightingsystemthateachlampshouldbeofstandardcandle-power,andcapableofinterchangeableuseonanypartofthesystem,givingthesamedegreeofilluminationateverypoint,whetherneartoorremotefromthesourceofelectricalenergy。Ontheotherhand,thismustbeaccomplishedbymeansofasystemofconductorssodevisedandarrangedthatwhiletheywouldinsuretheequalpressurethusdemanded,theirmassandconsequentcostwouldnotexceedtheboundsofpracticalandcommerciallyeconomicalinvestment。
Thegreatimportanceofthisinventioncanbebetterunderstoodandappreciatedbyabriefglanceatthestateoftheartin1878-79,whenEdisonwasconductingthefinalseriesofinvestigationswhichculminatedinhisinventionoftheincandescentlampandSYSTEMoflighting。Atthistime,andforsomeyearspreviously,thescientificworldhadbeenworkingonthe“subdivisionoftheelectriclight,“asitwasthentermed。Someleadingauthoritiespronounceditabsolutelyimpossibleofachievementonanyextendedscale,whileaveryfewothers,ofmoreoptimisticmind,couldseenogleamoflightthroughthedarkness,butconfidentlyhopedforfuturedevelopmentsbysuchworkersasEdison。
Theearlierinvestigators,includingthoseuptotheperiodabovenamed,thoughtoftheproblemasinvolvingthesubdivisionofaFIXEDUNITofcurrent,which,beingsufficienttocauseilluminationbyonelargelamp,mightbedividedintoanumberofsmallunitswhoseaggregatelightwouldequalthecandle-powerofthislargelamp。Itwasfound,however,intheirexperimentsthatthecontraryeffectwasproduced,forwitheveryadditionallampintroducedinthecircuitthetotalcandle-powerdecreasedinsteadofincreasing。
IftheywereplacedinseriesthelightvariedinverselyastheSQUAREofthenumberoflampsincircuit;whileiftheywereinsertedinmultiplearc,thelightdiminishedastheCUBEofthenumberincircuit。[29]TheideaofmaintainingaconstantpotentialandofPROPORTIONINGTHECURRENTtothenumberoflampsincircuitdidnotoccurtomostoftheseearlyinvestigatorsasafeasiblemethodofovercomingthesupposeddifficulty。
[29]M。Fontaine,inhisbookonElectricLighting1877,showedthatwiththecurrentofabatterycomposedofsixteenelements,onelampgaveanilluminationequalto54burners;whereastwosimilarlamps,ifintroducedinparallelormultiplearc,gavethelightofonly61/2burnersinall;
threelampsofonly2burnersinall;fourlampsofonly3/4ofoneburner,andfivelampsof1/4ofaburner。
Itwouldalsoseemthatalthoughthegeneralmethodofplacingexperimentallampsinmultiplearcwasknownatthisperiod,theideaof“drop“ofelectricalpressurewasimperfectlyunderstood,if,indeed,realizedatall,asamostimportantitemtobeconsideredinattemptingthesolutionoftheproblem。Asamatteroffact,theinvestigatorsprecedingEdisondonotseemtohaveconceivedtheideaofa“system“atall;henceitisnotsurprisingtofindthemfarastrayfromthecorrecttheoryofsubdivisionoftheelectriccurrent。Itmayeasilybebelievedthattheterm“subdivision“
wasamisleadingonetotheseearlyexperimenters。
ForaveryshorttimeEdisonalsowasthusmisled,butassoonasheperceivedthattheproblemwasoneinvolvingtheMULTIPLICATIONOFCURRENTUNITS,hisbroadconceptionofa“system“wasborn。
Generallyspeaking,allconductorsofelectricityoffermoreorlessresistancetothepassageofcurrentthroughthemandinthetechnicalterminologyofelectricalsciencetheword“drop“whenusedinreferencetoasystemofdistribution
isusedtoindicateafallorlossofinitialelectricalpressurearisingfromtheresistanceofferedbythecopperconductorsleadingfromthesourceofenergytothelamps。
Theresultofthisresistanceistoconvertortranslateaportionoftheelectricalenergyintoanotherform——namely,heat,whichintheconductorsisUSELESSandwastefulandtosomeextentinevitableinpractice,butistobeavoidedandremediedasfaraspossible。
Itistruethatinanelectric-lightingsystemthereisalsoafallorlossofelectricalpressurewhichoccursinovercomingthemuchgreaterresistanceofthefilamentinanincandescentlamp。Inthiscasethereisalsoatranslationoftheenergy,buthereitaccomplishesaUSEFULpurpose,astheenergyisconvertedintotheformoflightthroughtheincandescenceofthefilament。Suchaconversioniscalled“work“asdistinguishedfrom“drop,“althoughafallofinitialelectricalpressureisinvolvedineachcase。
Thepercentageof“drop“variesaccordingtothequantityofcopperusedinconductors,bothastocross-sectionandlength。Thesmallerthecross-sectionalarea,thegreaterthepercentageofdrop。Thepracticaleffectofthisdropwouldbealossofilluminationinthelampsaswegofartherawayfromthesourceofenergy。ThismaybeillustratedbyasimplediagraminwhichGisagenerator,orsourceofenergy,furnishingcurrentatapotentialorelectricalpressureof110volts;1and2aremainconductors,fromwhich110-voltlamps,L,aretakeninderivedcircuits。ItwillbeunderstoodthatthecircuitsrepresentedinFig。1aretheoreticallysupposedtoextendoveralargearea。Themainconductorsaresufficientlylargeincross-sectiontoofferbutlittleresistanceinthosepartswhicharecomparativelynearthegenerator,butasthecurrenttraversestheirextendedlengththereisagradualincreaseofresistancetoovercome,andconsequentlythedropincreases,asshownbythefigures。
Theresultofthedropinsuchacasewouldbethatwhilethetwolamps,orgroups,nearestthegeneratorwouldbeburningattheirproperdegreeofillumination,thosebeyondwouldgivelowerandlowercandle-power,successively,untilthelastlamp,orgroup,wouldbegivingonlyabouttwo-thirdsthelightofthefirsttwo。Inotherwords,averyslightdropinvoltagemeansadisproportionatelygreatlossinillumination。
Hence,byusingaprimitivesystemofdistribution,suchasthatshownbyFig。1,theinitialvoltagewouldhavetobesohigh,inordertoobtainthepropercandle-powerattheendofthecircuit,thatthelampsnearestthegeneratorwouldbedangerouslyoverheated。Itmightbesuggestedasasolutionofthisproblemthatlampsofdifferentvoltagescouldbeused。But,asweareconsideringsystemsofextendeddistributionemployingvastnumbersoflampsasinNewYorkCity,wheremillionsareinuse,itwillbeseenthatsuchamethodwouldleadtoinextricableconfusion,andthereforebeabsolutelyoutofthequestion。Inasmuchasthepercentageofdropdecreasesinproportiontotheincreasedcross-sectionoftheconductors,theonlyfeasibleplanwouldseemtobetoincreasetheirsizetosuchdimensionsastoeliminatethedropaltogether,beginningwithconductorsoflargecross-sectionandtaperingoffasnecessary。
Thiswould,indeed,obviatethetrouble,but,ontheotherhand,wouldgiverisetoamuchmoreseriousdifficulty——
namely,theenormousoutlayforcopper;anoutlaysogreatastobeabsolutelyprohibitoryinconsideringtheelectriclightingoflargedistricts,asnowpracticed。
Anotherdiagramwillprobablymakethismoreclear。
Thereferencefiguresareusedasbefore,exceptthatthehorizontallinesextendingfromsquaremarkedGrepresentthemainconductors。Aseachlamprequiresandtakesitsownproportionofthetotalcurrentgenerated,itisobviousthatthesizeoftheconductorstocarrythecurrentforanumberoflampsmustbeaslargeasthesumofALLtheseparateconductorswhichwouldberequiredtocarrythenecessaryamountofcurrenttoeachlampseparately。
Hence,inaprimitivemultiple-arcsystem,itwasfoundthatthesystemmusthaveconductorsofasizeequaltotheaggregateoftheindividualconductorsnecessaryforeverylamp。Suchconductorsmighteitherbeseparate,asshownaboveFig。2,orbebunchedtogether,ormadeintoasolidtaperingconductor,asshowninthefollowingfigure:
Theenormousmassofcopperneededinsuchasystemcanbebetterappreciatedbyaconcreteexample。SomeyearsagoMr。W。J。Jenksmadeacomparativecalculationwhichshowedthatsuchasystemofconductorsknownasthe“Tree“system,tosupply8640lampsinaterritoryextendingoversosmallanareaasninecityblocks,wouldrequire803,250poundsofcopper,whichatthethenpriceof25centsperpoundwouldcost$200,812。50!
Such,inbrief,wasthestateoftheart,generallyspeaking,attheperiodabovenamed1878-79。Asearlyintheartasthelatterendoftheyear1878,Edisonhaddevelopedhisideassufficientlytodeterminethattheproblemofelectricilluminationbysmallunitscouldbesolvedbyusingincandescentlampsofhighresistanceandsmallradiatingsurface,andbydistributingcurrentsofconstantpotentialtheretoinmultiplearcbymeansofaramificationofconductors,startingfromacentralsourceandbranchingtherefromineverydirection。ThiswasanequivalentofthemethodillustratedinFig。3,knownasthe“Tree“system,andwas,infact,thesystemusedbyEdisoninthefirstandfamousexhibitionofhiselectriclightatMenloParkaroundtheChristmasperiodof1879。Herealized,however,thattheenormousinvestmentforcopperwouldmilitateagainstthecommercialadoptionofelectriclightingonanextendedscale。Hisnextinventivestepcoveredthedivisionofalargecitydistrictintoanumberofsmallsub-stationssupplyingcurrentthroughaninterconnectednetworkofconductors,thusreducingexpenditureforcoppertosomeextent,becauseeachdistributionunitwassmallandlimitedthedrop。
Hisnextdevelopmentwastheradicaladvancementofthestateofthearttothefeedersystem,coveredbythepatentnowunderdiscussion。Thisinventionsweptawaythetreeandothersystems,andatoneboundbroughtintobeingthepossibilityofeffectivelydistributinglargecurrentsoverextendedareaswithacommerciallyreasonableinvestmentforcopper。
Thefundamentalprinciplesofthisinventionwere,first,toseverentirelyanydirectconnectionofthemainconductorswiththesourceofenergy;and,second,tofeedcurrentataconstantpotentialtocentralpointsinsuchmainconductorsbymeansofotherconductors,called“feeders,“
whichweretobeconnecteddirectlywiththesourceofenergyatthecentralstation。Thisideawillbemademoreclearbyreferencetothefollowingsimplediagram,inwhichthesamelettersareusedasbefore,withadditions:
Infurtherelucidationofthediagram,itmaybeconsideredthatthemainsarelaidinthestreetalongacityblock,moreorlessdistantfromthestation,whilethefeedersareconnectedatoneendwiththesourceofenergyatthestation,theirotherextremitiesbeingconnectedtothemainsatcentralpointsofdistribution。Ofcourse,thissystemwasintendedtobeappliedineverypartofadistricttobesuppliedwithcurrent,separatesetsoffeedersrunningoutfromthestationtothevariouscentres。Thedistributionmainsweretobeofsufficientlylargesizethatbetweentheirmostextremepointsthelosswouldnotbemorethan3volts。
Suchaslightdifferencewouldnotmakeanappreciablevariationinthecandle-powerofthelamps。
Bytheapplicationoftheseprinciples,theinevitablebutuselessloss,or“drop,“requiredbyeconomymightbeincurred,butwasLOCALIZEDINTHEFEEDERS,whereitwouldnotaffecttheuniformityofilluminationofthelampsinanyofthecircuits,whetherneartoorremotefromthestation,becauseanyvariationsoflossinthefeederswouldnotgiverisetosimilarfluctuationsinanylampcircuit。Thefeedersmightbeoperatedatanydesiredpercentageoflossthatwouldrealizeeconomyincopper,solongastheydeliveredcurrenttothemainconductorsatthepotentialrepresentedbytheaveragevoltageofthelamps。
Thusthefeederscouldbemadecomparativelysmallincross-section。Itwillbeatonceappreciatedthat,inasmuchasthemainsrequiredtobelaidONLYalongtheblockstobelighted,andwerenotrequiredtoberunallthewaytothecentralstationwhichmightbehalfamileormoreaway,thesavingofcopperbyEdison'sfeedersystemwasenormous。
Indeed,thecomparativecalculationofMr。Jenks,abovereferredto,showsthattooperatethesamenumberoflightsinthesameextendedareaofterritory,thefeedersystemwouldrequireonly128,739poundsofcopper,which,atthethenpriceof25centsperpound,wouldcostonly$39,185,orASAVINGof$168,627。50forcopperinthisverysmalldistrictofonlynineblocks。
Anadditionalillustration,appealingtotheeye,ispresentedinthefollowingsketch,inwhichthecomparativemassesofcopperofthetreeandfeedersystemsforcarryingthesamecurrentareshownsidebyside:
XII
THETHREE-WIRESYSTEM
THISinventioniscoveredbyUnitedStatesPatentNo。
274,290,issuedtoEdisononMarch20,1883。Theobjectoftheinventionwastoprovideforincreasedeconomyinthequantityofcopperemployedforthemainconductorsinelectriclightandpowerinstallationsofconsiderableextentatthesametimepreservingseparateandindependentcontrolofeachlamp,motor,orothertranslatingdevice,uponanyoneofthevariousdistributioncircuits。
ImmediatelypriortothisinventionthehigheststateoftheartofelectricaldistributionwasrepresentedbyEdison'sfeedersystem,whichhasalreadybeendescribedasastraightparallelormultiple-arcsystemwhereineconomyofcopperwasobtainedbyusingseparatesetsofconductors——minusload——feedingcurrentatstandardpotentialorelectricalpressureintothemainsatcentresofdistribution。
Itshouldbeborneinmindthattheincandescentlampwhichwasacceptedatthetimeasastandardandhassoremainedtothepresentdaywasalampof110voltsorthereabouts。Inusingtheword“standard,“therefore,itisintendedthatthesameshallapplytolampsofaboutthatvoltage,aswellastoelectricalcircuitsoftheapproximatepotentialtooperatethem。
Brieflystated,theprincipleinvolvedinthethree-wiresystemistoprovidemaincircuitsofdoublethestandardpotential,soastooperatestandardlamps,orothertranslatingdevices,inmultipleseriesoftwotoeachseries;andforthepurposeofsecuringindependent,individualcontrolofeachunit,todivideeachmaincircuitintoanydesirednumberofderivedcircuitsofstandardpotentialproperlybalancedbymeansofacentralcompensatingconductorwhichwouldbenormallyneutral,butdesignedtocarryanyminorexcessofcurrentthatmightflowbyreasonofanytemporaryunbalancingofeithersideofthemaincircuit。
Referencetothefollowingdiagramswillelucidatethisprinciplemoreclearlythanwordsalonecando。Forthepurposeofincreasedluciditywewillfirstshowaplainmultiple-seriessystem。
InthisdiagramGandGrepresenttwogenerators,eachproducingcurrentatapotentialof110volts。Byconnect-
ingtheminseriesthispotentialisdoubled,thusprovidingamaincircuitPandNof220volts。ThefiguresmarkedLrepresenteightlampsof110voltseach,inmultipleseriesoftwo,infourderivedcircuits。Thearrowsindicatetheflowofcurrent。Bythismethodeachpairoflampstakes,together,onlythesamequantityorvolumeofcurrentrequiredbyasinglelampinasimplemultiple-arcsystem;
and,asthecross-sectionofaconductordependsuponthequantityofcurrentcarried,suchanarrangementastheabovewouldallowtheuseofconductorsofonlyone-fourththecross-sectionthatwouldbeotherwiserequired。Fromthestandpointofeconomyofinvestmentsuchanarrangementwouldbehighlydesirable,butconsideredcommerciallyitisimpracticablebecausetheprincipleofindependentcontrolofeachunitwouldbelost,astheturningoutofalampinanyserieswouldmeantheextinguishmentofitscompanionalso。Byreferringtothediagramitwillbeseenthateachseriesoftwoformsonecontinuouspathbetweenthemainconductors,andifthispathbebrokenatanyonepointcurrentwillimmediatelyceasetoflowinthatparticularseries。
Edison,byhisinventionofthethree-wiresystem,over-
camethisdifficultyentirely,andatthesametimeconservedapproximately,thesavingofcopper,aswillbeapparentfromthefollowingillustrationofthatsystem,initssimplestform。
Thereferencefiguresaresimilartothoseintheprecedingdiagram,andallconditionsarealsoalikeexceptthatacentralcompensating,orbalancing,conductor,PN,ishereintroduced。Thisistechnicallytermedthe“neutral“wire,andinthedischargeofitsfunctionsliesthesolutionoftheproblemofeconomicaldistribution。Theoretically,athree-
wireinstallationisevenlybalancedbywiringforanequalnumberoflampsonbothsides。Ifalltheselampswerealwayslighted,burned,andextinguishedsimultaneouslythecentralconductorwould,infact,remainneutral,astherewouldbenocurrentpassingthroughit,exceptfromlamptolamp。Inpractice,however,nosuchperfectconditionscanobtain,hencethenecessityoftheprovisionforbalancinginordertomaintaintheprincipleofindependentcontrolofeachunit。
ItwillbeapparentthatthearrangementshowninFig。2
comprisespracticallytwocircuitscombinedinonesystem,inwhichthecentralconductor,PN,incaseofemergency,servesintwocapacities——namely,asnegativetogeneratorGoraspositivetogeneratorG,althoughnormallyneutral。
Therearetwosidestothesystem,thepositivesidebeingrepresentedbytheconductorsPandPN,andthenegativesidebytheconductorsPNandN。Eachside,ifconsideredseparately,hasapotentialofabout110volts,yetthepotentialofthetwooutsideconductors,PandN,is220volts。
Thelampsare110volts。
Inpracticalusetheoperationofthesystemisasfollows:
IfallthelampswerelightedthecurrentwouldflowalongPandthrougheachpairoflampstoN,andsobacktothesourceofenergy。Inthiscasethebalanceispreservedandthecentralwireremainsneutral,asnoreturncurrentflowsthroughittothesourceofenergy。Butletussupposethatonelamponthepositivesideisextinguished。Noneoftheotherlampsisaffectedthereby,butthesystemisimmediatelythrownoutofbalance,andonthepositivesidethereisanexcessofcurrenttothisextentwhichflowsalongorthroughthecentralconductorandreturnstothegenerator,thecentralconductorthusbecomingthenegativeofthatsideofthesystemforthetimebeing。Ifthelampextinguishedhadbeenoneofthoseonthenegativesideofthesystemresultsofasimilarnaturewouldobtain,exceptthatthecentralconductorwouldforthetimebeingbecomethepositiveofthatside,andtheexcessofcurrentwouldflowthroughthenegative,N,backtothesourceofenergy。Thusitwillbeseenthatathree-wiresystem,consideredasawhole,iselasticinthatitmayoperateasonewheninbalanceandastwowhenunbalanced,butineithereventgivingindependentcontrolofeachunit。
Forsimplicityofillustrationalimitednumberofcircuits,showninFig。2,hasbeenemployed。Inpractice,however,wheregreatnumbersoflampsareinuseas,forinstance,inNewYorkCity,whereabout7,000,000lampsareoperatedfromvariouscentralstations,thereisconstantlyoccurringmoreorlesschangeinthebalanceofmanycircuitsextendingoverconsiderabledistances,butofcoursethereisanetresultwhichisalwaysononesideofthesystemortheotherforthetimebeing,andthisismetbyproperadjustmentattheappropriategeneratorinthestation。
Inordertomaketheexplanationcomplete,thereispresentedanotherdiagramshowingathree-wiresystemunbalanced:
Thereferencefiguresareusedasbefore,butinthiscasetheverticallinesrepresentbranchestakenfromthemainconductorsintobuildingsorotherspacestobelighted,andtheloopsbetweenthesebranchwiresrepresentlampsinoperation。Itwillbeseenfromthissketchthattherearetenlampsonthepositivesideandtwelveonthenegativeside。Hence,thenetresultisanexcessofcurrentequaltothatrequiredbytwolampsflowingthroughthecentralorcompensatingconductor,whichisnowactingaspositivetogeneratorGThearrowsshowtheassumeddirectionofflowofcurrentthroughoutthesystem,andthesmallfiguresatthearrow-headsthevolumeofthatcurrentexpressedinthenumberoflampswhichitsupplies。
Thecommercialvalueofthisinventionmaybeappreciatedfromthefactthatbytheapplicationofitsprinciplesthereiseffectedasavingof621/2percent。oftheamountofcopperoverthatwhichwouldberequiredforconductorsinanypreviouslydevisedtwo-wiresystemcarryingthesameload。Thisarisesfromthefactthatbythedoublingofpotentialthetwooutsidemainsarereducedtoone-quarterthecross-sectionotherwisenecessary。Asavingof75percent。wouldthusbeassured,buttheadditionofathird,orcompensating,conductorofthesamecross-sectionasoneoftheoutsidemainsreducesthetotalsavingto621/2percent。
Thethree-wiresystemisinuniversalusethroughouttheworldatthepresentday。