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WHAT YOU WILL GAIN:• Skillsandknow-howinthelatestelectricalandinstrumentationtechnologiesusedinminingoperationsallovertheworld
• Practicalguidancefromminingexpertsinthefield
• 'Hands-on'knowledgefromtheextensiveexperienceofthelecturers,ratherthanfromonlythetheoreticalinformationgainedfrombooksandcollegereading
• Credibilityasaminingexpertinyourfirm
• Networkingcontactsintheindustry
• Improvedcareerprospectsandincome
• AnAdvancedDiplomaofElectricaland Instrumentation(E&I)Engineeringin Mining
StArtDAtE:Forupcomingstartdates,pleaseviewourprogramscheduleat:
http://www.eit.edu.au/schedule
Visitourwebsite:www.eit.edu.au
Gaincuttingedgeexpertisewiththisprestigious,practicalADVANCEDDIPLOMA
remainatthecuttingedgeofelectricalandelectronicminingtechnologyParticipatefromyourhomeorofficethroughlive,interactivewebinars
Learnfromworld-renownedexpertsinminingtechnologyJointhenextgenerationofminingengineers
Advanced Diploma of
ElEctrical and instrumEntation (E&i) EnginEEring IN mining**
**Anoteregardingrecognitionof thisprogramintheAustralianeducationsystem:theEIt istheownerof thisprogram.theprogram is officially accreditedwithin the AustralianQualifications Framework by the training Accreditation Council, and isapprovedbytheAustralianSkillsQualityAuthority(ASQA)fordeliverybytheEItinallAustralianstates.theEItdeliversthisprogramtostudentsworldwide.
52727WA
V0005 rtOprovider51971•ACN135 762 426
Spreadthefees–Paymentoptionsavailable
2 RTO provider 51971 • ACN 135 762 426V0005
IntroductionMiningequipmenthascomealongwaysincethedaysofmule-drawncarriagesforhaulage,andcanariesorDavylampsforsafety.Intermsofhigh-voltageequipment,largeACandDCmotorsarestillattheorderoftheday,butwithincreasedsophistication.Load-haul-dumptrucksoperate inhazardousenvironmentswithoutadriveronboard.Sophisticatedmotor control centers nowhouse variable speed drives and soft-starters, and themotor controlequipmentisoftennetworkedviaEthernet.Itis,however,onthelow-voltagesidewherethedevelopmentsarealmostbreathtaking.IncertainpartsoftheworldallminesintheregionaremonitoredcentrallyonaSCADAsystem,withbackhauls(fiberandwireless)toallminesintheregion,formingalargeWideAreaNetwork.AttheminesitesEthernetnetworks,bothwiredandwireless,areattheorderofthedaybothaboveandbelowgroundlevel.LeakyFeederwirelesssystemsarestilltobefound,butnowadaystheysupportEthernetandtCP/IP,makingthemsuitableforvoiceanddata.IEE802.11wireless(a.k.a.Wi-Fi),suitablyadaptedfortheminingenvironment,ismakingvastinroadsintominingoperations.Wi-Fi-basedsystemsareusedforbothdataandvoice(VoIP),andwithsuitable radio frequency ID interfacestheyalsoprovide the infrastructure formonitoringpersonnelandvehiclemovement.Some802.11-basedsystemscanevenbeconfigured inmeshtopologies,deliveringmilitary-gradereliablecommunicationsbetweenmovingpersonnelandvehiclesinanopenmineenvironment.IndustrialfieldbusessuchasHArt,AS-i,Profibus,FoundationFieldbusandDeviceNetarewidelyusedintheminingindustry.As is thecasewithmostotherelectronics, theyare increasinglymoving towardsaco-existencewithEthernet,andaugmentationwithwireless.And,ofprogram,someofthemcanperformsafetyfunctionsaswellasoperateinintrinsicallysafeenvironments.SCADAanddistributedcontrolisattheorderoftheday,anddatafromthesesystemsareusedasinputstoexpertsystems.thesesystemsareusedforvariouspurposessuchasprovidingdataforoptimizedminemanagement,safety,andadvancedprocesscontrol.Itis,inmanycases,notevennecessaryforcontrolroomstafftounderstandanythingaboutPIDcontrolinordertooptimizeagivencontrolloop;theadvancedprocesscontrolsystemwillheedtheir‘operator’inputsandoptimizetheprocessontheirbehalf.Personalsafetyhasnotlaggedbehind.Forexample,groundradarcandetectsub-millimetergroundmovements,UWBandWi-Fisystemsareteameduptoavoidcollisionsbetweenpeopleandvehicles,andintegratedheadlampsforminersnotonlyhavebuilt-inradiocommunicationsfacilities,butalsoUltra-LowFrequencyground-to-surfacepagersforemergencylocation.Inshort,theminingindustryisattractingthebestofthebestcutting-edgecommercialandindustrialelectricalandelectronicstechnologies.thequestionisareyoucapableofdealingwithit?WelcometotheEItAdvancedDiplomaofElectricalandInstrumentation(E&I)EngineeringinMining.
advanced diploma of electrical and instrumentation (e&i) engineering IN mining
‘‘
EItProgramDeliveryMethodologyNot all e-learning is the same.
See why our live fully mentored methodology is so unique and successful.
Visit: http://www.eit.edu.au/eit-program-delivery-methodology
toapply,pleasecontactenquiries@eit.edu.au
“If you want to improve career prospects and be trained by excellent trainers with a thorough knowledge of the industry and train at your own pace then I would recommend this program.”
GaryBurrowes,BHPBilliton
“This has been the best study process I have gone through and for advancing the career it is a must. The program content is extremely good and practical as I have baffled my engineers with some of the questions in the assignments making them question the content they actually studied.” HenkBarnard’’
VALUEplus!Aspart of the incredible valuewehavebuiltintothisprogram,youalsoreceive:• twoplacesonanyIDC
technologiespublic2-dayworkshop*
Or• twoplacesatanyIDCtechnologies
conference(conferencecomponentonly,excludesworkshopifavailable)*
PLUS• Alibraryof30technicaleBooksAllofthisisvaluedatoverUS$5000!You may also be eligible for a taxdeductiononyourpersonal income tax– contact your tax advisor for moreinformation.
*tobeusedwithin2yearsofprogramenrolmentandsubjecttoavailability.Yourfeeforthisprogrammustbeuptodate.theofferisforworkshoporconferencefeeonlyanddoesnotincludetravel,accommodationorothercosts.EItisnotresponsibleforcancellationorpostponement of IDC technologies workshops andconferences.Pleasenote:IDCworkshopswillonlyrunshould there be enough full paying registrations tocovercosts.WhenregisteringforanIDCworkshopsorconference,pleasespecifyyouareclaimingtheValuePlus offer. Other conditions may apply at ourdiscretion.
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Accreditation & International Standing EIT (and many individual programs) has received recognition, endorsement and/or accreditation as a training provider from authorizing bodies based around the world, including those listed below. Please ask us for specific information for your location.
AuSTrAlIAEIt is registered and accredited to offer bothdegreeandvocational(diplomasandcertificates)programs. EIt is authorized by the AustralianGovernment tertiary Education Quality andStandardsAgency(tEQSA)asaHigherEducationProvider (www.teqsa.gov.au/national-registerwith registration number PrV14008). EIt is aregistered training Organization (rtO) in theVocationalEducationandtraining(VEt)sector–provider number 51971. EIt is thus registeredwithandregulatedbytheAustralianSkillsQualityAuthority (ASQA) and the tertiary EducationQuality and Standards Agency (tEQSA). ASQA isthe national regulator for Australia’s vocationaleducation and training (VEt) sector. tEQSA isAustralia's independentnational regulatorof thehigher education sector. they both regulateprograms and training providers to ensurenationallyapprovedqualitystandardsaremet. ManyoftheprogramsofferedbyEItarenationallyaccreditedandrecognizedqualificationsandarelisted on training.gov.au (tGA) (for VEtqualifications) or on the National register (forHigherEducationqualifications).tGAistheofficialNationalregisterof informationonVEttrainingPackages, Qualifications, Programs, Units ofCompetency and r egistered trainingOrganizations (rtOs). EIt VEt qualificationsaccredited to date can be viewed on EIt’sregistration page on tGA under the “Scope” tab.You can find EIt on tGA by searching for ourprovidernumber–51971.the purpose of the Higher Education Nationalregister is to be the authoritative source ofinformation on the status of registered highereducation providers in Australia. Information onEItandouraccreditedhighereducationcoursescan be viewed at http://teqsa.gov.au/national-register/provider/prv14008.Please note thatmany additional programs arealsointheprocessofaccreditation.theAdvancedDiplomaofElectricalandInstrumentation(E&I)EngineeringinMining
is a nationally accredited andrecognized qualification under the AQF. theAustralian Qualifications Framework (AQF) is thenational policy for regulated qualifications in theAustralianeducationandtrainingsystem.Members of Engineers Australia (EA)-areentitledtoclaimCPDhoursforprivatestudy,shortprograms,and learning activities at the workplace. CPDhours can be claimed for our programs inmostcases, but we would always advise individualmembers to check with EA regarding specificprograms.
NEW ZEAlANDthe New Zealand Qualifications Authority recognizes individual qualifications gainedoverseas on a case-by-case basis. AdvancedDiplomas, for example, when registered at thetimeofawardunder theAustralianQualificationFramework (AQF) are typically recognized asbroadly comparable to a National Diploma atlevel6ontheNZQF.
SouTh AfrIcAthe Engineering council of South Africa (EcSA) ) whichaimstopromoteahighlevelofeducationand training of practitioners in the engineeringprofession,hasvalidateda largenumberofEItprograms. Members can check details on theECSA website. South African students whosuccessfullycompleteanEItAdvancedDiplomaandotherqualificationshavetheoptiontoapplyforrecognitionbySAQA,whohavedeterminedinthe past that an Australian Advanced Diplomaprogram is at Level 6 in the South AfricanNational Qualifications Framework (equivalenttoHigherDiploma)inSouthAfrica’seducationalsystem. However, in most cases formalindividualrecognitionbySAQAisnotrequiredasthe international validity and accreditation ofthiscredentialisverysound.
uNITED STATESIEEE istheworld’slargestprofessionalassociationadvancing innovation and technologicalexcellence. EIt is an IEEE Continuing EducationProvider.IEEEContinuingEducationProgramsarepeer-reviewed by content experts. this peerreview guarantees both quality of the technicalcontentoflearningmaterials,aswellasadherencetoIEEE’sstrictcriteriaforeducationalexcellence.All programs that pass this strict process areentitledtoawardIEEEContinuingEducationUnits(CEUs),recognizedasthestandardofexcellenceforcontinuingeducationprogramsinIEEE’sfieldsofinterest.theInternational Society of Automation (ISA) isaleading,global, non-profit organization that sets thestandard for automation around the world. ISAdevelops standards, certifies industryprofessionals, provides education and training,publishesbooksandtechnicalarticles,andhostsconferences and exhibitions for automationprofessionals. ISA has reviewed the curricula oftheprogramsofferedbyEItastheyrelatetotheinstrumentation, control and automationdiscipline and are enthusiastic about promotingtheiravailabilitytotheautomationcommunity.
uNITED kINgDoMNationally recognised qualifications that havebeen achieved at EIt can be compared by UKNArICtotheUKframework.UKNArICistheuk’s national agency responsible for therecognitionof qualifications from overseas and providesservices for individuals and organizations tocompare internationalqualificationsagainstUK
qualification framework levels. UK NArIC ismanagedby ECCtIS Ltd (seehttp://www.ecctis.co.uk/naric/Default.aspx)whichadministerstheservice for the UK Government. Graduates ofEIt’sAdvancedDiplomaprogramsintheUKcanbeconfidentthattheirinternationalqualificationhasbeenofficially evaluatedas comparable tothe BtEC/SQA higher National Diploma (hND) standard/Foundation Degree Standard. A BtECHigherNationalDiploma isat thesame levelofthe National Qualifications Framework as NVQ/SVQLevel4.recognitionwillbeatahigherlevelforgraduateprograms.the Institute of Measurement and control in theUnitedKingdomisBritain'sforemostprofessionalbody for the Automation Industry. An EItAdvancedDiplomaisrecognizedbytheInstituteof Measurement and Control as contributing tothe‘initialprofessionaldevelopment’requiredforeventualregistrationasCharteredorIncorporatedEngineers. the Advanced Diploma is alsoapprovedbytheInstituteasprovidingCPD.
cANADAEIt is a Participating Partner with theEngineering Institute of canada (EIc) and EItprograms can be utilised by members toregisterforContinuingEducationUnits(CEUs).EIC’s Continuing Education Program issupported by the Canadian Council ofProfessional Engineers, the Association ofConsulting Engineers of Canada, and theCanadian Academy for Engineering. EIC is amember of the International Association forContinuing Education and training, withheadquartersinWashington,DC.
oThEr couNTrIESStudents who successfully complete an EItAdvancedDiplomaandotherqualificationsmaybe able to apply for recognition of theirqualification within the local (home country)education system. Many countries have aprocessfor“recognitionofforeignqualifications”which is utilised by new residents when theyhave qualifications earned overseas. Althoughyou will be studying from your home countryyouwill be awarded an Australian qualificationfromEIt,soyourEItqualificationsmaybeableto be recognized as a “foreign qualification” ifyou apply through your local system. If youwouldliketofindoutmore,pleasecontactyourlocal education authorities because it is notpracticalforEIttoknowthesystemsthatapplyinallcountries.However, inmanycasesformalindividual recognitionwithin the home countrymay not be required because the internationalvalidity and accreditation of this credential isverysound.Members of other engineering organizationsmay be able to claim credit for professionaldevelopmentandareadvisedtocheckwiththeirownorganization.
Foradditionalinformationpleaseseehttp://www.eit.edu.au/international-standing.
advanced diploma of electrical and instrumentation (e&i) engineering IN mining
4 RTO provider 51971 • ACN 135 762 426V0005
PresentationFormattheprogramfeatures real-worldapplicationsanduses a blended approach involving interactiveonline webinars, simulation software and self-studyassignmentswithamentoroncall.
theprogramconsistsof72topicsdeliveredoveraperiod of 18 months. Presentations and groupdiscussions will be conducted using a live,interactivesoftwaresystem.Foreachtopicyouwillhavean initial readingassignment (whichwill bedeliveredtoyouinelectronicformatinadvanceoftheonlinepresentations).therewillbecourseworkor problems to be submitted and in some casestherewillbepracticalexercises,usingsimulationsoftware and remote labs that you can easily dofromyourhomeoroffice.
Youwill haveongoingsupport from the lecturersviaphone,faxandemail.
advanced diploma of electrical and instrumentation (e&i) engineering IN mining
Formoreinformationortoapply pleasecontactusatenquiries@eit.edu.au
timeCommitmentfortheProgramSuccessfulstudentsarelikelytospendbetween10and15hoursperweek inorder tocover thematerial adequately and to gain sufficientknowledge ineachprogram topic. this includesthe preparatory reading, attendance at eachwebcast (1 hour plus 15-30 minutes fordiscussion), which runs once a week, and thetime necessary to complete the assignmentsandlaboratorywork.thistimewouldberequiredtoensurethematerialiscoveredadequatelyandsufficientknowledgeisgainedtoprovidesound,enduring and immediately useful skills inengineering.EItoperatesalmostallyearlong,soyourstudieswillcontinuemostweeksoftheyeartoenableyou toachieve thequalification inanaccelerated time period when compared to atraditionalsemester-basedsystem.
Fordetailedinformationonthecontentandbreakdownofmodules,seepages13to32
ProgramStructurethisprogramiscomposedof19modules,covering5mainstreams:
• PowerEngineering
• Communications
• Control
• AnalyticsandManagementSystems
• Safety
themoduleswillbecompletedinthefollowingorder:
1. ElectricalandElectronicEngineeringDrawings
2. ElectricalPowerDistribution
3. CircuitBreakersandSwitchgear
4. PowerSystemsProtection
5. FundamentalsofProfessionalEngineering
6. MotorControl
7. DataCommunications
8. Ethernet
9. tCP/IPandVOIP
10. terrestrialMicrowaveandSatelliteCommunications
11. LeakyFeederSystems
12. WirelessLANs
13. WirelessMeshNetworks
14. FieldBuses
15. SCADASystems,DataAcquisitionandOPC
16. ProcessControlSystems
17. ProgrammableLogicControllers
18. DistributedControlSystems
19. Analytical,ManagementandPersonalSafetySystems
WhoWillBenefitthisprogramwouldbeidealforyouifyouareseekingtogetknow-howandexpertiseintheminingindustryandarean:• Instrumentandprocesscontroltechnicianortechnologist• Instrumentfitter• Miningengineeringsupervisor• Salesengineer• Chemical,miningormechanicalengineer• Electricalengineersandelectricians• Maintenanceengineersandsupervisors• Designengineers• Projectmanagers• Consultingengineers• Arecentgraduateelectrical,instrumentationormechanicalengineerEvenifyouarehighlyexperiencedyouwillfindthisagreatwaytobecomefamiliarwithminingtechnologyasquicklyaspossible.
Gaincuttingedgeexpertise withthisprestigious,practical
ADVANCEDDIPLOMA
LiveWebinarsDuringtheprogramyouwillparticipate in72liveinteractive sessionswith the lecturers andotherparticipantsfromaroundtheworld.Eachwebinarwill lastapproximately60to90minutes,andwetake student availability into considerationwherever possible before scheduling webinartimes. Contact us for details of webinar sessionscheduling. All you need to participate is anadequate Internet connection, speakers and amicrophone. the software package and setupdetailswillbesenttoyoupriortotheprogram.
PriorLearningrecognitionandExemptionsEItcangiveyou fullorpartialcredit formoduleswhere you can demonstrate substantial priorexperience or educational background. Anassessmentfeemayapply.Ifyouwishtofindoutmorepleaseaskusforyourcopyofthepolicyforrecognitionofpriorlearning.
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You will participate in practicalexercises using a combination ofremote laboratories and simulationsoftware, to ensure you get therequisite hands-on experience. thiswillgiveyouasolidpracticalexposureto the key principles covered in theprogramandensureyouareable toputtheoryintopractice.
As research shows, no matter howgifted and experienced an lecturer(andwebelieveoursaresomeofthebestworldwide),noone learnsfromanlectureronlypresentingprogrammaterialstotheminalectureformat.Itisonlybytheadditionalactivitiesofhands-onexercisesusingsimulationsoftware, remote laboratories,practicallybasedassignmentsandinteractive discussion groups with both your peers and the lecturer that you are able to internalize thisknowledge,"takeownershipofit"andapplyitsuccessfullytotherealworld.Youshouldnotethatthereissomedegreeofoverlapbetweenthepracticalsessionsbetweenthedifferentunitstoreinforcetheconceptsandtolookattheissuesfromdifferentperspectives.
traditionaldistancelearningthuspresentschallengesinachievingthesegoalsbutwebelievetodaywiththemoderne-learningtechnologiesavailablecombinedwithoutstandinglecturersthatwecanachievethesegoalsandgiveyouanequivalentorindeedevenbetterexperiencethanonatraditionaluniversitycampus.
Practicalsessionsmaybeadded,deletedormodifiedbythelecturerstoensurethebestoutcomeforstudents.
PracticalExercises,remoteLabsandAssignments
advanced diploma of electrical and instrumentation (e&i) engineering IN mining
Formoreinformationortoapply, pleasecontactusatenquiries@eit.edu.au
ProgramFeesYour program fees includeweeklywebinarswithleading engineering and technical experts, 30technicaleBooks,allprogrammaterials,softwareand postage, plus grading and support from theprogram coordinators and lecturers. We providepaymentoptionsandcanacceptfeesinavarietyofcurrencies.Pleasecontactyouradvisorforfeesinanappropriatecurrencyforyourlocation.
BenefitsofLiveE-learning• Attendlessonsinalive,virtualclassroomwithyourlecturersandfellowstudents
• Upgradeyourskillsandrefreshyourknowledgewithouthavingtotakevaluabletimeawayfromwork
• receiveinformationandmaterialsinsmall,easytodigestsections• Learnfromalmostanywhere-allyouneedisanInternetconnection• Haveconstantsupportfromyourprogramlecturersandcoordinatorforthedurationoftheprogram• Interactandnetworkwithparticipantsfromaroundtheglobeandgainvaluableinsightinto
internationalpractice• Learnfrominternationalindustryexperts
• Liveinteractivewebinars,notjusta‘bookontheweb’
• receiveanEItAdvancedDiplomaofElectricalandInstrumentation(E&I)Engineering in Mining
WhyEIt?• Ourlecturersareselectedandrecruitedfrom
amongstthetopengineers/lecturersintheirfield-worldwide.thesepresentersarehighlyskilledatpresentingchallengingconceptsandideastostudentsofvaryinglevelsandabilities.
• Asshowninthedetailedprogramprospectus,theprogramsareaimedatpractisingprofessionalsgivinghard-hittingpracticalknow-howrelevanttotoday'smarketandisaimedatpeopleworkinginindustry.WedesignandselectCaseStudiesandpracticalexercisesintheprogrambaseduponreal-worldbusinessrequirementsFeedbackfromthetensofthousandsofstudentswehavetrainedovermanyyearshasallowedEItauniqueunderstandingofrealworldbusinessrequirementsandwehavetailoredtheprogramaccordingly.
• Wehaveexperienceintrainingover500,000engineersandtechniciansthroughouttheworldandhavebuiltupalibraryofoutstandingreferencematerialswhichfocusonwhatengineersandtechniciansneedintheirworktodayinindustryandmining.thevalueofthesereferencesisconsiderableandtheyareagreatassettoindustryprofessionals.thesereferencematerialsareincludedinthecostoftheprogram.
• theprogramcontentischallenginganddesignedforengineersandtechniciansalreadyworkinginindustry.Weassumeageneralunderstandingofthedemandsoftheworkplace.Astudentwithoutpracticalexperiencewouldbeunsuitedtotheprogram.
AbouttheEngineeringInstituteoftechnology(EIt)thekeyobjectiveoftheEngineeringInstituteoftechnology(EIt)istoprovideanoutstandingpracticalengineering and technology education; from Diplomas to Master degrees and beyond. the finestengineeringlecturersandinstructors,withextensiverealengineeringexperienceinindustry,aredrawnfromaroundtheworld.thelearningisgainedthroughsynchronous,online(e-learning)technologies.EItoffersawardsinagrowingarrayofengineeringfields.Withtheinternationalizationofeducation,EItensuresapprovalfromagrowinglistofreputableaccreditationagencies.Many (perhaps, most) engineering faculties at universities and colleges experience a significantchallengedelivering theprogram-workaffordablyandwithexcellence.EItachieves thisusingonlinebasededucation–economicalclasssizesareattainable,internationalexpertsareengagedtoinstructandremotelaboratoriesandsimulationsoftwareareemployed.EIt is a sister company of the well known and reputable engineering training organization, IDCtechnologies. IDChasbeenoperating forover20years, fromoffices throughout theworld,deliveringpracticalshortprogramstowellover500,000engineersandtechnicians.
6 RTO provider 51971 • ACN 135 762 426V0005
advanced diploma of electrical and instrumentation (e&i) engineering IN mining
ComprehensiveeBooksandAssociatedDocumentationYou will receive 30 of our up-to-date technical e-Books to add to your library. together these textscontainover8000pagesofvaluableknow-howdistilledfromyearsofexperienceinpresentingtheseprogramsthroughouttheworld.
1) ElectricalDrawingsandSchematics
2) PracticalPowerDistribution
3) SafeOperationandMaintenanceofCircuitBreakersandSwitchgear
4) PracticalProjectManagementforEngineersandtechnicians
5) PracticalPowerSystemProtectionforEngineersandtechnicians
6) PracticalMotionControlforEngineersandtechnicians
7) PracticaltroubleshootingandProblemSolvingofIndustrialDataCommunications
8) PracticaltroubleshootingandProblemSolvingofEthernetNetworks
9) PracticaltCP/IPandEthernetNetworkingforIndustry
10) PracticalFieldBusandDeviceNetworksforEngineersandtechnicians
11) PracticalSCADAandtelemetrySystemsforIndustry
12) PracticalProcessControl
13) PracticalProgrammableLogicControllers(PLCs)forAutomationandProcessControl
14) PracticalDataCommunications&NetworkingforEngineers&technicians
15) PracticalIndustrialWirelessforEngineersandtechnicians
16) PracticalFibreOpticsforEngineersandtechnicians
17) PracticaltroubleshootingandProblemSolvingofModbusProtocols
18) PracticalroutersandSwitches(includingtCP/IPandEthernet)forEngineersandtechnicians
19) PracticalArcFlashProtectionforElectricalSafetyProfessionals
20) OperationandMaintenanceofDieselPowerGeneratingPlants
21) troubleshooting,MaintenanceandProtectionofACElectricalMotorsandDrives
22) PracticalEnergyEfficiency,Design,EngineeringandAuditing
23) PracticalEarthing,Bonding,LightningandSurgeProtection
24) FundamentalsofPowerDistributionandPowerSystems–Hands-onPracticalAnalysisandDesign
25) ElectricalMaintenanceforEngineersandtechnicians
26) WindandSolarPower-renewableEnergytechnologies
27) PracticalPowertransformers:Operation,Maintenanceandtesting
28) PracticalAnalyticalInstrumentationinOn-LineApplications
29) BestPracticeinProcess,ElectricalandInstrumentationDrawingsandDocumentation
30) PracticalHazardousAreasforEngineersandtechnicians
Please Note: Students who choose to pay upfront will receive all 30 e-Books in advance. If you opt to pay by installments you will receive e-Books periodically throughout the program.
e-Books are available in hard copy at 50% of the recommended retail price. Contact us for pricing details.
EntrancerequirementsthisEngineeringInstituteoftechnologyadvanceddiplomaisanaccelerated,practical,work-orientedprogram. It is designed for engineers andtechnicians who have some background in thefield. this includes those who have technical or‘trade’qualificationswhowanttomovetothenextcareerstep, thosewithsubstantial relevantworkexperience who need to formalise and enhancetheir achievements, and those with higher levelqualificationsinarelatedfieldwhowishtodevelopspecialistknowledge.Practicalworkexperienceinrelated areas of engineering would helpenormously.Itwouldnotbesuitableforastudentwithno relevantworkexperience.Wewill reviewyourenrolmentapplicationandmayrecommendpre-programstudiesifrequired.
AdvancedDiplomaPreparationProgramIfyouareunsure if youhavea strongenoughgrasp of the fundamental knowledge requiredfor thisprogram,oryousimplywanttorefreshyour skills and experience e-learning in ashorter program, we recommend that youconsider EIt’s engineering studies preparationprogram. this intensive 4-month programcoversthefundamentalsofengineeringmaths,physicsandchemistry.Pleaseaskyouradvisorforthebrochure.Oncompletionofthisprogram,50%of theprogramfeescanbeusedasacredittowards your fee for an EIt Advanced Diplomaprogram.
HardwareandSoftwarerequirementsAll you need in order to join the webinars onceregisteredfortheprogramisanadequateinternetconnection,PC, speakersandamicrophone. thesoftwarepackageandsetupdetailswillbesenttoyoupriortotheprogram.
WeareFlexibleWithYourCommitmentsWeunderstandthatpersonalcircumstancescanmake itdifficult tocompletetheprograminthetimeavailable.Wewillbeflexibleaboutthetimeyou require to complete the program. You can“pause and restart” by joining a subsequentintake(arejoiningfeemayapply).Wewillallowup to 3 years from your original start date tocompletetheprogram.
Youcanwithdrawfromtheprogramatanytimeand receive a Statement of Attainment for thetopicsyouhavecompleted.However,completionof all 72 topicswill earn you the EIt Advanced DiplomaofElectricalandInstrumentation(E&I) EngineeringinMining.Visitourwebsite:www.eit.edu.au
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WHAtOUrStUDENtSHAVEtOSAY
QUOtESFrOMPAStStUDENtSonarecentEItsurvey
tothefollowingquestion:
Whatmadeyouchoose anEItprogram(s)?
“Good reputation, had attended good full-time programs previously.” Worley Parsons
“Program facilitator CV, ...reputation, e-learning flexibility.” SMK, New Zealand
“Content tends to practical and targeted.”MIPAC, Australia
“Non-vendor specific training and lower program costs with online training capabilities.” Worley Parsons
“The content of the program and the way the program was broken down were the key factors.” GEA Group
“I can do those programs at my own free time which made it more convenient for me.” Iluka, Australia
“Content was applicable to my job and industry. Taught by industry experts not academics. E-room delivery mode. Accreditation in various nations.”Sanofi Pasteur, Australia
“Because it is specialist, and so many available programs.” Kacst, Saudi Arabia
“Covered all my criteria and gave me recognised qualifications on completion.” Netafim
“I took a previous program, IDC [sister company] is professional.” Cat Group
“I have done other programs with IDC [sister company] and was happy with the service provided.” GHD
“Had completed programs previously. Good content.” Woodside
“I understood from friends that it is good quality.” Rio Tinto
“Better choice of topic.” Rockwell RA
“Believed to be good quality based on previous training programs I have done in person.” BHP Billiton, South Africa
“It was referred to me by a colleague and I have attended seminars run by IDC before. The program that I am currently enrolled in also had all the outcomes I was looking for to further my career.” Rio Tinto
“The program content was relevant to my work environment and practical.” Alcoa
“I have done a few IDC programs in the past and found them to be very good and delivered by people with practical knowledge of the subjects.” Kalgold
“It provides good online program delivery including its quality support structures.” OneSteel
“Program interest and content.” ABB, Australia
“The fact the I could do it online and it was in line with furthering my knowledge for work.” CAED, Australia
“It ticked all the boxes ... quality, suitability, depth, length.” Powerco, New Zealand
“Better choice of topic.” Rockwell RA
“Program was visible and relevant.”Schneider Electric, UK
“Convenience.” Rio Tinto
“To be perfectly honest with the small amount of research on various programs I did the programs are generally the most relevant to my area of work. That's not to say they are perfect but they seem to be superior to others readily available in this part of the world.” WEL Networks, New Zealand
“Program content seems practical and applicable. I already have a BSc where the focus is on the theory. “BHP Billiton, South Africa
“Industry recognition and recommendation by colleagues.” Rio Tinto
“Seemed the most convenient option, and it was!” CPIT, New Zealand
“Program content ease of study option.” Nestle, South Africa
“The content of the program made up my mind.” Transportadora de gas del Norte, Argentina
“Their programs are standard and program material as well as lecture are okay.” Shell, UK
“Its international recognition with body endorsing certification. Easy to attend lessons after work hours. Easy way of program payment.” Kinyara Sugar Ltd, Uganda
“The most practical and technical offerings by the most qualified lecturers for distance learning.” Encana Natural Gas
“On line references, price, and various time frames available to sit in on the class. Also, one more important item was being able to converse with the lecturer and class instead of working totally on my own.” Mitchell Technical Institute
“Program content. Accreditation of the training institution. Cost.” MODEC
“Offer the correct program, timing and affordable cost.” Folec, Brunei
“Possibly the most recognised online institution within my industry.” DRA, South Africa
advanced diploma of electrical and instrumentation (e&i) engineering IN mining
8 RTO provider 51971 • ACN 135 762 426V0005
advanced diploma of electrical and instrumentation (e&i) engineering IN mining
FrequentlyAskedQuestionsWhataretheadvantagesofstudyingonline?Weknowthatmanypotentialstudentshavepartorfull-timeemploymentaswellasfamilycommitments,sofindingthetimetostudyaclassroom-based program is not always possible. Many students also havegeographical, travel and time limitations and do not have an accessibleinstitutionortrainingprovider. Wehavetakenthis intoconsiderationanddevelopedanaffordable,flexible,onlineapproachtotraining.thismeansthatyoucanstudyfromanywhere,withminimumdowntimefromwork–butstillhavethenecessaryinteractivelearningexperience.thesoftwareweusedoesnot require very fast internet connectionor a sophisticatedcomputer.Abasicconnectionandhardwarearesufficient.
Whatarethefees?EItprovidesdistanceeducationtostudentslocatedalmostanywhereintheworld–itisoneoftheveryfewtrulyglobaltraininginstitutes.Programfeesarepaidinacurrencythatisdeterminedbythestudent’slocation.Afulllistoffeesinacurrencyappropriateforeverycountrywouldbetoocomplexlisthereand,withtoday’sexchangeratefluctuations,difficulttomaintain.tofindoutthefeesforyourlocation,contactusatenquiries@eit.edu.au.
WhatdoIneed?AnadequateInternetconnection,speakersandamicrophone.Aheadsetisrecommended.thenecessarysoftwareandprogrammaterialsareprovidedbyus.
Doesn’titgetboring?Howcanane-learningprogrambeinteractive?Boredom can be a real risk in any form of learning; however, we use aninteractive approach to our e-learning – with live sessions (instead ofrecordings)formostpresentations.thewebinarsoftwareallowseveryoneto interact and involves participants in group work; including hands-onexerciseswithsimulationsoftwareandremotelaboratorieswherepossible.Youcancommunicatewithtextmessages,orliveVoIPspeech,orcanevendraw on thewhiteboard during the sessions. this all helps to keep youmotivatedandinterested.
Whatdolivewebinarsinvolve?these are live, interactive sessions over the Internet. You will join thelecturerandotherparticipants fromaround theworld inanonline ‘virtualclassroom’whereyouareabletowatchapresentation,andcommunicatewiththelecturerandotherstudentsviaaudio,textmessagingordrawingonthewhiteboard. Eachwebinar is between60and90minutes indurationandthesessionsmaybescheduledat2or3differenttimes,dependingonclass size, during the presentation day. this allows you to select thesessionwhichismostconvenient.
WhatifIcannotjoinorImissalivewebinar?Webinars are recorded and available to students upon request. Onerequirementoftheprogramisthatyoujoinatleast70%ofthelivesessions.the live webinars offer the opportunity to interact with the lecturer andotherparticipantsfromaroundtheglobe-anessentialyetenjoyablepartofthelearningprocess.Circumstancessuchason-siteworkcanmakeattendancedifficultattimes.these situations need to be clearly communicated with your programcoordinator.Feedbackfromtherecordingsmayberequiredandassignmentsubmissionmaintained.
Whenwillthesessionstakeplace?WhenwillIreceiveawebinarschedule?thewebinarscheduleisnotputtogetheruntilafterregistrationsclose.thereasonforthisisthattheprogramispromotedgloballyandweoftenhaveparticipants fromseveral timezones. Whenyouenrolyouwill receiveaquestionnaire which will help us determine your availability. When allquestionnairesarereturnedwecreateaschedulewhichwillendeavourtomeeteveryone’srequirements.Eachwebinarmay run2or3 timesdependingonclasssizeduringeachpresentationdayandwe tryourbest toensure thatat leastonesessionfallsintoyourrequestedtimeframes.thisisnotalwayspossible,however,due to the range of locations of both lecturers and students. If you areunable to attend the webinars scheduled, we do have some optionsavailable.ContactEItformoredetails.
CanIcompletetheprograminlesstime?Our programs actually require ‘attendance’ and participation at the livewebinars. the interaction which takes place is an important part of thelearning process. Our experience has shown that the interactive classesworkexceptionallywellandstudentsarefarmorelikelytostaymotivated,enjoytheprogram,andcompletetheprogramsuccessfully.Seealso‘Whatif I cannot join or I miss a live webinar?’ In addition, accelerating theprogramwouldbequiteonerousformoststudents.
HowmuchtimedoIneed?Howlongistheprogram?theprogramreadingandassignmentsmayconsumeanywherefrom10to15hoursperweek.thiswillvarydependingontheprogramsubjectmatterandyourexistingknowledge.EItdoesnotuseatraditionalsemester-basedsystem,whichmeansthatyou can complete the qualification faster without long breaks. Eachadvanced diploma program is normally delivered over an intensive 18months. We do break for about 4 weeks per year for traditional festiveseasons.
Contactus! Foranyotherenquiries,pleasecontactusatenquiries@eit.edu.au
Contactus!Foranyotherenquiries,pleasecontactusatenquiries@eit.edu.au
9 RTO provider 51971 • ACN 135 762 426V0005
advanced diploma of electrical and instrumentation (e&i) engineering IN mining
Yourteamofprofessionalpresentersandfacilitatorsaredrawnfromexpertsintheirfield.theywillworkcloselywithyouforthedurationoftheprogram.Please note: Lecturers are subject to change. Students will be notified in the event new lecturers join the faculty.
InternationalExpertSpeakerFaculty
GUEStPrESENtErrICHArDE.MOrLEYrichard E.Morley, best known as the father of the Programmable Logic Controller (PLC), is a leading visionary in the field ofadvancedtechnologicaldevelopments.Mr.Morley(Dick)isamemberontheBoardofDirectorsofvariouscompaniesacrosstheUnitedStatesandhasworkedinhightechindustriessincethebeginningofsolid-stateelectronics.
HeiscurrentlyChairmanoftheBoardofNCMS(NationalCenterforManufacturingSciences)andhasaproventrackrecordinthefounding of successful high-tech companies for where he provides initial product concept and a continuing technologicalpresence.
Heisanationallyrecognizedexpertinthefieldofcomputerdesign,artificialintelligence,automationandisanauthorityonthefactoryofthefuture.Mr.Morleyisanengineer,consultantandinventor.HisinventionsincludethePLC(ProgrammableLogicController),whichnowstandsintheSmithsonianInstitute.HeholdsmorethantwentyUnitedStatesandforeignpatents.Mr.Morleyiswellknownasalecturer,haswrittenextensivelyforsuchpublicationsasManufacturingSystemsmagazineandManufacturingAutomationmagazine.Hehaspublishedmanyworksofhisown.Hislatestbook,'OutoftheBarn',waspublished inOctober2002andanotherbook, 'the technologyMachine',waspublished inSeptember1999.MrMorley founded theangelinvestmentgroup;theBreakfastClub.Heiscurrentlyanactivememberwiththisgroupofinvestorshavingparticipatedinmorethan100startupcompaniesintheNewHampshirearea.
HewastheformerDirectorofAdvancedtechnologiesforGould,Inc.HeisaGouldFellowofScienceandEngineering,aFellowofSME,BiosLPandICS.Inaddition,hewasawardedthe1990EntrepreneuroftheYearbyInc.magazine,MerrillLynchandErnstandYoung.
He is a1991 recipientof theFranklin Institute'sHowardN.PottsMedal, andholds thePrometheusMedalplacinghim into theAutomationHall of Fame.InternationalIENrankedhim3rdinthe"top100MostSignificantIndustrialProductsofthe20thCentury"forhisworkwiththePLC.
InOctober1999,ISA(Instrumentation,SystemsandAutomationSociety)honoredhimwiththe"LifeAchievementAward"andFortunemagazineawardedhimtheir"HeroesofManufacturingAward"inMarch2000.
recognizedasoneofthegiantsinthefieldbytheEngineeringSocietyofDetroit,hehasextensiveexperienceinhigh-techconsultingandisinvolvedinnewproductdevelopmentatthehighestmanagementlevels.CurrentlyheworksoutofhisbarninNewHampshirewhereheandhiswifehavebeenhometomorethantwodozenfosterchildren.
LECtUrErJohnLawrence BSc(Hons),MSc,BCom(Hons)Intoday'shypedupworld,oneishesitanttodescribeanyoneas'outstanding',butJohnLawrencehasdistinguishedhimselfoverthelast15yearswithexcellentprogramreviews.
Johnhas20yearsofexperienceasaprojectanddepartmentalmanagerforamultinationaloilcompany,focusingondesigningandmanagingtheinfrastructureofthetelecommunications,datacommunicationsandItsystems.Inthepast5years,Johnhasworkedextensively for a number ofmulti-national clients,managing projects including facilitiesmanagement, budgeting and financialforecasting.
WhenJohnisnotconsultingorlecturing,heenjoysincreasinghisownskillsbyreadingandwritingaboutstate-of-the-arttechnologytopics and how to optimise return On Investment (rOI) for the overall It infrastructure. John is a dedicated professional who has trained engineers andtechniciansthroughouttheworld.
PrOGrAMMEDESIGNErANDPrOGrAMLEADErDeonreynders BScEng(Hons)(Elec),MBADeonhashadover25yearsexperienceinautomation,datacommunications(withafocusonindustrialapplications)andEthernettCP/IPnetworks.HehasspecificexperienceinSystemsEngineering,ProjectManagementandsoftwareandhardwaredevelopment.CurrentlyheisretainedasaconsultanttoindustryinthetCP/IP,industrialEthernetnetworking,OPCandtheindustrialdatacommunicationsareas.
Deonisapractical,hands-onpersonandahighlyentertainingspeaker.HehasreceivedexcellentreviewsfromhisthousandsofprogramparticipantsinregionsrangingfromEurope,NorthAmerica,AfricaandAustralia.Hetakesgreatprideindemystifyingdifficultconceptsandpresentstheminasimple-to-understandmanner.Heisapassionate,enthusiasticandknowledgeableprofessionalengineer.Youwillwalkawayfromthisworkshopwithawealthofknow-howwhichyoucanimmediatelyapplytoyourwork.
10 RTO provider 51971 • ACN 135 762 426V0005
advanced diploma of electrical and instrumentation (e&i) engineering IN mining
InternationalExpertSpeakerFaculty
LECtUrErGeoffBottrill HNC,DMS,MIEEGeoffhasbeenworkingintheinstrumentation,measurementandcontrolfieldsforovertwenty-fiveyearsandhasspentthepastfifteenyearsspecialisinginHazardousAreas,IntrinsicSafetyandInstrumentationDrawings.GeoffbeganhiscareeratKentInstruments,asaserviceengineerworkinginboththeUKandEastAfrica.Hisexperiencerangesfromsystemsdesignfunctions,on-sitetroubleshootingtotechnicalandcommercialcustomersupport.
recentlyGeoffhastakenontheresponsibilityofmentoringengineersintraining,inadditiontothepresentationofengineeringworkshopsintheprocesscontrolandmeasurementfield.Hispositiveinteractivestyletoteachinghasmadehimpopularwithprogramattendeesworldwide.
LECtUrErEdwinWright BSc,BE(Hons)(Elec)MIPENZSeniorStaffEngineerEdwinhasover35yearsofpracticalexperienceintheplanning,design,constructionandoperationoftelecommunicationssystems,datanetworks,SCADAandEthernetsystems.HehasalsobeeninvolvedasProjectManageronmanyprojectsandhasapassionfortechnologytopics.
Edwinhaspublishednumerouspapers,andconsultedwidelyonEthernet,datacommunicationsandtelecommunicationsissuesintheUSA,Canada,UK,AustraliaandNewZealand.Overthepastelevenyearsmorethan15,000engineersandtechnicianshaveattendedhisworkshopsworldwide.Delegatesattendinghisworkshopwillbenefitfromhistremendousknowledgeandenthusiasmforthetopicsandhisentertaininginstructingstyle.Whennotworkinginthecommunicationsworldherelaxesbyreadingandwritingontechnologyissuesathisbeachsidehome.
LECtUrErG.Vijayaraghavan BE(Hons)Electrical
G.Vijayaraghavanisanelectricalengineerwithover35yearsexperienceintheSteelIndustryandEngineeringConsultancy.
HeistheauthorofseveralofIDC'stechnicalbooksincludingPracticalEarthing,Bonding,ShieldingandSurgeProtectionwhichhasbeenpublished andsold internationallybyElsevier(UK).He regularlydesigns trainingworkshops for IDCand lectureson theirbehalftoengineersandtechniciansworld-wide.Heisaveryknowledgeablelecturerandhisprogramsareextremelyinterestingwithmanyideas,anecdotesandtipsdrawnfromhisrichexperience.
LECtUrEr
BrianHobbyBE(ElectricalandElectronic)AucklandUniversityBrianhas20+yearsofengineeringexperience.HethinksinsystemsandtheconnectionsbetweenthemasaresultofhistimeasaNavalWeaponsElectricalEngineeringOfficer.
Asadesign,commissioningandprojectengineerwithriotintoAlcanheoversawthefirstapplicationofdevicenetinanaluminiumsmeltingenvironmentandassistedwithpilotingfullyautomatedanodechanging.
MorerecentlyhehasbeeninvolvedwithcollectingdatafromprocessusingtheOSISofthistorianandusingtheirtoolsetforanalysis.HisexperiencewithnetworkinggoesbacktobecomingtheaccidentalsysadminforaNovellNetwaresystemintheearly1990’sandhasbeenapartofhisroleseversince.
Currently he works for Griffith University as a technical Lead/Project Manager where he is assisting in collecting and analysing data in support of theirsustainabilityinitiatives.
LECtUrErDeepakPais BE(Electrical&Electronics)DeepakstartedhiscareerwithintheZincminingandsmeltingindustryasProjectEngineerinSubstationandDistributionGreenfieldproject.HethenworkedinaMarineandLogisticsfirmintheBahamasasMaintenanceandCommissioningEngineer.FollowingthisheworkedwithJapaneseandGermanautomobilefirmsasMaintenanceEngineerforDistributionandUtilityrelatedsystems.HecurrentlyworksasanEngineerinaregionalNSWelectricityDistributionutility.
Deepak has hands on experience in Distribution, Utility and Substation related systems. He has a particular interest in theconsistent interpretation and implementation of Greenfield and Brownfield Standards with an emphasis on safety, reliability,economyandwholeoflifecostanalysis.
11 RTO provider 51971 • ACN 135 762 426V0005
advanced diploma of electrical and instrumentation (e&i) engineering IN mining
InternationalExpertSpeakerFaculty
LECtUrEr IvanFair PhD,PEngIvanFairhasextensiveindustrialandacademicexperienceintelecommunicationsanddatanetworking.Hehasbeenaresearch&designengineerforbothBellNorthernresearch(nowpartofNortelNetworks)andMPrteltechLtd.furtheringtheirdevelopmentofadvanced fiber optic systems. It was during this industrial experience that he became interested the area of coding for datacommunicationnetworks,andreturnedtotheacademicenvironmenttofocusonthistopic.Afterreceivinghisdoctorate,hejoinedDalhousieUniversityinHalifaxbeforemovingtotheUniversityofAlbertawhereheisnowaProfessorintheDepartmentofElectricalandComputerEngineering.Inadditiontoteachingcommunicationsanddatanetworkingprograms,hesupervisesresearchprojectsandgraduatestudentsintheseareaswhichhasresultedinover90publications.
Ivanhasheldvariousadministrativepositionsatuniversity,andcontinuestobeactiveinvolunteerprofessionalactivities. HerecentlyassistedEngineersCanadawiththeirdevelopmentofanElectricalEngineeringsyllabus,andiscurrentlyamemberoftheBoardofExaminersfortheAssociationofEngineers,Geologists,andGeophysicistsofAlberta.
LECtUrErterryCousinsBSc(ElecEng)terryCousinswaseducatedatLaSalleCollegeinDiscovery,andobtainedaBScElectricalEngineeringdegreefromWitsin1977.Hehasover30yearsofexperienceinelectricalpoweranddistributionsystemsinvariousSouthAfricanindustriesincludingtheminingandsteelsectors,withnationalcompaniessuchasISCOrandChamberofMinesresearch.
HeiscurrentlyadirectoroftLCEngineeringSolutionswhodevelopsawiderangeofinstrumentationandmeasurementsystemsforindustry.Healsopresentsnumerousprogramsonelectricalpowerdistributionandpowerquality,bothinSouthAfricaandabroad.
terry isaSeniorMemberof theSAIEE,andaMemberof the IEEE (USA)andhasalsohasservedon the SouthAfricanNationalStandards committee for power quality instruments (SANS 1816). terry is an accredited professional with the Green BuildingCouncilofAustralia,andhasBCommandMBLdegreesfromUNISA.
With his extensive experience electrical engineering, you will walk away from this program with valuable know-how that you can apply immediately to yourwork.
LECtUrErIanVerhappen BSc,PEng,ISAFellow,ISACertifiedAutomationProfessionalIanhasbeeninvolvedindigitalcommunicationssince1994installingthefirstmulti-vendorFoundationFieldbusprojectin1996.Sincethen,IanhasservedasbothaleadingProjectEngineer/Designerandanexternal/coldeyesreviewconsultantforanumberofcompaniesandinpulpandpaper,mining,foodprocessing,waterandwastewater,oilsandsprocessing,petrochemicalandrefiningindustries.Ianisco-author,withAugustoPereira,ofISA'spopular"FoundationFieldbusPocketGuide".AlsounderIan'sguidanceaseditor,istheFoundationFieldbusEndUserAdvisoryCouncil's"EngineeringDesignGuide,FoundationFieldbusdocumentAG-181".thisisthedefinitiveguideforthecompletelifecycleforFieldbusprojects.the"Guide"hasbeentranslatedintoGerman,Japanese,Chineseandrussian,demonstratinghowwidelyitisusedasthebasisformanycorporateandprojectspecifications.
IanisalsoanactivevolunteerwithISA,servingasVice-PresidentoftheStandardsandPractices2005/6andwasthepersonresponsiblefortheformationoftheISA-100IndustrialWirelesscommitteeonwhichhecontinuestoparticipate.IanisalsoheadinguptheFieldbusFoundation'sHighSpeedEthernetremoteI/Odevelopmentteam.Ianisknownasadigitalcommunicationsevangelistandhispassionforthetopichastakenhimaroundtheworldtosharehisexperiences.
Ianhasaccumulatedover20yearsexperienceinoilsandsminingwhereheusedstandardminingoperationsofslurrytransport,flotation/separationcellsandmultiphaseflow.Heisalsoexperiencedintruckandshoveloperationswithassociatedcrushingandsolidstransportincludingrealtimemaintenance/operatingdataforthismobileequipmentviawirelesscommunications
Ianhastheabilitytoexplaintechnologyinsimpletermsthatcanbeunderstoodbyotherswithoutthesameleveloftheoryorexperience,ararequality!
LECtUrErJustinShute Justinhasover20yearselectricalengineeringexperienceandholdsanadvanceddiplomainelectricalengineeringandisafullyqualifiedelectrician. Justinhas spent timeworking for Power&Water in AliceSprings,MinararesourcesandCockburnCement andupuntilrecentlyhasbeenworking incatastrophicHVdesign forNilsenas theirHighEnergyEngineeringManager.Justinspecialises inhighvoltagedesignandsolutionsandalsolecturesfortheEngineeringInstituteoftechnology.
12 RTO provider 51971 • ACN 135 762 426V0005
InternationalExpertSpeakerFaculty
advanced diploma of electrical and instrumentation (e&i) engineering IN mining
LECtUrEr
Dr.StanislawPaulMaj In1990,PaulwasappointedAdjunctProfessoratthetechnicalUniversityofDenmark’sInstituteofAutomaticControlSystems.thetechnical University of Denmark is one of the leading universities in Europe. He was responsible for teaching the industrialapplicationsofmicroprocessorsandnetworkingtechnologiesandafterwinningacompetitivegrantcommissionedapilotplantwiththeassociatedcontrolsystems.
As Associate Professor in the Australian University sector he was responsible for teaching computer and network systemsengineering.Inthiscapacityhetwicewonauniversityteachingawardforexcellence–oneofonlythreestafftohaveachievedthisdistinction.InadditiontothishereceivedaNationalCarrickCitationAwardforthedevelopmentofworldclasscurriculum.
AsDeputyChairmanontheeducationalsub-committeeoftheInstituteofInstrumentation&ControlinWesternAustralia(IICA-WA)hewasinstrumentalinthedevelopmentoffirstdegreeinInstrumentationandControlinAustralia.
Hisworkreceivedinternationalrecognition.Paulwasinvitedtocollaboratewithsomeoftheworld’sleadingorganisationsresponsiblefordefininginternationalstandardsandeducationalbestpractices.
HewasthefirstAustralianinvitedtobeareviewerfortheAmericanNationalScienceFoundation(NSF)programandcurriculumimprovementprogramheldinWashington, DC. Paul was the first Australian to be a judge for three IEEE International Education Awards for Academics. the IEEE is the world’s largestprofessionalbodyfortheadvancementoftechnology.
LECtUrEr
rolandGreen MechanicalEngineer/Estimatorrolandbringsmorethan20yearsofexperienceinengineeringandestimatingfields,gainedmostlyinSouthAfrica.Hehasworkedonmanyprojectsspanning theminerals industry, includingpowerstations,coalstockyardsandmanganese.Over thepast twoyearsrolandhasbeenextensivelyinvolvedwithmajorprojectsacrossWesternAustraliarangingfrom$460MilliontoprojectsofmorethanafewBilliondollars.
Keyprojects include:KusilePowerStationCoalStockyard,KalagadiManganese,MedupiPowerStation,MinprocrIOtINtOrampConveyor
LECtUrErJohnPiperidesJohnisaprofessionalelectricalengineerwithover25yearsexperienceinindustrialmaintenance,production,management,salesandimprovement.Hehasheldmanagementpositions in severalmanufacturingandsales companies.Hisdiverse responsibilitieshaveincludedcontractnegotiation,authoringandresponsibilityofdepartmentalbudgets,dailymanagementofover20reports,practiceofcGMP,auditinginapharmaceuticalplant,andsystemadministrationandprogrammingofdiverseItandembeddedsystems.Hehasbeendirectly involved with industries including building management, pest control, mining, power utilities, food, pharmaceutical, steel,buildingproducts,sugar,paperandpulp,railandairports.
Johnhas completedmanyyears of further education including developing,writing and deliveringmanywork based programs andseminars.Hehasspent10yearsasaparttimeteacherattAFEinelectricalengineering,and15yearsdeliveringstructuredprogramsinthermography,powerquality,instrumentsafety,motordrivetheory,PLC,SCADA,andpestinspection.
LECtUrErBehrouzGhorbanian BSc,MSc,MIEAustBehrouz completed his degrees in telecommunications and Electrical Engineering in 1985 and 1993 respectively, and thenconcludedhisstudiesinElectricalUtilityEngineeringatCurtinUniversity(Perth)in2004.Behrouzstartedhiscareerintheoilandgasindustrywherehisrolegothiminvolvedinthemaintenanceandrepairofelectronicandnavigationalmarineequipment(VHFandSSBradios,SatNav,enginecontrolpanelsetc).Hethenmovedtothepowerindustryandwasinvolvedinthedesign,installation,andcommissioningofsubstationsmainly forconsultanciesandutilities.Hehasalsoestablishedagood reputation in teachingpower system protection over his long term services lecturing at Curtin University, and also over the period he worked as aProtectionEngineerinNewZealand.
Overthepastyears,BehrouzhasbeeninvolvedinmanymajorprojectsacrossAustralia(PortHedland,BarrowIsland,tamarValley,Karratha,andNewmanforexample).Hismostrecentexperienceisrelatedtocostestimationandriskassessmentofmajorsubstationprojectswithaspecialfocusonthesecondarysystems(Protection,COMMS,SCADA).HehasalsoworkedasanEngineeringManagerandSeniorProjectEngineeronmajorcoppermineprojectsoverseas.Behrouzhasalsogainedgoodknowledgeinsubstationdesign,HVcablessizingandinstallation,transmissionsystemdesign,earthingsystemdesignandapplications,andpowersystemprotectiondesignandapplications.
13 RTO provider 51971 • ACN 135 762 426V0005
Duration:3WEEKS
tHEPrOGrAM
Module1: ELECtrICALANDELECtrONICENGINEErINGDrAWINGS
Youwilllearnhowto:• readdrawingsforelectricalandelectronic
schematicdiagrams
• Usesymbolstorepresentelectricalandelectronicdevicesschematically
• Planandexecuteschematicdrawingsusinguniversallyunderstoodconventions
• MakethebestuseofCADpackagesandtheirextensions
• Manageadrawingofficeandorganizesuitableworkflowprocedures
• Carryoutversioncontrol,storageandretrievalofCADdrawings
OverviewDrawings are used to communicate and shareinformationbetweendifferentteamsofengineers;the design engineer who conceptualizesequipment or systems, the production engineerwhoplansthestepsinmanufacturingtherequiredcomponents and subsystems, the assemblyengineerwhoputsthecomponentstogether,thetestingengineerwhoteststhecompletesystem,theinstallationengineerwhoinstallsthesystemorequipmentandthemaintenanceengineerwhois responsible for its upkeep. to all theseindividuals, with diverse backgrounds andexpertise, adrawingshould conveypreciseandidentical information. this calls for standardizedmethodologies, conventions and approaches inpreparingdrawings.thismodulecoversalltheseaspectswith respect to engineeringdrawings ingeneral and electrical drawings in particular.Various types of electrical drawings and theirapplication, the steps in planning a drawing,selection of drawing size and scale, use ofstandardizedsymbolsetc.aredescribedindetailwith commonly used examples from industrypractice.
topic1.1–IntroductiontoDrawingsandSymbols
FUNDAMENtALSOFELECtrICALANDELECtrONICENGINEErINGDrAWINGS
• Drawingstandards
• 2and3-dimensionalrepresentation
• Componentsofanengineeringdrawing
• Drawingsizes
• Scalesandsheetsizes
SYMBOLS
• Electrotechnologysymbols
topic1.2–EngineeringDrawings
• Single-lineand3-linediagrams
• Controlschematics
• Logicgatesandlogicdiagrams
• Cablingandwiringdrawings
• Layoutdrawingsfordifferentapplications
• P&Idiagramsandtheirimportanceinprocesscontrol
topic1.3–ComputerAidedDrafting(CAD)andDrawingManagement
COMPUtErAIDEDDrAFtING(CAD)
• 2Dand3DCADapplications
• GISrelatedapplications:linkingimagerywithdrawings
DrAWINGMANAGEMENt
• revisioncontrolanddrawingownership
• Drawingprocessflow
• redlininginCADdrawings
CADDrAWINGFEAtUrES
• Symbols,attributesandsymbollibraries
• AutomatedBoMgenerationfromaCADdrawing
• Conceptoflayersandtheiruseinsharinginformation
• Automationofdrawingthroughprogramming
14 RTO provider 51971 • ACN 135 762 426V0005
Duration:6WEEKS
Module2: ELECtrICALPOWErDIStrIBUtION
Youwilllearnhowto:• Determineshort-circuitratings
• Assesstheinfluenceoffaultlevelsonswitchgearratings
• Selectthecorrecttypeofswitchgearforaspecificapplication
• recognizethedifferentapplicationsforvariouscableinsulationtypes
• Knowwhenandhowtousesingle-corecablesvs.three-corecables
• Specifycorrectpowercableinstallationmethods
• Correctlyutilizeandprotectpowertransformers
• Assessandspecifycorrectearthing/groundingthroughoutanelectricalnetwork
• DeterminetheneedforPowerFactorCorrection
OverviewElectricity distribution refers to the final stage inthedeliveryofelectricitytoendusers.Adistributionnetwork carries electricity from the maintransmissionsystem,anddeliversittoconsumers.In general such a network includes medium-voltage (under 50 kV) power lines, electricalsubstations, pole-mounted transformers, low-voltage (under 1 kV) distribution wiring and, insome cases, electricitymeters. thismodule willfocusonthedistributionsystemsformines,bothaboveandbelowground.
tHEPrOGrAMtopic2.1–FundamentalsofACElectricalPower
• ACwaveform,singlephaseand3phasesystems
• Staranddeltaconnections• Calculationofpowerin3phaseandsingle
phasesystems• Powerfactorandpowertriangle• Powerquality,transientsandharmonics
topic2.2–PowerDistributionintheMiningIndustry
• Elementsofapowerdistributionnetwork• Fundamentalsofpowerdistribution• Basicdesignconsiderations• Voltageconsiderationsandimprovement
ofvoltageconditions• Equipmentgenerallyusedinmodern
powernetworks• Importanceofshort-circuitcurrent
calculations• Softwareforpowersystemdesign
topic2.3–PowertransformersandPowerFactorCompensationinMiningDistributionSystems
POWErtrANSFOrMErS
• Classificationandspecifications• Connectionsandvoltagetaps• transformerimpedance• Insulationandcoolingmethods• Accessoriesandprotection
COMPENSAtIONANDPOWErFACtOrCOrrECtION
• Causesandeffectsoflowpowerfactor• Methodstoimprovepowerfactor,and
benefitsthereof
• transientsandcapacitorswitching• resonanceandharmonics• Protectionofcapacitorbanks
topic2.4–3.CablesandAccessoriesfortheMiningIndustry
• Insulationtypesandtheirapplications• Cablelossesandvoltagedrop• Cableratingsandshort-circuits• Single-corevs.three-corecables• Miningcables• Installation,splicingandtermination• Connectorsformobileminingequipment• Earthcontinuity,pilotcoreandtheir
importance
topic2.5–PowerSystemEarthing/Grounding
POWErSYStEMEArtING/GrOUNDING
• Systemandequipmentearthing/grounding
• Electricalsafetyearthing/grounding
• Staticearthing/grounding
• Lightningprotection
• Groundresistancemeasurementandsoilresistivityissues
topic2.6–PowergenerationusingDieselEngines
ON-SItEPOWErGENErAtIONFOrMININGOPErAtIONS
• Variousalternativesforpowersupplytominesites
• Needforon-sitegeneration
• DieselEnginegenerators
• Engineprincipleandcomponents
• DGpackageandsupportsystems
15 RTO provider 51971 • ACN 135 762 426V0005
Duration:5WEEKS
Module3: CIrCUItBrEAKErSANDSWItCHGEAr
Youwilllearnhowto:• Selectionappropriatetypesandratingsof
switchgear
• Drawuppurchasespecifications
• Understandswitchgearcomponents(Cts,Vts,relays,cableterminations)
• Adoptsafeoperationalpoliciesincludingsafetyrulesandsafetydocuments
• Usediagnostictoolsandtestequipment
OverviewSwitchgear plays an important role in electricitydistribution and its performance significantlyaffects the overall performance of the system.Failure to efficiently disconnect faults elsewherein the network or failure in switchgear itself iscostly, resulting in additional loss of supply,damagetoequipment.andpossiblyfatalinjurytopersonnel. It is therefore critically important thatswitchgear isoperatedandmaintainedcorrectly,withinanoverallassetmanagementregimethatisboth economic and effective in securing a highlevelofsystemreliability.thismodulefocusesonmediumvoltageswitchgear,whichcomprisesbyfar the bulk of switchgear on most electricitydistributionsystems.theemphasisisprimarilyonoil,airblast,SF6andvacuumcircuitbreakers,butother forms of MV switchgear, for example ringmain units and auto-reclosers, will also bediscussed.
tHEPrOGrAMtopic3.1–MVandLVSwitchgearBasics
• Switchgeardefinition• MVswitchgear-typesandconstruction• Air-insulatedandgasinsulatedswitchgear• InternalArcproofing• LVswitchgearanditsvariants• Motorcontrolcentresandstarters• Maindistributionandsub-distribution
equipment
SWItCHGEArrAtINGANDSPECIFICAtION• Switchgearratings• Switchgearancillaries(measurementCts,
Vts,relays)• Cableterminations• Substationandswitchroomlayoutsand
design• testingmethods
topic3.2–CircuitbreakersforMVandLVapplications
• Principlesofcurrentinterruptioninacircuitbreaker
• MVCircuitbreakertypes• Fuses• Auto-reclosers• Disconnectorsandapplications• LVcircuitbreakers(ACB,MCCBandMCB)• CurrentlimitingLVcircuitbreakersand
cascading• Switchgearstandards
topic3.3–SafetyandOperation
• Generalsafetyprecautions,safetyrulesandpersonnelauthorization
• Isolationinacircuitbreakercontext
• Safetydocumentation
• Safeworkinginasubstationenvironment
• Safetyinterlocks
• Arcflashsafetyandmitigation
topic3.4–AssetManagement,DiagnosticsandMaintenance
• timeandconditionbasedassetmanagement
• Assetmanagementsystems
• Switchgeardiagnostics
• Principlesofcircuitbreakermaintenance
• Maintainingoilcircuit,vacuumandSF6breakers
trOUBLESHOOtINGOFELECtrICALCIrCUItS
• Possibleproblemsinpowercircuits
- Insulationfailures,opencircuits,neutralfailures
• Controlcircuittroubleshooting
- Continuitychecksincontrolwiring,voltagechecksatterminalsinenergisedcontrolcircuits,verificationofcontrolcircuitbehaviour
• Problemsduetounbalancedsupplyvoltage
• Problemsduetoharmonics
topic3.5–Electricalequipmentinhazardousareas
• Hazardousgasmixturesanddust
• Firetriangle
• Hazardousareaclassification
• Electricalequipmentasignitionsources
• Enclosuretypesforignitionprevention (Excategories)
• Hotsurfacesandexplosion
• Surfacetemperatureclassificationsforexplosionprevention
16 RTO provider 51971 • ACN 135 762 426V0005
Duration:4WEEKS
tHEPrOGrAM
Module4: POWErSYStEMSPrOtECtION
Youwilllearnhowto:• Explaintheoperationoffuses,currentand
voltagetransformers,circuitbreakers,trippingbatteriesandrelays
• Usetheabovementioneddevicesfortheprotectionoffeederlines,transformers,busbars,switchgear,motors,generatorsandoverheadlines
• Identifytheadditionalchallengesposedbyundergroundminingoperations
OverviewPowersystemprotection isabranchofelectricalpowerengineeringthatdealswiththeprotectionofelectricalpowersystemsfromfaults,throughtheisolation of faulted parts, from the rest of theelectrical network. the objective of a protectionscheme is to keep the power system stable byisolatingonlythecomponentsthatareunderfault,whilstleavingasmuchofthenetworkaspossiblestill inoperation. thus,protectionschemesmustapplyaverypragmaticandpessimisticapproachto clearing system faults. For this reason, thetechnologyandphilosophiesutilizedinprotectionschemes can often be old and well-establishedbecausetheymustbeveryreliable.thismodulewillprimarilydealwithmoreestablishedmethodsof protectingmotors, generators, switchgear andtransformers.
topic4.1–ProtectionSystemFundamentals
• theneedforprotection
• Faulttypesandtheireffects
• Simplecalculationofshortcircuitcurrents
• Systemearthing/grounding
• Protectionsystemcomponents
topic4.2–ProtectionSystemComponents
• Instrumenttransformers
• Circuitbreakers
• trippingbatteries
• relays
• Applicationsco-ordinatedbytimegrading
topic4.3–Feeder,transformerandBusbarProtection
• Undergroundminedistributionprotection
• Principlesofunitprotection
• Feederprotection
• transformerprotection
• Switchgear(busbar)protection
topic4.4–Motor,GeneratorandOverheadLineProtection
• Motorprotection
• Generatorprotection
• Overheadlineprotection
• Managementofprotection
17 RTO provider 51971 • ACN 135 762 426V0005
Duration:4WEEKS (ANDINtEGrAtEDtHrOUGHOUtPrOGrAM)
tHEPrOGrAM
Module5: FUNDAMENtALSOFPrOFESSIONALENGINEErING
Youwilllearnhowto:• Demonstratetheabilitytoself-manage
• Demonstratefamiliaritywithkeyprojectmanagementissues
• Communicateinatechnicalenvironment
• Demonstrateprofessionalandglobalawareness
• Administerthebasicsofprojectfinance
• Demonstrateawarenessofworkplacehealthandsafety-relatedissues
Forthedetailedassessmentcriteriaofeachlearningoutcome,pleasecontactyourEItLearningAdvisororProgramCoordinator.
Overviewthismodulecoversprojectmanagementprinciplesandvariousnon-technicalaspectsofengineeringeducation in compliance with the stage 1competency standards for the EngineeringAssociateasrequiredbyEngineersAustralia.thebroadaimsofthisunitaretoenablethestudentto:
• Assesspersonalstrengths,weaknessesandpreferences
• ImplementpersonaldevelopmentstrategiesthatalignwithEngineersAustralia'sprofessionalstandards
• Undertakecomplexill-definedengineeringprojectsandreportappropriatesolutions
• Investigate,developandarticulatetechnicalknowledgerequiredtoundertakeengineeringprojects
• Articulateanddemonstratepersonaldevelopmentoftimemanagementskills,projectmanagementskillsandteammanagementskills
• Analyzeandassesstheviabilityofengineeringprojectsusingsustainabilityframeworks
• Presenttechnicalengineeringinformationtopeersandsuperiors
• Continuetodevelopaportfoliotodemonstratedevelopmentofaprofessionalattitude,problemsolvingskills,technicalknowledgeandproductiveworkpractices
• Provideevidenceofaprofessionalcapacitytocommunicate,workandlearnproductively,bothindividuallyandinteam
* there will be two 1-hour webinars delivered for 2weeksatthestartofthismoduleandtwo1-hourwebinars over 2weeks at the end of the programpluseight1-hourwebinarsthroughoutthedurationoftheprogram.
topic5.1
tIMEMANAGEMENt
POrtFOLIOOFSKILLS
topic5.2
PrOJECtMANAGEMENtBASICS
LAUNCHOFFUNDAMENtALSOFPrOFESSIONALENGINEErING(FPE)PrOJECt
topic5.3
COMMUNICAtIONSKILLS
PrOBLEMSOLVINGANDDECISIONMAKING
topic5.4
tECHNICALWrItINGANDSPECIFICAtIONS
GrOUPDYNAMICS
topic5.5
PrOJECtCOStINGANDCASHFLOWMODELLING
DISCOUNtEDCASHFLOW
topic5.6
LEADErSHIPANDPrOFESSIONALCONDUCt
EtHICSINENGINEErING
topic5.7
rESPONSIBILItIESOFtHEENGINEErINGASSOCIAtE
ENGINEErINGStANDArDSANDCODESOFPrACtICE
topic5.8
GLOBALANDENVIrONMENtALISSUES
SUStAINABLEENGINEErING
topic5.9
WOrKPLACEHEALtHANDSAFEtYISSUES
PrESENtAtIONSKILLS
topic5.10
tECHNICALSKILLSANDCArEErPLANNING
topic5.11
PrESENtAtIONOFFUNDAMENtALSOFPrOFESSIONALENGINEErING(FPE)PrOJECtSBYGrOUPS
topic5.12
PrESENtAtIONOFFUNDAMENtALSOFPrOFESSIONALENGINEErING(FPE)PrOJECtSBYGrOUPS-CONtINUED
18 RTO provider 51971 • ACN 135 762 426V0005
Duration:4WEEKS
tHEPrOGrAM
Module6: MOtOrCONtrOL
Youwilllearnhowto:• Specifyprotectionrequirementsformotors
• Maintainelectricalmotors
• Specifyspeedcontrolrequirementsformotors
• Understandessentialsofmotorsanddrives
• Detailthemainissueswithtestingofmotors
• Prevent,oratleastminimize,motorbearingfailure
• troubleshootandfixfaultsonmotorsanddrives
• InterfacecontrolcircuitsofmotorswithPLCs/DCSs
• reducedowntimeonelectricalmotors
• Improveplantsafety
• Improveplantthroughput
• reduceyoursparesusageandrequirements
OverviewIt is estimated that electrical drives and otherrotating equipment consume about 50% of thetotal electrical energy consumed in the worldtoday. the cost of maintaining electrical motorscanbeasignificantamountinthebudgetitemofmanufacturingandminingindustries.thismodulewillgiveyouathoroughunderstandingofelectricalmotor protection, control and maintenance andprovide you with the tools to maintain andtroubleshoot electrical motors. You will gain afundamental understanding of the protection,control and maintenance of electric motors anddrives. typical applications of electric motors inmining, manufacturing, materials handling andprocesscontrolwillbecoveredindetail.
topic6.1–ACMotors
• Fundamentalsof3-phaseACmotors
• 3-Phaseinductionmotorconstructionandratings
- Squirrelcage
- Woundrotor
• 3-Phasesynchronousmotorconstructionandratings
• Miningapplications
topic6.2–DCMotors
• FundamentalsofDCmotors
• DCmotorconstructionandratings
- Brushed
- Brushless
• Miningapplications
topic6.3–VariableSpeedDrives(VSDs)
• Basicconcept
• Mechanical,hydraulicandelectricalVSDs
• Powerelectronicconverters
• ElectricalprotectionofVSDcomponents
• VSDcontrolsystems
topic6.4–OtherControlMethodsandDriveComponents
• Gearboxes
• Brakes
• Motorcontrol
- Phasevectordrives
- Directtorquecontrollers
- SCr(thyristor)drives
- PWM(chopper)drives
- Ward-Leonardcontrol
• MotorControlCenters(MCCs)
19 RTO provider 51971 • ACN 135 762 426V0005
Duration:4WEEKS
tHEPrOGrAM
Youwilllearnhowto:• DescribetheOSIandtCP/IPprotocolstack
models,andhowtheyrelatetoeachotheraswellastothevariouswiredandwirelesscommunicationtechnologiescoveredinthisprogram
• PerformbasictroubleshootingonrS-232andrS-485
• Explainthedifferencebetweensynchronousandasynchronouscommunication
• Explainthebasicsofprotocols
• Performbasicprotocolanalysisonserialdatacommunicationsystems
• Describetheadvantages,disadvantagesandapplicationofthevariousconductivemedia(copperandfiber)
Overviewthismoduleintroducesthe7-layerOSIand4-layertCP/IPmodels as overall frameworks inwhich toappraise all available wired and wirelesscommunicationtechnologies.Italsodescribesthevariousconductivemedia(copperandfiber)thatunderpintheseframeworks.
Inaddition,itdescribessomeofthemorecommon‘Layer1’technologiessuchasrS-232andrS-485.It also introduces the concept of protocols, theirfunctionality, and their relationship with the OSImodel. these protocols include asynchronouscharacter-based (ASCII) protocols, asynchronoushexadecimal protocols and synchronoushexadecimalprotocols.
topic7.1–DataCommunicationBasics
• the7-layerOSIand4-layertCPmodels
• Standardsandregulatorybodies
• Numbersystems
• Encodingvs.modulation
• Physicalvs.logicalchannels
• Fullvs.half-duplex
topic7.2–WiredSerialCommunicationStandards
• rS-232
• rS-422/485
• Bell-202
topic7.3–CommunicationProtocols
• Definitionofaprotocol?
• Protocolfunctionsvs.theOSImodel
• ASCII-basedprotocols
- AllenBradleyDF-1
• Hex-basedprotocols
- MODBUSrtU
topic7.4–ConductiveMedia
COPPErMEDIA
• Coax
• UtP/StP
• Connectors
FIBErMEDIA
• Multi-mode
• Single-mode
• GradedIndex
Module7: DAtACOMMUNICAtIONS
20 RTO provider 51971 • ACN 135 762 426V0005
Duration:4WEEKS
tHEPrOGrAM
Module8: EtHErNEt
Youwilllearnhowto:• DistinguishbetweenalltheEthernetvariants
• Choosethemostappropriatevariantforyourapplication
• Understandtheissuesaddressedby‘Industrial’Ethernet
• Selectthecorrecthardware(e.g.switches)foryourapplication
• DesignabasicEthernetnetwork
• PerformbasictroubleshootingonEthernet
OverviewWorld-wide,andinvirtuallyallindustries,Ethernethasbecomethenetworkingtechnologyofchoice.Mining is no exception and here Ethernet isincreasingly to be found both above and belowground.It isbeingintegratedwithdataaswellasvoice communications, and is even beingintegratedwith Leaky Feeder and otherwirelesssystems.ItisevenfindingitswayintoIntrinsicallySafeenvironments.thismoduletakesanin-depthview at Ethernet, its method of operation, thevariousspeedoptionsandhardwarecomponents(switches, routers etc) and its application in theMiningindustry.
topic8.1–Legacy(Half-duplex)Ethernet
• EthernetIIvs.IEEE802.3
• 10Mbpsvariants
• MediumAccessControl(CSMA/CD)
• Ethernetframes
• MACaddresses
topic8.2–High-speedEthernetVersions
• Full-duplexandauto-negotiation
• ‘Fast’(100Mbps)Ethernetvariants
• GigabitEthernetvariants
• tenGigabitEthernetvariants
topic8.3–NetworkingComponentsandSwitchApplications
NEtWOrKINGCOMPONENtS
• repeaters/hubs
• Bridges/switches
• routers/gateways
• terminalservers
• Mediaconverters
SWItCHAPPLICAtIONSFOrVLANSANDHIGHAVAILABILITY
• IEEE802.1p/QVLANs
• Switchedringsforhighavailability
topic8.4–IndustrialEthernetHardwareandApplication
HArDWArE
• Packaging
• Cablingandconnectors
• SHDSLrangeextension
• PoweroverEthernet(PoE)
• Intrinsicsafety(IECEx.ia)
• Determinism
• Hardeneddevices
APPLICAtION
• Miningapplications
21 RTO provider 51971 • ACN 135 762 426V0005
Duration:4WEEKS
tHEPrOGrAM
Module9: tCP/IPANDVoIP
Youwilllearnhowto:• PerformIPconfigurationonIPdevices
• ChecktCPconnections
• UsetCP/IPutilitiesfortroubleshooting
• Useaprotocolanalyzerfortroubleshooting
• ExplainthebasicsofVoIP
OverviewthetCP/IPprotocolsuitewasoriginallydesignedfor what was to become the Internet, but it hassince been embraced by Industry, world-wide,becauseofitsopen(non-proprietary)natureanditsrobustness.Itisthereforealsoubiquitousintheminingindustry,bothaboveandbelowgroundandonwiredaswellaswirelesssystems.Inaddition,there has been a rapid convergence betweenconventional voice telephony systems andnetworking(suchastCP/IPoverEthernet),withtheresult that Voice over IP (VoIP) is becomingcommonplaceinmines.
topic9.1–InternetLayerProtocols
• IPv4
- Headerstructure
- Classfulvs.classlessaddressing
- Subnetmasking
- Privateaddresses
- BasicroutingprinciplesandNAt
• ArP
• ICMP
• IPv6
- Headerstructure
• Addresstypes
topic9.2–Host-to-HostLayerProtocols
• tCP
- Headerstructure
- Portsandsockets
- Connectionsetupandteardown
• UDP
topic9.3–ApplicationLayerProtocolsandtCP/IPDiagnostics
• ApplicationLayerProtocols
- FtP
- HttP
- BootP
- DHCP
- telnet
- SSH
• tCP/IPdiagnostics
- Commandline(DOS)utilities
- Windowsutilities
topic9.4–VoiceoverIP(VoIP)
• Codecs
• Protocols
- rtPandrtCP
- H.323
- MGCPandSIP
• QoSissues
• Miningapplications
22 RTO provider 51971 • ACN 135 762 426V0005
Duration:4WEEKS
tHEPrOGrAM
Module10: tErrEStrIALMICrOWAVEANDSAtELLItECOMMUNICAtIONS
Youwilllearnhowto:• Performsiteselectionbasedongivencriteria
• Generateterrainmaps/pathprofiles(manuallyandonline)
• Determinemast/towerheightsbasedonFresnelZoneclearance
• Calculatelinkpowerbudgets
• Selectappropriatecomponents(transceivers,antennas,etc)
• Applycomputer-basedpropagationmodelsandnetworkplanners
• Usethisknowledgetodesignspecificapplicationssuchaslong-distanceleased-linereplacements,wirelessEthernetbackhaulsorwirelessEthernetbridges
• Usesatelliteservicesforcommunicationsinremotelocations
Overviewterrestrialmicrowavelinks,ineitherPoint-to-Point(PtP)orPoint-to-Multipoint(PtMP)configurations,employ earth-based transmitters and receivers,and are frequently used to transmit signals insituations where it would be impractical to runcables. the frequenciesusedare typically in the800MHz-5GHz range,although60-80GHz linksfor backhauls are not uncommon. this limits allcommunications to line-of-sight, with or withoutintermediate repeaters. In most cases theunlicensed ISMbandsareused,whichsimplifiesinstallation. However, the EIrP (EffectiveIsotropicallyradiatedPower)attheantennaisstillregulatedbytherelevantbodysuchastheFCCinthe USA and ACMA in Australia. In miningapplications,wirelesslinksareoftenusedbetweensitesalthoughsatelliteservicesmightberequiredin locations where a terrestrial wirelessinfrastructuredoesnotexist.
topic10.1–WirelessCommunicationsBasics
• Frequencybandsandassociatedpropagationmethods
• SpreadSpectrum(FHSS,DSSS)
• UWB
• Modulationtechniques
- AmplitudeModulation(AM,SSB,DSB,ASK)
- Phasemodulation(PM,BPSK,QAM)
- Frequencymodulation(FM,FSK)
topic10.2–terrestrialMicrowaveLinks
• terrestrialmicrowavelinkdesign
- Pathprofileandmastheightcalculation
- Linkbudget
- EIrP
- Availabilityvs.fademargin
- Antennaandfeederselection
• Legalissues
- EIrPlimitationsimposedbyregulatorybodies
topic10.3–terrestrialApplications[LO3]
• topologies
- Point-to-Point
- Point-to-Multipoint
• Hardware
- Multiplexers
- WirelessEthernetmodems/repeaters
- WirelessEthernetrangeextenders
- Wirelessbackhaulmodems
• terrestrialmicrowaveapplications
- telemetry
- Miningapplications
topic10.4–SatelliteSystems
• Satellitebasics
• VerySmallApertureterminal(VSAt)
• Satelliteapplications
- telemetry
- tracking
- Communications
- Mining
23 RTO provider 51971 • ACN 135 762 426V0005
Duration:2WEEKS
tHEPrOGrAM
Module11: LEAKYFEEDErSYStEMS
Youwilllearnhowto:• ExplaintheconceptofLeakyFeederoperation
• Selectappropriatefeedercable
• DesignabasicLeakyFeedersystemwithcommercially-availablecomponents
OverviewLeakyFeederisacommunicationssystemusedinunderground mining and other tunnelenvironments. It consists of a coaxial cable runalong passageways, which emits and receivesradiowaves.thecableis‘leaky’inthatithasgapsitsouterconductoralongitsentirelengthtoallowsignaltoleakintooroutofthecable.Becauseofthis leakage, amplifiers are inserted at regularintervals to boost the signal back to operationallevels.InrecentyearsLeakyFeedersystemshavebeenaugmentedwithEthernet,so thatdataandevenvoice(VoIP)canbeaccommodated.
topic11.1–LeakyFeederFundamentals
• Leakyfeederconcept
• typicalsystemspecifications
• topologies
• Leakycoax
• Systemcomponents
topic11.2–LeakyFeederImplementation
• VHFvs.UHF
• Intrinsicsafetyissues
• Ethernetoverleakyfeeder
• Voiceanddataoverleakyfeeder
• Miningapplications
Copyright©1999-2008VarisMinetechnologyLtd
24 RTO provider 51971 • ACN 135 762 426V0005
Duration:4WEEKS
tHEPrOGrAM
Module12: WIrELESSLANs
Youwilllearnhowto:• Describetheinherentoperatingmechanism
(framestructure,mediumaccesscontroletc.)ofIEEE802.11WLANs
• Predicttheperformanceofthevariousimplementationsintermsofrawandactualdataspeeds
• Comparevarious‘IndustrialWLAN’offeringsinthemarketplace,andunderstandtheirdifferencesfromconventionalWLANs
• DesignabasicindustrialWLANwithAccessPointsandClients,withorwithoutredundancyconsiderations
• PerformbasicconfigurationofanindustrialAP
OverviewA Wireless Local Area Network (WLAN) linksdevicesviaawirelessinfrastructure(typicallyoneor more Access Points) and often provides aconnectiontothewiderInternetthrougharouter.this gives users the mobility to move aroundwithin a local coverage area whilst maintainingtheir connection to the network WLANs havebecome popular in the home due to ease ofinstallationandtheincreasingpopularityoflaptopcomputers.Inindustrialapplicationstheysimplifythedeploymentofmovableclientdevices(e.g.onfork-lift trucks in warehouses) and eliminate theneedforcostlywiring.
In mining applications WLANs are increasinglybeing deployed underground, and are used fordata as well as voice management and otherservices such as rFID tagging for vehicle andpersonnelmanagement.
topic12.3–WLANSecurity
• ModesofunauthorizedaccesstoWLANs
• IEEE802.11i
• Encryption
- WEP
- tKIP
- AES
• Authentication
- Opensystems
- Sharedkey
- WPA/WPA2-PSK
- WPA/WPA2withauthenticationserver
topic12.4–IEEE802.11IndustrialWLANs
• Industrial/miningWLANcomponents
• redundantwirelessrings
• real-timeoperationandQoS
• WirelessVLANs
• Miningapplications
topic12.1–BasicWLANConcepts
• WLANterminology
• WLANconcepts
- Wirelessbridging
- WiredandwirelessDistributionSystems
- Clientroaming(MAC-andIP-level)
- Forcedroaming
- Associationandauthentication
topic12.2–IEEE802.11WLANStandards/Amendments
• OverviewoftheIEEE802.11specifications
• 2.4and5GHzchannels,frequenciesandspacing
• IEEE802.11variants
- IEEE802.11a
- IEEE802.11b
- IEEE802.11g
- IEEE802.11n
- IEEE802.11ac
• Co-existencebetweenvariants
25 RTO provider 51971 • ACN 135 762 426V0005
Duration:2WEEKS
tHEPrOGrAM
Module13: WIrELESSMESHNEtWOrKS
Youwilllearnhowto:• Explainthebasicsofmeshnetworksin
general
• ExplainthespecificsofIEEE802.11(Wi-Fi)basedmeshnetworks
• Comparecommercially-availablewirelessmeshsolutionsforminingapplications
OverviewA Wireless Mesh Network (WMN) is acommunications network made up of wirelessnodesorganizedinameshtopology,andcanbeseenasaspecialtypeofwireless'adhoc'network.WMNs usually consist of mesh clients, meshrouters and gateways. the mesh clients mayincludesensors, flowcontrollers, laptops,mobilephonesandotherwirelessdevices,dependingonthe application, while the mesh routers forwardtraffic to and from the gateways which may(optionally)connect to the Internetor toa largerwirednetwork.thecoverageareaof thewirelessnodesworkingasasinglenetwork issometimescalled amesh cloud. Amesh network is reliablebecause of redundancy. All nodes communicatewith each other directly or through intermediatenodes.Whenonenodecannolongeroperate,therestofthenodeswillreconfigurearoundit,andstillcommunicatewitheachother,directlyorindirectly.Wirelessmeshnetworkscanbeimplementedwithvarious wireless technologies including IEEE802.11,IEEE802.15.4,orproprietaryvariationsoftheaforementioned.recentyearshaveseenmoreandmoremesh systems inmining applications,especiallyonopenmines.
topic13.1–MeshBasics
• Basicmeshconcepts
• Meshnetworkcomponents
• Meshdeploymentmodes
• Designconsiderations
• CombiningmeshwithLANsandWLANs
• Meshroutingalgorithms
topic13.2–MeshImplementations
• IPv6overmesh(6LoWPAN)
• Standardizedmeshimplementations
- IEEE802.11s
- IEEE802.15.4
- ISA100Wireless
• Proprietarymeshimplementations
• Miningapplications
26 RTO provider 51971 • ACN 135 762 426V0005
Duration:5WEEKS
tHEPrOGrAM
Module14: FIELDBUSES
Youwilllearnhowto:• Identifyminingapplicationsthatcanbe
automatedwithafieldbus
• Beawareoftheprosandconsofthevariousfieldbusofferings
• Selectthemostappropriatesystemforyourapplication
• Performbasicdiagnosticsonvariousfieldbuses
OverviewProfibusisastandardforfieldbuscommunicationinautomationtechnologyandwasfirstpromoted(in1989)bytheGermanDepartmentofEducationand research. Profibus DP uses rS-485 or fiberoptics at the Physical Layer, and Profibus PA.DeviceNet is a field bus used in the automationindustry to interconnect control devices for dataexchange.typicalapplicationsincludeinformationexchange, safety devices, and large I/O controlnetworks.theHArtprotocol(HighwayAddressableremotetransducerprotocol)isadigitalindustrialautomationprotocol. It’smostnotableadvantageis that it can communicate over legacy4-20mAanaloginstrumentationwiring,sharingthepairofwiresusedbytheoldersystem. ItusesBell202signalingoveracurrentloop.FoundationFieldbusis an all-digital, serial, two-way communicationssystem,similartoProfibusPA,thatservesasthebase-levelnetworkinaplantorfactoryautomationenvironment. All these systems are used in theMining industry, and also perform safetyfunctions.
topic14.4–FoundationFieldbus
• Media
• Supportedtopologies
• Physicallayerimplementation
• Messagestructure
• Mediumaccesscontrol
• Devicepower
topic14.5–Ethernet,WirelessandSafetyonFieldBuses
• Ethernet-basedfieldbuses
- Ethernet/IP
- ProfiNet
- FoundationFieldbusHSE
• Wirelessextensionstofieldbuses
- WirelessHArt
- WirelessProfibus
- WirelessDeviceNet
• Safetysystems
- ASIsafe
- DeviceNetSafety
- ProfiSafe
topic14.1–HArtandAS-INtErFACE
• Definitionofafieldbus
• Fieldbusstandards
- IEC61158
- IEC62028/EN50295
• FieldbusapplicationsinMining
• HArt
- theHArtconcept
- Media,physicallayerandtopologies
• ActuatorSensor-interface(AS-i)
- theAS-iconcept
- Media,physicallayerandtopologies
topic14.2–DeviceNet
• Media
• Supportedtopologies
• Physicallayerimplementation
• Messagestructure
• Mediumaccesscontrol
• Devicepower
topic14.3–ProfibusDP/PA
• Media
• Supportedtopologies
• Physicallayerimplementation
• Messagestructure
• Mediumaccesscontrol
• Devicepower
27 RTO provider 51971 • ACN 135 762 426V0005
tHEPrOGrAM
Module15: SCADA,DAtAACQUISItIONANDOPC
Youwilllearnhowto:• DesignabasicSCADAsystem
• ChooseasuitableWANlinkfromyourlocalServiceProvider
• ChooseanappropriatedeviceforyourSCADAdataacquisition
• IntegrateOPCwithyourSCADAapplication
OverviewSCADA has traditionally been used to create awindow into the process of a plant, or to gatherdatafromdevicesinthefield,butnowthefocusison integrating this process data into the actualbusiness, and using it in real time. the currentemphasis is on using open communicationprotocolssuchasIEC60870,DNP3andtCP/IP,andcommercial off-the-shelf (COtS) hardware andsoftware to keep the costs down. this modulecovers fourmajor aspects of SCADA, namely (1)the overall SCADA system design, (2) the long-distanceWANlinksthatconveydatafromthepointof acquisition to the central station, (3) thesystemsandmethodsofremotelyacquiringplantdata, and (4) OPC,which is increasingly used inSCADAapplications.
topic15.1–SCADABasics
• typicalSCADAarchitectures
• SCADAhardwareandsoftware
• SCADAnetworking
• SCADAsecurity
• redundancyissues
• GoodpracticeforSCADAsystemimplementation
topic15.2–WideAreaNetwork(WAN)technologiesforSCADA
• Landlines
• Digitalhierarchies(t/E)
• X.25
• Framerelay
• AtM
• SDH/SONEt
• Cellular(3G/4G)
topic15.3–DataAcquisitionSystemsandComponents
• Dataacquisitiondevices
- Standalone
- PCbased
• SDI-12
• Linkingdataacquisitiondevicestothecentralstation
• Signalsources
- temperature
- Flow
- Pressure
• Signalconditioning
• Input/Output
- DigitalI/O
- AnalogI/O
topic15.4–OPC
• theroleofOPCinSCADAsystems
• Infrastructure
- DCOM
- (dot)NEt
• Specifications
- Legacyspecifications
- UnifiedArchitecture(UA)
Duration:4WEEKS
28 RTO provider 51971 • ACN 135 762 426V0005
Duration:4WEEKS
tHEPrOGrAM
Module16: PrOCESSCONtrOLSYStEMS
Youwilllearnhowto:• tunePIDcontrolloops
• Connectcascadeloops
• Explaincascadeloopsandfeed-forwardcontrol
• Correctlongdead-timesinaloop
• SpecifyanddesigntheanaloglooprequirementsforaplantusingPIDcontrol
• Identifyandapplytheessentialbuildingblocksinautomaticcontrol
• Explainconceptsusedbymajorprocesscontrolequipmentvendors
Overviewto succeed in process control, a designer mustfirstestablishagoodunderstandingoftheprocesstobecontrolled.Sincewedonotwishtobecometoodeeplyinvolvedintheprocessitself,weneedtofindawayofsimplifyingtherepresentationoftheprocess.thisisdonebyadoptingatechniqueofblockdiagrammodelingoftheprocess.
All processes have some basic characteristics incommon and, if we can identify these, the job ofdesigningasuitablecontrollerisrelativelyeasy.thetrickistomakeareasonablyaccuratemathematicalmodeloftheprocessandusethismodeltofindoutwhattypicalcontrolactionswecanusetomaketheprocessoperateatthedesiredconditions.
thefirstpartofthismoduledealswiththemodelingprocess,resultinginasystemblockdiagram.Fromthisanalytical resultanaccurateselectionof thetypeofmeasuringtransduceraswellasthefinalcontrol element can be made. the rest of themodule deals with other aspects of ProcessControl, namely the controller(s), functions,actionsandreactions,functioncombinationsandvariousmodesofoperation.
topic16.1–ProcessControlBasics
• reasonsforprocesscontrol
• DefinitionsofPV,SP,CV,Gain,LagandDt
• typesofFeedbackcontrol
• Setpointtracking
• ProportionalorGainactionofPIDcontrol
topic16.2–Stability,Algorithmsand CascadeControl
• Stability
• Idealvs.realalgorithms
• Cascadecontrol
• IntegralorresetactionofPIDControl
topic16.3–Action,FeedforwardandtheEffectsofDeadtime
• Directvs.Indirectactionofacontroller
• Derivativeorresetactionofacontroller
• Feedforwardcontrol
• Combinedfeedforwardandfeedbackcontrol
• Effectsofdeadtimeonacontrolledprocess
topic16.4–Looptuning
• Objectivesoftuning
• Openlooptuning
• Closedlooptuning
• tuningwithsomeovershoot
• tuningwithnoovershoot
29 RTO provider 51971 • ACN 135 762 426V0005
Duration:4WEEKS
tHEPrOGrAM
Module17: PrOGrAMMABLELOGICCONtrOLLErS
Youwilllearnhowto:• SpecifyPLChardwareandinstallationcriteria
• DescribePLCsoftwarestructure
• Writemedium-levelPLCprograms(usingladderlogic)
• troubleshootatypicalPLCsystem
• SpecifyPLCsystems
Overviewthis module provides up-to-date information onthe application of PLCs to the automation andprocesscontrolofplantsandfactories.ItissuitableforpeoplewhohavelittleornopreviousexposuretoPLCs,butexpecttobecomeinvolvedinsomeorall aspects of PLC installation. You will receivepracticaladvicefromexpertsinthefieldinordertoassistyoutocorrectlyplan,programandinstallaPLC with a shorter learning curve and moreconfidence. While the program is ideal forelectricians, technicians and engineers who arenewtoPLCs,muchofthecontentwillbeofvaluetothose who already have some basic skills, butneed a wider perspective for larger and morechallenging tasks ahead. the accompanyingmaterial includescontributionsfromanumberofexperts and will become a valuable referencedocumentinyourwork.
topic17.1–PLCHardware
• Programmingdevices
• Processors,powersupplies
• MemorysystemsandI/Ointeraction
• DigitalandanalogI/Osystems
• SpecialfunctionI/Oandserialcommunicationinterfacing
topic17.2–PLCProgrammingI
• Dataacquisition
• Analoganddigitalcontrol
• Faulttolerance
• Peripheralequipment
topic17.3–PLCProgrammingII
• HighSecurityPLCsystems
• Simulationandtestingofsystems
• Bestdocumentationpractice
• HMI(HumanMachineInterface)
topic17.4–PLCSystemSpecification,Configuration,InstallationandCommissioning
• Functionalspecification
• Systemconfiguration,installationandcommissioning
• WorkingexamplesofPLCprograms
• PLCapplicationsinMining
30 RTO provider 51971 • ACN 135 762 426V0005
Duration:2WEEKS
tHEPrOGrAM
Module18: DIStrIBUtEDCONtrOLSYStEMS
Youwilllearnhowto:• Understandtheconceptofdistributedcontrol
• IdentifythevariouscomponentsofaDCSsystem
• IdentifyprocessesthatlendthemselvestoDCSautomation
• EvaluateDCsofferingsfromthemajorvendors
• DesignabasicDCSsystem
OverviewDCS(DistributedControlSystem) isabroadtermforatypeofsystemusedinavarietyofindustriesto monitor and control distributed equipment.DCSs are used in manufacturing systems,processes, or any kind of dynamic system inwhich the controller elements are not centrallylocatedbutaredistributedthroughoutthesystem.Eachcomponentsub-systemiscontrolledbyoneormorecontrollers.theentiresystemofcontrollersisconnectedbynetworksforcommunicationandmonitoring.DCSsareverysimilartoSCADAsystemsexcept for the fact that the data processing in aSCADAsystem isusually centralized, andSCADAperforms high-level (supervisory) control only.DCSsarewidelyusedintheminingindustry.
topic18.1–DCSBasics
• Definitionofdistributedcontrol
• DCSvs.SCADA
• DCSsystemcomponents
• DCSdatacommunications
• thebasiccontroller
• theoperatorinterface
topic18.2–DCSOperation
• BasicDCScontrollerconfiguration
• ProgrammingofDCSsystems
• DCSalarmsystemmanagement
• DCSreporting
• DCSconfiguration
• Advancedcontrolstrategiesmaintenance
• DCSsfortheminingindustry
31 RTO provider 51971 • ACN 135 762 426V0005
Duration:4WEEKS
tHEPrOGrAM
Module19: ANALYtICAL, MANAGEMENtANDPErSONALSAFEtYSYStEMS
Youwilllearnhowto:• Becomeawareofstate-of-the-artinanalytical
andmanagementsystemsfortheminingindustry
• Identifythemostappropriatesystemforyourrequirements
Overviewthe advent of expert systems and technologiessuchasGPS,WLANs,wirelessmeshsystemsandrFIDhaveenabledrapidstridesinthedevelopmentof systems that enhance safety and optimizemine productivity. Vehicles and individuals cannow be tracked with pinpoint accuracy, whiledangerousoperationssuchasdraglinesandload-haul-dumpcannowberunwithoutthepresenceofahumanbeing.ExpertsystemscanextractdatafromSCADAsystemsandmakelong-termminingoptimization decisions. this module deals withcurrenttechnologyinthisregard.
topic19.1–MiningroboticsandtrackingApplications
MININGrOBOtICS]
• rockbreaking
• Shovelloadingautomation
• Draglineautomation
• Loadhauldumpautomation
• Excavatorguidance
• Blastholecharging
PErSONNEL,VEHICLEANDASSEttrACKINGSYStEMS
• rFIDtracking
- UWB-based
- Wi-Fi-based
• GPS-basedtracking
- BasicGPS-based
- DGPS(differentialGPS)-based
• On-boardvehiclemanagementsystems
• Softwaresuitesforasset,vehicleandpersonneltracking/management
topic19.2–SpecialisedHardwareandSoftware
SPECIALISEDINStrUMENtS,DEVICESANDSYStEMS
• PortableXrFanalysers
• ConveyorbeltXrFanalysers
• Mineradar
• Electronicdetonators
• remoteblastingsystems
• AutomaticpHmonitoringsystems
SPECIALISEDSOFtWArE
• Expertsystems
• Digital(3D)terrainimaging
• Drilling/blastingsoftware
• terrestrialcommunicationsmodelling
• Haulagefleetanalysis
• Draglineoperationssimulation
• Longwallfaceconfigurationandcuttingcycleanalysis
topic19.3–PersonalProtectionSystemsandDevoces
• Ultra-LowFrequency(ULF)pagers
• PersonalProtectiveEquipment(PPE)forminers
• ProximityDetection(CollisionAvoidance)Systemsforundergroundmines
• Gasdetectors
• Slopestabilitymonitoringsystems
• Ventilationmonitoringsystems
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