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[FAKULTAS TEKNOLOGI INDUSTRI]
[FACULTY OF INDUSTRIAL TECHNOLOGY]
Program StudiDepartment
JURUSAN TEKNIK FISIKA/PROGRAM STUDI S2 TEKNIK FISIKAENGINEERING PHYSICS DEPARTEMENT / STUDY PROGRAM S2
ENGINEERING PHYSICS
Jenjang Pendidikan
ProgrammeMAGISTERMAGISTER
Kompetensi
Lulusan
Mampu menganalisa secara fundamental dan integral padapermasalahan keteknikan yang berkaitan dengan effisiensi
energi.
Mampu menganalisa permasalahan di industri yang berkaitandengan instrumentasi, prinsip prinsip sistem pengendalian,
proses di industri dan memecahkannya dalam bentuk
kemampuan perancangan ulang sistem instrumentasi dan
pengendalian pada proses di industri
Mampu menganalisa permasalahan yang berkaitan dengan ilmufisika pada bidang medis dan memecahkannya dalam bentuk
inovasi instrumen maupun strategi pengukuran yang berkaitan
dengan variabel fisika pada medis.
Graduate
Competence
Ability to analyze the fundamental and integral to the technicalproblems related to energy efficiency.
Ability to analyze problems in the industry relating toinstrumentation, the principle of control systems, industrial
processes and ability to solve them in the form of redesigned
instrumentation and control systems in process industry
Ability to analyze issues related to physical science in the medicalfield and solve it in the form of innovation measurement
instruments and strategies related to the medical physics
variables.
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STRUKTUR KURIKULUM/COURSE STRUCTURE
No. Kode MK
Code
Nama Mata Kuliah (MK)
Course Title
sks
Credits
SEMESTER I
1 TF092311 Fisika Teknik Lanjut
Advanced Enegineering Physics
3
2 TF092312 Instrumentasi Lanjut
Advanced Instrumentation
3
3 TF092313 Matematika Teknik Lanjut
Advanced Engineering Mathematics
3
4 TF092314 Dinamika Sistem Lanjut
Advanced System Dynamics
3
Jumlah sks/Total of credits 12
SEMESTER II
1 TF092321 Desain EksperimentalDesain Eksperiment
2
2 TF092322 Sistem Pengukuran Lanjut
Advanced Measurement System
3
3 TF092322 Identifikasi Sistem
System Identification
2
4 TF092324 Seminar Proposal
Proposal Seminar
2
Jumlah sks/Total of credits 9
SEMESTER III
1 TF0924xx Mata Kuliah Pilihan
Elective Course
2
2 TF0924xx Mata Kuliah Pilihan
Elective Course
2
3 TF0924xx Mata Kuliah Pilihan
Elective Course
2
4 TF0924xx Mata Kuliah Pilihan
Elective Course
2
5 TF0924xx Mata Kuliah Pilihan
Elective Course
2
Jumlah sks/Total of credits 10
SEMESTER IV
1 TF092325 Tesis
Thesis
5
Jumlah sks/Total of credits 5
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SILABUS KURIKULUM/COURSE SYLLABUS
MATA KULIAH/
COURSE TITLE
TF092311: FISIKA TEKNIK LANJUT
TF092311:Advanced Engineering Physics
Credits : 3 / 3
Semester: 1
TUJUAN
PEMBELAJARAN/
LEARNING
OBJECTIVES
Mahasiswa mampu menjelaskan dan menerapkan konsep konsep
dari fisika lanjut pada berbagai bidang keteknikan di industri.
Students are able to explain and apply the concepts of physics
advance in various fields of engineering in the industry.
KOMPETENSI/
COMPETENCY
Mahasiswa mampu menjelaskan tentang konsep fisika padaketeknikan
Mahasiswa mampu merumuskan konsep fisika pada bidangketeknikan
Mahasiswa mampu menganalisis konsep-konsep fisika padabidang keteknikan
Students are able to explain the physics concepts in engineering Students are able to formulate concepts of physics in the field of
engineering
Students can analyze the concepts of physics in the field ofengineering
POKOK
BAHASAN/SUBJECTS
Energi dan Perpindahan Energi Mekanika dan Dinamika Fluida Getaran dan Gelombang Termodinamika Energy dan Transfer Energy Mechanics and Dynamics of Fluid Oscilation and Wave Thermodinamycs
PUSTAKA
UTAMA/
REFERENCES
Palmer, S.B. and Rogalski, M.S., Advanced University Physics, 2006 Mukherji, Uma, Engineering Physics, Alpha Sci. International
Publishing, 2003
Parthasarathy, H., Advanced Engineering Physics, Anshan Publ.2007
Khare, P., Swarup, A., Engineering Physics: Fundamentals & ModernApplications, Infinity Sci. Press
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Mikell P. Groover, Automation, Production System, and ComputerIntegrated Manufacturing, 2
ndEdition, Prentice Hall, 2000
MATA KULIAH/
COURSE TITLE
TF092312: INSTRUMENTASI LANJUT
TF092312:Advanced Instrumentation
Credits : 3 / 3
Semester: 1
TUJUAN
PEMBELAJARAN/LEARNING
OBJECTIVES
Mahasiswa mampu menjelaskan tentang teknologi instrumentasi dan
otomasi proses di industri.
Students are able to explain about the technology, instrumentation
and automation in industrial processes.
KOMPETENSI/
COMPETENCY
Mahasiswa mampu menjelaskan tentang teknologi instrumentasiterkini di industri
Mahasiswa mampu menjelaskan sistem otomasi proses terkini diindustri
Mahasiswa mampu merancang sistem instrumentasi denganelemen elemen terkini dalam proses di industri.
Students can describe the latest instrumentation technology in theindustry
Students can explain the latest process automation systems in theindustry
Students are able to design instrumentation with elements of thesystem - the latest element in the process industries.
POKOK
BAHASAN/
SUBJECTS
Elemen elemen pendukung sistem otomasi proses Pengukuran besaran-besaran industri Teknologi sensor dan transmiter Perangkat lunak dan perangkat keras sistem otomasi proses Prosedur desain dan rekayasa sistem pada otomasi industri Aplikasi instrumentasi pada otomasi proses industri The element supporting the process automation system Measurement of industrial variables Sensors and transmiters technology The software and hardware automation systems process
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Procedure design and engineering systems in industrialautomation
Instrumentation applications in industrial process automation
PUSTAKA
UTAMA/
REFERENCES
Sing S.K, Industrial Instrumentation and Control , Tata McGrawHill, 2
ndEdition, 2003.
Doebelin E. O, Measurement Systems Application and Design,McGraw Hill, 2000.
Senbon, T. & Hanabuchi, H., Instrumentation Systems :Fundamental and Application, Springer Verlag
Webster, John G., The Measurement. Instrumentation andSensors Handbook, IEEE Press
Considine, D.M., Process Industrial Instruments and ControlHandbook, Mc Graw Hill
Anderson, N.A., Instrumentation for Process Measurement andControl, CRC Plus
MATA KULIAH/
COURSE TITLE
TF092313: MATEMATIKA TEKNIK LANJUT
TF092312:Advanced Engineering Mathematics
Credits : 3 / 3
Semester: 1
TUJUAN
PEMBELAJARAN/
LEARNING
OBJECTIVES
Mahasiswa mampu menggunakan prinsip prinsip matematika untuk
permsalahan pada bidang keteknikan.
Students can use the principle of mathematics to problems in the field
of engineering
KOMPETENSI/
COMPETENCY
Mahasiswa mampu menjelaskan variabel kompleks dalamfenomena fisika
Mahasiswa mampu menyelesaikan persamaan diferensial denganTransformasi Fourier, Transformasi Laplace dan Transformasi Z
Mahasiswa mampu memahami konsep persamaan diferensialdalam bentuk persamaan ruang keadaan
Students are able to explain the complex variables in physicsphenomena
Students are able to resolve differential equations with Fouriertransform, Laplace transform and Z Transformation
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Students are able to understand the concept of differentialequations in the form of state space equation.
POKOK
BAHASAN/
SUBJECTS
Variabel komplek, Fungsi Variabel Komplek Deret Fourier, Transformasi Fourier Transformasi Z Persamaan diferensial orde tinggi, Persamaan Euler Persamaan Diferensial non linier, Persamaan Ruang Keadaan Complex VariableFunction of Complex Variable Fourier Series, Fourier Transformation Z Transformation High Order Differential Equations, Euler Equation Non Linear Diferential Equation, State Space Equation
PUSTAKA
UTAMA/
REFERENCES
Kusse, B.R., Westwig, E.A., Mathematical Physics: AppliedMathematics for Scientists and Engineers, Wiley-VCH, 2006
Courant R. , Hilbert D., Methods of Mathematical Physics vol 1 & 2,Wiley-VCH, 1989
MATA KULIAH/
COURSE TITLE
TF092313: DINAMIKA SISTEM LANJUT
TF092313:Advanced System Dynamics
Credits : 3 / 3
Semester: 1
TUJUAN
PEMBELAJARAN/
LEARNING
OBJECTIVES
Mahasiswa mampu menganalisa tentang model dari sistem dinamika
pada beberapa permasalahan keteknikan.
Students are able to analyze the dynamics of the model system at
some technical problems
KOMPETENSI/
COMPETENCY
Mahasiswa mampu menjelaskan tentang dinamika sebuah sistemdan menurunkannya dalam bentuk persamaan matematis
Mahasiswa mampu menganalisa bentuk model matematis daridinamika sistem dalam domain waktu
Mahasiswa mampu menganalisa respon dinamika sebuahdinamika sistem dalam domain waktu dan frekuensi
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Students are able to explain the dynamics of a system and show itin the form of mathematical equations
Students are able to analyze the form of a mathematical model ofthe dynamics of the system in time domain
Students can analyze the dynamic response of a system in time andfrequency domain.
POKOK
BAHASAN/SUBJECTS
Pemodelan sistem mekanik Pemodelan sistem elektrik Pemodelan sistem termal, radiasi , sistem kimia dan biologi Pemodelan dinamika sistem linier dan non linier Respon sistem dalam domain waktu dan domain frekuensi Modeling of mechanical systems Modeling of electrical systems Modeling of termal, radiation systems, chemical and biological
systems
Modeling the dynamics of linear systems and non linear systems Response systems in time and frequency domain
PUSTAKA
UTAMA/REFERENCES
Malin, T.E., Proces Control, Design Process, and Control System forDynamic Performance, McGrawHill 2000.
Baba & Haranon, Process Dynamics : Modelling and Control,McGraw Hill 1992
MATA KULIAH/
COURSE TITLE
TF092321: DESAIN EKSPERIMENTAL
TF092321: Experimental Design
Credits : 2/ 2
Semester: 2
TUJUAN
PEMBELAJARAN/
LEARNING
OBJECTIVES
Mahasiswa mampu merancang kegiatan eksperimen untuk
menyelesaikan permasalahan teknik.
Students are able to design experiments to complete the activities o
technical problems.
KOMPETENSI/ Mahasiswa mampu menjelaskan tentang konsep kegiatan
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COMPETENCY eksperimen
Mahasiswa mampu merancang kegiatan eksperimen yangmencakup peralatan yang digunakan, mengukur, mengolah dan
menginterpretasi data
Students are able to explain about the concept of experimentalactivities
Students are able to design experiments that include activities thatuse equipment, measuring, processing and interpreting data
POKOK
BAHASAN/
SUBJECTS
Metode Penelitian Etika Ilmiah Penulisan Karya Ilmiah Penelusuran Referensi Penelitian Research Methods Scientific Ethics Writing Scientific Papers Research Reference Search
PUSTAKA
UTAMA/
REFERENCES
Hicks, Fundamental Concept in the Design of Experiment, HoltRinehart Weston, 1973
Pedoman Singkat Penyusunan Usulan Penelitian, InstitutTeknologi Bandung, Program Pascasarjana , 2004
Anthony, J., Design of Experiments for Scientist and Engineers,Butterworth-Heinemann, 2003
MATA KULIAH/
COURSE TITLE
TF092322: SISTEM PENGUKURAN LANJUT
TF092321:Advanced Measurement System
Credits : 3/ 3Semester: 2
TUJUAN
PEMBELAJARAN/
LEARNING
OBJECTIVES
Mahasiswa mampu mengintrepretasikan dan menganalisa berbagai
besaran fisis dalam pengukuran sebuah sistem .
Students are able to interpretation and analyze of various physical
quantities in the measurement of a system
KOMPETENSI/ Mahasiswa mampu menjelaskan tentang berbagai besaran fisis
dan energi
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COMPETENCY Mahasiswa mampu merancang dan analisa suatu sistem sensordalam instrumen analitik
Mahasiswa mampu merancang dan menganalisa sistemmonitoring melalui realisasi software dan hardware dalam suatu
instrumen
Students are able to explain about the various physical and energyquantities
Students are able to design and analysis of a sensor system inanalytic instruments
Students are able to design and analyze the monitoring systemthrough software and hardware realization of an instrument
POKOK
BAHASAN/
SUBJECTS
Teknik pengukuran berbagai besaran fisis dan energi
Pemilihan Jenis sensor Instrumen analitik Sistem wireless Telemetri untuk pengukuran dan monitoring Realisasi software dan hardware
Technique of measurement of physical quantities and energy Selection of sensor type Analitic Instrumentation Wireless System Telemetry for measuring and monitoring Realization Software and Hardware
PUSTAKA
UTAMA/
REFERENCES
Bela G Liptak, Process Measurement and Analysis, Chilton BC.1995.
Bentley John.P., Principles of Measurement System, MC Graw Hill,2005
D'Antona, G., Ferrero, A., Digital Signal Processing forMeasurement Systems: Theory and Applications, Springer Verlag
2007
Nawrocki, W. , Measurement Systems And Sensors, Artech HousePubl., 2005
Webster, J.G., Measurement, Instrumentation, and SensorsHandbook, CRC, 1999
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MATA KULIAH/
COURSE TITLE
TF092322: IDENTIFIKASI SISTEM
TF092322: System Identification
Credits : 2/ 2
Semester: 2
TUJUAN
PEMBELAJARAN/
LEARNING
OBJECTIVES
Mahasiswa mampu mengidentifikasi dan menganalisa suatu sistem
yang mengandung variabel fisis.
Students are able to identify and analyze a system containing physical
variables.
KOMPETENSI/COMPETENCY
Mahasiswa mampu menjelaskan tentang tahapan dalamidentifikasi suatu sistem linier dan non linier
Students are able to explain the stages in the identification of alinear and non linear system
POKOK
BAHASAN/
SUBJECTS
Teknik pengambilan data pada suatu proses Teknik dan algoritma identifikasi proses untuk sistem linier Teknik dan algoritma identifikasi proses untuk sistem non linier Identifikasi ARXdan ARMAX Identifikasi Wiener dan Hamerstein
Data capture technique in a process Techniques and algorithms for system identification in linear
process
Techniques and algorithms for system identification in nonlinearprocess
ARX and ARMAX identification Wiener and Hamerstein identification
PUSTAKA
UTAMA/
REFERENCES
Haber R, Keviczky, Nonlinear System Identification: Input-OutputModelling Approach, Kluwer Academic Publisher.
Ljung, L., System Identification, Prentice Hall, 1999. Juang, JN, Applied System Identification , Prentice Hall, 1993.