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Kurikulum 2013
Kode Kuliah EL2005
Nama Kuliah Elektronika
SKS 3
Tahun Ajaran 2016/2017
Semester 1
Urutan Pertanyaan Question
1 History and overview  History and overview 
2 Electronic properties of materials  Electronic properties of materials 
3 Diodes : Diode structure and IV characteristics. Diode models: large signal models, DC and small signal models.  Diodes : Diode structure and IV characteristics. Diode models: large signal models, DC and small signal models. 
4 Diodes : Diode models: reverse breakdown (zener). Diode applications circuits: rectifying, limiting and clamping, signal switching.  Diodes : Diode models: reverse breakdown (zener). Diode applications circuits: rectifying, limiting and clamping, signal switching. 
5 Thyristor  Thyristor 
6 Bipolar transistor : BJT structure, modes of operation.  Bipolar transistor : BJT structure, modes of operation. 
7 Bipolar transistor : BJT IV characteristics. BJT models: large signal and DC models. BJT models small signal models.  Bipolar transistor : BJT IV characteristics. BJT models: large signal and DC models. BJT models small signal models. 
8 Bipolar transistor : BJT as an amplifier: General Configurations, Common Emitter (CE) Amplifier, Common Collector (CC) Amplifier, Common Base (CB) Amplifier.  Bipolar transistor : BJT as an amplifier: General Configurations, Common Emitter (CE) Amplifier, Common Collector (CC) Amplifier, Common Base (CB) Amplifier. 
9 Bipolar transistor : BJT amplifier biasing circuits. BJT as a switch.  Bipolar transistor : BJT amplifier biasing circuits. BJT as a switch. 
10 MOS transistor : MOSFET structure, modes of operation  MOS transistor : MOSFET structure, modes of operation 
11 MOS transistor : MOSFET IV characteristics. MOSFET models: large signal models MOSFET circuits at DC MOSFET models: small signal models.  MOS transistor : MOSFET IV characteristics. MOSFET models: large signal models MOSFET circuits at DC MOSFET models: small signal models. 
12 MOS transistor : MOSFET as an amplifier, bias, and biasing circuits. Basic single MOSFET amplifier configurations. Common Source (CS) Amplifier. Common Drain (SD) Amplifier. Common Gate (CG Amplifier). MOSFET Biasing Circuits.  MOS transistor : MOSFET as an amplifier, bias, and biasing circuits. Basic single MOSFET amplifier configurations. Common Source (CS) Amplifier. Common Drain (SD) Amplifier. Common Gate (CG Amplifier). MOSFET Biasing Circuits. 
13 MOS transistor : MOSFET as a switch  MOS transistor : MOSFET as a switch 
14 Frequency Response : Amplifier transfer function.  Frequency Response : Amplifier transfer function. 
15 Frequency Response : Low frequency respons of amplifier. Common emitter transistor short circuit current gain, Transition frequency. Hybrid - tt model of the bipolar junction transistor. Miller\'s theorem and Miller effect inthe voltage gain of common emitter and common source amplifiers.  Frequency Response : Low frequency respons of amplifier. Common emitter transistor short circuit current gain, Transition frequency. Hybrid - tt model of the bipolar junction transistor. Miller\'s theorem and Miller effect inthe voltage gain of common emitter and common source amplifiers. 
16 Frequency Response : Single Transistor Amplifier small signal circuit equivalent for the high frequency.  Frequency Response : Single Transistor Amplifier small signal circuit equivalent for the high frequency. 
17 MOS logic families : Basic concepts, NMOS and CMOS logic circuits. Design and analyses of CMOS inverters.  MOS logic families : Basic concepts, NMOS and CMOS logic circuits. Design and analyses of CMOS inverters. 
18 Design parameters and issues in CMOS Logics : Performance analyses of CMOS inverters. CMOS AOI gate structures.  Design parameters and issues in CMOS Logics : Performance analyses of CMOS inverters. CMOS AOI gate structures. 
19 Output Stage and Power Amplifier  Output Stage and Power Amplifier