Teaching GuideTerm Higher Technical University College of Nautical Science and Naval Engines |
Grao en Tecnoloxías Mariñas |
Subjects |
Electronic Systems for Vessels |
Contents |
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Identifying Data | 2017/18 | |||||||||||||
Subject | Electronic Systems for Vessels | Code | 631G02356 | |||||||||||
Study programme |
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Descriptors | Cycle | Period | Year | Type | Credits | |||||||||
Graduate | 2nd four-month period |
Third | Obligatoria | 6 | ||||||||||
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Topic | Sub-topic |
THEME 1. SEMICONDUCTORS. | 1.1. The Intrinsic Semiconductor. 1.2. Extrinsic Semiconductors. 1.3. Currents in a semiconductor |
THEME 2. THE DIODE. CIRCUITS WITH DIODES. | 2.1.The PN junction. 2.2. V-I characteristic of a diode. 2.3. Zener diodes. 2.4. LED diodes. 2.5. Linear model of the diode. 2.6. Analysis of circuits. |
THEME 3. CIRCUITS WITH DIODES: RECTIFIERS. | 3.1. Half-wave rectifier. 3.2. Full-wave rectifier. 3.3. Bridge rectifier. |
THEME 4. THE BIPOLAR TRANSISTOR. CIRCUITS WITH BJT TRANSISTORS. | 4.1. The Bipolar Transistor. 4.2. Current components. The V-I common-emitter (CE) characteristics. 4.3. Regions of operation and limit values. 4.4. Analysis of circuits. |
THEME 5. UNIPOLAR TRANSISTOR. UNIPOLAR TRANSISTOR CIRCUITS. | 5.1. Field-effect transistors: JFET, MOSFET. 5.2. The field-effect transistors V-I characteristics. 5.3. Analysis of circuits with field-effect transistors. |
THEME 6. POWER DEVICES. | 6.1. Power devices. 6.2. Thyristors. 6.3. Triacs. 6.4. Power regulation. 6.5. Analysis of circuits. |
THEME 7. THE OPERATIONAL AMPLIFIER. LINEAR AND NONLINEAR APPLICATIONS. | 7.1. Basics of amplificacion. 7.2. The Operational Amplifier. 7.3. Linear applications. 7.4. Nonlinear applications. 7.5. Analysis of circuits. |
THEME 8. LOGIC GATES. LOGIC FAMILIES. | 8.1. Digital circuits. 8.2. Logic gates. 8.3. Logic families: DTL, TTL and CMOS. 8.4. Analysis of circuits. |
THEME 9. SEQUENTIAL LOGIC. COMBINATORIAL LOGIC. | 9.1. Sequential systems. 9.2. The S-R, J-K-, T-, and D-Type Flip-Flops. 9.3. Registers. 9.4. Counters. 9.5. Combinatorial circuits. |
LABORATORY PRACTICE SESSION | PRACTICE 1: Use of measuring equipment |
PROBLEM SOLVING AND GROUP TUTORING SESSIONS. | SESSION 1: Analysis of circuits with Diodes: linear model of the Diode. SESSION 2: Analysis of circuits with Diodes: Rectifiers. SESSION 3: Analysis of circuits with Bipolar Transistors. SESSION 4: Analysis of circuits with Bipolar Transistors. SESSION 5: Analysis of circuits with Unipolar Transistors. SESSION 6: Analysis of circuits with power devices. SESSION 7: Analysis of circuits with power devices. SESSION 8: Analysis of circuits with Operational Amplifiers. SESSION 9: Analysis of circuits with Operational Amplifiers. |
ICT PRACTICE SESSIONS | PRACTICE 2: Diodes PRACTICE 3: Rectification Circuits PRACTICE 4: BJT Transistor PRACTICE 5: MOSFET Unipolar Transistor PRACTICE 6: Thyristors PRACTICE 7: Operational Amplifier PRACTICE 8: CMOS Inverter |
The development and overcoming of these contents, together with those corresponding to other subjects that include the acquisition of specific competencies of the degree, guarantees the knowledge, comprehension and sufficiency of the competencies contained in Table AIII / 2, of the STCW Convention, related to the level of management of First Engineer Officer of the Merchant Navy, on ships without power limitation of the main propulsion machinery and Chief Engineer officer of the Merchant Navy up to a maximum of 3000 kW. | Table A-III / 2 of the STCW Convention. Specification of the minimum standard of competence for Chief Engineer Officers and First Engineer Officers on ships powered by main propulsion machinery of 3000 kW or more. |
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