**Hafta ** |
**Konu ** |

**1** |
Introduction: Characteristics of digital systems, Number systems, arithmetical operations with binary numbers |

**2** |
Fundamentals of Boolean Algebra
Axioms and theorems |

**3** |
Logic functions, representation, canonical and standard forms |

**4** |
Logic gates, Universal gates. Implementation of logic functions using only NAND (NOR) gates. |

**5** |
Timing diagrams, propagation delays, hazards, minimization of logic functions, essential/sufficient prime implicants, prime implicant chart |

**6** |
Incomplete functions, don't cares, general functions, prime implicants using Quine-McCluskey, ICs, half adder, full adder, subtraction, multiplexers |

**7** |
Demultiplexers, decoders, programmable logic devices (PLDs): PLAs, PALs, FPGAs, sequential circuits, FSM, memory units, T flip-flop |

**8** |
Midterm Exam and recitation |

**9** |
Feedback connections, S-R latch, D latch, D flip-flop |

**10** |
J-K latch and flip-flop, characteristic equations, registers, clocked synch. sequential circuits, Mealy, Moore, analysis of seq. circuits |

**11** |
NO LECTURE (January 1, New Year's Day) |

**12** |
Role of the clock signal, Design of synchronous sequential circuits, using J-K FFs, using multiplexers |

**13** |
Counter design, internal structures of electronic digital circuits, BJT, TTL (logic levels, fanout) |

**14** |
CMOS: NOT, NAND, NOR, three-state buffer, three-state common bus, logic levels |