Gerbang Logika dan Aljabar Boolean
- Sekarang kita telah mengetahui konsep bilangan biner, dan kita akan mempelajari cara menggambarkan bagaimana sistem menggunakan menggunakan level logika biner dalam membuat keputusan.
- Aljabar Boolean adalah alat yang penting dalam menggambarkan, menganalisa, merancang, dan mengimplementasikan rangkaian digital.
Konstanta Boolean dan Variabel.
- Aljabar Boolean dibawah ini hanya mempunyai dua nilai : 0 dan 1.
- Logika 0 dapat dikatakan : false, off, low, no, saklar terbuka.
- Logika 1 dapat dikatakan: true, on, high, yes, saklar tertutup.
- Tiga operasi logika dasar: OR, AND, dan NOT.
Tabel Kebenaran
- Sebuah tabel kebenaran menggambarkan hubungan antara input dan ouput sebuah rangkaian logika.
- Jumlah The number of entries corresponds to the number of inputs.
- For example A 2 input table would have 22 = 4 entries.
- A 3 input table would have 23 = 8 entries.
Operasi OR dengan gerbang OR
-The Boolean expression for the OR operation is
- X = A + B
- This is read as “x equals A or B.
- X = 1 when A = 1 or B = 1.
OR Operation With OR Gates
- The OR operation is similar to addition but when A = 1 and B = 1, the OR operation produces 1 + 1 = 1.
- In the Boolean expression
We could say in English that x is true (1) when A is true
(1) OR B is true (1) OR C is true (1).
OR Operation With OR Gates
- There are many examples of applications where an output function is desired when one of multiple inputs is activated.
AND Operations with AND gates
- The Boolean expression for the AND operation is
x = 1 when A = 1 and B = 1.
NOT Operation
- The Boolean expression for the NOT operation is
- This is read as:
-x equals the inverse of A, or
-x equals the complement of A
- Truth table, symbol, and sample waveform for the NOT circuit.
Describing Logic Circuits Algebraically
- The three basic Boolean operations (OR, AND, NOT) can describe any logic circuit.
- If an expression contains both AND and OR gates the AND operation will be performed first, unless there is a parenthesis in the expression.
- The output of an inverter is equivalent to the input with a bar over it. Input A through an inverter equals A.
Evaluating Logic Circuit Outputs
-Rules for evaluating a Boolean expression:
- Perform all inversions of single terms.
- Perform all operations within parenthesis.
- Perform AND operation before an OR operation unless parenthesis indicate otherwise.
- If an expression has a bar over it, perform the operations inside the expression and then invert the result.
- Output logic levels can be determined directly from a circuit diagram.
- The output of each gate is noted until a final output is found.
Implementing Circuits From Boolean Expressions
- It is important to be able to draw a logic circuit from a Boolean expression.
- The expression
could be drawn as a three input AND gate.
- A more complex example such as
could be drawn as two 2-input AND gates and one 3-input AND gate feeding into a 3-input OR gate. Two of the AND gates have inverted inputs.
NOR Gates and NAND Gates
- Combine basic AND, OR, and NOT operations.
- The NOR gate is an inverted OR gate. An inversion “bubble” is placed at the output of the OR gate.
- The Boolean expression is

- The NAND gate is an inverted AND gate. An inversion “bubble” is placed at the output of the AND gate.
- The output of NAND and NOR gates may be found by simply determining the output of an AND or OR gate and inverting it.
- The truth tables for NOR and NAND gates show the complement of truth tables for OR and AND gates.
Universality of NAND and NOR Gates
- NAND or NOR gates can be used to create the three basic logic expressions (OR, AND, and INVERT)
- This characteristic provides flexibility and is very useful in logic circuit design.
Combinations of NANDs are used to create the three logic functions.
combinations of NORs are used to create the three logic functions.
IEEE/ANSI Standard Logic Symbols
- Compare the IEEE/ANSI symbols to traditional symbols.
- These symbols are not widely accepted but may appear in some schematics.
Application
Nama:Yogga Tolly Dewanto
Nim :2003015136
Kelas:2F
Sumber Berita:https://onlinelearning.uhamka.ac.id













