Course Objectives
At the completion of this course, students will be able to
1. Understand the equivalent circuit of the emitter grounding amplification circuit.
2. Understand the bias circuit of the transistor amplification circuit.
3. Understand the field effect transistor.
Rubric
| Ideal Level of Achievement | Standard Level of Achievement | Unacceptable Level of Achievement) |
Evaluation 1 | Can understand the equivalent circuit of the emitter grounding amplification circuit correctly almost perfectly. | Can understand the equivalent circuit of the emitter grounding amplification circuit correctly. | Can't understand the equivalent circuit of the emitter grounding amplification circuit correctly. |
Evaluation 2 | Can understand the bias circuit of the transistor amplification circuit almost perfectly. | Can understand the bias circuit of the transistor amplification circuit correctly. | Can't understand the bias circuit of the transistor amplification circuit correctly. |
Evaluation 3 | Can understand the field effect transistor almost perfectly. | Can understand the field effect transistor correctly. | Can't understand the field effect transistor correctly. |
Assigned Department Objectives
MCCコア科目
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ディプロマポリシー 1
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Teaching Method
Outline:
Students can calculate the degree of amplification using the h-parameter.
Students can design an amplification circuit using bipolar transistors or field effect transistors.
Style:
Students can easily learn electronic circuits by using a circuit simulator.
Notice:
Course Plan
|
|
|
Theme |
Goals |
2nd Semester |
3rd Quarter |
1st |
Gain of the amplification circuit |
Understand the degree of amplification by using dB
|
2nd |
H-parameter of the transistor |
Understand the h-parameter derived from the static characteristics of the transistor.
|
3rd |
Equivalent conversion of the transistor amplification circuit by the h-parameter |
Understand the amplification circuit using the h-parameter as an equivalent circuit.
|
4th |
Calculation of the degree of amplification using an equivalent circuit |
Understand an equivalent circuit using an emitter grounding amplification circuit. Then calculate the voltage amplification degree.
|
5th |
Stability of the bias circuit
|
Understand 4 types of bias circuits. Then understand the stability of collector current due to temperature changes.
|
6th |
Features of a fixed bias circuit or a self-bias circuit |
Understand the fixed bias circuit or the self-bias circuit.
|
7th |
Features of current feedback bias circuit |
Understand the current feedback bias circuit.
|
8th |
Mid-term exams |
|
4th Quarter |
9th |
Design of the current feedback bias circuit |
Understand the design a current feedback bias circuit.
|
10th |
Recovery of the amplification by the bypass capacitor |
Understand the difference of the amplification degree in a case that there is no it if there is a bypass condenser.
|
11th |
Design of transistor amplification circuit |
Understand the design a transistor amplification circuit.
|
12th |
Frequency characteristics of transistor amplification circuit |
Understand the frequency characteristics of the transistor amplification circuit.
|
13th |
Structure and action of field effect transistor |
Understand the characteristics and mutual admittance of field effect transistors.
|
14th |
Amplification circuit by using field effect transistor |
Understand a source grounding amplification circuit using a field effect transistor.
|
15th |
Term examination |
|
16th |
Return and commentary of the term examination |
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Evaluation Method and Weight (%)
| Examination | Report | Mutual Evaluations between students | Behavior | Portfolio | Other | Total |
Subtotal | 70 | 30 | 0 | 0 | 0 | 0 | 100 |
Basic Ability | 70 | 30 | 0 | 0 | 0 | 0 | 100 |
Technical Ability | 0 | 0 | 0 | 0 | 0 | 0 | 0 |
Interdisciplinary Ability | 0 | 0 | 0 | 0 | 0 | 0 | 0 |