F0761400
1
Basic Experiments on Information and Communication Engineering B1
*See the 2021 syllabus for the class held on 2021.
In this course, students will acquire the elementary knowledge of information and communications engineering through "making things" of both hardware and software. In order to provide detailed guidance, students are divided into two groups by odd / even numbers of their IDs. Students in odd number group take hardware practice classes in the first half seven times, then take software practice classes in the latter half seven times. On the contorary, students in even number group take software practice classes in the first half seven times and take hardware practice classes in the latter half seven times.
In hardware practice in this course, following the former course, “Basic Experiments on Information and Communication Engineering A”, students learn necessary knowledge about basic electronic parts by fabricating a basic electronic circuit board including an operational amplifier (OP amp). Students also learn how to use measuring instruments (oscilloscope, multi-meter, function generator) and power supplies through the measurements and functional checking of the parts and the fabricated circuit board.
In software practice in this course, students learn the C programming language, basic skill of programming, and practical algorithms through making programs. In practices of programming, students experience programming for elements of information and communications engineering such as encryption.
In this course, students will acquire the elementary knowledge of information and communications engineering through "making things" of both hardware and software. In order to provide detailed guidance, students are divided into two groups by odd / even numbers of their IDs. Students in odd number group take hardware practice classes in the first half seven times, then take software practice classes in the latter half seven times. On the contorary, students in even number group take software practice classes in the first half seven times and take hardware practice classes in the latter half seven times.
In hardware practice in this course, following the former course, “Basic Experiments on Information and Communication Engineering A”, students learn necessary knowledge about basic electronic parts by fabricating a basic electronic circuit board including an operational amplifier (OP amp). Students also learn how to use measuring instruments (oscilloscope, multi-meter, function generator) and power supplies through the measurements and functional checking of the parts and the fabricated circuit board.
In software practice in this course, students learn the C programming language, basic skill of programming, and practical algorithms through making programs. In practices of programming, students experience programming for elements of information and communications engineering such as encryption.
In hardware practice, the main purpose of this class is acquiring knowledge about basic electronic parts including an operational
amplifier, how to use measuring instruments.
In software practice, purpose is to learn basic skill of programming and practical algorithms through making C programs and to learn elementary knowledge about software.
In software practice, purpose is to learn basic skill of programming and practical algorithms through making C programs and to learn elementary knowledge about software.
- The students who succeeded in this course will be able to apply the knowledge and skill to make electronic circuits and handling of basic measuring instruments.
- They also will be able to apply the knowledge about an operational amplifier (amplification and operations).
- Acquire C programming with using array, character code, and user defined function
- Acquire C programming for elementary topics in communication engineering
| Class schedule | HW assignments (Including preparation and review of the class.) | Amount of Time Required | |
|---|---|---|---|
| 1. | -Outline and objectives of the course -Basic operations of an operational amplifier -Fabrication of an experimental circuit board |
Preparation for overview of an operational amplifier (OP amp) | 30minutes |
| Preparation for fabrication of the experimental board | 30minutes | ||
| Review of an operational amplifier | 30minutes | ||
| 2. | -Fabrication of an experimental circuit board and DC offset adjustment | Preparation for fabrication of the experimental board | 30minutes |
| Preparation for DC offset adjustment | 30minutes | ||
| Review of an experimental board and DC offset adjustment | 30minutes | ||
| 3. | Inversion amplifier using an OP amp -Overview of an inversion amplifier -Experiments of an inversion amplifier |
Preparation for an inversion amplifier | 30minutes |
| Preparation for fabrication and experiments of an inversion amplifier | 30minutes | ||
| Review of an inversion amplifier | 30minutes | ||
| 4. | Non-inversion amplifier using an OP amp -Overview of a non-inversion amplifier -Experiments of a non- inversion amplifier |
Preparation for a non-inversion amplifier | 30minutes |
| Preparation for fabrication and experiments of a non-inversion amplifier | 30minutes | ||
| Review of a non-inversion amplifier | 30minutes | ||
| 5. | Analog adder using an OP amp -Overview of an analog adder -Experiments of an analog adder |
Preparation for an analog adder | 30minutes |
| Preparation for fabrication and experiments of an analog adder | 30minutes | ||
| Review of an analog adder | 30minutes | ||
| 6. | Analog subtractor using an OP amp -Overview of an analog subtractor -Experiments of an analog subtractor |
Preparation for an analog subtractor | 30minutes |
| Preparation for fabrication and experiments of an analog subtractor | 30minutes | ||
| Review of an analog subtractor | 30minutes | ||
| 7. | Examination -Submitting the summarized reports and the fabricated circuit board -Experimental performance using the fabricated circuit board for various operation functions -Oral examination about handling measurement instruments to confirm acquired knowledge on experiments |
Review of an operational amplifier and experiments | 60minutes |
| Review of the examination and the class | 30minutes | ||
| 8. | Software practice (1) : Practices of the C programming language (1) -Summary of Software Programming 1 |
Assignments | 90minutes |
| 9. | Software practice (2) : Practices of the C programming language (2) -Concept of array -Initialization of array |
Assignments | 90minutes |
| 10. | Software practice (3) : Practices of the C programming language (3) -Copying array and sorting array -Character code |
Assignments | 90minutes |
| 11. | Software practice (4) : Practices of the C programming language (4) -User defined function -User defined function with argument -User defined function with return value |
Assignments | 90minutes |
| 12. | Software practice (5) : Practices of the C programming language (5) -User defined function for processing array -Character array - User defined function for processing character array |
Assignments | 90minutes |
| 13. | Software practice (6) : Practices of the C programming language (6) -Basics of address -Basics of pointer |
Assignments | 90minutes |
| 14. | Software practice (7) : Examination and review -Examination coverage: Practices of the C programming language (1)-(6) |
Assignments | 90minutes |
| Total. | - | - | 1260minutes |
| Hardware: Report | Hardware: Examination | Software: Assignments | Software: Examination | Total. | |
|---|---|---|---|---|---|
| 1. | 5% | 15% | 20% | ||
| 2. | 10% | 20% | 30% | ||
| 3. | 15% | 10% | 25% | ||
| 4. | 15% | 10% | 25% | ||
| Total. | 15% | 35% | 30% | 20% | - |
-Twice or more absence is considered to abandonment in each (hardware and software) practice.
-In the hardware practice, grade is judged by the fabricated circuit and the submitted report (30%) and the result of examination (70%).
It is possible to acquire more than 60 points by carrying out the experiment using a fablicated electronic circuit learned in this class.
-In the software practice, grade is judged by assignments in each class (60%) and the result of examination (40%).
It is possible to acquire more than 60 points by making basic C language programs learned in this class.
-The average of hardware and software practices is an evaluation points, and passing standard is over 60 points.
-In the hardware practice, grade is judged by the fabricated circuit and the submitted report (30%) and the result of examination (70%).
It is possible to acquire more than 60 points by carrying out the experiment using a fablicated electronic circuit learned in this class.
-In the software practice, grade is judged by assignments in each class (60%) and the result of examination (40%).
It is possible to acquire more than 60 points by making basic C language programs learned in this class.
-The average of hardware and software practices is an evaluation points, and passing standard is over 60 points.
In the hardware practice,
Texts (including report assignments) in each class will be uploaded on the web (*1) by the day before the class.
Students have to prepare (print (*2) and check in advance) and bring them class.
(*1) Use the Share folder of this class and Scomb.
(*2) Please ask SIC (Scholarly Information Center) how to use printers from the PCs on the campus.
Monochrome print is enough (though the materials are colored).
In the software practice, two text books are used.
・林晴比古著「林 晴比古 実用マスターシリーズ 明解入門C」 SBクリエイティブ株式会社(in Japanese)
・柴田 望洋、由梨 かおる 著「新・解きながら学ぶC言語」 SBクリエイティブ株式会社(in Japanese)
Texts (including report assignments) in each class will be uploaded on the web (*1) by the day before the class.
Students have to prepare (print (*2) and check in advance) and bring them class.
(*1) Use the Share folder of this class and Scomb.
(*2) Please ask SIC (Scholarly Information Center) how to use printers from the PCs on the campus.
Monochrome print is enough (though the materials are colored).
In the software practice, two text books are used.
・林晴比古著「林 晴比古 実用マスターシリーズ 明解入門C」 SBクリエイティブ株式会社(in Japanese)
・柴田 望洋、由梨 かおる 著「新・解きながら学ぶC言語」 SBクリエイティブ株式会社(in Japanese)
In the hardware practice, a scientific electronic calculator should be prepared. Calculator applications on the mobile phone
cannot be used because the mobile phone is prohibited to use during the examination.
In the software practice, assignments for preparation, review and evaluation should done.
In the software practice, assignments for preparation, review and evaluation should done.
- Every Wednesday, 12:30-13:10 at room 4108 (hardware practice) / at PC room (software practice)
- E-mail can be received anytime.
- Course that cultivates an ability for utilizing knowledge
- Course that cultivates a basic interpersonal skills
| Work experience | Work experience and relevance to the course content if applicatable |
|---|---|
| Applicatable | Utilizing the experience in research and development of wireless communications equipment, basic electronic circuits and examples are explained. |
Last modified : Sun Mar 21 14:53:51 JST 2021