11-02-2022: Electronics 2¶
Date: Friday, February 11 2022
Location: Chip
Time: 10:45 - 12:30
Knowledge Test¶
A lecture about the modeling of linear dynamic systems and network theory is planned at February 25. This knowledge is indispensable for Structured Electronics Design. Please test your knowledge about this topic wiith the quiz below.
Introduction to SLiCAP¶
An interactive lecture about the analysis of linear dynamic systems with SLiCAP. Please download the archive ProbeCircuit.zip for this lecture.
SLiCAP python
Presentation
The presentation “SLiCAP: an open source symbolic network simulator” introduces the essentials of symbolic and numeric analysis in with SLiCAP.
Installation under Linux or under MSwindows with Anaconda
Running SLiCAP
Create input with a text editor and run it in a terminal
Run SLiCAP from within a python IDE (Spyder)
Run SLiCAP in a Jupyter Notebook
Study the tutorial: myFirstRCnetwork.
Videos
Design task for this course¶
Application description of the active antenna
Presentation
The “Application description” of the active antenna describes the product that we will design during in this course.
Literature
Systems engineering and amplifier design¶
These topics are for self-study and will not be discussed during this lecture.
Basic Design Sequence
Structured design uses a design method that is equal at each hierarchical level of the product design.
Presentation
The presentation “Basic Design Sequence” shows the basic sequence of activities that converts a initial requirement for a physical object, at any hierarchical level, into a physical breakdown of sub-assemblies or parts.
Presentation in parts
Video
Information Processing: Definitions
In structured electronics design, we consider electronic products as information processing systems.
Presentation
The presentation “Information processing: definitions ” gives the definitions of some basic terms used in information processing.
Presentation in parts
Information processing: definitions (parts)
Video
Information processing, definitions (4:19)
Study
Chapter 1.1, 1.2
Shannon: Channel Capacity
The expression for the channel capacity (Shannon 1948) shows us that there are three fundamental limits to the amount of information that can be processed by any real-world system:
noise addition
power limitation
speed limitation
Presentation
The presentation “Shannon: Channel Capacity” briefly elucidates this.
Presentation in parts
Shannon: Channel Capacity (parts)
Video
Fundamental physical limits to information processing (3:45)
Outline of Structured Electronic Design
Although not scientifically proven, we assume that the functional breakdown of information processing systems can be made with a limited number of basic electronic processing and reference functions.
By taking a limited number of functions as starting point for a design, rather than an almost infinite number of known circuits, is one of the keys of structured electronic design.
Functions concepts describe the idealized desired behavior of their real world implementations. The information handling capacity of these objects, however, is limited. This is a result of:
Noise addition
The physical limitation of the signal power
The physical limitation of the rate of change of a signal
Imperfect technological implementation of the desired functional behavior (physical operation mechanism)
The performance-to-cost ratio of an implementation can be improved through application of a limited number of error reduction techniques.
Orthogonalization of the design process can be obtained by proper sequencing of the design of different performance aspects.
Presentation
The presentation “Outline of Structured Electronic design” briefly elucidates the above.
Presentation in parts
Outline of Structured Electronic design (parts)
Video
Structured Electonic Design (12:27)
Study
Chapter 1
The amplification function
Amplification is one of the most important basic electronic information processing functions.
Presentation
The presentation “Amplification” gives a definition of the amplification function and elucidates the amplification mechanism.
Video
The amplification Function (3:35)
Study
Chapter 2.1
Amplifiers: performance measures, cost factors and figure of merit
During the design it is important to have some figure of merit for design solutions. Comparison of the figure of merit of different solutions is the basis for taking properly motivated design decisions.
Presentation
The presentation “Amplifers, performance measures and cost factors” gives a general performance measures and costs factors for amplifiers en proposes a figure of merit that can be used throughout the design process.
Video
Performance measures and cost factors (3:38)
Study
Chapter 2.1.3, 2.1.4, 2.1.5, 2.1.6
Electronics Design Sequence
Presentation
The presentation “Electronics Design Sequence” illustrates the use of basic functions and error reduction techniques in the basic design sequency.
Video
Downloads¶
A SLiCAP poster about the analysis of linear dynamic systems.
The SLiCAP files about the analysis of linear dynamic systems.
A poster about poles and zeros and the modeling of linear dynamic systems.
A poster with a brief overview of Systems Engineering for Analog Electronics.
Do not forget to download the SLiCAP files for the active antenna
Assignment 2 (5pts) Due date February 22 12am¶
Derive the specifications for the active antenna from the application description:
Functional specifications
Performance specifications
Cost factors
Environmental conditions
Put this all together in a short HTML report, generated with SLiCAP.