It has been a while since I posted anything new. I have been busy and there has not been enough interesting new stuff to say. But that is changing. There are lots os new topics of interest, so look for some new posts in the coming weeks and next year.
Hope all of you have a happy holiday season.
Saturday, December 15, 2012
Monday, May 17, 2010
The Future of the Bachelor's Degree in Technology
I want to discuss something serious. Like just where is the BSET degree going? I have always had the nagging feeling that it was not really necessary especially today. Maybe when those degrees were first offered they were just the right thing but with so many changes in electronics engineering over the years, maybe the BSET is just a redundancy.
The first bachelor's degrees in technology came along in the mid 1960's. I know. I have one called a Bachelor in Applied Science (BASc) given by the first school to award them, the University of Houston. The idea was to fill the need for jobs called "technologists". Not engineers or not technicians, technologists. Well as it turned out there never were any jobs called technologists in industry. I have never seen such a thing in my 30 plus years in industry. When I got my BASc in 1965, I was immediately hired as an engineer and all my subsequent jobs were with that title. Most employers never heard of technologists but of course knew what techs were and engineers. My BAS degree adequately prepared me to do most engineering. The only topics I did not get were statics, dynamics and thermo which I never used anyway.
The same thing is roughly true today. BSET grads mostly become engineers. Maybe more of them go into manufacturing, sales and marketing, field service but a large percentage of them do actual engineering. Don't tell those with PE licenses as they will have a hemorrhage. PEs never accept the fact that you don't actually have a PE license to do engineering work. That is especially true in electronics.
So what am I saying here? Is the BSET really necessary? Why don't we just call that degree a BSEE in applied engineering or something like that and make the BSET departments part of engineering? When I look at the curricula for EEs and ETs at the BS level they are so close that it seems silly to duplicate. Both BSEEs and BSETs take the same math and science any way, and the electronic courses mostly use the same texts and cover the same material just under a different rubric. How dumb is that? I know it is political and turf building more than anything.
Another part of the problem is that as AAS degree programs move toward a more systems approach and one less focused on circuit analysis and design they become a poorer fit for transfer to BSET programs. I say let AAS programs concentrate on the needs of technicians and industry and less on what is needed to transfer to a BSET program. I suspect the total transfers from AAS to BSET to be very small anyway. If an AAS grad wants a BS degree, he or she should go to a university offering an Industrial Technology degree. It is a better fit anyway.
What are your thoughts on this?
LF
The first bachelor's degrees in technology came along in the mid 1960's. I know. I have one called a Bachelor in Applied Science (BASc) given by the first school to award them, the University of Houston. The idea was to fill the need for jobs called "technologists". Not engineers or not technicians, technologists. Well as it turned out there never were any jobs called technologists in industry. I have never seen such a thing in my 30 plus years in industry. When I got my BASc in 1965, I was immediately hired as an engineer and all my subsequent jobs were with that title. Most employers never heard of technologists but of course knew what techs were and engineers. My BAS degree adequately prepared me to do most engineering. The only topics I did not get were statics, dynamics and thermo which I never used anyway.
The same thing is roughly true today. BSET grads mostly become engineers. Maybe more of them go into manufacturing, sales and marketing, field service but a large percentage of them do actual engineering. Don't tell those with PE licenses as they will have a hemorrhage. PEs never accept the fact that you don't actually have a PE license to do engineering work. That is especially true in electronics.
So what am I saying here? Is the BSET really necessary? Why don't we just call that degree a BSEE in applied engineering or something like that and make the BSET departments part of engineering? When I look at the curricula for EEs and ETs at the BS level they are so close that it seems silly to duplicate. Both BSEEs and BSETs take the same math and science any way, and the electronic courses mostly use the same texts and cover the same material just under a different rubric. How dumb is that? I know it is political and turf building more than anything.
Another part of the problem is that as AAS degree programs move toward a more systems approach and one less focused on circuit analysis and design they become a poorer fit for transfer to BSET programs. I say let AAS programs concentrate on the needs of technicians and industry and less on what is needed to transfer to a BSET program. I suspect the total transfers from AAS to BSET to be very small anyway. If an AAS grad wants a BS degree, he or she should go to a university offering an Industrial Technology degree. It is a better fit anyway.
What are your thoughts on this?
LF
Wednesday, May 5, 2010
New Book on the Systems Approach
You have probably been hearing about how the right way to update an AAS degree curriculum in electronics is to pursue a systems path. You can certainly read about it in one of my past posts. That approach is to begin emphasizing systems and equipment and concentrate less on components and circuits. Modern techs do not analyze or design circuits.....they are not engineers. And few if any are headed to be engineering techs even if such jobs were plentiful. Most techs today do troubleshooting, service and repair. They install and operate equipment. And the do lots of testing and measuring. Yet the current curricula is still stuck in the old "troubleshoot to the component level" thing or teaching ten ways to bias a BJT when MOSFETs clearly rule electronics these day.
So far I have not identified any system level texts to help you go the system route. But I did write a book that takes that approach. It is called Electronics Explained: The New Systems Approach to Learning Electronics. It is published by Newnes/Elsevier and is available now. You can get a copy through Amazon or Barnes & Noble. It is not a formal textbook, but more a trade book but it gives you a good look at what a text would cover and how it would cover it.
If you want to get a head start on revising to the highly touted systems approach, this book will get you started. And don't forget to go to the Esyst website that I mentioned in an earlier post. www.esyst.org.
LF
So far I have not identified any system level texts to help you go the system route. But I did write a book that takes that approach. It is called Electronics Explained: The New Systems Approach to Learning Electronics. It is published by Newnes/Elsevier and is available now. You can get a copy through Amazon or Barnes & Noble. It is not a formal textbook, but more a trade book but it gives you a good look at what a text would cover and how it would cover it.
If you want to get a head start on revising to the highly touted systems approach, this book will get you started. And don't forget to go to the Esyst website that I mentioned in an earlier post. www.esyst.org.
LF
Thursday, April 15, 2010
The Systems Approach to Electronic Technology Education
You have probably heard of this by now. Many are proposing that the teaching of electronic technology (ET) should take a more systems view rather than the circuit analysis approach that most schools use now. I am one of those who recognized this approach years ago. Employers have known about it for years but have never pushed the issue with the colleges. Yet, as technology and industry move on, it is time for the schools to adapt. Painful as it is for any school to change, it is a must if the ET program is to survive.
In a nutshell, the colleges teach a component and circuit oriented approach to electronics. Analyze discrete component circuits. Lots of calculations and even coverage of things that are no longer relevant. For example, think of how much time you devote to teach BJTs and biasing. Or teaching Karnaugh maps and TTL. Today, most circuits are ICs so who needs to know ten ways to bias a BJT? And most of those ICs are MOSFETs anyway. In the same way, most digital circuits are implemented with embedded controllers and FPGAs. TTL went away years ago anyway. Besides techs do not design or analyze these circuits anyway. It is a waste of time, especially in a 2-year program where time and efficiency rule the curriculum.
What techs really need to know today is how the equipment and systems work. Signal analysis and flow rather than circuit analysis. Block diagram analysis rather than schematics. Techs troubleshoot, service, maintain, test, measure, install, operate and otherwise work with the equipment. Repair is at the board and module level, not so much at the component level in most cases. All courses should be changed to reflect this systems approach that employers want and techs need to do the work today.
Some schools have already made some changes in this direction but more needs to be done. It is hard for faculty to discontinue what they have been doing for years. And it is hard to know exactly how to make the changes or what the changes should be. And there are no textbooks taking this approach, yet.
If you are interested in moving your ET program into the 21st century, you need to get on this bandwagon. A quick start way is to look at the work that has been done over the past 3 years on an NSF grant that funded a systems development program. Go to www.esyst.org. Lots of guidelines and detailed recommendations. It is time to change.
Lou Frenzel
In a nutshell, the colleges teach a component and circuit oriented approach to electronics. Analyze discrete component circuits. Lots of calculations and even coverage of things that are no longer relevant. For example, think of how much time you devote to teach BJTs and biasing. Or teaching Karnaugh maps and TTL. Today, most circuits are ICs so who needs to know ten ways to bias a BJT? And most of those ICs are MOSFETs anyway. In the same way, most digital circuits are implemented with embedded controllers and FPGAs. TTL went away years ago anyway. Besides techs do not design or analyze these circuits anyway. It is a waste of time, especially in a 2-year program where time and efficiency rule the curriculum.
What techs really need to know today is how the equipment and systems work. Signal analysis and flow rather than circuit analysis. Block diagram analysis rather than schematics. Techs troubleshoot, service, maintain, test, measure, install, operate and otherwise work with the equipment. Repair is at the board and module level, not so much at the component level in most cases. All courses should be changed to reflect this systems approach that employers want and techs need to do the work today.
Some schools have already made some changes in this direction but more needs to be done. It is hard for faculty to discontinue what they have been doing for years. And it is hard to know exactly how to make the changes or what the changes should be. And there are no textbooks taking this approach, yet.
If you are interested in moving your ET program into the 21st century, you need to get on this bandwagon. A quick start way is to look at the work that has been done over the past 3 years on an NSF grant that funded a systems development program. Go to www.esyst.org. Lots of guidelines and detailed recommendations. It is time to change.
Lou Frenzel
Tuesday, March 9, 2010
Results of recent online survey on EET
Here is the result of my recent brief online survey of Electronics Technology. The response was excellent and I sincerely thank those of you who took the time to respond. I hope you will find the information useful. I leave the interpretation to you, however, I have provided my interpretation after the results if you are interested.
Lou Frenzel
Technology Editor, Electronic Design Magazine
Adjunct Professor, Austin Community College
1. Your school is
a. 2-year 61 %
b. 4-year 43%
Note: Total more than 100% since some institutions offer both AAS and BS.
2. Are your enrollments in electronics technology classes up or down?
a. Up 62.5%
b. Down 20.8%
c. Flat 16.7%
3. When was the last time you made significant changes to your courses or curriculum?
a. This year. 34.7%
b. 1 to 2 years ago. 26.4%
c. More than 2 years ago. 37.5%
Note: Total not 100% as some did not respond.
4. What new electronic majors or specialties have you implemented within the past 2 to 3 years?
a. Electric power/energy 20.8%
b. Wireless/communications 18%
c. Robotics 16.7%
d. Industrial/manufacturing 11.1%
e. Biomedical 16.7%
f. Other 33.3%
Note: Total is more than 100% since several indicated multiple additions. In the Other category here are those listed:
� None (Most often mentioned)
� Embedded controllers (Many mentions)
� Semi/Microelectronics
� Automotive electronics
� Networking
� Photonics
� Info tech/Computer science/programming
5. Are you familiar with the trend toward teaching a systems approach (rather than component/circuits approach) to electronics technology?
a. Yes 84.7%
b. No 9.7%
Note: Total not 100% as some did not respond.
6. Which of the following is the one most critical issue facing your college?
a. Low enrollments 38.9%
b. Retention 27.8%
c. Dated curriculum and courses 9.7%
d. Lab costs 11.1%
e. Other 18%
Note: Total is more than 100% as multiple items were selected. In the Other category the item most mentioned was budget limitations and lack of funding. Other items included bad management and uncooperative/under productive faculty.
7. What is your feeling about online electronic technology education?
a. A potential direction for the future. 52.8%
b. Looking forward to it 22.2%
c. Not in favor of it 25%
Note: Several indicated that they were already doing this in a hybrid program, lecture online and on-campus lab.
8. What is your opinion of current textbooks?
a. OK as is 25%
b. Dated but OK on the fundamentals 44.4%
c. Not relevant to current jobs 20.9%
d. Covers recent and advanced topics well 9.7%
Note: Lots of extra comments on this one.
� Too expensive.
� Lack of relevance to real world. (Multiple mentions)
� Can get along fine without text books.
� Need to go to e-books.
� Use/adapt engineering/scientific texts.
My Interpretation
I have been tracking the status of Electronic Technology for almost ten years now and have written about it extensively in this blog. My impression is that the current status is relatively positive compared to 3 to 5 years ago when enrollments were down and many colleges closed their Electronic Technology departments.
� Enrollments are definitely up. Several mentioned that the down economy was the main cause with many going back to school to improve their employability. Still, one third of enrollment are down to flat.
� Those of you who made changes in the program especially adding new majors or specialties survived the downturn of the past years and have turned their enrollment situation around.
� New majors seemed to help enrollments especially anything to do with power/energy, robotics, industrial and biomed.
� Despite a positive enrollment status, most indicated that low enrollments were the most critical issue. Retention was the second largest concern.
� The movement toward a systems approach to teaching electronics (the real world today) is clearly very well known but what I should have asked is who is doing it.
� I was surprised to see such a positive outlook for online programs. One quarter are clearly against this but anyone denying the online movement risks getting left behind. The Web/Internet is all powerful today and a key driver of our youth. It is the future.
� Two thirds indicated some dissatisfaction with the textbooks. They are dated and less relevant than in years past. Hope some publishers read this and give us some good updates or new texts.
Comments welcome.
Lou Frenzel
Lou Frenzel
Technology Editor, Electronic Design Magazine
Adjunct Professor, Austin Community College
1. Your school is
a. 2-year 61 %
b. 4-year 43%
Note: Total more than 100% since some institutions offer both AAS and BS.
2. Are your enrollments in electronics technology classes up or down?
a. Up 62.5%
b. Down 20.8%
c. Flat 16.7%
3. When was the last time you made significant changes to your courses or curriculum?
a. This year. 34.7%
b. 1 to 2 years ago. 26.4%
c. More than 2 years ago. 37.5%
Note: Total not 100% as some did not respond.
4. What new electronic majors or specialties have you implemented within the past 2 to 3 years?
a. Electric power/energy 20.8%
b. Wireless/communications 18%
c. Robotics 16.7%
d. Industrial/manufacturing 11.1%
e. Biomedical 16.7%
f. Other 33.3%
Note: Total is more than 100% since several indicated multiple additions. In the Other category here are those listed:
� None (Most often mentioned)
� Embedded controllers (Many mentions)
� Semi/Microelectronics
� Automotive electronics
� Networking
� Photonics
� Info tech/Computer science/programming
5. Are you familiar with the trend toward teaching a systems approach (rather than component/circuits approach) to electronics technology?
a. Yes 84.7%
b. No 9.7%
Note: Total not 100% as some did not respond.
6. Which of the following is the one most critical issue facing your college?
a. Low enrollments 38.9%
b. Retention 27.8%
c. Dated curriculum and courses 9.7%
d. Lab costs 11.1%
e. Other 18%
Note: Total is more than 100% as multiple items were selected. In the Other category the item most mentioned was budget limitations and lack of funding. Other items included bad management and uncooperative/under productive faculty.
7. What is your feeling about online electronic technology education?
a. A potential direction for the future. 52.8%
b. Looking forward to it 22.2%
c. Not in favor of it 25%
Note: Several indicated that they were already doing this in a hybrid program, lecture online and on-campus lab.
8. What is your opinion of current textbooks?
a. OK as is 25%
b. Dated but OK on the fundamentals 44.4%
c. Not relevant to current jobs 20.9%
d. Covers recent and advanced topics well 9.7%
Note: Lots of extra comments on this one.
� Too expensive.
� Lack of relevance to real world. (Multiple mentions)
� Can get along fine without text books.
� Need to go to e-books.
� Use/adapt engineering/scientific texts.
My Interpretation
I have been tracking the status of Electronic Technology for almost ten years now and have written about it extensively in this blog. My impression is that the current status is relatively positive compared to 3 to 5 years ago when enrollments were down and many colleges closed their Electronic Technology departments.
� Enrollments are definitely up. Several mentioned that the down economy was the main cause with many going back to school to improve their employability. Still, one third of enrollment are down to flat.
� Those of you who made changes in the program especially adding new majors or specialties survived the downturn of the past years and have turned their enrollment situation around.
� New majors seemed to help enrollments especially anything to do with power/energy, robotics, industrial and biomed.
� Despite a positive enrollment status, most indicated that low enrollments were the most critical issue. Retention was the second largest concern.
� The movement toward a systems approach to teaching electronics (the real world today) is clearly very well known but what I should have asked is who is doing it.
� I was surprised to see such a positive outlook for online programs. One quarter are clearly against this but anyone denying the online movement risks getting left behind. The Web/Internet is all powerful today and a key driver of our youth. It is the future.
� Two thirds indicated some dissatisfaction with the textbooks. They are dated and less relevant than in years past. Hope some publishers read this and give us some good updates or new texts.
Comments welcome.
Lou Frenzel
Friday, June 12, 2009
Every Electronic Product is a Computer
In case you have not already recognized this, virtually every electronic product made today is just one or more embedded controllers surrounded by the I/O and peripherals that make the product what it is. Think about it. Name one product that does not fit this model. A student of mine suggested a vacuum tube guitar amplifier and he is right. No embedded micro in there for sure. But consider any other product you use. Cell phone, automobile, iPod, TV set, CD player, and so on. Even our test equipment (like a digital oscilloscope) is computer based these days with software doing the measurement and analysis.
What I am trying to point up is that electronics centers around embedded controllers and their design and the software. Product design is more software and less hardware every day. Yet most colleges only devote one course to this topic. I keep feeling that we need to do more.
In my work as a technology editor for Electronic Design magazine, I talk to lots of engineers and travel around interviewing engineers, executives and others who design products. The core of all this work is centered on the embedded micros and all the interfaces and, of course, the software. It truly what engineers are doing.
It occurred to me a while back that many AAS degree grads could actually be good embedded designers. I have taught the embedded course in a community college many times and many students get interested and do a great job of creating embedded projects. You need to like software most of all but you do need some knowledge about all the interfaces that are used. Both are something in reach of any AAS degree student.
What I am advocating here is an AAS degree in embedded design. Take the existing curriculum and add more software and micro courses with plenty of project work making interfaces, controlling and monitoring other things, working with development systems and so on. Such a grad could really hit the ground running in an engineering setting where embedded work must be done. I am convinced that with the extra courses and plenty of real projects, any AAS grad could do what many BS degree engineers.
The big question is, would anyone hire one of these grads as an embedded designer? How would we make that happen?
Just a thought. Respond if you are interested and let me know your thoughts. Or am I just nuts and dreaming?
LF
What I am trying to point up is that electronics centers around embedded controllers and their design and the software. Product design is more software and less hardware every day. Yet most colleges only devote one course to this topic. I keep feeling that we need to do more.
In my work as a technology editor for Electronic Design magazine, I talk to lots of engineers and travel around interviewing engineers, executives and others who design products. The core of all this work is centered on the embedded micros and all the interfaces and, of course, the software. It truly what engineers are doing.
It occurred to me a while back that many AAS degree grads could actually be good embedded designers. I have taught the embedded course in a community college many times and many students get interested and do a great job of creating embedded projects. You need to like software most of all but you do need some knowledge about all the interfaces that are used. Both are something in reach of any AAS degree student.
What I am advocating here is an AAS degree in embedded design. Take the existing curriculum and add more software and micro courses with plenty of project work making interfaces, controlling and monitoring other things, working with development systems and so on. Such a grad could really hit the ground running in an engineering setting where embedded work must be done. I am convinced that with the extra courses and plenty of real projects, any AAS grad could do what many BS degree engineers.
The big question is, would anyone hire one of these grads as an embedded designer? How would we make that happen?
Just a thought. Respond if you are interested and let me know your thoughts. Or am I just nuts and dreaming?
LF
An Update on Electronic Technology Education
Over the past year I have been busy with my job as a magazine editor but I have been active in the ET field with my work for the Maricopa Advanced Technology Education Center (MATEC) in Phoenix. This is an NSF funded project and I am working on the Esyst grant where we are putting together a new AAS degree program that is a better fit with industry and the technology in general. We are into the 3rd year of a 3 year project so progress has been made.
The declining enrollment problem seems to have mitigated a bit and in fact during this down turn I bet we will see some increase in community college active in electronics. The alternative energy programs are bringing in some new students as is biomed and electric power. We did lose a few AAS programs over the past few years but those who have survived have made some curriculum changes and updated here and there and some even added new programs. While enrollments are much less than they ever were in the past, there are still ET jobs out there if we can just get the students interested. Maybe this downturn will help.
The Esyst program I mentioned has taken the existing core courses most schools offer and enhanced them with a more systems view of electronics. Less analysis and design, less emphasis on components and circuits and more about systems and equipment. More test and measurement and troubleshooting. That's what employers seem to want these days. You don't need to know how to bias a BJT, you don't ever have to do a mesh analysis with determinants. Who does that at all these days anyway, including engineers?
If you are looking for a way to update your curriculum, the Esyst approach is worth considering. Go to the website at www.esyst.org and take a look. And for a first hand look, go to the HI-TEC conference in Scottsdale July 19-22. We are having a workshop on the Esyst project. Check out the MATEC website at www.matec.org for details. And I will be talking about my experience with Esyst deployment at the ASEE conference in Austin, June 15th.
Hope you have a great summer.
LF
The declining enrollment problem seems to have mitigated a bit and in fact during this down turn I bet we will see some increase in community college active in electronics. The alternative energy programs are bringing in some new students as is biomed and electric power. We did lose a few AAS programs over the past few years but those who have survived have made some curriculum changes and updated here and there and some even added new programs. While enrollments are much less than they ever were in the past, there are still ET jobs out there if we can just get the students interested. Maybe this downturn will help.
The Esyst program I mentioned has taken the existing core courses most schools offer and enhanced them with a more systems view of electronics. Less analysis and design, less emphasis on components and circuits and more about systems and equipment. More test and measurement and troubleshooting. That's what employers seem to want these days. You don't need to know how to bias a BJT, you don't ever have to do a mesh analysis with determinants. Who does that at all these days anyway, including engineers?
If you are looking for a way to update your curriculum, the Esyst approach is worth considering. Go to the website at www.esyst.org and take a look. And for a first hand look, go to the HI-TEC conference in Scottsdale July 19-22. We are having a workshop on the Esyst project. Check out the MATEC website at www.matec.org for details. And I will be talking about my experience with Esyst deployment at the ASEE conference in Austin, June 15th.
Hope you have a great summer.
LF
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