includes:
* CornerTool "is a powerful tool for analog IC designers to run corner simulations with Spectre".
* JMOSCal is to calculate MOSFET curves, e.g., I-V. (Note: requires hspice)
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Monday, April 26, 2010
Small softwares for analog IC design
http://www.analogeda.com/
includes:
* CornerTool "is a powerful tool for analog IC designers to run corner simulations with Spectre".
* JMOSCal is to calculate MOSFET curves, e.g., I-V. (Note: requires hspice)
includes:
* CornerTool "is a powerful tool for analog IC designers to run corner simulations with Spectre".
* JMOSCal is to calculate MOSFET curves, e.g., I-V. (Note: requires hspice)
Sunday, April 25, 2010
Tuesday, April 6, 2010
Some On-site Interview Questions (© Fuding Ge)
Almost everyone of the following questions was asked to me by an interviewer. Special thanks to Ge Wang at Maxim, Zhitao Jiang at Motorola.
1.If the following inverter biased in the middle of Vdd, what is the small signal gain? (Answer gm X ro)
2. Crossection diagram of the inverter (be able to draw the contact of power supply and ground)
3. From the crossection of the diagram, be able to draw the parasitic BJT leads to latch-up.
4 . How to prevent latch-up (do not forget guard ring, clampping circuits!)
5. Draw the layout of an inverter or NOR/NAND gate.
6. For the following source follower, what is its -3dB bandwidth? How about it stability?
7. In the following figure, if the two resisters are equal, what is its -3dB bandwidth? Compare its stability with that of a source follower.
8.For the following circuit, if the input is a rail-to-rail square wave, plot the wave after the inverter and vo.
9.For the following circuits, What is the gain? Using what technology to improve the matching of the input transistors? If the bias current increase, what happens to the gain? (Hit: Decrease!!!) What happens to the bandwidth? Replace the NMOS with npn BJT and PMOS with pnp BJT, answer the above questions.(Now gain remains constant with increasing biasing current!)
10. For the following circuits, answer the questions again. What are the advantages and disadvantages of these two amplifiers?
11. What are the effective resistance from source to drain of the following two transistors? (The value of the resistance is R). Answer: both of them are 1/gm.
12.What is the low frequency gain of the following circuits? The input is the input current Iin. Where does the dominant pole locate? How about the pole at node 1?
13.For the following circuit, the threshold voltage of the transistor is 0.7V. Vb1=1v, Vb2=2v, When Vin change from 5V to 0V, draw the current flow through the transistors VS Vin. (This question was supplied by Wang Ge)
14. For the following circuits, Vdd=5v, tell me what are Vo1 and Vo2 when Vin is 5V, 3V, 2.5V and 0V.
15. For the following circuit, what is the gain of Vout/Vin? Where is the Feedback and what is the function of feedback?
16. For the following circuits, the small signal input is i_in, the small signal output is v_out, what is the small signal output? What is the gain?
17. Figure out the Vout wave form of the following circuits:
Figure 1
Figure 2
Figure 3
Figure 4
Answer Hints: The basic concept to reply these kind of RC (or RLC) network questions is that: for C, it resistance is infinity when frequency=0 and 0 when frequency is infinity. (For L, its resistnace is 0 when frequency=0 while its resitance is infinity when frequency is infinity.
18. For the following circuit, at time 0, the switch switches from A to B, figure out the voltage wave form at B.
Note: this is a "classic" question. It was asked 10 years ago and I was asked this question just recently. You might be asked this question next time...
19. Fo the following circuit, what is the voltage value at A and B? (The Vt of the transistor is 1V).
[Problem 20 and 21 are not posted here.]
Note: Problem 20 and 21 are copied from the book edited by Jim Williams "The Art and Science of Analog Circuit Design
", published by Butterworth-Heinemann, 1995. ISBN 0-7506-9505-6, the chapter by Robert Reay, "A new graduate's guide to the analog interview". The chapter has 20 interview questions, but most of them are BJT problems. It may be helpful and interesting to read the chapter and even the wholw book. It is an INTERESTING book, though may be not very useful. It even includes a chapter by Richard P. Feynman (who is that guy? Come on, you should know him!).
", published by Butterworth-Heinemann, 1995. ISBN 0-7506-9505-6, the chapter by Robert Reay, "A new graduate's guide to the analog interview". The chapter has 20 interview questions, but most of them are BJT problems. It may be helpful and interesting to read the chapter and even the wholw book. It is an INTERESTING book, though may be not very useful. It even includes a chapter by Richard P. Feynman (who is that guy? Come on, you should know him!).
ABOUT DIGITAL CIRCUITS/VLSI DESIGN (© Fuding Ge)
Though you are applying for an analog circuits position, they often also ask you one or two digital/VLSI questions. To my experience, some basic logic gates such as NAND, NOR, XOR (XNOR) circuits are very important. Sometimes they ask you to use NAND NOR gates to realize the XOR function, some times they even ask you to use 8 transistor to realize this function. To my experience, you should read the whole textbook by Thomas A. DeMassa "Digital Integrated Circuits
" including those parts that talk about Flip-Flop. They often ask you a small question about State Machine or State Diagram. If you do not has the basic concepts of these concepts, read some books or take a course.
When I interviewed with Intel, they asked me to use some logic gates to realize a traffic light control problem (which I was unable to do in the specific time).
If they want to test your layout concepts, they may ask you to draw the layout of
NAND/NOR gate. Read the book "Principles of CMOS VLSI Design, A System Perspective
, Neil H.E. Weste, Kamran Eshraghian, AT&T, 1993" to get some "feeling".
At this point they may also ask you questions about ESD/Latchup, the above book is also good to refresh your memory.
[some more info of ESD protection]
Set-up and hold time are also very important concepts. You should know them for sure.
" including those parts that talk about Flip-Flop. They often ask you a small question about State Machine or State Diagram. If you do not has the basic concepts of these concepts, read some books or take a course.When I interviewed with Intel, they asked me to use some logic gates to realize a traffic light control problem (which I was unable to do in the specific time).
If they want to test your layout concepts, they may ask you to draw the layout of
NAND/NOR gate. Read the book "Principles of CMOS VLSI Design, A System Perspective
, Neil H.E. Weste, Kamran Eshraghian, AT&T, 1993" to get some "feeling".At this point they may also ask you questions about ESD/Latchup, the above book is also good to refresh your memory.
[some more info of ESD protection]
Set-up and hold time are also very important concepts. You should know them for sure.
Basic Questions (usually asked in phone interview) (© Fuding Ge)
1. Tell me a little bit about semiconductors (what is conductance and valence band? Fermi level? For n type semiconductor, what is the doping? Do you know how to say P and As in English?)
2. How does a pn junction works? (I know you know it, but could you tell other people clearly? Try it!!!, They ask you this question!). What is the depletion region? What is the build-in potential? What is the relation between these parameters with doping concentration and temperature? Remember the tempo of the build-in potential is about ?mV/K.
3. Tell me how MOSFET works. (Write it down in your own words and remember it !!!).
4. Tell me how BJT works. (Should I write down and remember it? Sure! But it is less asked). How does Vbe and Ic change with temperature?
5. Threshold voltage: If the substrate doping concentration increase, or temperature increases, how will Vt change? it increase or decrease?
6. Tell me what is Channel length modulation, what is Early effects and their physical origin.
7. Tell me what is short Channel effect.
8. For a 0.18um and 0.8um technology MOSFET, which has a higher cutoff frequency?
9. How does a Bandgap Voltage reference work?
10. What is the ideal input and output resistance of a current source? How about voltage source? How to improve these parameters? (Cascode topology, use long channel transistors)
11. Tell me the parameters as many as possible you know that used to character an amplifier.
12. What are the two types of noise of MOSFET, how to eliminate them? (Thermal and Flicker).
2. How does a pn junction works? (I know you know it, but could you tell other people clearly? Try it!!!, They ask you this question!). What is the depletion region? What is the build-in potential? What is the relation between these parameters with doping concentration and temperature? Remember the tempo of the build-in potential is about ?mV/K.
3. Tell me how MOSFET works. (Write it down in your own words and remember it !!!).
4. Tell me how BJT works. (Should I write down and remember it? Sure! But it is less asked). How does Vbe and Ic change with temperature?
5. Threshold voltage: If the substrate doping concentration increase, or temperature increases, how will Vt change? it increase or decrease?
6. Tell me what is Channel length modulation, what is Early effects and their physical origin.
7. Tell me what is short Channel effect.
8. For a 0.18um and 0.8um technology MOSFET, which has a higher cutoff frequency?
9. How does a Bandgap Voltage reference work?
10. What is the ideal input and output resistance of a current source? How about voltage source? How to improve these parameters? (Cascode topology, use long channel transistors)
11. Tell me the parameters as many as possible you know that used to character an amplifier.
12. What are the two types of noise of MOSFET, how to eliminate them? (Thermal and Flicker).
Monday, April 5, 2010
Some Good Books for Analog IC Design (©Fuding Ge)
Some Good Books:
(Pay more attention on CMOS than BJT books)
• CMOS Circuit design, CMOS Circuit Design, Layout, and Simulation, Revised Second Edition
, R Jacob Baker, Harry W. Li and David E. Boyce, IEEE Press, 1998 (university of Idaho), TK7871.99.M44B351998. A good book to read. You may not be able to learn lot of theory, but you do learn some circuits you can use. It is a ENGINEER book.
• Analog Integrated Circuit Design
, David Johns, Ken Martin, University of Toronto, John Wiley, Inc. A must read classic book on CMOS. Good circuit cook book and circuit theory. The part of Switched-capacitor PLL parts are very good and you must know it.
• Microelectronic Circuits
(the latest edition is 4th). Adel S. Sedra, Kenneth C. Smith, Oxford, 1998 (University of Toronto). A very good book! It is for undergraduates, easy to understand and the summery is very good and equation is very insightful. A must-read book before interview.
• CMOS Analog Circuit Design
, Phillip E. Allen and Douglas R. Holberg, Published in 1987. A little older but still worth to read. (It has a later edition (2002 ?, but I have not found time to read yet).
• Design of analog CMOS Integrated Circuits
, Behzad Razavi, McGraw-Hill, 2001. A textbook used by many schools. It helps you understanding lot of the circuits, but too simple to use in real design. I should say it is a very good theory book. Not ENGINEER book. Anyway IT ALL BEGINS FROM MAXWELL'S
EQUATIONS, RIGHT?
• Principles of CMOS VLSI Design, A System Perspective, Neil H.E. Weste, Kamran Eshraghian, AT&T, 1993
• Fundamental of Logic Design, (Any textbook is OK)
(Pay more attention on CMOS than BJT books)
• CMOS Circuit design, CMOS Circuit Design, Layout, and Simulation, Revised Second Edition
, R Jacob Baker, Harry W. Li and David E. Boyce, IEEE Press, 1998 (university of Idaho), TK7871.99.M44B351998. A good book to read. You may not be able to learn lot of theory, but you do learn some circuits you can use. It is a ENGINEER book.• Analog Integrated Circuit Design
, David Johns, Ken Martin, University of Toronto, John Wiley, Inc. A must read classic book on CMOS. Good circuit cook book and circuit theory. The part of Switched-capacitor PLL parts are very good and you must know it.• Microelectronic Circuits
(the latest edition is 4th). Adel S. Sedra, Kenneth C. Smith, Oxford, 1998 (University of Toronto). A very good book! It is for undergraduates, easy to understand and the summery is very good and equation is very insightful. A must-read book before interview.• CMOS Analog Circuit Design
, Phillip E. Allen and Douglas R. Holberg, Published in 1987. A little older but still worth to read. (It has a later edition (2002 ?, but I have not found time to read yet).• Design of analog CMOS Integrated Circuits
, Behzad Razavi, McGraw-Hill, 2001. A textbook used by many schools. It helps you understanding lot of the circuits, but too simple to use in real design. I should say it is a very good theory book. Not ENGINEER book. Anyway IT ALL BEGINS FROM MAXWELL'SEQUATIONS, RIGHT?
• Principles of CMOS VLSI Design, A System Perspective
, Neil H.E. Weste, Kamran Eshraghian, AT&T, 1993• Fundamental of Logic Design, (Any textbook is OK)
Some Basic Concepts of Analog IC Design (©Fuding Ge)
Some Basic Concepts you should know before job hounting:
You should grasp the following concepts:
• Gain, (how to improve gain?)
• Bandwidth, (how to improve bandwidth?)
• Feedback,(Stability is a must ask question! Know pole, zero, gain and phase margin!)
• Slew rate,(How to improve slew rate?)
• Offset,(how to eliminate offset? Chopper stabilized circuits, autozero)
• Noise,(what is thermal, flick, shot noise? What are the noises of BJT and MOSFET? (Tell me one way to reduce flick noise)
• Compensation (what is Miller, lead and Lag compensation? Know what is Miller Effects).
• Layout (centroid, interdigital) (how to improve the match of current mirror, differential pairs?
Remember: Same Structure (poly-poly not one is poly-poly another is poly-metal), same temperature, same Shape and size, same orientation (current flow parallel), same surroundings(dummy transistors) and Common-centroid geometry (fingers, interdigitated fingers, what is the purpose of breaking into fingers?))
Suggested Reading: Koen Lampaert, Georges Gielen and Willy Sansen, Analog Layout Generation for Performance and Manufacturability, Kluwer Academic Publishers, 1999
• Thermal resistance (basic calculation).
• Filter
• Oscillator
• Peak detector
• Frequency divider
• Bandgap Reference
• You also need to know a little bit about testing, for example DFT.
(I will later provide more details for each of the concepts.)
Recommended Courses to Take for Analog IC Design (©Fuding Ge)
Courses:
You must take the following courses:
• Device physics
• Analog circuits analysis and design
• Advanced analog IC design
• A/D converter
• Digital circuits analysis
• VLSI design
• Filter design
• PLL design
• RF circuit design
You better to take the following courses if Available:
• Semiconductor and device characterization
• VLSI Architecture
• Computer architecture
• VHDL
• Logic Design
(I will find time to provide link to openly accessed course websites/notes later.)
You must take the following courses:
• Device physics
• Analog circuits analysis and design
• Advanced analog IC design
• A/D converter
• Digital circuits analysis
• VLSI design
• Filter design
• PLL design
• RF circuit design
You better to take the following courses if Available:
• Semiconductor and device characterization
• VLSI Architecture
• Computer architecture
• VHDL
• Logic Design
(I will find time to provide link to openly accessed course websites/notes later.)
Will post Job Hunting Guide, including interview questions, written by Fuding Ge
As I found out recently, that Fuding Ge's personal website (http://geocities.com/fudingge/jobguide.html) originally held on Yahoo Geocities cannot be accessed, since Yahoo does not provide service of personal website anymore.
I contacted Fuding Ge, and he allows me to post his Job Hunting Guide, including his interview questions, on my blog. I will do so soon. Please note that all the materials written by Fuding Ge are copyrighted by him, as originally indicated in his website.
Furthermore, I plan to elaborate on his Job Hunting Guide, and also answer his interview questions one by one, in my future blog posts.
I contacted Fuding Ge, and he allows me to post his Job Hunting Guide, including his interview questions, on my blog. I will do so soon. Please note that all the materials written by Fuding Ge are copyrighted by him, as originally indicated in his website.
Furthermore, I plan to elaborate on his Job Hunting Guide, and also answer his interview questions one by one, in my future blog posts.
Sunday, April 4, 2010
Free device model parameters for analog IC simulation - Predictive Technology Model, and etc.
http://www.eas.asu.edu/~ptm/
http://ptm.asu.edu/
Though the device parameters are not measured from the real devices, they can be used for simulation (within reasonable tolerance?).
Will read it for more details.
============================
Another related website http://www.mos-ak.org/
At its "Modeling Links", there are several related links to device modeling websites.
============================
In http://www.idea2ic.com/index.html, search for "BSIM4 simplified", you can also find information of device modeling, including the comparison between various device parameters with different lengths (180nm down to 22nm) in PDF.
===========================
1um and 50nm MOSFET models, provided by R. Jacob Baker:
http://cmosedu.com/cmos1/cmosedu_models.txt
http://ptm.asu.edu/
Though the device parameters are not measured from the real devices, they can be used for simulation (within reasonable tolerance?).
Will read it for more details.
============================
Another related website http://www.mos-ak.org/
At its "Modeling Links", there are several related links to device modeling websites.
============================
In http://www.idea2ic.com/index.html, search for "BSIM4 simplified", you can also find information of device modeling, including the comparison between various device parameters with different lengths (180nm down to 22nm) in PDF.
===========================
1um and 50nm MOSFET models, provided by R. Jacob Baker:
http://cmosedu.com/cmos1/cmosedu_models.txt
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