Difference between revisions of "Forest Electronic Instrumentation and Measurement"

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=Class Admin=
 
=Class Admin=
  
==Syllabus==
+
Get Mathematica
 +
 
 +
https://sites.google.com/a/isu.edu/mathematica/
 +
 
 +
Linear Fitting with Mathematica
 +
 
 +
http://reference.wolfram.com/mathematica/ref/LinearModelFit.html
 +
 
 +
 
 +
NonLinear Fitting
 +
 
 +
http://reference.wolfram.com/mathematica/ref/NonlinearModelFit.html
 +
 
 +
==[[TF_EIM_Syllabus]]==
  
 
==Class Policies ==
 
==Class Policies ==
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;Course Catalog Description
 
;Course Catalog Description
:Electronic Instrumentation and Measurement 3 credits. Lecture course with laboratory requirements. Topics include: Electical Circuits, .  
+
:Electronic Instrumentation and Measurement 3 credits. Lecture course with laboratory requirements. Topics include: DC and AC Electrical Circuits, Analog pulses, Bipolar Transistors, Field Effect Transistors, Operational amplifiers.  
Prequisites:Math 360. Phys 301 or equiv. g561.
+
Prequisites: Phys 2212 and Phys 2214, Math 1170,1175,2275,3360
 
;Course Description
 
;Course Description
: A practical course applying the theoretical description of fundamental particle interactions such as the photoelectric effect, compton scattering and pair production to describe multiple interactions of particles with matter using the montecarlo method. A software package known as [http://geant4.web.cern.ch/geant4/ GEANT from CERN] will be used which is freely available under the UNIX environment. The course assumes that the student has very limited experience with the UNIX environment and no experience with GEANT. Homework problems involve modifying and compiling example programs written in C++. A final project is required in which the student chooses a process to compare the output of GEANT with experimental data. A report is written in a format which would be publishable in a scientific journal. Publishing the report is not required but left as an option for the student.
+
: A practical course introducing the fundamental concepts of analog electronics.  One third of the course will be used to describe the concepts in a lecture setting with the remaining time spent in a laboratory setting applying the concepts. The course begins with a review of DC and AC analog circuits. Semiconductor physics is introduced to lead into a study of transistors. The use of bipolar transistors for saturated and unsaturated switches is explored. The field effect transistor (FET)is compared with the bipolar transistor.
 +
 
 +
==Texts==
 +
 
 +
*Introductory Electronics for Scientists and Engineers, Robert E. Simpson , ISBN: 0205083773(required)
 +
*The Art of Electronics, Paul Horowitz and Winfield Hill
  
 
=Notes, Labs, and Schedule=
 
=Notes, Labs, and Schedule=
Line 22: Line 40:
 
| 1 || Chapter 1 (DC Circuits)|| [[TF_EIM_Chapt1]] || [[LabSkills_TF]]|| [[Lab_1_TF_EIM]]
 
| 1 || Chapter 1 (DC Circuits)|| [[TF_EIM_Chapt1]] || [[LabSkills_TF]]|| [[Lab_1_TF_EIM]]
 
|-
 
|-
| 2 || Chapter 2 (AC Circuits)|| [[TF_EIM_Chapt2]] ||None|| [[Lab_3_TF_EIM]]
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| 2 || Chapter 2 (AC Circuits)|| [[TF_EIM_Chapt2]] ||[[Lab_3_TF_EIM]]|| [[Lab_3_TF_EIM]] cont.
 
|-
 
|-
| 3 || Chapter 3 (Pulses)|| [[TF_EIM_Chapt3]] ||[[Lab_4_TF_EIM]]||[[ Lab_5_TF_EIM]]
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| 3 || Chapter 2 (cont.)|| ||[[Lab_4_TF_EIM]]||[[ Lab_4_TF_EIM]] cont.
 
|-
 
|-
| 4 || Chapter 4 (Semiconductor Physics)|| [[TF_EIM_Chapt4]] ||[[Lab_6_TF_EIM]]|| Lab #6 (cont)
+
| 4 || Chapter 2 (cont.)||  ||[[Lab_5_TF_EIM]]||[[ Lab_5_TF_EIM]] cont.
 
|-
 
|-
| 5 || Chapter 5 (Bipolar Transistors)|| [[TF_EIM_Chapt5]] ||[[Lab_8_TF_EIM]]|| [[Lab_9_TF_EIM]]
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| 5 || Chapter 3 (Pulses)|| [[TF_EIM_Chapt3]] ||[[Lab_6_TF_EIM]]|| Lab #6 (cont)
 
|-
 
|-
| 6 || Chapt 5 (cont) || ||None||[[ Lab_10_TF_EIM]]
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| 6 || Chapter 4 (Semiconductor Physics)|| [[TF_EIM_Chapt4]] ||[[Lab_8_TF_EIM]]|| [[Lab_8_TF_EIM]]
 
|-
 
|-
| 7 || MidTerm|| ||[[Lab_11_TF_EIM]]|| [[Lab_13_TF_EIM]]
+
| 7 || || ||[[Lab_9_TF_EIM]]||[[Lab_9_TF_EIM]]
 
|-
 
|-
| 8 || Chapt 6 (Field Effect Transistors FETs)|| [[TF_EIM_Chapt6]] ||[[Lab_14_TF_EIM]]|| [[Lab_17_TF_EIM]]
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| 8 || MidTerm (Chapt 1-4) || || [[ Lab_10_TF_EIM]] || [[ Lab_10_TF_EIM]]  
 
|-
 
|-
| 9 || || || [[Lab_23_TF_EIM]]|| [[Lab_23_TF_EIM]]
+
| 9 || Chapter 5 (Bipolar Transistors)|| [[TF_EIM_Chapt5]] ||[[Lab_13_TF_EIM]]|| [[Lab_13_TF_EIM]]
 
|-
 
|-
| 10 || || || [[Lab_25_TF_EIM]]|| [[Lab_30_TF_EIM]]
+
| 10 |||| || [[Lab_14_TF_EIM]]|| [[Lab_14_TF_EIM]]
 
|-
 
|-
| 11 |||| || [[Lab_27_TF_EIM]]|| Lab 27
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| 11 || || || [[Lab_14_TF_EIM]]|| [[Lab_14_TF_EIM]]
 
|-
 
|-
| 13 |||| ||Makeup Labs|| Makeup Labs
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| 12 ||Chapt 6 (Field Effect Transistors FETs) || [[TF_EIM_Chapt6]]|| [[Lab_17_TF_EIM]] || [[Lab_17_TF_EIM]]
 
|-
 
|-
| 14 ||||  || Makeup Labs||  
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| 13 ||Chapt 9 (Operational Amplifiers (OpAmps))  ||[[TF_EIM_Chapt9]] || [[Lab_23_TF_EIM]] || [[Lab_23_TF_EIM]]
 
|-
 
|-
| 15 |||| || Makeup Labs||  
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| 14 || Lab Choices for Final || || [[TF_EIM_Ugrad_FinalLab]]|| [[TF_EIM_GradFinalLab]]
 
|-
 
|-
| 16 |||| || Finals||  
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| 15 || Finals || Thursday May 7, 2015|| 12:30-2:30||  
 
|}
 
|}
 +
 +
[[Lab_11_TF_EIM]]
 +
 +
[[Lab_25_TF_EIM]] || [[Lab_27_TF_EIM]],  [[Lab_30_TF_EIM]]||
  
 
=Dan's Notes=
 
=Dan's Notes=
Line 64: Line 86:
  
 
[[File:DanDale_OpAmp_EIM.pdf]]
 
[[File:DanDale_OpAmp_EIM.pdf]]
 +
 +
 +
=Lab Equipment and Supplies list=
 +
 +
For 10 students you will need the following equipment
 +
 +
{| border="3"  cellpadding="20" cellspacing="0"
 +
|equipment || Spec sheeet
 +
|-
 +
| Function Generators ( 10 MHz BK precision 4017 A  )1-100 MHz, 0-5 Volt) || [[File:BK4017A_FuncGen_SpecSheet.pdf]]
 +
|-
 +
| Oscilloscope ( 20MHz Gw Instek GOS-620) ||  [[File: GwInstek_GOS-620_manual.pdf]]
 +
|}
 +
 +
 +
{| border="3"  cellpadding="20" cellspacing="0"
 +
|Quantity || Parts
 +
|-
 +
| >8 || Resistors(10,100,1k,10k,15k,100k,200k,3.3M,20M <math>\Omega</math>)
 +
|-
 +
| >8 || Capacitors (5,100,560,1000,10000,1000000 pF)
 +
|-
 +
| >8 || Bi-polar Capacitors (1,100,1000 <math>\mu</math>F)
 +
|-
 +
| >8  || 10 -100 <math>\mu</math> H Inductors (0.12,1.2,1.5,2.2,2.7,8.2,12,18,27,33,100,500,3000,5600,6800 <math>\mu</math>H)
 +
|-
 +
|  || Silicon Diode ([[File:1N4001.pdf]])
 +
|-
 +
|  || Zener Diode ([[File:EpitaxialZenerDiode_datasheet.pdf]])
 +
|-
 +
|  || Transistor (Darlington  [[File:NPN 2n6284_NPN_Tansistr.pdf]] , [[File:NPN_2N3904.pdf]], [[File:PNP_2N3906.pdf]] )
 +
|-
 +
|  || JFET ( [[File:FET_MPF-102ND.pdf]] )
 +
|-
 +
|  || 741 Op Amp [[File:LM741_OpAmp.pdf]]
 +
|}
 +
 +
 +
[[Electronics_RS]]
 +
 +
 +
 +
Cheap Digital scopes
 +
 +
 +
$399
 +
 +
http://www.rigolna.com/products/digital-oscilloscopes/ds1000e/ds1052e/
 +
 +
or
 +
 +
$287
 +
http://www.saelig.com/product/PSSA002.htm
 +
  
 
[[Forest_Classes]]
 
[[Forest_Classes]]

Latest revision as of 16:39, 31 March 2015

Class Admin

Get Mathematica

https://sites.google.com/a/isu.edu/mathematica/

Linear Fitting with Mathematica

http://reference.wolfram.com/mathematica/ref/LinearModelFit.html


NonLinear Fitting

http://reference.wolfram.com/mathematica/ref/NonlinearModelFit.html

TF_EIM_Syllabus

Class Policies

Forest_Class_Policies

Instructional Objectives

Course Catalog Description
Electronic Instrumentation and Measurement 3 credits. Lecture course with laboratory requirements. Topics include: DC and AC Electrical Circuits, Analog pulses, Bipolar Transistors, Field Effect Transistors, Operational amplifiers.

Prequisites: Phys 2212 and Phys 2214, Math 1170,1175,2275,3360

Course Description
A practical course introducing the fundamental concepts of analog electronics. One third of the course will be used to describe the concepts in a lecture setting with the remaining time spent in a laboratory setting applying the concepts. The course begins with a review of DC and AC analog circuits. Semiconductor physics is introduced to lead into a study of transistors. The use of bipolar transistors for saturated and unsaturated switches is explored. The field effect transistor (FET)is compared with the bipolar transistor.

Texts

  • Introductory Electronics for Scientists and Engineers, Robert E. Simpson , ISBN: 0205083773(required)
  • The Art of Electronics, Paul Horowitz and Winfield Hill

Notes, Labs, and Schedule

Week # Lecture reading Notes Lab A Lab B
1 Chapter 1 (DC Circuits) TF_EIM_Chapt1 LabSkills_TF Lab_1_TF_EIM
2 Chapter 2 (AC Circuits) TF_EIM_Chapt2 Lab_3_TF_EIM Lab_3_TF_EIM cont.
3 Chapter 2 (cont.) Lab_4_TF_EIM Lab_4_TF_EIM cont.
4 Chapter 2 (cont.) Lab_5_TF_EIM Lab_5_TF_EIM cont.
5 Chapter 3 (Pulses) TF_EIM_Chapt3 Lab_6_TF_EIM Lab #6 (cont)
6 Chapter 4 (Semiconductor Physics) TF_EIM_Chapt4 Lab_8_TF_EIM Lab_8_TF_EIM
7 Lab_9_TF_EIM Lab_9_TF_EIM
8 MidTerm (Chapt 1-4) Lab_10_TF_EIM Lab_10_TF_EIM
9 Chapter 5 (Bipolar Transistors) TF_EIM_Chapt5 Lab_13_TF_EIM Lab_13_TF_EIM
10 Lab_14_TF_EIM Lab_14_TF_EIM
11 Lab_14_TF_EIM Lab_14_TF_EIM
12 Chapt 6 (Field Effect Transistors FETs) TF_EIM_Chapt6 Lab_17_TF_EIM Lab_17_TF_EIM
13 Chapt 9 (Operational Amplifiers (OpAmps)) TF_EIM_Chapt9 Lab_23_TF_EIM Lab_23_TF_EIM
14 Lab Choices for Final TF_EIM_Ugrad_FinalLab TF_EIM_GradFinalLab
15 Finals Thursday May 7, 2015 12:30-2:30

Lab_11_TF_EIM

Lab_25_TF_EIM || Lab_27_TF_EIM, Lab_30_TF_EIM||

Dan's Notes

File:DanDale LoopTh Resistors EIM.pdf

File:DanDale Capacitors EIM.pdf

File:DanDale Inductors EIM.pdf

File:DanDale IntroSemiCond EIM.pdf

File:DanDale FET EIM.pdf

File:DanDale OpAmp EIM.pdf


Lab Equipment and Supplies list

For 10 students you will need the following equipment

equipment Spec sheeet
Function Generators ( 10 MHz BK precision 4017 A )1-100 MHz, 0-5 Volt) File:BK4017A FuncGen SpecSheet.pdf
Oscilloscope ( 20MHz Gw Instek GOS-620) File:GwInstek GOS-620 manual.pdf


Quantity Parts
>8 Resistors(10,100,1k,10k,15k,100k,200k,3.3M,20M [math]\Omega[/math])
>8 Capacitors (5,100,560,1000,10000,1000000 pF)
>8 Bi-polar Capacitors (1,100,1000 [math]\mu[/math]F)
>8 10 -100 [math]\mu[/math] H Inductors (0.12,1.2,1.5,2.2,2.7,8.2,12,18,27,33,100,500,3000,5600,6800 [math]\mu[/math]H)
Silicon Diode (File:1N4001.pdf)
Zener Diode (File:EpitaxialZenerDiode datasheet.pdf)
Transistor (Darlington File:NPN 2n6284 NPN Tansistr.pdf , File:NPN 2N3904.pdf, File:PNP 2N3906.pdf )
JFET ( File:FET MPF-102ND.pdf )
741 Op Amp File:LM741 OpAmp.pdf


Electronics_RS


Cheap Digital scopes


$399

http://www.rigolna.com/products/digital-oscilloscopes/ds1000e/ds1052e/

or

$287 http://www.saelig.com/product/PSSA002.htm


Forest_Classes