Difference between revisions of "Lab 8 TF EIM"

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=Questions=
 
=Questions=
  
#The reverse biased diode acts like a constant ____________. (10 pnts)
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1.) Plot the reverse biased diode for voltages beyond the turn on voltage in order to measure the effective impedance of the diode assuming a linear fit.
#The forward biased diode has a very __________ resistance.  A reverse biased diode has a very ____________ resistance.(10 pnts)
+
2.) Plot the forward biased diode in order to measure the effective impedance of the diode assuming a linear fit.
#The approximate DC forward resistance for diode #___________ is _________ when the forward current is _______________.(10 pnts)
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#The approximate DC reverse resistance for diode #___________ is _________ when the forward current is _______________.(10 pnts)
 
#The silicon diode #___________ has an approximate turn on voltage of ___________.(10 pnts)
 
  
  
 
[[Forest_Electronic_Instrumentation_and_Measurement]]
 
[[Forest_Electronic_Instrumentation_and_Measurement]]

Revision as of 02:51, 16 February 2011

Lab 8 The Diode Objective: Measure the current-voltage curve of a silicon diode.

Reverse current

1.) Construct the circuit below using a DC power supply, a diode.

Lab8 ReverseCurrentDiode.png

2.) Attach an Oscilloscope with internal resistance [math] R_{scope}= 1M\Omega[/math]. The scope will measure the voltage drop across R and thus the current will be given by this voltage difference divided by R.

3.) Determine a value for R which will allow you to measure a current of at least 10 mA (prefeferably 50 mA) at the diodes reverse bias cut off voltage.


4.) Measure the diode reverse current [math]I_r \lt 1 \mu A[/math] as a function of the DC supply voltage. (30 pnts)

Bias Voltage V_{scope} Current (V/R) Diode power R power


5.) Fill in the blank. The reverse biased diode act as a constant _______________ source. (5 pnts)

Forward Current

1.) now swap the diode direction and repeat the measurement in the previous section.

Lab8 ForwardCurrentDiode.png

2.) Attach an Oscilloscope with internal resistance [math] R_{scope}= 1M\Omega[/math]. The scope will measure the voltage drop across R and thus the current will be given by this voltage difference divided by R.

3.) Determine a value for R which will allow you to measure a current of at least 10 mA (prefeferably 50 mA) at the diodes reverse bias cut off voltage.


4.) Measure the diode forward current [math]I_r \lt 1 \mu A[/math] as a function of the DC supply voltage. (30 pnts)

Bias Voltage V_{scope} Current (V/R) Diode power R power


5.) Fill in the blank. The forward biased diode act as a constant _______________ source. (5 pnts)

Graph

  1. Plot the diode current (on the ordinate) versus the diode voltage (on the abscissa)for the forward and reverse biased diode on the same graph. (50 pnts)

Questions

1.) Plot the reverse biased diode for voltages beyond the turn on voltage in order to measure the effective impedance of the diode assuming a linear fit. 2.) Plot the forward biased diode in order to measure the effective impedance of the diode assuming a linear fit.


Forest_Electronic_Instrumentation_and_Measurement