Difference between revisions of "Lab 8 TF EIM"

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=Graph=
 
=Graph=
 
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# make the same measurements in parts 1 and 2 above for a germanium diode.
Plot the diode current (on the ordinate) versus the diode voltage (on the abscissa).  Use an expanded scale for the reverse current.
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#Plot the diode current (on the ordinate) versus the diode voltage (on the abscissa)for both diodes on the same graph. (50 pnts)
  
 
=Questions=
 
=Questions=

Revision as of 03:46, 27 October 2010

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.
  2. attach an Oscilloscope set to 1M[math]\Omega[/math] input impedence as shown in the circuit diagram. The oscilloscope will serve as a Resistor to measure the voltage across the diode and calculate the current.
  3. Measure the diode reverse current [math]I_r[/math] as a function of the DC supply voltage.

Forward Current

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

Graph

  1. make the same measurements in parts 1 and 2 above for a germanium diode.
  2. Plot the diode current (on the ordinate) versus the diode voltage (on the abscissa)for both diodes on the same graph. (50 pnts)

Questions

  1. The reverse biased diode acts like a constant ____________.
  2. The forward biased diode has a very __________ resistance. A reverse biased diode has a very ____________ resistance.
  3. The approximate DC forward resistance for diode #___________ is _________ when the forward current is _______________.
  4. The approximate DC reverse resistance for diode #___________ is _________ when the forward current is _______________.
  5. The silicon diode #___________ has an approximate turn on voltage of ___________.


Forest_Electronic_Instrumentation_and_Measurement