Experiment 9: diodes, Ab c – PASCO EM-8656 AC_DC ELECTRONICS LABORATORY User Manual
Page 29
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012-05892A
AC/DC Electronics Laboratory
®
Experiment 9: Diodes
EQUIPMENT NEEDED:
– AC/DC Electronics Lab Board: 1 K
Ω
Resistor, 330
Ω
Resistor, 1N4007 Diode, Wire Leads
– Digital Multimeter (DMM)
– (2) D-cell Batteries
Purpose
The purpose of this lab will be to experimentally determine some of the operating characteristics
of semiconductor diodes.
Procedure
À
Connect the circuit shown in Figure
9.1a using the 1N4007 diode you’ve
been supplied and the 1 K
Ω
resistor.
Use Figure 9.1b as a reference along
with Figure 9.1a as you record your
data. Note the direction that the diode is
oriented, with the dark band closer to
point B.
Á
With the “switch” closed and the
current flowing, adjust the potentiom-
eter until there is a voltage of 0.05 volt
between points B and C (V
BC
). Mea-
sure the voltage across the diode (V
AB
).
Record your values in the left-hand side
of Table 9.1 under “Forward Bias”.
Â
Adjust the potentiometer to attain the
following values for V
BC
: 0.1, 0.2,
0.3,.....2.0 volts. Record the two
voltages for each case.
Ã
Remove the 1 K
Ω
resistor and replace it with a 330-
Ω
resistor. Repeat steps 3 & 4, going from a voltage of 0.3,
0.4,.....2.0 volts. Record V
BC
and V
AB
in each case.
Ä
Reverse the orientation of the diode. Set the diode voltage
(V
AB
) to the values 0.5, 1.0,....3.0 volts. Measure the
resistor voltage (V
BC
) in each case. Record these values in
the columns labeled “Reverse Bias”.
Analysis
À
Determine the current flow (I) in each setting by dividing the voltage across the resistor
(V
BC
) by the resistance. Where you switched resistors, be sure to change the divisor.
Á
Construct a graph of Current (vertical axis) vs the Voltage across the diode, with the graph
extending into the 2nd quadrant to encompass the negative voltages on the diode.
C
W
–
+
–
+
Battery
Battery
Figure 9.1a
Figure 9.1b
A
B
C
1N4007
R
Res
Diode
A
B
C
Switch