16.311 Lab. I Experim t Diode Characteristics - UMass...
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16.311 Electronics Lab. I Experim ent t Junction - Diode Characteristics Objective: L Become familiar with the basic properties ofjunction diodes. 2. Measure and plot the forward and reverse-biases LV. characteristics of a diode 3. Measure the ac resistance of a diode. Materials Needed: l. One Signal Diode lN9l4 2. One Rectifier Diode 1N4002 3. One Zenner Diode lN75l (5.lvolts) 4. Resistors, 100 ohm,330 ohm, lk ohms, I meg. Ohm Procedure: L Diode measurement with an ohmmeter,1N914 (signal diode) a. Initially your DMM should be set to it,s highest range. b. Measure it's forward resistance Rias shown in fig. 1a c. Measure the reverse resistance fu as shown in fig. 1b d. Place the DMM on the Diode range, repeat steps b & c e. Record the data in your notebook. 2. Diode measurement with an ohmmeter,lN4002 (rectifier diode) a. trnitially your DMM should be set to it's highest range. b. Measure it's forward resistance Rras shown in fig. la '' c. Measure the reverse resistance Rr as shown in fig. lb d. Place the DMM on the Diode range, repeat steps b & c e. Record.the data in your notebook. 3. . Diode measurement with an ohmmeter,lNTSl (zemer diode) a. Initially your DMM should be set to it's highest range- b. Measure it's forward resistance Rr as shown in fig. I a c. Measure the reverse resistance Rr as shown in fig. 1b d. Place the DMM on the Diode range, repeat steps b & c e. Record the data in your notebook. J- H-- Line indicates cathode side DMM DMM Figure I
Transcript of 16.311 Lab. I Experim t Diode Characteristics - UMass...
16.311 Electronics Lab. IExperim ent t
Junction - Diode CharacteristicsObjective:
L Become familiar with the basic properties ofjunction diodes.2. Measure and plot the forward and reverse-biases LV. characteristics of a diode3. Measure the ac resistance of a diode.
Materials Needed:l. One Signal Diode lN9l42. One Rectifier Diode 1N40023. One Zenner Diode lN75l (5.lvolts)4. Resistors, 100 ohm,330 ohm, lk ohms, I meg. Ohm
Procedure:L Diode measurement with an ohmmeter,1N914 (signal diode)
a. Initially your DMM should be set to it,s highest range.b. Measure it's forward resistance Rias shown in fig. 1ac. Measure the reverse resistance fu as shown in fig. 1bd. Place the DMM on the Diode range, repeat steps b & ce. Record the data in your notebook.
2. Diode measurement with an ohmmeter,lN4002 (rectifier diode)a. trnitially your DMM should be set to it's highest range.b. Measure it's forward resistance Rras shown in fig. la'' c. Measure the reverse resistance Rr as shown in fig. lbd. Place the DMM on the Diode range, repeat steps b & ce. Record.the data in your notebook.
3. . Diode measurement with an ohmmeter,lNTSl (zemer diode)a. Initially your DMM should be set to it's highest range-b. Measure it's forward resistance Rr as shown in fig. I ac. Measure the reverse resistance Rr as shown in fig. 1bd. Place the DMM on the Diode range, repeat steps b & ce. Record the data in your notebook.
J-
H-- Line indicatescathode side
DMMDMM
Figure I
4. Diode Conduction - The Forward Drop, 1N914
a.. Construct the forward-bias circuit shown in fig. 2, set P.S. to zero volts
b. Monitor the forward voltage drop Vr across the diode, slowly increase
Vs ( P S.) to establish 0.45 Volts across the diode.
c. Measure the voltage across the resistor Rl and record it in data table
d. The diode forward current Ir can be found by applying Ohm's Law
Compute and enter in the table.
e. Repeat steps c and d for each voltage listed in table.
Anode side
Figure 2
5. Diode Conduction - The Forward Drop, 1N4002
a. Construct the forward-bias circuit shown in fig- 2, set P'S- to zero volts
b. Monitor the forward voltage drop Vr across the diode, slowly increase
Vs ( P.s ) to establish 0.45 Volts across the diode'
c. Measure the voltage across the resistor Rl and record it in data table
d. The diode forward current Ir can be found by applying ohm's Law
Compute and enter in the table.
e. Repeat steps c and d for each voltage listed in table'
6. Diode Conduction - The Forward Drop, 1N751
a.. Construct the forward-bias circuit shown in fig. 2, set P.S. to zero volts
b. Monitor the forward voltage drop Vr across the diode, slowly increase
Vs ( P S ) to establish 0.45 Volts across the diode'
c. Measure the voltage across the resistor Rl and record it in data table
d. The diode forward current ir can be found by applying Ohm's Law
Compute and enter in the table.
e. Repeat steps c and d for each voltage listed in table'
Data Table
330 f)Dl
Cathode side
vF(measured)
v*,(measured)
IF(computed)
0.45 V
0.50 v
0.55 V
0.60 v
0.65 V
0.70 v
0.75 V
7 . AC Resistance of a Diodc. 1N914 ( f". )a. Compute the diodes forward resistance on the forward-bias data table.
b. By dividing a small change in voltage by a small change in current as illustratedbelow , the result is called the ac resistance of the diode.
c. Find the ac resistance for .6 & .7 volts.
To find the ac resistance:
0.4 0.5L----Y-J
LV :0.1 VLV
r:'ac LI
ro. (0.6 v) :
ru. (0.7 v) :
$everse-Bias Current and Break-down Voltagea. Connect a reverse-bias circuit as shown belowb. Set the power supply to voltages as in the table below.c. Measure and record the voltage across R: , compute the reverse currentd. Note'that the Fluke meter has input resistance of l0 meg. Ohms
( adjust your calculations to allow for meter loading )e. Repeat for each diode and record the results.
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