Experiment 9: Time and Capacitors
68 Chapter 2
Experiment 9: Time and Capacitors
You will need:- AC adapter, breadboard, wire, wire cutters, and strippers.
- Multimeter.
- Pushbutton, SPST. Quantity: 1.
- Resistors and electrolytic capacitors, assorted.
In Experiment 8, when you put a capacitor in parallel with the coil of the relay,
the capacitor charged almost instantly before discharging itself through the
relay coil. If you add a resistor in series with a capacitor, the capacitor will take
longer to charge. By making a capacitor take longer to charge, you can mea-
sure time, which is a very important concept.
Clean the components off your breadboard and use it to set up the very simple
circuit shown in Figure 2-78, where C1 is a 1,000 μF capacitor, R1 is a 100K resis-
tor, R2 is a 100Ω resistor, and S1 is the pushbutton that you used previously.
Set your meter to measure volts DC, place the probes around the capacitor,
and hold down the pushbutton. You should see the meter counting upward
as the voltage accumulates on the capacitor. (This is easier with a meter that
doesn’t have autoranging, because you won’t have to wait while the meter
figures out which range to apply.) Resistor R1 slows the charging time for the
capacitor.
Figure 2-78. Watch the voltage building up
on the capacitor while you hold down the
pushbutton. Substitute other values for
R1, discharge the capacitor by touching R2
across it, and then repeat your measure-
ment process.S1: Momentary pushbutton, OFF (ON)
R1: 100K initially
R2: 100Ω
C1: 1,000 μF61R1&1RVolts
12v
DC