What Next? 287
Experiment 33: Moving in Steps
I’ve used a 10K resistor to pull up the input to each 555, so that the timers are
naturally in their quiescent state. A 0.01 μF capacitor links the output from one
timer to the input of the next so that they are electrically isolated from each
other, and the capacitor just conveys a “spike” of voltage when one timer fin-
ishes its “on” cycle, and its output goes low, which triggers the next.
On the righthand side, I’ve used 10K resistors and 22 μF capacitors to generate
a cycle of about a quarter of a second—except that the topmost timer has a
8K2 timing resistor. The reason for this is that when power is first applied, the
timers will all be waiting for each other to begin, and timers 2 and 4 or 1 and
3 may fire together. By giving one timer a shorter cycle than the others, I mini-
mize this problem.
The LEDs are included just to give you some visual verification of what’s hap-
pening. Without them, if you make a wiring error, the motor may turn to and
fro erratically, and you won’t know why. Initially you can run your circuit with
only the LEDs connected, just to make sure it works. Figure 5-109 shows the
breadboarded circuit before the motor is plugged in. Then add the motor by
plugging its wires into the breadboard, where you’ll make connection with the
outputs (pins 3) of the timers. See Figure 5-110.
Apply power, and you should see the motor turning in steps, in sequence with
the LEDs. If the LED sequence isn’t stable:
- Connect a wire directly from the input (pin 2) of the topmost timer to the
positive side of the voltage supply, and wait for the timers to calm down. - Restart the sequence by disconnecting the free end of this wire, or (if nec-
essary) touch the free end of it briefly to the negative side of the supply,
to trigger the first timer.
One thing you may have noticed, if you’re paying very close attention: the
common terminal of the motor is connected to positive. Therefore, when each
timer flashes positive, that positive signal isn’t actually powering the motor.
The low outputs from the three timers that are not firing at any given moment
are sinking current from the motor. It seems quite happy with this arrange-
ment. You’ll need some theory to understand why.
Figure 5-109. To test the control circuit for
errors, four LEDs show the outputs from
the four 555 timers. The loose yellow wire
at the righthand side connects to pin 2
of the first timer. Touch the free end of
this wire to the positive side of the power
supply to reset the timers, and then, if nec-
essary, make a brief negative connection
with the free end of the wire to restart their
sequence.
Figure 5-110. After the circuit has been
tested, the motor can be added by hook-
ing its control wires to the outputs of the
four 555 timers.