Experiment 19: Learning Logic
182 Chapter 4
10K10K1K74HC00
NAND
gateLM78050.33uF0.1uF9v DCFigure 4-46. By observing the LED when you press either, both, or neither of the buttons,
you can easily figure out the logical function of the NAND gate.When you connect power, the LED should light up. Press one of the tactile
switches, and the LED remains illuminated. Press the other tactile switch, and
again the LED stays on. Now press both switches, and the light should go out.
Pins 1 and 2 are logic inputs for the 74HC00 chip. Initially they were held at
negative voltage, being connected to the negative side of the power supply
through 10K resistors. But each pushbutton overrides its pull-down resistor
and forces the input pin to go positive.
The logic output from the chip, as you saw, is normally positive—but not if
the first input and the second input are positive. Because the chip does a “Not
AND” operation, it’s known as a NAND logic gate. You can see the breadboard
layout in Figure 4-47. Figure 4-48 is a simplified version of the circuit. The U-
shaped thing with a circle at the bottom is the logic symbol for a NAND gate.
No power supply is shown for it, but in fact all logic chips require a power sup-
ply, which enables them to put out more current than they take in. Anytime
you see a symbol for a logic chip, try to remember that it has to have power
to function.FundAmentAls
Voltage regulators
The simplest versions of these
little semiconductors accept a
higher DC voltage on one pin
and deliver a lower DC voltage
on another pin, with a third pin
(usually in the middle) serving as
a common negative, or ground.
You should also attach a couple of
capacitors to smooth the current,
as shown in Figure 4-46.
Typically you can put a 7.5-volt or
9-volt supply on the “input” side of
a 5-volt regular, and draw a precise
5 volts from the “output” side. If
you’re wondering where the extra
voltage goes, the answer is, the
regulator turns the electricity into
heat. For this reason, small regula-
tors (such as the one in Figure 4-8)
often have a metal back with a
hole in the top. Its purpose is to
radiate heat, which it will do more
effectively if you bolt it to a piece
of aluminum, since aluminum
conducts heat very effectively. The
aluminum is known as a heat sink,
and you can buy fancy ones that
have multiple cooling fins.
For our purposes, we won’t be
drawing enough current to require
a heat sink.Figure 4-47. This breadboard layout is
exactly equivalent to the schematic in
Figure 4-46.