Скачать книгу

a dot to indicate a junction and a hop to indicate a nonjunction. You’ll never see lines simply cross without a hop or a dot.

Symbol Description
image Battery
image Capacitor
image Diode
image Ground
image Inductor (coil)
image Lamp
image Light-emitting diode
image Resistor
image Source voltage connection
image Speaker
image Switch
image Transformer
image Transistor (NPN)
image Transistor (PNP)
image Variable resistor (potentiometer)

       6 V battery

       NPN transistor

       Resistor

       Capacitor

       PNP transistor (at the top right)

       Light-emitting diode (at the bottom right)

image

      FIGURE 5-3: A typical schematic diagram.

      Throughout the course of this book, I use these and other symbols in the schematic diagrams that describe the circuits. Whenever I use a symbol for the first time, I explain what it is and how it works.

      In many electronic circuits, the distribution of voltage connections is one of the most complicated aspects of the circuit. For example, about half of the connections in the schematic diagram shown in Figure 5-3 are used to connect the resistor, transistors, and the LED to either the positive or negative terminal of the battery.

      In a more complicated circuit, there can be dozens or even hundreds of power connections. If all the lines representing those connections had to be drawn to the positive or negative side of the battery symbol, schematic diagrams would quickly be overwhelmed by the power connections.

      Most circuits have a common path by which current returns to its source. In the case of Figure 5-3, it’s the conductor at the very bottom of the diagram that collects current from the LED and the resistor and returns it to the battery. This conductor is necessary to complete the circuit so that current can flow in a complete loop from the battery through the various components and then back to the battery.

image

      FIGURE 5-4: A schematic diagram that uses a common ground to complete the circuit.

      The symbol for a voltage source is either an open circle or an arrow. The quantity of voltage is always indicated next to the circle or arrow. When a voltage source symbol is used in a schematic diagram, the symbol for the battery (or other power source if the circuit isn’t powered by a battery) is omitted. Instead, the presence of voltage source symbols implies that

Скачать книгу