Right, much less mess? I've got enough info in each these diagrams to know precisely what this circuit will do and also where to look for issues. Hope this helps. ( Note: don't confuse lecture or circuit diagrams with wiring diagrams; wiring diagrams will usually demonstrate pictures of elements such as the pictorial, and also how the entire or part of a circuit has been wired. The difference is that wiring diagrams typically place an emphasis on actual physical location of necessary elements relative to each other that essentially tell a layman exactly what to do about the wiring. )
Here is another schematic diagram demonstrating precisely the identical circuit, connections and components and it looks different but they fall into precisely the exact identical category.
Pictorial schematic diagrams, or graphic circuit diagrams are essentially the identical thing with the same purpose, but they use pictures of components inside the circuit instead of symbols. Again, here's the identical specific circuit (virtually except a control transformer was included and they are using conductors L1 and L3 instead of L1 and L2.
Think of it in this way; a circuit structure is any type of diagram which demonstrates the way the circuit operates where the principal objective is that the appropriate wiring of elements and their relationship to each other rather than physical place relative to each other or intending prototypes. Nevertheless, in some uses Assessing diagrams can be hard so choose this as general advice. I have found this is particularly true when working with more complicated circuits and electronic equipment. I'm going to work with a simpler but average industrial circuit because these circuit set ups are the exact same, but yet where you're able to see how each sort of diagram indicates the purpose of the circuit in their own manners.
Here's a variant of a design diagram. The most important intent of this diagram will be to show the logic (speaking to electrical control) of a circuit board. This really is the one that I mostly encounter in my line of work, and it's extremely successful for troubleshooting issues or learning the way the circuit works. Some frequencies are so huge that many types of schematic diagrams need to be read in increments in book form (typically with coded numbers so that info can be simpler located ). Again, here's the same precise circuit as the first two, however looking at it in ladder type.
A schematic diagram refers to a particular kind of circuit structure that uses standard electrical/electronic symbols rather than images to demonstrate the way the circuit (or portion of it) works. Below is a standard 3-wire motor control circuit employing a normal short stop halt - start pushbutton channel employing a schematic diagram. (Momentary this means that the button/switch you trigger will return to its default location once you let go of this, typically by a spring that forces the button/switch to do this.)