TAG | wiring
I was recently in the market for some laser-printable wire labels and I stumbled across RAB Telecom Canada. The price was right for the smaller quantity I was after, so I decided to give them a shot. I was a bit confused by some of the wording on the website, so I contacted them.
The next day I had not only an email answering my question, but a personal phone call from the president, Richard, apologizing for the confusion, promising to have the site updated promptly, and he personally had the shipment in hand and ready to go. He added, “I will pay the shipping handling and for the labels in question. Mr. Whitlock I do this because I value your possible future business.”
As promised, I recently received the labels in great condition. It’s honestly some of the best customer service I’ve ever received from any vendor. It was so out-of-the-ordinary and unexpected that it shocked me. If you happen to be reading this because you typed RAB Telecom Canada into Google and arrived here, then let me assure you they exceeded my expectations.
I write a lot about the PLC side of industrial automation, but it’s also fundamental to have a good foundation in the electrical side of things.
First of all, most modern (North American) industrial control system wiring diagrams have a relatively common numbering scheme, and once you understand the scheme, it makes it fairly easy to navigate the wiring diagram (commonly called a “print set”).
Let’s start with the page and line numbering. Most multi-page wiring diagrams use a two digit page number (page 1 is “01”). In the rare, but possible, event that you end up with over 99 pages, some diagrams will just add 3 digit page numbers (starting at “100”), but if there was any forethought, many designers will divide their wiring diagrams into sections, giving each section a letter (let’s say “A” for the header material, “B” for power distribution, “C” for safety circuits, etc.). Within each section, you can re-start the page numbering at “01”. This has the added bonus of letting you insert more pages into one section without messing up the page numbering.
Within a page, you’ll typically see line numbers down the left side (and frequently continuing down the middle if you don’t need the whole width of the page for your circuits). These numbers will start with the two digit page number, followed by a two digit line number. Typically these start at zero, and increment by twos:
- … and so on
Now, devices (like pushbuttons, power supplies, etc.) usually have a device ID based on the four digit line number where they are shown in the wiring diagram, possibly with a prefix or suffix noting the device type. So, if you have a pushbutton on line 2040, the device ID might be PB2040 or 2040PB. The device ID should also be attached to the device itself, normally with an indelible etched label (lamacoid). Therefore, if you find a device in the field, you should be able to find its location in the wiring diagram. (Finding the wiring diagram, of course, is often the more difficult task.)
Wires are numbered similarly. The wire number is typically based on the four digit line number where the wire starts, plus one extra digit or letter in case you have more than one wire number starting on the same line. So, the wire numbers for 2 wires starting on line 1004 might be 10041 and 10042.
It’s typical for wires to connect to devices that are on other pages (it’s extremely common, in fact). In that case, you’ll see off-page connectors. The shape of these vary based on whose standard was used for the wiring diagram, but they’re typically rectangles or hexagons. In either case, inside the shape will be the four digit line reference number where the wire continues. The other end of the off-page connector (on the other page) also has an off-page connector in the opposite direction. Note that you frequently see connectors from one place on a page to another place on the same page, if it happens to improve readability.
That’s all you really need to know to find devices and follow wires in a wiring diagram. Now, to understand the components in an industrial control system, that’s going to take longer than a blog post. For a great introduction, I recommend the book Industrial Motor Control by Stephen Herman. Google books has a great preview if you want to check it out.