Wire Wrap

I would like to wire wrap some small hobby circuits. I figure 30AWG is correct for me. I see Digikey

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has regular wrap and modified wrap. Which one is best to use?

Also I saw a post that suggested wire wrap is obsolete. I can not imagine how that could be because it seems perfect for small prototype and hobby -- do others out here wire wrap? Is there a better way to do small hobby stuff (I do like breadboad but some stuff I'd like to keep for a while and so wirewrap seems better).

Thanks for any advice.

Reply to
GT
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Wire wrap is fairly easy, but has a bit of a learning curve, and is difficult to do well.

As another post mentioned, the process involves twisting wire (usually

30AWG) around a square wire wrap post with a wire wrap tool. If the job is done right, the edge of the wire wrap post will bite into the surface of the wire, galling it and creating a cold weld. (You can feel whether a wire wrap is good by unwinding it. If you've done it right, the wire will pull as you unstick the gall for each quarter wind.) If the job is done right, the cold weld joint is sturdy and should take the same abuse as a solder joint while maintaining a good gas-tight electrical connection. You require special wire wrap sockets for everything you're wire wrapping, or you can solder connections to discrete components and just use the special sockets for ICs. If you do get those, make sure you buy the sockets that have 3-deep posts. Otherwise, you'll run out of room unless you really think out each daisy chain first. Obviously wire wrap IC sockets are quite a bit more expensive than plain IC sockets.

The problem is doing it right. Most hobbyists working with a small hand tool end up with intermittent electrical connections and a lot of frustration in trying to debug, not to mention nicked and easily broken wire ends where the insulation strip was a little aggressive. As an extra added bonus, a poor wire wrap frequently results in unwinding a lot of stuff in very cramped quarters, with the possibility of disturbing adjacent wire wrap joints. (This is covered in the link shown in another post.)

You can see where this is headed. I feel a hobbyist should stick with soldered connections. A good place to start for newbies is a perfboard with a layout similar to the protoboard you're probably already using to check circuits out. Radio Shack sells a perfboard with 4-pad 0.1" spacing, just like your protoboard. It's the same size as their small protoboard, and you can transfer your circuits right over from one to the other. If you've got a small soldering iron, some solder, and some

24- or 26-gauge solid wire, you can do this easily. It will also give you some additional practice in soldering.

Good luck with your projects. Chris

Reply to
Chris

Good advice above.

There are other methods which can be combined in any way you like. The goal is to connect two or more points (nodes) with another electrically. Exactly how it is done is less important.

I often take a piece of copper laminate (pcb material) and clean it with a kitchen sponge, the abrasive type. Then I use a sharp tool, like the end of a file, and make grooves in the copper surface, dividing it into small squares.

I make more squares than I expect I will need. When you experiment you need space, so try not to cram things together too much.

Then I can solder components between these copper "islands". Modern surface mount components can be used, and older components too, by cutting and bending the wires and soldering them to copper islands.

By avoiding holes we save ourselves a lot of extra work and machinery for drilling. Or expensive prototype boards with pads and holes. (but this type of board is also a good alternative, it is just a little more expensive than buying pcb material in some surplus shop)

In this way I can experiment, move and change components, and the circuit will be in a usable state afterwards.

I bought a solderless protoboard once, but I never use it, because I hate having to take circuits apart and rebuilding them a second time. By experimenting by soldering you get a result which is directly usable, or if you want to save your experiments. The same circuit can come in handy later, so I save all experiments. I might also need a special component which I can take off an earlier experiment.

Circuits which are to be used are placed in a box, so it doesn't matter much what the circuit board looks like, it is the function which is important. Forget about wire-wrapping. It is a very complicated way to connect two points electrically, it is expensive, needs special sockets, wire and tools, and is simply antiquated. You cannot use modern smd components with wire wrapping. We as hobbyists or experimenters will need to use both smd and old components for a few decades, until there are no more wire components in the surplus shops and in our shelfs.

So use a method which can use both types of components.

Later you will need to learn about etching and making custom made pcb's for yourself, but that is for circuits you need to produce more than one of, or if you need to miniturize a circuit. Etched pcb's are not suitable for experimenting so you still need the methods above for experimenting.

Some people skip the experiments with real components and use a SPICE simulator in the computer to experiment, test a circuit, then design a circuit board, print out, etch it into copper laminate, build the circuit.

Others think it is more fun to sit at the workbench with a soldering iron in hand, building as you like for the moment, see what happens :-)

--
 Roger J.
Reply to
Roger Johansson

BUt you might start by saying why you think it would be good for the hobbyist.

Real wire wrap is multiple turns of wire around leads intended for wire wrap, and it counts on the wire biting into the leads for good contact. You need IC sockets that are long enough, and if I recall properly, the leads of those sockets should be square. Done badly, it can add to problems, and note that while wire wrap was once common, it's not happening much anymore. I don't think anyone felt it was particularly good for analog, and one does not see real wire wrap done on resistor or capacitor leads, one sees those soldered or plugged into pins that can be properly wire wrapped.

I would guess you think it's good for the hobbyist because the wires can be unwound if you want to change things, or reuse the parts.

But soldering is not a problem, once you get used to it. And when components aren't big and heavy, there's little need for a mechanical joint before the solder, so you can just tack solder the leads together. Then they are very easy to take apart when needed.

One of the best routes for the beginner (and oldtimer) is to take a piece of copper circuit board, and use that as the "chassis". Every ground connection is soldered to the board, and then the parts reside above that copper ground surface. Usually, there are enough leads to ground to support the other components. It's really easy to change things, and there is ample lead length on the components for making most of the connections. Some scrap wire does the rest. YOu get a very good ground surface this way, and unlike something like perfboard, you don't require much effort to change things.

Of course, you may not be asking about real wire wrap. There were things referred to as "wire wrap" where one twirls the wire around a component lead, but then you do solder the joint. But it actually ends up being quite cumbersome to remove components.

Michael

Reply to
Michael Black

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Have a look at http://homepage.ntlworld.com/g.knott/elect97.htm


My most uptodate website is
http://homepage.ntlworld.com/g.knott/index.htm
Reply to
Graham Knott

I don't want to get into the argument about a hobbyisy doing or not doing wire wrap. I have used ww for about 30 years and still use it ocassionally.

A "regular" wire wrap wraps just the wire around the post. This provides sufficient strength for 26 ga. BUT for 30 ga you would want to use the modified wrap. The "modified" wrap is setup to wrap about 1 1/2 to 2 turns of the kynar insulation around the base of the wrap to provide support (strength) for the wrap. After the insulation wrap comes the wire wrapping.

The downside of the modified wrap id that it gives you a very small inductor at each termination, so this may not be very goot for ultra high frequency circuits and you may need some extra termination (r/c) on some lines to prevent ringing (not that likely, but I have seen it happen).

Tom Woodrow

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GT wrote:

Reply to
Tom Woodrow

Modified wrap. However I wouldn't buy anything from off that Digikey page. Wow that's expensive!

I still wrap boards with the handy dandy manual tool from Radio Shack.

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Not fancy but gets the job done.

As for wire, the RatShack carries red, white, and blue. I get other colors locally here in Atlanta. However if you need mail order then Jameco has a good deal. Here is their catalog page:

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Wire wrap sockets are on page 111.

Yes. Like everything else it has its advantages and disadvantages. When properly done wire wrap is stable. I have WW boards in use that are approaching 10 years old. Also WW is usually easy to fix as wires can be unwrapped just as easily as they are wrapped.

On the down side sockets are expensive. 3 level wrap will triple the depth of your board. Managing individual components can be problematic. Header plugs such as the one listed on page 112 of the Jameco catalog are helpful in this regard.

But it certainly works. You can see a sample of my handywork on my PIC Designer:

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Again it's debatable. I find that I get to frustrated with soldering screwups to do it consistently. That's why I've never moved permanently from wire wrap.

I would advise you to get into wire wrap cheap (leave DigiKey alone!) and give it a whirl.

BAJ

Reply to
Byron A Jeff

One other method for prototyping, which is probably the cheapest imaginable is this: One piece of softwood and a box of coppered nails (sometimes called hardboard pins). Draw the circuit on the timber, and drive a pin into the wood at connection points. The pins can be linked together by wire, soldered at each pin. Components are connected by the same method. It's cheap, and relatively robust (better than building a 'christmas tree' in mid-air). It's a method I always use for initial circuit ideas.

- Martin T.

Reply to
telemech1950

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