Yearly Archives: 2015

Sportair Electrical Systems & Avionics

This entry was posted in Electrical General Electrical on by

I signed up for the Sportair Electrical Systems & Avionics course awhile ago, but gave serious consideration to canceling. I have a degree in electrical engineering, and I worked as an electronics technician for Honeywell Aerospace in college, where I assembled and soldered some seriously complicated and large cables for the systems of an amphibious naval ship known as an LPD. Some of these cables had close to 100 uniquely plotted pins with multiple daisy chains and unique features. Maybe a Sportair course on this topic would be a waste of time.

Well, it wasn’t. While I was clearly more experienced than the the other students in the class, I still learned a few things. And while there were a few techniques that I disagreed with (I’ll detail those below), the instructors were extremely knowledgable, well prepared, and helpful. So what did I learn during this course?

To start with we reviewed the systems and requirements of an aircraft. We looked at the basic circuits, tools, switches, and requirements of an aircraft aviation system. I’m not going to rehash the entire course, but I will attempt to share a few of the things that I learned that I didn’t previously know.

First off, when I was building cables for the LPD, we didn’t crimp pins. Period. Every pin we installed was soldered to MILSPEC. But crimping is easy. What I had never touched were some of these tools. It was good to get my hand on each of the tools below. A is a molex crimping tool. B is a proper stripping tool. I’ve used one like this before at Honeywell, but I don’t own one. I highly recommend buying a decent stripper such as this. C is a crimping tool that has multiple heads you can change out. Installed on this head is the standard terminal crimping tool of three sizes. Red (18 – 22 gage) Blue (14 – 16 gage) and Yellow (10 – 12 gage) dots mark the appropriate wire gage size, and the side in which you insert the wire. The wire goes to the dot! Expensive crimpers are available from Aircraft Spruce, but I’d recommend the E-300 series with multiple heads available for $35 at www.aircraft-tool.com. And finally, tool D is simply a set of side-cutters. A good sharp and precise set like this is a must have. Finally in the picture below you can see our first, super basic project which is simply crimping three different types of connectors to two different wire gages.

I’d never crimped a molex pin before, but its super basic. Our second project was to assemble an intercom wiring harness. This consisted of a headphone and a microphone jack to a 25 pin connector. Pretty cut and dry. Here is where I took two minor faults with the instructions. First, soldering technique. The technique involved too much solder. If you have any excess solder in terms of a mound, spike or raised surface, you’ve over soldered the part. Regardless, generally speaking their techniques are sound. Tin, use the proper heat, and remember two rules: heat travels up, and solder will wick towards the heat source. Use these two rules for good solid soldering. Now the technique that I really took issues with, was how they connected the shielding to the ground pin. The technique, shown in this photo below (I’ll add it later), involved pulling the shield to one side and twisting it. You then remove a small portion of insulation on the the ground wire, and wrap the shield around it. Then you solder the two together. Here are the problems. First off, the strength of this technique is essentially the solder, and because its just a messy twist, you use a lot of brittle solder. Furthermore, by removing just a portion of the insulation, there is a substantial likelihood that you will score the wire and create a location for stress to do its magic. A better technique would be to use a separate wire that is twisted to the pigtail. This removes the chance of nicking the wire itself, but still results in a lopsided and un-supported soldering connection.

The proper technique is to use a solder sleeve. First you trim, and then equally unweave the shield back. About 1/4 inch. Carefully, and equally fold this back around over the insulation. This creates a shield collar shown here.

Finally, place the solder sleeve (one with a wire already inserted) with the solder directly over the shield. Use a heat gun to shrink the solder sleeve and melt the solder. The result is a sealed connection that will last a lifetime. This makes for a solid, sealed, and continuous connection that will not break from vibration. This is how I was taught to make these connections when working for Honeywell assembling cables for a naval LPD. Am I splitting hairs? Possibly. Using a solder sleeve is faster, easier, and creates a stronger longer lasting connection. Where is the downside?

Here’s a tidbit I had never heard of. Uniwrap silicon tape. The stuff is seriously cool. It can be used to tape, buffer, and protect many things in the aircraft. Its virtually indestructible and impervious to many of the corrosive liquids we use. Its available from Aircraft Spurce here:

Another tidbit. I had not previously seen the circle on a schematic that referred to the shielding. Maybe I saw this when I worked at Honeywell, but if I did, it has completely left my brain.

A lot of useful tricks for the starter, alternator, and relays were discussed. I’m really glad they covered this section, as I’m sure I will avoid a few common mistakes now.

All in all, much of the course was review, but its still nice to have a refresher. Add it a couple of learning points, and it was worthwhile. Whether it was worth the money… well that’s another question.

Finishing Kit

This entry was posted in Finishing on by

I received notice that my finishing kit has shipped and should arrive this Friday, September 11th. This is my final “kit” purchase from Van’s although there are many more purchases remaining.

In other news, I’ve completely wasted this long weekend in terms of working on the plane due to a really nasty flu / respiratory infection. I can’t remember the last time I was this sick. Today is the first day I’m starting to feel just a touch better. Nothing is worse than being sick… I hate it! I’m hoping I can make it to the hangar tomorrow but we’ll see.

Fastback 10 (5.0 hrs)

This entry was posted in Fuselage Showplanes Fastback on by

Lots of miscellaneous tasks in this post. First, I had been unsure how to position the nut plates shown in the first photo here. The instructions from Show Planes tell you to use a single leg nut plate at an angle so that the #6 screw will be 1/4 inch from the longeron edge. Well, this is actually in violation of the appropriate edge distance, so I wanted to do a little homework to see if this could be moved further in. In the process, I emailed Bryan with Showplanes. While the instructions tell you to use the existing hole for the center rivet of the nut plate, Bryan said the location of the bulkhead may force one to use the last rivet hole on the single leg nut plate. This is the case in my installation. These nut plates will be used to hold the two pieces of fiberglass shown in the photo below. These will eventually be mated to the instrument panel cover to create a sealed and smooth transition and a proper seal with the canopy. After placing the part, I’m confident there is a fair amount of wiggle room regarding the exact location of this nut plate, so I measured the appropriate edge distance for a #6 screw.
Next I discovered that I had improperly installed and drilled the new cockpit rails. The original Van’s Rails slope forward and down following the longeron, and this is what I did with the new rails. A later picture in the instructions, clued me in that the new rails stay flat and run even with the new cut to the forward fuselage skin. You can see the direction the rail must move in the first picture. Here is the first photo after the correction. You can see the original “mistake” holes here. I’m not worried about this extra set of holes. as this part is hardly structural and will still have plenty of strength for its intended purpose.
Here is a good diagram showing exactly how the installation is supposed to be positioned. Next it was time to start playing with the instrument panel. So exciting! I’ve put a lot of thought into the panel, and while I’m still quite a ways from putting the avionics together, its exciting to be reaching this part of the build.

The first project here is to trim the F-803B-L & R to accommodate the new canopy. This requires a new curve beginning with the 6th rivet. To accomplish this, I clecoed the F-803C in place at the 6th rivet and then curved the remaining portion to the cutout where the new cut would end. This made perfect line to guide my cut.
Here is the result after the cut. Next I installed the instrument sub-panels and began working with the rail to panel attachment points. The lower corner needs to be pulled out to be even with the bottom of the instrument panel. I began by drilling the rail and clecoing and then I simply marked the drill locations for the instrument panel attachment. This will be getting pop rivets anyways, and even with a 90 degree offset drill its almost impossible to get a good angle.
  My las project for the day was to start playing with some ideas for new side consoles. I’m undecided as to where or not I will do this. It LOOKS really good, but I want to be sure the cockpit ergonomics are just as good. My finishing kit is shipping this week, and I included the seat foam in the order. One of the first things I intend to do is get the seats upholstered. The reason is simple, I want to be able to sit in the cockpit, exactly as I eventually will, so that I can accurately fine tune the ergonomics. From what I gather online, the new side consoles with the sloping panels for switches usually move the throttle quadrant in and aft. This seems to be a deterrant for larger and taller individuals but preferred by shorter pilots. As I’m only 5’6″ & 140 lbs, I’m guess that I will prefer the ergonomics of the new consoles. Regardless, I’m not making this customization until I’m positive. While looks are important, ergonomics are more important!