In the spring of 1999, mechanical engineering student Chris Germann asked me if he could receive special problem credit for the design and construction of a loudspeaker system. I approved his project and agreed to be his advisor. The system that Chris designed is described on this page. It is a three way system with a dual voice coil woofer in a center channel enclosure and two satellite speakers.

You can see a picture of Chris's system here.

The woofer that we chose is the MCM 55-1465 12-inch dual voice coil woofer. It is available from MCM Electronics. This is a very high quality driver for the price. With the two voice coils connected in parallel, the small-signal parameters that we measured are as follows:

The boxes were made by Fred at Wood Wnders, 1200 Foster St., NW, Atlanta (404 355 4778). I do not know if Wood Wonders is still in business, but I have had some boxes made by them and they were of very high quality.

• Voice Coil Resistance R_E = 6.47 ohms per coil
• Resonance Frequency f_S = 28.1 Hz
• Total Quality Factor Q_TS = 0.326
• Electrical Quality Factor Q_ES = 0.374
• Mechanical Quality Factor Q_MS = 2.52
• Volume Compliance V_AS = 4.80 cubic feet

We decided to use a vented-box enclosure for the woofer. For its design, we assumed the box quality factor Q_L = 7. From the Q_L = 7 design chart, the vented-box design data for Q_TS = 0.326 is as follows:

• Helmholtz Tuning Ratio h = 1.21
• Compliance Ratio alpha = 2.24
• Cutoff Frequency Ratio q = 1.41

With the above data, the woofer enclosure parameters can be calculated as follows:

• Enclosure Volume V_B = V_AS/alpha = 2.14 cubic feet
• -3 dB Cutoff Frequency f₃ = q * f_S = 39.6 Hz
• Helmholtz Frequency f_B = h * f_S = 34 Hz

In the calculations, we neglected the effect of the resistance of the inductors in the crossover network on the woofer parameters. This resistance has the effect of increasing the effective quality factor of the woofer, which would require a bigger box. One of the criteria that we decided on at the start was a woofer box volume not greater than about 2 cubic feet. A higher quality factor would result in a bigger box, which we did not want. With the box design described here, the effect of the crossover network resistance is to cause a slight peak lift in the lowest bass frequencies, an effect that we considered desirable.

For the vent, we chose a tube with a 3-inch internal diameter. For a Helmholtz frequency of 34 Hz, the vent length calculates to be 5-1/2 inches long.

The drivers that we chose for the midrange and the tweeter are as follows:

• 5-Inch Midrange - Vifa P13WH-00-08
• 1-Inch Dome Tweeter - Vifa D25AG-05-06

Both of these are very high quality drivers. The midrange is one of the best that I have tested, especially when it is put into a closed box enclosure that is large enough to obtain a low resonance frequency. Two each of these drivers are required for the system.

The box designs assume a wall thickness of 3/4". The woofer enclosure is braced internally with 1-1/2" by 1-1/2" bracing. Cabinet makers often will tell you that they can make boxes that are just as sturdy without the bracing, but don't believe it. The sattelite enclosures have 3/4" by 3/4" bracing around the back only. The bracing for all three boxes is recessed from the back by 3/4" + 1/16" = 13/16". The extra 1/16" is for the thickness of the foam tape around the back bracing that is used for an air-tight seal when the back panel is screwed to the bracing. The enclosures and internal bracings are described in the following figures:

• Woofer Enclosure
• Sattelite Enclosure
• Internal Bracing

To minimize splintering around the edges when the final panel cuts are made, use a utility knife and a straight edge to make the first cut into the wood. Then use the saw to make the final cut. The hole diameters labeled on the figures for the drivers and the port are from Chris's report. These should be checked to be sure they are correct before cutting the holes. In particular, check the size for the woofer opening. I was told on 02/12/03 that it should be 11 inches and not 11-3/16 inches. It may be that MCM is now selling a different woofer with the same model number. From looking at the MCM web page, it looks like it is now a very different company compared to what it used to be. In particular, it looks like they have far less merchandise than they used to have and the prices on some semiconductors have tripled.

The woofer enclosure dimensions account for the internal volume occupied by the driver, the bracing, and the vent tube. The ratios of its internal dimensions are 0.8 by 1.0 by 1.25. These are one of the two optimum ratios for a woofer enclosure. (The others are 0.6 by 1.0 by 1.6.) The enclosure should be lined with 1-inch thick fiberglass. Do not cover the back of the woofer or the port tube with fiberglass. The sattelite enclosures should be filled with fiberglass. It should not be compressed. You can purchase the fiberglass from Radio Shack. It should not take more than 2 bags for the 3 enclosures. I have been told that the Radio Shack fiberglass is now almost impossible to find.

I recommend building the enclosures with 3/4" veneered plywood. After the panels are cut, they can be nailed together on the outside with thin finishing nails. Corner clamps are useful to hold the panels together at a 90 degree angle when nailing them together. The nails should be counter sinked and the holes filled with wood filler. The internal bracing is screwed from the inside of the boxes. Holes for the screws should be drilled in the bracing first. Then apply glue to the bracing and screw it to the insides of the box with wood screws or dry-wall screws. (I prefer the latter.) C clamps should be used to hold the bracing to the box while putting the screws in. It is best not to remove the C clamps until the glue has set up. The specified length of each bracing piece has been reduced by 1/16" to make sure it will fit the box without being forced. Any gaps can be filled with caulk after the the glue has set up.

After the glue has set up, the inside joints can be sealed with glue or caulk to prevent any possible air leaks. I prefer clear silicon rubber caulk (not the paintable kind). Caulk should also be applied around the vent tube inside the box. The drivers can be screwed to the front panel with wood screws or dry-wall screws. Because dry-wall screws have a black color, I prefer them. Do not mount the drivers from the inside of the box.

You can see the circuit diagram for the crossover network for one channel here.

Note that the midrange and tweeter are both connected with reversed polarity to the crossover network. This is necessary to prevent phase cancellation between the woofer and the midrange at the crossover frequency. The resistors in the midrange and tweeter networks form L-pad attenuators to equalize the on-axis pressure sensitivities of the drivers. Without these resistors, the highs would be much too bright. I recommend using printed circuit boards for the crossover networks. Most of the suppliers of loudspeaker drivers sell these. You may not find holes on the printed circuit boards for the L-pad resistors in the midrange and tweeter networks, but they can be easily added. Do not use any pre-made crossover networks.

To provide access to the inside of the boxes, the rear panels are not glued in place. For an air tight seal, put closed-cell foam weather stripping (sometimes called camper tape) around the bracing that the rear panels are screwed to. I recommend the 3/16" thick by 1-1/4" wide self-adhesive, closed-cell vinyl foam weatherstrip tape made by Macklanburg Duncan Co., Dennis, or ACE Hardware. (The ACE part number is 85017.) When the screws for the rear panel are installed, they should be tightened just enough to compress the weather-stripping by about 1/8" so that the rear panel will fit flush.

Here are some links to suppliers of loudspeaker components:

• Parts Express, 725 Pleasant Valley Drive, Springboro, OH 45066-1158, (1-513-743-3000), sales@parts-express.com.
• MCM Electronics Inc., 650 Congress Park Dr., Centerville, OH 45459-4000 (1-513-434-0031).
• MadiSound Speaker Components
• Audio Lab of Georgia, 3611 Clearview Place, Atlanta, GA 30340 (770-455-0571)

A wood working shop that built speakers for two students in the Spring 2000 semester is Atlanta Wood Trends, 404-696-7434. The man who runs the shop is Scott LaPointe. The man who did the job is named Jim. The cost for was $125 for two satellite boxes and one woofer box made of birch veneered plywood. If you have them make boxes for you, be sure to tell the worker that you want the bracing and that you want it cut from solid wood, not plywood. Also, have a written and signed contract before you make the down payment. When the students went to pick up their boxes, there seemed to be a misunderstanding over exactly what the deliverables were. A signed contract could have prevented this.

This page is not a publication of the Georgia Institute of Technology and the Georgia Institute of Technology has not edited or examined the content. The author of this page is solely responsible for the content. Copyright 1999. All rights reserved.