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Wondering what is meant by Sealed, Ported, Bass Reflex, Acoustic Suspension? These are all types of speaker enclosures or boxes, and all of these enclosure types are "direct radiator" enclosures. They are called this because the sound is produced directly from the "radiator" (the driver or speaker) without the assistance of a contrivance such as a horn. Other types such as, Bandpass, and Coupled Cavity enclosures are similar, but more complex.

Cardinal Rules for Enclosure Building

1. Build only for the internal volume size recommended by the woofer manufacturer.

2. Make the construction (sealed or ported) air-tight.

3. It is invariably more advantageous to buy, rather than build, both economically and to assure quality of construction. If you are an experienced cabinet maker with the proper tools, it will make a good project, otherwise....

Note that enclosures exist solely for the purpose of accommodating the woofer. Tweeters and midranges do not have to be enclosed at all, though for the sake of convenience they are often mounted in enclosures along with the woofer. To help you decide which type is best for your purposes, we offer below some detailed explanations and illustrations of each type, along with information on the types of materials used in their construction and a few suggestions.

Woofer Box Diagram

Acoustic Suspension Enclosure

The simplest direct-radiator system. The rear of the driver is in a sealed enclosure, and none of the rear output of the driver contributes to the sound output. Depending upon how stiff the mechanical suspension is Vs how stiff the enclosed air in the enclosure is (and that's a function of the size of the box), you can have one of two enclosure types: either an Infinite Baffle enclosure, in which the mechanical suspension is the dominant source of system stiffness and the box is large; or an Acoustic Suspension enclosure, where the air in the box is the dominating stiffness and the box is small. Sealed boxes tend to be among the lowest efficiency systems for a given box size and bass cutoff frequency. They are however quite good at reproducing a fairly broad range with little deviation or distortion.

Vented Enclosure

Also the same as Bass Reflex, Ported, or Passive Radiator. Here, an aperture or port in the box provides a means for the rear output of the cone to contribute to the total output of the system. However, it only contributes over a very narrow range of frequencies. In fact, in a properly designed system, the front output of the cone is reduced at the same time the output of the port increases. Consequently the port does not re-enforce the output of the woofer; it REPLACES the output of the woofer at these frequencies. If done properly, this can significantly reduce distortion and increase power handling at very low frequencies, a region that can be difficult for drivers. A vented system can be up to 3 dB more efficient at certain frequencies than a sealed box system that has the same bass cutoff frequency and size.

Bandpass Enclosure

These are compound systems in that they have at least two enclosures: one on the front and one on the rear of the driver. The enclosure on the front, which looks remarkably like a vented box (because it is), acts as a low pass filter and can couple the output of the woofer more efficiently to the outside. They have several useful advantages. For example, the front enclosure can be used as a very effective acoustic crossover, filtering out mechanical noises generated by the woofer, something no electronic crossover can do. For very low frequencies, such an acoustic crossover can be far less expensive and more easily designed than an equivalent electronic crossover. They are called "Bandpass" because the combination of the rear enclosure and the driver form the high pass portion while the front enclosure forms the low pass section. Making the bandwidth of the system narrower raises the efficiency of the system.

Multi-chamber Enclosure

A variation of Bandpass and vented systems, the coupled cavity enclosure is the result of attempts by designers to solve specific problems. These enclosures consist of two or more rear enclosures, each coupled to the next by a vent. Each enclosure/vent combination is another resonant system, and the combination is, essentially, a high order, multi-tuned resonant system. Generally, these systems have quite complex response and are difficult to design. No comprehensive theory on their operation exists like that for sealed, vented and Bandpass systems.


Many builders and users like to take advantage of the power advantages of operating the amplifier in bridged or mono mode. To do so however, means that the impedance requirement of the drivers be taken into account when designing a proper circuit. For this purpose, we have provided an impedance calculator

What is the best material to make speaker boxes? An ideal speaker cabinet material would be very stiff, so that it would tend to be stable with variations in box air pressure. It would also be very well damped, so that if it ever does deflect from air pressure, it will come back to the original position without resonating.
In addition, it would have a very high resonant frequency (supersonic), so that low frequency box air pressure would not cause it to resonate. An attractive material is preferred, and additional credit is given for a material that is easy to cut, glue, and finish. A great material would be cheap, too. Finally, it would be nice if the material were light, because we all have to move our speakers sometimes, and it's hard to appreciate good speakers with a sore back.

With all of those attributes, it would seem that no material is perfect. However, there are many materials that have enough of the above good attributes to make excellent speaker cabinets. Each, however, has advantages and disadvantages. In the list of good speaker box materials below, the following code letters are used to indicate which attributes the material possesses:

S = Stiff - D = Damped - H = High Resonance
A = Attractive - M = Malleable
C = Cheap - L = Light

Code: SDMC

This is the most practical material for quality speaker enclosures. It's extremely rigid and resistant to sympathetic vibrations in thicknesses over half an inch. It cuts very nicely and has a smooth surface. It takes veneer very well. However, bring a helper when you pick the stuff up; one sheet is very heavy. MDF is harder on tools than common wood, but easier than particle board. This is the material that many great speaker makers use. Approximately $45 for a 4'x8'x1" sheet. Density: 50-lbs./Cu. ft.

Code: DMA

A clear or solid-color polycarbonate box can look strikingly good. However, this is not a cheap material. To locate it, look in the classified directory under PLASTICS. Approximately $400 for a 4'x8'x0.5" sheet. Density: 75-lbs./Cu. ft. Acrylic (Plexiglas) is cheaper than Polycarbonate, but weaker and not as well damped (not recommended as a main construction material, but used for "windows" in Bandpass enclosures).


(Not a good choice for Car stereo because of weight issues)
If you have time on your hands and want a great impractical box, try this. Make a simple box out of common plywood. Then glue cleats on the outside of the box to space the outside plywood from the common plywood. Glue hardwood-veneered plywood to the cleats and pour sand or lead shot into the spaces between the cleats. It won't be light, but with the filler, it will be extremely well damped. In addition, if you use strong cleats and glue well, the box will be extremely stiff. One designer was known to use different size Sonotubes as an alternative to plywood, and filled the space between them with sand. Be sure to sterilize the sand in your oven before putting it in the box.

Code: SDHL

Airplanes use this material for flooring. Next time a plane crashes in your neighborhood, see if you can get the wreckage for your next speaker project. You can't get a better, lightweight material. If you're really ambitious, you can make your own sandwich out of high-quality plywood faces and a thick honeycomb core. You will probably need an epoxy to glue the honeycomb to the plywood. A home-brew sandwich is easier to cut and glue than Aerolam.

Code: SDHC

Not a good choice for car speakers due to weight. There are tricks to working concrete, such as to cast braces, rebar, and steel-wire right into the mix. Also, some types of concrete are better damped than others. Remember to oil your concrete forms so that they can be removed. Most concrete speakers use an MDF front panel, but you can pour one if you use cardboard tubes or plywood rings to mold the concrete into the shape of a speaker cutout.

Alternately, you can make a common veneered plywood speaker box and cast concrete inside it for stiffening. Any box can be improved by making the walls thicker, by bracing the walls, and by stiffening the walls. The stiffness of a material goes up as the cube of the thickness, so a slightly thicker material is much stiffer. A thicker panel will also have a higher resonant frequency because the stiffness goes up faster than the mass. Consider lining the inside of your speaker with ceramic tile, attached with thinset mortar. You can get tile remnants cheaply. They are easy to apply and can be added as an afterthought to an imperfect box. However, be sure to attach all braces before tiling, because it is hard to attach anything to tile. Also consider bracing any weak parts of the box. For example, all joints will benefit from a wooden cleat. The back of the box will benefit from stiffeners where the speaker terminals are attached. Most importantly, brace the front panel, or make it out of a double thickness of material.


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