Designer:
Heldesign

Project Category:
Freestyle Speakers

Project Level:
Beginner

Project Time:
8-20 Hours

Project Cost:
$100 – $500

Project Description:
Since the 80’s my dad has a Marantz audio equipment, and from that time he bought some DIY speakers that were based on the Empire design, they always fascinated me but over the years their deterioration was evident. I finally decided to renew them trying to preserve their vintage spirit.

Design Goals:
My goal was to renew all the electronics, the drivers and its exterior appearance, but keeping its sound and vintage appearance.

Driver Selection:
For the crossover I used I tried to get drivers that will work well being the idea to follow the vintage line.
I used 2 Phenolic Ring Tweeter Replacement for AR-4X CTS Marantz and More 8 Ohm Part # 270-252
2 Visaton M 10 4″ Sealed Back Cone Midrange Driver 8 Ohm Part # 292-594
For the woofers I used the originals that were in excellent shape, a 12 “Japanese Tonegen.

Enclosure Design:
As I explained at the beginning, the design is based on the Empire Grenadier Speakers of the 70’s, they are hexagonal in shape, on one side are the tweeter and mid-bass drivers and a 12″ down-firing woofer mounted at the bottom, radiating through grillework around the entire cylinder

Enclosure Assembly:
Los cerramientos ya estaban hechos, solo los cubrí con chapa de nogal y les di un acabado semi-mate con laca catalizada. Conservé las cubiertas de mármol originales.

Crossover Design:
I found a couple of Marantz crossovers of the SP 1200 model in very good condition that maintained the vintage sound that I wanted and complied with the characteristics of the drivers. I’m not good at designing crossovers so I decided to use them and was very happy with the result.

Conclusion:
El resultado final me dejó muy feliz, el sonido es muy detallado y cálido con graves profundos y muy equilibrado con frecuencias altas y medias. Obtuve el aspecto y el sonido vintage con un toque de modernidad que realmente se adapta muy bien.
Si lo desea, tengo un video con algo de su sonido en este enlace de youtube https://youtu.be/lyskR3lQHwQ

About the Designer:
I am an Industrial Designer and a lover of good sound, I work in furniture and I love these projects that combine my hobby and my work.

Project Parts List:

Designer:
Jim O

Project Category:
Tower Speakers

Project Level:
Intermediate

Project Time:
1-8 Hours

Project Cost:
$100 – $500

Project Description:
Floor Towers.

Design Goals:
Floor tower speakers that are relatively low cost to build.

Driver Selection:
(4) DynaLab V22-DR-0003 8″ Paper Cone Woofers 4 Ohm Part # 299-4004. (2) GRS 1TD1-8 1″ Dome Tweeters 8 Ohm Part # 292-462.

Enclosure Design:
2 way bass reflex twin 8 inch bass drivers with tweeter.

Enclosure Assembly:
11/16 plywood to be light enough to mount on the garage wall.

Crossover Design:
Off the shelf Linkwitz-Riley type 2 way 3K Hz crossovers.

Tips & Tricks:
I used colorplace exterior latex rollered on and sprayed the front baffle with Rustoleum “stone creations” paint. I used poly-fill in the cabinets as well. I used weather stripping on the back side of the Dynalab woofers seeing they had no gasket material.

Conclusion:
Sweet sounding units for around $200 total.

About the Designer:
I am a retired aircraft composite tool builder.

Project Parts List:

Designer:
Bluetooth boom box

Project Category:
Portable Speakers

Project Level:
Beginner

Project Time:
8-20 Hours

Project Cost:
$100 – $500

Project Description:
Bluetooth boom box for the wife

Design Goals:
Classic

Driver Selection:
Description Qty Units Price Total
295-563 Dayton Audio RS150P-4A 6″ Reference Paper Woofer 4 Ohm 2 EA $44.48 $88.96
264-1472 Peerless DX20BF00-04 3/4″ Silk Dome Tweeter 4 Ohm 2 EA $8.00 $16.00
027-434 Dayton Audio DMPC-18 18uF 250V Polypropylene Capacitor 2 EA $6.59 $13.18
255-208 Jantzen Audio 0.18mH 18 AWG Air Core Inductor Crossover Coil

Enclosure Design:
Mdf, vinyl and mahogany

Enclosure Assembly:
Glue

Conclusion:
Happy with the build. Special thank you to Blaine at PE! The man knows speakers!

About the Designer:
Needed a semi small rectangle box. Seen some on YouTube but decided to put ports on front

Project Parts List:

Designer:
Tanasi Audio

Project Category:
Freestyle Speakers

Project Level:
Intermediate

Project Time:
8-20 Hours

Project Cost:
Under $100

Project Description:
The “Yutta Hey” is a compact (by ¼wave enclosure standards) 2 way MLTL utilizing the Hivi B4N of “Overnight Sensations” fame.

Design Goals:
I wanted a nearfield system that left as little to be desired as possible in terms of the size of the bandwidth of the resulting frequency response of the system. I believe I accomplished this with enclosure size coming in at 11.4L a piece while being tuned to 40Hz. This gives a nice F3 around 38Hz or so out of a pair of 4″ drivers.

Driver Selection:
I chose the Hivi B4N (Parts Express part #297-429) based on familiarity with the driver and my opinion that it is the best budget small application bass driver on the market. This is an opinion I believe many others share with me. I love these little drivers and use them quite often.

Enclosure Design:
I design almost exclusively using ¼ wave theory to utilize different types of horns and transmission lines. So my main tool in doing this is David McBean’s Hornresp simulation software. I chose an MLTL style of enclosure because it offers the smallest footprint of any of the ¼ wave style of enclosures. After many hours simulating different types of geometries I settled on a expanding offset driver with offset port line. Overall line length ended up being about 21″ with the B4n situated slightly before the midpoint of the total length and the port being located about 5″ on center from the floor of the enclosure.

Enclosure Assembly:
I picked a unique profile for my enclosures that mimics the shape of the geometry usually hidden inside of a transmission line. By folding the top ⅓ of the line towards the back of the enclosure and then cutting the sides of the cabinets to the resulting shape I managed to create a unique shape as well as moving the drivers positions to the top of the baffle even though they are at almost the halfway point of the line.

Crossover Design:
Crossover is a simple first order 13.6uf cap on the tweeter and .40mH coil on the B4N.

Conclusion:
Overall I believe this is the best sounding Speaker I have designed to date and I would recommend it to anyone looking for a nice wide bandwidth loudspeaker for a office or small room.

About the Designer:
I’m a 41 year old from the hills of East Tennessee. Who loves music almost as much as loudspeaker design.

Project Parts List:

Designer:
Mike

Project Category:
Subwoofers

Project Level:
Beginner

Project Time:
1-8 Hours

Project Cost:
Under $100

Project Description:
I have not seen a project on here where the Faux Bois technique (French for “fake wood”) has been used to finish cabinets. I think this is because most people are not aware of this easy and cheap way to make MDF look like real wood. It sure is a lot easier, faster and cheaper than using real wood veneer.

I wanted to add a little more thump to my barn stereo system. I had a couple of 8″ drivers laying around and figured I’d use them. I bought a 4×8 sheet of 3/4″ thick MDF. I decided to play around with a graining tool I bought 30 years ago at a home improvement trade show in Denver and never used. I remember watching the guy at that show paint a metal door to look exactly like oak. I was impressed and bought the tool. They sell these tools at Lowes for $8 now.

The way it works is you paint something a lighter base color and let it dry. You then thin a darker color with clear paint (glaze) and paint it over the base coat. While still wet you run this graining tool through the wet paint, rocking it back and forth to vary the grain. It’s very easy to do. Here are before and after pictures and a picture of the graining tool.

I ‘m using a Pioneer car stereo to drive my main barn speakers, along with a 300 watt 12-volt AC/DC power supply. I built both into an oak box. It has active crossovers in it for both front and rear channels. Take a look at the pictures of this. I’m using a Dayton APA-150 for the two subwoofers.

Design Goals:
Add a little more thump to the barn.

Driver Selection:
What I had laying around; GRS 8PR-8 8″ Poly Cone Rubber Surround Woofer, Parts Express Part # 292-428

Enclosure Design:
I used the dimensions of the Parts Express 12″ subwoofer kit (2.0 cu.ft.) in case I want to replace the 8″ driver with a real 10 or 12-inch subwoofer from Parts Express later.

Enclosure Assembly:
Just glue and clamps. I have a great Makita belt sander that made flushing up the edges after gluing easy. I cut the driver holes with a trim router and a home-made circle jig made of plexiglass.

Crossover Design:
N/A

Tips & Tricks:
Be sure to sand the MDF perfectly smooth, as scratches will show through the paint. A coat or two of polyurethane on top of the paint helps protect the fake wood grain.

Conclusion:
The cabinets look like real wood. MDF is the perfect material to paint this way.

About the Designer:
I’ve been building a few speakers for my own needs for 40 years now. Still don’t know much so I mostly follow designs developed by the experts. Luckily, sub-woofers are easy with an active crossover.

Project Parts List:

Designer:
DIY Audio Guy

Project Category:
Tower Speakers

Project Level:
Beginner

Project Time:
8-20 Hours

Project Cost:
$100 – $500

Project Description:
TriTrix MTM Towers

Design Goals:
I have always wanted to build my own speakers, and I was advised to start with a kit.

Driver Selection:
300-700

Enclosure Design:
I elected to forgo the knock-down cabinets and make my own I just followed plans at speakerdesignworks.com

Enclosure Assembly:
The tricky part was cutting the recesses for the drivers. I did not have a rabbet bit at the time. So I made two shallow passes with a spiral cut bit using a jasper circle jig. I followed that with a final pass for the speaker cut out.

Then I used wood glue and brad nails to assemble the enclosure.

Crossover Design:
NA

Conclusion:
If you have never built a speaker this is a great place to start. I have been using these in my home theater for about 4 years now, the center and surrounds are also tritrix kits.

About the Designer:
I build speakers for fun and post my projects on my YouTube channel.

Project Parts List:

Designer:
L.S.audio

Project Category:
Portable Speakers

Project Level:
Intermediate

Project Time:
8-20 Hours

Project Cost:
$100 – $500

Project Description:
Prototype portable P.A. and D.J. speakers. Super loud and clear midbass and highs. All speakers and electronic parts supplied by Parts Express. Best used with a subwoofer crossed over @ 120Hz.

Design Goals:
Small, light, high power, super loud, super smooth, musician’s & D.J. speakers. Features: Shimmering projected highs (even with this piezo!). Super tight mids & midbass.

Driver Selection:
Horn: Goldwood GT-1025. Mid driver: Eminence Alpha 4″-8ohm. Midbass: Dayton Audio DS-115-8ohm

Enclosure Design:
12″x7″ sealed enclosure, isolated midrange and midbass.

Enclosure Assembly:
I had a good time making these. It took a while. They kick-butt.

Crossover Design:
Tuned by ear, tried to keep phase shift in mind. The mid & highs are time aligned the midbass is not. 4.7uF cap to horn. .33mH coil & 33uF cap to mids. Midbass (lower spk) is straight signal in.

Tips & Tricks:
Use with powered subwoofer for total kick-buttness.

Conclusion:
They kick-butt. The high-end audio cap took away the rasp from the horn. The sealed midrange rolls in at 600Hz and out at 4.7kHz with the coil. The mid reflector plates (reminiscent of the Altec A-7) project mids far. The midbass hits hard and is a straight line in. I don’t hear any distortion and the time alignment can’t be detected. These are 8 or 4 Ohm cabinets.
These are prototypes and many more improvements will be added.

About the Designer:
Lawrence Sepulveda (L.S. Audio) Machinist, electronic technician, musician.

Project Parts List:

Designer:
RYAN M

Project Category:
Bookshelf Speakers

Project Level:
Intermediate

Project Time:
8-20 Hours

Project Cost:
$100 – $500

Project Description:
My previous LCR project taught me that my ambition to be a speaker designer greatly exceeded my knowledge and skill to do so. I didn’t understand the impact of well-designed crossover so I poorly matched two good drivers with a standard crossover. The results were speakers that masked their spikey response when watching movies but were harsh to listen to music with.
We listen to music a lot with our home theater system so I wanted aesthetically pleasing speakers that were first, enjoyable for a variety of music styles, and secondly, good for movies.
After reading reviews and Paul Carmody’s design page, I selected the Classix II kit. Everything pointed to these being the best fit and I could buy 3 individual kits to complete the set.

Design Goals:
My entertainment center and wall mounted TV allow for a taller center channel speaker. I subscribe to the idea that the best matched front 3 speakers are… well 3 identical speakers. I went with white furniture enamel paint to match the other components. I wanted speakers that sounded good for long listen sessions and even with the sub off.

Driver Selection:
Paul Carmody Kit

Enclosure Design:
Paul Carmody Kit

Enclosure Assembly:
To complete the remainder of each cabinet I was able to get all 5 pieces out of 16” x 48” ¾” MDF boards purchased at Home Depot for only $5 each. These were clearly not the quality of the baffle MDF but worked and I didn’t have to deal with a large sheet of MDF. This is a great option for many of us that don’t have large table saws. As long as you can rip 15” you can build these cabinets.
I used my drill press to cut the holes for the port and terminal plate. I used a 2 ½” hole saw for the port (it calls for 2 5/8”?) and a 2” hole saw for the terminal plate.
I glued together the top, bottom, sides and brace first, lying flat on the speaker back. I then glued the backs on.
Before gluing on the baffle, I installed all the dampening material, leaving a space on the bottom for the crossover. I also drilled the driver pilot holes using my small drill press.
After gluing the baffle on each speaker I masked off the holes so that no dust got into the speakers during sanding.
I used a belt sander with ~80 grit to chew off those uneven edges. I don’t think I would do this again, as the lower quality MDF got fuzzy quick with this sander. I then filled a couple small dings wood filler and painted on a ~1:4 ratio of wood glue and water to help prime. Once dried, then used palm sander with 180 grit.
Applied one coat of Valspar white furniture enamel. Let dry for a day, then spot hand sanded with 220 grit for the rough spots. Applied a second coat of paint.
Mounted crossover boards (standoff screws) to pieces of lauan. Attached all speaker terminals and wire to the crossover.
Used industrial double-sided tape to stick to the bottom of the cabinet.
Connected and mounted drivers.

Crossover Design:
I highly suggest purchasing the PC crossover boards for these. You can find these on eBay for ~$18 a pair. This takes the guess work out of the crossover and leaves you with crossover so pretty you want to display it on the outside of the cabinet . Next time I use these style boards I think I will solder the wire leads directly to the board and not use the terminals. They were not that secure.

Tips & Tricks:
Plan your cuts well. If at all possible eliminate having to change your rip fence for the same dimension.
Utilize the supplied baffle to set you table saw cuts for 8.5” and 15” cuts.
Install dampening material before gluing on the baffle.
Tape off opening before sanding.
Buy the PCB crossovers

Conclusion:
I am very satisfied with the sound and the look. Only been playing for a couple hours (still breaking in) but sound great.

About the Designer:
I love music, movies and building things out of wood so speaker building is a perfect hobby. I got into audio as a young teenager. I purchased some Infinity SM62 from Crutchfield around age 13 and have been enjoying listening to music ever since.

Project Parts List:

Designer:
Johan

Project Category:
Tower Speakers

Project Level:
Beginner

Project Time:
20+ Hours

Project Cost:
Over $1,000

Project Description:
Ordered the Solstice speaker kit and had some good time building it.

Design Goals:
To have some nice looking and good sounding speakerset as a replacement of my previous pair.

Tips & Tricks:
I was using the Dayton Audio BPA-38G HD Binding Post which was a bit difficult to reach at the bottom when i assembled the kit. So check first if your arm is long enough
The baffle for the tweeters don’t let much space over for the wires, so i made a little extra room for that.
It was the first time that I applied veneer on wood, and the you tube video How to Apply Wood Veneer to MDF Speakers was a great help.

Conclusion:
The kit was set up good. There was not much room for errors. The end result sounds also good. Especially voices are sounding clear and accurate which can be tricky. Although the bass was resonating a bit with for example the bass drum. But this can also be very good caused by my room, which doesn’t have much demping material on the walls and a tile floor.

About the Designer:
Grew up in holland and now moved to Singapore. Working as a software developer. I like audio and shipped my set to singapore. Unfortunately 1 of the speakers died here, and i was looking for a replacement. Singapore is totally not a DIY country, so i encountered some challenges, but i am happy with the result.

Project Parts List:

Designer:
Kent Fitzgerald

Project Category:
Portable Speakers

Project Level:
Beginner

Project Time:
8-20 Hours

Project Cost:
$100 – $500

Project Description:
Portable bluetooth speaker that can operate off batteries or direct current.

Design Goals:
Create an amp style speaker with a nice wood face

Driver Selection:
Overnight Sensation

Enclosure Design:
Built side by side boxes built to the specifications per the Overnight Sensations. Top, bottom and sides are made of MDF with interior back and front made of plywood. Speaker front is Walnut

Enclosure Assembly:
Separated interior boxes house the speaker, while a separate back compartment holds the crossovers, amp and batteries.

Crossover Design:
Built per the Overnight Sensation specifications using pre-fab boards.

Tips & Tricks:
Purchasing the crossover board was a big time saver.

Conclusion:
Good sounding and the overall finished look came out as expected. The little extras like the white piping and the raised washers really give it a quality look.

About the Designer:
More of a woodworker trying some electronics.

Project Parts List:

Designer:
Bill

Project Category:
Tower Speakers

Project Level:
Beginner

Project Time:
1-8 Hours

Project Cost:
$100 – $500

Project Description:
3 way floor standing speaker

Design Goals:
Smooth crisp sound with a thump

Driver Selection:
DA. PT2C-8 Planar Tweeter.
DA. DSA135-8 Mid-Bass.
Visaton W200S-4 Woofer (2).

Enclosure Design:
Split enclosure lower enclosure bass reflex housing (2) 8” Woofers
with an attached smaller enclosure housing the Mid/Tweeter

Enclosure Assembly:
3/4 MDF lower unit: 32” tall x 10” wide x 14” deep
bass reflex with double front baffle
Upper unit: 14” tall x 10” tapering to 5” wide x 8” deep

Crossover Design:
Pre- assembled DA 8 ohm Crossover at 3,000 Hz. with
100 watt L-pad attenuator for the Tweeter and Woofers
wired in series for 8 ohm load

Tips & Tricks:
My only tip….do the research and read the reviews

Conclusion:
For a first time speaker project I am very pleased with the end result. Hooked them up and played Highway Star by Deep Purple
And they sound friggen’ awesome. Cranked it up and smiling ear to ear….a 62 year old blowing out the walls. The Wife is in trouble.

About the Designer:
I’m an investigator for major airplane manufacturer that enjoys wood working and diy projects for a hobby. Soon to be retired.

Project Parts List:

Designer:
Aviatrix Tower

Project Category:
Tower Speakers

Project Level:
Intermediate

Project Time:
20+ Hours

Project Cost:
$500 – $1,000

Project Description:
I wanted an all in one speaker with built in subwoofer. I liked the size and sound of the aviatrix speaker kit so I used that as the base of my design. I incorporated a bottom ported enclosure to house a dayton ultimax 8.

Design Goals:
The goal was an all in one speaker with built in subwoofer.

Driver Selection:
I used the Aviatrix speaker kit components and a dayton ultimax 8 inch subwoofer.

Enclosure Design:
The design was based off the sealed dimensions recommended for the aviatrix speaker kit. I adjusted the height and extended the back of the tower to increase the air space to house the ultimax 8 and the slotted port. The enclosure is 0.75 cubic ft and tuned to 30hz as per recommended by the manufacturers specs. I designed the port to go down the front of the speaker, across the bottom and out the back. I mounted the subwoofer on the side because I didn’t want to alter the design of the aviatrix and I liked the look of the tall thin tower.

Enclosure Assembly:
The enclosure was built out of 3/4 inch mdf that was glued and brad nailed. I covered the mdf in cherry veneer and stained it with a mix of 2 different stains I already had. I used several coats of gloss polyurethane as the top coat to get the deep shine I wanted. I wet sanded and polished the polyuethane once it was completely dry to a smooth finish. The top portion is built to the aviatrix recommended sealed dimensions and sealed off from the sub section. The subwoofer enclosure is bumped out I think at a 20 degree angle. I fabricated a custom trim out of 1/2 inch mdf that is attached to the enclosure and the outer ring is made out of 3/4 inch mdf and pressure fitted.

Crossover Design:
I used the crossover designed for the aviatrix speaker and mounted it in the upper part of the speaker. The subwoofer section is powered by my crown amplifier with built in crossovers.

Tips & Tricks:
Do a lot of reading and practicing before using gloss polyurethane. It is not easy and requires a lot of patience.

Conclusion:
I wanted a tower speaker that had a built in subwoofer because I wanted a clean simple design without big boxes laying on the floor. The Ultimax 8 blended in wonderfully with the aviatrix speaker and everything came together beautifully. I was very excited the way the project turned out and the sound was amazing. I liked the speakers so much I made a center channel to finish the set.

About the Designer:
I have been doing car audio for over 25 years. I recently started building some home speakers a couple of years ago.

Project Parts List:

Designer:
Graham Howe

Project Category:
Bookshelf Speakers

Project Level:
Beginner

Project Time:
20+ Hours

Project Cost:
$100 – $500

Project Description:
BR-1 and TriTrix MTM components in customer made cabinets. I have six other BR-1s that will make up a full surround system.

Design Goals:
I wanted a classic high end look with contrasting natural woods.

Driver Selection:
Dayton Audio DC160-8 6-1/2″ Classic Woofer Part # 295-305
Dayton Audio DC28F-8 1-1/8″ Silk Dome Tweeter Part # 275-070

Enclosure Design:
Homemade 1/8″ veneer, walnut and zebra wood on 5/8″ MDF substrate. Top, bottom and sides mitered joints. Thick solid walnut edge banding to allow for heavy roundover.

Enclosure Assembly:
Polyurethane construction adhesive throughout. Biscuits for alignment.

Crossover Design:
As per BR-1 and TriTrix MTM kits, no modifications.

Conclusion:
Very happy with the appearance and the sound. This was a very enjoyable experience.

About the Designer:
Amateur woodworker and first time speaker builder in Ontario Canada

Project Parts List:

Designer:
Paul Graves

Project Category:
Portable Speakers

Project Level:
Intermediate

Project Time:
8-20 Hours

Project Cost:
$100 – $500

Project Description:
A portable Bluetooth speaker design, sized for a small shelf and intended to give full range sound at good volume wherever it goes.

Design Goals:
This build was conceived to create a portable speaker that could be transported and used on battery power with good bass performance and output. The size and weight needed to be reasonable, and fit on a shelf when at home. The goal was to use full range drivers to keep the crossover simple and baffle size down, and be robust enough to hand off to a pre-teen for their use.

Driver Selection:
Driver selection was facilitated by having a pair of Dayton ND105-PR passive radiators on hand, won from a drawing at MWAF 2018. The goal was to use these radiators in the design, paired up with a full range driver that is capable of pumping those little passives and produce solid bass response.

Starting from an appropriately sized and popular existing design the Sprite by Paul Carmody, the Dayton ND90-4 was chosen for the drivers. These will compromise a bit on the high frequency extension, since a 3” driver simply can’t respond up to 20kHz without very narrow dispersion, but the low frequency capabilities are excellent.

Using Bass Box Pro and the Dayton published specifications for the ND90 and ND105 radiators, the 0.127 cubic foot box plan tunes to just above 60Hz and aligns pretty closely to the Sprite design. Bass Box doesn’t offer a way to easily add weight and tune the PR in simulation, but as long as the initial tuning is high, you can always add weight and lower the frequency. Additionally, a quick calculation of the surface area * Xmax of the radiators indicates that they will be just above the double air movement capability recommended for passive radiators.

As this is intended to be a self-powered system, these drivers will be paired with the Dayton KAB250 Bluetooth amplifier board and be coupled with Dayton’s matching battery board and I/O accessories. The KAB250 was chosen due to the better Bluetooth standard, even though the full 50W per channel is overkill for the project.

Enclosure Design:
The enclosure was conceived with all 4 cones facing front, an isolated chamber with the electronics in the center and small panels on the front and back for controls and connectors. I wanted to angle the main drivers out slightly to help disperse the high frequencies a little wider in the room.

In order to facilitate easier assembly, the height of the cabinet was selected to match available board sizes from the local hardware. A standard ½” x 6” plank measuring 5.5” wide would be used for the front and sides, with ½” stock MDF for the top and bottom.

The angle for the drivers was arbitrary, and selected at 15 degrees. A SketchUp model was made to plan the board cuts, which will be done using a compound miter saw. The top and bottom panels will be inset using a ¼” rabbet to make the whole assembly 6” tall.

The enclosure will be glued together for all sides and the top, with a removable bottom panel to allow future access to the drivers and electronics.

Enclosure Assembly:
Wood in hand, the first step is to create the outside frame of the box using the solid poplar boards. I verified the miter cuts with a small angle gauge, making the 7.5 degree, 37.5 degree, and 45 degree cuts at the dimensions planned in SketchUp.

Once cut, a rough test was done with some painter’s tape to make sure the cut angles were good. These panels would need to be cut up for the driver holes and panels prior to glue up. The whole frame would need to be glued and solid prior to cutting the top and bottom panels. The panel cuts were drawn out on the boards, and a frame was made out of hardwood for a flush trim router bit to follow. The hardwood was simply stuck on using carpet tape to make the cut.

By drilling a hole first, the router was able to make the rest of the cuts. The driver holes were cut using a Jasper circle jig set to size. After all holes were cut, the router was setup as a table with a 45 degree chamfer bit to add finish to the holes.

The top and bottom edges were then hit with a multi bearing rabbet bit set to ¼” depth. Then the frame was prepped and glued using the corner tape method with a resistance band for tension.

Once the glue was completely dry, the frame was sanded and filled where required to prepare for the top and bottom to be created. The MDF was cut just a bit larger than the frame, then clamped to the frame for the flush trim bit to cut to match. The clamp method requires the whole trim to be done in 2 passes. One side was trimmed then taped to the frame to keep it steady, then flipped and re-clamed to pass the other side. Once the top and bottom panels were trimmed to size, the ¼” rabbet bit came back out to match the frame and inset the panels.

The inside dividers were simply cut with the miter saw and fit tested. The top was then glued on and sanded flush. Rather than using the chamfer bit, the edges were angled slightly using a hand plane and sanding block.

At this point, the electronics were prepped up and the panels created from 2”wide aluminum stock. The dimensions turned out to be tighter than planned to fit the KAB boards together in the center chamber, so some improvising was needed. I opted to place the battery board into one of the speaker chambers and leave just the amplifier in the center chamber. This simplified mounting since I could use one set of bolts with standoffs on either side for the boards.

The cabling for the battery board was passed through by removing the pins from the connector and carefully re-inserting to the correct positions. The speaker cables were passed through to the back panel to allow easy testing. All holes in the dividers were sealed with hot glue. I then prepped the baffle boards by pre-threading the #6 screws in to mount the drivers. The limited space necessitated using some creative screwdriver techniques.

To mount the bottom panel, #8 threaded inserts were needed. The ¼” rabbet surface is too small, so a small section of the poplar was cut to add to the sides. This made plenty of surface to do the inserts. Since the middle divider panels were hand fit and not perfectly square, I calipered the dimension to hit the center of the ½” MDF.

The second divider wasn’t installed yet so the finish could be completed. The solid poplar will be stained dark and contrasted with a white Duratex finish on the top and bottom MDF panels.
Several applications of Minwax ebony stain later, it was time to poly coat. The small surfaces to apply the poly and angles made it a little tough to get a smooth finish, so after 3 coats a little bit of processing that would have eventually led to a piano gloss finish was applied. The poly was wet sanded with 1000 grit, then rubbing compound, then polished. I didn’t wet sand to full flatness, just enough to smooth it out and avoid sanding all the way through the poly.

This left the box complete enough to install all electronics and test for the filter design. After acoustic measurements were taken, the top was taped off and the bottom finished with the white duratex. Once ready, the bottom panel was gasketed with weather stripping to seal all the chambers. Extra thickness was used for the dividers, which ended up slightly short and are critical to keep the individual speaker chambers sealed.

For good measure, I added a bit of soft touch denim insulation to the back panel after completion. This likely has very little effect, but can reduce the higher frequency reflections from the back wall making it back to the cones.

Crossover Design:
While full range drivers don’t need a “crossover”, a filter is needed to help adjust the frequency response for the loss of bass due to baffle step, and the high frequency loss due to the diameter of the driver. This is typically called a contour filter. As always, the best way to design the filter is to use the response and impedance data from the actual speaker.
The impedance data was captured using DATS, which gave me the files to use for the filter design, and verified the tuning of the PRs.

As measured, the tuning frequency of the PRs ended up quite a bit lower than modeled at around and just under 50Hz. This is due to parameter differences in the ND90 and / or the ND105 parts in real life vs. the specification sheet. I removed the thumb nuts from the PRs to make them as light as possible to raise the tuning as high as it could be, but ultimately this design could use higher tuning. These will work as is though, and result in an extended bass shelf (EBS) alignment for the tuning which will produce better low bass, but at a reduced level.
The acoustic measurements were made with a calibrated mic and ARTA. The signal was passed by Bluetooth from the PC to the internal amp exactly as it is intended to use, so the measurement is exactly as it will be in normal use. The downside was that both R and L sides were powered for the measurements, resulting in some interference from the drivers depending on mic position. Acoustic cancellations and reinforcements will happen at the mic due to the distance between drivers and the wavelength of the sound in the air.
I made a measurement dead on the front at 24” distance, making the drivers both 15 degrees off axis. This shows the beaming of the 3” drivers and their resulting drop in high frequency response. Using that measurement I checked the distortion of the system at approximately 85dB output.

Distortion wasn’t too bad, running about 1% across the spectrum. For the filter design, I used an on axis measurement of the R side speaker. This was pulled into Xsim to apply a RLC notch filter, creating a bit of a smiley face EQ curve to the driver.

The filter was adjusted until the high end and low end were about on par. The filter ends up being a 6dB drop centered at around 2.5kHz.

With only 3 parts, these were point to point soldered and screwed into the cabinet. A liberal blob of hot glue was added to help secure the hefty inductors. I went with more expensive 14ga inductors to keep resistance low and as much power as possible going to the speaker.

Tips & Tricks:
Working on little enclosures is a pain, plan your assembly steps carefully! For a re-do of this project I would increase the width or depth a bit to allow the amp and battery boards to live in the center compartment as intended. I’d also be sure to pre-thread the driver mounts before assembly, add the side handles before the drivers are installed, and other little things that just ended up making a little more work.

Staining poplar is a bit tricky, for a more even result consider using a conditioner.

The pairing of the ND90 with the ND105 PRs is just a bit off, the system would sound a bit punchier if the tuning ended up a bit higher.

Conclusion:
Very pleased! This speaker has been passed on to my daughter for jamming pop music, and has been happily received.
Overall sound is a party, strong bass and full sound. The high frequency response is definitely lacking a bit, and this could use a pair of tweeters to brighten it up. As is though, it is still quite enjoyable and in any situation where a portable system is needed, this does the trick. I’m looking forward to bringing this along on road trips and having a proper speaker for movies and music.
The completed speaker was measured quasi-anechoic to confirm the full system frequency response and the effectiveness of the contour filter. Measurement was made a 1 meter on axis with the right side speaker driven by the internal amp only. Close mic measurements for both the driver and passive radiator were adjusted, summed, and blended with the far field.

The resulting frequency response is meets +-3dB from 80Hz to 15kHz, with the exception of a 6kHz and 12kHz peak due to the breakup of the aluminum cone in the ND90-4. The bass response is deceptive, the low tuning of the passive radiators allows the system to continue to output clean bass all the way below 40Hz where the system is down approximately 10dB.

About the Designer:
Paul Graves (aka Wogg) is an electronics engineer and has been designing and building speakers since he was a teenager.

Project Parts List:

Designer:
Keith Etheredge

Project Category:
Bookshelf Speakers

Project Level:
Intermediate

Project Time:
8-20 Hours

Project Cost:
$100 – $500

Project Description:
Etheredge Audio Engineering is proud to present “The Plum Dingers.” This is a small desktop MTM design with a matching set of stands to put the tweeter at ear level when seated at your desk. It was designed to help my wife conduct virtual tutoring sessions for children with dyslexia during the pandemic.

Design Goals:
The goal of this design was to accurately convey the voices of students through virtual tutoring sessions. Being able to clearly hear the speech of the students is critical to providing good instruction. This meant a more flat frequency response was called for, and the vertical MTM design allows for a wide horizontal dispersion and good intelligibility while seated at the desk.

Driver Selection:
Each speaker uses two PS95-8s (295-349) and one ND20FB-4 tweeter (275-035). I chose the PS95’s for the extended frequency range in a small volume, as well as the classy copper phase plug. It really sets off the purple color nicely!

Enclosure Design:
The enclosure is made from a 3/4″ MDF front baffle, 1/2″ MDF sides, top, bottom, and back, with a removable 1/2″ MDF rear panel that has been planed down to install flush when accounting for gasket tape. There is an internal brace made from 3/4″ MDF, and a rear panel mounting frame made from 3/4″ thick strips of baltic birch plywood. The plywood is recommended over MDF for this design so the screws have something consistent to bite into.

The cabinet itself is nominal size of 6″ wide, 11″ tall, and 8″ deep. It is a two-way bass reflex design, with a tuning frequency, Fb, of 93 Hz. It has a predicted frequency response of 75 to 20,000 Hz (F3 = 75 Hz). The port is made from 2 inch PVC pipe, with a roundover on the outside. Total length of 2 5/8″ long.

The PS95-8 drivers are flush mounted from the front, with a relief chamfer cut on the back side of the driver recess inside the cabinet. The ND20FB-4 tweeter is also flush mounted, but since it is a rear mount tweeter design, extra attention was needed. I had to carefully measure the depth of the tweeter for final installation including some gasket tape, and bore a large clearance hole for the mounting tabs to sit in. The tweeter was screwed into place from the rear using #4-40 pan head screws of appropriate length so they did not poke through the front baffle. Pre-drilling these holes to the right depth is highly recommended.

Enclosure Assembly:
The enclosure walls and rear panel were glued together first. Rebates were cut on all panels to aid in the alignment of parts while gluing up, as well as to leave a small amount of material for flush trimming later. The middle brace was installed with glue next. Baltic Birch strips were glued into place in the rear of the cabinet before the front baffle was glued on. These needed to be a snug fit, but not overly exact. Just snug enough to allow gasket tape to do it’s job later.

The removable rear panel was some added work. I made a master size template for the rear panel, and used template routing techniques with bushings to create a series of templates before arriving at a final template. This final template created a hole that’s 1/32″ clearance on all sides for the rear panel to install.

The cabinets are finished in Plum color from the Real Milk Paint Co., and top coated with two liberal applications of hemp oil. The oil deepens the color and seals the milk paint, which is porous and should not be left as a finished coat on its own.

Crossover Design:
The base crossover is 2nd order electrical, linkwitz-riley filters with a final XO point at 4930 Hz as shown in PCD simulation. I included parallel LCR notch filters on both the woofers and the tweeter to handle issues I found. The notch filter on the woofer is pretty wide, helping to pull down the area from ~600Hz to 2kHz. The tweeter’s notch helped pull the area from 1100 Hz up to ~5000 Hz into line with my XO target slope.

Tips & Tricks:
For more build info and pictures see my project gallery thread at the tech talk forum: http://techtalk.parts-express.com/forum/speaker-project-gallery/1456831-the-plum-dingers-ps95-8-and-nd20fb-4-in-a-desktop-mtm

Conclusion:
These speakers were an interesting design challenge for me. THey were the first MTM I’ve designed, the first rear panel design I’ve done, and the first rear mount of any driver I’ve done. They are in service today and helping tutoring sessions go smoothly with much less annoyance at poor laptop speakers!

About the Designer:
Keith is a mechanical engineer by day, group fitness instructor by night, and an overzealous DIY speaker designer when he should be sleeping. He is always looking to try different techniques with each build, and deeply enjoys sharing designs, tips, and good stories with the speaker building community.

Project Parts List:

Designer:
BY

Project Category:
Portable Speakers

Project Level:
Intermediate

Project Time:
1-8 Hours

Project Cost:
Under $100

Project Description:
I wanted to build a modern version of my “boom box” that I had back in high school.

Design Goals:
I wanted a small portable bluetooth speaker with big sound.

Driver Selection:
295-416
295-337

Enclosure Design:
I had some left over curly maple and cherry from another furniture project. Enclosure is 20″ long x 5.5″ tall x 6″ deep. Has 2 1″ ports on back with box tuned to approx 100Hz.

Enclosure Assembly:
Built the enclosure out of maple and cherry and biscuit joined all parts.

Crossover Design:
1st order butterworth at 2500Hz with a large capacitor on the woofer for high pass.

Conclusion:
This thing sounds amazing and really has some oompf!

About the Designer:
I have been building speaker projects for about 20 years off and on and am avid woodworker and knife maker.

Project Parts List:

Designer:
CBT-24 Grills

Project Category:
Tower Speakers

Project Level:
Intermediate

Project Time:
8-20 Hours

Project Cost:
Under $100

Project Description:
I bought a pair of Epique CBT-24 speakers (which sound FANTASTIC, BTW!!) but could not use them because I have cats so I needed guards to protect the speakers.

Design Goals:
1) to protect the speakers from being clawed
2) to be open and airy enough to allow the sound to pass through without distortion.
3) to look as if they were factory installed.

Enclosure Design:
I used expanded metal for the grills. Originally, I inquired at a metal working shop for a quote. They said about $1,000.00 or so!! However, I didn’t like how they were going to attach the grills.

Enclosure Assembly:
Originally, I had thought about a parabolic shape, but my wife killed that idea. She didn’t like the look and size of the speakers as it is!! She DOES love the sound, though!!
I looked at the shape of the speakers, then came up with a better looking design that my wife approved of.
I bent them both entirely by hand, using nothing other than a 6′ level as a brake and a pair of straight aviation shears.

Tips & Tricks:
Before final assembly, I used Q Tips to paint a bit of Plasti-Coat wherever the grill would touch the speaker to dampen any possible errant noises.

Conclusion:
They turned out perfectly!!! Even when I took them back to the metal working shop for powder coating, they were shocked at how well they looked!!

About the Designer:
Union Electrician thinking of retirement!!

Designer:
Sam

Project Category:
Bookshelf Speakers

Project Level:
Advanced

Project Time:
20+ Hours

Project Cost:
$100 – $500

Project Description:
I am a huge fan of the form factor of the KEF LS50s, looking as much a piece of art as a loudspeaker. I was also drawn to their powered “wireless” version as it allowed for a legit hi-fi in a living room friendly package.

If I’d have just bought the KEFs we wouldn’t have a writeup here, but since I was lacking the $2500 clams for their version, and also had a pair of Dayton CX-120s that have been lying around a while, I decided to embark on my own coaxial design but with a twist.

Design Goals:
I wanted something similar visually to the LS50s but also to be truly full range as they would be hooked up to my living room TV for movies as well as music. I decided to work with a simpler form from the KEF curved baffle as I don’t have a CNC machine, but overall the aesthetic is similar.

Driver Selection:
I needed some serious bass in a tiny enclosure, and there’s really only one woofer that fits in a tiny box and makes a big boom, the Tang Band W5. I mentioned I had some Dayton CX120s laying around I never quite found the project for so they got the call as the only coaxial option that doesn’t need big space or drain the bank.

Enclosure Design:
These measure almost exactly the same dimensions as the LS50s, 8Wx12Hx11D which using 3/4″ MDF gives us about .38 cu ft to play with.

I made a separate internal chamber that houses the CX-120, it’s a simple U shape of 1/2″ MDF around the woofer internally glued in place and sealed from the pounding of the W5 behind it. This chamber is filled with some fill and foam damping sheets, the passive crossover lives mounted to the back of this enclosure as this is a very small space for the coaxial to save airspace for the woofer.

The port needs to be about 10″ long in the volume I had available for low tuning, so it is curved up from the bottom of the cabinet to about an inch from the cabinet top. It’s a tight squeeze, everything is tight in these things.

I used standoffs to mount the Dayton boards together and then to the side wall of the right speaker, and the power supply lives on the bottom panel inside that speaker as well.

I used 4 conductor Belden wire and 4 pole Speakon connectors to run the highs and lows to the passive left speaker. No fancy wireless like the KEFs sorry.

I haven’t noticed any interference with the power supply being in the same box, but it does get warm in there when you crank them up. So far the amps show no signs of distress, but you could always build a small external box to house the power supply too if it’s a concern. I wanted simplicity so everything got stuffed inside.

I used some Penn Elcom plates as terminals on the backs, also I put an analog in which is fed from the TV for sound. I control the volume on that input from the TV.

Enclosure Assembly:
I used 3/4″ MDF for all the outer walls and used a big rounder on the corners. I coated the MDF with wax free shellac, then spray painted with Krylon matte ink blue spray paint from Lowes, three coats, then wet sanded and two coats of matte clear coat rattle can as well. I am a terrible painter and the finish isn’t perfect but I like it anyway. The matte really fits what I was going for.

The grilles are stainless mesh, I cut a circle the same size as the driver outer and then a “doughnut” 1/16″ smaller and used it in a vice to press the grille into shape then trimmed the excess. I sprayed it with a rattle can copper metallic spray to get the finish I was looking for. I actually love the grilles, when the sun hits they actually sparkle!

the pics of the rear still show leftover sealant around the port and input plate, sorry they weren’t totally finished yet but had to snap a few.

Crossover Design:
The passive crossover on the CX-120 is the one from the Executive speaker kit from Dayton, find that here: https://www.parts-express.com/pedocs/manuals/300-7164–executive-speaker-assembly-manual-2.pdf

The crossover between the CX-120 and the W5 is handled within Sigma Studio on the Dayton DSPB board.

This was my first experience with this software and it took some trial and error to get the result I wanted. I ended up crossing over at 125hz with 24db/octave filters, and added another filter at 25hz to filter out low sub-bass and keep the W5’s happier.

Essentially the software can do anything you want it to, but I haven’t taken the time to seriously measure these and make EQ adjustments, just dialed in by ear.

One note- the sensitivity of the subs even when run parallel at 2 ohms is much lower than the mains, so I set the gain in the crossover screen to 6 for the mains and 10 for the subs to equal it out. The bass is definitely more than strictly “accurate” but it makes most casual listening and movies a lot more interesting!

Conclusion:
First off these have HUGE bass for such small speakers. The Dayton DSPB board has a good bit of juice, only running out of steam at louder levels than you’d normally listen at. The KAB interface will only play as loud as the bluetooth gain on music, but in reality this is plenty loud in most cases. If you listen to a lot of classical or jazz that has much less compression this may not be the best setup for you. As I mentioned early on I gave up some volume on the coaxials to get the sub level high enough, and there really isn’t a way to get it back.

This was my first experience with the DSPB board and if you don’t like the sound of what I described, change it! They really are pretty incredible for the price and so far the performance has been very good. These aren’t anywhere near as powerful or transparent as my main setup, but for thirty-something bucks they kick butt and open up a whole new world of experimenting with all the filters you can create.

About the Designer:
Have been involved in audio for many years both as a hobby and commercially, nowadays I like to come up with projects as a creative outlet as much as selling anything.

Project Parts List:

Designer:
jedwards

Project Category:
Subwoofers

Project Level:
Intermediate

Project Time:
20+ Hours

Project Cost:
$100 – $500

Project Description:
the idea of the project was to complement an existing sub i have in my system. I am currently running a previous 12″ sub design in my home theater and wanted to get just a little extra “boom” in my set up.

Design Goals:
wanted to achieve a tight yet not over bearing “look” of the unit. wanted to keep in the same mindset as the previous unit. the first is cherry wood this unit is black. the idea was to have a seamless flow not only in the loo but also to complementing my Klipsh Atmos step up. it needed to sound a seamless part of the
system and not a “add on” that was noticeably obvious.

Driver Selection:
i went with a Dayton II 12″ Classic sub woofer . (no longer available) it has the tight bass response i was looking for . not and over excursion but had good timing response when called upon remotely. no extended reverberation. and has alot of overhead (turn way up with little distortion)

Enclosure Design:
again my design is the classic look of most subs, yet i did a lot of box work (finishing) to give it a stealth look. you wont immediately notice the box is there because it blends well int the setup. the box is a ported design with very tight construction well braced with 3″ port. will need to modify because of the air movement i have very slight port noise.

Enclosure Assembly:
took my time and did all cuts and joining together over a period of time (4weeks). was in no hurry for this would be in my living room and wanted it to look good. i have a workshop at my job so all tools needed are readily available. construction went well.

Crossover Design:
no crossover . i use a Dayton plate amp list below.

Conclusion:
i was able to achieve the clarity the look and the performance i was after. after a period of break in time it looks and sounds better that i had hoped. i keep things for a while so this will be with me for a long time. my next idea is to build a 15″ same concept. till then ill just enjoy the fruits of mu labor. peace!

About the Designer:
have been a parts express “geek ” for well over 15 years and enjoy building speakers just as long. i have built everything from towers to satellites to surround speakers and everything in between. not an “expert” by no means but TO ME my projects are expert. which is all that counts.

Project Parts List:

Designer:
Stephen Brauner

Project Category:
Tower Speakers

Project Level:
Intermediate

Project Time:
20+ Hours

Project Cost:
$500 – $1,000

Project Description:
Tower using two Lapai 2020’s
Four 6″ Pyle triaxials
Sure bluetooth card
Phono preamp

Design Goals:
Having built abut 8 single Lapai projects, I wanted to take it to another level

Conclusion:
Each Lapai powers a set of Pyle triaxials. Built of fir then covered with maple veneer. Finished with 5 coats hand rubbed urethane. Looks and sounds great

About the Designer:
Local artist in New Orleans, I build custom turntables as well as bluetooth speakers. stephenbraunerart.com

Project Parts List: