You’re probably here because you’re looking for bass.
Not bass , BASS!
and not any BASS!
You’re looking for SPL BASS!
That kind of BASS that makes girls’ hair fly, windows blow out, and dogs howl…

Shattering Rediculous Bass

We’re talking today about big bass that can hold a presence at a Sound Pressure Level (SPL) competition.

The trick to SPL is a combination of three things:

1- Choice of subwoofer (Driver)
2- Choice of enclosure (Box)
3- Amount of power (Wattage).

If we take the first item and scrutinize it, then a good SPL subwoofer will be designed in a way that allows it to reach peak pressure levels at a single dedicated frequency, in a signle dedicated enclosure, playing the perfect track, and measured at exactly the right place.

One of the things to consider here are the mechanics and electrics of the speaker …

A speaker with a larger area (such as a 15 inch subwoofer compared to a 12 inch subwoofer) will be able to move more air per stroke. The more air we can move, the more air (sound) pressure we can create, and the higher the SPL.

At the same time different speakers have different stroke lengths (how far the speaker moves forwards and backwards in a bass hit) known as xMax (maximum excursion). A speaker with double the xMax will move double the air volume per stroke compared to a similar diameter speaker.

Thirdly, speakers have a resonant frequency FS where the speaker is most happy to move at its maximum stroke and can make the most out of it size performance. For example a speaker with a resonant frequency of 50hz when coupled with a box enclosure that allows it to play at 50hz will be able to produce 25% more air volume in a second than a similar driver with a resonant frequency of 40hz playing at 40hz.

Obviously if we’re looking high quality bass (at all frequencies) we would not want to amplify the resonance characteristic of the driver… but if you’re looking for that single high pressure competition winning bass hit, then milking every advantage that you can out of your speaker becomes necessary.

Because it’s complex to measure these things and simulate them, engineers have come up with a standardized measure of SPL performance for a speaker called sensitivity. Sensitivity is typically between 80 and 100 dB @ 50hz @ 1 Watt @ 1 meter.

What this means is that a speaker with a sensitivity of 85dB will create 85 decibels of sound pressure when playing a 50 hertz sign wave and powered with 1 watt of power measured at a standardized distance of 1 meter away.

Based on this information, I have chosen to showcase two drivers here that I would gladly take into competition…

Pyle PLD15WD

Custom Titanium Moulded Poly Cone
Custom Grooved Specially Treated Rubber Surround
Diamond Cut Aluminum Die-Cast Basket
Dual Stacked Magnet Structure
Chrome Mesh Magnet Vent
2.5” 4 Layer Dual Voice Coil
Moulded Plastic Gasket
Spring Loaded Wire Connectors
4000 Watts Peak Power
Magnet Weight: 2 x 100 oz.
Nominal Impedance: Dual 4 Ohms
Fs:20,
Qms:5.03,
Qes:0.89,
Qts:0.66,
Vas (Cu ft)8.689
SPL: 92 dB
Overall Diameter: 16”
Mounting Depth: 6.40”

What’s great about this driver is that it combines higher power handling (4000 Watts at peak) WITH high sensitivity over 90dB (92 dB to be exact).

Let’s take this subwoofer, and mount it in a 9 cubic foot enclosure, powered by a 4000 watt amplifier, and ‘wall loaded’ playing upwards and reflecting into the passenger compartment reflected off of the glass hatchback…

Measuring the resulting sound pressure level about 6 feet away in the driver seat will result in an impressive 126 dB SPL!

This is 4 times louder than the maximum recommended safe listening level of 110dB and if you listen to it straight for more than 6 minutes it WILL cause hearing loss… (not that you will be listening to it at full blast from your driver seat… ) but when competition comes around, or you and your friends are having a sound off… this thing will shake the earth.

Note: Click here to get your Pyle PLD15WD 15 inch SPL competition subwoofers, get pavement-cracking BASS, and save 115 dollars off retail!

Technorati Tags: 4ohm, dB, DVC

Hand Made Skin Drum

Tube enclosures are very efficient enclosures for bass creation and subwoofer applications. If you think about it, tribes used to use hollow logs and tube shapes to create their ancient drums. To this day, with advanced technology, acoustic modeling, and ‘if you can dream it , we can build it’ machining, we still have circular drums. Think about it, have you ever seen a square bass drum before ?

Now there are two reasons that a tube is very efficient at creating and amplifying bass frequencies:

1. A tube matched to the size of the drum surface (the drum skin) or in our case to the size of the subwoofer has it’s entire surface area in contact with the subwoofer surface.

So, any motion in the subwoofer, moves the entire air column in the tube, this is unlike a square shaped enclosure that allows for stagnant air to be trapped or turbulent in the corners of the subwoofer enclosure, a phenomenon that can create enclosure noise and bass distortion.

2. In a tube shaped enclosure, no two surfaces are parallel to each other except for the tube end plates (one of which has the subwoofer mounted to it). This prevents any standing waves of any frequency to exist inside the enclosure and is the primary reason a tube system requires less power (is more efficient) to create more base.If the enclosure were to resonate internally due to the parallel faces creating standing waves, then the subwoofer would have to overcome the pressure of these standing waves to create it’s own pressure waves in accordance with the music. This energy is wasted by the subwoofer and requires a higher power amplifier to create the same level of loudness.

If you’ve seen certain subwoofer boxes that are fairly deep (deep enough to create audible internal standing waves) you’ll find the front panel of the subwoofer box is mounted at an angle which prevents the same internal resonance phenomenon from occurring in a typical box enclosure.

Now here’s a product that takes advantage of this design:

Bazooka BTA 8100

The bazooka BTA8100 stands for Bass Tube with Amplifier 100watts. The BTA8100 uses a dual voice coil 8″ subwoofer powered by a  ’small’ two channel 100 watt RMS amplifier (also verified by the 7 amp fuse on a 14 volt system), that can peak at 200 watts momentarily to create a significant amount of bass from a very small enclosure.

The way the Bazooka bass tube creates such a big boom from a small enclosure is that it:

1. Uses a bass tube which is very power efficient
2. Focuses all of the energy on a very narrow frequency range of 35 to 85hz leaving out midbass and subsonic frequencies and focusing all the power on where most music ‘booms’ which is a pretty efficient way to add bass that most people will appreciate.
3. Uses a ported enclosure to further amplify the system response around the bass port tuned resonant frequency by 3+ db as per a typical ported system.
4. Brings the bass port all the way to the front to exit in the same plane as the subwoofer, usually a bassport tuned for a 1/4 wavelength and exiting in the same plane as the original speaker driver helps improve the subwoofer’s response in a vented or ported system to bring it closer to the response of a sealed system, while having the 3db gain advantage of the ported design.

Now we know the bass tube is 18.5″ long and so the length of the enclosure is double that (as the wave travels from the subwoofer surface, to the rear faceplate and backfowards to the port exit) of 37″. In free air, with no internal padding, at 30*C this 37″ corresponds to 1/4 of a 148″ wavelength which corresponds to a tuned frequency of 93hz which is very close to the highest cross over frequency of the 85hz low pass filter.

So the result of all of this efficiency, design and bass reflex tube tuning is an impressive 102dB sensitivity at 1W @ 1 meter.

Being a 100W RMS system, this system is best used in an open cabin such as in a hatchback or behind the rear seats of a Jeep. This allows the bass to travel easier into the compartment than it would if the system was installed in a sealed trunk in a sedan.

One thing Bazooka recommends to improve further improve how hard the system hits is to ‘corner load’ the subwoofer by installing the subwoofer (and the bass port) in a way where it is playing into the corner of the rear hatch or trunk area about 3″ to 5″ from the walls. Typically a subwoofer is rated (to 102dB in our example) by placing it in an open space and measuring it’s sound pressure, using 1 watt of power, with the microphone or pressure meter 1 meter away. This arrangement allows the subwoofer to play bass in all directions in 360 degrees of space.

Corner loading reflects half to 3 quarters of the sound wave to play in the opposite direction giving a bass boost.

By corner loading a subwoofer (and placing it in the corner), half of the audio is played out into space while the other half is reflected off of the wall (the corner) and played into the SAME space. What this does is that it allows both halves of the sound (the primary wave and the reflected wave) to stack up on top of each other giving between 6 and 12dB of additional bass gain using corner loading and room gain.

So what is the best application for this bass tube?

Because of how well the Bazooka tube is designed you will typically find TWO types of reviews on the internet for it:

1. WE HATE IT!

   The reason some people hate the bazooka tube is that it does not perform like a larger 15″ subwoofer in a 3 cubic foot enclosure. The bazooka tube does not play subsonic bass (typical of some genres of music) nor does it play good midbass in the 125 to 500hz region. So people that buy the Bazooka tube with the expectation that it is the same as having a full custom subwoofer box in their trunk, that they will be able to rattle the doors off of their car, or that they will be able to rumble the guy next to them at the stop light with 16 hz subsonic frequencies will be dissapointed.

2. WE LOVE IT!

   The people that love the Bazooka tube love that it is portable and easy to install and remove. Think of a Jeep Wrangler owner that loves to take his car apart, take the top off, remove the doors, take it in the mud, have a bass tube in the back that you can install and uninstall in no time. Have a plastic bass tube that isn’t carpeted that you can get wet or muddied (Bazooka even sells marine bass tubes that you really don’t have to worry about with water , rain and the elements).

   Or maybe you have a sound system that is completely flat on the low end and has no bass what so ever ? You want a quick , cheap, and very effective solution at adding some boom to your ride. Enough boom to be noticeable, to dramatically increase your enjoyment and your listening experience and something that your passangers will defiantely notice. At the same time you’re not looking to shatter glass, break any SPL competition records, or have your bass heard anywhere OUTSIDE of your cabin.If you’re this kind of person, you will love the bass tube, as it compliments your factory speaker arrangement (which typically does well for midbass, midrange and treble if you already have high quality speakers in there), and it will fill out the missing POWER in your music.

Here’s a great video of a larger application of a tube subwoofer

It’s really important to understand how a product works, and what it’s designed for, to get the most out of it and to know what to expect with it …

Note: Click here to get your Bazooka Subwoofer Tube and get $70.00 off!

Technorati Tags: 4ohm, Car Subs, dB, DVC, Vented

The first time I attempted to build a subwoofer cabinet was back in 1999. Back then I was big into the music and DJing scene and wanted to add something to compliment our communal practice session setup. The setup had a great set of technics MK12 turntables, a Numark mixer with great feeling sliders and a nice LED matrix that can help you visualize the mix. We had the whole system running through an off the shelf 50 watt speaker setup that was very subpar so I decided that speakers and an amp would be my addition to the mix.

The objective:

One big downside to traditional PA speaker systems is that they relied on two drivers: A subwoofer, and a horn driver to cover the entire aural spectrum. The problem with this setup is its loss of fidelity for midrange frequencies which are very essencial to genres such as psychadelic trance, vocal trance and jazzy house. So the plan was to build a capable cabinet system that combined enough thump to fill up a house party littered with DJ’s and local talent, all the while being able to give a more rich audible experience than the typical 2 driver PA speaker (which is obviously designed more for filling a bigger room than filling it beautifully with perfect music).

The speaker design was simple and effective based on cheap (I was a college student at the time) but effective components:

Components:

A pair of crunch audio 15 inch subwoofers (one per cabinet), rated at 300Watts.
Four Midrange 5.25 inch speakers. Each of these would be able to handle 150Watts and so 2 were wired up per cabinet matching the 300Watt sub with a 300 Watts of midrange.
Two 3″ titanium bullet tweeter horn drivers, capable of an insane 300 watts each with a frequency response down to 3000 hz. Again one per cabinet to match the 300Watt mids and Lows.

At the time I couldn’t find a single 300 Watt midrange speaker so I used two 150 watt speakers instead of a single 300watt midrange driver.

The crossover:

Clarion CD360 pre-amp crossover

Using my knowledge from electrical engineering classes I was taking at the time, I designed a simple 3 way crossover with a slope of 12db/Octave based on the impedances of the components that I had already acquired. I threw up the design into PSpice and simulated the crossover’s performance and optimized it, when that was done, I went shopping and picked up the closest inductors and capacitors I could find to the design values to build my Xover. Nothing in the real world is as perfect as it is when it’s designed on the computer. But the result was close enough to be awesome.

One of the other constraints of building this crossover is the fact that we’re crossing over the amplified signal. This means that all the components in our crossover need to have the current handling to be able to withstand 900 Watts of power without overheating and melting. As a solution to this design requirement, you’ll find that some home power audio manufacturers try to cross over the un-amplified audio signal between the signal source and the amplifier rack using a cheaper crossover network. This approach also opens up the opportunity to using different amplifiers for different goals within the system, such as using a power efficient class D MOSFET amplifier for the bass, while using a minimal distortion Class A or Class AB JFET amplifier for the mids and the highs.

Since my system was designed to be a versatile system to be used at home and on the road for events and parties, I chose to use an amplified crossover inside the cabinet housing to simplify using the speakers with any amplifier setup.

The cabinets:

Ported MDF woofer cabinet.

The whole concept of this cabinet was the combination of high SPL with High Quality audio. With a typical 15″ subwoofer you find the setup always lacking some response, with a bigger bass sound but less definition on the faster bass hits. To avoid this stereotypical view of 15″ subwoofers I decided to make a fortified sealed box enclosure to place the subwoofers in rather than a louder vented enclosure. The box was built of 1/4″ MDF (medium density fiberboard), lined with fiberglass sound deadening to reduce enclosure noise, and sealed entirely with silicone caulking to prevent air leakage. If I recall correctly, the design parameter for minimum enclosure space was around 2.5 cuft, so I went with a larger ~3 cuft enclosure.

In order to prevent interference and distortion between the drivers for the bass, midrange and highs, the internals of the enclosure were baffled to section off each portion of the cabinet with 1/4″ MDF and also sealed with silicon caulking after running the wiring between the different internal chambers.

Testing:

Once the cabinets were finally completed, there was a nice amount of ‘theoretical’ debate between myself, my electrical engineering colleagues, and my DJ friends as to weather the final result was in fact a 300 Watt or a 900 Watt system.

After a lot of debate and back and forth conversation I reluctantly agreed to put my product to the test … If you’re familiar with ‘type testing’ procedures, all regulated industries usually ‘type test’ their products to determine maximum tolerances, maximum power handling, limits of destruction and tolerance…etc. I feared that this outing to my friend’s house would end up as a ‘type test’ for my cabinet and that my two weeks of hard work cutting / drilling and assembling MDF would end up with a blown cabinet just to prove the theoretical limits of this cabinet.

At my friend Joe B’s house we hooked up one of my ‘300′ watt speakers to his 1000Watt per channel Mackie amplifier. This amplifier was the corner stone of his own home style DJing and practice station, one that he also took to smaller style events to drive the PA system. We hooked up my speaker to the Mackie, and JoeB put one of his favorite records records on the Tech-12s and started to play… slowly and hesitantly JoeB turned up the gain on his amplifier looking for where and when the speaker would start to complain or distort…

As the knob turned farther to the right, I became more and more anxious , but the midrange and titanium tweeter drives came more and more to life and the system was just insane. The goal of having a high power and clean sounding system with liquid midrange , hard hitting bass, and crisp highs was obviously over acheived and I had apparently over engineered my subwoofer for the target. The knob kept turning right and my fears of blowing my speakers turned to elation and euphoria … Eventually Joe accelerated the rate at which he turned up the volume and cranked the system to MAX gain !!!!! 1000 Watts of Mackie power were now pumping through my ‘home made’ and ‘first ever’ made cabinet and the EQ had to be adjusted with negative corrections past 2000hz to make up for how vivid the mids and highs were… and all in all, the speakers did not complain, distort, or skip a beat.

Despite being a heavy MDF cabinet, on a hard wood floor, the sheer amount of power driving through the speakers made it start to walk across the room floor .

I later took my speaker home and realized that our little test on JoeB’s amp had finally broken in this cabinet and the system had never sounded so good.

Takeaways:

Simulation of a 3rd order crossover network

The only thing I didn’t know at the time about speakers and subwoofers was the true meaning of sensitivity in db. In order to achieve my goal of matching my subs to my mids to my highs in order to build a cabinet that could in all of its components take the abuse of 900 watts, I ended up buying the highest powered midrange speakers I could find at the time (10 years ago) with a rating of 150Watts each. These speakers although had good power rating, had significantly lower sensitivity than my subwoofer and my tweeters.

The result of this mismatch is that when using the cabinet at a lower power level (such as when we had friends over for a DVD night) that the midrange on the speakers – which is where the dialog is in the music spectrum – had a little less gain than the rest of the system. The bass, effects and rumble of the subwoofers were great, the highs were clear and crisp, but unless you were driving the system hard at a house party, at lower power levels the mids were a bit flat.

If you are working with a low power source such as a stock head unit or are going to be using your system at lower power levels often, try to choose speakers and subwoofers with a higher senstivity rating. Speakers with a higher sensitivty rating are able to produce higher sound pressure levels (measured in dB at a standardized distance of 1 meter away from a speaker driven by 1 watt of power) from the same amount of power. That is a speaker with 92db senstivity is about 11 times louder than an 88db speaker running at the same power level.

So if you’re going to power your speakers from a low power source, use higher sensitivity speakers. And if you’re building a balanced cabinet or a balanced system, choose speakers with close or the same sensitivity so that you don’t have to re-equalize your system every time you crank the volume knob.

Note: Interested in a pre-amp crossover for your system, check out this clarion MCD-360 two way / three way crossover, save 127 dollars off of retail and build a subwoofer system to enjoy clean undistorted bass.

Technorati Tags: 4ohm, Crossover, dB, SVC