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18" 800 Watt - EMINENCE OMEGA PRO-18A 18" CAST FRAME DRIVER 15" 600 Watt - EMINENCE KAPPA PRO-15LF-2 15" CAST FRAME DRIVER 15" 500 Watt - EMINENCE DELTA-15LFA 15" LOW FREQUENCY DRIVER
Regular Price: $399.98
Your Price: $199.99
Regular Price: $349.98
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Regular Price: $189.98
Your Price: $94.99
EMINENCE OMEGA PRO-18A 18 inch CAST FRAME DRIVER EMINENCE KAPPA PRO-15LF-2 15 inch CAST FRAME DRIVER EMINENCE DELTA-15LFA 15 inch LOW FREQUENCY DRIVER
290-428 290-420 290-417
15" 300 Watt - EMINENCE BETA-15A 15" DRIVER 15" 200 Watt - EMINENCE ALPHA-15A 15" DRIVER 18" 2500 Watt - TECHNICAL PRO 18" DRIVER
Regular Price: $159.98
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Regular Price: $258.00
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EMINENCE BETA-15A 15 inch DRIVER EMINENCE ALPHA-15A 15 inch DRIVER 18" 2500 Watt - TECHNICAL PRO 18" DRIVER
290-410 290-407 Z-18.1
15" 2000 Watt - TECHNICAL PRO 15" DRIVER 1500 Watt - TECHNICAL PRO 12" DRIVER TWEETER - WIDE DISPERSION PIEZO
Regular Price: $218.00
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Regular Price: $9.98
Your Price: $4.99
15" 2000 Watt - TECHNICAL PRO 15" DRIVER 1500 Watt - TECHNICAL PRO 12" DRIVER TWEETER - WIDE DISPERSION PIEZO
Z-15.1 1500 Watt - TECHNICAL PRO 12" DRIVER 270-011
TWEETER - 3" x 7" WIDE DISPERSION PIEZO HORN MID/TWEETER BULLET PIEZO HORN DRIVER HORN LENS 15-3/16" x 5-1/8" x 6"
Regular Price: $9.98
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Regular Price: $15.98
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Regular Price: $21.98
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TWEETER - WIDE DISPERSION PIEZO BULLET PIEZO HORN DRIVER BULLET PIEZO HORN Lens
280-062 270-069 270-099
Goldwood GM-500CD 1" Horn Driver 1-3/8"-18 TPI
Regular Price: $39.98
Your Price: $19.99
Goldwood GM-500CD 1" Horn Driver 1-3/8"-18 TPI
Goldwood GM-500CD 1" Horn Driver 1-3/8"-18 TPI
   
 
In any sound system, ultimate quality depends on the speakers. The best recording, encoded on the most advanced storage device and played by a top-of-the-line deck and amplifier, will sound awful if the system is hooked up to poor speakers. A system's speaker is the component that takes the electronic signal stored on things like CDs, tapes and DVDs and turns it back into actual sound that we can hear. In this article, we'll find out exactly how speakers do this. We'll also look at how speaker designs differ, and see how these differences affect sound quality. Speakers are amazing pieces of technology that have had a profound impact on our culture. But at their heart, they are remarkably simple devices. Sound Basics To understand how speakers work, you first need to understand how sound works. Inside your ear is a very thin piece of skin called the eardrum. When your eardrum vibrates, your brain interprets the vibrations as sound -- that's how you hear. Rapid changes in air pressure are the most common thing to vibrate your eardrum. An object produces sound when it vibrates in air (sound can also travel through liquids and solids, but air is the transmission medium when we listen to speakers). When something vibrates, it moves the air particles around it. Those air particles in turn move the air particles around them, carrying the pulse of the vibration through the air as a traveling disturbance. To see how this works, let's look at a simple vibrating object -- a bell. When you ring a bell, the metal vibrates -- flexes in and out -- rapidly.
 
When it flexes out on one side, it pushes out on the surrounding air particles on that side. These air particles then collide with the particles in front of them, which collide with the particles in front of them and so on. When the bell flexes away, it pulls in on these surrounding air particles, creating a drop in pressure that pulls in on more surrounding air particles, which creates another drop in pressure that pulls in particles that are even farther out and so on. This decreasing of pressure is called rarefaction. Differentiating Sound We hear different sounds from different vibrating objects because of variations in: Sound-wave frequency - A higher wave frequency simply means that the air pressure fluctuates faster. We hear this as a higher pitch. When there are fewer fluctuations in a period of time, the pitch is lower. Air-pressure level - This is the wave's amplitude, which determines how loud the sound is. Sound waves with greater amplitudes move our ear drums more, and we register this sensation as a higher volume. A microphone works something like our ears. It has a diaphragm that is vibrated by sound waves in an area. The signal from a microphone gets encoded on a tape or CD as an electrical signal. When you play this signal back on your stereo, the amplifier sends it to the speaker, which re-interprets it into physical vibrations. Good speakers are optimized to produce extremely accurate fluctuations in air pressure, just like the ones originally picked up by the microphone. In the next section, we'll see how the speaker accomplishes this.
 
Making Sound In the last section, we saw that sound travels in waves of air pressure fluctuation, and that we hear sounds differently depending on the frequency and amplitude of these waves. We also learned that microphones translate sound waves into electrical signals, which can be encoded onto CDs, tapes, LPs, etc. Players convert this stored information back into an electric current for use in the stereo system. A speaker is essentially the final translation machine -- the reverse of the microphone. It takes the electrical signal and translates it back into physical vibrations to create sound waves. When everything is working as it should, the speaker produces nearly the same vibrations that the microphone originally recorded and encoded on a tape, CD, LP, etc.
 
Sealed Speaker Enclosures In most loudspeaker systems, the drivers and the crossover are housed in some sort of speaker enclosure. These enclosures serve a number of functions. On their most basic level, they make it much easier to set up the speakers. Everything's in one unit and the drivers are kept in the right position, so they work together to produce the best sound. Enclosures are usually built with heavy wood or another solid material that will effectively absorb the driver's vibration. If you simply placed a driver on a table, the table would vibrate so much it would drown out a lot of the speaker's sound. Additionally, the speaker enclosure affects how sound is produced. When we looked at speaker drivers, we focused on how the vibrating diaphragm emitted sound waves in front of the cone. But, since the diaphragm is moving back and forth, it's actually producing sound waves behind the cone as well. Different enclosure types have different ways of handling these "backward" waves. For more replacement speakers go to www.ReplacementSpeakerWarehouse.com