Threaded Megafoot (individual)
Megafeet are our best threaded footers, designed to screw into any existing chassis and speaker base threaded holes—or use the wood screw option. Threaded Megafeet are the best-sounding option for attaching footers to turntables and floorstanding speakers. You’ll hear dramatically deeper bass and cleaner midrange by replacing the factory’s inadequate feet (skinny steel spikes, puny aluminum or steel cones, or worst of all, rubber or plastic damped feet). Where the full-height Megafoot can’t fit because it’s too tall (3"), we offer the 2" tall Low Megafoot. Use it only if necessary; there’s a 15% reduction in performance.
For footers, bigger is better—even under light components. More mass means audibly lower resonances. Thirty seconds of listening to the prototype Megas under Mapleshade's modded Scott amp changed all our ideas about mass. The upgrade over our already superb sounding Triplepoints—more bass, more warmth, more ambience, more air and transparency—was way beyond what we had expected. At 3½ times the weight of Triplepoints, these are the most massive footers you’ve ever seen. If you’re using exotic magnetic levitators, air suspensions or rollers, utilize our money back guarantee to stage a shootoff. The Megas haven’t lost one yet.
• Choose our hanger bolt hardware option for screwing directly into wood or MDF.
• Choose our stud hardware option for attaching to a pre-threaded hole or threaded insert.
• To determine the thread size of existing feet on your component, either call the manufacturer or take one of the feet to your hardware store.
• The thread size will consist of two numbers, for instance 1/4" by 20 (or 6mm by 1, for metric threads). The first number is the diameter of the screw, the second is the pitch in threads per inch (or mm per turn, for metric).
• We stock 1/4 x 20, 3/8 x 16 and M6x1 thread sizes; we can custom match any U.S. or metric thread.
• If you have a Mapleshade Platform under your electronics, you will double its good effect by properly coupling the electronics to the platform with our brass footers.
Design Concept of the Mapleshade Component Mounting System
• Electrical currents (the music signals that drive your speakers) create unwanted vibrations inside every electronic component and speaker cabinet. These internal vibrations muddy the music signal much more significantly than external room vibrations do.
• Standard isolating devices like springs, rubber feet, sand boxes, magnetic suspensions, or air bladders trap the sound-degrading vibrations inside the component, exacerbating muddying of the music signals, especially in the bass frequencies.
• Hybrid isolation/coupling devices like Roller Blocks, IsoBearings, magnetic couplers, etc. purport to serve three essential functions —vibration transfer, vibration dissipation and external isolation—all in one nice, neat convenient footer. Unfortunately, these all-in-one devices serve none of their purported functions very well. That is to say, hybrid devices change the sound of your system and may even yield improvements in some areas, but with penalties in other areas, e.g better midrange detail but less warmth, increased treble clarity but more edginess,etc.
• Mapleshade's Component Mounting System serves all three above functions, but using an ensemble of three different devices, each optimized for one and only one function.
• First, Megafeet are designed only to cleanly drain out of the component as much of its internal vibrational energy as possible. They do so more effectively and sound better than any competing footer at any price (and are exceeded only by our Megamounts). Through long hours of listening experiments we have specifically optimized their shape, material, alloy, and mass to maximize the vibrations transfering out of the component and minimize vibrations transfering back into the component.
• Second, Mapleshade Platforms (or SAMSON shelves) serve as the sink for, or receiver of, vibrational eneregy transferred out of the component by the Heavyfeet, a sink intended to dissipate as much of this energy as possible. But no vibration transfer-dissipation system, including Mapleshade's, is 100% efficient - which is why the resonant quality of our air-dried maple is a significant element in the good sound of our component mounting system. Inevitably, some small percentage of the vibrations transferred from the component reflects back into the gear. The waveform of these reflected vibrations is changed (that is, distorted) by the acoustical transmission properties of the material of the sink or platform. Each specific material introduces different waveform changes; thus, each material "colors" the sound of your system differently. Even low quality generic, kiln-dried wood typically yields more pleasing sound than metal, stone, glass, MDF, plywood and the myriad of highly damped composite platform materials on the market. Our listening experiments demonstrated thick, air-dried maple to be less colored and closer to the sound of our master tapes than any other platform material—audibly better than harder or softer or denser woods, and notably better than comparable kiln-dried maple or maple butcher block.
• Third, Isoblocks serve to isolate the component and platform from reflected or external vibrations in the supporting shelf or floor. In this role they sound better than any of the myriad suspension systems we've tested: sand boxes, air bladders, sorbathane, Vibrapods, even megabuck megnetic suspensions or air suspensions. One exception: Mapleshade DOES NOT recommend using Isoblocks under speakers or speaker stands, as you'll notice if you peruse our speaker stand page. Because they let speakers rock slightly, Isoblocks produce somewhat muddier bass and softer image focus. Thus, under speakers and speaker stands we always recommend using brass footers. This is just one example of the attention to detail that has gone into the development of Mapleshade's deceptively simple-looking component mounting system. Our experience is that optimal mounting for electronics is different than for speakers; carefully scutinize any product that does not acknowledge this distinction.
• Footers work optimally on wood or MDF surfaces, but still give excellent sonic improvements on concrete, granite or tile. On glass you will hear excessive trebler brightness due to the strong high frequency resonance of glass reflected back into the footer. On glass, concrete, granite or tile, we strongly recommend adding a Mapleshade Platform under the brass footers; together they will yield a huge improvement over just footers.
• If you use three footers under a component, they do not need height adjustment. If you use four footers (for added stability), check each one to make sure it is bearing full weight. Typically one of the four will be too short and slightly loose due to slight unevenness of the equipment bottom or the mounting surface below; a loose footer causes audible sonic degradation. For unthreaded footers, use a shim above the loose footer to fill in the needed height. To shim, use 2x2 inch squares cut from standard manila folders (i.e., very hard cardboard). Even better is wood veneer or brass shim stock.
• Footer effectiveness is almost always improved by adding weight on top of the component. Brass weights sound much better than weights of lead, iron, bricks, stone or sand (that’s why we offer our Heavyhat brass weights). Weights sound best if supported on three sharp points (like our Heavyhat Triplepoints) rather than just resting on their flat bottom surfaces. Increase weight by increments of no more than 3/4 to 1-1/2 pounds. You’ll eventually reach a total weight where just one extra 1/2 pound dramatically dulls the sound; “eventually” may be as soon as the second weight. The optimum number of weights cannot be predicted and differs from one component to another.
• Solid, precision-machined brass
• Dimensions: 3" diameter, 2" tall
• Weight: 5 lb. 8 oz.