Correctly built into a speaker unit, they are not. With a clean, appropriate music signal, you definitely cannot destroy them. Even more, they will last longer than any other driver unit because the membrane material will not weaken in time. Treated carefully, even your grandchildren will still love them. Despite the fact that our ceramic membranes are very thin, (50 microns the tweeters and 100 or 150 microns the midrange- and bass-units) they do not break under normal listening conditions.
Ceramic and diamond cones are however brittle and therefore sensitive to severe overload conditions (i.e. excursion of more than double the rated Xmax - see driver specs). Both are also sensitive to touching by fingers or hard items - comparable to an eggshell. Actually, after we had equipped our drivers with a strong metal protection grid, claims of broken domes dropped to almost zero.
Yes, THIEL & PARTNER is the one and only company to produce real ceramic cones. We have seen other companies claiming to have ceramic membrane tweeters (only those) but this is bogus material and not pure corundum. These membranes usually have an undefined white powder coating on an aluminum cone and do not carry the physical properties of our ceramic units. The features and benefits of a real corundum membrane cannot be accomplished by these "so-called" ceramic units.
Of course we could. Nevertheless, we don’t think it would be wise. The more excursion, the more distortion and phase problems you will get, independent of driver design. Laws of physics dictate that. High end sound quality and high excursion are contradictory in this case, the only solution is to increase the membrane area.
Our 7-inch bass drivers of the C173-8-094 series have an Xmax of ± 4,0 mm, C173-6-095 series of ± 5,0 mm, which is ideal for units of this size. Expanding Xmax would sacrifice other performance data for an excursion that is needed only for a very small percentage of time of your normal listening conditions. To improve bass performance it is much better to stack 2 or more bass units to enlarge the radiating surface area. With our high impedance bass-drivers with up to 12 Ohms, this can be done in parallel wiring.
No, not at all. The inventor of the ceramic membranes is called Bernhard Thiel. This name "Thiel" is quite common in Germany and we have a simple equity of names here with the late american born Jim Thiel. To avoid any mix-up of company names, we have used and registered the brand name ACCUTON for our loudspeaker drivers long ago. These are all manufactured in the same factory in Bexbach, Germany. For more information, please refer to our company history. The Accuton company is called "Thiel & Partner GmbH" for legal reasons applicable in Germany by the founding time 1994. 1923Turk Tugay
Due to the concave shape and the pure piston movement, ceramic drivers have an extremely widespread energy distribution and therefore a lower on axis sound pressure. The good thing is that this will widen your "sweet spot" enormously and give an equal and filling sound all over your listening room. It is therefore recommended to adjust the amplitude curve of a loudspeaker system to be flat or even slightly dropping to the higher frequencies to achieve an even energy distribution. Hence, you have to compare our tweeters to units with on axis pressure that is 2-3 dB higher. We use fairly small (and lightweight) voice-coils for our drivers that require a hole in the pole piece. If this is too small, we suffer cavity resonances and a raised resonant frequency. Is it too big, the pole piece saturates too early and this restricts magnetic flux. We therefore have to find a compromise either towards efficiency or towards sound quality. We have always chosen sound quality.
Yes, our drivers are idealy suited for first-order filtering since they cover a very wide bandwith in a linear and piston like motion. Even the tweeters and midrange units are capable of unlikely high excursions and have a high power rating. An extremely low and well damped resonance peak requires usually no or very little equalization. We do recommend first order filtering for both, active and passive loudspeaker boxes.
Cheap tweeters use the same material (cloth, silk, aluminum, titanium or whatever) for both, surround and membrane, which is easy and inexpensive to manufacture. It is not smart however, since membrane (stiff) and surround (flexible) serve completely different functions in a driver. On top of that, at higher frequencies, parts of the membrane will decouple from sound radiation. This gives higher on-axis sound pressure but unwanted phase shift and worse energy distribution than with ACCUTON drivers.
Ceramic membranes work - unlike others - like an ideal piston over the entire recommended frequency band. This is due to the fact that we use an extremely hard membrane material that doesn’t bend and a soft fabric surround that yields an undisturbed and phase-stable piston-like motion. The concave shape of our ceramic dome gives a better distribution pattern than ordinary tweeters have and much lower distortion. It\’s in essence the design of a minute bass driver. Needless to say that all components that we use are of the best quality material we can get. The frontplate - for example - is made of heavy, acoustically inert zinc instead of plastic or aluminum. We are using up to five times more parts than in conventional tweeters and it takes - in average - more than one hour of assembly time to make an ACCUTON unit.
All hard membranes tend to have break-up modes at higher frequencies. Without the "ears" or "eyes" we would have peaks at the upper end of the driver bandwith. Although this happens well above the audible range - for C25 series above 35 kHz and for C30 series above 24 kHz - we don’t like the idea of these peaks interfering with lower audible frequencies. The "ears" are a very efficient method to damp membrane resonances and to cancel these unwanted peaks. Yet they are very difficult and costly to manufacture and this is the reason why nobody else does it. The small "ears" of the tweeters are assembled under large binoculars to ensure the correct position. The "eyes" of our new bass-midrange units lower the cone breakup peak significantly and enable speaker designers to use those drivers over a wide audio-bandwith with a first order filter.
Some people are preocupied about ferrofluids, but probably they don’t know that there are more than 50 variations (and qualities) and different viscosities for each one. Choosing the right type and quantity is an art and can improve the performance of a driver significantly. The type we are using is of very low viscosity and will not slow the driver’s rise time - as you can see from step response measurements - but improve decay and distortion. The ferrofluid forms a pneumatic seal between the inner and the outer rear chamber to present a symmetrical air-load to the ceramic membrane. The power handling capacity is more than doubled and the resonance peak of the impedance curve becomes almost invisible. The decay of the driver and it’s distortion is also dramatically improved. We would love to save the very expensive ferrofluid but we would sacrifice sound quality this way.
|Menu Level 1||3|
|Menu Level 2||3|
|Menu Level 3||4|