Taralabs cables

The both of you are finding any thing you can to dirupt this thread, and to discredit Tara labs!, for your history lesson, the cables from years ago was the cheapest models of Tara labs that was in that cable scandal,most during that scandal was made in the U.S., All Tara Labs cables for years now have been made entirly in the U.S.A.!, now you do not want a law suite on your hands do you for spreading false information?, also OCC copper is absolete!, I have told you numerous times that Tara Labs conductor's are superior to the OCC copper, their is trade marks, patenents etc... Tara labs has on their conductor's, everything I have ever posted is true about Tara labs, if I where you I would stop while you are ahead,LOL!, also, if any of you believe that Tara labs bought such reviews is off, some of the other cables scored good as well, Stereophile had something to say about all of them they reviewed, an example of what I am saying is, some audiophiles may not like a organic mid-range sound, if not, do not buy the Tara Labs Evolution Zero and Evolution Omega cables then, there is different tast for different listeners!, the both of you are not worth my time explaining what you do not know or care to know, how about just get these cables to audition, get sick, you know it's over, you will not be the same, you would be embarrassed on how good these cables sound, you know that and I know that, the both of you are just playing games here with me, not going to get any more attention from me, some one else will give you that.

how many times can you not read?, really!, Conductor Information

The RSC Gen 2 (SA-OF8N) Conductor

Super Annealed, Oxygen Free, Eight Nines Copper (SA-OF8N) is the new standard in high performance copper purity.

TARA Labs Rectangular Solid Core® conductors are completely produced in the USA. We start with Oxygen Free Eight Nines Copper (99.999999%), and the copper rods are extruded into long, unbroken, mono-crystal copper rectangular conductors. The conductors are extruded into a unique rectangular shape having specific ‘frequency-tuned’ proportions. Rectangular Solid Core conductors are annealed with a process known as Super Annealing™.

Super Annealing™ or SA, softens the RSC® conductor and increases its conductivity. After annealing, the RSC conductors are polished in-line, and will become finished SA-OF8N® Rectangular Solid Core conductors ready for insulation using advanced polymers or liquid-film technology.


TARA Labs has continuously advanced the design and materials used in its conductor technologies. Previously, in our lower priced consumer grade cables, we were limited to the use of 6N, or six-nines (99.9999%) pure copper and the OCC or Ohno-Continuous Cast copper technologies.

Since the development of Rectangular Solid Core, we have moved beyond these lesser quality materials with the use of higher purity copper and our exclusive USA technologies.
Making Sense of….Gen 3 Conductors

TARA Labs, Inc. has just announced the introduction of its Generation 3 Rectangular Solid Core® conductor, to be used exclusively in its state-of-the-art interconnect cables.

TARA Labs claims that the Gen 3 conductor has an increased bandwidth or high-frequency extension, that makes it unrivalled in important test measurements and listening tests.

TARA Labs’ Vice President of Product Design, Matthew Bond, said that the new Gen 3 conductor has the same current-carrying capability of a 28 gauge conductor but has the high frequency linearity of a 40 gauge conductor.

Matthew Bond explains why this is possible. “In a conductor with a rectangular profile, there is a huge reduction of ‘flux-linkage’ or ‘coupling’ of electromagnetic lines of force. These lines of force are created as the signal (music) passes through any conductor.” Bond said further, “In a round conductor there is a large center that tends to roll-off or attenuate much more of the high frequency information … this does not happen in a Rectangular Solid Core® conductor”.

According to Matthew Bond, the new Gen 3 Rectangular Solid Core® conductor is smaller than the current Gen 2 conductor used in most of TARA Labs’ audio cables. The Gen 2 conductor measures approximately 25 thousands of an inch wide and 12 thousands of an inch in height. Bond says that the Gen 3 conductor is about 66% of the size of the Gen 2 conductor, and that it is Super-Annealed™ to increase its conductivity.

Both the Gen 2 conductor and the smaller Gen 3 conductor are said to be Eight-Nines™ pure copper, which is 99.999999% pure. TARA Labs’ trademarks for this technology are 8N™ and SA-OF8N®. SA-OF8N means Super Annealed – Oxygen Free 8 Nines copper. According to Bond, the term ‘annealing’ refers to the method whereby a conductor can be made softer and more conductive.

TARA Labs is widely known as the leader in cable technology and audio cable design. They are based in Ashland, Oregon. All cables are hand-made in the USA.

Controlled & Extended Bandwidth Info

If you could improve the sound of your audio system, what would that be? Expansive soundstage? High-frequency detail? Less glare? Warmth & richness?

TARA Labs cables are the perfect match for any audio system, regardless of the combination or complexity of the components you have. If your "sound" needs more detail, more air, expansive soundstage, or if you feel there is too much high-frequency glare, or your sound lacks warmth? Our new Controlled Bandwidth and Extended Bandwidth cables will not only upgrade your sound, but will also enable you to have the perfect relationship between component and cable.



Controlled Bandwidth & Extended Bandwidth Information

TARA Labs is known as one of the worlds' leading manufacturer of high-end audio cables. Currently the business model employed by the company has been one of both technological innovation and design. This ideology has enabled TARA Labs to remain at the cutting edge of the high-end audio industry. With an eye towards continual manufacturing advancements being made in audio components such as speakers and amplifiers, TARA Labs continues to lead the industry in developing new cutting-edge technologies. Our latest research and development has enabled us to create new reference grade audio cables that work extremely well with many of the newly developed materials used in speakers such as Beryllium, Titanium, Kevlar, and Ceramics in addition to standards such as carbon-fiber, fabrics, polypropylene, paper, etc.
TARA Labs are categorized into two lines: Controlled Bandwidth and Extended Bandwidth. These two categories offer a wide range of reference-grade cables that will enable the audiophile to accommodate and upgrade the majority of the high-end audio components available today.

Controlled Bandwidth

The ISM™ OnBoard Series of cables employs the Controlled Bandwidth technology from TARA Labs. The ISM™ OnBoard Series presents a range of cables with more presence, mid-range warmth and richness without sacrificing detail and high frequency extension.
A common misconception is that the words warmer and richer may indicate a sound with smearing or coloration of the upper bass through mid-range frequencies. This is not the case with any of TARA Labs' cables. The sort of smooth or rolled-off sound is found most often with cables that employ filtering such as inductors and resistors found in network filter box designs. By contrast, the sonic signature of a TARA Labs cable is one that is more coherent and natural. The sound is often described as being lifelike with bloom and body.
The ISM™ OnBoard Series of cables is especially recommended for systems that have wide-bandwidth electronics (with limited filtering*), or with systems that use loudspeakers that have a tonal balance that emphasizes the high frequencies. In general the ISM™ OnBoard Series (Controlled Bandwidth) is recommended for systems that are slightly etched sounding or overly detailed, perhaps with a sense of glare.
*Higher frequencies in the RF bandwidth, or Electromagnetic Interference (EMI) can be picked up easily by longer lengths of interconnect cables, especially those with low Capacitance. Connecting this type of cable (especially single-ended) between high-powered solid state amplification can sometimes be a problem with components having limited filtering.

Controlled Bandwidth - Onboard Capsule

The ISM™ OnBoard concept is unlike traditional shielding methods or filter networks. Even complex shielding methods still remain in proximity to the conductors, thereby distorting the audio signal. Filter networks in boxes at the ends of the cables often contain low quality resistors, inductors and capacitors to perform the filtering. These reduce RFI/EMI in the cable itself by being soldered in series and parallel between the signal conductors. This alters the integrity of the signal, in particular, the higher order harmonic structure of the music.


In the ISM™ OnBoard system, RFI/EMI is dissipated and absorbed within the OnBoard capsule. This function occurs in isolation from the signal conductors.

The signal path is not cut and fitted with additional components. The OnBoard capsule is effective in eliminating the noise of RFI/EMI without the attendant high-frequency anomalies of filter networks.

Extended Bandwidth

What this means is that the cable design employs a cable construction that takes advantage of the electrical characteristics such as Capacitance and Inductance. For example, we can reduce the Inductance in a simple conductor by changing its size, and in the case of a Rectangular Solid Core(R) the shape of the conductor can reduce the Inductance in the conductor. By reducing the Capacitance value in an Interconnect cable, we can extend the high frequency detail. These factors, including reducing the dielectric construction in a cable will make the cable sound more open and neutral.
The Extended Bandwidth Series of cables is recommended for most audio systems. A very good example of the EX cable design philosophy is the Air Series of cables from TARA Labs. In most systems, the Extended Bandwidth cables deliver a sound that is more revealing, open, neutral and transparent.
Most audio electronics use filtering and do not amplify extremely high frequencies such as RF/EMI. The best loud-speaker systems are generally phase coherent and do not sound forward or overly harsh, or even bright. However there are some combinations of audio electronics and loudspeakers that create strain or glare in the sound.

Extended Bandwidth – w/HFX Floating Ground Station

The HFX Floating Ground Station is an extraordinary component that is included with all reference Extended bandwidth interconnect cables. TARA Labs proprietary ground station is made of mil-spec aluminum alloy. Our specific metallurgical properties allow for the reduction of RF and electromechanical resonance; EMI/RFI. It's 18.23% heavier and stronger than aircraft-grade stock. Equipped within the HFX station is a patented ceramic composite of metallic oxides and an amalgam of mineral elements in a ceramic binder called "Ceralex." Because the HFX functions completely outside of the signal path, its ability to dissipate and eliminate the effects of EMI/ RFI (Electromagnetic interference & Radio frequency interference) which also includes sonic distortion, noise, "snow", and lack of image clarity. The appearance of the HFX station is one of beauty and elegance, in addition to its superb performance.