TACT RCS 2.0 Users Group


I've recently purchased the TACT RCS 2.0 unit. As I've been wrestling with getting the optimum performance out of it, I keep thinking there must be other owners out there that have ideas to share, as well as those who could benefit from what I've learned.

I was hoping this thread would provide a forum to introduce us to each other.

Anyone interested in sharing what you've learned?

I for one have found the unit difficult to get a true grasp of how to optimise, but once learned, it has produced the best sound of any component I've ever added to my system. My system currently consists of a Sony SCD1 to the TACT 2.0 RCS with internal DAC and D/A converter. Signal is then fed from the TACT in analog format to my Art Audio Jota and then to the Avantgarde Duo Hornspeakers.
I'll start by stating I've found the suggestions in the TACT documentation for speaker placement to be contra to good sound. I've gotten the best results by using George Cardas's Near Field logic and using the TACT Nearfield target curve as the beginning point to custom build my personal target curves.

This resulted in a sound stage this is awesome and the clarity of the frequencies is without compare in my experience.

However, it took over 100 hours of experimentation to reach this result - a lot of lessons learned. At this point, I feel I know just enough to be dangerous!
tao
Hi,

Now I have been working with the TacT for app. 1½ year, I have some experiences on that product. It seems to me, that especially in the bas the improvement in sound is huge. Besides that it is also improving the general sound in terms of naturalness, coherens between bas, midrange and treble, and the general balance between left and right.

It may be right, that the target curve is not telling you the total truth. And so what? As long as you are able to change the sound temperature by just adjusting the target curve I dont see any problems. Do you really think the right system will actually have a totally flat frequency response? Probably not. Because the system is only performing, what you want to measure. Think of f.x. Mark Levinson, which excellent product do have an equalized bass, even that the frequency curve is very flat. The frequency response is unfortunately only the half truth. Or trying different cables. Different sound, but still the same frequency response. A lot of other things counts.

It is important to notice, that according to my experience it is essential, that the correction is based on the same propriety measurement system, not a external system. It is during the design of the measurement system necessary to select between several solutions, and to decide how to measure what we exactly are hearing, is very, very complicated. A lot of AES-papers can document that. And on this very point, the TacT system is indeed very good. Very good similarities between what is measured and how it will sound. From that point of view it is not important how the resulting target curve will look like. The TacT system is NOT a measurement system, but a sound system.

In short, I find the system very hard to live without, because it - to put simple - solves the interaction problems with my listening room, which I never had solved. It will not do a bad speaker perfect, as it requires a very good and expensive speaker to make it possible to registrate the full benefits. By the way the system is also working very well with dipolar speakers fx MartinLogan Prodigy.

Regards
Kim Kruse Petersen, High Fidelity, Denmark
In response to Audioguy 123 on the subject of Sigtech versus TacT, I have to maintain that there is no way the Sigtech with the limited time and frequency resolution can accurately correct for low frequency variations. Then obviously in your case it seems to be desirable to have less correction at lower frequencies. This could be due to some room anomalies that we have not experienced in the many different setups we have made with the 2.0. With regards to the sound quality we have only 3 times heard of customers preferring the Sigtech over the TacT in direct comparison. One of the obstacles we have encountered when selling the 2.0 into studios have been that many studios have tried the Sigtech without success. In every single instance we have demonstrated 2.0 to professionals with previous experience with Sigtech the comments have been hugely in favor of TacT 2.0. Therefore maybe we have become a bit arrogant, just dismissing the Sigtech as old fashioned and obsolete. My apologies for that. But not to the real issue: Anything the Sigtech does the 2.0 can be programmed to do with higher accuracy, except that the Sigtech can correct with higher resolution above 4 KHz – where little or no correction is needed. So when you have a situation where the Sigtech works better in real
life then I would really like to get to the bottom of this. If you send me the measurements for left and right channel made by the 2.0, and also the Mic. Cal. file then I will get some idea. If you like you can
also send the measurements made by your MLSSA measurements system on the Sigtech correction and the TacT correction I will be able to help you get better results. With regards to the TacT not following the measurements made by the MLSSA it is just a question of how the parameters are set on the measurement system. If you tell us how exactly you would like to measure, then we can correct to something that will look flat on that particular set of measurement parameters. I am sure though, that the sound would be worse that when measured with the TacT system.
Please send the measurements to: [email protected]

Peter Lyngdorf, TacT Audio
Regarding sound quality of the digital volume control in 2.0. How do you actually evaluate the sound quality of a digital volume control? If you use it with an external DA converter and a preamplifier then it is very difficult to say if the changes you hear at lower digital settings are due to the digital volume, the DA converter, the preamplifier or some combination of these units.
At TacT audio we have made extensive listening tests on our digital volume control, and we have a tool which give us much more reliable information about the effect of digital volume: The TacT Millennium digital amplifier.
The TacT is still the only amplifier in the world where the volume control is done at the power supply rails. This means that the actual resolution and signal/noise remains absolutely constant over the upper 40 dB of the operating range of the volume (voltage) control. Therefore we can reliably compare the effect of the digital volume control over a very wide range without altering other parameters. When the 2.0 volume control is tested in this way we have not found that anyone could hear any degradation on a blind testing. Therefore our opinion is that the volume control in 2.0 is extremely good, and certainly in respect to linearity – distortion etc. it is superior to volume controls in analogue preamplifiers. Also we can add that nobody have made any complaints whatsoever in the many reviews on our digital preamplifiers.

Peter Lyngdorf
Re: discussion between Drubin and Audioguy 123.

Sorry guys, I have to set a few things straight. Audioguy 123 is absolutely right that the TacT 2.0 does not comply with any of the existing standard techniques for speaker measurements. This is absolutely intentional. I will give you a bit of background information: Back in 1992 I bought a 50% stake in the high-end speaker company Snell Acoustics. Kevin Voecks, who is now head of REVEL - the Harman owned speaker company, was the chief engineer. At the time I was also the majority shareholder of NAD electronics. The president of NAD electronics was Marty Borish who had previously been president of AR speaker company. AR had a very bright engineer, Bob Berkowitz. Bob was probably the first person to realize that someday it would be possible to do room correction. Bob also made some of the first mathematical equations that would someday lead to the development of room correction systems.
During one of many meetings with Marty Boris I became intrigued by the idea of room correction, so when one day Kevin Voecks came to me with the idea that Snell Acoustics should cooperate with an engineering company to make a 6-channel room correction system, I was all for it. Kevin then worked with Sigtech for some time to develop a 6-channel version of their correction system. After a short time Kevin realized that the drawback of the Sigtech was the lack of correction resolution at low frequencies, which was – and still is – 20 Hz.
At this time my company in Scandinavia (AudioNord), the largest Hi-fi retail company in Europe, was the distributor of Audio Alchemy, the company owned by Mark Shifter. Knowing that AA was capable of making very nice digital electronics I connected Kevin Voecks and AA/Mark Shifter and subsequently (Autumn 1992) Snell entered a development agreement with AA to design a room correction system.
Mark Shifter announced in “Stereo Review” in April 1993 that Audio Alchemy/Snell Acoustics would have the correction system available “this spring”. However, after working on the project with AA for one year it became apparent the AA was not able to make a workable solution and Kevin gave up the project with AA.
Then in the autumn of 1993 Kevin met Dr. Radomir Bozovic (Boz) at the AES convention in New York. Boz was showing his DSP engines which were capable of astounding performance - far beyond anything Kevin had experienced. In November 1993 a development contract was signed between Snell and Boz and within a few months Boz had designed a correction system that in Kevin’s opinion was far superior to anything on the market. The product was later sold as the Snell RCS 1000 at a retail price of $18,000.
In 1997 I had bought all of the shares of Snell Acoustics and become the sole owner. In 1997 Kevin was headhunted to Harman International to start up the Revel speaker company. Harman also tried to hire Boz, but Boz and I decided it was better for us to use the technology in NAD Electronics, which was still controlled by me. I found another excellent engineer – Dave Smith to head the development of speakers at Snell Acoustics and sold the company to my good friends at Boston Acoustics. Boz and I continued to work together developing products that were intended to be sold as NAD products. However, in 1998 Boz and I decided to start a new company owned 50/50 with the purpose of developing the world's best sounding audio products. I had become so involved and enthusiastic about this new venture that I decided to sell NAD to some of my other friends at Lenbrook industries in Canada. (Selling NAD actually hurt a lot. I had been closely involved with the company since 1978 and very involved with product development. NAD have consistently made products that just sound so much better than almost any products in the price category. ) .
The room correction system is now in the fourth generation since the first system designed for Snell. The unique combination of talent at TacT Audio has catapulted the company to become the most successful start-up in the high-end arena.
In the daily development of the room correction systems, Boz is responsible for all the advanced mathematics and DSP code. With regards to resolution, distortion etc. there is no match for the systems designed by TacT audio. When it comes to listening tests, etc., I am the person responsible for that department. My office and listening rooms are in Denmark. Denmark with a population of 5 million educates more specialized acoustical engineers than the USA, so it is no coincidence that Denmark has some of the best speaker driver manufacturers in the world: Vifa, Peerless, Scanspeak, Dynaudio, Dali and Audiotechnology, and the most famous manufacturer of acoustical measurement equipment and microphones: B&K. I know the engineers and/or owners of all of these companies, so any questions regarding measurement techniques etc. have been bounced on a number of the best brains in the industry. The engineer that developed the first B&K microphone worked as a consultant for me for 5 years, and he is still a good friend. For good measure, I own the very successful speaker factory, DALI with some of the best acoustical engineers in Denmark.
What I am trying to say in not so few words is: Boz and I did not just stumble over a few lines of code and decide to make a correction system.
One of the things that were discovered very early on when Boz and Kevin started to work on the correction system (before I got so heavily involved) was that none of the standard measurement methods were useable for correction. A big part of the development has been concentrated around making measurements that are consistent with what we actually hear and at the same time do not lead to side-effects.
When you want to measure the perceived frequency response, you can’t treat all frequencies equally with regards to filtering, gating and smoothing. Also, you have to take into account the wavelength versus correction resolution, the way the sound decays at different frequencies etc., etc.
It is a mistake to have flat frequency response as your target, unless you live in an anechoic chamber. To get a natural sound you need to adjust the target curve in a way that mimics the response you would be getting in an average listening without any specific resonances, cancellations etc. In other words it could be the average response of a thousand different good rooms. To put it in simple terms, you do not want to get the frequency response you would get in an anechoic chamber, but the response you would get in a real listening environment without any specific resonances etc. The target curves suggested by TacT are meant as a starting point for correction. “TacTA1” Is the most universally accepted for large speaker systems with good bass extension. This curve has an increase of around 6 dB in the lower bas region – to mimic the room gain at low frequencies and a gradual roll-off at higher frequencies to mimic the higher absorption of higher frequencies in listening rooms.
The curve can be modified very easily with a drag and drop tool where you can directly compare your loudspeakers' response with the target curve in the target curve editor. (The measurements brought into the target curve editor are the calibrated – and thereby accurate – measurements. The measurements on the main screen are for quick view only.)
If you wish to maintain the general character of your speaker system you can tailor the target curve to follow the general tendency of the speaker itself.
It is absolutely a false claim by Audioguy 123 that the 2.0 does not follow the target curve. Any change in the target curve will result in a corresponding change in the acoustical result accurate to within 0.2 dB. It is true that it does not follow conventional measurement techniques – and that is absolutely intentional - and essential to the success of the product.

Peter Lyngdorf, TacT Audio
The only thing I can think "Audioguy" can possible be referring to is the fact that the window that shows FR and impulse response can be misleading the bass
and treble are off. At least compared to when you import the measurement into the "edit curve" screen. That curve (the imported measurement) looksmore accurate and is different than the FR in the main window. Also the
FR can change a lot even though you re-ran the measurement under the exact same conditions, but when you look at the imported measurements instead, they are
identical as they should be. So for an accurate frequency response look at the imported measurement in the target curve editor.
Other than that it sounds as though Audioguy 123 is more interested in selling higher profit margin Sigtech's and clearly has a grudge against the much more sought after and better selling TacT RCS.; he obviously has some kind of tie to Sigtech either a dealer or MFR with a statement like "..SigTech installs I am familiar with (hundred of them) ". Nobody can just so happen to have been
around that many installs of unit with out being affiliated somehow to the company. A dead give away!

Mike