Psychedelic Baby music room with Acoustic Research AR9 loudspeakers.
Ken Kantor is a prominent audio engineer. His career began in one of the most known and well established audio companies of the past - Acoustic Research. These days Kantor is very active in his own company ZT Amplifiers. He's not just an audio engineer, but also a big music enthusiast. The result of this symbiosis is what his work represents. We are proud to open our brand new series of interviews and articles dedicated to audio equipment with Mr. Kantor.
As many of your readers have probably experienced, the emergence of psychedelic music in the mid-to-late 1960’s brought with it new demands on the performance of audio systems. In addition to the very wide frequency response and high dynamic sound levels demanded by newly evolving forms of rock music, psychedelic music, in particular, highlighted the issue of 3-Dimensional spatial reproduction. Of course, audiophiles had long been concerned with left-to-right stereo separation and soundstage, as well as with a general sense of reverberation. A wide spectrum of musicians in diverse genres, from Stockhausen to the Velvet Underground to the Beatles, were already exploiting stereo effects as compositional elements. And, now, innovative musicians were beginning to utilize all dimensions of direction and space as musical tools in whole new ways. Major bands such as Pink Floyd and Emerson, Lake and Palmer, to name only two, began utilizing so-called, “surround,” or, “quadraphonic,” techniques in their live concerts, and more and more listeners hoped to experience these effects at home.
1980 art resume.
1981 video performance art.
Direction and space came to fascinate me as a budding audiophile, an erstwhile electronic musician and as a wannabee audio scientist. I wanted to know how to understand directional and dimensional audio in a scientific way, so I could better apply it in musical ways. Starting in the early 70’s, as I was (most of the time...) in High School, it was becoming apparent to me that loudspeakers were really the key to this all. Along with, of course, microphone and recording studio techniques, which the listener had no control over, speakers were the exact element that defined the relationship between a recorded electrical signal and its blossoming forth as a real sound in three dimensions. (Or, four dimensions, really, since the temporal properties of a sound are critical to it’s perception by human ears.)
Kantor's first solo product ARSRC-1.
But, what were the characteristics that made a particular loudspeaker either good or bad at creating spatial sound? Certainly, the regular speaker specifications, the, “specs,” like frequency response or impedance didn’t tell you anything about a speaker’s ability to create a convincing illusion of image, depth, width, envelopment and other characteristics that were important to a convincing sense of space. In fact, there were speakers with great specs and very accurate tonal fidelity that seemed to offer almost nothing in the realm of spatial sound. Meanwhile, there were other speakers that didn’t do so well by existing audiophile standards that did provide a more convincing sense of space to the music. So what were the key issues? How could one measure, and in turn, more importantly, how could one design a speaker with great imaging and space? This is what fascinated my teenage mind and became my audio obsession.
The first important realization I had was that, in general, the best large panel speakers like electrostatics and planar magnetics tended to have the most laser-like, pinpoint stereo localization, but offered a very “dry” presentation with little ambience, while speakers with small, dynamic radiators, dome tweeters, etc., were just the opposite. The best of these provided a rich sense of reverb, ambience and envelopment, but at the expense of pinpoint imaging. So, what did this mean? Well, it took me a while to come up with it, after lots of reading, lots of experimenting and lots of discussion, but I settled on the idea that the exact radiation pattern of the speaker was the missing, “specification,” the critical factor that related to a speakers imaging prowess. Of course, I am simplifying things a little here, since various factors inter-relate in complex ways. Still, I was on to something.
AR 303 Loudspeakers.
After I went away to college at MIT, eventually settling on studying Electrical Engineering, (in large part because MIT also includes much of the study of human hearing within that field), I continued to refine my ideas about the relationship between loudspeakers and spatial hearing.. As it turns out, MIT required Electrical Engineering undergrads to do a “thesis.” A thesis involves the concentrated study of a particular topic or problem, resulting in a detailed, scholarly paper. For my own thesis, I proposed the development of a loudspeaker that I believed would combine excellent imaging, usually the province of narrow dispersion speakers, with excellent ambience and envelopment, usually associated with wide dispersion speakers. The trouble was, I was an impoverished student, without the means to purchase all the materials... specialized electronics, cabinets, lots of speaker drivers, etc. Because of this, one of the professors I was working with suggested that I contact Acoustic Research, “AR.” AR was not far from Boston, and had a history of funding academic research projects about loudspeakers and acoustics. Sure enough, AR wound up supporting my thesis, (which, incidentally, several years later formed the basis of the AR MGC-1, “Magic” speaker).
Introducing Magic Speaker.
This was the beginning of a beautiful friendship. Bob Berkovitz, the head of AR’s Research Department, became something of a mentor to me, and I started to help out at the AR research labs, building custom test equipment and prototypes, assisting with experiments, etc. At that time, AR had two distinct technical organizations in the US: the Engineering Department, responsible for the planning, development and manufacturing of the products AR actually sold, and the Research Department, which investigated new technologies and did advanced development. In public, all was copacetic. But, behind the scenes, there was great competition between the groups. They did not see eye-to-eye about the direction AR should take, or how the products were being developed. In a nutshell, the Research people did not feel the designs AR was bringing to market were state of the art, while the Engineering people felt that the Research folks were elitists, unrealistic about the real world, and insulated from the enormous pressures they were under to bring dozens of products to market every year, working with tight budgets, etc.
AUDIO Magazine.
Enter the AR-9. At the time I started working at AR, the 9 was just beginning development. An incredibly ambitious design effort, the 9 was conceived to be the most technologically advanced, best sounding, best measuring product AR had ever produced. It was to incorporate the very best ideas from both the Engineering and the Research teams, as a cooperative effort. Engineering contributed their best driver designs, the novel opposing-woofer configuration, with its special crossover, and countless other details. Research gave the 9 the “acoustic blanket” and impulse response improvement aspects, and it’s ability to work with room boundaries, as well as new measurement techniques to help steer the design work. While many people contributed key aspects of the 9’s engineering, Tim Holl, AR’s Director of Engineering and Bob Berkovitz, AR’s Director of Research were the design leaders.
More information at The Vintage Knob.
I can take no credit for the design of the 9; this was fixed before I got involved. My role, most often, was to drag prototype speakers around the building, making measurements, soldering and screwing things together, debugging problems, and such. If the schedule demanded some weekend work, the fingers pointed at me, the low man on the totem pole. Of course, from time to time, I might suggest some engineering approach or design element in a planning meeting. Eventually, I would help drive the speakers to the various big magazine reviewers, establishing contacts that lasted throughout my career. But, realistically I was still an undergrad at the time, and had no experience bringing products to market. I was a sponge, soaking it all in, learning all kinds of things about design, manufacturing, marketing, etc.
The AR-9 went on to become a huge commercial and technological success, and today it is, along with the 3a, one of AR’s two most revered products. Over time, I gained more and more experience, and got more heavily involved in the design and development of products at AR. Once I finished my Electrical Engineering degree, I decided to switch gears and go for a Master's in Art and Media Technology, and my work at AR, as well as for several of the other audio companies that made the Boston area home,was how I supported myself. After graduation, I was invited to join NAD in London, England. The pay was meager, but they set me up with a small home studio as part of my deal, and I spent my days designing amps, and writing and recording strange music. I eventually returned to the US, and took a job at AR, where I did my first “solo” product design, the SRC-1, “Stereo Remote Control.” It was a turbulent time at AR, and I soon found myself running the Research Department.
Kantor with Villchur and Kloss AR Founders.
This was the period when I really dove into the question of how speaker design could be advanced in order to achieve better stereo imaging and ambient envelopment. Personally, I consider the AR-9 to be the ultimate embodiment of what I call the, “2-dimensional frequency response,” speaker paradigm. Essentially all speaker designs up to that point focused on providing a flat frequency response, one way or another. Some tried for flat anechoic response. Others tried for flat in-room response. And there were countless variations on these themes. Every loudspeaker company, every loudspeaker designer, had some formula for achieving “flat response,” that they believed was best. Stereo imaging and the reproduction of ambience were after-thoughts. It was imagined that if the frequency response was correct, those other factors would somehow take care of themselves. But, this is not what I believed, and not what my early work at MIT suggested. I believed that one could improve the spatial reproduction of a speaker by controlling its radiation into the room. The results of my thinking became the AR MGC-1, the so-called, “Magic Speaker.”
The MGC-1 was a very different design than the AR-9, and that was intentional. As I said, the 9 represented the ultimate embodiment of AR's traditional thinking, perhaps of traditional loudspeaker design in general. The MGC-1 was the first step in a new way of thinking. It certainly outdid the 9, and most any other speaker, in terms of imaging and ambience. But, it wasn't as refined or capable in other areas. Frankly, this was not helped by AR Engineering's refusal to give the MGC-1 the full bass capabilities of the 9, for fear that it would over-shadow that product. I fought this. I lost.... So, while the MGC-1 uses the 9's “Dual Dome” mid-tweeter combo, and other excellent drivers, it was intentionally handicapped in the bass department. This proved to be a serious problem for a speaker of its size and cost.
NHT 3.3. (We do not own copyright for picture above)
Fast-fowarding to 1990, a speaker company I co-founded, NHT, released a product called the 3.3 that is very much an heir-apparent to the AR-9, while incorporating important aspects of the MGC-1. The 3.3 does not use active electronics like the MGC-1, but it does provide a very high level of imaging and ambience reproduction, while simultaneously equaling the 9's bass response and improving on its frequency response. I like to say that the AR-9 is the NHT 3.3's daddy, and the MGC-1 is its mommy...
Rocking in the 90s.
So, we are finally getting near the present. Thanks for indulging these digressions! After I left NHT, I was involved in a number of projects, new companies, and such. In 2008, I decided to un-retire in order to do something that has fascinated me since grade school... building guitar amplifiers. After all, I figured that if I could make a small hifi speaker sound like a huge concert hall, why couldn't I apply the same principles to make a small guitar amplifier sound like a much larger one? The result was a new brand of guitar amps, called “ZT Amplifiers” which contain a bunch of acoustical and electronic innovations designed to make them sound and play like much larger, more expensive models.
Early ZT lunchbox prototype.
We've been very gratified at ZT by the acceptance of the amps by amateurs and pros alike. Without marketing or give-aways on our part, bands including ZZ Top, Wilco, RHCP, Sonic Youth, White Zombie, Echo and the Bunnymen, Andy Summers, MGMT, Steve Wynn, Merle Haggard and many others have gone out and bought our amps. I feel like I have finally come full circle, back to my musician roots!
In ZT lab.
Article made by Ken Kantor/2015
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Hi-Fi series presents: Ken Kantor (Acoustic Research, ZT Amplifiers)
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