I'm finally about to remove the Kenwood 600T from my kitchen audio system, where the tuner is by the side of my chair and so I do the most "tuning" of different stations. I had only moved the 600T into the kitchen to test my antennas, but ended up keeping it there for 5 years because I never got around to testing the antennas before that. It sounds fairly decent (never have hopes THAT high for FM anymore anyway) when the Mode is switched to Filter. That rolls off the highs just enough to remove the high frequency brightness and glare that is sadly characteristic of Kenwood tuners until they got into analog multiplier MPX circuits, as with the most famous L-02T, and the later lesser known but still stellar unit I have, the L-1000T.
I had sold my KT 917 in the 1980's way too cheap because I never liked that sound. Much later I hoped the 600T would be sonically nicer but it wasn't. They are somewhat similar in concept and build but differ in circuit details with the KT-917 being much more famous. I think the KT 917 also had a filter position, as well as a separate blend control, but I didn't pay attention to those things then.
Anyway, I don't think either tuner has the there-ness as many other high end tuners because the primitive Pulse Count Detector used by both 600T and KT-917 is fundamentally inadequate, something Kenwood themselves were aware of and fixed the problem in the L-02T and later high end tuners, with their PLL Detector, aka "linear" detector. This should not be confused with PLL multiplex, which was already a common feature in the late 1970's. Basically all tuners with chip MPX have PLL multiplex, and that is not even such a big deal as getting the detector right. Before the PLL detectors, which had a slow roll out in the most high end models of the 1980's, most tuners used old fashioned methods such as ratio and quadrature detectors, which have known non-linearities.
Anyway, the slight lack of ultimate transparency in the Pulse Count Detector is of little consequence in practice, since few take FM broadcasting seriously enough to utilize the full potential of the carrier. Later similar pulse counting detectors were made with much higher resolution (such as the Accuphase tuners of the 1990's and beyond). Interesting that Accuphase itself was created by former Kenwood engineers in the mid 1970's, and their original tuners which competed with the top Kenwood Pulse Count Detector models used conventional detectors. It's almost as if they left because they felt it wasn't any good, and they wanted to prove it.
But we'll see how I feel after I switch in some other tuners, notably a Pioneer which was one of their "greats" from the late 1970's, like the Pioneer ST-9500 MkII. I think it has a commonly used quadrature detector, well perfected by that point. I know when I used the Kenwood L-1000T there was always an incredible transparency which no other tuner I'd tried possessed, it will be interesting to see how the 9500 MkII compares to it.
Anyway, I'd long denigrated the DX'ing of both the KT-917 and 600T. I've described the 3 position IF bandwidth switch (which as labeled as Narrow, Normal, and Wide) as "Wide, Wider, and Widest."
But now I can say with absolute certainly that while the Narrow on the 600T is nothing at all like the Super Narrow on the McIntosh MR 78, it still has some use. I've found several stations, typically low power stations not that far away, that can simply not be tuned in until you select the Narrow IF band. (The narrow band lets the tuner be more selective, by blocking stuff on either side better. It doesn't help with capture issues, however, for which Wide may work better.)
Stations are still listenable nearly down to 10dBf (on the meter) which is pretty amazing.
An attached scope is the best way to adjust tuning and/or antenna. The multipath meter is nearly useless. The signal strength meter can be used in tuning only if you very carefully dial in the very highest peak. Around the peak for quite aways it changes very little so you have to look for very tiny deflections of the meter. That correlates exactly with the picture on the scope, as expected the now quite out-of-alignment center tune meter does not, though it seems like on every tuner I've ever used, aging has caused the correct tune position to be at the far right of the central mark in the center tune meter. This is usually just before the stereo light goes out for having tuned too much higher.
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