Record breaker: Raphaelite CS30-MKII tube amplifier review and measurements

[pickyAudiophile]

Thank you. Just when it comes to packaging I think it's the manufacturer's fault which lead to the damage. It looks like someone got lost in details with reasoning about smallest slices of cardboard and flimsy foam plastic inserts and it's protective purposes. While underestimating forces in general each and every parcel has to withstand, coming from any direction, according to parcel services' terms and conditions about packaging.

 

[Gorgonzola]

Just noticed this thread. Will people like the Raphaelite CS30-MKII? Heck yeah, many will love it. Poopy SINAD? For sure, but note that most prominent harmonics are 2nd & 3rd order. This harmonics, (IM very HO), (i) sound all butter & caramel, and (ii) mask the noise and forest of higher order harmonics

 

[prerich]

Wonderful Review! I enjoyed the historical information which reminded me of days gone past when I was a defender of the DEW Line in the USAF. I recall the time when we upgraded Transceiver and Telephony MUX Equipment from analog-tubes to SS. The rooms were barren and the Air Conditioning Loads were reduced to a fraction of a percent for equipment cooling.

And I remember these manufacturer names as equipment builders for the long forgotten Mission of Terrestrial Command and Control for Ground, Sea and Air Assets in the defense of a Cold War Hostility. Thank you for the informative and well written lesson of historical reflection of the genesis of electronic development, it was meaningful to me.

Your post reminds me of when we transitioned from the R-390 receiver in the Navy!!!!

 

[Oldasdrt]

Great review AND HISTORY LESSON, thanks a lot

 

[prerich]

Thanks for the response and comments. To answer your questions, I think there is some context that I need to explain.

Service requirements were on Foreign Soil for most of our missions. We had the contingency of deployable equipment that was used as direct Mission as well as Mission Critical Response to any Fixed Asset that was rendered "inoperable". In effect, with VTVM tube technology, we were fortunate to have highly reliable tube sets and equipment that only required routine testing and calibration, given the nature of their design capabilities and the limitations of tolerances available with the technology.

Equipment and Replacement Parts were all procured through Forward Area Supply Points which facilitated logistical support to many different users and assets through a distribution system that could be prioritized as needed. Honestly, the tubes were the least of our problems and I was surprised by their reliability.

Our equipment was used for all aspects of Radio Transmission, Teletype, Voice Channel Multiplexer and Data Signals. Satellite Technology was employed as well, but mostly as a secure mission critical Back-Up in the event Comm was lost among the network when "Command and Control" needed to be established as a link for maintainability of Commander Order Service.

All of of our Tubes were listed with AN and rarely JAN numbers. Sometimes the regular Retail designations (like 12AX7) would be present as well. Some of the benefits and delay for Solid State replacement with Digital equipment was the survivability of Analog Devices in the event of EMP First Strike, which was the expected scenario to disable ALL Command and Control functionality.

A weapon or defense system can be rendered ineffective if the Commander cannot communicate the necessary order requirement for activation or deployment. The warm, mechanical equipment which relied on technology developed before 1950 was a testament to the paradoxical fear that this was the system of defense that secured the Cold War as a historical footnote. No wonder there is still some romantic notions of the "Venerable Valve". The Vacuum Tube served us well!

As a former Cryptologist ...you're bringing back good memories...radio wave modulation and signal multiplexing....good times..good times.

 

[pma]

Just noticed this thread. Will people like the Raphaelite CS30-MKII? Heck yeah, many will love it. Poopy SINAD? For sure, but note that most prominent harmonics are 2nd & 3rd order. This harmonics, (IM very HO), (i) sound all butter & caramel, and (ii) mask the noise and forest of higher order harmonics

The "forest" seen in the measurements seems to be rather induced by mains frequency multiples. I am used to see cleaner spectra, with H2 or H2+H3 dominating, like this one:

 

[anchan]

It would be interesting to see a more sophisticated 300B implementation. As Pavel mentioned above, the power supply scheme is very pretty noisy. From the teardown photos, it's a very simplistic CRC implementation. Filaments on DHTs are very sensitive - not sure how much care was given there. Also input transformers probably add some more distortion. Who knows if the operating points are ideal.
I wouldn't be surprised if a better design wouldn't save 20-30dB in both noise and distortion.
The mains hum must be very audible. It should be possible to get that below -90dB rather than 70's.

 

[fpitas]

The "forest" seen in the measurements seems to be rather induced by mains frequency multiples. I am used to see cleaner spectra, with H2 or H2+H3 dominating, like this one:

View attachment 281331

You're right. I almost hate to say it, but maybe IM sidebands from the line is part of the magic sound.

 

[levimax]

Member and EE @tomchr engineered a 300B design and kit. The kit has been discontinued but information and details are available here https://neurochrome.com/pages/dg300b . See below distortion profile from the design documents, it is better than this design but not orders of magnitude so. This is probably about as good as 300B can get.

 

[fpitas]

Member and EE @tomchr engineered a 300B design and kit. The kit has been discontinued but information and details are available here https://neurochrome.com/pages/dg300b . See below distortion profile from the design documents, it is better than this design but not orders of magnitude so. This is probably about as good as 300B can get.

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I'm not the first to wonder if good engineering is even desirable for these.

 

[charleski]

You can simulate this high-frequency expansion in CamillaDSP.
Unfortunately you need CamillaDSP 2.0, which is still in the alpha stage, but you can download the code from here and build it yourself (wasn't too hard on Windows).
This is the result, piping the audio through a couple of virtual cables and measuring response in REW:

[Five measurement sweeps at 0dB, -10dB, -20dB, -30dB and -40dB]

Here's the config code used:

mixers:
  to_four:
    channels:
      in: 2
      out: 4
    mapping:
      - dest: 0
        sources:
          - channel: 0
            gain: 0
            inverted: false
      - dest: 1
        sources:
          - channel: 1
            gain: 0
            inverted: false
      - dest: 2
        sources:
          - channel: 0
            gain: 0
            inverted: false
      - dest: 3
        sources:
          - channel: 1
            gain: 0
            inverted: false
  to_two:
    channels:
      in: 4
      out: 2
    mapping:
      - dest: 0
        sources:
          - channel: 0
            gain: 0
            inverted: false
          - channel: 2
            gain: 0
            inverted: false
      - dest: 1
        sources:
          - channel: 1
            gain: 0
            inverted: false
          - channel: 3
            gain: 0
            inverted: false

filters:
  lowpass:
    type: Biquad
    parameters:
      type: LowpassFO
      freq: 8000
  highpass:
    type: Biquad
    parameters:
      type: HighpassFO
      freq: 8000
  gain1:
    type: Gain
    parameters:
      gain: -5.0
      inverted: false
      mute: false
processors:
  compressor:
    type: Compressor
    parameters:
      channels: 4
      attack: 0.001
      release: 0.01
      threshold: -44.0
      factor: 0.90
      makeup_gain: 0
      soft_clip: false
      clip_limit: 0
      monitor_channels: [2, 3]
      process_channels: [2, 3]

pipeline:
  - type: Mixer
    name: to_four
  - type: Filter
    channel: 0
    names:
      - gain1
      - lowpass
  - type: Filter
    channel: 1
    names:
      - gain1
      - lowpass
  - type: Filter
    channel: 2
    names:
      - gain1
      - highpass
  - type: Filter
    channel: 3
    names:
      - gain1
      - highpass

  - type: Processor
    name: compressor

  - type: Mixer
    name: to_two

 

[pma]

I'm not the first to wonder if good engineering is even desirable for these.

It is needed to get acceptable S/N from tube circuits regarding hum/buzz. Then, if it is a simple SE design, one is limited by tube transfer curve linearity and transformer design. The tube itself is a textbook example of polynomial nonlinearity of transfer function, almost frequency independent in audio band and free of high order harmonics.

 

[fpitas]

It is needed to get acceptable S/N from tube circuits regarding hum/buzz. Then, if it is a simple SE design, one is limited by tube transfer curve linearity and transformer design. The tube itself is a textbook example of polynomial nonlinearity of transfer function, almost frequency independent in audio band and free of high order harmonics.

I agree the hum can't be too bad, but as you pointed out it's certainly prevalent in what we are told is a pleasant sounding design. And striving to get lower distortion and flat response may not actually sound better, depending on what the aficionados are looking for.

 

[computer-audiophile]

Just noticed this thread. Will people like the Raphaelite CS30-MKII?

This Raphaelite amplifier, which I had the opportunity to listen to at a friend's house a long time ago, did not convince me soundwise. It was soon sold again.

In order to determine the approximate quality, on paper, one former times often used to see illustrations of simple oscillograms in professional journals.

For example, a rectangle of 1kHz slightly below the clipping point. In the Japanese MJ-magazine they often have articles where they analyse tube amplifiers in great detail. Such illustrations can still be found there today for comparison. I do it the same way, check the curve with an oscilloscope. You can see at a glance whether the frequency response is OK, whether there are deformations of the rectangle, whether you can see ringing of the OPT. The other important feature is that you will not hear any hum or noise or anything else on a high-sensitivity loudspeaker. It must be totally silent.

If possible, I would like to see such a square wave of the amplifier we are talking about here.

Own picture:

 

[pma]

And striving to get lower distortion and flat response may not actually sound better, depending on what the aficionados are looking for.

... and very much depending on music genres listened and quality of recordings used. I can imagine the tube amp like the one that is a subject of this thread used for listening of a small jazz combo playing "bar" music or a simple pop music. But, I cannot imagine, and I am speaking based on experience, to use it for very good recordings of classical music, especially larger orchestra. Both frequency response modulation and very high distortion is unacceptable, then, for a trained listener. In case that the amp has flat frequency response and distortion linearly rising with level and not exceeding 1% with low harmonic content decaying with harmonics order, then there is no problem even with a tube link level preamplifier with this kind of music. But again, the genre of music, quality of recording and listener's experience are key factors. There is nothing like "pleasant distortion", nonlinear distortion is always a bad thing and the only important thing is that it must be lower than audible level with the music used.

 

[pma]

For example, a rectangle of 1kHz slightly below the clipping point. In the Japanese MJ-magazine they often have articles where they analyse tube amplifiers in great detail.

Well designed tube circuits may have very nice step response. Sorry 1kHz square in 200us/div does not tell much. It is too easy to make it "nice". You have to go much higher with frequency and time resolution. Below the 15kHz square response with 30Vp-p swing and rise time of the step response. But, this parameter alone is not enough.

 

[computer-audiophile]

I mostly hear classical music with my tube amps, and I am a very critical and analytical listener, trained for decades on good systems and in life concerts. I think there are just too many prejudices against tube amplifiers. Furthermore, I also have always had conventional systems here for comparison. Neumann and JBL studio monitors and so on.

 

[pma]

I mostly hear classical music with my tube amps, and I am a very critical and analytical listener, trained for decades on good systems and in life concerts. I think there are just too many prejudices against tube amplifiers.

OK, then our experience may differ. Mine is not based on prejudice. I accept tube line stages, but have not met adequate tube power amplifier yet.

BTW, would you post 10kHz (at least) square response?

 

[computer-audiophile]

OK, then our experience may differ.

Very likely.

I can't show you any more measurements, I'm done with them and have sold my measuring equipment.

 

[Lorenzo74]

Raphaelite CS30-MKII 300B integrated tube amplifier review: A New Performance Record

This is a review and detailed measurements of Raphaelite CS30-MKK 300B single ended tube amplifier. It is available on eBay for $1449 + $310 shipping to California + tax. There are some better deals from retailers direct and it took just over two calendar weeks from ordering to arrival.

Today, we're breaking records.

View attachment 280658

I’ve never heard of Raphaelite, but a Google/eBay advertising algorithm determined I was curious about 300B tubes and was smart enough to show me this. It worked because I was sold on looks alone.

Specifications

• Raphaelite 3.5K30AQ output transformer
  The transformers are rated for 30 watts of power. Raphaelite uses the term “fully coupled” in their online marketing and “unity coupled” on the unit itself. The original unity coupled transformer was developed by Gordon Gow for push-pull topologies and is still used by McIntosh today. The patent has long expired.
  
  View attachment 280670
• ALPS remote controlled volume potentiometer
• Power transformer rated for 300W
• Input sensitivity: 450mV
• Output power: 2 x 8 watts (RMS)
• Signal to noise ratio: 80dB
• Input impedance: 1KΩ
• Output impedance: 4Ω, 8Ω
• Power consumption: 130W
• Frequency response: 15Hz-25KHz-3dB
• Net weight: 23 kg (~51 lbs)

The packing was well thought out, but even though there was minimal damage to the box, the transformer cover was dented. Surprisingly, the amp comes shipped with tubes and those were all fine. The connector supplying the LED for the ammeter wasn't working, which gave me an excuse to open it up and inspect it.

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You can see a simple layout with a nice mix of PCBs with point-to-point wiring. PCBs provide lower costs of manufacturing and what’s important are the components not the topology. We’re not dealing with tiny surface mounted resistors here. No ferrite chokes are used (which may provide an opportunity for tweaks in high EMI environments). This is supposedly inspired by the original Western Electric 91B design, modified to handle “modern” tubes. The are some IC's since there is an infrared remote, and the ammeters blink while the unit is warming up. One of the visible ICs near the input jack is the NE555P which is a timer.

These “permalloy” input transformers can be plugged in or out of the signal chain to allow this to operate as a proper integrated amplifier or pure power amplifier. I tested this unit, as designed, with the input transformers enabled.

View attachment 280663

Test Setup

• Topping D90 MQA as tone generator
• Vishay Dale NH250 1% 4.48 ohm non-inductive resistors
• E1DA Cosmos Grade A ADC
• @pkane MultiTone software

Tube amplifiers are sensitive to speaker loads, so the resistor will show a different frequency response than actual use with speakers.


Out of the box:
Preamp tube: Shu Guang 6J8P
Power tube: Psvane 300B
Rectifier: Shu Guang 5Z3P

These tubes were used for

Take the blind challenge! 300B SET vs. Straight Wire with Gain

The challenge: How does a budget 300B SET compare to a "straight wire with gain"? You tell me. It's time to put your ears to the challenge. Poll is open for 14 days. No peeking at the results. Test Setup: I connected a Topping D90, set it at 0 dB volume, to a budget 300B single-ended...

www.audiosciencereview.com

Tube Selection
For measurements, I swapped in some new old stock USA made tubes and new USA made tubes.

Rectifier: CBS/HYTRON JAN-CHY 5U4G
While the rectifier is not part of the signal path, it is necessary for converting AC to DC. While a tube rectifier theoretically has lower noise than a solid-state rectifier (until you filter the output), it’s doubtful that cleaner rectification is going to carry all the way through the signal chain. Compared to the factory tube, the NOS tube reduced THD but increased noise.

Hytron was founded in 1921 and acquired by CBS in 1951 (yes, the TV company). By 1952, the “CBS/Hytron” facility was manufacturing germanium diodes and transistors! They continued manufacturing semiconductors and tubes for about 10 years! The JAN (Joint Army Navy) specification indicates that tube was originally produced for the US defense industry.

View attachment 280667

Preamp tube: Philco 6SJ7
The 6SJ7 is a high gain tube that largely saw use in RF amplification. Since it offered wide bandwidth and high-gain (at the time), it was also used for audio. Nowadays, something like the 12AX7 is a more popular tube (and actually was a collaborative effort between RCA, Sylvania, and GE for the US defense industry). Compared to the factory tube, this increased gain, but added both THD and noise.

View attachment 280669

Philco has its roots as far back as 1892 (when the company was called Helios). Philco stands for “Philadelphia Battery Company” and was famous for taking the lessons learned from Henry Ford and assembly line manufacturing and applying it toward radios. In the 1950’s, Philco engineers invented the surface barrier transistor which was a high-speed transistor and powered many of the earliest computers used by the National Security Agency and the ground guidance systems used in the USAF Atlas intercontinental ballistic missile. Philco was acquired by the Ford Motor Company in 1961 and integrated Ford’s Aeronutronic Division into a new company called, Philco-Ford. Philco-Ford famously was responsible for constructing NASA’s Mission Control. Although I’ve given the history of Philco, these 6SJ7’s are likely made by RCA based upon appearance.

Power tube: Western Electric 300B
These tubes are as expensive as the rest of the amplifier combined. The current production of the Western Electric 300B genuinely does measure cleaner than other commercially available products and does show improved measurements with "burn-in." We are looking at this straight out of the box. The wood box is a $100 upcharge. The glass appearance is clearer than the Psvane. That is, the visible purity of the glass is noticeably more transparent! Without burn-in, the WE 300B tubes show higher levels of distortion than the factory tubes at high power but better levels at lower power.

View attachment 280671View attachment 280672View attachment 280673

Western Electric has a history that goes as far back as 1869. The Western Electric Engineering Department became Bell Laboratories in 1925 and would go on to develop revolutionary products including the transistor, laser, CCD, radio astronomy and even software technologies such as UNIX, C, C++. The “Hawthorne Effect” which describes how people will change their behavior simply because they are being observed was first recognized at Western Electric’s factory in the Hawthorne suburb of Chicago. To say that Western Electric is an important center of US manufacturing and innovation in the 20th century would be an understatement.

The 300A/B tube was developed in this early era of innovation at Bell Laboratories. 1933 for the 300A and 1938 for the 300B. These vacuum tubes were originally developed for audio applications such as the telephone and movie theaters. It was never intended for home use.

After WWII, Western Electric ultimately continued to produce the 300B largely as a high-endurance high voltage regulator for industrial use.

(Photo taken from an eBay listing)

In the 1960’s, each Western Electric 300B tube was only $8 each, or $80 in 2023 dollars adjusted for inflation (as opposed to the $700 they are going for now!). There were better tubes intended for home audio like the 6550 and the 300B’s role in home audio was basically absent. It was limited to the realm of DIY hobbyists.

Western Electric really didn’t care about audio, as their business was focused on telecommunications as well as its role as a defense prime. They ran Sandia National Labs, developed and produced Nike missiles, and developed or supported a wide range of radar systems including the Distant Early Warning system for NORAD and operating the SAGE System.

View attachment 280675

The last Western Electric 300B tube came off the manufacturing line 1988 at which point the Kansas City Works vacuum tube production ended. That is also the year that original radars of Distant Early Warning line (that required human observation of the radar screens) began to be deactivated and were upgraded to solid state systems. It may simply be a coincidence in timing but the fact that little is known about Western Electric’s tube manufacturing during the peak of their defense activities says a lot about where their tubes were being used.

So why does the 300B have the reputation for being so special for music when Western Electric themselves didn’t consider it to be anything special?

The aura and “legend” of the 300B among audiophiles really seemed to take on a whole new life in the 1970’s in Japan. At that time the theater systems that were originally installed in the 1960s were coming off lease and being sent overseas, largely for scrap metal. Turns out that some hi-fi hobbyists had a chance to listen to the 300B for the first time at that point. Since it was also bragging rights to have a large enough listening room for theater speakers and partly because the 300B also sounded great, it took on a whole life of its own.

Today’s Western Electric is a new company focused exclusively on audio. Unlike licensing or brand-name agreements like Kodak, Polaroid, Tung-Sol or GE Home Appliances, the modern Western Electric actually did license all of the IP involved in the original Western Electric tube production, including manufacturing protocols, and purchased the tooling used by Western Electric and even hired some of the original Western Electric employees involved with tube production to help train their current workforce. Even a large stock of original 1963 nickel alloy is being used.

Today’s Western Electric 300B is not a true historical reproduction. It’s is an evolution. The biggest change is the method in which the nickel is carbonized. The traditional supplier went under, and the modern Western Electric initially thought they could bring the process in-house until realizing the safety challenges of using large volumes of explosive CH4 gas in the absence of sulfur. They ended up going down the route of using Graphene, presumably through ALD, to coat their nickel. ALD provides, conformal, pinhole free thin-film coatings at the angstrom level. Other innovations like improved vacuum pumps, clean room filtration and modernized quality control methods on top of the refined Bell Laboratories protocols.

These efforts have generated a 300B tube that measures with lower distortion than competing products and results in a tube that has a 5 year warranty! It is officially rated for 40,000 hours (4.6 years running 24/7/365!)

Western Electric isn't worried about burn in, even though it is measured to make a difference. They advise against silly stuff like cryotreatment.
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Ready to break records?

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That's the LOWEST WORST 5W SINAD of any amplifier measured here.

At 50 milliwatts, the SINAD is in the 30 to 40 dB range. The NOS rectifier and NOS pre-amp tubes worsen measured performance, but you can see how the pattern is different in the midrange/treble above -100 dB which means it could sound better to use the NOS tubes.

View attachment 280686


Resistors vs. Speakers
Ignore the SPL numbers in the legend for all of these. You just want to look at the "shape of the curve". I took these REW sweeps at different dbFS.

In a resistor, you don't see any surprises with different volume content. Lower volumes reveal the 60 Hz AC mains noise.

Now look at the JBL XPL90 which has been measured here and look at the different results depending on the dBFS sweep.

This 300B SET with my speakers offers the opposite of a loudness curve.

You get extra treble boost with higher energy, but at low volume, the treble increase is lower. This is all from extra distortion that's happening. There is even a slight bass boost at lower volumes. Again, distortion.

But at least amongst 300B fans, this may be the right "pattern/character/flavor" of distortion.

Now we're starting to see the effect of the SET and its role as a "fixed effects box". You cannot turn it on or off, but a simple Parametric EQ isn't going to let you replicate the "300B tube sound". You can pick one treble boost for the entire song, not a dynamic one that depends on the content.

We know the "showroom sound" can be fun for short periods of time, but the boost can be fatiguing. But you have to think about this in musical content. The showroom sound comes only on demand during transients! So, imagine having an effects box where the effect is subdued in the normal parts and during transients, it jumps up even more.

This is why recording the SET seems to lose the effect compared to actually listening to music on a SET tube amp. You not only have to think about the actual speaker but all the volume it's running at.

Take a look at the slope of those REW sweeps with the XPL90. The rise in treble begins at 3 kHz, right? Let's see what @amirm measured on the XPL90.

Do you see something at 3 kHz also?

What's really neat is that if I take a few different 2-way speakers that I own, and eyeball-match the volume at 1 kHz, we can see that the relative to the resistor, you get a pretty consistent bass boost while the treble gain differs between the different speakers/crossovers. This really does counteract the "rolled-off" highs that measurements into resistors generate.

Listening Test
Honestly, it sounds great. With real speakers, the treble boost removes the rolled off highs that we hear in the recordings. The exaggerated dynamics are still pretty subtle. This is a testament to the engineers of the 1930's to have reached a point where you're pretty close to the audible performance. It's also a way to see the spread between the absolute worst measuring amplifier tested here against a 120 dB SINAD DAC paired with a straight-wire-with gain.

The fit/finish is great. The remote feels nice and sturdy, although it's not the best functonality since you cannot tell if you have the remote upside down by feel. Likewise, the remote doesn't sit flat on a table because the CR2025 battery cover is prominent. Amp warm-up time is very quick!

Conclusion
When you review a solid state amp, there’s rarely a history lesson that comes along for the ride. The product performance speaks for itself. It's tue amps that get a history lesson and to quote @John Atkinson in his review of a different 300B tube amplifier: "Its measured performance is what I would expect from an amplifier with a single-ended output stage that uses a single 300B tube."

I hope in writing this review, it becomes easier to capture some of the appeal of tubes. It's not purely a technical product based upon the measured performance. Like collecting vintage artwork or physical books, tube electronics can be a way to connect to the history of audio.

Through blind testing, objectivists can validate that differences are heard, the differences are small, and therefore a well-engineered low-cost product makes a lot of sense. "Within the performance envelope, most amplifiers are indistinguishable from each other."

For subjectivists, the blind testing does validate that poor SINAD can still sound reasonable. By looking at the speaker-loads, we can see that synergy is not sighted bias, and that the "unique" sound signature is indeed present through a non-linear, content-dependent enhancement.

When people talk about "sweet" treble, where things don't sound bright but the treble has some sort of clarity, we're seeing the signal-dependent treble boost where loud transients will see more enhancement than the softer high frequencies. This isn't sighted bias, but a measureable phenomena that isn't easily reproduced in software.

Do I recommend this amp? Not if it's your only amp. You're really restricted by the power, and the special treble sweetness is unpredictable. It's a lot of money too.

Do I recommend this amp among 300B tube amps? This is my first experience with a 300B tube amp. It certainly lives up to the expectations of sounding different, and it subverted my expectations about how poorly something could measure and still sound reasonable. In my mind, I was thinking SINAD of the 50's or 60s would be my threshold, and I didn't expect SINAD in the 20s and 30s to somehow still sound great. So yes, I do like it.

Do I recommend that you go out and try listening to a 300B amp the next time you're at a show or dealer? Absolutely.

Much as classic literature has stood the test of time, the overall representation of music provided by the Western Electric 300B tube has also stood the test of time. Harmonic distortion, intermodulation distortion, and noise are all present with tubes and it's as far from fully transparent as you might measure. Science and modern measurement tools has helped us gain some insight into potential quantitative explanation for the description of "sweetened" treble. Blind testing combined with measurements and analysis of resistive vs. speaker loads should help each tribe of audiophiles understand the other side a bit more.

This review should help subjectivists see how science can help translate poorly defined descriptions like "sweet treble" into numbers. Measurements are still good for those of us who trust our ears. Likewise, the blind testing and recordings should help objectivists see how owners of 300B aren't in need of a hearing aid -- bad SINAD can still sound pretty good, and the introduction of speaker/amplifier interactions can generate a unique "sound signature" that might be preferred by some.

To reference the current season of The Mandalorian, I consider myself a walker of both paths in the audiophile hobby: objective and subjective.

This is the way.

This review is the ultimate, amazing synthesis between the finest stereophile’s romancing gear appreciation (blue pill) and the open your eyes, copernican revolution (red pill) ASR rebellion.

@amirm, pls hire him now! don’t let him fall to the dark side of the audio!