Designed to process high-quality audio and make it sound even better.
The D.W. Fearn VT-7 Stereo Compressor has an all Class-A vacuum tube audio path, like all Fearn audio
products. The gain reduction elements utilize circuitry that duplicates the sound and characteristics of the finest classic
vacuum tube compressors, without depending on tubes that are no longer manufactured. The control circuitry is modern solid-state
analog. The two channels may be used independently or linked together for stereo. A built in sidechain high-pass filter may
be selected to reduce the compression on bass-heavy material.
Controls (each channel):
•The VU meters may be switched between indicating gain reduction or output level.
The VT-7 Compressor has a highly
transparent sound, although it can be used more aggressively when needed. Artifacts of the compression process are substantially
lower than in most other compressors.
The two channels may be used independently, or linked for stereo. In addition,
a third position on the Link switch inserts a high-pass filter (HPF) in the sidechain to reduce the gain-reduction sensitivity
of the VT-7 to low frequencies. This is a gentle roll-off, nominally at 100Hz. This allows a bass-heavy mix to have a better
frequency balance, and prevents heavy low-frequency audio from modulating the audio level.
The VT-7 is equally adept
in tracking as well as a bus compressor. Even jazz and classical tracks can be sent through the VT-7 for some mild gain control
without obvious effect other than a significant improvement in the overall sound of the mix.
Like all D.W. Fearn products, the VT-7 stereo compressor is a no-compromise design. From the quarter-inch thick front panel
painted with the finest polyurethane finishes to the choice of all components and controls, the VT-7 is built to look as great
as it sounds. Fearn build products that last, so they use parts with superior durability and longevity. Fearn products are
hand-built by craftsman, one at a time, in the USA.
Important Note: Having many tubes, the VT-7 generates a
considerable amount of heat. We highly recommend using D.W. Fearn Vented Rack Panels (#180296) above and below the unit for
History of the VT-7 Compression Amplifier
Compression (or limiting) is sometimes seen as a necessary evil in the recording process. Often it is used to compensate for
less than optimum performance or recording technique. However, when used appropriately, there is no question that good-sounding
compression can add loudness, power, and improved impact to a recording.
Over many years of recording, I have had
the opportunity to use and sometimes own some of the best compressors in the world. For the D.W. Fearn line of products, a
compressor was obviously important. I began the search for the ultimate compressor design in 1995 and it wasn't until 2004
that I developed the sound I was looking for.
There are several ways to achieve compression, and all have their
advantages and disadvantages. The earliest, and still one of the best, designs uses the characteristic of vacuum tubes that
allows their gain to be varied by changing the grid bias. Only certain tube types are appropriate for this (the variable-mu
or remote cut-off types), and none are currently being manufactured. Since I want my products to be used for a long, long
time, I could not manufacture a product that used tubes that were increasingly rare.
Another excellent approach
uses a photoresistor illuminated by a light source to vary the gain of an amplifier. This method was pioneered by Teletronics/Universal
Audio in the LA-2. Many LA-2s were built over the years, and more recently there have been several new versions of this classic
circuit. The world has a good supply of old and new LA-2-style compressors, and although I did some experimenting with this
circuit, I felt that there were enough of them and I didn't need to add another. Also, this design lacks the versatility I
thought was necessary.
A more modern approach uses a voltage-controlled amplifier (VCA), which is quite versatile
and can combine several additional functions (de-essing, gating, etc.) in one simple unit. However, I was never satisfied
with the sound of VCA compressors and did not consider that design for my use.
I experimented with a few off-the-wall
approaches, but was not convinced that these designs would really work to my standards.
Another approach, not often
used, utilizes a pulse-width modulator to control the duty-cycle of a gain reduction element. This approach has several advantages,
including the ability to offer a wide range of adjustment. In the VT-7, a solid-state pulse-width modulator controls a special
shunt element in the audio path to control the gain. Since no audio passes through the element, there is no added distortion
or other degradation of the sound. That's the simple part. Much more complex is the surrounding circuitry that provides precision
control of the element in a way that conforms to what I wanted to hear.
Because the element is well isolated from
the vacuum tube circuitry before and after it, the effect on the audio is entirely linear. It does not introduce any measurable
distortion. And it passes my test for sonic superiority.
The vacuum tube audio path uses circuitry developed for
the D.W. Fearn VT-4 LC Equalizer. In some of the circuit, entirely new designs were needed. The VT-7 uses a combination of
6072A and 6N1P tubes and has the basic sound of all my products.
A look inside the VT-7 reveals a very full box
with several densely packed circuit boards for the gain control driver circuitry, interspersed with eight vacuum tubes. Because
of the very high frequencies involved in the control circuitry, there are many surface-mount (SMT) components. Thus, the VT-7
is a combination of the latest technology, where needed, with a classic great-sounding vacuum tube audio path.
VT-7 was designed from the beginning to be a stereo compressor. The two channels can be used separately or linked together
So what does the VT-7 sound like? In many respects, it is like the classic vacuum tube compressors with
the same musical sound. I have always believed that for most applications the compression characteristics that sound best
are those that approximate the natural compression inherent in our hearing. The VT-7 has this kind of natural-sounding compression
that sounds just right to me.
** The ultimate test for all my products is this: Would I use it in preference
to any other product out there, old or new? The VT-7 passes this test.**
There are not a lot of controls on
the VT-7. Basically, there is just a knob to control the amount of compression (Threshold), the amount of gain, the attack
and release times, and a knob that smoothly varies the compression characteristic from a "softer" to a "harder" sound. At
first, some users may find the controls do not have the range of adjustment that they are used to in more heavy-handed limiters.
However, true to philosophy of design in all my products, the VT-7 is intended to take good sound and make it sound great.
Although its effect can be made to sound obvious, I like the way the VT-7 sounds like what a really good engineer
would do if he had excellent taste and infinitely fast hands on a fader. In other words, the VT-7 controls the levels without
drawing attention to itself. To me, it just sounds right.
D.W. Fearn VT-7 Stereo Compressor Features:
- Dual-channel Equalizer may be used independently of linked together for stereo.
- All class-A triode vacuum tube audio path
- All controls are independent and can be used in any combination
- Constructed of heavy-gauge aluminum
Pros who can use anything choose D.W. Fearn for the best possible sound.
D.W. Fearn VT-7 Stereo Compressor Specifications:
- Performance (no gain reduction; unity gain:
- Frequency Response: 20Hz - 20kHz +/- 0.5dB
- -3dB at 5Hz and 65kHz
- THD: less than 0.07%
- Signal to Noise Radio: better than 80dB
Input: 600 ohm source (nominal) balanced or unbalanced
- Input Load Impedance: 32k ohms, transformer balanced bridging
- Nominal Input Level: +4 dBm
- Maximum Input Level @ 20 cps: +25 dBm
- Gain: unity to +15dB
- Frequency Response: ± 0.2 dB 20 cps to 20 kc, ± 0.5 dB 11 cps to 28 kc, -3 dB @ 0.5 cps & 65 kc
- THD + Noise <0.05% 20 cps to 20 kc
- Signal to Noise Ratio: 78 dB minimum
- Output: low-Z, transformer balanced
- Output source impedance: 115 ohms
- Maximum Output Level: +22 dBm into bridging input balanced or unbalanced
- Gain Reduction Range: 0 to 20dB
- Power Requirements: 100, 120, or 220 VAC
- 50/60Hz, 85 W
- Dimensions: 19" (48.26cm) W x 5.25" (13.34cm) H x 13" (22.9cm) D
- Weight: 22 lbs, (9.55 kg)
- Shipping Weight: 28 lbs, (12.27 kg)
(measurements are made with +4dBm input and output, no compression, into a