Virtual Analogue Synthesizer
Studiologic’s new Waldorf-powered polysynth is here and it’s very yellow indeed. Put your sunglasses on and meet the Sledge...
Studiologic isn’t
a company in the conventional sense; it’s a trading name of Fatar, who
are much better known for their keybeds and controller keyboards. But
while the Sledge may be built in Italy, its heart pumps German blood
because, as the logo in its rear left-hand corner confirms, it’s
“Powered by Waldorf”. If this suggests something designed for
technophiles, prepare to be surprised. Eschewing multitimbrality,
splits, layers, programming depth, complex effects, and all of the other
gubbins that festoon most digital synths, the Sledge takes us back to
an era when men were men, synthesizers were synthesizers, and PA
speakers were frightened.
First Impressions
I
know that it’s not common for one’s first impression of a synthesizer
to be its colour, but the Sledge isn’t just yellow, it’s YELLOW. Of
course, there’s nothing wrong with making your products stand out from
the crowd but, if potential customers don’t fancy being seen in the
company of a yellow lump, it’s possible that sales will suffer. When
I showed the review unit to a professional keyboard player, he told me
that he really liked the design and the sound, but that he would
probably never buy one because it might look horrible under lights —
garish under white, and brown under reds and greens. I haven’t tested
it, but I fear that he might be right.
That
aside, there’s a lot that’s good about the design of the Sledge. For one
thing, it’s very light for a five-octave polysynth. This has been
achieved by constructing the whole thing — including the base plate —
from plastic. Nonetheless, I was pleased by how robust it felt,
notwithstanding that I could lift it off its stand using my little
fingers. As for its spacious control surface, I was delighted to find
that it uses potentiometers rather than rotary encoders which, on some
synths, are almost as likely to decrease a parameter’s value when you
turn them clockwise as they are to increase it. Just as pleasing are its
large, friendly knobs, with even larger ones for the most important
functions. These are reminiscent of vintage Moogs: never a bad thing.
At
this point, I would usually take a moment to describe the synth’s
rear-panel connections, but the only hole on the back of the Sledge is
the one that accepts the mains lead. Yes! It has an internal power
supply, which earns a gold star and a big tick from me. You’ll find
the rest of its sockets on its left-hand side. These are: quarter-inch
audio left and right outputs, a headphone socket, inputs for a sustain
pedal and an expression pedal; and MIDI In and Out on five-pin DIN and
USB. The positions of the sockets are marked on the top panel in nice,
bold lettering, which makes it simple to plug everything in. If space is
limited, you may find it awkward having the cables sticking out of the
side but, to be fair, I found it to be no problem because the Sledge is
only 38 inches wide, whereas having side-facing sockets on 76- or
88-note keyboards can create real difficulties.
Voicing
The
Sledge is unusual in having all of its connections on the left-hand
edge — or nearly all: the power input and accompanying switch are found
at the rear.
Soundwise, the Sledge is a monotimbral polysynth that
claims eight-note polyphony in its marketing materials but actually
delivers far more — perhaps the 16 claimed in its manual. With the
exception of its wavetable capabilities, its uses traditional
subtractive synthesis, with each note based upon (up to) three
oscillators, which also offer limited cross-mod (FM) and oscillator
sync, plus a separate noise generator. These are followed by a single
multi-mode (LP/BP/HP) resonant filter with 12dB/oct and 24dB/oct
options, and an audio amplifier, each of which is controlled by
a dedicated ADSR contour generator. Three LFOs send modulation to eight
destinations, and there’s also polyphonic portamento, a choice of mono
and poly modes, plus single and multi triggering. Two basic effects
sections — chorus, phaser and flanger in one, plus delay and reverb in
the other — complete the package.
I started my
tests by pressing the (very useful) Panel button, so that the current
positions of all the knobs defined the sound, and then programmed
a single-oscillator, monophonic brass patch. The result was excellent:
perhaps not as commanding as the same patch on an ARP Odyssey (which is
my go-to synth for this type of sound), but bright and strident
nonetheless. With a lavish application of reverb from the internal
effects unit, I was more than happy, so I allocated the patch to
a category, named it and saved it. I then set up the aftertouch (which
is hardwired to the mod-wheel LFO) to control the vibrato, and noticed
my ARP ProSoloist looking over its shoulder to see whether the Enid,
circa 1976, had entered the room. Next, I turned my attention to
a selection of more than usable lead sounds and then programmed all
manner of powerful bass patches, many of which revelled in the speed and
snap of the contour generators. I even strayed into VCS3 territory when
I recreated some of the bubbly sounds so popular with the space rock
fraternity. All the programming and performance controls fell
immediately to hand, whereas you have to programme carefully and, in all
likelihood, assign modulators to performance controls on modern
workstations to obtain the same results. This was a very good start.
Next,
I switched Mono off and switched on the chorus. This sent me deep into
single osc/voice polysynth territory, and I had soon programmed a range
of simple poly-brass patches, pads and carpets. Then, switching on Osc2,
I recreated the standard palette of dual-oscillator patches and (to my
great surprise) even stumbled across some sounds reminiscent of a very
large Yamaha of my acquaintance. Following that, I recreated some of the
‘hollow’ sounds that were so prevalent in the mid-’80s, as well as
popular patches based on the second oscillator tuned upward by a major
fifth, discovering in the process that the Sledge has a remarkable
capacity for imitating transistor organs. However, this was also when
I discovered that the Sledge generates a large amount of intermodulation
distortion (loud, spurious, enharmonic pitches) when you play two or
more notes at very high pitches. This is not unique to the Sledge, but
it’s something to be aware of, nonetheless.
The
Sledge was proving to be more flexible than I had envisaged, but some of
its limitations began to appear when I tried to use oscillator
sync. This was because I couldn’t sweep the pitches of any of its
oscillators using the main contour generators. However, tucked away in
the LFO source list and not even mentioned in the manual (!) I found an
option called RAMP. This is not an oscillator, low frequency or
otherwise. It’s a single sweep (upward or downward, depending upon the
polarity of the depth control) and it proved to be a vital component in
the Sledge’s voicing. Directing the Ramp to sweep the pitch of Osc3 and
syncing Osc2 to this, I tried to create the aggressive, ‘tearing’ sounds
so beloved of owners of some vintage monosynths but, to my surprise,
the Sledge failed to recreate these, instead generating pitch sweeps
with a ‘sync-y’ character. What’s more, there’s a significant bug in
this part of the software because, having played one sync’d note in mono
mode, you have to wait a second or two before you can play the next.
Ultimately, I found that the best use for sync was to create unusual
(but static) waveshapes for polyphonic sounds. While it’s useful, this
wasn’t what I had envisaged.
Likewise, the
filter proved to combine flexibility with some unexpected limitations.
For example, while the responses of the six filter modes are pleasing,
the controls exhibit noticeable quantisation. And, despite what the
manual claims, the filter doesn’t track the keyboard at precisely 100
percent, so you can’t create consistent tones from one end of the
keyboard to the other when it’s self-oscillating. What’s more,
this oscillation is very loud when compared with the oscillators’
output, which means that some of my favourite sounds from synths such as
the Juno 60 are beyond the Sledge.
Yet another
area of swings and roundabouts revealed itself when I turned to the
velocity sensitivity. I was pleased to find that the Sledge offers three
response curves, as well as fixed velocity, but disappointed to
discover that the velocity only affects the depths of the amplifier and
filter ADSRs. This means that if the filter contour amount is set to
zero (as it will be for some patches), velocity has no effect on the
brightness of the sound. What’s more, the Velocity knob on the review
unit had a fault; the parameter value returned to zero unless I held the
knob in position.
Finally, I turned my
attention to the Sledge’s wavetables. At the time of writing, the manual
doesn’t tell you which tables these are, saying only that “a more
complete description ... will be made available separately”. My problem
here is that, while Studiologic claim (and I quote again) that the
wavetables are “derived directly from the mother of all digital
synthesizers, the PPG Wave”, my PPG has 32 wavetables, each containing
64 waves, whereas the Sledge has 66, each with 100 values within them.
Consequently, I was unable to compare the Sledge directly to the PPG,
nor could I relate its tables to my Waldorf XTk, which is, again,
different.
Happily, using the wavetables is
a doddle. You select the desired table using the large, dedicated knob
in the Osc1 panel, and the waves within it using the PW knob, which is
repurposed when the wavetable function is selected. You can then move
within the table using the LFOs but, more importantly, you can sweep
through it using the (unsung but vitally important) ramp generator in
the LFO section. I started programming some sounds, and the results were
startling. Within minutes, I had saved one of the best electric pianos
I have ever created on a non-physically-modelled synthesizer, and it
took me no time at all to program a huge range of organs, as well as
some of the glassy pads and percussive sounds that made the PPG such
a revelation when it appeared. This was not because the Sledge is
a hyper-powerful wavetable synth, because it isn’t. In fact, it’s much
more limited than the PPGs and the various flavours of Waldorf that
succeeded it. But it’s much quicker and simpler to program than previous
wavetable synths, making it almost inevitable that something
interesting will emerge. The Sledge actually makes wavetable synthesis
fun!
Room For Improvement
It’s not quite one-knob-per-function, but it’s not far off...
Despite all the good stuff, there are other areas in
which the Sledge falls short of ideal. For example, there are odd bugs
such as the sudden truncation of heavily reverberated sounds when you
turn the master control knob toward zero. More annoying are things such
as the loud thump that it sends to your speakers when switching it on
and off, and the fact that — when plugged into my MacBook Pro via USB —
it chattered away quietly to itself. Then there are voicing
shortcomings, including the crude filter overdrive, which does little
more than clip the signal. (You can confirm this by trying, and failing,
to overdrive a square wave!) Then there’s its unweighted keyboard. This
is adequate when compared with some of the less sophisticated actions
of vintage synths, but the Sledge would benefit from the installation of
something more robust and more suitable for polyphonic playing. Of
course, this would add to the cost of the final product and, in all
likelihood, to its weight, but I can’t help feeling that the Sledge
deserves something better.
Given its hands-on
editing and tiny menus (just 20 parameters in total, including the
arpeggiator), it isn’t surprising that the Sledge requires no support
software. However, the lack of any information in the manual regarding
its use as a MIDI controller (which merely promises that “a complete
information chart ... will be published in official Studiologic sites”)
was frustrating. So I took a leap in the dark, launched a suitable soft
synth on my Mac, and started to play. No drivers were needed; the soft
synth immediately responded to note on/off, velocity, pitch-bend, mod,
aftertouch, and the sustain pedal, although the Sledge’s control panel
did nothing. Mea culpa... the Send Ctrl and Receive Ctrl parameters were
set to ‘off’. Switching these on allowed the Sledge’s knobs and buttons
to send MIDI CCs, although not always the ones that I expected. This
isn’t a huge problem; MIDI CCs can be learned or remapped, so I have no
doubt that the Sledge will perform well as a controller.
Unfortunately, next time I switched the Sledge on, the LFO depth defined
in the Wheel section was permanently applied in its full amount. Having
tried to eliminate this by power cycling (ineffectual) and sending
appropriate MIDI messages (also ineffectual), I fixed it by removing the
USB cable and power-cycling the synth with the Receive Ctrl parameter
set to ‘off’. I was then unable to recreate the problem, so hopefully it
was just a glitch.
Conclusions
While
claims that the Sledge offers a separate knob or button for each
function aren’t quite true, it’s as simple to use as its control panel
suggests. This is great news, because there’s definitely a place in the
world for a polysynth that dispenses with all the frippery of today’s
multitimbral synths, workstations and soft synths, and allows you to
program a great sound using just the knobs and switches on a spacious
and very nicely laid-out control panel. This philosophy was good enough
in the era of the Prophet 5 and OBX, and as far as I’m concerned, it
still holds good today. The trick, as with all synths, is to look to
what it can do, rather than worry about what it can’t.
Sure,
there are many players who will prefer a wider range of facilities but,
back in the ’70s, manufacturers understood that the relationship
between the sound, the control panel and the player could inspire the
performance. By focusing on this, the engineers at Studiologic have
reminded me of something that I once understood intimately, but seemed
to have forgotten: synthesis can be both rewarding and Fun. Despite some
initial reservations, I thoroughly enjoyed programming and playing the
Sledge. It deserves to be a success.
No comments:
Post a Comment