
A beginner’s guide to what makes tube amps growl, bark, and purr—from preamp tubes to output transformers and every cathode in between.
Fat, bright, warm, thick, twangy, jangly, hot, creamy—guitarists use a lot of adjectives to describe their amps' tones, and the longer you play, the more you come to understand the gist of what these terms represent sonically. But what's responsible for these foundational characteristics? What is it within a circuit that makes one amp sweetly clean while another is raw and crunchy, when both are set to the same position on the volume knob?
There are several factors under the hood that affect the aural characteristics of the signal that passes through your amp, but many of the ingredients that make various classic tube amps so different from each other are found within their gain stages. On top of that, the amps' tonal traits are further determined by how these gain stages interact with each other within the circuit as a whole—for example, how the first gain stage impacts the second, and vice-versa, as the guitar signal makes its way down the line. Even beyond the ratios of clean-to-mean and hot-to-cool that are determined by an amp's gain stages, the various configurations are also responsible for a huge part of its voice—its core tone. In most amps, the EQ stages that we often think of as shaping the tone are there just to take away specific frequency bands from the sonic foundation that has already been formed elsewhere.
Most of the amps we consider high gain use several gain stages chained together—something called "cascading gain"—to achieve a hotter signal than one or two more vintage-style gain stages are capable of on their own.
Looking beyond that core voice, gain stages are what make some amps shimmer while others scream. The Mesa/Boogie Mark IIC+, Fender Twin Reverb, Marshall JCM800 2203, Bogner Ecstasy, and Soldano SLO are all tube amps that run at approximately 100 watts, but their very different types and numbers of gain stages are responsible for making one wail, another crunch and thump, and another chime and ring. Let's dig into the basic building blocks of different gain stages found in several classic amps' preamp sections, and then we'll see how coupling them to a range of different output stages further shapes their tone and response.
Setting the Stage
"Gain stage" is the term used to describe any place within a guitar amp where gain is added to the signal—that is, where its strength is increased. The external clue to a gain stage is often found by the presence of a knob that makes the amp louder in one way or another. It might be labeled volume, gain, drive, overdrive, lead, rhythm, or something else, but if the amp gets louder (and/or more distorted) when you turn it up, chances are the potentiometer behind that knob is interacting with a gain stage.
A look at the schematic for the early-'80s Mesa/Boogie Mark IIC reveals the several gain stages, related level controls, and the tone stage in the complex preamp envisioned by company founder Randall Smith.
In traditional all-tube guitar amps, gain is achieved with tubes, so each of these gain stages we're discussing revolves around a specific part of the circuit dedicated to helping each preamp tube do its thing. In fact, there are two triodes within each of the most common preamp tubes used in modern guitar amps—12AX7s and the like—so each of those little tubes can be wired up as if it is two preamp tubes within one bottle. In other words, the most common preamp tubes can provide two gain stages. (That said, some more esoteric amp designs use an EF86, a pentode preamp tube popularized by vintage Vox AC15s and modern Matchless DC30s alike, and which has only one gain stage per tube but is capable of more gain than a 12AX7.)
Of course, a12AX7—and related tubes like the 12AT7 and 12AY7—can also be used to perform other functions within the circuit, including as part of the tremolo, reverb, or effects-loop circuit, or as a phase inverter, for example. All this means that simply counting your amp's preamp tubes and multiplying by two doesn't necessarily reveal its total number of gain stages.
As complex as it is, the single-channel circuit of the Matchless John Jorgenson Signature Model requires only one gain stage, thanks to the capabilities of its EF86 pentode preamp tube (not shown), which is mounted on the other side of the chassis behind the associated circuitry highlighted here. The EF86 is also used in the Matchless DC30.
The thing about gain stages is that their effect on any amp's overall sound is both micro and macro. That is, the accompanying circuitry (resistors, capacitors, etc.) deployed by the amp's designer plays a key role in further shaping the tonal character of each gain stage. But that sound shaping is also cumulative.
So when several gain stages are involved—and there are at least two in the preamps of most guitar amps—each begins to act upon the other to determine the sound of the guitar signal that comes out the other end. As we'll see below, the amount by which multiple gain stages increase the guitar signal as one chains into the other in a more complex multi-stage preamp also determines how much distortion can be achieved when you turn up a high-gain amp.
Voicing
The simplicity of this Komet K29's point-to-point-wired preamp makes it easy to see the methods used to voice its two gain stages, which employ both halves of a single 12AX7 preamp tube (not shown, but mounted on the underside of the chassis, beneath the two highlighted orange capacitors). Two sets of cathode-bias resistors and bypass capacitors (Box 1) help establish the core voice of each stage, while two .022µF coupling capacitors (Box 2)—one between each gain stage and the level control that follows it—further refine the frequency response.
As mentioned previously, each gain stage requires a small network of capacitors and resistors to deliver the voltage that enables the gain stage to function, and to set its operating bias. The designer's choices of the types and values of components used plays a big part in shaping the frequency range of the signal at that point in the circuit. Signal capacitors are also used between stages (so-called "coupling caps") to block unwanted voltages from straying down the line when the audio signal itself is passed along, and the type and size of these capacitors further shapes the core tone of the amplifier. Clever designers very consciously and deliberately calculate the effect that components of different values and types will have on the audio signal at each stage.
In brief, and without getting overly technical, a designer might make a particular gain stage sound cleaner or hotter by adjusting its bias through careful resistor selection, and then make it fatter or brighter by using the appropriate bypass capacitor linked in parallel to that resistor. (Interestingly, the signal doesn't actually pass through these components: They merely help govern the tube's handling of the signal.) The designer may further sculpt the amp's voicing by placing a coupling capacitor of a relatively high value between that gain stage and the next to allow a full, bassy response, or one of a lower value to enhance a higher range of frequencies. Given the types and values of components available, there are countless possible permutations and nearly endless ways to dial in an amp's tone.
The OT plays a significant part in tone shaping, and its size, design, and build quality all factor into the way it does its job.
Beyond these means of voicing a gain stage and setting its propensity to distort, the ways in which stages are chained together plays a big part in determining how the amp as a whole behaves. We might split amps into two main categories—low and high gain—but in reality there can be a lot of overlap between the two.
Low-Gain or Vintage-Style Preamps
By today's standards, the preamps in most amps of the '50s and early to mid '60s are considered low-gain. These also tend to be simple and have fewer gain stages. They generally apply just enough preamplification to get your signal to a level that the output stage can handle, since the original objective of most guitar amps was to make the guitar louder while keeping it as clean as possible, rather than to intentionally generate distortion. It's no surprise, then, that these amps lean toward a cleaner, less distorted sound when the volume control is kept within reason—maybe up to 4 or 5 on the dial, give or take. Many low-gain or vintage-style amps are also known for their juicy overdrive, of course, which is achieved by turning that volume control up higher, at which point it does start to distort and push the output stage harder. In many cases this distortion would have been considered undesirable by the designers—an anomaly caused by pushing the amp beyond its intended operational parameters—but players quickly discovered that overdriven amps produce delectably dynamic tones.
The Fender "tweed" Deluxe schematic shows the first and second gain stages, tone control, phase inverter, and output stage of one channel. Note the way the 12AX7 is used by the second gain stage and phase inverter.
Good examples of this sort of amp are the Fender "tweed" Deluxe and the normal channel of a Vox AC30—as well as the many amps they inspired. Each has just a single gain stage in the preamp, although the tweed Deluxe also has another gain stage—often called a "driver" stage—right in front of the phase inverter, which is the gateway to the output stage.
Others, such as Fender's "blackface" Deluxe Reverb, Twin Reverb, and similar models, have multiple tone controls (treble, bass, and sometimes middle) in a more complex EQ circuit sandwiched between two tube gain stages. This doesn't always make the amps a lot "hotter," though, because that second stage is necessary to recover some signal level that's lost in the more complex tone network (which, of course, also allows more fine-tuning of the amp's frequency response). The tweed Deluxe and its ilk, on the other hand, have only a simple tone control that acts as a "treble bleed," much as the tone control on a guitar, to pass some of the high frequencies to ground, rather than having the entire signal pass through it and lose gain in the process.
Others still, such as larger tweed amps, the Vox "top boost" channel, and the Marshall plexi-style preamp, have a first gain stage followed by another tube that drives the tone network that follows it—something called a "cathode follower." In the most basic sense, the results are somewhat similar in all of these, in that the ratio of clean to overdrive in these low-gain preamp types correlates fairly directly to their volume levels. Yet each of these amps shapes your guitar signal somewhat differently, leading to variations in tone, distortion, and playing feel. All are technically low-gain circuits, but some players will express distinct preferences for one over the other according to how they perform.
High-Gain Preamps
This diagram illustrates the cascading gain stages, cathode-follower stage, tone stage, and phase inverter of an early-'80s Marshall JCM800 2204 in lead mode.
Consider the sound of the lead channel in modern channel-switching amps or single-channel amps intended purely for rock overdrive, and what you're hearing is a high-gain preamp. Although we refer to these as modern, this topology really roared into existence in its popular form in the late '60s, when Randall Smith introduced his first Mesa/Boogie amps. Shortly thereafter, others also began modifying existing amps' low-gain preamps to become high gain.
As we've touched on already, a single gain stage can be designed to squeeze the maximum amount of gain from that preamp tube, but most of the amps we consider high gain use several gain stages chained together—something called "cascading gain"—to achieve a hotter signal than one or two more vintage-style gain stages are capable of on their own. In amps of this type, the saturated overdrive sound we hear is typically produced by pushing early gain stages to very high levels, often chaining one into the other to continually drive the gain higher and enable desired levels of distortion, and then reining in the signal at the end of the line to create the desired final output level.
There's a broad range of high-gain designs on the market, and different makers' amps often do things in quite different ways. It's also worth noting that they achieve a pretty wide range of gain levels within what we broadly call "high gain." For example, today's metal player might not consider a late-'70s Marshall 2204 high-gain at all, whereas it would have sounded extremely hot to the average rocker of its era.
Familiar names that typify the high-gain genre are Bogner, Soldano, Diezel, Fryette, EVH, ENGL, Fuchs, and, of course, good old Marshall and Mesa/Boogie—plus far, far more than we can list here. Most follow some evolution of circuitry that began with the original Mesa/Boogie designs, which chain together several gain stages. By increasing the gain incrementally from stage to stage (usually with controls labeled drive, gain, lead, or even just volume placed between them to govern how much signal from the previous stage is passed along to the next as you ramp up the signal all along the chain), designers can both conjure much higher levels of gain than a one- or two-stage preamp and still provide the player with the ability to dial in anything from the minimum to the maximum of that preamp's capabilities.
Even a relatively minor change of tubes or components or values or topologies within one little stage somewhere between input and output might change an amp's tone.
Earlier renditions of cascading-gain amps, such as the Marshall 2204 and its ilk, only chained two gain stages into each other, with a master volume control further down the signal path to govern the overall volume. Modern high-gain amps, on the other hand, might have four or more gain stages.
Channel Switchers
Most modern high-gain amps also offer two or more footswitchable channels. The clean or rhythm channels are often configured like traditional one- or two-stage vintage preamps. If there's a channel between the low-gain rhythm and high-gain lead channels, it's usually configured to produce anything from crunch to a more old-school lead, using a couple of gain stages.
In these amps, a stomp of the footswitch merely selects which of the multiple preamp channels is routed to the output stage, which itself is not reconfigured in any way. (A few more elaborate designs do offer some switchable changes in the back end, too. Fryette's Sig:X and Mesa/Boogie's Mark Five amps come to mind, but this is still a rare feature.) Most so-called channel switchers simply incorporate different types of preamp stages that exist in parallel to each other, with only one being active at any time.
On the other hand, some channel switchers with high-gain possibilities introduce their lead modes by enabling an extra gain stage or two after the initial stages that provide the clean/rhythm mode. The original Mesa/Boogie designs were like this, with the guitar signal running through both the clean and lead circuits when switched to lead mode. Similarly, Dumble's legendary Overdrive Special—and the many amps inspired by it—add a two-stage overdrive circuit to the foundation that you're already running through for your rhythm tone when you stomp on the lead footswitch.
Another big distinguisher between multi-channel amps is whether the individual channels have their own EQ stages or share a stage. The former allows the player to tailor tone settings to suit the individual channel, but is obviously more complicated to build and requires squeezing more into the circuit. The latter requires finding a compromise in tone settings that works for both the rhythm and lead channels (and possibly a crunch channel)—although in most well-designed amps this isn't all that difficult to achieve.
Master Volume vs. No Master Volume
This Divided by 13 CCC 9/15 amp uses a post-phase-inverter master volume (PPIMV, highlighted here), with shielded leads running to and from the circuit junction just beyond the phase inverter.
Almost all high-gain amplifiers have a master volume control, which is necessary to achieve the desired overdrive/distortion level at a manageable overall volume. In such cases, the first volume, gain, or drive control (the name can vary) sets the gain of the first preamp stage, while the master volume generally follows any and all other gain stages to govern how much signal is passed on to the output stage.
A master volume can be placed toward the back end of the preamp stage, or in an early part of the output stage, or just about anywhere in between, but will behave somewhat differently in different locations. Many modern high-gain amps with multiple gain stages have corresponding level controls within each preamp channel, in addition to a master control in the output stage to govern overall volume. If your amp has a lead channel with controls labeled gain, lead level, and master, for example, this is most likely what you are seeing: one knob to set initial preamp gain, another to rein it in following a further gain stage, and a final control to set the overall volume level of the amp (which might also determine the final volume level of any clean/rhythm channel that the amp includes).
A late-stage master volume control (also sometimes called a level control, or just volume, if the first-stage control is labeled something like gain or drive) is often configured as a "post-phase-inverter master volume," which you'll often see shortened to PPIMV, so-named because it comes after the phase-inverter but before the output tubes, placing it well into the output stage. Such masters are praised by many players for their "transparency"—the way they preserve the fundamental tone and gain settings of the rest of the amp and allow you to achieve your desired sound at lower volumes, rather than changing the core tone when the master is turned down.
In truth, almost any means of lowering overall amp volume will change its sound slightly. The mere act of reducing decibels makes things sound somewhat different to the human ear. But in many cases, reducing the signal level that hits the output tubes also alters tones in other ways, if only slightly. Even so, several designers have gotten pretty close to perfecting the transparent master volume, and this knob performs superbly in many amps.
That said, the master volumes used in highly acclaimed Marshall 2203 and 2204 amps of the late '70s used potentiometers placed further up the signal chain, right after the tone stack and beforethe phase inverter—yet few players complain about these amps' legendary overdrive tones.
No Master Volume Control
Following the circuit of Marshall's 2204 master-volume amps of the late '70s, this MGL20 has a preamp gain control for its first gain stage (highlighted at left), and a master control that immediately follows its tone stage (right) in the signal chain, meaning it comes beforethe phase inverter.
In the early days of the "boutique" amp craze, and somewhat as a backlash to the high-gain, channel-switching monsters of the '80s and early '90s, there was a lot of buzz about non-master-volume amps—amps built more to vintage-inspired standards and designs.
If your amp has no master volume and just a single volume control (or one volume control per channel), it's probably a low-gain preamp. That doesn't mean you can't push it into overdrive, but you will usually need to crank the volume up to get there—and many players may still want an overdrive or distortion pedal out front for more saturated lead tones. However, not all non-master-volume amps are low gain. The highly prized Trainwreck amps made by the late Ken Fischer (and now being made under license), as well as models by builders such as Komet and Dr. Z—some of which were also co-designed by Fischer—have relatively high-gain preamps. Either way, if your amp lacks a master volume and you can only get your favorite tones at impractical volumes, you can purchase an output-attenuator unit to insert in the signal path between your amp's output and speaker(s). This lets you turn up the amp to achieve the desired level of dirt, then rein in the volume via the attenuator's level control.
Low-Gain with Master
These days, many amps with low-gain preamps also have a master volume. This configuration doesn't usually yield true high-gain tones, but it can frequently allow decent crunch or even vintage-level lead tones by turning up the initial volume and turning down the master volume.
The Output Stage
An amp's output stage comprises everything from the input side of its phase inverter to the jack on the back of the amp that sends the signal to the speakers, including the output tubes and output transformer in between, plus a bunch of capacitors and resistors connecting it all.
The output stage takes the relatively low-level electrical signal that the preamp has already increased in voltage and increases the voltage further, ultimately converting it to a high-wattage, low-impedance signal that will drive a speaker. The output stage begins with the phase inverter, which includes yet another preamp tube that is configured with a network of resistors and capacitors to split the audio signal into two strands, while flipping one strand to the reverse of the other's phase in order to pass along two mirror-image signals to the two sides of the output stage for final amplification.
The split, inverted signal is then passed to two output tubes (or two parallel-wired pairs in larger amps), which act in a "push-pull" configuration—one tube "pushing" one side of the split signal while the other tube "pulls" its reverse-phase partner—to further increase the signal's strength and send it along to the output transformer. The output transformer then converts the signal to one that will power a speaker. (Note that small "single-ended" amps with just one output tube, such as the Fender Champ or Vox AC4, don't work in this push-pull manner, and therefore don't require a phase inverter.)
Power and Distortion Capabilities
This MGL AmpWorks Lead Master 50's output transformer is the larger of the silver transformers, at the center of the row of three transformers behind the row of tubes. To its right is the power transformer, and to its left is the choke.
It's also important to know that the output stage is where an amp's overall power capability is determined: The combination of the type (and number) of output tubes and output transformer used are what make it a 15-watt amp or a 100-watt amp. A pair of 6V6s or EL84s and a relatively small output transformer deliver the former, for example, while four 6L6s or EL34s and a large transformer yield the latter. Any type of preamp stage we've discussed here, high gain or low, can essentially be partnered with any type of output stage.
In addition to determining output level, the output stage plays a big part in shaping the character and degree of the distortion induced when the amp is driven hard. Although in most amps the majority of distortion is generated in the preamp, this signal will drive smaller, lower-powered output stages harder than it will larger, higher-powered stages, thereby inducing more output-stage distortion in smaller amps, which can dramatically change the character of your overdrive sound in some cases.
Biasing Methods
Output-tube biasing might seem a rather esoteric and technical subject, but it's worth knowing a little about because the method by which any given amp is biased can affect its sound and performance. Further, knowing how an amp is biased should tell you a little something about the nature of its playing feel and harmonic content.
All tubes need to be biased—that is, have some control method applied to set their operating level at idle (much the way a car's carburetor is adjusted to set its idle)—but it is most significant with regard to output tubes. Bias is a very involved subject, but you mainly need to know that most amps' output tubes are biased in one of two main ways—by connecting their cathodes to ground via a large resistor of a value that determines this bias, or by applying a low negative voltage to their grids, as supplied by a small network of components connected to a tap on the power transformer. The former method is called "cathode bias," and the latter "fixed bias"—rather confusingly, perhaps, because the bias level on most fixed-biased amps made from the early '60s onward can actually be adjusted, whereas the bias level on cathode-biased amps is preset and cannot be adjusted (not without physically changing the bias resistor, at least).
Bias methods are significant because they help determine an amp's character and efficiency. Fixed-bias amps make somewhat more efficient use of their output tubes, in most cases, and provide a means of squeezing the maximum output wattage from any given design, while also generally sounding a little tighter and firmer, in the low-end in particular. Fender's Twin, Deluxe Reverb, and Bassman, and Marshall's JTM45 and plexi amps are classic examples of fixed-bias amps. Cathode-biased amps, on the other hand, tend to be less efficient, wattage-wise, while being characterized by a somewhat greater level of harmonic overtones when they begin to distort, along with what might be perceived as a softer bass response—and sometimes a slightly more tactile playing feel, too. Classic cathode-biased amps include the Fender tweed Deluxe, Vox AC15 and AC30, Matchless DC30, and Carr Mercury.
Output Transformers
In the vast majority of tube guitar amps, the output transformer (OT) is the largest component in the signal chain. It converts the high-impedance signal from the output tubes to a high-wattage, low-impedance signal. The OT is usually the second largest transformer hanging from the chassis' underside—the largest being the power transformer. Given that this component transforms the electrical signal from the output tubes to one that the speaker can pump through the air and into your ears, the OT plays a significant part in tone shaping, and its size, design, and build quality all factor into the way it does its job.
Roughly speaking, the bigger the OT relative to the output tubes, the bolder the sound and firmer the bass response. OT size also tends to equate to maximum wattage capabilities, although the OT can only translate what the output tubes provide. There are many other design parameters involved, of course, and these are just basic rules of thumb.
None of this means, however, that bigger is always better. An OT needs to be appropriately sized for the tubes that feed it, and appropriate to the designer's overall goals, too. For example, many smaller or mid-sized amps owe some of their juicy, succulent overdrive character to the fact that their output tubes are saturating a relatively small OT. Install a bigger, supposedly "higher quality" OT, and they might sound colder and less characterful.
The Tip of the Iceberg
If you want to learn more about the minutiae of how amplifier gain stages work, there are options out there for a tech deep-dive. But it should be easy enough already to see what a major mix-and-match puzzle any guitar amp is, and how much even a relatively minor change of tubes or components or values or topologies within one little stage somewhere between input and output might change its tone.
In the end, you really don't have to know how every little link in the signal chain functions to find the amp that will work best for you. But a good grounding in their basic operations—and more importantly, how different elements equate to different sound and feel—should help you narrow the search for the amp(s) that will best help you achieve your musical goals.
A Word About Tone Stages
Like many of its "blackface" kin, the Fender Super Reverb has a second gain stage that's essentially a gain make-up stage. The highlighted areas in this photo of a Super circuit show (Box 1) the first channel's first gain stage, gain make-up stage, and related circuitry, and (Box 2) the inputs and volume, treble, and bass controls related to those two gain stages.
Tone stages (aka EQ stages) are also part of the preamp, but are generally considered apart from gain stages per se, although some types of tone stages do contain, employ, or rely upon gain stages provided by preamp tubes.
In smaller or more basic amps, like the archetypal Fender "tweed" Deluxe, a single tone control might not be a stage unto itself at all, but rather a simple treble-bleed network formed by a potentiometer and a capacitor or two that determine how much high-frequency content is tapped out of the signal before it exits the preamp. More complex EQ stages have separate bass and treble controls, and many add a midrange control, too, frequently using a preamp tube either to drive those controls (to avoid signal loss) or as a gain make-up stage following the tone controls to get the signal back up to where it needs to be prior to hitting the output stage.
Although most tone stages' controls feature similar names, they can execute their functions via very different electrical means—and they can have vastly different levels of interactivity and frequency controllability.
Other than the one-knob tone control found on tweed Deluxe-style amps, there are two common tone-stage topologies. In one camp are those found on the Fender tweed Bassman, Marshall JTM45 and plexi amps, the Vox AC30's "top boost" channel, and similar models. In the other are those found in "blackface" and "silverface" Fenders like the Deluxe Reverb and Twin Reverb. The former group uses an entire preamp tube positioned before the tone controls as a driver and cathode-follower (that is, the signal comes out of the tube's cathode, rather than its anode). The latter places the tone controls between the channel's first gain stage and a second traditional gain stage (called a gain make-up stage) that replaces the gain lost by the signal while travelling through the controls and related circuitry. In addition to having controls that interact with each other slightly differently, each tone-stage topology also imparts a slightly different playing feel to the amp, best defined as a crisp and snappy response in the blackface/silverface tone stack, and a tactile, somewhat creamier, touchy-feely response in the tweed/Marshall cathode-follower topology.
[Updated 8/23/21]
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Stevie Van Zandt with “Number One,” the ’80s reissue Stratocaster—with custom paisley pickguard from luthier Dave Petillo—that he’s been playing for the last quarter century or so.
With the E Street Band, he’s served as musical consigliere to Bruce Springsteen for most of his musical life. And although he stands next to the Boss onstage, guitar in hand, he’s remained mostly quiet about his work as a player—until now.
I’m stuck in Stevie Van Zandt’s elevator, and the New York City Fire Department has been summoned. It’s early March, and I am trapped on the top floor of a six-story office building in Greenwich Village. On the other side of this intransigent door is Van Zandt’s recording studio, his guitars, amps, and other instruments, his Wicked Cool Records offices, and his man cave. The latter is filled with so much day-glo baby boomer memorabilia that it’s like being dropped into a Milton Glaser-themed fantasy land—a bright, candy-colored chandelier swings into the room from the skylight.
There’s a life-size cameo of a go-go dancer in banana yellow; she’s frozen in mid hip shimmy. One wall displays rock posters and B-movie key art, anchored by a 3D rendering of Cream’s Disraeli Gearsalbum cover that swishes and undulates as you walk past it. Van Zandt’s shelves are stuffed with countless DVDs, from Louis Prima to the J. Geils Band performing on the German TV concert seriesRockpalast. There are three copies ofIggy and the Stooges: Live in Detroit. Videos of the great ’60s-music TV showcases, from Hullabaloo to Dean Martin’s The Hollywood Palace, sit here. Hundreds of books about rock ’n’ roll, from Greil Marcus’s entire output to Nicholas Schaffner’s seminal tome, The Beatles Forever, form a library in the next room.
But I haven’t seen this yet because the elevator is dead, and I am in it. Our trap is tiny, about 5' by 5'. A dolly filled with television production equipment is beside me. There’s a production assistant whom I’ve never met until this morning and another person who’s brand new to me, too, Geoff Sanoff. It turns out that he’s Van Zandt’s engineer—the guy who runs this studio. And as I’ll discover shortly, he’s also one of the several sentinels who watch over Stevie Van Zandt’s guitars.
There’s nothing to do now but wait for the NYFD, so Sanoff and I get acquainted. We discover we’re both from D.C. and know some of the same people in Washington’s music scene. We talk about gear. We talk about this television project. I’m here today assisting an old pal, director Erik Nelson, best known for producing Werner Herzog’s most popular documentaries, like Grizzly Man and Cave of Forgotten Dreams. Van Zandt has agreed to participate in a television pilot about the British Invasion. After about half an hour, the elevator doors suddenly slide open, and we’re rescued, standing face-to-face with three New York City firefighters.
As our camera team sets up the gear, Sanoff beckons me to a closet off the studio’s control room. I get the sense I am about to get a consolation prize for standing trapped in an elevator for the last 30 minutes. He pulls a guitar case off the shelf—it’s stenciled in paint with the words “Little Steven” on its top—snaps open the latches, and instantly I am face to face with Van Zandt’s well-worn 1957 Stratocaster. Sanoff hands it to me, and I’m suddenly holding what may as well be the thunderbolt of Zeus for an E Street Band fan. My jaw drops when he lets me plug it in so he can get some levels on his board, and the clean, snappy quack of the nearly 70-year-old pickups fills the studio. For decades, Springsteen nuts have enjoyed a legendary 1978 filmed performance of “Rosalita” from Phoenix, Arizona, that now lives on YouTube. This is the Stratocaster Van Zandt had slung over his shoulder that night. It’s the same guitar he wields in the famous No Nukes concert film shot at Madison Square Garden a year later, in 1979. My mind races. The British Invasion is all well and essential. But now I’m thinking about Van Zandt’s relationship with his guitars.
Stevie Van Zandt's Gear
Van Zandt’s guitar concierge Andy Babiuk helped him plunge deeper down the Rickenbacker rabbit hole. Currently, Van Zandt has six Rickenbackers backstage: two 6-strings and four 12-strings.
Guitars
- 1957 Fender Stratocaster (studio only)
- ’80s Fender ’57 Stratocaster reissue “Number One”
- Gretsch Tennessean
- 1955 Gibson Les Paul Custom “Black Beauty” (studio only)
- Rickenbacker Fab Gear 2024 Limited Edition ’60s Style 360 Model (candy apple green)
- Rickenbacker Fab Gear 2023 Limited Edition ’60s Style 360 Model (snowglo)
- Rickenbacker 2018 Limited Edition ’60s Style 360 Fab Gear (jetglo)
- Two Rickenbacker 1993Plus 12-strings (candy apple purple and SVZ blue)
- Rickenbacker 360/12C63 12-string (fireglo)
- Vox Teardrop (owned by Andy Babiuk)
Amps
- Two Vox AC30s
- Two Vox 2x12 cabinets
Effects
- Boss Space Echo
- Boss Tremolo
- Boss Rotary Ensemble
- Durham Electronics Sex Drive
- Durham Electronics Mucho Busto
- Durham Electronics Zia Drive
- Electro-Harmonix Satisfaction
- Ibanez Tube Screamer
- Voodoo Labs Ground Control Pro switcher
Strings and Picks
- D’Addario (.095–.44)
- D’Andrea Heavy
Van Zandt has reached a stage of reflection in his career. Besides the Grammy-nominated HBO film, Stevie Van Zandt: Disciple, which came out in 2024, he recently wrote and published his autobiography, Unrequited Infatuations (2021), a rollicking read in which he pulls no punches and makes clear he still strives to do meaningful things in music and life.
His laurels would weigh him down if they were actually wrapped around his neck. In the E Street Band, Van Zandt has participated in arguably the most incredible live group in rock ’n’ roll history. And don’t forget Southside Johnny and the Asbury Jukes or Little Steven and the Disciples of Soul. He created both the Underground Garage and Outlaw Country radio channels on Sirius/XM. He started a music curriculum program called TeachRock that provides no-cost resources and other programs to schools across the country. Then there’s the politics. Via his 1985 record, Sun City, Van Zandt is credited with blasting many of the load-bearing bricks that brought the walls of South African apartheid tumbling into dust. He also acted in arguably the greatest television drama in American history, with his turn as Silvio Dante in The Sopranos.
Puzzlingly, Van Zandt’s autobiography lacks any detail on his relationship with the electric guitar. And Sanoff warns me that Van Zandt is “not a gearhead.” Instead he has an organization in place to keep his guitar life spinning like plates on the end of pointed sticks. Besides Sanoff, there are three others: Ben Newberry has been Van Zandt’s guitar tech since the beginning of 1982. Andy Babiuk, owner of Rochester, New York, guitar shop Fab Gear and author of essential collector reference books Beatles Gear and Rolling Stones Gear (the latter co-authored by Greg Prevost) functions as Van Zandt’s guitar concierge. Lastly, luthier Dave Petillo, based in Asbury Park, New Jersey, oversees all the maintenance and customization on Van Zandt’s axes.
“I took one lesson, and they start to teach you the notes. I don’t care about the notes.” —Stevie Van Zandt
I crawl onto Zoom with Van Zandt for a marathon session and come away from our 90 minutes with the sense that he is a man of dichotomies. Sure, he’s a guitar slinger, but he considers his biggest strengths to be as an arranger, producer, and songwriter. “I don’t feel that being a guitar player is my identity,” he tells me. “For 40 years, ever since I made my first solo record, I just have not felt that I express myself as a guitar player. I still enjoy it when I do it; I’m not ambivalent. When I play a solo, I am in all the way, and I play a solo like I would like to hear if I were in the audience. But the guitar part is really part of the song’s arrangement. And a great solo is a composed solo. Great solos are ones you can sing, like Jimi Hendrix’s solo in ‘All Along the Watchtower.’”
In his autobiography, Van Zandt mentions that his first guitar was an acoustic belonging to his grandfather. “I took one lesson, and they start to teach you the notes. I don’t care about the notes,” Van Zandt tells me. “The teacher said I had natural ability. I’m thinking, if I got natural ability, then what the fuck do I need you for? So I never went back. After that, I got my first electric, an Epiphone. It was about slowing down the records to figure out with my ear what they were doing. It was seeing live bands and standing in front of that guitar player and watching what they were doing. It was praying when a band went on TV that the cameraman would occasionally go to the right place and show what the guitar player was doing instead of putting the camera on the lead singer all the time. And I’m sure it was the same for everybody. There was no concept of rock ’n’ roll lessons. School of Rock wouldn’t exist for another 30 years. So, you had to go to school yourself.”
By the end of the 1960s, Van Zandt tells me he had made a conscious decision about what kind of player he wanted to be. “I realized that I really wasn’t that interested in becoming a virtuoso guitar player, per se. I was more interested in making sure I could play the guitar solo that would complement the song. I got more into the songs than the nature of musicianship.”
After the Beatles and the Stones broke the British Invasion wide open, bands like Cream and the Yardbirds most influenced him. “George Harrison would have that perfect 22-second guitar solo,” Van Zandt remembers. “Keith Richards. Dave Davies. Then, the harder stuff started coming. Jeff Beck in the Yardbirds. Eric Clapton with things like ‘White Room.’ But the songs stayed in a pop configuration, three minutes each or so. You’d have this cool guitar-based song with a 15-second, really amazing Jeff Beck solo in it. That’s what I liked. Later, the jam bands came, but I was not into that. My attention deficit disorder was not working for the longer solos,” he jokes. Watch a YouTube video of any recent E Street Band performance where Van Zandt solos, and the punch and impact of his approach and attack are apparent. At Nationals Park in Washington, D.C., last year, his solo on “Rosalita” was 13 powerful seconds.
Van Zandt and Bruce Springsteen’s relationship goes back to their earliest days on the Jersey shore. “Everybody had a different guitar; your guitar was your identity,” recalls Van Zandt. “At some point, a couple of years later, I remember Bruce calling me and asking me for my permission to switch to Telecaster. At that point, I was ready to switch to Stratocaster.”
Photo by Pamela Springsteen
Van Zandt left his Epiphone behind for his first Fender. “I started to notice that the guitar superstars at the time were playing Telecasters. Mike Bloomfield. Jeff Beck. Even Eric Clapton played one for a while,” he tells me. “I went down to Jack’s Music Shop in Red Bank, New Jersey, because he had the first Telecaster in our area and couldn’t sell it; it was just sitting there. I bought it for 90 bucks.”
In those days, and around those parts, players only had one guitar. Van Zandt recalls, “Everybody had a different guitar; your guitar was your identity. At some point, a couple of years later, I remember Bruce calling me and asking me for my permission to switch to Telecaster. At that point, I was ready to switch to Stratocaster, because Jimi Hendrix had come in and Jeff Beck had switched to a Strat. They all kind of went from Telecaster to Les Pauls. And then some of them went on to the Stratocaster. For me, the Les Paul was just too out of reach. It was too expensive, and it was just too heavy. So I said, I’m going to switch to a Stratocaster. It felt a little bit more versatile.”
Van Zandt still employs Stratocasters, and besides the 1957 I strummed, he was seen with several throughout the ’80s and ’90s. But for the last 20 or 25 years, Van Zandt has mainly wielded a black Fender ’57 Strat reissue from the ’80s with a maple fretboard and a gray pearloid pickguard. He still uses that Strat—dubbed “Number One”—but the pickguard has been switched to one sporting a purple paisley pattern that was custom-made by Dave Petillo.
Petillo comes from New Jersey luthier royalty and followed in the footsteps of his late father, Phil Petillo. At a young age, the elder Petillo became an apprentice to legendary New York builder John D’Angelico. Later, he sold Bruce Springsteen the iconic Fender Esquire that’s seen on the Born to Run album cover and maintained and modified that guitar and all of Bruce’s other axes until he passed away in 2010. Phil worked out of a studio in the basement of their home, not far from Asbury Park. Artists dropped in, and Petillo has childhood memories of playing pick-up basketball games in his backyard with members of the E Street Band. (He also recalls showing his Lincoln Logs to Johnny Cash and once mistaking Jerry Garcia for Santa Claus.)
“I was more interested in making sure I could play the guitar solo that would complement the song. I got more into the songs than the nature of musicianship.” —Stevie Van Zandt
“I’ve known Stevie Van Zandt my whole life,” says Petillo. “My dad used to work on his 1957 Strat. That guitar today has updated tuners, a bone nut, new string trees, and a refret that was done by Dad long ago. I think one volume pot may have been changed. But it still has the original pickups.” Petillo is responsible for a lot of the aesthetic flair seen on Van Zandt’s instruments. He continues, “Stevie is so much fun to work with. I love incorporating colors into things, and Stevie gets that. When you talk to a traditional Telecaster or Strat player, and you say, ‘I want to do a tulip paisley pickguard in neon blue-green,’ they’re like, ‘Holy cow, that’s too much!’ But for Stevie, it’s just natural. So I always text him with pickguard designs, asking him, ‘Which one do you like?’ And he calls me a wild man; he says, ‘I don’t have that many Strats to put them on!’ But I’ll go to Ben Newberry and say, ‘Ben, I made these pickguards; let’s get them on the guitar. And I’ll go backstage, and we’ll put them on. I just love that relationship; Stevie is down for it.”
Petillo takes care of the electronics on Van Zandt’s guitars. Almost all of the Strats are modified with an internal Alembic Stratoblaster preamp circuit, which Van Zandt can physically toggle on and off using a switch housed just above the input jack. Van Zandt tells me, “That came because I got annoyed with the whole pedal thing. I’m a performer onstage, and I’m integrated with the audience and I like the freedom to move. And if I’m across the stage and all of a sudden Bruce nods to me to take a solo, or there’s a bit in the song that requires a little bit of distortion, it’s just easier to have that; sometimes, I’ll need that extra little boost for a part I’m throwing in, and it’s convenient.”
In recent times, Van Zandt has branched out from the Stratocaster, which has a lot to do with Andy Babiuk's influence. The two met 20 years ago, and Babiuk’s band, the Chesterfield Kings, is on Van Zandt’s Wicked Cool Records. “He’d call me up and ask me things like, ‘What’s Brian Jones using on this song?’” explains Babiuk. “When I’d ask him why, he’d tell me, ‘Because I want to have that guitar.’ It’s a common thing for me to get calls and texts from him like that. And there’s something many people overlook that Stevie doesn’t advertise: He’s a ripping guitar player. People think of him as playing chords and singing backup for Bruce, but the guy rips. And not just on guitar, on multiple instruments.”
Van Zandt tells me he wanted to bring more 12-string to the E Street Band this tour, “just to kind of differentiate the tone.” He explains, “Nils is doing his thing, and Bruce is doing his thing, and I wanted to do more 12-string.” He laughs, “I went full Paul Kantner!” Babiuk helped Van Zandt plunge deeper down the Rickenbacker rabbit hole. Currently, Van Zandt has six Rickenbackers backstage: two 6-strings and four 12-strings. Each 12-string has a modified nut made by Petillo from ancient woolly mammoth tusk, and the D, A, and low E strings are inverted with their octave.
Van Zandt explains this to me: “I find that the strings ring better when the high ones are on top. I’m not sure if that’s how Roger McGuinn did it, but it works for me. I’m also playing a wider neck.”
Babiuk tells me about a unique Rick in Van Zandt’s rack of axes: “I know the guys at Rickenbacker well, and they did a run of 30 basses in candy apple purple for my shop. I showed one to Stevie, and purple is his color; he loves it. He asked me to get him a 12-string in the same color, and I told him, ‘They don’t do one-offs; they don’t have a custom shop,’ but it’s hard to say no to the guy! So I called Rickenbacker and talked them into it. I explained, ‘He’ll play it a lot on this upcoming tour.’ They made him a beautiful one with his OM logo.”
The purple one-off is a 1993Plus model and sports a 1 3/4" wide neck—1/8" wider than a normal Rickenbacker. Van Zandt loved it so much that he had Babiuk wrestle with Rickenbacker again to build another one in baby blue. Petillo has since outfitted them with paisley-festooned custom pickguards. When guitar tech Newberry shows me these unique axes backstage, I can see the input jack on the purple guitar is labeled with serial number 01001.“Some of my drive is based on gratitude,” says Van Zandt, “feeling like we are the luckiest guys in the luckiest generation ever.”
Photo by Rob DeMartin
Van Zandt also currently plays a white Vox Teardrop. That guitar is a prototype owned by Babiuk. “Stevie wanted a Teardrop,” Babiuk tells me, “but I explained that the vintage ones are hit and miss—the ones made in the U.K. were often better than the ones manufactured in Italy. Korg now owns Vox, and I have a new Teardrop prototype from them in my personal collection. When I showed it to him, he loved it and asked me to get him one. I had to tell him, ‘I can’t; it’s a prototype, there’s only one,’ and he asked me to sell him mine,” he chuckles. “I told him, ‘It’s my fucking personal guitar, it’s not for sale!’ So I ended up lending it to him for this tour, and I told him, ‘Remember, this is my guitar; don’t get too happy with it, okay?’
“He asked me why that particular guitar sounds and feels so good. Besides being a prototype built by only one guy, the single-coil pickups’ output is abnormally hot, and the neck feels like a nice ’60s Fender neck. Stevie’s obviously a dear friend of mine, and he can hold onto it for as long as he wants. I’m glad it’s getting played. It was just hanging in my office.”
Van Zandt tells me how Babiuk’s Vox Teardrop sums up everything he wants from his tone, and says, “It’s got a wonderfully clean, powerful sound. Like Brian Jones got on ‘The Last Time.’ That’s my whole thing; that’s the trick—trying to get the power without too much distortion. Bruce and Nils get plenty of distortion; I am trying to be the clean rhythm guitar all the time.”
If Van Zandt has a consigliere like Tony Soprano had Silvio Dante, that’s Newberry. Newberry has tech’d nearly every gig with Van Zandt since 1982. “Bruce shows move fast,” he tells me. “So when there’s a guitar change for Stevie, and there are many of them, I’m at the top of the stairs, and we switch quickly. There’s maybe one or two seconds, and if he needs to tell me something, I hear it. He’s Bruce’s musical director, so he may say something like, ‘Remind me tomorrow to go over the background vocals on “Ghosts,”’ or something like that. And I take notes during the show.”
“Everybody had a different guitar; your guitar was your identity. At some point, a couple of years later, I remember Bruce calling me and asking me for my permission to switch to a Telecaster.” —Stevie Van Zandt
When I ask Newberry how he defines Van Zandt’s relationship to the guitar, he doesn’t hesitate, snapping back, “It’s all in his head. His playing is encyclopedic, whether it’s Bruce or anything else. He may show up at soundcheck and start playing the Byrds, but it’s not ‘Tambourine Man,’ it’s something obscure like ‘Bells of Rhymney.’ People may not get it, but I’ve known him long enough to know what’s happening. He’s got everything already under his fingers. Everything.”
As such, Van Zandt says he never practices. “The only time I touch a guitar between tours is if I’m writing something or maybe arranging backing vocal harmonies on a production,” he tells me.
Before we say goodbye, I tell Van Zandt about my time stuck in his elevator, and his broad grin signals that I may not be the only one to have suffered that particular purgatory. When I ask him about the 1957 Stratocaster I got to play upon my release, he recalls: “Bruce Springsteen gave me that guitar. I’ve only ever had one guitar stolen in my life, and it was in the very early days of my joining the E Street Band. I only joined temporarily for what I thought would be about seven gigs, and in those two weeks or so, my Stratocaster was stolen. It was a 1957 or 1958. Bruce felt bad about that and replaced that lost guitar with this one. So I’ve had it a long, long time. Once that first one was stolen, I decided I would resist having a personal relationship with any one guitar. But that one being a gift from Bruce makes it special. I will never take it back on the road.”
After 50 years of rock ’n’ roll, if there is one word to sum up Stevie Van Zandt, it may be “restless”—an adjective you sense from reading his autobiography. He gets serious and tells me, “I’m always trying to catch up. The beginning of accomplishing something came quite late to me. I feel like I haven’t done nearly enough. What are we on this planet trying to do?” he asks rhetorically. “We’re trying to realize our potential and maybe leave this place one percent better for the next guy. And some of my drive is based on gratitude, feeling like we are the luckiest guys in the luckiest generation ever. That’s what I’m doing: I want to give something back. I feel an obligation.”
YouTube It
“Rosalita” is a perennial E Street Band showstopper. Here’s a close-up video from Philadelphia’s Citizens Bank Park last summer. Van Zandt’s brief but commanding guitar spotlight shines just past the 4:30 mark.
Follow along as we build a one-of-a-kind Strat featuring top-notch components, modern upgrades, and classic vibes. Plus, see how a vintage neck stacks up against a modern one in our tone test. Watch the demo and enter for your chance to win this custom guitar!
With over 350 effects models, 120 sampling slots, and a Groove Station with a 480-second looper, this pedal offers unparalleled versatility for guitarists worldwide.
In 2025, MOOER has announced that it will be set to release its latest multi-effects pedal, the GS1000 Intelligent Amp Profiling Processor, an augmented intelligent amp profiling processor. Built on MOOER’s advanced third-generation digital platform, the GS1000 introduces groundbreaking MNRS 2.0 technology, allowing guitarists around the world to emulate their favorite gear with immense precision–specifically, for distortion pedals, preamps, amplifier heads, and cabinets.
With this innovation, guitarists can fully capture the essence of their favorite guitar gear without owning the physical hardware, enabling them to carry their favorite tones wherever they go. Users are even able to use third-party IRs for cabinets of their choice, further enhancing the flexibility of this feature.
It’s unforgettable how much MOOER’s multi-effects pedals have impressed audiences so far, primarily thanks to their robust tone libraries. However, even still, the GS1000 continues to build upon this with storage for up to 120 sampling profiles, along with continued integration with the MOOER Cloud app. Essentially, this cloud integration facilitates infinite upload and download possibilities, giving users access to a global community of shared tones, widely expanding the number of accessible tones. More still, the GS1000’s previously mentioned third-party IR cabinet simulations support up to 2048 sample points, guaranteeing studio-grade tonal accuracy across the board.
Even more impressive for the price is how the GS1000 inherits the dual-chain effects architecture that made previous MOOER gear so versatile, making it suitable for highly complex usage scenarios. With over 350 factory effects models and a Sub-Patch preset grouping mode, the GS1000 makes it far simpler for users to make seamless transitions between tones, all while maintaining effect tails to guarantee seamless transitions. Additionally, the reintroduction of the innovative AI-driven EQ Master builds upon MOOER devices’ previous capabilities, using intelligent adjustments in real-time to match the musical style of players to tones, while still allowing manual tweaks for precise control.
Impressively, the GS1000 also comes packed with a Groove Station module, consisting of a combination of drum machine and looper features–including 56 high-quality drum kits! It offers a 480-second phrase looper with infinite overdubs, automated detection, and synchronization capabilities, resulting in an intuitive platform for solo jamming, composition, and live loop-based performance. Overall, the Groove Station acts as an all-in-one suite for creating full arrangements, without having to depend on additional backing tracks or bandmates.
Visually and functionally, the GS1000 really stands out thanks to its sleek visual design and enhanced user experience. For example, it features a convenient 5-inch high-resolution touchscreen, which is also paired with ambient lighting to add a visually stunning element to the pedal. As a result, the GS1000 is not only designed for convenient touch-based control but also as a standout centerpiece in any guitar rig.
In addition to this touchscreen control system, the GS1000 also provides expanded connectivity options, improving upon the already impressive flexibility of past pedals. Most notably, it supports connectivity with the MOOER F4 wireless footswitch, as well as the ability to control presets via external MIDI devices.
As is expected from MOOER these days, the GS1000 also excels when it comes to routing opportunities, going above and beyond the typical stereo ¼” inputs and outputs that would be expected from other brands. Yes, it still includes such staples, but it also includes an XLRmicrophone input, alongside balanced TRS outputs for long-distance signal clarity. The configurable serial/parallel stereo effects loop enables seamless integration of external effects, and the addition of Bluetooth audio input and MIDI compatibility broadens its wide range of use cases for live and practice-based applications.
Furthermore, the pedal also serves as a professional audio solution thanks to its low-latency 2-in/2-out ASIO USB sound card. Supporting up to 192kHz sampling rates, the GS1000 makes recording and live streaming effortless, as it can easily be used with software DAWs, MOOER’s editing software, as well as the USB-based MIDI control.
The GS1000 will be available in two versions–the standard white edition, which is powered by mains power, and the GS1000 Li version, which introduces a 7.4V 4750mAh lithium battery, chargeable through its power port. With this upgrade, users can enjoy up to six hours of continuous power-free playtime, making it ideal for practicing, busking, and generally performing on the go.
Overall, for fans of MOOER’s previous amp simulation offerings, the GS1000 represents a natural evolution, building on everything that made its predecessors great while introducing cutting-edge features and expanded capabilities. Most importantly, MOOER has promised to continuously update its MOOER 4.0 tonal algorithms on the MOOER Cloud in line with therelease, keeping things fresh for the company’s dedicated user base.
- MNRS 2.0 sampling technology for emulating distortion pedals, preamps, amplifier heads, and cabinets
- Over 350 original factory effects models
- 120 sampling slots with upload/download support via the MOOER Cloud app
- Supports third-party cabinet IR files up to 2048 sample points
- Integrated Groove Station with a drum machine and 480-second looper, featuring infinite overdubs and synchronization capabilities
- 54 high-quality drum kits
- 4 metronome tones
- Tap-tempo control for timing effects
- Advanced AI-driven EQ Master for intelligent tone adjustment based on music styles, with manual customization options
- Built-in high-precision digital tuner
- Quick-access dual-chain effects architecture for seamless creative workflows
- 5-inch high-resolution touchscreen with ambient lighting for enhanced usability
- Four multi-purpose footswitches
- Configurable serial/parallel TRS stereo effects loop for external effects integration
- 6.35mm instrument input and XLR microphone input for expanded connectivity
- Balanced TRS stereo outputs for long-distance signal transmission without quality loss
- Bluetooth audio input functionality for accompaniment playback
- Low-latency ASIO 2-in/2-out USB sound card supporting up to 192kHz sampling rate
- MIDI controller compatibility for managing presets and features
- USB-C port for preset management, USB audio, and USB MIDI functionality
- Supports MOOER F4 wireless footswitch for extended control
- Also available as the GS1000 Li, which features a built-in 7.4V 4750mAh lithium battery, offering up to 6 hours of continuous playtime, chargeable through the power port
The GS1000 will be available from the official distributors and retailers worldwide on January 16th, 2025.
For more information, please visit mooeraudio.com.
Hand-crafted in Petaluma, California, this amp features upgrades while maintaining the original's legendary tone.
The Mesa/Boogie Dual Rectifier Solo Head’s arrival in 1992 was a watershed moment for alternative rock and metal that changed everything; heavy music would never sound the same again, and the Dual Rectifier’s crushing, harmonically rich tone became the most sought-after guitar sound of the era. With a feel as empowering as its sound, the Rectifiers provided an ease of playing that supported and elevated proficiency and was inspirational, rewarding, and addictive.
Its sound and impact on the generation that used it to define what rock music would become were as sweeping as they have been lasting. And it remains arguably the most modeled in today’s digital amp landscape. Now, the 90s Dual Rectifier is back with a vengeance, built in Petaluma, California, by the same artisans who made the originals the most desirable high-gain guitar amplifier of all time.
For more information, please visit mesaboogie.com.