Build a killer distortion pedal customized for your style. It’s easier than you think!
Building stompboxes from scratch is easier than you might expect. So is customizing the circuits to suit your style and taste. This project walks you through the process step by step. When you're done, you'll have a killer distortion pedal—and enough knowledge about using and choosing stompbox components to build countless other pedals.
Anyone of average intelligence with functional hands and eyes can complete this project. But there are many steps—more than we can cover in a conventional magazine article. So we've created an illustrated build guide in PDF form, which you must download to complete the project.
Photo 1: The Electra MPC, a late-'70s/early-'80s guitar with built-in effects, has been largely forgotten. But many boutique builders have borrowed its simple yet great-sounding distortion circuit.
What you'll build. This project is a modernized and tweaked version of a distortion circuit that originally appeared in Electra's MPC (Modular Powered Circuits) guitar, a Japanese axe with built-in effects that was imported into the U.S. by Saint Louis Music in the late '70s and early '80s (Photo 1). The guitar was never very popular, but at some point savvy boutique stompbox builders realized that despite (or maybe because of) the circuit's simplicity, it offers terrific overdrive tones. It's a fine alternative to the Tube Screamer-influenced designs found in perhaps 90 percent of today's overdrive pedals.
We're calling our Electra variation the PG Distortion (Photo 2). Compared to a Screamer, the PG Distortion is less compressed, less midrange-heavy, and more responsive to variations in your playing dynamics. It preserves note attack and has an edgy grind that cuts through onstage and in a mix. It's been used in several highly regarded boutique pedals (just Google the phrase "based on Electra distortion").
What you'll learn. The circuit's simplicity makes this a perfect starter project. But the goal isn't just to build a cool pedal from a few modestly priced parts. From the very first steps, you'll make design choices to suit your style and taste. You'll learn how common stompbox components work, and how to choose the right ones for your needs. Making stuff you like is a prime motive for DIY.
Now, if your goal is simply to build a cool pedal as quickly and cheaply as possible, you might consider a prefab DIY kit rather than this project. (I'm especially fond of kits from Build Your Own Clone because of their clever designs and excellent documentation.) But usually, kits like that only tell you the next step—not why you're doing the step, or how you can apply the procedure to future builds. Also, kits usually come with a printed circuit board (PCB) for mounting components, while we will make connections manually using a blank piece of perforated circuit board—a more laborious process, but a more informative one. So think of this as a stompbox-building class, with the PG Distortion as our case study.
Watch the Video Demo of the PG Distortion:
Project overview. The project is organized into five parts:
1. Preparations. Here you assemble all the needed tools and round up your parts.
2. Breadboarding the circuit. You'll assemble the circuit on electronics "breadboard"—an inexpensive prototyping tool that lets you create circuits without soldering. This method makes it easy to understand which components accomplish what (Photo 5).
Photo 5 — An electronics breadboard lets you test and customize circuits without soldering.
3. Customizing the circuit. Breadboarding is also a great way to explore design options, which you'll do right from the beginning.
Photo 6 — After refining your circuit on the breadboard, you'll mount the components on a piece of perforated circuit board, soldering everything together on the board's reverse side.
4. Assembling the circuit on perf board. Once you finalize your design, you'll solder it onto "perf board," a type of circuit board (Photo 6). It's a more complex process than just plugging parts into holes on a prefab PCB, but it permits customization.
Photo 7 — You'll test your completed board on the breadboard before boxing it up.
Once you learn the technique, you'll be able to transpose most stompbox circuits directly from schematic to perf board—and almost every stompbox schematic is available online. (Yes, reading schematics is one of our topics.) After assembling the circuit board, you'll test it using the breadboard (Photo 7).
Photo 8 (left): Your stompbox will have pro hardware, including true-bypass switching, a DC adapter, and a power-indicator LED. Photo 9 (right): In the final assembly, your circuit board rests atop the gain and volume pots.
5. Boxing the circuit. Finally, you'll box everything up. You'll install the jacks, footswitch, LED, and DC adapter into the enclosure (Photo 8) and then add the circuitry (Photo 9).
Tools.
The tools you need—plus a few that are nice to have.
You'll need these tools to complete the project. Ones marked "optional" are nice to have too.
1. Soldering iron. (Preferably 30 watts or more, but not a large gun-type iron. A "soldering station" with a temperature control is a big plus. Use a fine, narrow soldering iron tip—the best choice for small-format electronic work.)
2. Lead-free solder. (Less toxic than the leaded kind, but still nasty.)
3. A damp sponge to clean the soldering iron's tip.
4. A small electronics breadboard. (They make large-format ones, but most stompbox circuits are simple enough for a small board.)
5. An assortment of jumper cables. (You can make your own, but the prefab ones have metal tips that don't fray from repeated use.)
6. Wire stripper.
7. Wire cutter. (Most strippers have cutters, but you'll probably want a separate flush-edged tool for tight, close cuts)
It's never too early to modify projects to better meet your musical needs and personal style. Even in this simple circuit, small modifications can dramatically alter the effect's sound and response
8. Needle-nosed pliers.
9. Phillips-head screwdriver.
10. An adjustable wrench or a wrench set. (Long-handled luthiers wrenches are nice if you can afford them—plus you can use them for guitar repairs.)
11. A digital multimeter. "Auto-ranging" meters are the easiest to work with. These have many functions, and the high-end ones can be quite complicated. But even budget models should have the functions needed for this project: a voltmeter, an ohmmeter, and a continuity function (a beeper that sounds when you touch the test terminals to any two points that are linked electronically).
12. A small saw and vise for cutting perf board to size.
13. Double-sided foam tape
14. Optional: a "helping hand" vise to hold components steady while soldering.
15. Optional: a syringe-style de-soldering pump.
… plus an electric guitar, an amp, and two audio cables.
Parts.
You can get some parts from any electronics supplier. Others you must order from a stompbox parts specialist.
Here's your "bill of materials" (BOM)—the engineer's term for a parts list. Part of the project involves auditioning multiple components to choose your favorites, so not everything in the list will appear in the final pedal. The extra parts are quite inexpensive, so I recommend getting them all—you'll learn a lot. (In the U.S., a complete set of parts should cost around $50.)
1. Five ¼-watt metal film resistors. Values: 470R, 4.7K, 10K, 68K, 2.2M.
2. Four non-polarized capacitors (caps):
· 473 (also called .047µF or 47n)
· 683 (also called .068µF or 68n)
· two units of 104 (.1µF or 100n)
These can be polyester film, "box style," or ceramic—they all sound the same in this circuit. Get small-format caps rated between 50 and 100 volts, not the large-format caps used in amps and other AC-powered devices. (You'll only use two of these in the final pedal.)
3. One 16V 22µF electrolytic capacitor. (This cap type is polarized.)
4. Three transistors: 2N5088, 2N5089, and 2N3904. (You'll only use one in the final pedal.)
5. Eight diodes, two each of the following. (Not all will appear in the final pedal.)
- 1N4001
- 1N914
- 1N34A
- red 3 mm LED
6. Two 16 mm potentiometers ("pots"): A100K and C10K. (Substitute a B10K if you can't find a C10K.)
Schematics can look intimidating, but it doesn't take long to learn the basic symbols.7. A piece of perf board (perforated circuit board) at least 15 holes in width and seven in height. Chances are you'll saw a standard-sized 45 mm x 45 mm piece (shown) in half.
8. A 3PDT footswitch.
9. Three 1/4" mono jacks. (One is for the pedal, and two are for your breadboard testing rig.)
10. One 1/4" stereo jack.
11. One DC jack. (I used the standard type with an internal nut for the photos in this guide, though you may find it easier to work with an external-nut model.)
12. One 5 mm LED (any color).
13. One 5 mm LED bezel.
14. Two battery snaps. (One for the pedal, and one for the breadboard rig.)
15. One 9-volt battery.
16. Two knobs of your choice.
17. One 2" length of 1/8" heat-shrink tubing. (You can substitute standard electrical tape.)
18. Hookup wire, preferably 24-gauge, stranded and pre-bonded. (For visual clarity, it may help to use several contrasting colors, such as black, red, and white.)
19. One 1590B-size enclosure drilled for two knobs, footswitch, input, output, LED, and DC jack. You can order a pre-drilled box, or use a drill press to make your own holes. Use a larger enclosure if you like, though everything should fit into a compact 1590B. (If you have a drill press, you can save a couple of bucks by drilling your own holes. For an appropriate drill template, Google "1590B drilling template.")
Sourcing parts.
Stompbox parts tend to fall into two categories: those you can get from large electronics supply houses, and those sold chiefly by stompbox specialists. Large suppliers such as Mouser, Digi-Key, and Allied often have the lowest prices, but they don't stock some of the essentials. Meanwhile, the specialized stompbox vendors often carry both specialized and non-specialized parts, and the convenience of one-stop shopping may compensate for slightly higher prices on generic parts.
This isn't a complete list of stompbox parts specialists—just three reliable U.S.-based vendors with fine reputations, listed in alphabetical order. I've had great service from all three businesses.
Meanwhile, I hear good things about Germany's Banzai Music from my friends in the E.U.
Mammoth Electronics has created a preassembled kit with all the parts needed for this project. (Premier Guitar has no financial stake in the product—it's merely offered as a convenience.) The parts are good and the prices are competitive, but it's just one way to go. The kit includes all needed parts, but you must provide the tools. More details here.
Despite (or maybe because of) the circuit's simplicity, it offers terrific overdrive tones. It's a fine alternative to the Tube Screamer-influenced designs found in perhaps 90 percent of today's overdrive pedals.
Your workspace. Work somewhere with decent lighting and ventilation. Expect everything to take longer than planned, so don't start working at your kitchen table if you plan to eat there this week. Remember, a clean, well-organized workspace is a sign of a clean, well-organized mind. My bench is a filthy junk pile.
Safety first (and second and third). This project requires tools and techniques that can hurt you if you're not careful. Fortunately, it's pretty much impossible to electrocute yourself with 9-volt circuits like this one, but it's all too easy to cut or burn yourself.
When in doubt, step away from the bench and seek help. Don't touch things that are hot or sharp. Wear eye protection. Don't work when you're angry or stressed. Don't leave anything dangerous where kids or pets can find it. You know the drill—including the fact that you proceed at your own risk, and that neither I nor Premier Guitar can assume any responsibility for injury, property damage, or other unfortunate events that may occur while attempting this project. Be smart and careful, okay?
Common-sense soldering. If you've never soldered, it can be intimidating. And yes, it's possible to burn things, including yourself. But it's actually an easy procedure that quickly becomes second nature. If you've never soldered before, watch a few YouTube soldering tutorials. Start with this one, in which a clever 11-year-old covers most of what you need to know in three fast minutes.
Some basics.
- Don't touch the hot part.
- Don't leave a hot iron unattended.
- Work in a ventilated area. Even if you're using lead-free solder, it can't be healthy to inhale those fumes for hours!
- Wear eye protection.
- "Tin" the iron's tip by touching a bit of solder to it before starting.
- Keep a damp sponge or rag handy and swab the iron's tip frequently to keep it clean.
- Instead of touching solder to the iron's tip, try to heat the target component and melt the solder against the component. (But yeah, sometimes we cheat and quickly touch the solder to the iron for a fraction of a second to get it flowing.)
- A good solder joint is shiny, smooth, and shaped like a Hershey's Kiss. If it's dark, or sits on the surface like a water droplet, reapply the iron.
- If you make mistakes, it may help to have a syringe-type de-soldering tool. (You simply re-melt the solder, and then suck it up with the tool.)
- Consider using a "helping hands" vise to hold your components, leaving both your hands free for work.
It's possible to complete this project with a bare-bones pencil-type soldering iron, but it's far easier if you use a "soldering station" with adjustable temperature from a company such as Weller or Hakko. Simple hobbyist models start at around $40, and fancier models go for about double that. But don't use big, high-wattage soldering guns—they're too powerful for work like this. Use a fine, narrow soldering iron tip suitable for delicate electronics work.
Photo 10 — You can make sense of many stompbox schematics if you learn half a dozen symbols.
Working with schematics. A schematic is simply a graphic representation of a circuit. Schematics can look intimidating, but it doesn't take long to learn the basic symbols. Photo 10 shows the schematic for this project. The build guide PDF discusses it in detail, but here's a quick intro:
- Schematics are usually arranged with the power connection at the top, ground connections at the bottom, input to the left, and output to the right.
- The zigzag lines depict resistors.
- The potentiometer symbol is like the resistor symbol, but with an added arrow to indicate the middle lug.
- Parallel lines symbolize non-polarized capacitors.
- The electrolytic cap symbol adds a curved line and a plus sign to indicate polarity.
- The diode symbol includes a triangle and a line. The side with the line is the negative terminal. The LED symbol adds arrows representing emitted light.
- Like most circuits, this one includes many connections to ground. We could connect them all with lines in the schematic, but the schematic is easier on the eye is we indicate ground connections with a simple symbol: the downward-facing triangle.
Don't sweat it if you're still confused—it's covered extensively in the build guide.
Stompbox parts tend to fall into two categories: those you can get from large electronics supply houses, and those sold chiefly by stompbox specialists.
Mods of the gods.
Sure, you might be a beginning builder, but chances are you have strong tastes when it comes to guitar sound. It's never too early to modify projects to better meet your musical needs and personal style. In fact, you'll be doing just that within the first few minutes. Even in this simple circuit, small modifications can dramatically alter the effect's sound and response.
Your modding experiments will focus on three areas:
- You'll try different values for the input capacitor (labeled C1 in Photo 10). This part acts as a high-pass filter, removing lows. But the result isn't quite like, say, turning down the bass knob on your amp, or using EQ to remove lows from a recording. Here at the front of the circuit, slight component variations alter the effect's fundamental character.
- You'll audition three different transistors (the part labeled Q1 in Photo 10). This component defines the circuit's gain. You can make this an understated overdrive or an angry chunk machine.
- You'll experiment with different combinations of clipping diodes (parts D1 and D2 in Photo 10). The result can range from soft, warm distortion to razor-edged sizzle.
DIY not? Remember, this project isn't just about building a cool distortion pedal. The goal is learning the "whys" as well as the "hows" so you can a) apply these techniques to any project, and b) alter circuits to taste. I hope you find the process fun and informative, and that when the smoke clears—hee hee—you have an inspiring musical tool. For best results, maintain your patience and sense of humor, and don't freak out when you hit the inevitable hurdles.
There's much more info in the PDF build guide, including additional resources and troubleshooting tips. Download it if you dare!
Click to download the entire build guide in an easy-to-use PDF.
[Updated 8/10/21]
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How the Irish guitar virtuoso got a unique tone with a factory-stock Strat.
Hello and welcome back to Mod Garage. In this column, we’ll take a closer look at the very unique sound of the famous Rory Gallagher Stratocaster and discuss why it sounded so outstandingly good.
Unless you are living in a cave, you should know who Rory Gallagher was and will recognize his beaten-up Fender Stratocaster, which is a symbol of pure rock ’n’ roll. The story goes that Rory bought this used 1961 sunburst Stratocaster in 1963 for £100 in Cork, Ireland, in a shop named Crowley’s Music Store. Allegedly, this was the first Stratocaster ever to reach Ireland. The guitar’s previous owner ordered a red Stratocaster from the U.S., but a sunburst came instead. After using the guitar for around half a year, the red one arrived. The sunburst was exchanged and put on sale, and Gallagher soon found it. True or not, the story is simply priceless.
When Rory bought this Strat, it was absolutely factory stock, which was typical for this time. It stayed that way for a long time and became a piece of musical history in the hands of Rory. Nearly all of the sunburst lacquer was naturally removed over the years by Gallagher’s acidic sweat, so today the guitar is almost completely stripped down to the bare wood, giving it its iconic look.
The first mods done to this guitar happened around the mid-70s, when two of the pickups were damaged and had to be replaced. Later on, some other parts like the pickguard and pickup covers had to be replaced, and in his later career he did start to use different pickups. The standard 3-way pickup-selector switch was replaced with a more modern 5-way switch, and the controls were rewired for master volume and master tone with the middle tone pot disconnected.
What was the secret behind Rory’s unmistakable Stratocaster tone, which he had from the start? First and foremost, and without any doubts, you all know the saying: Tone comes from the fingers! When such outstanding playing chops meet a great instrument, the result is marvelous.
Having said that … Rory’s pickups did play a large role in his sound. The standard Stratocaster pickups Fender used at the time had staggered magnets with beveled edges. There is complex physics behind it, but in basic terms, these pickups sound fatter, sweeter, and with more overtones. The beveled edges greatly influence the magnetic field, which causes them to sound so different. This has to do with the pickup’s unique aperture or “magnetic window.” These were hand-beveled edges, and it was generally assumed that this was done to disguise the rough and uneven surface left by the sand casting. But this can’t be the reason because doing such handiwork takes a lot of time and care to get right, and Leo Fender wasn’t known for spending time on such unnecessary things in his building processes. (Later, Fender stopped beveling and the sound of the pickups changed because of this.)
In 2016, Seymour Duncan explained the tone of beveled pickups to Guitar.com: “The bevel causes the magnetic field to shoot out a little around the bevel area, but it results in a tapering of the field above that point. So, if you could, imagine the magnetic field shaped like the flame of a candle or a teardrop.” That’s an excellent metaphor that hits the nail on the head.
“Depending on the employee working the sanding machine, the edges are more or less beveled from pickup to pickup—one of the reasons why vintage Strats sound so different from guitar to guitar.”
But why did Fender originally do hand beveling and why did they stop later on? Were his choices based on tone? I don’t think so. I think the answer must be seen in the historical context of the time.
The alnico 5 material used for the magnets was brand-new and very expensive at that time. It was also very porous, and many magnets crumbled while using a hammer to drive them into the pickup, which was the usual procedure in the Fender factory. So, Fender started hand beveling the magnets on one side, which minimized the risk of destroying the magnet during the hammering process. It was an accident that this created such great tone. Depending on the employee working the sanding machine, the edges are more or less beveled from pickup to pickup—one of the reasons why vintage Strats sound so different from guitar to guitar.
Here you can see the normal, non-beveled magnets of a Stratocaster pickup:
Photo courtesy of Leosounds (https://leosounds.de)
And here is a faithful recreation of the beveled magnets in Gallagher’s Stratocaster:
Photo courtesy of Leosounds (https://leosounds.de)
Gallagher’s pickup set has a very pronounced bevel. The Fender worker who produced these certainly also created some more sets like this.
The influence of the bevel on a pickup’s tone is huge. To give a better idea, here are some magnetic visualizations that my dear friend Bernd C. Meiser from the German BSM company made for me. Bernd sadly died on July 30, 2024, after fighting against cancer for two years. It won’t get loud anymore without him.
Here you can see the common magnetic spread-out of a non-beveled Strat pickup:
Drawing courtesy Singlecoil (https://singlecoil.com) in memory of Bernd C. Meiser
And here is the same with a beveled Strat pickup:
Drawing courtesy Singlecoil (https://singlecoil.com) in memory of Bernd C. Meiser
You can clearly see the difference of the magnetic spread-out and the much wider aperture these beveled magnets provide, causing the different tone.
So where is the mod for this column? I’m sorry to disappoint you, but it’s not possible to change the magnets on a standard Stratocaster pickup without destroying the pickup. And there is no way to retroactively put a bevel on the magnets of your pickup with the magnets installed. The only way to convert your Strat to beveled pickups is to install a new pickup set with beveled magnets. Fender ’57/’62 pickups feature beveled edges, as do many offerings from other pickup companies.
Next time, we will have a look at the mid-boost and scoop mod from Dan Torres, so stay tuned!
Until then ... keep on modding!
You might not be aware of all the precision that goes into building a fine 6-string’s neck, but you can certainly feel it.
I do not consider my first “real” guitar the one where I only made the body. In my mind, an electric guitar maker makes necks with a body attached—not the other way around. (In the acoustic world, the body is a physics converter from hand motion to sound, but that’s a different article for a different month.) To me, the neck is deeply important because it’s the first thing you feel on a guitar to know if you even want to plug it in. As we say at PRS, the neck should feel like “home,” or like an old shirt that’s broken in and is so comfortable you can barely tell it’s on.
A couple articles ago, I talked about things on a guitar you can’t see, but are of the utmost importance to the quality of the instrument. I’d now like to go deeper into some of those unseen details in guitar neck making that make a difference. This list is a small percentage of what’s really going on, so please take each one as an example of the craft.
Gluing in the frets. In my old repair shop, there were several instruments that kept returning after gigs because the frets had again become unlevel. If I took a very flat file and started to level the frets, the volume of the squeaking of the frets as I filed was really loud. I realized that these guitars had never had their frets glued in. It seemed clear that the fretshad to be glued into the slots, so when someone sweats into the instrument at a gig, the frets do not change height. I learned, after interviewing Ted McCarty, that the Gibson factory in Kalamazoo in the ’50s glued the frets in with fish glue. I tried it once. It stunk, and I never used it again. But gluing frets in has been important to me since day one. The glue makes a mold around the teeth of the fretwire to hold the frets in place. Another reason to glue the frets in is that on some ’60s Martins, for example, the frets would lift up on the treble side and the high-E string would get caught underneath the fret. So, glue the frets in or you’re going to have a long-term problem. By the way, using a water-based glue is like adding all the water back to the fretboard that you spent months drying out. I like super glue because it doesn’t have any water in it.
“Terry Kath, the great guitar player from Chicago, once told me, ‘Most guitars won’t play in tune down near the nut, and I search and search for guitars that will.’”
Fret positions. When I was young, there was an article in Guitar Player that described how to calculate fret positions by using the 12th root of two. The number is 1.0594631. And the reason I remember the number is because calculators didn’t have memory at the time, and I had to keep entering the number over and over again. One day, someone came into my shop and said, “I can’t play in tune with the keyboard player when I am playing lines near the nut.” I said, “That’s hard for me to believe, but I’ll check it.” Sure enough, the first few frets were out of tune with the open nut even though I had calculated the 1st frets’ positions perfectly. Turns out the nut needed to be moved so that it would play in tune down there (in the same way you have to adjust the intonation at the bridge end). Terry Kath, the great guitar player from Chicago, once told me, “Most guitars won’t play in tune down near the nut, and I search and search for guitars that will.” Getting the frets, the nut, and the bridge in the right positions is incredibly important. You’d be surprised that this is not always a given.
Neck shape. I was once at Dave’s Guitar Shop in La Crosse, Wisconsin, in his upstairs guitar museum, and got to compare early ’50s Tele, old Les Paul, and early Strat neck shapes. What was so surprising was how close the neck shapes were, including the thumb round-over (where the side dots are). I was later able to scan a lot of these necks and compare them with a computer, and, damn, they were really close. What was different was the radius of the fretboards. Some of them were more curved than others, and the old Gibsons’ radii were not what the internet says they should be. So, it’s pretty hard to understand from the specs alone how a neck is going to feel in your hands. In my mind, there’s a common shape that your hand feels comfortable with, and then all the extensions that make 7-string guitars, 12-strings, acoustic instruments, and modern Ibanez/flat-radius type instruments are other artforms altogether.
At PRS, we often think of guitars in terms of looks, feel, and sound. If it looks good, you’ll probably pick it up. If it feels good in your hands and rings for a long time when you strum it acoustically, you’ll probably plug it in. If it sounds good plugged in, there’s a good chance you’re hooked.
Billy Strings has become one of the biggest drawing guitar players out on the road these days. His music brings bluegrass fans and jam band scenes together, landing him on some of the biggest stages around. Your 100 Guitarists hosts have brought in guitarist Jon Stickley to help them work out their differences—one of us is a jammer and the other … is not.
Stickley goes way back with Billy, spotting his talent early in the young guitarist’s career. The two have worked together since, and recently, when Billy had to dip out of his own festival as his wife headed to the hospital to deliver their baby, it was Stickley who was called to jump on stage and fill in at last minute notice. Stickley recounts the story of not only getting on stage, but strapping on Strings’ guitar, plugging into his space station, and taking off with Billy’s band.
We called the right guitarist to guide us through, navigating Strings’ work, the way he brings together influences from genres outside bluegrass, and what makes him a guitarist you need to know.
This episode is sponsored by Grace Design.
Learn more at https://gracedesign.com.
Warren Haynes has unveiled the Million Voices Whisper 2025 Tour in support of his new solo album.
The 9-date run will launch February 7th in Knoxville, and the Warren Haynes Band will travel throughout the Midwest and Northeast, stopping in such cities as Huntsville, Toledo, Des Moines, and Burlington before wrapping February 22nd in Buffalo. See below for all dates and details.
Fan Club presale tickets will be available starting Wednesday, November 20th at 10am local time with local presales beginning Thursday, November 21st at 10am local time and the general on sale commencing Friday, November 22nd at 10am local time. $1 from every ticket sold for the winter tour will be donated to assist with hurricane relief.
A limited number of specially curated fan packages will also be available for the Million Voices Whisper 2025 Tour. Packages include one Ultimate Guitar Player Package per show, featuring a Les Paul Standard 60s Plain Top guitar in Sparkling Burgundy to be played and signed by Warren, meet & greet with a photo with Warren, soundcheck access, premium reserved seats, and more, and the Guitar Player Package, which includes an autographed Gibson Les Paul Standard Pickguard, a set of custom Warren Haynes guitar picks in collector box, a Dunlop guitar slide, and set of GHS strings (items as used by Warren), plus soundcheck, priority access, and more.
Visit www.warrenhaynes.net for all ticketing and VIP information and to purchase.
Performing alongside Haynes (vocals, guitar) will be the current, all-star lineup of the Warren Haynes Band: longtime drummer Terence Higgins (of the Dirty Dozen Brass Band), Gov’t Mule bassist Kevin Scott, Matt Slocum on keys, and Greg Osby on sax.
Just released November 1stvia Fantasy Records, Million Voices Whisper – Warren’s first solo album in almost a decade and fourth solo collection in his esteemed career catalog – debuted at #1 on Billboard’s Blues Albums Chart and also entered the Americana/Folk Albums chart at #3, Current Rock Albums chart at #5, and Top Current Albums Sales chart at #29. Already hailed as his best album yet, the 11-song collection of soulful blues-rock, produced by Haynes and recorded at Power Station New England, includes the singles “This Life As We Know It” and “Day of Reckoning” featuring Lukas Nelson and Jamey Johnson as well as guest appearances from Warren’s Allman Brothers Band bandmate and longtime friend Derek Trucks on multiple tracks including “Real Real Love,” a song whose lyrics were initially started by Gregg Allman that Haynes finished to honor his friend. Million Voices Whisper is available digitally and on CD, 2-LP vinyl set, and a deluxe CD version with four bonus songs.
This Sunday, November 24th, Haynes, a native of Asheville, and Dave Matthews Band will host “SOULSHINE,” a benefit concert to aid relief and recovery efforts in Western North Carolina and Florida in the wake of Hurricanes Helene and Milton, at Madison Square Garden. The sold-0ut, all-star event – featuring performances from DMB, Warren Haynes Band, Nathaniel Rateliff & The Night Sweats, and Goose along with very special guests Trey Anastasio, Mavis Staples, Robert Randolph, Joe Russo, Trombone Shorty, Susan Tedeschi,and Derek Trucks – will now be available worldwide via a free live stream hosted on YouTube. Produced by Volta Media and sponsored by Cisco Systems, the concert will be streamed live on Sunday from 7:00-11:00 pm ET on the official event website SOULSHINEMSG.COM. Net proceeds will go to the SOULSHINE Concert Fund at the Charlottesville Area Community Foundation, which will benefit Habitat for Humanity’s 2024 Hurricane Recovery fund and will also support a variety of non-profits on the ground in North Carolina and Florida. Visit SOULSHINEMSG.COM to learn more or make a donation.
Following “SOULSHINE,” Haynes will wrap the year with Gov’t Mule’s annual New Year’s Run – December 28th at College Street Music Hall in New Haven, Connecticut, and December 30th and 31st at The Beacon Theatre in New York City – and then launch 2025 with his annual concert-cation experience Island Exodus 15 in Jamaica from January 19-23 before heading out on the road for the Million Voices Whisper 2025 Tour.
For more information, please visit warrenhaynes.net.
WARREN HAYNES TOUR DATES
Gov’t Mule – New Year’s Run
December 28 – New Haven, CT @ College Street Music Hall
December 30 – New York, NY @ Beacon Theatre
December 31 – New York, NY @ Beacon Theatre
Island Exodus 15
Featuring Gov’t Mule, Warren Haynes, Drive-By Truckers, Karina Rykman & Big Sugar
January 19-23, 2025 – Runaway Bay, Jamaica @ Jewel Paradise Cove Resort
Million Voices Whisper Tour 2025
February 7 – Knoxville, TN @ Bijou Theatre
February 8 – Huntsville, AL @ Mars Music Hall
February 11 – Toledo, OH @ Stranahan Theater
February 13 – Northfield, OH @ MGM Northfield Park – Center Stage
February 14 – Carmel, IN @ The Palladium
February 15 – West Des Moines, IA @ Val Air Ballroom
February 20 – Burlington, VT @ The Flynn
February 21 – Concord, NH @ Chubb Theatre
February 22 – Buffalo, NY @ Town Ballroom
April 5 – Columbia, SC @ Township Auditorium (rescheduled from 9/28)
Gov’t Mule – Festival Appearances
March 6-8 – Live Oak, FL @ Suwannee Amp Jam #1 (on sale 11/21)
July 23-27 – Floyd County, VA @ FloydFest 25~Aurora
Warren Haynes Band – European Festival Appearance
July 6 – Sperken, Austria @ Castle Clam