
There are three major issues to consider when thinking about powering your pedalboard: voltage, current, and isolation.
With so many cool and interesting pedals readily available to the modern musician, you will inevitably come to the point where you need to build a pedalboard (especially if youāre a gear junkie like me). Youāll need to decide which kind of board to buy or build, which pedals will actually make it on your board, the optimum order of the effects, cable lengths, and whether or not you will buy pre-made cabling or wire your own. But probably the single most critical decision youāll make is how to power all of the pedals on your new board. There are three major issues to consider when thinking about powering your pedalboard: voltage, current, and isolation.
Luckily for us, the early popularity of Boss pedals helped to establish an unofficial standard when it comes to the voltage level and DC (direct current) jack used in powering pedals. The simple fact that most pedals could be powered by a 9V battery was the logical starting point that led to the inclusion of 9V DC power inputs. These DC inputs were useful when players didnāt want to hassle with batteries, and instead wanted to be able to power their pedals from standard AC wall outlets. Boss chose to use a 2.1mm DC power input jack with a center negative polarity and because of this, the majority of pedals on the market today also use this āstandard.ā Take a look at the labeling next to the input on your pedals and chances are it will say 9V DC, center negative (an icon symbolizing a jack with a negative sign pointing to the center symbolizes this).
Of course, not all pedals are powered with 9V, so make sure to take note if there is one in your collection with special voltage requirements. Some devices out there even use 9V AC (alternating current) power. Be very careful not to accidentally plug an AC power source into a pedal designed to be powered with DC. Chances are that if a pedal needs 18V or 24V DC, the manufacturer will have supplied a special power adapter anyway. Be sure not to hook your pedal up to a higher voltage source than it calls forāno one likes ending their pedalboard project with a puff of smoke!
Current is the next thing you will need to think about. The current that a given effect consumes is not likely listed on the pedal itself. For that you will need to look in the manual. Assuming theyāre analog devices, a distortion, overdrive, fuzz, compressor, or wah will in almost all cases have a very low current requirement (less than 20 mA or so). This is because these classic analog effects use only a handful of transistors and op-amps with low power requirements.
A digital effect, on the other hand, will contain a microprocessor or DSP, probably some memory, logic chips, A/D and D/A converters, as well as supporting analog components. In this case, you will literally be powering millions of miniaturized transistors inside of these digital chips, so the pedal will be a bit hungrier for power. Digital and DSP-based pedals typically consume more than 150 or 200 mA, and modern power supply manufacturers have taken this into consideration.
The thing to remember about current is that there is no danger in having more than you need available. But if your power supply canāt keep up with demand, your pedal may not even turn on. Worse yet, it could shut down in the middle of a gig. Think of current like horsepower in a car. If you have a 450-horsepower muscle car, you are not using all of that power when backing out of your garage, but itās there waiting for you when you step on the gas.
Voltage and current are critical in getting all of your pedals to work properly, but thereās one more thing that is crucial in making a low-noise rig: isolated power. Whenever you string together a number of different effects, their electronics can interact in both good and very bad ways.
The most common noise problem I regularly encounter when helping players troubleshoot their pedalboard is ground loops. Ground loops are commonly caused when using a daisy-chain power cable to power multiple pedals. This creates a ground loop between every pedal in the daisy chain!
Why should we avoid ground loops? One reason is that they allow stray magnetic fields to introduce hum into your signal path. Another is that noise currents are able to flow into your audio instead of cleanly back into the power supply. If the only type of effect you use is distortion, you may not have heard the ill effects. But, if you have modulation and delay pedals, the likelihood of ground loops wreaking havoc on your signal is high.
To solve this, power supply manufacturers have created multiple-output isolated power supplies. The Voodoo Lab Iso-5 is an example of a cost-effective, multiple-output isolated power supply. An isolated supply works by using a transformer (or multiple transformers) to keep every power outlet completely electrically isolated. This prevents your guitar signal ground from connecting to multiple pedals at the power supply.
Ideally, you want your ground and guitar signal to have a single path to your amp. Otherwise, hum and other nastiness will creep its way into your tone. Multiple-output supplies, when designed correctly, also supply regulated power that is cleaner than a standard wall wart. That said, if you have a bunch of wall warts lying around anyway, having them all connected to a power strip under your board is not a bad solution at all. This will also provide isolation if each wall wart is only plugged into a single pedal.
This may be a lot to think about, but if you do a bit of research up front, youāll save a lot of frustration down the line. Watch those voltage levels, make sure you have enough current available, and use an isolated power source for each effect. Happy shredding!
[Updated 12/6/21]
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An ode, and historical snapshot, to the tone-bar played, many-stringed thing in the room, and its place in the national musical firmament.
Blues, jazz, rock, country, bluegrass, rap.⦠When it comes to inventing musical genres, the U.S. totally nailed it. But how about inventing instruments?
Googling āAmerican musical instrumentsā yields three.
⢠Banjo, which is erroneously listed since Africa is its continent of origin.
⢠Benjamin Franklinās Glass Armonica, which was 37 glass bowls mounted horizontally on an iron spindle that was turned by means of a foot pedal. Sound was produced by touching the rims of the bowls with water-moistened fingers. The instrumentās popularity did not last due to the inability to amplify the volume combined with rumors that using the instrument caused both musicians and their listeners to go mad.
⢠Calliope, which was patented in 1855 by Joshua Stoddard. Often the size of a truck, it produces sound by sending steam through large locomotive-style whistles. Calliopes have no volume or tone control and can be heard for miles.
But Google left out the pedal steel. While there may not be a historical consensus, I was talking to fellow pedal-steel player Dave Maniscalco, and we share the theory that pedal steel is the most American instrument.
Think about it. The United States started as a DIY, letās-try-anything country. Our culture encourages the endless pursuit of improvement on whatās come before. Curious, whimsical, impractical, explorativeāthatās our DNA. And just as our music is always evolving, so are our instruments. Guitar was not invented in the U.S., but one could argue itās being perfected here, as players from Les Paul to Van Halen kept tweaking the earlier designs, helping this one-time parlor instrument evolve into the awesome rock machine it is today.
Pedal steel evolved from lap steel, which began in Hawaii when a teenage Joseph Kekuku was walking down a road with his guitar in hand and bent over to pick up a railroad spike. When the spike inadvertently brushed the guitarās neck and his instrument sang, Kekuku knew he had something. He worked out a tuning and technique, and then took his act to the mainland, where it exploded in popularity. Since the 1930s, artists as diverse as Jimmie Rodgers and Louis Armstrong and Pink Floyd have been using steel on their records.āThe pedal steel guitar was born out of the curiosity and persistence of problem solvers, on the bandstand and on the workbench.ā
Immigrants drove new innovations and opportunities for the steel guitar by amplifying the instrument to help it compete for listenersā ears as part of louder ensembles. Swiss-American Adolph Rickenbacker, along with George Beauchamp, developed the first electric guitarāthe Rickenbacker Electro A-22 lap steel, nicknamed the Frying Panāand a pair of Slovak-American brothers, John and Rudy Dopyera, added aluminum cones in the body of a more traditional acoustic guitar design and created resophonic axes. The pedal steel guitar was born out of the curiosity and persistence of problem solvers, on the bandstand and on the workbench.
As the 20th century progressed and popular music reflected the more advanced harmonies of big-band jazz, the steel guitarās tuning evolved from open A to a myriad of others, including E7, C6, and B11. Steel guitarists began playing double-, triple-, and even quadruple-necked guitars so they could incorporate different tunings.
In Indianapolis, the Harlan Brothers came up with an elegant solution to multiple tunings when they developed their Multi-Kord steel guitar, which used pedals to change the tuning of the instrumentās open strings to create chords that were previously not possible, earning a U.S. patent on August 21, 1947. In California, equipped with knowledge from building motorcycles, Paul Bigsby revolutionized the instrument with his Bigsby steel guitars. It was on one of these guitars that, in early 1954, Bud Isaacs sustained a chord and then pushed a pedal down to bend his strings up in pitch for the intro of Webb Pierceās āSlowly.ā This IāIV movement became synonymous with the pedal-steel guitar and provided a template for the role of the pedal steel in country music. Across town, church musicians in the congregation of the House of God Keith Dominion were already using the pedal steel guitar in Pentecostal services that transcended the homogeneity of Nashvilleās country and Western clichĆ©s.
Pedal steels are most commonly tuned in an E9 (low to high: BāDāEāF#āG#āBāEāG#āD#āF#), which can be disorienting, with its own idiosyncratic logic containing both a b7 and major 7. Itās difficult to learn compared to other string instruments tuned to regular intervals, such as fourths and fifths, or an open chord.
Dave Maniscalco puts it like this: āThe more time one sits behind it and assimilates its quirks and peculiarities, the more obvious it becomes that much like the country that birthed it, the pedal steel is better because of its contradictions. An amalgamation of wood and metal, doubling as both a musical instrument and mechanical device, the pedal steel is often complicated, confusing, and messy. Despite these contradictions, the pedal-steel guitar is a far more interesting and affecting because of its disparate influences and its complex journey to becoming Americaās quintessential musical instrument.āThe author dials in one of his 20-watt Sonzera amps, with an extension cabinet.
Knowing how guitar amplifiers were developed and have evolved is important to understanding why they sound the way they do when youāre plugged in.
Letās talk about guitar amp history. I think itās important for guitar players to have a general overview of amplifiers, so the sound makes more sense when they plug in. As far as I can figure out, guitar amps originally came from radiosāalthough Iāve never had the opportunity to interview the inventors of the original amps. Early tube amps looked like radio boxes, and once there was an AM signal, it needed to be amplified through a speaker so you could hear it. Iām reasonably certain that other people know more about this than I do.
For me, the story of guitar amps picks up with early Fenders and Marshalls. If you look at the schematics, amplifier input, and tone control layout of an early tweed Fender Bassman, itās clear thatās where the original Marshall JTM45 amps came from. Also, Iāve heard secondhand that the early Marshall cabinets were 8x12s, and the roadies requested that Marshall cut them in half so they became 4x12s. Similarly, 8x10 SVT cabinets were cut in half to make the now-industry-standard 4x10 bass cabinets. Our amp designer Doug Sewell and I understand that, for the early Fender amps we love, the design directed the guitar signal into half a tube, into a tone stack, into another half a tube, and the reverb would join it with another half a tube, and then there would be a phase splitter and output tubes and a transformer. (All 12AX7 tubes are really two tubes in one, so when I say a half-tube, Iām saying weāre using only the first half.) The tone stack and layout of these amps is an industry standard and have a beautiful, clean way of removing low midrange to clear up the sound of the guitar. I believe all but the first Marshalls came from a high-powered tweed Twin preamp (which was a 80-watt combo amp) and a Bassman power amp. The schematic was a little different. It was one half-tube into a full-tube cathode follower, into a more midrange-y tone stack, into the phase splitter and power tubes and output transformer. Both of these circuits have different kinds of sounds. Whatās interesting is Marshall kept modifying their amps for less bass, more high midrange and treble, and more gain. In addition, master volume controls started being added by Fender and Marshall around 1976. The goal was to give more gain at less volume. Understanding these circuits has been a lifelong event for Doug and me.
Then, another designer came along by the name of Alexander Dumble. He modified the tone stack in Fender amps so you could get more bass and a different kind of midrange. Then, after the preamp, he put in a distortion circuit in a switchable in and out āloop.ā In this arrangement, the distortion was like putting a distortion pedal in a loop after the tone controls. In a Fender amp, most of the distortion comes from the output section, so turning the tone controls changes the sound of the guitar, not the distortion. In a Marshall, the distortion comes before the tone controls, so when you turn the tone controls, the distortion changes. The way these amps compress and add harmonics as you turn up the gain is the game. All of these designs have real merit and are the basis of our modern tubeāand then modelingāamplifiers.
Everything in these amps makes a difference. The circuits, the capacitor values and types, the resistor values and types, the power and output transformers, and the power suppliesāincluding all those capacitor values and capacitor manufacturers.
I give you this truncated, general history to let you know that the amp business is just as complicated as the guitar business. I didnāt even mention the speakers or speaker cabinets and the artform behind those. But whatās most important is: When you plug into the amp, do you like it? And how much do you like it? Most guitar players have not played through a real Dumble or even a real blackface Deluxe Reverb or a 1966 Marshall plexi head. In a way, youāre trusting the amp designers to understand all the highly complex variations from this history, and then make a product that you love playing through. Itās daunting, but I love it. There is a complicated, deep, and rich history that has influenced and shaped how amps are made today.
Lenny Kravitzās lead-guitar maestro shares how his scorching hit solo came together.
Hold onto your hatsāShred With Shifty is back! This time, Chris Shiflett sits down with fellow west coaster Craig Ross, who calls in from Madrid equipped with a lawsuit-era Ibanez 2393. The two buddies kick things off commiserating over an increasingly common tragedy for guitarists: losing precious gear in natural disasters. The takeaway? Donāt leave your gear in storage! Take it on the road!
Ross started out in the Los Angeles band Broken Homes, influenced by Chuck Berry, Buddy Holly, and the Beatles, but his big break came when he auditioned for Lenny Kravitz. Kravitz phoned him up the next day to tell him to be at rehearsal that evening. In 1993, they cut one of their biggest hits ever, āAre You Gonna Go My Way?ā Ross explains that it came together from a loose, improvisatory jam in the studioātestament to the magic that can be found off-leash during studio time.
Ross recalls his rig for recording the solo, which consisted of just two items: Kravitzās goldtop Les Paul and a tiny Gibson combo. (No fuzz or drive pedals, sorry Chris.) As Ross remembers, he was going for a Cream-era Clapton sound with the solo, which jumps between pentatonic and pentatonic major scales.
Tune in to learn how he frets and plays the songās blistering lead bits, plus learn about what amps Ross is leaning on these days.
If youāre able to help, here are some charities aimed at assisting musicians affected by the fires in L.A:
https://guitarcenterfoundation.org
https://www.cciarts.org/relief.html
https://www.musiciansfoundation.org
https://fireaidla.org
https://www.musicares.org
https://www.sweetrelief.org
Credits
Producer: Jason Shadrick
Executive Producers: Brady Sadler and Jake Brennan for Double Elvis
Engineering Support by Matt Tahaney and Matt Beaudion
Video Editor: Addison Sauvan
Graphic Design: Megan Pralle
Special thanks to Chris Peterson, Greg Nacron, and the entire Volume.com crew.
Tobias bass guitars, beloved by bass players for nearly half a century, are back with the all-new Tobias Original Collection.
Built for unrivaled articulation, low-end punch, and exceptional ergonomics, the all-new Tobias Original Collection comprises an array of six four and five-string bass models all offered in both right and left-handed orientations. The Tobias range features Classic, Killer B, and Growler models, and each is equipped with high-quality hardware from Babicz and Gotoh, active electronics from Bartolini, and the iconic Tobias asymmetrical neck design. Crafted from the finest tonewoods, Tobias Original Collection bass guitars are now available worldwide on Gibson.com, at the Gibson Garage locations, and at authorized Gibson dealers.
The bass world has been clamoring for the return of the authentic, high-end Tobias basses, and now, Tobias has returned. Combining the look and tone of the finest exotic tonewoods, such as quilted maple, royal paulownia, purpleheart, sapele, walnut, ebony, and wenge, with the feel of the famous Tobias Asym asymmetrical neck and the eye-catching shapes of the perfectly balanced contoured bodies, Tobias basses are attractive in look and exceptional in playing feel. However, their sonic versatility is what makes them so well suited to the needs of modern bassists. The superior tone from the exotic hardwoods, premium hardware, and active BartoliniĀ® pickups and preamps results in basses with the tonal flexibility that todayās players require. Donāt settle for less than a bass that delivers everything you want and need āthe look, the feel, and the sound, Tobias.
āIām thrilled to release Tobias basses, emphasizing the use of exotic woods, ergonomics, and authenticity to the original Tobias basses,ā says Aljon Go, Product Development Manager for Tobias, Epiphone, and Kramer. āThis revival is a dream come true, blending modern craftsmanship with the timeless essence of Tobias.ā
āItās amazing to see this icon of the bass world return,ā adds Andrew Ladner, Brand Manager for Epiphone and Kramer. āThese models are truly a bass playerās bass, and true to the DNA that makes Tobias world-classāthe ace up the sleeve of bass players around the globe since 1978. Todayās players can find that unique voice and feel that only Tobias can offer.ā
For more information, please visit gibson.com.