Our much-loved former columnist Jeff Bober returns to explain how to check and reset the bias of your amp’s output tubes—and delivers some potentially shocking warnings about a few common but dangerous techniques.
Hello again, Premier Guitar readers! It’s your old bud Jeff here, author of the once popular Ask Amp Man column. Editorial Director Ted Drozdowski asked me if I would be interested in writing about bias, and, of course, I said, “Sure, I know a thing or two about that!” So here I am, temporarily returning to these pages. Now, let’s get started.
What exactly is bias? Bias is prejudice in favor of or against … oh wait, wrong kind of bias. I think he wanted me to write about bias in a tube amplifier, which is far less polarizing.
Bias, as defined in the RCA Radiotron Designers Handbook, is “voltage applied to the grid [of a tube] to obtain a desired operating point.” Well, that is the most basic explanation, but for the most part it is good enough and pertains to the majority of tube output stages in our favorite tube guitar amps.
Setting the bias adjustment controls to these listed voltages in no way guarantees that your amp is properly biased.
Besides “applying” a voltage to a vacuum tube, however, biasing can occur in another way as well. There are quite a few amplifiers, such as a Vox AC15 and AC30, any of my Budda and EAST designs, and even most of the early, low-wattage amplifiers of the tweed era that use what’s known as a “cathode bias” design. This is where the current flowing through the tube (which attains the aforementioned “desired operating point”) is not set by the voltage “applied” to the grid of the tube, but is instead set by the resistor in the cathode leg of the tube. It’s a bit more complicated than that, but the result is an amplifier whose output stage is “self-biasing.”
Most amplification devices, including transistors and even preamp tubes, need to be “biased” in order to perform properly, but this type of biasing is fixed in the design parameters of the circuit. In the case of the preamp tubes in your guitar amp, bias is based on the value of the cathode resistor, among other things. But that’s enough design theory for today. Let’s get back to the core task of biasing the output tubes in most guitar amplifiers.
First, the bias voltages you see listed on many schematics, such as 52V on a black-panel Fender Twin Reverb or 51V on a Marshall 100W Super Lead schematic, are merely approximations of the voltages that should be expected in that area of the circuit. Setting the bias adjustment controls to these listed voltages in no way guarantees that your amp is properly biased. Tube bias is also dependent on the high voltage (or B+) applied to the plate of the output tube, which can vary within tolerances of the transformers as well as in the AC line voltage fed to the amp. (This is why amps can sometimes sound better in one room or club than others.)
But even more important to understand is that tubes produced in different factories across the globe will bias up differently! What I mean by this is, if you properly bias a set of output tubes—let’s say 6L6s made in Russia—and then you swap them out with a set made in China, in the same amplifier without changing the setting of the bias control, the end result will almost always be a different bias reading. This is why it’s always best to have checked and reset the bias whenever output tubes are replaced. Now, how do we do that?
The Preferred Method
Fig. 1
There are several different ways to measure output-tube bias current at idle. The safest method is to use what is commonly called a bias probe (Fig. 1). This is a device that is inserted between an output tube and its socket. (I typically make my own bias probes, but if you simply search “bias probe” online, you’ll find plenty to choose from. If you already own a multimeter, you can simply purchase the probes, but there are also options to purchase a full system with either a digital or analog meter, should you need it.) This device breaks the connection between the cathode (which is the metallic electrode from which electrons are emitted into the tube) of the tube and its ground connection, and inserts a small value resistor in between. It then allows the voltage across the resistor to be read. The resistor is typically 1 ohm and the resulting voltage drop across it is in millivolts (mV), so no chance of shock here. This provides a true and accurate measurement of the actual current flowing through one tube. Then, you set your bias and you’re done!
But even more important to understand is that tubes produced in different factories across the globe will bias up differently!
Ah, but wait! How do you set your bias? Let’s learn a bit more. Most tube amplifiers, if they are not cathode-biased designs, have some way to adjust the output-tube bias. One longstanding exception to this are most Mesa/Boogie amps. The bias voltage in these amps is not adjustable, which is why Mesa suggests only purchasing their tubes for their amps, because they are designed to fall within the acceptable bias range for their amps. This adds a certain degree of confidence for owner servicing, although, of course, it limits your options.
Let’s take a look, however, at a typical Fender or Marshall bias control. Most older Fenders have a pot with a slot for a screwdriver mounted to the chassis in the area of the power or mains transformer, while most older Marshalls have their bias pot mounted on the circuit board. (You might want to go online to look at schematics for your amp to help you find it.) Either way, this is where you’ll make your adjustment.
To get started, you’ll most likely need to pull the chassis and place it in a stable work environment. Insert the bias probe device between one of the tubes and the socket (Fig. 2). Make sure all the volume controls are set to zero, turn the amp on, and let the tubes warm up. It’s also good to try to have a load on the speaker jack—whether a speaker or an appropriate resistor or load box. This is not 100 percent necessary for just setting the bias to a particular number, but sound checking is one of the ways I like to make the final adjustments, so being able to connect the speaker to the chassis while it’s on the bench is certainly a necessity for me.
Now, where to set the numbers? There are certainly more than a few opinions floating around on the interwebs about what optimal bias settings are. Some engineering types will tout 50 percent maximum plate dissipation or 70 percent maximum dissipation, and while it may look good or make sense on paper, I’ve heard the result of guitar amplifiers designed by the book to optimal specifications … and to me they sound, well, less than optimal. It may work in the hi-fi world, where perfect sound reproduction is the goal, but guitar amplifiers are in the sound production business, so it’s a bit different. (In the most basic terms, maximum plate dissipation is the amount of power the plate of the tube is designed to deliver.)
Different types of output tubes have their own acceptable range of bias current. There are so many variables at play that there is no “correct” number. The plate voltage in the amplifier, the output transformer’s primary impedance, and the country of origin of a tube all factor into how it interacts with the voltage and output transformer to define what the optimal bias current will be. Below are the average ranges for some typical octal output tubes:
• 6L6: 25–35 mA
• EL34: 30–40 mA
• 6V6: 18–25 mA
• 6550: 35–45 mA
• KT66: 30–40 mA
Fig. 3
These should be the ranges in which these tubes will perform and sound the best, and they can be accurately measured with a digital multimeter. The best way for you to decide what setting is best for you is a combination of the reading on the meter and your ears! Using the bias control, set the bias to somewhere in the ranges given above (Fig. 3) and play the amp. Note: Some amps will act funny and develop horrible noises (parasitic oscillations) when a bias probe is in place while the amp is being played. If this is the case, you’ll need to remove the bias probe each time you play the amp.)
Move the setting a couple mA in one direction or the other and play again. Don’t expect extreme changes; that’s not what we’re looking for. Listen for subtle differences. Is one setting a little more or less harsh? Is the bottom end too soft or flubby? Is the amp as clean as you want it? Sometimes these little subtleties are what make one amp sound and feel better than another!
Most older Fenders have a pot with a slot for a screwdriver mounted to the chassis in the area of the power or mains transformer, while most older Marshalls have their bias pot mounted on the circuit board.
Also, you should be doing this at the volume you would typically use onstage or in the studio. You may not notice much change if your volume is at 1, but you want to optimize the amp for the way you will be using it.
Eyes Wide Open
Fig. 4
Knowing the ballpark bias numbers is good, and adding your ears is even better, but I also like to see what I’m hearing, so I always incorporate an oscilloscope when I’m setting the bias on an amp. I mentioned crossover distortion above, and when it comes to setting up amps for today’s pedal-hungry players, I find that setting the bias to where there is just a hint of crossover distortion at full output is what works best. Fig. 4 is what that looks like on the oscilloscope. This keeps the amp very clean and makes most pedal users happy.
By the way, here’s a mini primer in crossover distortion. In a push-pull output stage, which is found in most amplifiers with two or more output tubes, each tube (or pair of tubes) is responsible for amplifying at least half of the audio signal. If the tubes are not biased properly, one tube (or pair) will stop amplifying before the other tube (or pair) start amplifying. This will create crossover distortion. Proper biasing will allow the two halves to interact correctly. It’s like a nice firm handshake between both halves.
Beware These Old-School Methods
Let’s look at a couple popular methods that I do not recommend, but are worth discussing because they are, nonetheless, common. The first is: With the amp off and output tubes removed, use a multimeter to measure the resistance of each half of the primary side of the output transformer. This would typically be from the center tap to each side of the primary winding.
In the most basic terms, a transformer is a bunch of wire wound around a steel core. On the primary side of an output transformer, the center tap is the electrical “middle” of this long length of wire. This is typically where the high voltage is applied. The ends of this length of wire are connected to the plates of the tube, thereby applying the high voltage to the tubes. As an example, typically in most Fender amps, the center tap is red, and the ends of the primary windings are blue and brown.
Fig. 5
Next, install the output tubes, turn the amp on, and measure the voltage drop across each half of the output transformer with the amp at idle in operational mode (Fig. 5). Voltage divided by resistance will give you the DC current through the tubes. For example, 1.17V / 15.8R = 0.074, or 74 mA. The numbers I used here were actual measurements in one side (one half) of a 100W amp using four output tubes (two per side). So, divide the 74 mA by two, and you get an average of 37 mA per tube.
Next, you can try the shunt method. This requires a multimeter that can read DC current in milliamps (mA). Connect one meter lead to the center tap of the output transformer and the other lead to the output transformer’s primary side. Typically, in most amps using octal tubes (6L6, 6V6, EL34, 6550, KT88, etc.), this will be pin 3 on any output tube socket. Turn the amp on and, in operating mode at idle (i.e., volume off), measure the current across that half of the output transformer. For example, if your measurement is 72 mA and it’s an amp that utilizes four output tubes, the current measured is for two of those tubes, so once again divide by two to arrive at 36 mA per tube.
I’ve heard the result of guitar amplifiers designed by the book to optimal specifications … and to me they sound, well, less than optimal.
Both of those methods are very old school and still in practice, but I wouldn’t use either for two reasons: 1) I don’t believe they’re very accurate, and 2) they’re dangerous! You’re probing around inside the high voltage area of the amp, and one slip will either take out a fuse, take out a tube, take out your meter, or, worse case, let you know exactly what 450V DC feels like! So, although these methods are used, let’s just say no here.
Some Personal Insights
I’d also like to add a little personal experience to this procedure, based on decades in the biz. Back in the day, when I began servicing and modifying gear, guitarists were regularly playing 50- and 100-watt amps. (Everybody looked at me like I had three heads when I came out with the 18-watt Budda Twinmaster, but that’s a whole other story.) There were some overdrive and distortion pedals around (now all vintage), but certainly not the pedal proliferation we have now, so players were pretty much guitar, cable, amp … go! In these situations, I would most times run the tubes with a pretty hot bias so the amp would be fatter and overdrive a bit earlier and easier, as a decent percentage of the overdrive was developed by pushing the output tubes. As time went on, output attenuators became more popular, so amps could be pushed hard, but at more manageable volume levels. That was still a good scenario for a hotter bias of the output tubes in high-power amps. Eventually, players started playing lower-power amps, so they could open them up and get great output-tube distortion at lesser volumes. The problem is that hotter-biased low-power amps tend to get mushy and have less definition when pushed hard, so a more moderate bias setting is preferred here—just enough so there is no crossover distortion. Move up to today’s scenario and you’ll find that almost all overdrive and/or distortion is typically coming from a pedal. In that case, an amp is nothing more than an amplification device for pedals.
So, that’s what I’ve learned about tube-biasing from my decades of experience. But the bottom line is, there is no absolute right or wrong settings when it comes to biasing an amp. Keep your ears open and go with what sounds best to you.
- Ask Amp Man: A Fond Farewell ›
- Ask Amp Man: A Vintage Showman, Not Ready for Prime Time ›
- Ask Amp Man: Add Some Marshall Grit to a Fender Bassman ›
Featuring vintage tremolos, modern slicer effects, and stereo auto-panners, the update includes clever Rate and Tempo controls for seamless syncing and morphing.
Today Kemper announces the immediate availability PROFILER OS 12.0 including the highly anticipated collection of advanced Tremolo and Slicer FX for the entire range of KEMPER PROFILER guitar amps.
The Collection features three vintage tremolos, two modern slicer effects, and two stereo auto-panners, that have been derived from the slicer effects. They all feature a clever Rate and Tempo control system, that allows for syncing the tremolo to the song tempo, retriggering the timing by simply hitting the TAP switch, and changing or morphing the tremolo rate to different note values,
The new Advanced Tremolo Modules in Detail
- The Tube Bias Tremolo is the familiar Tremolo in the Kemper Profilers. Formally named "Tremolo“ and available in the PROFILERs since day one, it is a reproduction of the famous Fender Amp tremolos from the 50‘s. Placed in front of the amp it beautifully interacts with the amp distortion.
- The Photocell Tremolo dates back to the 60‘s and features a steeper pulse slope, and its width varies with the intensity.
- The Harmonic Tremolo also dates back to the 60‘s and was introduced by Fender. The low and high frequencies alternate with the tremolo rate.
- The Pulse Slicer is a modern slizer or stutter effect that will continuously transition from the smoothest sine wave to the sharpest square wave, using the "Edge“ parameter. The "Skew“ parameter changes the timing of the high level versus the low level, sometimes also called pulse width or duty cycle.
- The Saw Slicer creates a ramp like a saw wave. The saw wave has a falling ramp when "Edge“ is at full position, and a rising edge at zero position. Towards the middle position a rising and falling ramp are forming a triangle wave. The „Skew“ parameter changes the slope of the rising and falling ramp from a linear trajectory to a more convex or concave shape.
- The Pulse Autopanner and the Saw Autopanner are derivates from their respective Slicers, they spread their signals in the stereo panorama. The "Stereo“-control parameter is included in many effects of the PROFILER. Here, it introduces a novel "super-stereo" effect that lets the Autopanner send the signal well outside the regular stereo image. This effect works best if you are well positioned in the correct stereo triangle of your speakers. When you move the “Stereo” soft knob beyond the +/-100% setting, the super-stereo effect comes into place, reaching its maximum impact at +/-200%.
- A single press on the TAP button at the beginning of the bar will bring the rhythmic modulation effects, such as Tremolo or Slicer, back into sync with the music without changing the tempo. The sync will happen smoothly and almost unnoticeable, which is a unique feature. Of course, tapping the tempo is possible as well.
- Modulation Rate - The “Rate” control available in many modulation effects is based on a special philosophy that allows continuous control over the speed of the modulation and continuous Morphing, even when linked to the current tempo via the To Tempo option. The fine Rate resolution shines when seamlessly morphing from, e.g., 1/8 notes to 1/16 notes or triplets without a glitch and without losing the timing of the music.
Kim Deal on Failure: “There’s a Sweetness to Seeing Somebody Get Their Ass Kicked"
The veteran musician and songwriter steps into the spotlight with Nobody Loves You More, a long-in-the-making solo record driven by loss, defeat, and friendship.
While Kim Deal was making her new album, she was intrigued with the idea of failure. Deal found the work of Dutch artist Bas Jan Ader, who disappeared at sea in 1975 while attempting to sail by himself from the U.S. to England in a 13-foot sailboat. His boat was discovered wrecked off the southern coast of Ireland in April 1976, 10 months after Ader departed the Massachusetts coast. Ader’s wife took one of the last photos of him as he set off on the doomed journey from Chatham Harbor: Ader, wearing a blue tracksuit and a bright orange life jacket cinched around his neck, is beaming.
Deal isn’t smiling on the cover of Nobody Loves You More, her new album, but the art bears some similarities: Deal is floating on a platform in an expanse of gentle, dark blue waves, accompanied only by a few pastel-colored amps, her guitar, a stool, and a flamingo. It’s an unmistakably lonely image, but for Deal, failure doesn’t mean loneliness. It’s not even necessarily a bad thing.
“I mean, at least something magnificent was tried, you know?” says Deal. “At least there was something to fail. That’s an endearing thing. I think there’s a sweetness to seeing somebody get their ass kicked, because they were in it. It warms my heart to see that, just people getting out there. Maybe it gives me the courage and confidence to try something. It’s okay if I get my butt kicked. At least you’re trying something.”
“I think there’s a sweetness to seeing somebody get their fucking ass kicked, because they were fucking in it.”
Nobody Loves You More feels at least a little like Van Ader’s journey: an artistic project so long in the making and so precious to its creator that they’re willing to break from all conventions and face the abject terror of being judged by the world. That might seem like nothing new for Deal, who’s played music professionally for over 35 years, first with Pixies, then with the Breeders. But this LP marks her first proper solo album under her own name—a thought that mortified her for a long time. (“I like rock bands,” she says.) Even when she recorded and released what could be called “solo” music, she released it under a pseudonym. Initially, it was to be Tammy and the Amps. “I still was so uncomfortable, so I created Tammy and the Amps,” explains Deal. “I’m Tammy, who are my band? It’s the amplifiers downstairs in my basement. But the Tammy thing sort of got on my nerves so I just dropped it, so it was called the Amps.” She also assembled a band around that concept and released Pacer under the Amps’ name in 1995.
The cover art for Nobody Loves You More echoes the doomed last voyage of Dutch artist Bas Jan Ader.
This new record hums with the soft-loud energetic alchemy that defines much of Deal’s previous works. The opening title track is a slow, romantic strummer with string arrangements, while “Coast” is faintly ska-indebted with horns and a ragged Blondie chord progression. “Crystal Breath” gets weirder, with distorted drums, synthy bass, and a detuned, spidery guitar lead. “Disobedience” and “Big Ben Beat” continue the darker and heavier trajectories with fuzzy stompers interspersed with ambient, affective interlude tracks like “Bats in the Afternoon Sky.” It’s a patient, sensitive, and unmistakably scrappy record.
Some of the songs on Nobody Loves You More are as up-close and personal as solo records get. One in particular that’s drawn attention is “Are You Mine?,” a sleepy-eyed, lullaby ballad. At first listen, it could be taken for a love song. (In fact, Deal encourages this interpretation.) But it’s a song about her mother, for whom Deal cared in her home while she died from Alzheimer’s. The song title comes from a gut-wrenching moment.
“I was in the house, she doesn’t know my name,” explains Deal. “She’s still walking, she can form words, but she doesn’t know what a daughter is or anything. She passes me in the hallway, stops, grabs my arm and says, ‘Are you mine?’ She doesn’t know my name, she doesn’t know who I am, but there was a connection. I knew she was asking if I was her baby. I said, ‘Yeah, mama, I’m yours.’ I’m sure five seconds later, she forgot that conversation even happened. It was just a flicker, but it was so sweet. To have her not see me in so long, and then for one brief second, be recognized in some capacity…. She was such a sweet lady.”
Deal’s mother wasn’t the only loss that went into this collection of songs. Her father passed, too, after a prolonged illness. “My dad was this big bravado sort of personality and watching them get extinguished a little bit every day… I don’t know,” she says. “They both died at home. I’m very proud of that.” But writing “Are You Mine?” wasn’t painful for Deal; she says it was a comforting experience writing the gentle arpeggio on her Candelas nylon-string acoustic.
Deal assembled the bulk of Nobody Loves You More in her Dayton, Ohio, basement, recording with Pro Tools and a particularly pleasing Electrodyne microphone preamp. (Some of the songs date back more than a decade—versions of “Are You Mine?” and “Wish I Was” were initially recorded in 2011 and released as part of a series of 7" singles.) Deal recorded a good part of the record’s drums, bass, and guitar from home, but other contributions came in fits and spurts over the years, from old faces and new. Her Breeders bandmates, including Mando Lopez, Jim MacPherson, Britt Walford, and sister Kelley Deal, all pitched in, as did Fay Milton and Ayse Hassan from British post-punk band Savages, and the Raconteurs’ Jack Lawrence.
Kim Deal cared for her parents in their Dayton, Ohio, home until their passing, an experience that colors the music on her new solo record.
Photo by Steve Gullick
Kim Deal's Gear
Guitars
- '90s Fender Stratocaster
- '70s goldtop Gibson Les Paul
- Candelas nylon-string acoustic
Amps
- Marshall JCM900
- 4x12 cabinet
- Kalamazoo combo
Strings & Picks
- .011-gauge strings
- Dunlop Tortex Standard .60 mm
One day, ex-Red Hot Chili Peppers guitarist Josh Klinghoffer stopped by the studio to see what Deal was working on. He listened to “Wish I Was,” and scrambled together a lead idea. Deal kept the part and expanded it over time, leading to Klinghoffer’s writing credit on the record.
Deal used her trademark red ’90s Fender Stratocaster HSS along with a ’70s goldtop Gibson Les Paul for most of the electric work, pumped through either her long-time Marshall JCM900 or a tiny vintage Kalamazoo combo. Deal has never been a gearhead—at one point on our video call, she uses a tooth flosser as a pick to demonstrate some parts on her Candelas. “Kelley is a pedal person,” she says. “I’m not doing leads. I’m just doing a rhythm that needs to sound good.”
“I don’t think I’m taking it very well still, actually, or I’m a sociopath because I don’t even talk about [Steve Albini] in the past tense.”Over the years, Deal’s sonic thumbprint has been tied up in the work of her good friend and frequent collaborator Steve Albini, the producer, engineer, and musician who died unexpectedly in May 2024. (Deal quips, “Steve’s the lead character in my own life.”) Albini and Deal began working together in 1988, on Pixies’ debut LP Surfer Rosa. Their friendship continued over decades—Deal even performed at Albini’s wedding in Hawaii, for which he gifted her a ukulele—and the final sessions for Nobody Loves You More were under Albini’s watch. His parting hasn’t been easy.
“I got a text: ‘Call me,’” remembers Deal. It was a mutual friend, telling Deal that Albini had passed. “He told me and I just said, ‘You’re absolutely wrong. That didn’t happen.’ I don’t think I’m taking it very well still, actually. I don’t even talk about him in the past tense. I say, ‘What he likes to do is this.’ I never think, ‘What Steve used to like to do.’ My head never goes there. I wanted to record a song that wasn’t working and I said, ‘I need to do it from top to bottom at Albini’s.’ That’s not going to happen.”
YouTube
Along with Rob Bochnik and Spencer Tweedy, Kim Deal plays two tracks from Nobody Loves You More for a holiday fundraiser in November 2024 in Chicago.
The iconic hard-rock shredder breaks down his incredible career and runs down one of his carpal tunnel-inducing face-melters.
From Ozzy Osbourne to Black Label Society to Zakk Sabbath to, most recently, his stint filling in for his old friend “Dimebag” Darrell Abbott in Pantera, Zakk Wylde has left an unmistakable mark on the hard-rock and metal music worlds. Fresh off performing “The Star Spangled Banner” at the Cleveland Browns game in October, and paying homage to his boss Ozzy at the 2024 Rock and Roll Hall of Fame induction ceremony, Wylde joins this episode of Shred With Shifty to share his teachings from the book of rock.
When he was learning to play, Wylde studied Frank Marino, Al Di Meola, and John McLaughlin along with Sabbath shredder Tony Iommi, Jimmy Page, and “King Edward”—Eddie Van Halen—but Osbourne’s original right-hand guitar-man Randy Rhoades was top of the crop. Little did Wylde know he’d go on to replace him after his tragic death, following up the work of Rhoades, Brad Gillis, and Jake E. Lee. He got to join his favorite band, but it wasn’t an easy gig. “What’s expected of you as an Ozzy player?” says Wylde. “The bar that Randy set was lights out.”
After a quick pinch-harmonics tutorial, Wylde lays out how he used a Marshall JCM800 and Boss SD-1 with his “holy grail” bullseye Gibson Les Paul Custom to track the alternate-picking intensive on “Miracle Man,” a mix of “ingredients” from all the players Wylde loves. (“Pass the Ritchie Blackmore, boss!”) For those thinking of skimping and swapping in some hammer-ons and pull-offs, Shifty warns: “There are no shortcuts! Pick every note!”
Along the way, Wylde discusses the inner workings of his tenure with Osbourne, including being the longest-running player in the group—like “working at the deli,” according to Wylde. And tune in to hear about Wylde’s relationship to Ozzy’s wife and manager Sharon Osbourne, who he refers to as “mom”—a role she performed well when she busted him at a nightclub while he was underage.
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.
The Georgia-based sludge slingers rely on a Tele-to-Marshall combination for their punishing performances.
Since forming in 2010, Atlanta noise rockers Whores had only released one LP, 2016’s Gold.—until this year. Eight long years later, their new full-length, WAR., dropped in April, and Whores celebrated by tearing across the country and blasting audiences with their maelstrom of massive, sledge-hammering rock ’n’ roll.
The day after their gig at Cobra Nashville, Whores frontman Christian Lembach, dressed in his Nashville best, met up with PG’s Chris Kies at Eastside Music Supply to run through his brutal road rig.
Brought to you by D’Addario.Earthy Esquire
When vocalist and guitarist Christian Lembach got sober over 20 years ago, he bought a Fender Telecaster off of a friend, then picked up an Esquire shortly after. That original Esquire stays home, but he brings this pine-body Earth Guitars Esquire out on the road. (It’s the lightest he’s ever played.) It’s loaded with a German-made reproduction of Schecter’s F520T pickup—aka the “Walk of Life” pickup intended to reproduce Mark Knopfler’s sound. (Lembach buys them in batches of five at a time to make sure he’s got plenty of backups.)
It’s equipped with a 3-way selector switch. At right, it bypasses the tone circuit; in the middle position, it’s a regular bridge-pickup configuration, with volume and tone activated; and at left, the tone is bypassed again, but an extra capacitor adds a bass boost.
Lembach installed six brass saddles in lieu of the traditional 3-saddle bridge. He often plays barre chords higher up the neck, and the six saddles allow for more accurate intonation.
All of Lembach’s guitars are tuned to drop C, and he plays with D’Addario Duralin .70 mm picks. They’re strung with heavy D’Addario NYXL sets, .013–.056 with a wound G. The 30-foot Bullet Cable coil cable attenuates some of the guitar’s top end.
Tuned-Up Tele
Lembach had this black Fender Telecaster—the one he bought from his friend—modified to his preferred Esquire specs, with a single bridge pickup and the same 3-way selector configuration as his other weapon. He prefers the 6-saddle bridge to this rusty 3-saddle version, but this one holds a special place in his heart all the same.
Favor From Furlan
When John Furlan of Furlan Guitars reached out to Lembach about building him a custom guitar, it was an easy sell. The two worked together on this beauty, based on a non-reverse Gibson Firebird body with a Fender-style scale length, roasted maple neck, and rosewood fretboard.
It’s got a bridge and locking tuners from Hipshot, and it’s loaded with Greenville Beauty Parlor P-90s. A typical Gibson-style toggle switches between neck, bridge, and both configurations, while another Esquire-style 3-way switch on the lower bout handles Lembach’s preferred bridge-pickup wirings: no tone, tone and volume, or bass boost.
No Logo
Lembach stays loyal to his twin Marshall Super Leads, with taped-over logos—an aesthetic Lembach picked up from Nirvana. A tech in Atlanta figured out that the one on the left is a 1973, which runs at eight ohms, or half power (Lembach removed two of the power tubes), into a 16-ohm cabinet. The power drop allows Lembach to coax feedback at lower volumes. The original preamp tubes from Yugoslavia—no longer a country, mind you—are still working in the amp.
The one on the right is a reissue 1959SLP from 2002 or 2003, which Lembach finds brighter than his vintage model. He goes into the lower-input second channel to dampen the edge.
Both amps run through Marshall JCM800 cabinets with Celestion G12T-75s.
Christian Lembach's Board
A Loop-Master Pedals Clean/Dirty Effects Switcher manages Lembach’s signal. Its A loop is used for verses, bridges, intros, and outros, and has the majority of the pedals in it. The first thing in the A loop is the ZVEX Fuzz Factory made specially for the band, followed by a Devi Ever Soda Meiser, Beetronics Swarm, Keeley Nova Wah, Spiral Electric FX Yellow Spiral, Boss NF-1, and Alexander Pedals Radical II Delay.
The B loop has a clone of the Electro-Harmonix Green Russian Big Muff, an EHX POG, and a ZVEX Super Hard On. The A loop is already pretty loud; B somehow gets even louder. An EHX Superego+ is a new addition that Lembach’s planning to integrate.
A CIOKS DC10 powers the board, and a Lehle device under the board cleans up unwanted hum and noise.