Ace Nashville luthier Joe Glaser and his crew reveal their recipes for maximum chime and jangle.
A handful of musicians have built their careers around the 12-string guitar—Lead Belly, Leo Kottke, and Roger McGuinn come to mind—but for most guitarists, an electric or acoustic 12-string is a specialty instrument to be hauled out when a song needs a little extra jangle. As such, 12-string guitars get a smaller part of a player’s setup budget and are rarely checked, despite the fact that they may suffer more from string tension issues than their 6-string siblings. That’s too bad, because when a 12-string’s action is too high or it’s not set up correctly, it feels twice as hard to play.
With a good setup, a 12-string can sound magical. If you have one, or are considering acquiring one, you’ll benefit from understanding some of the factors that contribute to this instrument’s sonic mojo. If you’re not accomplished at setting up a guitar—or game to learn how—we suggest you seek the services of a professional to work on your instrument. However, armed with a little knowledge, the proper tools, and a bit of patience, you can achieve excellent results doing your own basic setup and maintenance. At the very least, understanding the setup process will help you identify a good tech.
Also—and this is important—if you’re shopping for a used 12-string, knowing how to recognize and identify potential setup issues will help you make an informed buying decision, and potentially save you a lot of money.
When it comes to deciding on how to space the strings at the nut, 12-string guitars require extra thought: You have to deal with the space between the two strings within each pair, and, of course, the spacing of the pairs themselves across the fretboard.
Just as with a 6-string guitar, bass, banjo, or mandolin, 12-string setup can be divided into playability and intonation. On the playability side, there is no one-size-fits-all approach, and through experience, guitarists need to discover their personal comfort zones. At Glaser Instruments we typically tell people that for good tone and a wide dynamic range, your setup should be as high as you can manage to play comfortably, yet as low as necessary to keep you wanting to play that instrument. The playability part of setup is personal, but, for the most part, tuning is more absolute. (Some session players have their own intonation formulas, but that’s a subject for another day.)
Because there’s no one “correct” way to set up a guitar, we’re simply going to share a few things we’ve learned in the last 35 years—proven techniques that work for us and our clients. To illustrate these concepts, we’ve chosen two guitars: a 1965 Rickenbacker 360/12 and a ’65 Guild F-212. The latter belongs to producer Bob Ezrin, whose credits include Peter Gabriel, Alice Cooper, Pink Floyd, Kiss, Lou Reed, and Phish. This Guild has added jangle to countless tracks, so chances are you’ve actually heard it.
Each guitar needed some work to play and sound its best, so we’ll take you through what we did and describe how we approached those procedures and why. Some setup issues are common to both 6- and 12-string instruments and have been already covered in Premier Guitar, so instead of rehashing them here, we’ll link you to them. In this article, we’ll focus on considerations that are unique to 12-string setup.
Wrangling the Ric
Photo 1— On this Ric’s original nut, string spacing between the pairs is inconsistent. Also, notice how the two strings in the 1st unison pair are closer together than in the 2nd unison. This nut will be replaced to improve playability.
Photo by Andy Ellis
If you’ve played a 12-string, you know that typically the top two pairs are tuned in unison, while the lowest four pairs are tuned in octaves. On most 12-string guitars, the octave pairs are configured so each high octave string precedes its low octave mate when you strum down across the strings toward the floor.
But on a Rickenbacker 12, this convention is reversed. On string pairs 6-4, the low octave comes first, followed by the high octave, and this idiosyncratic stringing has a subtle sonic effect on chords and riffs. Rest assured the setup principles we’ll discuss here apply to any electric 12, regardless of which way the octave pairs are arranged. We mention the Ric stringing in case you haven’t yet had the pleasure of playing one—don’t freak out when you see it!
Typically the gauges for a light electric 12-string set are .046w/.026w, .036w/.018, .026w/.012, .017/.008, .013./013, and .010/.010, moving from the 6th to the 1st pairs. The “w” indicates a wound string, so as you can see, this means two of the octave pairs—the 5th and 4th—have a mix of wound and plain wire. As we’ll see in a moment, combining radically different string construction and thickness creates unique intonation challenges, and this applies to both electric and acoustic 12s.
Truss rod adjustment. Setups always start with a quick overview and then a truss rod adjustment, if needed. We want a little relief or “bow”—about a business card’s thickness—located around the 6th or 7th fret. As with all things guitar, there is no right or wrong, and while the laws of physics pertain to string rattle and intonation, personal preference ultimately rules. In general, the lighter your attack, the straighter the neck and the lower the action can be.
The Ric’s owner uses a regular light gauge set and plays with a light touch, so we checked the relief and tightened the dual truss rods slightly, reducing the amount of bow by a small amount. [For details on how to adjust a truss rod, read “Time for a Neck Adjustment?” and “Demystifying Truss Rod Tools.”]
String spacing at the nut. While initially inspecting our project Ric, we noticed that the strings weren’t correctly spaced at the nut (Photo 1), so we decided to cut a new one. To preserve the original look, we opted for black synthetic nut material.
Tip: It’s not uncommon to encounter oddball string spacing on an older 12-string, so be sure to check this when buying a used model.
When it comes to deciding on how to space the strings at the nut, 12-string guitars require extra thought: You have to deal with the space between the two strings within each pair, and, of course, the spacing of the pairs themselves across the fretboard. Remember, except for the two unisons, the strings are gauged very differently within each pair, and getting them to look good and feel right is more than twice as complicated as cutting a standard 6-string nut.
If you’re shopping for a used 12-string, knowing how to recognize and identify potential setup issues will help you make an informed buying decision, and potentially save you a lot of money.
There are several different versions of “correct” nut spacing and, as with all things, it boils down to a personal choice based on feel. At our shop we use a computer-controlled Plek machine to cut nut slots because of its speed and accuracy. But machines have to be programmed by humans, so let’s look at the decisions we make when programming our Plek. By the way, these are the same decisions we’d make if we were doing this work by hand—the way we did for years before acquiring the Plek.
As with cutting a 6-string nut, our first step for this Ric was to place the outside strings—a .010 and the .046—where they feel best along the neck edges. The goal is to have these outer strings spaced as widely apart as possible for easy chording, but not so far out that they fall off the neck while playing. Where you place the outside strings depends on how the neck is shaped and how the fret ends are cut and beveled.
Next, we placed the inside unison 1st string where it feels good to fret, which is essentially as close to its mate as possible without causing the two to crash together when they’re plucked with a medium-hard attack. Many 12-string players will tell you that a certain amount of string-against-string “chatter” is actually part of what gives the 12-string guitar its unique chime, so you don’t have to completely eliminate this. A space between the unisons of about .070" is typical. That’s approximately the thickness of a quarter, which makes a great low-tech calibrator.
Now, using the Ric’s outside bass string (.046) and the inside treble (.010) as guides, we located the remaining “main” strings, in this case, the .013, .017, .026w, and .036w (the 2nd, 3rd, 4th, and 5th strings, respectively).
There are different formulas for spacing these main strings: equal center-to-center, equal space between strings, or a hybrid of these two approaches. Essentially, hybrid spacing uses equal distances from the closest edge of the smaller string to the center of the adjacent larger one, moving from the treble side toward the bass.
Before we had a Plek machine at our shop, we used a special formula to calculate our hybrid spacing. But now, there’s an easier way: You can use an inexpensive String Spacing Rule from Stewart-MacDonald to quickly do the job—no math required. [You can watch a video on how to use this tool at stewmac.com.]
Once you’ve located and marked the four main strings on the nut, it’s time to place each string’s pitch mate. Again, the first consideration is feel, although .070" is a good starting point for the space between each pair.
Photo 2 — The string spacing is noticeably off at the bridge, not only within the pairs themselves, but also between them. Compare the 4th, 3rd, and 2nd courses, for example.
Photo by Andy Ellis.
Cutting nut slots. The string slot depth adjustment is done with nut files that correspond to string gauge. String slotting in the nut is very important for comfort, sound, and tuning. Slots left too high will impede playability and make the first position notes sound sharp when they’re fretted. But if you cut the slots too low, the strings will rattle when played open. [For an in-depth explanation of how to remove an old nut and carve a new one, read “How to Convert a Flattop to Nashville Tuning.”]
When filing the proper depth of the string slots on a 12-string nut, keep in mind that the bottoms of the slots should be cut so each string clears the 1st fret by the same amount. Again, we’re dealing with very different gauges in each octave pair. On a 12-string guitar, you might assume that keeping the tops of the strings level in each pair would make it more comfortable to play—and this is true. But by doing so, the lighter-gauge string would have more distance to travel to contact the top of the fret, and this can pull them noticeably out of tune.
At our shop we cut slots so a string clears the 1st fret by a few thousandths of an inch more than it would clear the 2nd fret if held down at the 1st fret. As you might imagine, this is a subject that generates lots of debate, and you can find online tutorials supporting a variety of theories—some good, some baloney.
Dealing with the saddles. The next thing we look at is the bridge. We saw that on this Ric, the string spacing was uneven by any standard (Photo 2). This is one of the most important aspects of playability. If the strings aren’t evenly laid out, it gets hard to differentiate between the pairs, which can cause confusion when you’re playing.
Also, the string radius across the bridge was uneven and didn’t match the fretboard radius. For optimal playability, you want the string saddles to follow the curve of the frets.
And that’s not all: Unlike some electric 12-string guitars, this Ric doesn’t have individual saddles for each string, but instead uses a single aluminum saddle for each pair. This can make it impossible to correctly intonate strings with very different gauges, such as within the 6th course with its .046 low E and .026 high octave.
Photo 3 — Cut from an aluminum bar, this custom saddle has been drilled and tapped for its intonation screw and is now ready to be shaped with a file.
Photo by Andy Ellis
To fix these problems, we decided to replace several saddles with new ones we’d fabricate from aluminum bars (Photo 3).
Finding the intonation points. After cutting the saddle blanks, and drilling and tapping the holes for each saddle’s intonation screw, we installed the new saddles on the bridge and strung everything up to pitch. Because of their disparate gauges, some string pairs need different points of contact on their shared saddle, so our next step was to manually file these in. But how do you find each string’s unique intonation point?
Photo 4 — Using pieces of a thick plain string to determine unique intonation points on the saddle shared by the
6th-course octave pairs.
Photo by Andy Ellis
Here’s our simple trick: First we cut two short lengths from a thick plain string, and then placed one of these lengths between each string and the saddle (Photo 4). After tuning to pitch, we checked the intonation with a precision electronic tuner, moving the string pieces forward or backward—like you would with individually adjustable saddles. Once we were satisfied with the intonation, we marked the spots on the saddle to give us an idea of how to shape the top with a file.
Photo 5 — Individual intonation points have now been filed into this 6th-course saddle.
Photo by Andy Ellis
Next we removed the new saddle, put it in a small vise, and filed away each side so the point of string contact matched the marks we’d made previously (Photo 5). Any minor intonation adjustments can be made after the saddle is on the guitar and we’re doing the final setup.
Photo 6 — Now installed in the bridge, the new 6th-course saddle is ready for final slotting and shaping.
Photo by Andy Ellis
Photo 6 shows the new 6th-string saddle installed on the bridge.
Photo 7 — Using a digital caliper to measure the gap between strings in each pair.
Photo by Andy Ellis
String spacing at the bridge. With the replacement saddles installed, we could now correct the string spacing at this end of the guitar. After positioning the two outside strings to leave sufficient playing clearance along the edge of the fretboard, we set the inside unison 1st string, and then placed the other four main strings using the hybrid formula described earlier. Once the main strings were in place, we positioned the paired strings. This process is similar to spacing the strings at the nut, except at the bridge, the separation within each pair is slightly wider—typically about .080" (Photo 7).
On this Ric, some strings were not spaced correctly from the start, so we had to “migrate” a few slots on the old saddles that we kept. You do this by first filing slightly deeper slots in the correct position and then removing material from the top of the affected saddles to eliminate the old marks. This requires patience and a steady hand. Remember, you can raise the bridge slightly to compensate for filing off a small amount of the saddle.
As you position the string pairs on the saddles, take time to visually confirm that they stay perpendicular to the frets as they travel along the neck to their nut slots.
Photo 8 — With a radius gauge, you can check if the saddles match the curve of the fretboard and determine how deep to file each saddle slot.
Photo by Andy Ellis
To determine the depth of the final saddle slots, we first measured the fretboard with a radius gauge at the 1st, 12th, and 19th frets. This Ric had a 10" radius at all three locations, so we put a 10" radius in the bridge saddles too. Many of the strings were not in this curve (Photo 8), so using the same files as on the nut, we deepened slots where needed and achieved our target radius, using the radius gauge to check our work.
Final adjustments. Every guitar is different in terms of setup. Depending on the fret plane and neck stiffness, some guitars will allow you to set the action very low. Most players prefer to have 12-string action set a little lower than on a 6-string, so it’s not a struggle to fret the guitar, given all the additional string tension. Fortunately, this Ric allowed us to go quite low because the neck was stiff and quite consistent without any major dips or humps.
This Ric’s bridge operates much like a Tune-o-matic, so we set the action at the 12th fret by raising or lowering each side of the bridge, the way you would on a Les Paul. After that, we readjusted the intonation by moving each of the six shared saddles back and forth, again as you would on a Tune-o-matic. [To understand the principles behind intonating an electric guitar, read “How to Set Up a Fender Stratocaster” and “How to Install a New Tune-o-matic Bridge.”]
As a final step, we checked the tuning at the nut. First, we carefully tuned the “beats” out of each open pair, and then checked each string at frets 1 and 2. These fretted notes should look good on a tuner—maybe a tad sharp under finger tension—but still produce beatless unisons and octaves. This can take some work, including some very gentle final filing of the nut slots to make sure the strings all leave from the very front edge of the nut.
Next, we checked intonation again at the 12th fret, this time comparing the open strings to the fretted notes, looking for any beating in the fretted pairs. As expected, we needed to make small adjustments with the file to position a few strings to the front or back of the shared saddle until all of them were perfectly in tune.
Photo 9 — Ah! Now the strings are spaced evenly at the bridge, the saddles are radiused and intonated, and all sharp edges have been filed smooth and polished. This Ric is ready to rock.
Photo by Andy Ellis
With the radius, action, and intonation squared away, we had one last task: Round and polish the saddles to remove any sharp edges (Photo 9).
Test drive. It’s worth mentioning that an instrument might be nicely intonated in the clinical context of a shop bench, but not be so sweet in the reality of a gig or session. Guitarists may have different opinions about intonation—in fact, some studio players prefer to tune the pairs slightly off to produce a cool chorusing effect. For that reason, the last phase of a good setup requires spending time with the instrument’s owner, patiently putting the guitar through its paces and tweaking to suit. If you’re doing your own setup on an electric 12, allow yourself time to dial everything in before you pronounce the guitar ready for prime time.
Finessing the F-212
Photo 10 — After having its neck reset, our project Guild F-212 is secured with clamps while the glue dries.
Photo by Andy Ellis
The first step in setting up an acoustic 12-string is to determine whether or not it can be set up at all. The increased string tension applied by the extra strings takes a toll on an acoustic, literally reshaping the instrument over time. Often the neck pulls forward and the soundboard bellies up, and as a result, the action becomes unplayable. Lowering the saddle may solve the problem in the short term, but if this incremental collapsing continues, ultimately the neck will need to be removed and reinserted into the body at a new angle. Called a neck reset, this is a job for an experienced professional.
Tip: When buying a used acoustic, you need to determine if a neck reset is required. Because it costs hundreds of dollars, a neck reset is a key factor in negotiating the selling price.
Assessing an acoustic 12. Here’s how you can evaluate the instrument’s condition. First, the neck should have a small amount of relief between the nut and body joint. Put a 12-string capo at the 1st fret, then press and hold the 6th-string pair at the fret where the neck joins the body. At around the 7th fret, peer between the bottom of the 6th-string pair and the top of the frets. Ideally, you want to see a small gap. Using your free hand (remember to keep pressing the strings against the frets where the neck joins the body), tap the paired strings against the frets to help you gauge the size of the gap. Repeat this on the 1st pair to estimate relief on the treble side of the fretboard.
For the electric Ric, we were looking for a gap approximately the thickness of a business card. On an acoustic with thicker strings, you might want a slightly larger gap, but the business card is a good starting point. If there’s too much relief—the gap is too large—the truss rod needs to be tightened.
Tip: Many 12-string guitarists tune down a half-step or even a whole-step below standard. Dropped tuning makes the strings easier to fret, reduces strain on the neck and body, and makes a 12-string sound huge.
If this doesn’t straighten the neck enough, you’ll need to check the neck angle or forward pitch in relation to the body. For guitars with bolt-on necks, this angle can be adjusted quite easily, usually with a shim. But on guitars with glued-in or “set” necks—this applies to most acoustic guitars—changing the neck angle is an involved procedure best left to a qualified repair person.
To evaluate the neck angle, first test out the action by playing up and down the fretboard. If the instrument feels reasonably playable and the neck is fairly straight, then check how much of the saddle is exposed at the bridge. A visible 1/8" (.125) of saddle is ideal. A bit more is okay, but 1/16" or less can create trouble. It’s probably a sign that the saddle has already been lowered, and it doesn’t leave you any more leeway to reduce the action. A shallow saddle profile typically indicates a neck reset is required, and that was the case with our project F-212. Photo 10 gives you an idea of what this entails.
But let’s assume you can control the relief with the truss rod and you have enough available saddle height to adjust the action. The next order of business is to confirm the nut is in good shape. As we saw with the Ric, string spacing on a 12-string is particularly tricky because you’re dealing with distances within the string pairs and also between them. And remember, to avoid intonation problems, the bottoms of all the strings need to be a uniform height from the 1st fret.
Photo 11 — This nut looks good. As on an electric 12, the bottoms of all the open strings should sit at a
consistent height above the 1st fret.
Photo by Andy Ellis
On our Guild F-212, the nut looked fine (Photo 11), so we didn’t have to replace or modify it. But if the string spacing or slot depth is off on your acoustic 12’s nut, review the concepts and procedures we just covered for the Ric, and apply them to your flattop.
Intonating the saddle. As with any acoustic guitar, the placement of the saddle in the bridge is critical for good intonation as you play higher up the neck. Theoretically, saddle placement is twice the distance from the nut to the 12th fret, but a guitar with its saddle placed there will play increasingly sharp as you fret in higher positions, so saddle “compensation” is necessary. This means moving the point where the string sits on the saddle back away from the neck by a small amount.This amount can vary according to string gauge and action, but a good average is 4/32" (0.125) at the 1st string and 7/32" (0.219) at the 6th, measured from the middle of the saddle slot.
There are two common saddle widths for most steel-string acoustics, whether 6- or 12-string. The narrower one is approximately 3/32" (0.093), and this allows scant room for adjusting the contact point of each string. The other common width is 1/8" (0.125), and this allows slightly more room to adjust each string’s vibrating length.
Many 12-string guitarists tune down a half-step or even a whole-step below standard. Dropped tuning makes the strings easier to fret, reduces strain on the neck and body, and makes a 12-string sound huge.
One intonation option is to widen the saddle slot and install a saddle with a width of 1/4" or more, which would give considerably more room to adjust the contact point for each string. This was not uncommon in the ’70s, but today most players consider it overkill because of the cost, small gain in tuning accuracy, and negative impact on an instrument’s value.
On many guitars, the contact point for the string as it comes up from its bridge pin toward the soundhole is the center of the saddle or slightly forward from the center. However, with a small file and a bit of patience, you can achieve more accurate intonation by shifting this contact point. And that’s what we decided to do for this F-212—create a new bone saddle and adjust the contact points to improve the tuning within the constraints of the 1/8" saddle width. This is a reversible mod, and that’s an important consideration for a vintage guitar—especially one with such a rich recorded legacy as this Guild.
Tip: For years, memorable music has been made on non-intonated acoustic 12s. So unless the intonation is really bothering you, consider keeping a non-intonated saddle on your guitar.
Knowing where to place the contact points on a 12-string saddle comes from years of experience—it’s not something that’s easily described in an article because so much depends on the guitar, the strings, and the player.
Photo 12 — This new bone saddle blank has been shaped, fitted, and radiused, and is now ready to be intonated.
Photo by Andy Ellis
That said, the basic steps go like this: First you fit and radius a new bone blank (Photo 12). While it’s still seated in the saddle slot, pencil perpendicular lines across the saddle to mark where each string emerges through the bridge pin holes to contact the saddle.
Next, along the top of the saddle and parallel to it, pencil in the contact points where the different strings will rest. The 1st and 2nd unison pairs will sit much like the single 1st and 2nd strings do on a 6-string—the 1st pair will be forward, the 2nd pair as far back as possible, essentially resting on the rear edge of the saddle.
Then pencil in the contact points for the four lower strings of each octave pair. Again, these points will resemble the pattern of a 6-string guitar, which has its 3rd string sitting forward on the front (soundhole) edge, and strings 4, 5, and 6 respectively shifting slightly back away from the neck toward the bridge pins.
The high strings in each octave pair typically sit further back on the saddle than their lower mates. The octave 3rd string (high G, in standard tuning), sits at the rear edge, and the 4th, 5th, and 6th octaves gradually shift forward, with the octave 6th sitting perhaps about center on the saddle.
Photo 13 — The bone saddle in the process of being filed and intonated. We’re looking at the rear of the saddle, so the bass strings are to the left, and the treble strings to the right. The perpendicular pencil marks to the left indicate where each string will cross the saddle from the bridge pin holes, while the marks along the top of the saddle indicate the unique resting point for each string. The unisons will have the same contact points, but the strings in each octave pair will sit at different positions, relative to the front and rear of the saddle.
Photo by Andy Ellis
Once you’ve made your marks, remove the saddle and start filing away the material around each pencil mark to create a ridge for the string to rest on. Photo 13 shows a saddle in the process of being shaped, with string pairs 6-1 running from left to right. As you file, be careful not to remove the pencil marks on the top of the saddle. They are your guides, and should remain on your saddle until the final polishing.
After carving the contact points, radius the top of the saddle to match the fretboard curve, and using very fine abrasive paper, polish out the file and pencil marks. Install the saddle, string up, and check the action.
Photo 14 — The finished intonated saddle. Notice the different contact points for the strings within each octave pair. The 3rd course illustrates this quite dramatically: The high G rests toward the rear of the saddle, while the low G
sits closer to the front.
Photo by Andy Ellis
Photo 14 shows the finished saddle installed in the Guild’s bridge. If you look carefully, you can see many of these contact points and how they differ within the octave pairs. Again, this is simply an example of what worked well for our particular F-212, but it illustrates a fairly standard acoustic 12 arrangement.
If the action needs to be lowered, remove the saddle and sand down its flat bottom. Proceed very slowly. Even though it’s a hassle to repeatedly restring, tune, and check the action, that’s still a lot less work than having to start from scratch because you sanded off too much of the bottom. Once you have the action where you want it, blow the dust off the guitar, give it a polish, and start basking in its glorious chime.
Special thanks to Bob Ezrin for loaning us his 1965 Guild F-212 and EM2’s Mark Montgomery for letting us rework his ’65 Rickenbacker 360/12.
[Updated 3/24/22]
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Ethnomusicologist Frances Densmore records the song of Mountain Chief, head of the Blackfeet Tribe, on a phonograph for the Bureau of American Ethnology in 1916.
Once used as a way to preserve American indigenous culture, field recording isn’t just for seasoned pros. Here, our columnist breaks down a few methods for you to try it yourself.
The picture associated with this month’s Dojo is one of my all-time favorites. Taken in 1916, it marks the collision of two diverging cultural epochs. Mountain Chief, the head of the Piegan Blackfeet Tribe, sings into a phonograph powered solely by spring-loaded tension outside the Smithsonian. Across from him sits whom I consider the patron saint of American ethnomusicologists—the great Frances Densmore.
You can feel the scope and weight of theancient culture of the indigenous American West, and the presence of the then-ongoing women’s suffrage movement, which was three years from succeeding at getting the 19th Amendment passed by Congress. That would later happen on June 4, 1919—the initiative towards granting all women of this country the right to vote. (All American citizens, including Black women, were not granted suffrage until 1965.)
Densmore traversed the entire breadth of the country, hauling her gramophone wax cylinder recorders into remote tribal lands, capturing songs by the Seminole in southern Florida, the Yuma in California, the Chippewa in Wisconsin, Quinailet songs in Northern Washington, and, of course, Mountain Chief outside the Smithsonian in Washington, D.C. Author of more than 20 books and 200 articles, she carefully preserved the rich cultural diversity of Native Americans with over 2,500 field recordings.
Why am I writing about this? Firstly, to pay homage! Secondly, because it serves as a great reminder to seek and cultivate sound outside the studio as well. We live in a time of great technological power and convenience. Every week a new sample pack, plugin, pedal, or software instrument hits the market. For all the joy that these offerings bring, they deprive us of the joy of creating our own instruments from scratch.
This month, I’m advocating for you to make some field recordings of your own—nature, urban, indoor, outdoor, specific locations, animals, or anything that piques your interest! Bring the material back to the studio and make music with it! I’ll show you how to make your own sample libraries to use in your music. Tighten up your belts, a multipart Dojo is now open.
What do you need to get started? Quite simply, you just need any device that is capable of recording. This can range from your cell phone to a dedicated field recorder. The real question is: Do you want to use mics housed in handheld units or have more robust mic pres with the ability to power larger live/studio microphones using XLR connectors found with the larger units? Let’s look at three scenarios.
The Cellular Approach
The absolute easiest way to get started is with your cell phone. Take advantage of a voice-memo recording app, or use an app that records multitrack audio like GarageBand on iOS. Phone recordings tend to sound very compressed and slightly lo-fi—which might be exactly what you want. However, the method can also introduce unwanted noise artifacts like low-end rumble (from handling the phone) and phasing (moving the mic while recording). I recommend using a tripod to hold your phone still while recording. You might also want to consider using an external mic and some software to edit your sample recordings on the phone. I like using a Koala Sampler ($4.99) on iOS devices.
Upgrade Me
The next step up is to use a portable recorder. These have much better mic pres, and offer true stereo recording with pivoting mic heads. This can give you the added benefit of controlling the width of your stereo image when recording or helping isolate two sound sources that are apart from each other. You sacrifice the ability to easily edit your recordings. You simply import them into your computer and edit the recording(s) from there.
Pro-Level Quality
I would recommend this scenario if you want to record multiple sources at once. These devices also have SMPTE time code, 60+ dB of gain, phantom power (+48 volts), advanced routing, and a 32-bit/192 kHz sampling rate, so you’ll never have a distorted recording even when the meter gets unexpectedly pegged into the red from a loud sound source. I recommend the Zoom F8n Pro ($1099). Now you can use your microphones!
Best Practices
Try to safely record as close to the sound source as you can to minimize ambient noise and really scrub through your recordings to find little snippets and sound “nuggets” that can make great material for creating your own instrument and sample library—which we’ll explore next month! Namaste.
We chat with Molly about Sister Rosetta’s “immediately impressive” playing, which blends jazz, gospel, chromaticism, and blues into an early rock ‘n’ roll style that was not only way ahead of its time but was also truly rockin’.
In the early ’60s, some of the British guitarists who would shape the direction of our instrument for decades to come all found themselves at a concert by Sister Rosetta Tharpe. What they heard from Tharpe and what made her performances so special—her sound, her energy—must have resonated. Back at home in the U.S., she was a captivating presence, wowing audiences going back to her early days in church through performing the first stadium rock ‘n’ roll concert—which was also one of her weddings—and beyond. Her guitar playing was incendiary, energetic, and a force to be reckoned with.
On this episode of 100 Guitarists, we’re joined by guitarist Molly Miller, who in addition to being a fantastic guitarist, educator, bandleader, and performing with Jason Mraz, is a bit of a Sister Rosetta scholar. We chat with Molly about Sister Rosetta’s “immediately impressive” playing, which blends jazz, gospel, chromaticism, and blues into an early rock ‘n’ roll style that was not only way ahead of its time but was also truly rockin’.
When Building Guitars—or Pursuing Anything—Go Down All the Rabbit Holes
Paul Reed Smith shows John Bohlinger how to detect the grain in a guitar-body blank, in a scene from PG’s PRS Factory Tour video.
Paul Reed Smith says being a guitar builder requires code-cracking, historical perspective, and an eclectic knowledge base. Mostly, it asks that we remain perpetual students and remain willing to become teachers.
I love to learn, and I don’t enjoy history kicking my ass. In other words, if my instrument-making predecessors—Ted McCarty, Leo Fender, Christian Martin, John Heiss, Antonio de Torres, G.B. Guadagnini, and Antonio Stradivari, to name a few—made an instrument that took my breath away when I played it, and it sounded better than what I had made, I wanted to know not just what they had done, but what they understood that I didn’t understand yet. And because it was clear to me that these masters understood some things that I didn’t, I would go down rabbit holes.
I am not a violin maker, but I’ve had my hands on some of Guadagnini’s and Stradivari’s instruments. While these instruments sounded wildly different, they had an unusual quality: the harder you plucked them the louder they got. That was enough to push me further down the rabbit hole of physics in instrument making. What made them special is a combination of deep understanding and an ability to tune the instrument and its vibrating surfaces so that it produced an extraordinary sound, full of harmonics and very little compression. It was the beginning of a document we live by at PRS Guitars called The Rules of Tone.
My art is electric and acoustic guitars, amplifiers, and speaker cabinets. So, I study bridge materials and designs, wood species and drying, tuning pegs, truss rods, pickups, finishes, neck shapes, inlays, electronics, Fender/Marshall/Dumble amp theories, schematics, parts, and overall aesthetics. I can’t tell you how much better I feel when I come to an understanding about what these masters knew, in combination with what we can manufacture in our facilities today.
One of my favorite popular beliefs is, “The reason Stradivari violins sound good is because of the sheep’s uric acid they soaked the wood in.” (I, too, have believed that to be true.) The truth is, it’s never just one thing: it’s a combination of complicated things. The problem I have is that I never hear anyone say the reason Stradivari violins sound good is because he really knew what he was doing. You don’t become a master of your craft by happenstance; you stay deeply curious and have an insatiable will to learn, apply what you learn, and progress.
“Acoustic and electric guitars, violins, drums, amplifiers, speaker cabinets–they will all talk to you if you listen.”
What’s interesting to me is, if a master passes away, everything they believed on the day they finished an instrument is still in that instrument. These acoustic and electric guitars, violins, drums, amplifiers, speaker cabinets—they will all talk to you if you listen. They will tell you what their maker believed the day they were made. In my world, you have to be a detective. I love that process.
I’ve had a chance to speak to the master himself. Leo Fender, who was not a direct teacher of mine but did teach me through his instruments, used to come by our booth at NAMM to pay his respects to the “new guitar maker.” I thought that was beautiful. I also got a chance to talk to Forrest White, who was Leo’s production manager, right before he passed away. What he wanted to know was, “How’d I do?” I said, “Forrest, you did great.” They wanted to know their careers and contributions were appreciated and would continue.
In my experience, great teachers throw a piece of meat over the fence to see if the dog will bite it. They don’t want to teach someone who doesn’t really want to learn and won’t continue their legacy and/or the art they were involved in. While I have learned so much from the masters who were gone before my time, I have also found that the best teaching is done one-on-one. Along my journey from high school bedroom to the world’s stages, I enrolled scores of teachers to help me. I didn’t justenroll them. I tackled them. I went after their knowledge and experience, which I needed for my own knowledge base to do this jack-of-all-trades job called guitar making and to lead a company without going out of business.
I’ve spent most of my career going down rabbit holes. Whether it’s wood, pickups, designs, metals, finishes, etc., I pay attention to all of it. Mostly, I’m looking backward to see how to go forward. Recently, we’ve been going more and more forward, and I can’t tell you how good that feels. For me, being a detective and learning is lifesaving for the company’s products and my own well-being.
Sometimes it takes a few days to come to what I believe. The majority of the time it’s 12 months. Occasionally, I’ll study something for a decade before I make up my mind in a strong way, and someone will then challenge that with another point of view. I’ll change my mind again, but mostly the decade decisions stick. I believe the lesson I’m hitting is “be very curious!” Find teachers. Stay a student. Become a teacher. Go down all the rabbit holes.
Featuring the SansAmp section, Reverb/Delay/Roto effects, and OMG overdrive, with new additions like a switchable Pre/Post Boost and Effect Loop. Pre-configured for the RK Killer Wail wah, this pedal offers versatile tones and unmatched flexibility.
Since the debut of the original RK5 in 2014, Richie’s needs have changed, both on and off the road. The RK5 v3 retains the same SansAmp section, Reverb/Delay/Roto section, and Richie’sSignature OMG overdrive. New features include a switchable Pre/Post Boost to beef up drive and distortion or increase the overall volume to punch up fills and solos, along with the addition of an Effect Loop. It has also been pre-configured to provide phantom power for Richie’s Tech21 Signature RK Killer Wail wah.
The all-analog SansAmp section of the RK5 focuses on clean tones within the tube amplifier sound spectrum. It includes 3-band active EQ, and Level and Drive controls. To dirty things up, you have the flexibility of using the Drive control, and the Boost function, or you can add overdrive from the OMG section. Or all three. Each method achieves different tones. The OMG section is based upon the Richie Kotzen Signature OMG pedal, which provides a wide range of overdrive, from clean to aggressive. You can add personality to a clean amp or use it for extra punch with a dirty amp tone. Controls include Drive for the overall amount of gain and overdrive and Tone with specialized voicing for adjusting the high-end and mid-range. A Fuzz switch changes the character and attack of the overdrive to a fuzz-style tone, making it thicker and woolier.
Other features include an independent foot-switchable Reverb witha choice of large and small“room sizes;” Tap Tempo Delay, which can be transformed into a rotating speaker effect; included Tech 21 Model #DC9 universal self-adjusting 9V DC power supply, with interchangeable international prong assemblies for use anywhere in the world. Anticipated availability: January 2025
For more information, please visit tech21nyc.com.