Here, ace Nashville repairman John LeVan walks you step-by-step through the setup process and shows you how to make your Strat play like a dream and ring like a bell.
Recently, one of my clients brought in an American-made 1990 Fender Strat hot-rodded with a custom pickguard, Fender-branded Schaller locking tuners, a set of Lindy Fralin single-coils, and a passive, 16-step ToneStyler tone pot. It was a workhorse guitar—and it was in desperate need of a custom setup.
Most guitars come from the store with a generic factory setup. Many players are satisfied with this, but the key to having a great guitar is to personalize the setup for your specific needs. This includes a number of details, including optimizing the instrument for your preferred string gauges, tweaking the action for your fretting and picking style, and if the guitar has a tremolo system, getting it to respond correctly to your wang-bar technique.
Strats can be tricky to set up, because many of the adjustments are interactive. In other words, when you change one element, it can affect others. In large part, this is due to the tremolo system. The trick is to approach the steps in a logical sequence, and in this article I'll explain exactly how to do this. Although your string gauges, action, and trem response may differ from those described here, the step-by-step process and the tools and techniques apply to virtually all Strat-style guitars equipped with a standard, nonlocking tremolo system and three single-coils.
So settle in for a good read as I take you through the process of setting up a Strat to play like a dream—your dream.
Project Overview
Structurally, the Corona-built Strat on my bench was in excellent condition, but my client had several special requests. First, he wanted to tune the guitar down a whole-step. Low to high, that's D–G–C–F–A–D. [This is often referred to as "D standard."]
To accommodate this dropped tuning, the owner specified a hybrid string set gauged .012, .016, .019, .032, .044, and .056. As with a typical .010 set, the bottom three strings are wound and the top three are plain. He arrived at these particular gauges by studying Ernie Ball, D'Addario, and GHS sets that were either considered jazz medium gauge or designed for dropped tunings. So, if you're considering tuning one of your solidbody electrics to D standard, these gauges are a good starting point.
He also asked for a floating tremolo, meaning he wanted to lower and raise the pitch of his strings to add gentle vibrato to chords, intervals, and single notes. He wasn't concerned about raising the pitch any more than, say, a quarter-tone—just enough to create a "shimmer." But in his initial attempts to set up this guitar himself, he ran into tuning issues caused by the trem not returning to pitch. As we'll discover in a moment, there was a reason for this. Fortunately, I was able to fix the problem, but it required some ingenuity.
Preliminary Survey
Before I grab any tools, I always ask my clients several questions about their technique. After I've completed repairs or modifications, this background info helps me dial-in the custom setup. For example, I'll ask: What tuning do you use? What styles of music do you play? What gauge strings do you use? How hard do you pick and strum, and do you play with a light, medium, or heavy fretting-hand touch? Do you use a flatpick? If so, what size and thickness? If you play fingerstyle, do you attack the strings with your nails, fingerpicks, or fingertips? Do you use a capo?
In this case, the owner had already answered the tuning and string questions, but the answers he gave to the other questions helped guide me through each stage of the setup process.
Evaluate the Guitar
The owner had already installed fresh strings, so after my initial survey I tuned it to D–G–C–F–A–D and began taking measurements. This information serves as a baseline for subsequent adjustments and also helps pinpoint any problems.
Here are the four primary measurements you want to take. Write these measurements down, so you can refer to them at any time during the setup process:
- Action at the 12th fret
- Neck relief
- Action at the 1st fret
- Intonation
Step 1: Measure the Action
1. Before measuring action and neck relief, clamp a capo over the 1st fret. This temporarily removes the nut from the action equation. 2. Using a string action gauge to measure the action at the 12th fret.
1. Tune the guitar. Usually that's standard E tuning, but as we've discussed, for this setup it was a whole-step below that.
2. Clamp a capo on top of—not behind—the 1st fret (Photo 1). This creates a "zero" fret and temporarily removes the nut from the action equation, allowing you to initially focus on neck relief (the amount of forward or backward bowing in the neck itself ) and bridge and saddle height.
3. Use a string action gauge (available from stewmac.com) or precision metal ruler to individually measure the string height at the 12th fret (Photo 2) for all six strings. The distance you're measuring lies between the bottom of the string and top of the fret.
On this Strat, the distance from the 1st string to the 12th fret was 6/64", and the 6th-string gap was also 6/64". This is very high action!
Step 2: Measure Neck Relief
It's important to determine if the neck has forward (concave) or backward (convex) bow. Along with saddle height, neck relief also affects the guitar's action. Here's the process:
1. With the capo still clamped on top of the 1st fret, hold down the 6th string at the last fret.
2. Using your action gauge or metal ruler, measure the greatest distance between the bottom of the 6th string and the top of the frets. The largest gap typically occurs somewhere between the 7th and 9th frets—essentially in the middle of the neck.
3. Measure the relief at the 1st string.
On this Strat, the relief was .022"—a little more than necessary.
Step 3: Measure Action at the 1st Fret
Photo 3 — Measuring the distance between the bottom of the 1st string and the top of the 1st fret.
Playability is also affected by how high the strings sit in their nut slots. The guitar feels stiff when the strings are too high. Conversely, if they sit too low, you'll get a buzz when you play the open strings.
1. Remove the capo and measure the distance between the bottom of the 1st string and the top of the 1st fret (Photo 3).
2. Repeat the process for all six strings. When the guitar is set up properly, the gap should incrementally increase from the 1st to the 6th string to accommodate their progressively thicker gauges.
At the 1st fret, I measured a 2/64" gap between the fret and string, and for the 6th string, the gap was just over 2/64". Again, this is rather high, especially on the treble strings. Overall, this meant I needed to slightly tighten the truss rod (i.e., turn it clockwise) to reduce neck relief, lower the bridge saddles, and re-cut the slots in the string nut.
While taking these preliminary measurements, I noticed that the custom pickguard butted up against the tremolo base plate. This prevented the tremolo from moving smoothly when tipping forward to slacken the strings. When the trem arm was depressed, the base plate would get hung up on the pickguard—that's what was causing the tuning issues the client was having with the trem! Before proceeding, I made a note that I'd have to trim the pickguard before completing the setup.
Armed with the information gathered in the previous steps, now we're ready to begin the process of adjusting the action.
Step 4: Adjust the Truss Rod
4. When tightening or loosening the truss rod to control neck relief, go slowly and make very small adjustments. 5. Because it's butting up against the tremolo base plate, the custom pickguard is obstructing trem action and needs to be removed and trimmed. 6. To prevent a screwdriver from slipping out of the screw head and scratching the finish, use your free hand to guide and secure its tip. 7. If you look closely, you'll see two indentations at the edge of the pickguard where it was pressing against the trem posts. 8. Using a mechanical pencil to mark about 1/8" of material to remove from the pickguard. 9. Scraping the pickguard to create a space between it and the trem assembly. 10. Now the trem can tilt forward without hitting the pickguard.
With the guitar strung to the client's specs and tuned to D standard, I was ready to tackle the neck relief.
1. Locate the correct tool for your guitar's truss rod (the size and type of nut can vary according to Strat model, year, and manufacturing origin) and insert it into the truss-rod nut (Photo 4).
2. Adjust the truss rod. Turn the wrench clockwise to tighten the rod and reduce forward bowing, or counterclockwise to loosen the rod and reduce back bow. Go slowly, making very small adjustments (1/8 to 1/4 a turn at a time). Check the results each time you move the rod—and be patient.
By tightening the truss rod, I reduced relief from .022" to .015". This was the proper amount of relief for the owner's playing style. Any less relief and the strings would be likely to rattle against the frets.
Earlier, I mentioned that the custom pickguard was obstructing the tremolo (Photo 5). This is one of those little "surprises" that can and will occur with any guitar. To allow the trem to tilt forward, there needs to be a small space between the trem base plate and pickguard. To create this clearance, I determined that the guard had to be trimmed by about 1/8".
The process involved removing the pickguard (Photo 6), examining the plastic to see where it was contacting the trem (Photo 7), using a mechanical pencil to mark the material I wanted to remove (Photo 8), and carefully scraping away the unwanted plastic with a precision tool (Photo 9).
For this type of job, I use stainless-steel scraper blades (available from stewmac.com) that are designed to smooth plastic bindings and contour wood surfaces. Scraping takes time and a lot of patience. If you're not confident in your ability to do this, consult an expert. Even with more than 25 years of experience, it still took me three tries to get it right. Ultimately, I was satisfied that there was sufficient space between the base plate and guard to allow the trem to tilt forward freely (Photo 10).
Step 5: Adjust the Tremolo Spring Tension
11. Adjusting the spring tension to allow the tremolo to float parallel to the body. 12. A floating trem has sufficient clearance from the body to both lower and slightly raise string pitch.
Now it's time to adjust the trem unit. I noticed the tremolo claw held five springs, and their tension was holding the bridge base flush to the body. Before going any further, I needed to adjust the springs and claw to allow the trem assembly to float. Here's the process:
1. Tune the guitar to pitch, then check the tremolo base plate to see if it's floating, flush against the body, or lifting up too much at the rear.
2. Turn the guitar over and rest it on a soft surface, such as a towel. Remove the trem cavity cover.
3. Using a medium Phillips screwdriver, equally adjust the two screws holding the claw to the guitar body (Photo 11). Loosen the claw to create more "float" on the tremolo. Tighten the screws to pull the tremolo closer to the body.
Always retune after every adjustment and check your progress frequently. This process is very painstaking and will require at least several attempts to get the trem adjusted parallel to the body with the tension the way you like it.
I removed two springs from the claw and re-aligned the two outside springs to attach toward the center of the claw. After adjusting the claw several times—and always retuning whenever I tightened or loosened the springs—I finally got the tremolo floating parallel to the body with just enough clearance to pull the tremolo up a bit and raise the pitch slightly, as the owner requested (Photo 12).
Step 6: Adjust Basic Bridge Height
13. Adjusting the overall height of the bridge to allow the trem to move up and down, while also providing enough leeway to fine-tune string action by raising or lowering the individual saddles.
Once the trem base plate was parallel to the body, my next task was to adjust the overall bridge height by raising or lowering the two screws located on either side of the bridge (Photo 13). Note: Vintage Strats or vintage-style reissues use six screws, rather than the modern two-post system, but the principle of adjusting the bridge height remains the same.
1. Tune the guitar to pitch. Then using the appropriate screwdriver (this will be a Phillips or flathead, depending on the model), adjust the bridge plate to provide enough clearance to operate the tremolo.
This is a balancing act: In the next step, you'll adjust the six saddles to set the action. But if you raise the bridge too high at this point, even with the saddles set flush against the plate, the Strat won't be playable. But if the plate is too low, the trem will hit the body as you gently raise the strings' pitch. The trick is to find the sweet spot that allows a floating trem and gives you ample room to raise or lower the saddles to get the action the way you like it.
2. After adjusting the bridge height, retune the guitar and inspect the tremolo to determine if it needs more adjustment—it probably will. Again, the goal is to keep the trem parallel to the body. Tightening the springs pulls the trem tail down toward the body, loosening them allows the tail to lift up.
Step 7: Adjust Saddle Height
14. Setting individual string height by adjusting the saddles.
Next, set the action by adjusting the height of the saddles. Saddle screws can vary, so use the wrench that came with your guitar. For this Strat, I used a .050" hex key.
1. Tune the guitar to pitch.
2. Place a capo on top of the 1st fret.
3. Measure the action at the 12th fret using an action gauge or precision metal ruler as described in Step 1.
4. Beginning with the 1st string, turn the height adjustment screws located on either side of the saddle to raise or lower the string to your preferred height (Photo 14).
For a modern Strat fretboard with a radius of 9.5"–12", such as on this guitar, official Fender specs are 4/64" for both the 1st and 6th strings. However, string height is personal, so this measurement will vary according to your technique and string gauge. After each adjustment, retune the string you're working on and re-measure the action at the 12th fret.
5. Repeat this process for each string until you have the action where you want it. The goal is to keep an even arc across all six strings that matches the radius of your particular fretboard. (Many repairmen and players eyeball this, but if you want to be precise about matching the fretboard radius, stewmac.com sells metal radius gauges designed for this purpose.)
For this guitar, I set the action at the 12th fret to 3/64" for the 1st string, graduating to 4/64" for the 6th string. These measurements are a little higher than I typically use, but the action felt comfortable to the owner and worked perfectly for his beefy .012 gauge set.
Step 8: Adjust Action at the Nut
15. Deepening the 2nd-string nut slot with a properly gauged nut file. Notice how the file angle matches the string's descending angle toward the tuner post.
Okay—we're making progress! After setting the saddle height across all six strings, we shift our attention to the nut. It's important that the string height is correct here too. When the action is too high at the nut, the strings will go sharp when you fret them and the guitar will be hard to play.
1. Remove the capo.
2. Tune the guitar.
3. Beginning with the 1st string, measure the distance between the bottom of the string and the top of the 1st fret. The height should measure 1/64" for the 1st string and graduate to 2/64" for the 6th string. Each thicker string should be slightly higher than the one before it.
4. To lower a string, you'll need to cut its slot deeper in the nut (Photo 15). For this job, use a correctly sized nut file. (Nut-slotting files are available from online suppliers, including Luthiers Mercantile, Stewart-MacDonald, and even eBay.)
Slowly cut the slot, paying very close attention to the angle of the nut file. It should match the descending angle of the string, from the face of the nut to the post where the string attaches. If you cut too shallow or too steep of an angle, the string won't seat properly in the nut, causing both tuning and sonic problems.
Make sure the string doesn't stick in the slot. It should move in and out freely without binding. If it sticks, gently roll your file from side to side in the slot to open it up. After a few passes with the file, place the string back into the slot, retune, and again measure the action at the 1st fret.
5. Repeat this process for each string with the proper nut file for each gauge.
Because our bench Strat was now equipped with heavier strings than before, I needed to widen several nuts slots, but it didn't take long to get the strings to sit where I wanted them.
Step 9: Adjust Pickup Height
Pickup height is commonly overlooked during a setup. If the pickups are adjusted too close to the strings, they can cause string rattle and intonation problems. If the pickups are too low, you'll end up with a weak signal.
Here are the measurements I use for each pickup on a Strat:
And here's my system for proper pickup adjustment:
16. Measuring the distance between the pole piece and 1st string to determine the correct height for the bridge pickup. 17. Measuring neck pickup height.
1. Fret the 1st string at the last fret. Using a 6" machinist rule, measure from the top of the corresponding pole piece on the bridge pickup to the bottom of the string (Photo 16). Adjust the pickup height by turning the screw on the treble side of the pickup.
2. Fret the 6th string at the last fret, measure, and adjust the screw on the bass side of the pickup.
3. Repeat the process for the middle and neck pickups (Photo 17).
Step 10: Adjust Intonation
18. Moving the saddle to adjust the 1st string's intonation.
Once the pickups are at proper height, it's time to adjust intonation. Note: Unless the strings are fresh—as they were on this guitar when it arrived at the shop—install a new set before going any further.
This final setup step involves moving the saddles closer to or further away from the nut. The saddle-intonation adjustment screw is located at the rear of the trem assembly. Using a small Phillips screwdriver, move each saddle forward (by turning the screw counterclockwise) or backward (clockwise) to shorten or lengthen the vibrating portion of the string (Photo 18).
1. Armed with a high-quality electronic tuner, bring each string to pitch. But this time, instead of playing an open string and tuning it, strike the 12th-fret harmonic and tune it to pitch.
2. Starting with the 1st string, play the 12th-fret harmonic and then fret and pluck the same note. If the fretted note is sharp compared to the harmonic, move the saddle away from the neck. Conversely, if the fretted note is flat, move the saddle toward the neck. Make small adjustments— and retune the harmonic each time you make an adjustment . Continue comparing the 12th-fret note to its reference harmonic until the former matches the latter.
3. Repeat this process until all the 12th-fret notes on all six strings match their corresponding 12th-fret harmonics.
Rock Out!
At this point, the setup is complete and it's time to take your Strat for a test drive. After a few days, you may find you want to adjust something, such as the trem-spring tension, pickup height, neck relief, or saddle height. And that's great—the Strat is a supremely mechanical beast that will accommodate your tweaker's urges.
But as you dive into any re-adjustments, remember that changing one thing can affect something else in the setup equation. If you find yourself chasing an adjustment or discover that you've caused your Strat to drift out of whack, put it down, take a deep breath, and review the 10-step setup process outlined in this article. You can always start back at the beginning and confirm each adjustment as you move through the list.
In time, you'll develop a sixth sense for how all the elements interact, and this knowledge will allow you to continue to fine-tune your Strat for ultimate playability and tone. It's a skill worth developing!
[Updated 8/23/21]
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This amp with tone and headroom to space proves that sometimes the best gear isn’t the most expensive or admired.
I’ve been wanting to tell you about the beautiful 1966 Twin Reverb I owned for 30 years. It was a find. I bought it for about $400, including a flight case, in the late ’80s, when I started to play in clubs and felt the need for more volume and headroom. I knew it was old, but had no idea that it was a ’66 until I brought it to the shop to have the pots replaced, caps tested, and a general check-up.
Until then, I had never heard of Fender’s “transitional era,” the time from roughly late 1964 to early 1966 when Fender Musical Instruments’ ownership passed from Leo Fender to CBS. “Too bad it’s not a ’65,” several other players told me when I shared the story of my acquisition. “In ’65, Fender made really great Twins. The CBS stuff is hit-or-miss.” As far as I was concerned, my Twin was a hit. It could punch through my band’s wall of sound and took to pedals wonderfully, yielding all kinds of gnarly noises with a Tube Screamer and a RAT, and creating open, spectral spaces with a DigiTech PDS 1000 delay and Boss CE-2 Chorus. Eventually I paired it with a 50-watt Marshall Super Lead and a channel switcher, so I could have the best of both classic-tone worlds. (Yes, I threw my back out a lot in the ’90s.)
I’m good at ignoring gear snobs, but given how great this Twin was for recording and gigs, I was puzzled by its second-class status. It was only after an onstage mishap that I learned there was more to this amp than my cork-sniffing friends knew. One night, mid-gig, my Twin simply went silent. I learned that the output transformer had blown. Bad caps? An overload? I dunno. But when I took it to my local amp resurrectionist, he started probing around inside and informed me that my Twin was essentially a ’65 in ’66 clothing—right down to the Fender Musical Instruments lettering on its black panel. All the components—including the factory-installed JBL D120F speakers—were the same as he’d seen in most ’65s he’d worked on, and he told me that during the transitional era, many of Fender’s products were made exactly as they’d always been. It was only after the CBS ownership was firmly established that the company shifted to a more cost-conscious style of mass production, with resulting compromises in quality. (In 1985, Fender employees bought the company and restored its reputation.) I felt like I’d lucked out a second time.
At 85 watts and two channels, any Twin is a monster tube amp, and it’s hard to imagine just how loud and clean one can get unless you’ve opened a Twin up all the way. (I only did that once, just to see what it could do, and regretted the ringing it left in my ears for days.) With tremolo and the reverb that defined what the word means in a Fender, the Twin is the sound you’ve heard and loved on myriad classic rock, jazz, blues, and R&B records. I confess that I’m no longer sure what replacement transformer my amp tech installed, but the sound remained the same.
Like it says, “Fender Musical Instruments.”
“I’m good at ignoring gear snobs, but given how great this Twin was for recording and gigs, I was puzzled by its second-class status.”
Since I’ve always had a player’s, rather than a collector’s, mentality, eventually I did alter the amp to fit my shifting tastes. I needed to replace the caps at some point, and when a speaker burned out, I put Celestions in both slots—a 30- and a 35-watt, because mixed-wattage speakers were kind of a trend at the time, so I figured I’d try it. The amp still had an absurd amount of headroom, but just a little grit, which is what I was looking for. I last used it for recording an early ’70s psychedelic-rock tone for an album I was working on in 2017, and just before the pandemic I sold it for $1,500. In the case, it came close to 90 pounds, and I just didn’t want to cart it around anymore. If it was a mint ’65, the asking price would have been around $5,000, but I felt I'd gotten more than my money’s worth.
The moral to this yarn is simple: Don’t turn your nose up at gear that doesn’t fit a trope, because you might be pleasantly surprised. Also, if it sounds great and does the job for you, what else really matters? It’s good stuff! Now, are you ready for the story of the ’68 factory-painted cherry sunburst Les Paul Standard I picked up for $650?
These pedals are designed with fast response times, versatile routing options, and durable construction.
ISP Technologies has introduced the latest generation of their pioneering noise reduction products: the Decimator X Pedal Series for guitarists and bassists.
Building upon the legacy of ISP’s earlier Decimator pedals, the new Decimator X models utilize cutting-edge patented circuitry to get rid of unwanted noise and 60-cycle hum, effectively eliminating even the most stubborn background noise.
The pedals offer lightning-fast response times and ultra-smooth decay with enhanced tracking technology. If you’re playing staccato, with or without pauses, or if you desire a nice long decay, this technology allows for a natural sound and feel. You can preserve the integrity of your tone, even during fast-paced passages and intricate playing.
Whether you’re running a complex pedalboard setup or keeping it simple, the Decimator X pedals offer versatile routing options to suit your needs. With flexible input and output configurations, you can easily integrate the pedals into any rig, ensuring maximum compatibility and convenience.
ISP offers two variations of the pedal depending on your routing needs. The standard Decimator Xsimply has an IN and OUT jack. You place this pedal in your rig after your gain or noise-prone pedals. The THRESHOLD control is set based on the noise coming into the IN jack.
The Decimator X G-String provides 4 jacks: GUITAR IN, GUITAR OUT, DECIMATOR IN, and DECIMATOROUT. This provides a direct connection from the GUITAR and the direct GUITAR signal is used to control the block of DECIMATOR noise reduction. This allows you to insert your noisy pedals between GUITAROUT and DECIMATOR IN, but the DECIMATOR noise reduction is controlled by the direct GUITAR signal at the GUITAR IN. This configuration offers an important advantage: you can switch from extreme high gain to crunch or clean and never need to re-adjust the threshold control on the pedal, because the direct guitar signal is used to control the noise reduction block.
Built like a tank, the X pedals are housed in a durable enclosure, designed to withstand the demands of the gigging musician and provide reliable performance night after night. Both pedals have a battery compartment for a 9-volt battery and provide a 5.5mm barrel connector for use with a standard external 9-volt DC power adaptor. The new Decimator X carries a $146.72 street price; the Decimator X G-string carries a $236.42 street price.
For further information visit isptechnologies.com.
Chris Martin gives readers some key reminders about choosing and maintaining their acoustic guitar strings.
At Martin, we as builders and players understand the impact that guitar strings can have on the tone, playability, and longevity of our instruments. No matter how long you’ve been playing, selecting the right set of strings and properly caring for them can significantly enhance your experience with your guitar.
We’ve been making our own strings for over 50 years now, and the same attention to detail that goes into our guitars goes into our strings. From choosing the right gauge to understanding oxidation and string maintenance, we get a lot of questions from players—and we know a thing or two. So, let’s dive in.
Why Guitar Strings Matter
The right strings can really make a difference in how you play, inspiring confidence, creativity, and a deeper connection to your music. They’re what helps this combination of wood and wire truly sing.
An acoustic guitar is a finely tuned instrument, ready to resonate with the slightest touch. Now, imagine one outfitted with old, worn-out strings—dull and lifeless, lacking in tone. The difference is undeniable.
What Happens to Strings Over Time
Strings tend to lose their high-end response over time. According to the experts on our product and research and development teams, this degradation is mostly due to oxidation and the accumulation of foreign material, like sweat and grime, in the windings—factors that lead to acoustic dampening.
Oxidation, simply put, is the surface reaction of metal with oxygen in the surrounding air. This process, often referred to as corrosion, is further accelerated by sweat and oil. This corrosion adds or removes mass, leading to intonation issues, string breakage, and a tonally dampened sound.
Microfractures can also form in the core wire, as it takes the brunt of the overall string tension. If these fractures continue, the string can ultimately fail.
When the strings start to sound bad or simply fail, there’s an easy solution: put on a fresh set.
Choosing the Right String Gauge
First up, you’ll have to choose your strings’ gauge, which refers to the diameter or thickness of the strings—something that affects both playability and tone.
When it comes to acoustic guitar, heavier-gauge strings are great for more amplitude and down-tuning, typically used on larger-bodied guitars like dreadnoughts and jumbos. Lighter-gauge strings are meant for faster playing or easier fretting, and are usually recommended for smaller guitars, like concert and auditorium models.
For fingerstyle players, lighter-gauge strings are generally the preferred choice. The lighter tension allows for more delicate and nuanced playing, which is essential for that type of attack. But there are exceptions. For instance, premier fingerpicker Tommy Emmanuel plays with our Authentic Acoustic Flexible Core strings, which have a slightly smaller core wire, making them hyper-playable despite being slightly heavier.
For strumming and picking with a pick, players often prefer heavier-gauge strings due to their robustness and ability to produce a fuller sound. These strings are ideal for styles that require strong, consistent picking and strumming.
Coated vs. Treated Strings
Coated and treated strings represent two innovative approaches to extending string life while maintaining tone. Coated strings feature a polymer coating that acts like a protective barrier around the strings, shielding them from sweat, dirt, and oils. They’re an excellent option for players seeking long-lasting, low-maintenance strings with a consistent, polished feel.
Treated strings, like our Authentic Acoustic Lifespan 2.0 strings, receive a unique chemical treatment at a molecular level rather than a physical coating on the strings. This process preserves the strings’ natural, authentic tone and playability while also delivering improved longevity compared to standard strings.
When choosing between coated and treated strings, a player’s choice often depends on their preference for feel and durability. Coated strings are usually favored by players who appreciate the slicker, smoother feel provided by the protective coating. Treated strings cater to those who prefer a more natural, traditional feel like uncoated strings.
Caring for Your Guitar Strings
Proper string care is essential to preserving your guitar’s tone and playability. Even something as simple as using a soft cloth to wipe down your strings before and after you play can help them last longer, removing the moisture and grime that build up over time. Visible signs like unwinding or kinks also mean it’s time for a change.
But no matter how well you take care of your strings, you’ll need to change them at some point to get the most out of your guitar. As strings age, they lose tone, develop tuning issues, and accumulate rust.
Experiment and Explore
The world of guitar strings is as diverse as the music it helps create. Finding your perfect set can help develop the signature sound you’ve been searching for. Explore the many options available, experiment with different gauges and materials, and discover the perfect match for your unique voice
Does the guitar’s design encourage sonic exploration more than sight reading?
A popular song between 1910 and 1920 would usually sell millions of copies of sheet music annually. The world population was roughly 25 percent of what it is today, so imagine those sales would be four or five times larger in an alternate-reality 2024. My father is 88, but even with his generation, friends and family would routinely gather around a piano and play and sing their way through a stack of songbooks. (This still happens at my dad’s house every time I’m there.)
Back in their day, recordings of music were a way to promote sheet music. Labels released recordings only after sheet-music sales slowed down on a particular song. That means that until recently, a large section of society not only knew how to read music well, but they did it often—not as often as we stare at our phones, but it was a primary part of home entertainment. By today’s standards, written music feels like a dead language. Music is probably the most common language on Earth, yet I bet it has the highest illiteracy rate.
As a lifelong professional musician, it’s surprising—and, frankly, a relief—how infrequently I read staff music. Though I read chord or Nashville number charts often, staff rarely comes up, usually only in sessions where a producer/writer/artist has a particular melody or gang riff. I feel a deep shame when I have to read music; I do it about as well as an out-of-shape guy with no training runs a marathon: slowly, painfully, maybe not making it to the finish line.
I learned everything I know about reading through junior high school orchestra, where I was a crappy violinist. So, you can chalk one up to the Montana public school system. Although at times I’m ashamed of my poor music-reading skills, it’s not that big of a deal. When I’m faced with a written staff full of sharps and flats and weird time, I just ask the keyboard player to play the tricky parts slowly. If there’s one player in the band that can read well, it’s usually keys; they mostly grew up with formal lessons. If I hear piano play the part while I read along, the dots and squiggles on the staff start to make sense.
“By today’s standards, written music feels like a dead language.”
I bet most guitar players feel conflicted about reading music. We all want to learn as much as we can about guitar, and obviously some of that information is going to escape us if we can’t read it, even with tabs and guitar-nerd videos just a few clicks away. But maybe our lack of formal training is the source of our superpower. I suspect that the reason guitar has been the driving force behind most popular music for the past 65 years is because the instrument invites exploration. The more you mess with it, the more you discover. That’s the addictive quality of guitar. That’s probably why most guitar players would rather make stuff up than read what somebody else wants them to play. When you have that many people experimenting and creating, art takes a big step forward.
By contrast, classical musicians are not about innovation or taking chances. They are more about interpretation, virtuosity, and a reverence for tradition. The majority of classical music played today was composed in 1600 to 1875. New, experimental classical music is a hard sell. People want to hear the classics, like Bach, Beethoven, and Mozart.
It’s a strange dichotomy: classical players tune by ear but almost never play by ear. Ask a seasoned orchestra player to improvise and most of them will get a little panicky.
Guitarist: Let’s jam in E.
Orchestra Nerd: What do you mean?
Guitarist: I’ll play something, you play with it. Just make up a melody.
Orchestra Nerd: What melody?
Guitarist: Just make one up?
Orchestra Nerd: What do you mean?
It goes on like that until they nervously decline.
Guitarists are, for the most part, fearless about exploration. Just look at the instrument itself. Most violins built anywhere in the world today look pretty much like the ones built in the 16th century in Italy. By contrast, guitar designs are as varied as car designs—maybe more so. Go into a big music store and you can play a gut-string, flattop, archtop, Les Paul, Tele, Strat, Jaguars, PRS, Flying V, Explorer … and that’s not even getting into the weird ones. Eddie Van Halen could not find a guitar that could produce the music in his head, so he built it. The point is, guitar is an instrument of improvisation—no rules in how you play it or how you build it.
Maybe this is just a way of justifying my shortcomings or making the most of my laziness or lack of brainpower, but I think there’s an upside to being musically illiterate. As the mighty EVH said: “You only have 12 notes, do what you want with them.”