Believe it or not, on eight out of 10 guitars with tuning problems, the culprit is usually bad strings or the exotic ways they were installed. Here are some ways to combat these issues.
Welcome back to Mod Garage. I’ve wanted to cover this topic for a long time, but to be honest, I didn’t dare because it seems so trivial. I’m sure a lot of you already have a natural routine to assess tuning, but I receive guitars daily for repairs, and enhancing tuning stability is something I hear about a lot—on electric as well as acoustic guitars. There are many reasons why a guitar has problems staying in tune, but today we’ll discuss the simplest one: the strings.
A column about strings? Now he’s crazy, you might say. Believe it or not, on eight out of 10 guitars with tuning problems, it turns out this is caused by the strings themselves and/or the way the strings were installed. For some guitars, the nut or the saddle/tremolo is causing problems; others have problems with the tuners or worn-out bridge pins on acoustic guitars, string trees, etc. But bad strings and exotic ways to install them are reason No. 1 for tuning problems. Let’s have a deeper look into what happens here and what can be done.
“The more windings you have on your posts, the greater the chance for tuning problems.”
Over the years I’ve seen the craziest things people do with their strings. Here are some simple guidelines for you to combat tuning problems, whether it’s an electric or acoustic guitar, or if it has steel or nylon strings.
Possible Problem No. 1: The Strings Themselves
You all know this “problem” when setting up new strings on a guitar: After getting them in tune and playing for a minute, you need to tune them again, and this will last for some time, depending on the material of the strings. This is normal when strings are getting stretched for the first time; they’ll stay in tune after they’ve settled. Here are some hints to get around this:
1. Stretching the strings several times after setting them up by simply pulling them upwards with your hands will speed up this process noticeably. There are also tools for this called string stretchers, but you can simply do it with your hands. This is called pre-stretching and is very simple to do. As a rule of thumb, steel strings will settle sooner than nylon strings.
2. A customer bought “pre-stretched strings” and brought them in so I could try a set of these in the shop. I could notice no difference other than the price, but I wanted to mention that such sets exist.
3. Cryogenic-treated string sets may stay in tune faster right from the start. This treatment is widely used to remove tension, especially out of metal parts—like on high-precision components for racing engines. This might work on steel strings, but I have my doubts that it will work on nylon strings. Funny enough, I’ve never read about tuning improvement on any cryogenic-treated string set, but a lot is mentioned about how good they sound, how long they will last, etc. It’s up to you if these strings sound any different from other string sets. Give it a try. In time, each string set should stay in tune without any problems, no matter what method you use to speed things up.
“Cryogenic-treated string sets may stay in tune faster right from the start.”
Some time ago, I had a British-made Burns guitar from the ’60s on the workbench that was still equipped with the original flatwound string set it came with from the factory. These strings were perfectly in tune after almost 60 years. If the strings aren’t damaged, there should be no problem. A problem I regularly see is that completely new string sets have a rotten egg under the hood, caused by problems during manufacturing. From my experience, it’s mostly steel strings of certain brands and very often the G string, but I’ve also had bad D and B strings out of the box. With such strings, no matter what you try, you can’t get them in tune, and you’ll see they have an unnatural pattern of movement. I have no idea what causes this problem during manufacturing, but just keep this in mind if you run into tuning issues with a new set of strings. The solution is simple: Replace the bad string or the whole set with a new one.
Possible Problem No. 2: The More, the Merrier
Many people think it’s right and important to wind up the complete string length so it can stay in tune better because of the many windings, adding stability (Photo 1). Exactly the opposite is true. The more windings you have on your post, the greater the chance for tuning problems. Getting as few windings as possible on the post is the way to go. Have a look at a locking tuner. They have zero windings on the post for the best possible tuning stability. We’ll talk about how to do this in a minute. The best and funniest statement I’ve heard over the years was from a customer, when I tried to explain that it’s not a good idea to wind up the complete string length. He explained he’ll continue doing this because the manufacturer has good reasons to choose this length. I suppose somebody must do whatever makes somebody happy.
Possible Problem No. 3: Loose Tuners
Whenever you change your strings, make sure all screws and hex nuts from your tuners are tight. With a loose and moving tuner you’ll not only have tuning problems, but it’s also a common source for strange noises you can even hear in the amplified tone of a guitar. Sounds trivial but it’s important.
Possible Problem No. 4: Improper String Installation
This is by far the most common problem, and everyone has their own way of stringing up guitars. Some are superior to others. I don’t say my method I use in the shop is the best and only way that works. But over the years I tried a lot of different methods and the one I want to show and recommend to you is the best-working one for me. It incorporates what we just talked about: putting the least windings possible on the post for maximum tuning stability, mimicking the way a locking tuner works. This works on all standard tuners and is very easy to learn, so give it a try.
If you don’t want to compromise, there is no way around using locking tuners on your guitar. But if locking tuners are 10/10, the winding method that follows is 8.5/10, which is not bad at all.
I’m showing the winding method on an acoustic guitar with a 3/3 tuner configuration, but it also works with a 6L or 6R tuner configuration. It won’t work with the ’50s vintage Kluson types you often see on Stratocasters and Telecasters because there is no string hole on the post other than the one on top.
1. Position the post of the tuner so the string hole will be in line with the corresponding string slot for a string on the nut.
Photo 2
2. Guide the string through the string hole of the post and leave only a little slack. As a guideline, if you can put the fingers of your right hand underneath the strings, that’s enough. Now, use a finger of your right hand and lock the string after the nut, leaving a little slack lying on the fretboard (Photo 2). I like to snip off a good portion of the rest of the string at this point, to make the following process easier. But you can also leave it full length until you’re finished—whatever you like best.
Photo 3
3. Bend the rest of the string around the post sharply so it will form a “V.” Don’t forget to still keep the string locked with a finger (Photo 3).
Photo 4
4. Next, put the rest of the string underneath the string, pressing it firmly against the post, still locking the string with your finger, and bend it over the string (Photo 4 and Photo 5).
Photo 5
5. Tune up your string and release the finger you used to lock the string. You’ll only need a very small movement of the tuner to get the string up to tune, so this is something you’ll have to get used to. Cut off the rest of the string and you’re done (Photo 6).
Photo 6
On a 6-in-line tuner configuration, you can proceed with the other strings as shown. With a 3/3 configuration, you’ll have to mirror the process with the G, B, and high-E string. The rule of thumb is the rest of the string is always bent towards the middle of the headstock to create the “V.”
It’s very simple to do and very effective. It’s also important to lock the string with your finger during the whole process until it’s up to tune.
When you have a guitar that won’t stay in tune, chances are good that this is all you need to do. If this doesn’t help, at least you did everything that could be done before consulting your local luthier. And your luthier will be impressed about your troubleshooting, for sure. It will save them some time troubleshooting and it’ll save you some bucks, too.
Next month we’ll finally finish our DIY relic’ing project, so stay tuned.
Until then ... keep on modding!
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Intermediate
Intermediate
• Learn classic turnarounds.
• Add depth and interest to common progressions.
• Stretch out harmonically with hip substitutions.
Get back to center in musical and ear-catching ways.
A turnaround chord progression has one mission: It allows the music to continue seamlessly back to the beginning of the form while reinforcing the key center in a musically interesting way. Consider the last four measures of a 12-bar blues in F, where the bare-bones harmony would be C7-Bb7-F7-F7 (one chord per measure). With no turn around in the last two measures, you would go back to the top of the form, landing on another F7. That’s a lot of F7, both at the end of the form, and then again in the first four bars of the blues. Without a turnaround, you run the risk of obscuring the form of the song. It would be like writing a novel without using paragraphs or punctuation.
The most common turnaround is the I-VI-ii-V chord progression, which can be applied to the end of the blues and is frequently used when playing jazz standards. Our first four turnarounds are based on this chord progression. Furthermore, by using substitutions and chord quality changes, you get more mileage out of the I-VI-ii-V without changing the basic functionality of the turnaround itself. The second group of four turnarounds features unique progressions that have been borrowed from songs or were created from a theoretical idea.
In each example, I added extensions and alterations to each chord and stayed away from the pure R-3-5-7 voicings. This will give each chord sequence more color and interesting voice leading. Each turnaround has a companion solo line that reflects the sound of the changes. Shell voicings (root, 3rd, 7th) are played underneath so that the line carries the sound of the written chord changes, making it easier to hear the sound of the extensions and alterations. All examples are in the key of C. Let’s hit it.
The first turnaround is the tried and true I-VI-ii-V progression, played as Cmaj7-A7-Dm7-G7. Ex. 1 begins with C6/9, to A7(#5), to Dm9, to G7(#5), and resolves to Cmaj7(#11). By using these extensions and alterations, I get a smoother, mostly chromatic melodic line at the top of the chord progression.
Ex. 2 shows one possible line that you can create. As for scale choices, I used C major pentatonic over C6/9, A whole tone for A7(#5), D Dorian for Dm9, G whole tone for G7(#5), and C Lydian for Cmaj7(#11) to get a more modern sound.
The next turnaround is the iii-VI-ii-V progression, played as Em7-A7-Dm7-G7 where the Em7 is substituted for Cmaj7. The more elaborate version in Ex. 3 shows Em9 to A7(#9)/C#, to Dm6/9, to G9/B, resolving to Cmaj7(add6). A common way to substitute chords is to use the diatonic chord that is a 3rd above the written chord. So, to sub out the I chord (Cmaj7) you would use the iii chord (Em7). By spelling Cmaj7 = C-E-G-B and Em7 = E-G-B-D, you can see that these two chords have three notes in common, and will sound similar over the fundamental bass note, C. The dominant 7ths are in first inversion, but serve the same function while having a more interesting bass line.
The line in Ex. 4 uses E Dorian over Em9, A half-whole diminished over A7(#9)/C#, D Dorian over Dm6/9, G Mixolydian over G9/B, and C major pentatonic over Cmaj7(add6). The chord qualities we deal with most are major 7, dominant 7, and minor 7. A quality change is just that… changing the quality of the written chord to another one. You could take a major 7 and change it to a dominant 7, or even a minor 7. Hence the III-VI-II-V turnaround, where the III and the VI have both been changed to a dominant 7, and the basic changes would be E7-A7-D7-G7.
See Ex. 5, where E7(b9) moves to A7(#11), to D7(#9) to G7(#5) to Cmaj9. My scale choices for the line in Ex. 6 are E half-whole diminished over E7(#9), A Lydian Dominant for A7(#11), D half-whole diminished for D7(#9), G whole tone for G7(#5), and C Ionian for Cmaj9.
Ex. 7 is last example in the I-VI-ii-V category. Here, the VI and V are replaced with their tritone substitutes. Specifically, A7 is replaced with Eb7, and G7 is replaced with Db7, and the basic progression becomes Cmaj7-Eb7-Dm7-Db7. Instead of altering the tritone subs, I used a suspended 4th sound that helped to achieve a diatonic, step-wise melody in the top voice of the chord progression.
The usual scales can be found an Ex. 8, where are use a C major pentatonic over C6/9, Eb Mixolydian over Eb7sus4, D Dorian over Dm11, Db Mixolydian over Db7sus4, and once again, C Lydian over Cmaj7(#11). You might notice that the shapes created by the two Mixolydian modes look eerily similar to minor pentatonic shapes. That is by design, since a Bb minor pentatonic contains the notes of an Eb7sus4 chord. Similarly, you would use an Ab minor pentatonic for Db7sus4.
The next four turnarounds are not based on the I-VI-ii-V chord progression, but have been adapted from other songs or theoretical ideas. Ex. 9 is called the “Backdoor” turnaround, and uses a iv-bVII-I chord progression, played as Fm7-Bb7-Cmaj7. In order to keep the two-bar phrase intact, a full measure of C precedes the actual turnaround. I was able to compose a descending whole-step melodic line in the top voice by using Cmaj13 and Cadd9/E in the first bar, Fm6 and Ab/Bb in the second bar, and then resolving to G/C. The slash chords have a more open sound, and are being used as substitutes for the original changes. They have the same function, and they share notes with their full 7th chord counterparts.
Creating the line in Ex. 10 is no more complicated than the other examples since the function of the chords determines which mode or scale to use. The first measure employs the C Ionian mode over the two Cmaj chord sounds. F Dorian is used over Fm6 in bar two. Since Ab/Bb is a substitute for Bb7, I used Bb Mixolydian. In the last measure, C Ionian is used over the top of G/C.
The progression in Ex. 11 is the called the “Lady Bird” turnaround because it is lifted verbatim from the Tadd Dameron song of the same name. It is a I-bIII-bVI-bII chord progression usually played as Cmaj7-Eb7-Abmaj7-Db7. Depending on the recording or the book that you check out, there are slight variations in the last chord but Db7 seems to be the most used. Dressing up this progression, I started with a different G/C voicing, to Eb9(#11), to Eb/Ab (subbing for Abmaj7), to Db9(#11), resolving to C(add#11). In this example, the slash chords are functioning as major seventh chords.
As a result, my scale choices for the line in Ex. 12 are C Ionian over G/C, Eb Lydian Dominant over Eb9(#11), Ab Ionian over Eb/Ab, Db Lydian Dominant over Db9(#11), and C Lydian over C(add#11).
The progression in Ex. 13 is called an “equal interval” turnaround, where the interval between the chords is the same in each measure. Here, the interval is a descending major 3rd that creates a I-bVI-IV-bII sequence, played as Cmaj7-Abmaj7-Fmaj7-Dbmaj7, and will resolve a half-step down to Cmaj7 at the top of the form. Since the interval structure and chord type is the same in both measures, it’s easy to plane sets of voicings up or down the neck. I chose to plane up the neck by using G/C to Abmaj13, then C/F to Dbmaj13, resolving on Cmaj7/E.
The line in Ex. 14 was composed by using the notes of the triad for the slash chord and the Lydian mode for the maj13 chords. For G/C, the notes of the G triad (G-B-D) were used to get an angular line that moves to Ab Lydian over Abmaj13. In the next measure, C/F is represented by the notes of the C triad (C-E-G) along with the root note, F. Db Lydian was used over Dbmaj13, finally resolving to C Ionian over Cmaj7/E. Since this chord progression is not considered “functional” and all the chord sounds are essentially the same, you could use Lydian over each chord as a way to tie the sound of the line together. So, use C Lydian, Ab Lydian, F Lydian, Db Lydian, resolving back to C Lydian.
The last example is the “Radiohead” turnaround since it is based off the chord progression from their song “Creep.” This would be a I-III-IV-iv progression, and played Cmaj7-E7-Fmaj7-Fm7. Dressing this one up, I use a couple of voicings that had an hourglass shape, where close intervals were in the middle of the stack.
In Ex. 15 C6/9 moves to E7(#5), then to Fmaj13, to Fm6 and resolving to G/C. Another potential name for the Fmaj13 would be Fmaj7(add6) since the note D is within the first octave. This chord would function the same way, regardless of which name you used.
Soloing over this progression in Ex. 16, I used the C major pentatonic over C6/9, E whole tone over E7(#5), F Lydian over Fmaj13, and F Dorian over Fm6. Again, for G/C, the notes of the G triad were used with the note E, the 3rd of a Cmaj7 chord.
The main thing to remember about the I-VI-ii-V turnaround is that it is very adaptable. If you learn how to use extensions and alterations, chord substitutions, and quality changes, you can create some fairly unique chord progressions. It may seem like there are many different turnarounds, but they’re really just an adaptation of the basic I-VI-ii-V progression.
Regarding other types of turnarounds, see if you can steal a short chord progression from a pop tune and make it work. Or, experiment with other types of intervals that would move the chord changes further apart, or even closer together. Could you create a turnaround that uses all minor seventh chords? There are plenty of crazy ideas out there to work with, and if it sounds good to you, use it!
Fuchs Audio introduces the ODH Hybrid amp, featuring a True High Voltage all-tube preamp and Ice Power module for high-powered tones in a compact size. With D-Style overdrive, Spin reverb, and versatile controls, the ODH offers exceptional tone shaping and flexibility at an affordable price point.
Fuchs Audio has introduced their latest amp the ODH © Hybrid. Assembled in USA.
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Jackson Guitars announces its first female signature artist model, the Pro Series Signature Diamond Rowe guitar.
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Diamond Rowe is the co-founder and lead guitarist for the metal/hard rock band Tetrarch. Since co-founding the band in high school, Tetrarch has become one of the most talked about up-and-coming bands in the world - with several press outlets such as Metal Hammer, Kerrang, Revolver, Guitar World and many others boldly naming Diamond Rowe the world’s next guitar hero. Tetrarch has connected with many fans while performing on some of the world's biggest stages garnering spots alongside several of the heavy music world’s biggest names such as Guns N’ Roses, Slipknot, Lamb of God, Disturbed, Avenged Sevenfold, Sevendust, Rob Zombie, Trivium, and many many others. The Jackson Pro Series Signature Diamond Rowe DR12MG EVTN6 is based on Jackson’s single-cut Monarkh platform and is a premium guitar designed for progressive metal players seeking precision and accuracy.
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To showcase the Pro Plus Signature Diamond Rowe DR12MG EVTN6, Diamond shares her journey as a guitarist, delving into the inspiration behind her unique design specifications and the influential artists who shaped her sound within a captivating demo video. This video prominently features powerful performances of Tetrarch’s latest release, “Live Not Fantasize,” and “I’m Not Right” showcasing the DR12MG EVTN6’s unparalleled tonal versatility and performance capabilities.
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