Vintage-style, straight-bar saddles will never intonate properly—we find a way to fix this issue that doesn’t involve replacing the entire bridge.
One of my clients recently brought me a fascinating guitar to work on (Fig. 1). It's a 1993 Japanese custom-shop Fender Telecaster that screams “1962-Tele-meets-Nascar." This Tele is in excellent condition and plays great, but not in tune. The bridge has three vintage-style, straight-bar saddles. Unfortunately, these saddles will never intonate properly (and they never did back in the day), so I need to find a way to fix this intonation issue that doesn't involve replacing the entire bridge.
Fortunately, several vendors make "tilt-compensated" saddles that are perfect for this Tele. (Searching eBay or visiting websites for custom part-makers like Joe Barden or Callaham Guitars, or going to vendors like stewmac.com and allparts.com will yield a number of options for tilt-compensated saddles.) Let's see what's involved with retrofitting a Tele with this type of saddle.
Project overview.
With its cool custom paint job, this 1962 reissue looks sharp. But by today's standards, a Tele is simply not gig-worthy if you can't intonate it.
Here's the problem:
Fig. 2: This guitar came from the factory with period-correct straight-bar saddles. Unfortunately, such saddles are impossible to intonate accurately.
Two strings share each of the three straight-bar bridge saddles (Fig. 2). If you correctly intonate one of the strings in each of the pairs, this puts the other string way out of tune. The end result? Three strings are intonated and three aren't. Typically, the best-case scenario is to average the two strings on each saddle, but the strings are always more out of tune than with a correctly adjusted 6-saddle Tele bridge.
Fig. 3: These brass "tilt-compensated" saddles offer improved intonation while preserving the characteristic tone of a three-saddle Tele.
But many Tele freaks prefer the tone of a classic 3-saddle bridge (why it sounds different from the 6-saddle bridge is another discussion), so rather than replace the entire assembly, enterprising players developed the tilt-compensated scheme (Fig. 3). This allows for accurate intonation without losing the snap and twang of a classic 3-saddle bridge.
If you have a guitar with a 3-saddle bridge, you can replace the straight-bar saddles with a tilt-compensated set and have the best of both worlds. It sounds simple, right? Hey, let's just swap out a few saddles. Believe it or not, there's a lot more to it.
Getting started.
Before doing any work on a guitar, it's important to take measurements. These will help you determine if you need to make any necessary setup adjustments to the guitar you're about to modify.
After tuning the guitar to pitch, I always check three crucial things:
- The action at the 12th fret.
- The amount of relief in the neck.
- The action at the string nut.
In this case, all the measurements looked spot on. Moving from the 1st to 6th string, the 12th-fret action measured 3/64" x 4/64". The neck relief was .012" and the action at the 1st fret was 1/64" x 2/64", again moving from the 1st to 6th string. [To review the setup process for an electric guitar, see How to Set Up a Fender Stratocaster. The same basic principles apply for setting up a Telecaster.]
After taking these measurements, remove the strings and the bridge saddles. Once the saddles are off, compare them to the new tilt-compensated saddles to see if the height of the new saddles will match up.
On this Tele, the new saddles appeared to be a little taller for the two E strings—strings 1 and 6—but otherwise they matched the height of the old saddles. So I installed the new saddles and tuned the Tele to pitch, and once again took the above three measurements.
Fig. 4: With the tilt-compensated saddle, the 6th string sits too high on this guitar, even with the height-adjustment screw backed out all the way.
Overall, the action was pretty close, but the two E strings were just a little too high (about 1/64" too high), even with the height adjustment screws backed all the way out for both E strings (Fig. 4 and Fig. 5).
Fig. 5: Like the 6th string, the 1st string sits too high.
There is only one cure for this—remove the offending saddles and mill them down underneath.
Milling the saddles.
Fig. 6: When a barrel saddle sits too high in the bridge assembly, you need to remove some material from its underside. Here the saddle sits in a vise, protected by leather pads. Once it's secured, you can scribe a guideline in the end of the saddle to indicate how much brass (in this case, 1/32") needs to be milled away from the bottom.
I determined the saddles needed to be lowered 1/32" below the 1st and 6th strings. Removing this much will allow for additional adjustment in the event my client wants to lower the action more than 1/64".
I put the saddle in a vice that's equipped with leather pads on the jaws to prevent the saddle from being scratched. Then I measured 1/32" from the bottom of the saddle, and used a scribe to mark this distance. This mark tells me how far to mill the saddle (Fig. 6).
You can mill a saddle by hand on a flat surface using 80-grit sandpaper or alternatively on a belt sander or grinder. If you opt for a belt sander or a grinder, be extremely careful. All it takes is one slip and the saddle is ruined. At best, if the saddle slips out of your fingers, it will launch across the room.
Fig. 7: A saddle in the process of being milled on a flat surface that's covered with self-adhesive, 80-grit sandpaper.
That's why I prefer to do this job by hand on a flat surface. It takes a lot longer this way, but you have much more control over the saddle, and to me, that's worth it. Fig. 7 shows the underside of a saddle in the process of being milled on a flat surface.
With saddles milled, the next step is to install them and tune the guitar to pitch. With the new saddles installed, the action looked great. Now the process of adjusting the string spacing begins.
Adjusting string spacing.
Fig. 8: Measuring the distance between the 1st string and fretboard edge.
Spacing the strings is rather tedious, but it's critical for playability. On the new tilt-compensated saddles, the strings sit on a rounded surface. To prevent the strings from sliding sideways, you need to file grooves into the saddles—one groove for each string. In addition to holding the strings securely, these grooves also ensure proper and consistent spacing.
Measure approximately 1/8" from each side of the fretboard at the last fret—this will be the starting point. Once you have the outside edges of the two E strings evenly spaced from the fretboard sides, make a small groove in the saddles to hold the strings in place.
To match the grooves to their respective string gauges, I use a string nut file. (These special gauged files are available in sets or individually from luthier supply shops.)
Fig. 9: Measuring string-to-string spacing.
Next, move each of the remaining four strings to their proper spacing. The goal is to have them an equal distance apart, measuring from the outside edge of each string. Use a precision metal ruler to check your spacing (Fig. 9).
Fig. 10: Filing the string grooves with a nut-slotting file.
Once I have the spacing correctly set, I file a small groove under each string (Fig. 10). The spacing for this particular bridge is approximately 13/32" from string to string. Of course this will vary, depending on the width of your guitar's fretboard. To ensure proper spacing, always measure several times before you file the grooves.
Remember: When filing the grooves for each string, make sure you use the properly sized file. If the file is too small, the strings will bind in the grooves, causing tuning issues. But if the grooves are too large, the strings can rattle in the grooves. Also make sure each groove follows the proper angle for each string as it comes out of the bridge plate.
Adjusting the intonation.
Once the string spacing is correct and you've filed the string grooves, it's time to adjust the intonation—the point of this whole project. Adjusting intonation requires several things: a precise tuner (a strobe tuner is preferable), a screwdriver, and a lot of patience!
Fig. 11: Adjusting intonation takes a very accurate tuner and a lot of patience.
Start by tuning the guitar to pitch. Then, one string at a time, compare the 12th-fret harmonic to the fretted note at the 12th fret. The harmonic is your reference tone. When comparing the two, if the fretted note is sharp, tighten the intonation screw located at the back of the bridge assembly (Fig. 11). This moves the saddle backward. If the fretted note is flat, loosen the intonation screw to move the saddle forward.
Always retune after each adjustment and then check intonation for accuracy. The goal is to match these two tones so they're perfectly in tune … to a certain extent. I've found this process works great for the low E, A, D, and high E strings (the 6th, 5th, 4th, and 1st). For the G and B (3rd and 2nd) strings, I use a tempering method so those strings will sound more in tune with the rest of the strings. I intonate the B string approximately 1 cent sharp at the 12th fret and set the G string approximately 2 cents sharp at the 12th fret. The end result produces slower "beating" or oscillation between the notes when you play a chord, making the guitar sound more in tune. This temperament "fudging" can vary from one guitar to another, and many techs, luthiers, and players have developed their own particular tempering scheme.
Note: A cent is 1/100th of a semitone or half-step, so you see why a precision tuner is necessary for adjusting intonation. If you don't have an accurate strobe tuner—one that can give you a 1/100th cent reading—it's best to simply intonate each string to match the 12th-fret harmonic.
That's it for now. See you next time for another adventure in DIY guitar maintenance.
[Updated 10/22/21]
David Gilmour releases a special live version of the "The Piper's Call" from his solo album Luck and Strange.
"The Piper's Call Live Around The World" is a digital only release and was recorded at The Brighton Centre, Circus Maximus in Rome, the Royal Albert Hall in London, the Intuit Dome in Los Angeles and Madison Square Garden in New York and edited together by Gilmour, Charlie Andrew and Matt Glasbey to form one seamless track recorded throughout the Luck and Strange tour.
David Gilmour “On the Luck and Strange tour, I played with the best band I've ever had. Their personalities, playing abilities and enthusiasm for my new music have made for a fabulous experience for Polly and me. Romany's voice really stands out and has its own particular character, she brings a sense of mischief and fun to the live performance, which I think we needed. Thank you to everyone who attended the shows in Europe and America and thank you for buying 'Luck and Strange’. I hope you found as much enjoyment in the music as we did while performing it.”
Luck and Strange was recorded over five months in Brighton and London and is Gilmour's first album of new material in nine years. The record was produced by David and Charlie Andrew, best known for his work with alt-J and Marika Hackman. The album features nine tracks, including the singles' The Piper's Call', 'Dark And Velvet Nights', and a beautiful reworking of The Montgolfier Brothers' 1999 song, 'Between Two Points,' which features 22-year-old Romany Gilmour on vocals and harp; the lead-off track, 'The Piper's Call,' and the title track, which features the late Pink Floyd keyboard player Richard Wright, recorded in 2007 at a jam in a barn at David's house. The album features artwork and photography by the renowned artist Anton Corbijn.
The Luck and Strange tour began with two sold-out warm-up shows at the Brighton Centre before moving to Circus Maximus in Rome for six sold-out nights, followed by the same about at London's Royal Albert Hall before moving Stateside for sold-out evenings at the Intuit Dome and Hollywood Bowl in Los Angeles before concluding with five sold-out nights at Madison Square Garden in New York.
Learn more: www.davidgilmour.com.
Lollar Pickups introduces the Deluxe Foil humbucker, a medium-output pickup with a bright, punchy tone and wide frequency range. Featuring a unique retro design and 4-conductor lead wires for versatile wiring options, the Deluxe Foil is a drop-in replacement for Wide Range Humbuckers.
Based on Lollar’s popular single-coil Gold Foil design, the new Deluxe Foil has the same footprint as Lollar’s Regal humbucker - as well as the Fender Wide Range Humbucker – and it’s a drop-in replacement for any guitar routed for Wide Range Humbuckers such as the Telecaster Deluxe/Custom, ’72-style Tele Thinline and Starcaster.
Lollar’s Deluxe Foil is a medium-output humbucker that delivers a bright and punchy tone, with a glassy top end, plenty of shimmer, rich harmonic content, and expressive dynamic touch-sensitivity. Its larger dual-coil design allows the Deluxe Foil to capture a wider frequency range than many other pickup types, giving the pickup a full yet well-balanced voice with plenty of clarity and articulation.
The pickup comes with 4-conductor lead wires, so you can utilize split-coil wiring in addition to humbucker configuration. Its split-coil sound is a true representation of Lollar’s single-coil Gold Foil, giving players a huge variety of inspiring and musical sounds.
The Deluxe Foil’s great tone is mirrored by its evocative retro look: the cover design is based around mirror images of the “L” in the Lollar logo. Since the gold foil pickup design doesn’t require visible polepieces, Lollartook advantage of the opportunity to create a humbucker that looks as memorable as it sounds.
Deluxe Foil humbucker features include:
- 4-conductor lead wire for maximum flexibility in wiring/switching
- Medium output suited to a vast range of music styles
- Average DC resistance: Bridge 11.9k, Neck 10.5k
- Recommended Potentiometers: 500k
- Recommended Capacitor: 0.022μF
The Lollar Deluxe Foil is available for bridge and neck positions, in nickel, chrome, or gold cover finishes. Pricing is $225 per pickup ($235 for gold cover option).
For more information visit lollarguitars.com.
The legendary string-glider shows Chris Shiflett how he orchestrated one of his most powerful leads.
Break out your glass, steel, or beer bottle: This time on Shred With Shifty, we’re sliding into glory with southern-rock great Derek Trucks, leader of the Derek Trucks Band, co-leader (along with wife Susan Tedeschi) of the Tedeschi Trucks Band, and, from 1999 to 2014, member of the Allman Brothers Band.
Reared in Jacksonville, Florida, Trucks was born into rock ’n’ roll: His uncle, Butch Trucks, was a founding member of the Allman Brothers Band, and from the time he was nine years old, Derek was playing and touring with blues and rock royalty, from Buddy Guy to Bob Dylan. Early on, he established himself as a prodigy on slide guitar, and in this interview from backstage in Kalamazoo, Michigan, Trucks explains why he’s always stuck with his trusty Gibson SGs, and how he sets them up for both slide and regular playing. (He also details his custom string gauges.)
Trucks analyzes and demonstrates his subtle but scorching solo on “Midnight in Harlem,” off of Tedeschi Trucks Band’s acclaimed 2011 record, Revelator. In it, he highlights the influence of Indian classical music, and particularly sarod player Ali Akbar Khan, on his own playing. The lead is “melodic but with Indian-classical inflections,” flourishes that Trucks says are integral to his playing: It’s a jazz and jam-band mentality of “dangling your feet over the edge of the cliff,” says Trucks, and going outside whatever mode you’re playing in.
Throughout the episode, Trucks details his live and studio set ups (“As direct as I can get it”), shares advice for learning slide and why he never uses a pick, and ponders what the future holds for collaborations with Warren Haynes.
Credits
Producer: Jason Shadrick
Executive Producers: Brady Sadler and Jake Brennan for Double Elvis
Engineering Support by Matt Tahaney and Matt Beaudion
Video Editor: Addison Sauvan
Graphic Design: Megan Pralle
Special thanks to Chris Peterson, Greg Nacron, and the entire Volume.com crew.
A 6L6 power section, tube-driven spring reverb, and a versatile array of line outs make this 1x10 combo an appealing and unique 15-watt alternative.