Never kit-built a stompbox? It’s easy—if you let pro pedal maker Alex Guaraldi of CopperSound be your guide. Here, he takes you on a step-by-step tour as he assembles a Build Your Own Clone Classic Delay.
For this DIY adventure, we’re going to be walking through the steps of building the Classic Delay pedal from Build Your Own Clone (BYOC), a company that has been a big player in the pedal-kit game for quite a while. This is a little more complicated than building a fuzz or overdrive, so I’m going to explain the process with great detail. Let’s get started.
Tools You’ll Need for This Project
- Soldering Iron
- Solder
- #2 Phillips screwdriver
- Wire strippers
- 8 mm (5/16") nut driver/wrench
- 10 mm (25/64") nut driver/wrench
- 1/2" nut driver/wrench
- 14 mm (9/16") wrench
- Flush cutters
- Small needle-nosed pliers
- Third hands
These tools are available via a variety of suppliers, including StewMac, Allparts, and Amazon.
Step 1: Review the Instructions
The kit as it arrives (Photo 2).
Each BYOC kit comes with a detailed set of instructions in the form of a PDF that can easily be printed out. The Classic Delay’s instructions can be found at https://www.byocelectronics.com/classicdelayinstructions.pdf. They are 32 pages long, and I suggest following their steps as you read this article. Here, I will refer to specific page numbers that correspond with the steps. I’ve also taken photos to coincide with the steps. Within the instructions, we find a table of contents, pictures of the fully assembled pedal, a list of parts included, and step-by-step instructions from internal population and soldering to external assembly. With any kit, always read the instructions carefully before you start building.
Step 2: PCB set-up
Photo 3
A lot of pedal builders use PCB jigs that are specifically designed to hold several printed circuit boards so that they can be easily populated and soldered. These jigs are great tools. However, they’re not something a casual DIY enthusiast will often have. Essentially, all we really need to do is elevate the PCB off of the working surface so that the leads of the components can pass through the bottom side of the PCB. This is most helpful with components that can be soldered from the top side of the PCB. “Third hands” or “helping hands” (Photo 3) are a good tool for this job. So, what can we do to elevate the PCB if we don’t have access to third hands? Simply turn the enclosure upside down and place the PCB perpendicular (Photo 4). This will elevate the PCB enough to allow the component leads to easily pass through.
Photo 4
Step 3: Populating Resistors and Diodes (instructions page 9)
Photo 5
When populating PC boards, we typically like to work lowest to tallest in regards to the seating. Seating is how far above the PC board the component rests. Resistors and diodes sit pretty low to the PC board, so populating them first makes sense.
Resistors: Remove the resistor from the paper ribbon, bend the leads (Photo 5), and place them through the corresponding pads (Photo 6) as directed. (A pad, by the way, is the term for the designated surface area of a component’s electric contact point.) A good practice is to populate all resistors of the same value before moving on to the next value. Populate all 1k resistors, then all 10k resistors, and so on.Photo 6
Reading resistor color bands can be confusing, so don’t forget the reference guide on page 7 of the instructions. Here, you will find a detailed breakdown of each value and its corresponding 5-band reading (i.e. 1k = brown/black/black/brown/brown). Once all the resistors are placed, we can go on to the diode.
Diode: Next, we need to place the diode. Just like resistors, remove the diode from the paper ribbon, bend the leads, and place them through the corresponding pads. Diodes are polarized and need to be oriented a certain way (Photo 7). Be sure to match the diode to the outline on the PCB, as shown on page 10 of the instructions.
Photo 7
Step 4: Solder Resistors and Diode
Photo 8
Fire up the soldering iron! Once the iron is up to temperature (650 to 750 degrees Fahrenheit, depending on how fast you work), it’s time to get to work. Resistors and diodes can easily be soldered from the top side. So no need to flip the PCB over. Place the solder tip to the pad and feed the end of the tip a bit of solder. What we’re looking for here is solder that covers the entire pad, encapsulates the lead, and has a nice shine to it. Think of it like a shiny Hershey's Kiss shape (Photo 8). Repeat this step for every part. If you’re new to soldering, you should consult our concise guide to soldering, online or in PG’s October 2015 issue.
Soldering tip: Shut the iron off between population steps. Use a small, tabletop fan to blow the solder fumes away during soldering steps. Quick tutorial videos on YouTube are also of benefit here, for builders new to soldering.
Step 5: Trim the Leads
Photo 9
Next, place the PCB upside down to expose the leads (Photo 9). Using flush cutters, trim the excess leads (Photo 10).
Photo 10
Step 6: Soldering IC Sockets (page 11)
Photo 11
Place the 8-pin and 16-pin IC sockets into the corresponding pads on the top side of the PCB. We need to solder the IC socket pins from the bottom side. This means flipping the PCB over without having the IC sockets fall out. For this, I like to use a small piece of foam (Photo 11).
Photo 12
I place the foam on top of the PCB (Photo 12), then flip the foam and PCB simultaneously so the foam is below the PCB and the bottom side of the PCB is facing up (Photo 13).
Photo 13
For this soldering step, we’ll want to solder ONLY 1 pad and then flip the board over to ensure that the IC sockets are sitting flush. If the IC sockets are not flush, go back to the bottom side and reflow that solder pad while pressing the PCB downward and keeping it parallel to the work surface. Solder the remaining pads (Photo 14).
Photo 14
Step 7: Soldering the Voltage Regulator (page 12)
Photo 15
Place the voltage regulator into the three corresponding pads, while keeping mindful of the orientation. The flat side needs to match the outline on the PCB. Now, we’re ready to solder. This can be done from either side. Flush-cut the excess lead and we’re done here (Photo 15).
Step 8: Soldering the Trim Pot (page 13)
Photo 16
Place the trim pot (Photo 16) into its corresponding pads. For the trim pot provided, I found it easiest to solder the two exposed legs from the top side (Photo 17) and then the remaining leg from the bottom side.
Photo 17
Step 9: Soldering Ceramic and Film Caps (page 14)
Photo 18
Place all ceramic (pill-shaped) and film (red) caps into their respective locations. Again, use page 7 of the instructions as a reference for identifying the correct capacitors (i.e. 100n film cap, which may say “104” or “.1” or “u1” on the body). We’ll need to solder the pads from the bottom side. So, once again, the piece-of-foam trick can be your friend here. Flush-cut the excess lead and we’re done (Photo 18).
Tip: An alternate method would be to bend the leads away from each other so they stay in place when the PCB is flipped over (Photo 19).
Photo 19
Step 10: Soldering Electrolytic Caps (page 15)
Photo 20
Let’s do the same thing here as we just did in Step 9. One thing to note is that electrolytic capacitors are polarized and need to be populated in the correct orientation. This is denoted on both the PCB and the component itself. On the PCB, the positive pad is denoted by the square pad. On the electrolytic capacitor, the positive lead is the longer leg. Additionally, the negative lead of the cap also corresponds to the white strip on the body (Photo 20).
So, let’s go ahead and populate the caps and solder them with either the foam trick or by bending the leads. Flush-cut the excess lead and we’re done (Photo 21).
Photo 21
Step 11: Battery Snap and Hook-Up Wire
Photo 22
This DIY kit offers a battery option for those that feel so inclined. (See page 17 of the instructions.) For this step, we’ll need to connect the battery snap to the PCB. Before soldering, we’ll want to first feed the two wires through the holes directly below the solder pads. These holes act as strain relief for the battery snap and have + and - signs next to them (Photo 22). Then, simply solder the red wire to the positive (+) pad and the black wire to the negative (-) pad (Photo 23).
Photo 23
Next, we need to cut and strip the included wire (page 18). We need four 2.5" pieces of wire, and one 1.5" piece (Photo 24).
Photo 24
Place the 2.5" wires into the top side of the solder pads for in, out, and the two courtesy grounds—all handily marked. Then, solder from the bottom side. Do the same for the 1.5" wire going to the ring pad (Photo 25).
Tip: If painting the enclosure is desired, this is the last chance you’ll have to do it. After this, there will be components mounted to the chassis.
Photo 25
Step 12: Install DC Jack (page 19)
Photo 26
Place the DC jack into the large hole on the back heel of the enclosure and tighten the nut using a 14 mm (9/16") wrench (Photo 26).
Step 13: Potentiometers and Status LED (pages 20 and 21)
Photo 27
The included instructions for this next part have you mate the PCB to the inside of the enclosure. This will help line up the pots and LED. However, afterwards it will make soldering the remaining wire more difficult. Here’s a trick we can do that gives us the benefits of using the enclosure to help with pot alignment without needing to take the PCB out afterwards to solder the remaining wires. What we’ll want to do is simply use the face of the enclosure to hold the pots and set the LED height. Additionally, we can use the flush cutters to help balance the PCB (Photo 27). Be sure to have the long lead of the LED mate with the square pad, then solder away!
Step 14: Final Hook-Up Wire
Photo 28
My steps continue to vary slightly from the instructions throughout the rest of the build, so you might want to do a side-by-side comparison. Let’s finish the wire for the DC jack next. Cut and strip three 1.5" pieces. These need to be placed into the three power pads at the top of the PCB marked -, +, + , as in Photo 28.
Photo 29
Next, cut and strip five more 1.5" pieces. Place these in the footswitch pads at the bottom of the PCB marked 1, 2, 5, 7, 8 as shown in Photo 29.
Photo 30
Last wire! Cut one 1.5" piece. Only for this one, strip half an inch off of one side (Photo 30). Place the short-stripped side into the footswitch pad labeled 4.
Step 15: Footswitch prep
Photo 31
For the footswitch, we need to jump lugs 3 and 6. To do this, we’ll use the remaining wire. Place the footswitch into the correct hole on the face of the enclosure. Then, cut a 1" piece of wire and strip half of it. Feed the exposed wire through lug 3 and into lug 6 and then solder both (Photo 31). Cut the excess wire.
Step 16: Insert the IC
Photo 32
Now, we’re ready to insert the integrated circuits into their respective sockets. These need to be placed in the correct way, and there are two ways to identify them. Pin 1 is the top left leg of the IC—which is the rectangular black object in Photo 32. These legs are marked with a small dot in the top left corner or the upside of the IC is marked with a debossed half circle.
Step 17: Mounting and Final Soldering
Photo 33
PCB: Now for the real fun! We’re ready to start inserting chassis-mounted components. Let’s start with the populated PCB. Place the PCB with the three pots lining up with the drilled holes, place the pot washers on the shafts, and then tighten the pot nuts using a 10 mm (25/64") nut driver/wrench, for the results in Photo 33.
Photo 34
Footswitch: Now that the PCB is securely tightened, let’s go ahead and do the same for the footswitch. Remove all hardware from the footswitch bushing except for one nut and the lock washer (Photo 34).
Photo 35
Feed the footswitch through the footswitch hole, making sure that the footswitch has the two poles that we soldered together facing the bottom left (Photo 35).
Photo 36
Next, place the plastic washer onto the bushing (optional), and tighten the hex nut with a 14 mm (9/16") wrench (Photo 36).
Photo 37
Lets go ahead and solder the footswitch wires to their respective footswitch poles (Photo 37). See the instructions’ page 26 for pole-numbering reference.
Tip: Solder from the top row down—i.e. 1, 4, 7, then 2, 5, 8.
Another tip: Remember that the wire for pole 4 also connects to pole 9.Step 18: DC Jack
Photo 38
Next, we’ll need to solder the three wires that go to the DC jack, as explained in page 22 of the instructions. Start with the middle wire, since it sits the lowest and will be easier to get at without the other two wires in the way (Photo 38).
Step 19: Audio Jacks
Photo 39
The last chassis-mounted components are the two audio jacks. Let’s do the stereo input jack first. Go to page 24 of the instructions to see how these jacks are oriented. The lock washer goes on the bushing first, then gets placed into the hole to the left of the DC jack. Then, place the washer onto the bushing and tighten the hex nut with a 1/2" nut driver/wrench.
Follow the same steps for the mono output jack. And then, it’s the final soldering step: Solder the wires to the appropriate lugs on the audio jacks (Photo 39), as on instructions page 28. Then, finally, place the knobs on, tighten them down, and we’re done!
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The legendary Elvis sideman was a pioneer of rockabilly guitar, and his approach to merging blues and country influenced generations of guitar pickers. Here’s how he did it.
Chops: Intermediate
Theory: Beginner
Lesson Overview:
• Craft simple blues-based phrases that lie within the CAGED system.
• Understand how double-stops are used in rockabilly music.
• Improve your Travis picking.
Click here to download a printable PDF of this lesson's notation.
In 2016 we lost one of the most influential guitarists and unsung heroes the world has ever known. The driving force behind Elvis Presley’s first recordings, Winfield Scott “Scotty” Moore III helped shape the sound of rock ’n’ roll and inspire generations of fans. Born in 1931, Scotty caught his big break in 1954 when he was called to do a session with Elvis at Sam Phillip’s Sun Studio in Memphis. History was made that day when Elvis recorded “That’s All Right,” and for about four years, Scotty provided 6-string magic for such Elvis hits as “Heartbreak Hotel,” “Hound Dog,” and “Jailhouse Rock.”
A huge Chet Atkins fan, Scotty grew up listening to country and jazz. This blend would have a dramatic impact on his sound, as he would mix Travis picking with some ear-twisting note choices based on chords, rather than using an obvious scalar approach.
I used a thumbpick on the examples in this lesson to sound as authentic as possible. Using a thumbpick on some notes makes them stand out in comparison to those plucked with the remaining fingertips. Ex. 1 is a classic Scotty-type rhythm riff in E that uses some Travis picking. Play the notes on the 6th and 4th strings with your thumb, and use your index and middle fingers for the double-stops on the 3rd and 2nd strings. This is illustrated in the notation: Attack all the up-stemmed notes with your fingers and down-stemmed notes with your thumb.
Click here for Ex. 1
The next example (Ex. 2) reveals one of the more common elements of Scotty’s lead work: double-stops. It makes sense when you consider that Scotty often performed with just a bass player and drummer, so when it came time to play a solo, he needed to create a strong sense of harmony. The first three phrases begin in the “E” shape of the CAGED system before moving down to the “A” shape and returning to the “E” shape. Those last two measures sit squarely in the “E” shape at the 12th position.
Click here for Ex. 2
Ex. 3 returns to Scotty’s Travis-picking influence by outlining an A chord before leading the idea in a new direction with double-stops. The example begins in the “C” shape and resolves in the “E” shape, though this wouldn’t have meant anything to the legendary guitarist. However, his reliance on moving the five basic chord shapes around the neck is undeniable.
In this version of “Hound Dog”—a song originally recorded by Big Mama Thornton—Moore takes a bluesy solo starting at :45.
Click here for Ex. 3
The blues was an essential part of Scotty’s style, and Ex. 4 shows something he might play over the first eight measures of a blues in E. To use the moves in any given key, it’s important to understand how intervals work within a chord. For example, over the E7, I’m approaching the root and 3 (G#) with a half-step slide. With that information, you’re able to transpose this musical shape all over the neck. Approach each double-stop with this method, and you’ll get a lot of mileage out of this rather simple lick.
Click here for Ex. 4
Ex. 5 shows some of Scotty’s single-note ideas, though the phrase still begins with a double-stop on the top two strings to grab the listener’s attention. Measures three and four use a strange collection of notes. Scotty isn’t thinking of a scale here. The phrase begins with a bluesy flourish and a melodic descent to the root. When he gets there, he moves down a half-step to the 7 (an unusual note to play on a dominant chord, but if it sounds good, it is good), and then up again to resolve to the A chord.
Click here for Ex. 5
Scotty was also a big fan of using three-note grips. In Ex. 6, you can see how these ear-grabbing sounds would work over our blues progression. It begins with an E triad in the “D” shape. It’s genuinely amazing how many great chordal licks Scotty could come up with by using just a few chord forms.
Click here for Ex. 6
Ex. 7 is a little trickier, but a great example of how to move from an A chord to an E chord using some double-stops and single notes along with position shifts and sixths. This is very much a country phrase and evidence of the genre’s importance to the rockabilly sound.
Click here for Ex. 7
The final example (Ex. 8) is a longer, 20-measure piece outlining a full progression with Scotty's superb Travis-picking ideas. While this isn’t a column specifically on Travis picking with a collection of exercises to develop that skill, here are a couple of simple tips that should help you navigate this music.
First, focus only on the bass notes. The thumb needs to be automatic. Strive to put no thought into playing the bass part. This takes time but eventually you’ll be free to concentrate on the melody. The last part to absorb is the excellent ending chord. It’s a maj6/9 with the root on top—very common in the rockabilly style.
Click here for Ex. 8
From here it’s easy to hear Scotty’s immense influence on guitardom. It would be well worth your time to go down a rabbit hole of YouTube vids from the CAAS (Chet Atkins Appreciation Society) conference. Nearly every player from that scene owes a debt to Mr. Moore.
Nashville's historic Gruhn Guitars give PG an exclusive look at a very early amp that is a piece of rock history that preceded the heralded JTM45. Amp builder and reverb aficionado Eric Borash of Ebo Sounds shares his expertise on this rare amp's lineage, while John Bohlinger plugs in Dan Auerbach's old '60s ES-335 to test it out.
Metallica's M72 World Tour will be extended into a third year with 21 North American shows spanning April, May, and June 2025.
The M72 World Tour’s 2025 itinerary will continue the hallowed No Repeat Weekend tradition, with each night of the two-show stands featuring entirely different setlists and support lineups. These will include the band’s first Nashville shows in five years on May 1 and 3 at Nissan Stadium, as well as Metallica’s return to Tampa after 15 years on June 6 and 8 at Raymond James Stadium. M72 has also confirmed its much anticipated Bay Area hometown play, to take place June 20 and 22 with the band’s debut performances at Levi's Stadium in Santa Clara.
In a new twist, M72 2025 will feature several single shows bringing the tour’s full production, with its massive in-the-round stage, to venues including two college football stadiums: JMA Wireless Dome in Syracuse, New York on April 19, and Metallica's first ever visit to Blacksburg, Virginia, home of the Virginia Tech Hokies. The May 7 show at Lane Stadium will mark the culmination of 20+ years of “Enter Sandman” playing as the Hokies take the field.
In addition to playing football stadiums across the nation, the M72 World Tour’s 2025 itinerary will also include two festival headlines—the first being the opening night of the run April 12 at Sick New World at the Las Vegas Festival Grounds. May 9 and 11 will then mark a festival/No Repeat Weekend combo as Metallica plays two headline sets at Sonic Temple at Historic Crew Stadium in Columbus, Ohio.
Support on M72’s 2025 North American run will come from Pantera, Limp Bizkit, Suicidal Tendencies and Ice Nine Kills. See below for specifics.
Additionally, M72 2025 will see Metallica’s long-awaited return to Australia and New Zealand.
M72’s 2025 North American leg is produced by Live Nation and presented by new sponsor inKind. inKind rewards diners with special offers and credit back when they use the app to pay at 2,000+ top-rated restaurants nationwide. The company provides innovative financing to participating restaurants in a way that enables new levels of sustainability and success. Metallica fans can learn more at inkind.com.
Citi is the official card of the M72 tour. Citi cardmembers will have access to presale tickets beginning Tuesday, September 24 at 10am local time until Thursday, September 26 at 10pm local time through the Citi Entertainment program.
Verizon will offer an exclusive presale for the M72 tour in the U.S through Verizon Access, just for being a customer. Verizon Access Presale tickets for select shows will begin Tuesday, September 24 at 10am local time until Thursday, September 26 at 10pm local time.
* Citi and Verizon presales will not be available for Sick New World, Sonic Temple or the Toronto dates. Verizon presale will not be available for the Nashville, Blacksburg or Landover shows.
As always, a portion of proceeds from every ticket sold will go to local charities via the band’s All Within My Hands foundation. Established in 2017 as a way to give back to communities that have supported Metallica over the years, All Within My Hands has raised over $15 million – providing $8.2 million in grants to career and technical education programs including the ground-breaking Metallica Scholars Initiative, now in its sixth year, over $3.6 million to combat food insecurity, more than $3.5 million to disaster relief efforts.
For more information, please visit metallica.com.
Metallica M72 North America 2025 Tour Dates
April 12 Las Vegas, NV Sick New World @ Las Vegas Festival Grounds
April 19 Syracuse, NY JMA Wireless Dome *
April 24 Toronto, ON Rogers Centre *
April 26 Toronto, ON Rogers Centre +
May 1 Nashville, TN Nissan Stadium *
May 3 Nashville, TN Nissan Stadium +
May 7 Blacksburg, VA Lane Stadium *
May 9 Columbus, OH Sonic Temple @ Historic Crew Stadium
May 11 Columbus, OH Sonic Temple @ Historic Crew Stadium
May 23 Philadelphia, PA Lincoln Financial Field +
May 25 Philadelphia, PA Lincoln Financial Field *
May 28 Landover, MD Northwest Stadium *
May 31 Charlotte, NC Bank of America Stadium *
June 3 Atlanta, GA Mercedes-Benz Stadium *
June 6 Tampa, FL Raymond James Stadium +
June 8 Tampa, FL Raymond James Stadium *
June 14 Houston, TX NRG Stadium *
June 20 Santa Clara, CA Levi's Stadium +
June 22 Santa Clara, CA Levi's Stadium *
June 27 Denver, CO Empower Field at Mile High +
June 29 Denver, CO Empower Field at Mile High *
* Pantera and Suicidal Tendencies support
+ Limp Bizkit and Ice Nine Kills supp
Beetronics FX Tuna Fuzz pedal offers vintage-style fuzz in a quirky tuna can enclosure.
With a single "Stinker" knob for volume control and adjustable fuzz gain from your guitar's volume knob, this pedal is both unique and versatile.
"The unique tuna can format embodies the creative spirit that has always been the heart of Beetronics, but don’t let the unusual package fool you: the Tuna Fuzz is a serious pedal with great tone. It offers a preset level of vintage-style fuzz in a super simple single-knob format. Its “Stinker” knob controls the amount of volume boost. You can control the amount of fuzz with your guitar’s volume knob, and the Tuna Fuzz cleans up amazingly well when you roll back the volume on your guitar. To top it off, Beetronics has added a cool Tunabee design on the PCB, visible through the plastic back cover."
The Tuna Fuzz draws inspiration from Beetronics founder Filipe's early days of tinkering, when limitedfunds led him to repurpose tuna cans as pedal enclosures. Filipe even shared his ingenuity by teachingclasses in Brazil, showing kids how to build pedals using these unconventional housings. Although Filipe eventually stopped making pedals with tuna cans, the early units were a hit on social media whenever photos were posted.
Tuna Fuzz features include:
- Single knob control – “Stinker” – for controlling output volume
- Preset fuzz gain, adjustable from your guitar’s volume knob
- 9-volt DC operation using standard external power supply – no battery compartment
- True bypass switching
One of the goals of this project was to offer an affordable price so that everyone could own a Beetronicspedal. For that reason, the pedal will be sold exclusively on beetronicsfx.com for a sweet $99.99.
For more information, please visit beetronicsfx.com.