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Porter

A headphone amp that lets you use your own pedals

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Porter is a headphone amp for guitar and bass players who want to practice through their own effects, without bugging the neighbors. It's more tool than toy, a direct response to existing products that are of limited use for serious practice.

The sound is tuned to provide an amp-like response, so distortion pedals sound like they should. It's a no-nonsense all-analog design, stripped down to just the essentials that you need to practice effectively. There are selectable guitar and bass modes, which change the EQ accordingly. To save space, the micro-USB port also functions as a line-in. The battery is both rechargeable and replaceable, and sized so you don't have to think about recharging it too often.

I started designing Porter in August of 2022, when the combination of housemates and my penchant for late night solo jams nudged me to look for a way to practice more quietly. My tube amp didn't have a headphone output, and the one on my solid state amp didn't sound very good. All the options on the market plugged straight into the guitar and precluded the use of external effects, which I found very important not only for solo jams, but also for practicing any songs that require different effects at different points. I figured it would be fun to try making my own headphone amp as a side project.

Back then, the project was just called "headphone_amp.sch" and was designed to be about the size of a pack of gum. I tried 3D printing my own case as a test project for my newly-acquired printer. It was a completely minimalist amp, with no controls, not even a power switch (it switched on when you plugged a cable into it, a trick commonly used on pedals and guitars with active outputs). The design has evolved over the 6 revisions and almost 2 years since I started, adding features that I realized were necessary to really be effective as a practice tool. The form factor grew to the size of a beeper (remember those?), which conveniently aligned with an off-the-shelf Hammond enclosure.

I am hoping to make Porter available on Crowd Supply in the near future. In the interim, I thought it might be of interest to document its evolution over the years. Here are the most current features and specs:

  • Inputs: 1/4-inch jack, micro USB (for charging or 1/8-inch line-in with included adapter) 
  • Output: 1/8-inch TRS headphone jack 
  • Indicators: Status LED for power (blue), charging (red), and charge complete (green) 
  • Controls: Volume potentiometer with integrated on/off, bass/guitar selector switch 
  • Input impedance: 500 kohms guitar mode, 1 Mohm bass mode 
  • THD+N: 0.003% at 60 mW into 16 ohms Power output: 110 mW into 16 ohms, 125 mW into 32 ohms 
  • Frequency response: 38Hz-5.6 kHz bass mode, 72Hz-6.4 kHz guitar mode 
  • Battery: 300 mAh LiPo with JST connector (~15 hour runtime, 2 hour charge time) 
  • Enclosure: Anodized aluminum with belt clip, 8.6 x 4.3 x 3.3 cm (3.4 x 1.7 x 1.3 in)

  • Porter v5 - a big upgrade!

    Gavin06/25/2024 at 22:10 0 comments

    Porter v4 ran directly from a Lithium Polymer (LiPo) battery, which has an output voltage ranging from 4.2V to about 3.0V (depending on the cut-off of the protection module). In addition, the pre-amp had a passband gain of about 4.3. That means a peak voltage of less than 500mV is still enough to cause the pre-amp to clip. A hard bass slap or a hard strum of all 6 guitar strings can easily exceed 1V peak, which means I really want a supply of at least +/-4V, ideally +/-5V to allow some headroom. This would match up well with the typical 9V supply used by effect pedals.

    Unfortunately, my pre-amp and headphone amp chips were both design for low-voltage operation, with a 5.5V max supply. That meant I had to select completely new parts. However, this turned out to be a good thing! I found a new headphone amp chip with really fantastic specs - the Analog Devices (formerly Maxim) MAX97220E. This chip had even better THD (total harmonic distortion) specs than the previous two I was using, plus it enabled stereo output with no DC-blocking caps. On top of that, it had a built-in charge pump to produce its own negative supply (saving me selecting and placing another part). And it was still only $1.50!

    One downside is that the new chip uses a QFN (quad flat no-lead) package, which isn't as friendly for hand-soldering or repair. The previous parts were available in SOIC (small-outline integrated circuit) packages, which at least had exposed leads. I've personally found it to be a worthwhile trade, though (and yes, I've hand-assembled a bunch of them with a hot air gun).

    I also needed to select a new pre-amp chip. I went back to the trusty Texas Instruments TL072, the "H" variant of which offers lower power consumption and wider output swing than the other variants. The per-amplifier current draw is comparable to the OPA1671, though there are now two amplifiers instead of one. The THD performance is 3x better, but the noise performance is 5x worse; the headphone amp had higher THD and noise than either pre-amp chip, so it didn't really matter anyway! And the overall THD and noise performance are still quite good.

    Here's what the audio section of Porter v5 looked like with the new chip selections. Note the -5V supply generated from the headphone amp, which is shared with the pre-amp. Note also that the pre-amp gain is now variable, which helps reduce the likelihood of clipping even further.

    In order to minimize the possibility of clipping as the battery discharges, I decided to also add a boost converter, which would provide a fixed +5V supply. I chose the Texas Instruments TPS613222A, which uses minimal external components and offers great efficiency (82-94%) over a wide load range. I also added a power indicator LED, to help make it clear when Porter is on and operating.

    Here's what the power section of Porter v5 looked like with the boost converter added.

    Photos of v5 test build and a close-up of the PCB itself (now in black!):

  • Porter v3 and v4 - preamp and volume control

    Gavin06/24/2024 at 20:46 0 comments

    Porter v3 introduced a couple of new features to address feedback from my v1/v2 beta testers and from my own personal experience using it as a practice tool. My number one point of feedback was to please add a volume control. I also personally wanted to be able to play along with songs I'm trying to learn, or a generic backing track when practicing improvisation. Adding volume control was straightforward - just replace the headphone amp's feedback resistor with a pot(entiometer). Adding the capability to play along with music was a little more tricky. 

    I didn't have space in the enclosure for another input jack, so I started looking into ways I could get the USB port to multitask for me. Having done some work with USB-C in my consulting job, I was aware of an Audio Adapter Accessory Mode that would transmit analog audio over the USB data lines. I only needed half an excuse to move to modern, always-plugs-in-the-right-way USB-C, and that was it.

    However, this change also required that I add a separate pre-amp to the design, because I didn't want the audio to be filtered in the same way as the instrument signal. So I added a Texas Instruments OPA1671IDBVT, which is a nice low-noise, low-distortion, rail-to-rail, low-ish-power, single-supply audio op amp (and it's only a buck!). The headphone amp generates its own mid-supply bias, which I borrowed to bias the op-amp as well. I also tied the op-amp's negative supply to the same shutdown line I used to control the headphone amp power state. This wasn't strictly necessary, but seemed like a neat trick that could save some power (the line is active-high, which would "shut down" the op amp by making its supplies equal.)

    Here's what the v3 schematic looked like:

    And here's what it looked like as I was getting ready to build up some test units to share with friends (note the 3D printed board in black, next to the Hammond enclosures):

    At the time, it seemed like Audio Adapter Accessory Mode was well-supported. I found a TI app note demonstrating a reference design for audio adapter support, and figured I was on the right track. Unfortunately, I never got it to work. I later learned that support for this particular feature was kind of a mess, and eventually got deprecated. So it looked like I was moving back to micro USB for v4. There are plenty of micro-USB-to-3.5mm cables available, which use the D+/D- lines as the right and left audio channels, respectively.

    I also had been thinking more and more that the input impedance really needed to be higher than 100k to avoid affecting the guitar's tone. I wanted to target at least 499k, based on what I had seen in other pedal and amp designs. The easiest way to do that without introducing unreasonably large resistors (I would have needed 1.5M ohm for a gain of 3) was to move to a non-inverting configuration.

    Thinking some more about the user experience, I decided that the automatic power-on/off just might not be intuitive enough. I replaced the 100k volume pot with a 10k pot that had a built-in switch, which would cut the battery power when turned fully counter-clockwise, and apply power (with a tactile "click") when turning up the volume. That seemed natural and familiar enough. There wasn't a 100k version available, but thankfully the presence of a pre-amp allowed greater flexibility in choosing resistor values for the headphone amp. That brought me to the following v4 design:

    I thought for sure this would be the final revision of Porter... until one of my testers found a problem! It turns out it was possible to make the headphone amp clip when using certain pedals that increased the output level, or with a hard strum of all the strings. I'll share how I solved it in the next post!

    (Bonus pic: Porter v4 test build)

  • Choosing an Enclosure

    Gavin06/24/2024 at 19:39 0 comments

    Building on what I'd learned from testing v1 and v2, I started looking into off-the-shelf cases for the next version of Porter. After digging around a bit, I decided to try out 3 candidates: the PacTec Hand Held, the Box Enclosures BEX SERIES 1, and the Hammond 1455D601BK. Here's what they looked like on my workbench (in the order listed above):

    Since I was planning on using a 1/4" jack to allow compatibility with external effects, I didn't have a convenient way to mount the headphone amp to a guitar (existing devices use a permanent plug, which addresses the mounting problem, but introduces the non-compatibility problem; it also is prone to breaking). I figured most guitars have straps, so a belt clip could work to attach it to the guitar strap (or, you know, to a belt). I ordered a candidate belt clip from Alibaba and tried it on each of the candidate enclosures:

    The Hammond case was such a standout that I knew instantly it was the way to go. It fit the clip nicely, felt really good in the hand, and had a perfectly understated but distinct visual style. Perhaps not obvious from the pictures is that the PacTec case is plastic, which is reflected in its dramatically lower cost than the other cases (about $4 vs about $12). The end panels can also conveniently be replaced with PCBs for further low-cost customization (as demonstrated by this project). But given how rugged and just darn attractive the Hammond case was, I decided it was worth the extra cost.

    My next step was to put my 3D printer to use for the second time: making custom endpanels to help me coordinate component placement with the v3 PCB design. I already had a 1/4" instrument input jack, an 1/8" headphone output jack, and a USB charging input, and I knew I needed to add a volume knob per my beta testers' feedback. As the design matured, I ordered candidate components, 3D printed the PCB, and did some test assemblies to make sure everything lined up before placing the PCB order:

    I also did some work on figuring out how to attach the belt clip. After considering several options like tapping threads for tiny screws, using rivet nuts, and using low-profile binding barrels, I went with simple blind rivets in the end. I would have preferred something removable, but between the thin wall of the enclosure and tight clearance to the 1/4" jack and volume pot, the options turned out to be very limited.

    This post is getting pretty long, so I'll cut it here, and talk about the v3 and v4 electrical design in a new post!

  • Porter v1 and v2 - a minimalist headphone amp

    Gavin06/21/2024 at 18:49 0 comments

    My earliest versions of Porter were extremely minimalist, with no volume control, not even a preamp. It was tiny, and sounded pretty good for playing clean. v1 was based around a Texas Instruments TPA6111A2 headphone amp, which I liked for its low power consumption, shutdown mode, stereo output, and decent fidelity. Schematic snippet below (the rest is just the battery charger, which isn't that interesting).

    However, the design of the amp required relatively low input resistor values, resulting in excessive loading of the guitar pickups (which kills your tone). I also wasn't too excited about the large DC-blocking caps it required (mostly from a cost perspective, as I was using ceramics).

    So for v2 I tried the Analog Devices SSM2211, which is a mono headphone amp. The bridged mono output eliminated the need for DC-blocking caps, and the amp allowed for a higher input impedance of 100k ohms. It still had a shutdown mode and decent fidelity. It's a good chip to use for a super minimalist headphone amp, though note that even 100k is still a little low for guitar pickups. Schematic snippet below.

    I built up a few of these units and wanted to give them to my friends to beta test and tell me which they preferred. But to keep them from getting damaged, I really wanted to put them in a case. I had just gotten my first 3D printer (a Creality Ender 3 v2), so this seemed like a good starter project! Since I designed my boards in EAGLE, I was able to import them into Autodesk Fusion and start designing a case around them.

    I quickly learned what it means to overconstrain yourself by putting connectors on 3 different faces... thankfully the plastic has some give to it, so I was able to still get the boards into the enclosure. I split the enclosure into two halves and added little bumper rails that would lock together securely enough to stay together, but not so securely that you can't separate them.

    And those were the prototypes I started handing out for beta testing! The results came back with people pretty evenly split between the two versions. However, one piece of feedback was very consistent: please add volume control! It turns out a guitar's tone can change noticeably when using the passive volume control that's built into it (which is what I was relying on for this super-simple amp). I also wasn't particularly confident in my enclosure design for long-term use (the rails started cracking after a few cycles of assembly and disassembly), so I started looking into some off-the shelf options. More on that in my next post!

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Gavin wrote 08/20/2024 at 21:13 point

@joeblow66 sorry, I missed one:
"Why not plug the Porter directly into the output of your last pedal?"
You can certainly still do that! I added the belt clip so anyone with a short headphone cable won't be tethered to their pedalboard. But if you have a long headphone cable, you could certainly leave Porter on the ground next to your last pedal.

  Are you sure? yes | no

Gavin wrote 08/20/2024 at 21:10 point

@joeblow66 thanks for all your thoughts! I'll respond to them below.

Regarding USB-C, I did try it on an earlier revision, but scrapped it because I couldn't find an adapter cable that was purely analog. The deprecation of audio accessory mode (which enabled analog audio over USB-C) was the last nail in the coffin. USB Audio is a digital datastream, which would likely require a USB-C port controller, an MCU and a DAC just to get audio into Porter. That MCU would need firmware, which has to get flashed onto every production unit. That's a lot of cost and complication just to hear some music! So I'm sticking with the micro USB for now (though I'm investigating a vertical USB-C port, which would make room for a dedicated 3.5mm input - perhaps the best of both worlds!)

As for the 3.5mm output, I'm trying to make this accessible to a broad audience, who may not be using high end headphones with 1/4" / 6.3mm plugs. My own monitor headphones came with a 1/8" / 3.5mm plug. I do think the 3.5mm-to-6.3mm converters are more robust, but I want to optimize for what's likely to be the most common use case.

I think XLR is too large for the form factor I have in mind (about the size of a beeper), and perhaps a bit too specialized for the average user.

What sort of solution are you looking for?

  Are you sure? yes | no

joeblow66 wrote 08/02/2024 at 00:52 point

You can also think 180 degree and rethink your Porter.

Why not plug the Porter directly into the output of your last pedal?
XLR (mono balanced or stereo unbalanced output) and 3.5mm TRS stereo unbalanced output.  Skip the 3.5mm output if you target Pro.
Skip XLR if you target Consumers.

Then we can choose whatever headphone amp we like.

  Are you sure? yes | no

joeblow66 wrote 08/02/2024 at 00:43 point

I would not plan for an analog audio input for music play thru.  I would go with USB-C or bluetooth.  Analog audio output on 3.5mm will be gone soon from laptops and cell phones.
You could use the same USB-C connector for charging and for audio.

Have a look at the Boss Katana Go for inspiration.

Note: I know nothing about designing electronic equipment, I'm just a potential customer who struggled for year looking for that solution.

  Are you sure? yes | no

joeblow66 wrote 08/02/2024 at 00:38 point

I would use a 6.3mm plug for the headphones output.   A lot of closed/open headphones are using 6.3mm jacks and using a 6.3mm/3.5mm adapter will break easily.  On the opposite side there's a bunch of 3.5mm/6.3mm adapters if you are using IEM, they don't protrude too much and they are solid.

  Are you sure? yes | no

joeblow66 wrote 08/02/2024 at 00:28 point

If you want to be future proof I would use USB-C instead of micro-usb.

  Are you sure? yes | no

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