fet preamp cable

Posted by Author makecircuits

FET Preamp Cable

A Preamp Cable is a phantom powered discrete FET (Field Effect Transistor) preamp built into the plug of a guitar cable. It provides almost all the advantages of an on-board preamp with none of the disadvantages.

To the best of my knowledge I invented the Preamp Cable in 1992 and improved it in 1996, though it wouldn`t surpise me if someone has done this before. I`ve built up a number of prototypes with subtle variations and have been using them ever since.

This article is a report about several interesting aspects of the project. It is not a set of step-by-step instructions for constructing a Preamp Cable, although it`s close.

What does the preamp do?

While the voltage off an electromagnetic guitar pickup can be a healthy 2.0 Volts or so peak-to-peak if you`re playing hard, the impedance of that signal varies greatly over the frequency spectrum and a high impedance signal can be damaged interfacing to the outside world. The load capacitance of a guitar cord can attenuate the high frequencies and lower the tuning of the resonant peak of the pickup. The input impedance of a guitar amp, mixer or effects boxes can attenuate or distort parts of the guitar signal. And because the guitar signal is not very robust, external noise sources and grounding can become serious problems. The guitar`s volume control further increases the output impedance, multiplying the problems.

Piezoelectric pickups suffer similiar problems, though the exact mechanisms are different.

A preamp can address these problems by acting as a buffer, providing the guitar pickup with an optimal high impedance load and driving the cable, effects boxes, and amplifier with a robust signal. The sound is ballsier, brighter, and more responsive.

Why a Preamp Cable?

"It preamps anything it touches."

You can get most of the advantages of having a preamp installed in your electric guitars, basses, or piezo-equipped acoustic instruments

  • without having to carve up the your favorite instrument (which can be important if it`s an especially valuable vintage model)

  • without having to install a bypass switch in case the preamp or battery fails

  • without having to wear out the limited number of screw/unscrew cycles of the instrument`s wood every time you replace the battery

  • without having to build a seperate preamp into each of your instruments.

Additionally, it`s easy to carry extra Preamp Cables as backups in case of failures.

(An interesting question comes up; are there circumstances where an on-board preamp has an advantage over the Preamp Cable? Sure; exotic pickup mixing or cases where you want to preamp the pickups individually before mixing them.)

FET Preamp

The preamp itself is a high quality, low noise discrete FET circuit described in my article A Discrete FET Guitar Preamp. The design allows the circuit to be split into tw1o parts at the point where the FET is powered. The FET and a few associated parts can be built into a standard 1/4-inch phone plug on the near end of the cable while the remainder of the circuitry and the battery can be housed in a small MXR-sized box on the far end of the cable.

The preamp has a very high input impedance (3.0 M ohm), a reasonably low output impedance (6.0K ohm), and a slight voltage gain (around 3dB). It does not use opamps and therefore avoids several classes of distortions that I personally don`t like.

Phantom power

The Preamp Cable is "phantom powered", meaning that the power to drive the preamp circuitry shares the same wire (the same piece of copper) as the audio signal. This removes the weight and the bulk of a battery and allows the preamp to be built into a standard phone plug.

An XLR connector is used on the far end because it has a more reliable connection for the dc current that will be present, so the Preamp Cable will not be confused with a regular guitar cable, and so the Preamp Cable can be connected to a standard phantom powered mic input.

The little midnight blue box contains a 9-volt battery to power the preamp as well as circuitry to split out the audio from the power. No power switch is necessary as plugging the Preamp Cable into the box effectively turns on the power. There is a second convenience "Auxiliary Output" jack for a tuner.

Battery life us six months or thereabouts, depending on use of course. (Long battery life is hard to measure.)

As an extra feature, it turns out that the Preamp Cable can just as well be used with standard phantom powered microphone inputs on a mixer (48 Volt, 6.8 Kohm, balanced). This is the way I typically use it.

Also, you can use a standard microphone cable to extend the length of a preamp cable.

Preamp Cable Construction

Here is the schematic and parts list for the Preamp Cable:

Preamp Cable parts list

  • Q1 J201 N-channel JFET

  • R1 3.0 Mohm 1/8-watt 5% resistor

  • R2 20 Kohm 1/8-watt 5% resistor

  • R3 2.2K ohm 1/8-watt 5% resistor

  • P1 1/4-inch phone plug, Switchcraft 280 (straight) or 226 (right angle)

  • P2 3-pin XLR plug, Switchcraft A3M or Neutrik equivalent

  • 1/8 watt resistors are necessary for the circuit to fit in the space inside the 1/4 inch phone plug.

The circuit is simliar to the left half of the circuit in my Discrete FET Preamp article. A 20 Kohm resistor has been added to the input for protection from static discharge as the plug will spend some time waving around in the breeze.

Obviously this is not the place for a cheap plug. I`ve used both the Switchcraft 280 straight 1/4-inch plug and the Switchcraft 226 1/4-inch right angle plug. The straight plug is preferable for the inset jack on a Fender Stratocaster while the right angle plug is preferable for most other instruments. Alternately a Neutrik plug can be used; the Neutrik plugs actually have a little more available space.

(Later note: I will definitely be using the larger Neutrik 1/4-inch plugs for future preamp cables. My eyes aren`t what they used to be and the Neutrik models seem to have more working room. Also their large size suggests that this is not just a regular guitar cord.)

Due to FET manufacturing consistancy issues and power supply limitations, the FET needs to be hand selected for the best performance from this circuit. I recommend building up a breadboard version of the circuit and substituting FETs until the voltage at the drain is closest to 6.0 volts.

The circuitry is crammed into the space inside the plug. This is not an easy operation and a small-tipped low power soldering iron is essential. As is a lot of patience.

By itself the circuitry would be susceptable to mechanical strain from regular cord use, so the inside volume of the plug is filled with epoxy. Black electrical tape works well to hold the epoxy in place while it hardens as well as insulating any solder connections from the plug case. Additionally, heat shrinkable tubing helps to limit the mechanical abuse of the cable at the stress point. And labeling the cable is important.

The XLR connector wiring is somewhat compatible with the AES XLR spec:

XLR Connections

  • XLR pin 1: Ground

  • XLR pin 2: Signal output

  • XLR pin 3: Ground

Preamp Cable Phantom Power Box construction

Here is the schematic and parts list for the Phantom Power box:

Phantom Power Box parts list

  • R1 6.8 K ohm 1/4-watt 5% resistor

  • R2 51 K ohm 1/4-watt 5% resistor

  • C1 4.7 uF electrolytic capacitor

  • J1 Switchcraft D3F XLR jack

  • J2, J3 Switchcraft "11" 1/4-inch phone jacks

The enclosure is an off-the-shelf Hammond Manufacturing 1590-B die-cast aluminum box, 2.34 x 4.39 x 1.22 inch (60 x 112 x 31mm). Guitarists call it an "MXR box".


"Anything worth doing is worth overdoing."

Not only is it possible to pack a preamp into a phone plug, it is also possible to pack tw1o preamps in a phone plug.

I`m a big fan of Rickenbacker guitars, and many Rickenbacker models come with stereo wiring. On these models there are tw1o separate output jacks; one labeled mono and one labeled stereo. Typically one uses the mono output, but the stereo output has the bridge pickup through the bridge volume and tone contols on the tip terminal and the neck pickup through the neck volume and tone controls on the ring terminal. Rickenbacker calls their stereo wiring "Rick-O-Sound".

The stereo wiring can be very useful. A stereo 12-string instrument sounds heavenly. A guitar can have a lot of space when one pickup goes through one effect while the other pickup goes through another. You can fade in effects with the volume controls. Or you can set up the neck and bridge pickups as separate presets and use the pickup switch to bop betw1een them without physically being near a stompox.

A Stereo Preamp Cable takes advantage of this.

The Stereo Preamp Cable uses a stereo (3 conductor) 1/4-inch phone plug. I`ve used the Switchcraft 236 (right angle), but the Switchcraft 297 (straight) or the Neutrik equivalents should work fine. As with the mono version, this is not the place for a cheap plug. The Preamp Cable circuitry is doubled, once for the tip, once for the ring contact. Construction is obviously more difficult due to the physical size issues. Here in the photo some of the circuitry can be seen inside the epoxy potting.

It would be a good idea to hand-match the FETs for the stereo Preamp Cable.

A stereo version of the Phantom Power box doubles the circuitry of the mono Phantom Power box.

This table show the stereo wiring assignments from guitar to final outputs:

Stereo wiring assignments

  • Guitar signal: bridge pickup neck pickup

  • Stereo phone plug: tip ring

  • XLR plug: pin 2 pin 1

  • Output jacks: "Left/Mono" "Right"

An XLR Splitter Cable is required to run the stereo guitar directly into the phantom power mic inputs of a mixer. The Splitter Cable has a female XLR input plug and left and right maIe output plugs wired this way:

female XLR pin 1 to right male XLR pin 2

female XLR pin 2 to left male XLR pin 2

female XLR pin 3 to the remaining pins of the male plugs as well as the cable shield

My personal favorite approach combines a Rickenbacker 370 12-string with stereo outputs, a stereo Preamp Cable, an XLR splitter cable, and a Mackie mixer. This is what I used on all the 12-string guitar parts on the Tesseract album.

How can I get a Preamp Cable?

Until someone goes into production with it you have to build one yourself.

I`ve only built a handful of prototypes for myself and a couple of friends. I`m not in the Preamp Cable manufacturing business, so I`m not going to be making any more except to try out some improvements.

In the summer of 1996 I shopped the Preamp Cable around, showing it to various folks in the business, asking for advice and opinions, and searching for someone interested in manufacturing and distributing it. I was not successful, but I probably gave up too early. (Special thanks to John Hall of Rickenbacker, Roger Powell of Utopia, Bill Richardson of Gryphon Strings / StudioGuitar and the folks at Gelb Music for all the expertise and words of advice!)

Is the Preamp Cable patentable? Phantom powered preamps have been around for a very long time so the basic technology is not new, and this application is pretty much exactly what phantom power was designed for in the first place, but this specific implementation has some innovative details. Nonetheless, a patent must be filed within a year of public disclosure, and since I let the cat out of the bag years ago, a patent is not going to happen.

I would be happy to work with a company to make the Preamp an actual product. (Ah, the real reason for this article.)

Future improvements

If I were to build another batch of Preamp Cables I would make some improvements.

  • Use an even lower noise FET.

  • For more headroom, run the Phantom Power box at 18 Volts instead of 9 Volts, and optimize the FET circuit for that voltage.

  • Use an FET differential amp to reduce hum and noise and also be more compatible with the AES XLR spec.

  • Some other variations I`m still considering.