DIYTube Get Set Go 300B Headphone Amp

It's been a little while since the last post, and there's a good reason for that; I've been gathering parts for a very special DIYTube Get Set Go made specifically for the Audeze LCD-2 headphones. The Get Set Go is a single-ended triode design made first-and-foremost for high-sensitivity speakers that only need a few watts to fill a room with sound, such as the Planet 10 Audio Frugel Horn. I did have the fortune to build the Get Set Go for speakers previously and was impressed with the overall tonal character and quality of the sound.

The Get Set Go Board from DIYTube

You may be wondering why someone would be using a speaker amp for a pair of headphones. A typical headphone amplifier will output relatively a small amount of power compared to the speaker amplifiers (in small fractions of a watt measured in milliwatts). The Audeze, as well as certain other planar magnetic headphones like the HiFiMan, really benefit from some added wattage to sound their best as they aren't the most sensitive drivers. Hense, using a low-powered speaker amplifier makes sense, but there are some changes that are necessary.

The biggest change is the output impedance. While speakers are typically 4, 8 or 16 ohm, headphones often range between 32 and 600 ohm. The Audeze headphones that the amplifier is being made for are 50 ohm (although I have also seen them listed as 60 ohm). Since 50 ohm single-ended output transformers don't really exist on the market, you can either have one custom wound, or try and find something that would have an equivalent turn ratio. There's a handy calculator that Shannon of DIYTube recommended that will give the equivalent turn ratio for this purpose. A 3.5K / 50 ohm output transformer would have a turns ratio of 0.12, or 8.367:1. Gery at Transcendar offers a 1.6K / 16 ohm single-ended transformer, the TT-023-OT, which is a 10:1 ratio and close enough for our purposes. Per Shannon, The reflected load would be a touch more linear and lost max output would be minimal.

Secondly, learned from previous experiences like with the Millet Jonokuchi, and to a much lesser extent, the ECP Audio Torpedo, headphone amplifiers do not like their output transformers to be close to the power transformer. When they are too close in proximity, there is something called flux interaction when the magnetic waves interfere with one-another and cause an audible hum with certain headphones. So not only will the output transformers be moved to the opposite side of the chassis, but rather than using an EI transformer for power, a toroid will be used instead as they create much less of a magnetic field. Antec is one of the few manufacturers out there that builds certain toroids specifically for tube amplifiers. The Antec AS-2T300 would be a good substitute for the PA774 with a bit higher ratings.

So other than the transformer choices and their position, this build will be fairly similar to the previous Get Set Go. To make things a little different, 300B tubes will be used rather than 6B4Gs. Also Mundorf Silver Oil capacitors will be taking the place of the Jupiter wax paper caps. The Mundorfs should be a little more detailed, which the Audeze can benefit from with their warmer/darker presentation.

The first action-item on the list was the chassis. I always like to create a virtual mock-up of the chassis layout to see different set-ups and settle on what I feel will work the best. Note that in this layout, the output transformers are distanced from the power toroid and chokes.

Virtual Chassis Layout

Once this is settled, I forwarded the dimensions over to Keith (ebay seller po1019) to fabricate the chassis. The virtual layout is then used as a guide to lay out the parts, take measurements and make markings, and ultimately start drilling / cutting away. After prepping a number of aluminum and steel chassis, I have a small collection of very handy Greenlee punches, which are ideal for making clean holes for tubes and sockets. The metal area (which will be behind the little red tab on the Neutrik locking plug) to release the headphone plug was recessed a bit by sanding using a Dremel and by hand for adequate clearance.

The prepped aluminum chassis

I decided that this chassis would have a more unique and artistic finish. Something more worn and rustic looking. I was actually inspired when I was scrapping off the dark grease on an old baking sheet. This finish starts with some black engine enamel that is then sanded and scrapped by hand minutes after spraying. It produces and interesting texture in my humble opinion.

Textured Bottom Plate

Texture Detail

The texture is achieved by hand using worn out sandpaper at different times of paint dryness, along with the sharp point of a scissor to get the longer lines. Once the texture was where I wanted it, I gave the chassis two coats of clear satin enamel. The parts can now be dropped in place. I began with the smaller pieces, including the headphone sockets, which were flush mounted and secured with black oxide screws. The switch, pilot light, RCAs, binding posts, IEC, Teflon 300B sockets and hole grommets were all installed next.

Part installation on the chassis

Next comes the fun part, the population of the PCB. Varying from the BoM, we have Elma Silmic II caps, Nichicon FineGold caps, Kiwame and Mills resistors and Mundorf Silver/Oil Caps. Slight changes to the circuit includes the Wima 0.1uF snubber cap and a pair of Solen 630V 5.6uF bypass caps in the power section.

The populated Get Set Go Board

On the bottom of the board, at Shannon's suggestion, we have a few of the Mills power resistors to help distribute the heat a little better. 

Bottom of the board

Now comes the long process of preparing the wood side panels. I decided on an antique silver leaf finish for these pieces. Since there is no off-the-shelf option for antique silver leaf that was readily available, I'm using some Speedball brand silver leaf pieces and some Old World Art brand leafing and antiquing materials.

Leafing Materials

Below are the wood side panels for the chassis before any prep.

Wood Chassis Panels

The first step in the antique leafing process is a red basecoat. This is typically used with a gold foil, so we'll see how it performs with silver. Below is the wood with the basecoat applied.

Red antique basecoat

 After two basecoats and a layer of adhesive size, the wood is covered with the silver foil sheets. This is a very unusual process, the foil is incredibly thin and will tear apart if it catches your fingers, so you have to be delicate. each foil sheet is laid down with a little bit of overlap.

Silver foil sheets laid in place

The foil is then burnished with a cheesecloth to have it form the curves of the wood. This is a messy process and the foil flakes will end up everywhere. They are so thin that you'll find them floating in the air. Once this is complete, a layer of sealant is used to protect the foil. 

Silver foil after burnishing

The antiquing kit included an antique glaze that is made for gold so it's a brownish hue. It didn't look right on the silver. Instead I chose to rub it down with powdered graphite before sealing it again. Then two layers of satin clearcoat were added for additional protection of the finish.

More to come

The Fine Print:

Please remember that building circuits and performing circuit modifications can be dangerous to you and/or your surroundings and should only be performed by a certified technician. The owner of this blog and all associated parties can not / will not be held responsible if you attempt a build or modification posted above and cause physical harm to yourself or your surroundings. Many electronics contain high voltages that can kill, and mods, if performed improperly, can be a fire hazard. Please keep this in mind. 

A Custom Audeze Balanced Headphone Cable

Anyone who has their hands close to the pulse in high-end headphones has heard of the Audeze. Formed in 2009, they have quickly developed a superb reputation for their planar magnetic headphones, the LCD-2, and very recently the LCD-3. Both headphones make use of a very convenient removable cable mechanism employing a pair of mini 4 pin XLR connectors. Switchcraft makes these for about $8 a piece, and you can find generics for less than half of that. As previous experience dictates; Switchcraft's connectors generally prove to be reliable over time, so I'll be sticking with those for this build. The male and female mini XLRs come in a variety of opening sizes to accommodate different cables. For the females that will be needed for the Audeze cable, the small opening version is the TA4F, and the larger opening is the TA4FLX. Below are photos of the TA4FLX.

The Switchcraft TA4FLX 4 pin mini XLR female

Since each driver only needs a signal and ground, and each mini XLR has four pins, the pins are shorted so that the signal uses pins 1 and 4 and the ground uses 2 and 3, as seen in the below diagram.

These tiny little solder tabs require care to solder to and see the numbers associated with each pin. A lamp can be very helpful to get a good look at the connector while working with it. Neotech UP-OCC copper was used to short the pins below. 

Shorted Switchcraft mini XLR pins

Now comes the time to braid the wire for the cable. The process is started by trimming four identical lengths of wire, then braiding it in a litz up until around 18 or so inches from the end. The last bit of wire is split into two twisted pairs, on for each cup. This particular cable will be made using Cardas litz copper wire in Teflon. Cardas litz wire is a number of different gauges of wire, each covered in enamel that needs to be melted away with hot solder (a solder pot is especially helpful). This needs to be done for each end that is stripped.

Braided Cardas litz wire in Teflon

The wire is now sleeved with black nylon multifilament, 1/8" for the twisted pairs and 3/8" for the four wire litz. A ViaBlue splitter was placed over the "Y" split of the cable to give it a sleek look. If you'd like more details about the ViaBlue SC-2 splitter, please read my post regarding a ViaBlue Mini to RCA cable build. 

Prepped and sleeved cable

Since the wires are all the same color, it can be beneficial to color code them to later reference. Hardware stores carry electrical tape in a variety of colors. Typically ground connectors are labelled green, right signal is red, and left is black or white. This isn't always the case, but one can choose a convention for themselves and stick with it. It prevents one from having to pull out the multimeter too often. 

Labelled wires

This headphone cable is going to be balanced, for a balanced amplifier. There isn't an "official" balanced headphone connector, but there are two methods that are the most common; a dual-three pin XLR where only two of the three pins on each connector are used, and a four pin XLR where all four pins are used. This is discussed in greater detail in an earlier DIY Balanced Adapter Cable post.  I'm personally of the opinion that a 4 pin XLR should be used; it's a cleaner, easier cable to produce and a lot less heavy if using a balanced to single-ended adapter. The wire is now soldered in place. The typical wiring configuration for a 4 pin XLR is as follows:

Pin 1 - L+
Pin 2 - L-
Pin 3 - R+
Pin 4 - R-

A piece of heatshrink holds the nylon sleeving in place, and the strain relief grip is placed under the 4 pin connector.

4 Pin Neutrik male XLR connector

The metal sleeve is slipped on top of the 4 pin connector and the plastic strain relief grip is covered by the bottom piece which screws in place, creating a strong grip on the heatshrink and nylon sleeving. 

4 Pin XLR attached

The Switchcraft 4 pin mini XLRs are then soldered in place. As mentioned above, the signal uses pins 1 and 4 and the ground uses 2 and 3. The cable is now complete.

Completed Audeze LCD-2 cable

A balanced adapter was constructed so the headphone could be used with single-ended amplifiers. If you'd like to read how this was constructed and learn a little more about balanced headphone operation, visit the Balanced to Single Ended Adapter Cable post.

Completed cable with balanced adapter

Also built for the Audeze LCD-2 was an identical cable using Kimber TCSS copper in Teflon wire. The Audeze has what I would consider a warmer and more laid-back presentation. The Kimber wire helps bring it forward a little bit without being harsh.

Balanced cable for Audeze headphones w/Kimber wire

If you are looking for your own custom made Audeze LCD-2, LCD-3, or LCD-X cable, Contact Zynsonix Audio for a superb sounding Trebuchet Audeze headphone cable, made with 99.99997% pure, custom ohno cast copper.

Zynsonix is an authorized dealer for Audeze headphones which include not only a full factory warranty, but a free Trebuchet headphone cable. Contact Zynsonix for details.



The Fine Print:
The above steps detailing the building of a cable are for entertainment purposes only, and not to be performed under any circumstances. The owner of this blog and all associated parties can not / will not be held responsible if you attempt the process posted and cause physical harm to yourself, your surroundings or your property. Please keep this in mind.