"The Wire" Ultra-High Performance Headphone Amplifier - PCB's - diyAudio
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Old 17th December 2010, 03:08 AM   #1
opc is offline opc  Canada
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Default "The Wire" Ultra-High Performance Headphone Amplifier - PCB's

A new run of these boards is now available! Please see the following thread for details:

http://www.diyaudio.com/forums/solid...ml#post3516741


Hi Guys,

I just finished building my latest headphone amplifier project, and this one is definitely worth sharing with the community. After a few prototypes, I went ahead and had some PCB's made, and there are plenty extra available if people are interested.

I basically wanted a headphone amplifier that was as close as could be to a wire with current gain. I didn't want it to impart anything at all to the source signal. That led me to the following design criteria:

- Perfectly flat FR from DC to over 100kHz
- No phase shift from 0-100kHz
- No capacitors (except for PSU)
- Extremely low harmonic distortion
- Extremely low IM distortion
- Extremely low noise floor
- Ability to drive down to 4 ohms with no load dependence
- Enough voltage swing to drive any reasonable headphone set.
- Excellent input CMRR
- Simple circuitry using the best parts available.

I needed a balanced input, and wanted to use a standard 1/4" jack for the output.

The resulting amplifier is basically an instrumentation amp using three LME49990 op-amps and an LME 49600 buffer nested into the last stage. These parts represent the absolute best you can get for this sort of application. I used all 0.1% Susumu thin film resistors, and all X7R ceramic bypass capacitors placed directly on the supply pins. Bulk caps are all solid polymer for the absolute lowest ESR and best HF performance. Layout was optimized for short signal length, low noise and low crosstalk.

The circuit provides differential input, or the option to ground one phase and drive the circuit with an SE input. Gain is set to 1, but can easily be changed to pretty much anything with just two resistors It runs on +/-5VDC up to +/- 15VDC and has enough drive to run anything you can throw at it.

As for sound, having a DC coupled amplifier makes for some of the most stunning bass I have ever heard. I'm driving a pair of Denon AH-D2000 headphones, and there's a world of difference between this amplifier and every other source I have ever tried when it comes to performance below 100Hz. It has incredible impact, depth and cleanliness. In the midrange and top end, it passes on the characteristics of the source like nothing I have ever heard. I've driven it with an Aikido linestage, a BZLS, straight from a DAC and a multitude of other devices, and all you hear is the device driving it. I now use this setup as my primary means of evaluating all preamps and sources since nothing else I have ever used even comes close to exposing the true nature of the sources like this circuit does. It's honestly like it's not even there... hence the name.

I've attached some pictures of the finished product below, and I'll follow up with some measurements done on an Audio Precision. Schematic to follow also.

Cheers,
Owen
Attached Images
File Type: jpg Whole amp connected.jpg (319.5 KB, 24342 views)
File Type: jpg Whole Amp Disconnected.jpg (453.6 KB, 21977 views)
File Type: jpg Amp and PSU.jpg (426.6 KB, 20812 views)
File Type: jpg Amp Side.jpg (406.5 KB, 20256 views)
File Type: jpg Close-up.jpg (250.8 KB, 19882 views)
File Type: jpg Amp Bottom.jpg (354.5 KB, 5922 views)
File Type: jpg Amp Front.jpg (359.6 KB, 4890 views)

Last edited by opc; 6th June 2013 at 04:21 AM.
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Old 17th December 2010, 03:28 AM   #2
opc is offline opc  Canada
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I've attached a multitude of measurements of the circuit that were made using a brand new Audio Precision APx585 and a headphone load test jig.

I'll let the measurements speak for themselves. It's pretty easy to see that all the design goals listed above were easily met, and this circuit has absolutely incredible performance.

Vanishingly low THD+N and IMD levels, incredibly flat FR, no phase shift in the audible band, and an astonishing 145dB SNR.

The 1kHz (1V into 32ohm) FFT tells a large part of the story. The noise floor is down at -145dB, 2nd harmonic is more than -120dB down with the third more than -125dB. 4th and 5th are below -130dB and 7th just peaks over the -130dB line. There is no 60/120Hz PSU noise whatsoever, and the HF range is dead quiet. I'd challenge anyone to post a measurement of an amplifier that can do better than this.

Note dB the scale on the frequency response from 5Hz to 50kHz. You're looking at an amplifier that is +/- 0.001dB from DC to 20K. +/- 0.004dB up to 50kHz. This is at 1V driving a 32 ohm load.

Same notes on the phase scale over the same range. Phase shift is 0.11 degrees at 20kHz, and less than 0.4 degrees at 50kHz. As above, this is 1V into 32 ohms.

Moving on to IMD, performance is still phenomenal and there's nothing to hide here. There's a plot for SMPTE, MOD, DFD and CCIF. Again, this is 1V into 32 ohms.
Attached Images
File Type: png FFT - 1V - 32R.png (123.0 KB, 5103 views)
File Type: png Relative Level (1.00000 kHz).png (72.3 KB, 2251 views)
File Type: png Phase.png (70.8 KB, 1445 views)
File Type: png SMPTE Distortion Product Ratio.png (50.1 KB, 1503 views)
File Type: png MOD Distortion Product Ratio.png (45.0 KB, 1316 views)
File Type: png DFD Distortion Product Ratio.png (39.3 KB, 924 views)
File Type: png CCIF Distortion Product Ratio.png (39.4 KB, 855 views)
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Old 17th December 2010, 03:44 AM   #3
opc is offline opc  Canada
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Next up we have drive level dependency. This amplifier exhibits superb performance whether it's driving 1V out, 0.5V out or 0.25V out into 4 ohms, 9 ohms, 16 ohms, 32 ohms, 900 ohms or 10k ohms. That means performance doesn't crumble at lower or higher output level. It also doesn't change with load, which can vary widely with some headphones.

There are three FFT's attached each at different voltage drive levels into 32 ohms. Performance is actually marginally better at lower drive levels, as the 2nd harmonic drops to just over -130dB and the 3rd harmonic to just over -135dB. The noise floor is sitting down at -155dB. I've never seen anything measure this quiet.

The last 6 graphs show drive capability into various loads. In order they are 4 ohms, 8 ohms, 16 ohms, 32 ohms, 900 ohms, and 10k ohms. The LME49600 current limits into very low impedance, and voltage clips into higher impedance loads. These graphs show you what you can expect to get for drive levels into various loads. All measurements were done with +/- 15VDC rails.
Attached Images
File Type: png FFT - 0.25V - 32R.png (123.2 KB, 1042 views)
File Type: png FFT - 0.5V - 32R.png (123.4 KB, 858 views)
File Type: png FFT - 1V - 32R.png (123.0 KB, 803 views)
File Type: png THD vs OUTPUT 4R.png (71.9 KB, 909 views)
File Type: png THD vs OUTPUT 8R.png (72.3 KB, 708 views)
File Type: png THD vs OUTPUT 16R.png (76.7 KB, 613 views)
File Type: png THD vs OUTPUT 32R.png (82.6 KB, 687 views)
File Type: png THD vs OUTPUT 900R.png (83.9 KB, 657 views)
File Type: png THD vs OUTPUT 10k.png (83.6 KB, 638 views)
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Old 17th December 2010, 04:12 AM   #4
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Quote:
Originally Posted by opc View Post
Layout was optimized for short signal length, low noise and low crosstalk.
How do you connect the pin1s of the XLR inputs? Straight to the groundplane ?
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Old 17th December 2010, 04:13 AM   #5
opc is offline opc  Canada
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Finally, I've attached the schematic with the top layer layout.

Any comments or questions are welcome, and of anyone is interested in a board, let me know. I made 25 pairs of amp and PSU boards, some of which I'll be keeping for various projects.

Cheers,
Owen
Attached Images
File Type: png Top.png (67.0 KB, 5720 views)
Attached Files
File Type: pdf HDPH BAL.pdf (64.1 KB, 5133 views)
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Old 17th December 2010, 04:17 AM   #6
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Thumbs up Very nice!

I see you are keeping busy, Owen.
Are you going to bring this to the January meet?

John
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Old 17th December 2010, 04:28 AM   #7
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Hi John,

Busy indeed! It will definitely be making an appearance at the next meet, probably driven by the DAC I've been working on. I'll set it up along with the Denon headphones and people can give it a good listen.

I more or less designed it specifically for that purpose, and it works very well in that setup.

I started the whole undertaking 6 months ago when I realized I do 90% of my music listening on my headphones at work. I looked at my $20 Sennheiser headphones plugged directly into my computer's soundcard and though "I should probably put some effort into making this better".

Hence the DAC and this amplifier.

Will you be at the next meet?

abraxalito:

They are indeed tied directly to the plane. Are you concerned about the 0.1mA of current pulling a voltage differential across that 0.001 ohm plane?

Cheers,
Owen
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Old 17th December 2010, 04:35 AM   #8
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If I see that I manage to solder the smd components for the DAC, I would be very interested in getting a board.

Thanks,

Davide
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Old 17th December 2010, 04:36 AM   #9
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Hello,

Opc, very clean and beautiful design.
For HF immunity, maybe it could be better to slightly limit the bandwidth
with shunt capacitor (pF range) and a serial chock inductor.
Without that, your amplifier have a so high bandwidth that it
can receive radio signals and intermodulated with.
Do you plan to organize a PCB group-buy ?
Regards.

Frex.
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Old 17th December 2010, 04:37 AM   #10
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Quote:
Originally Posted by opc View Post
They are indeed tied directly to the plane. Are you concerned about the 0.1mA of current pulling a voltage differential across that 0.001 ohm plane?
In my experience, ground currents are often more than 0.1mA. So yeah, given you seem to be aiming for the sky (or should I say the earth's core?) in terms of measurement numbers, it does seem to me to be an issue. Does your groundplane really have such a low impedance as a milliohm? How does it fare at higher frequencies?

I'm curious to see how such a well measuring piece of kit fares when subjected to common mode currents at various frequenices (not merely audio ones) through its pin1s. Do you have equipment that can measure that?

<edit> I agree with Frex about band limiting. I think series inductors or a common mode choke are a good idea. I think it may've been Ed Simon who recommended an inductor on the input pins of National opamps like this one - they are rather RF sensitive. Also a CM choke prior to the mains transformer.
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Last edited by abraxalito; 17th December 2010 at 04:48 AM.
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