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-   -   A guide to building the Pass F4 amplifier. (http://www.diyaudio.com/forums/pass-labs/234355-guide-building-pass-f4-amplifier.html)

6L6 17th April 2013 10:10 PM

A guide to building the Pass F4 amplifier.
 
Building the Pass/Firstwatt F4

This is a fantastically good sounding amp - read more about it here before staring;

http://www.firstwatt.com/pdf/prod_f4_man.pdf

The thread at DIY audio -

http://www.diyaudio.com/forums/pass-...amplifier.html

And this the the corrected schematic (The schematic in the Firstwatt article has a typo, also this one agrees with the PCB)

http://i198.photobucket.com/albums/a...ps32c28b0a.jpg

Here you will find a build guide for the Pass / Firstwatt F4 power amplifier using PCBs and chassis from the DIYaudio store.

The 5U 'BIG Amp Chassis' is shown, because that's the one I have. It will fit comfortably in a 4U 'Jack of all chassis' and have enough heatsink as well.

~~~~~

There are plenty of places that you could start, but for the sake of illustration let's begin with the heatsink assemblies -

http://i198.photobucket.com/albums/a...ps4ef8a39d.jpg

This is the heatsink(s) from the 5U 'BIG Amp Chassis' It has a mirror-imaged set of pre-drilled heatsinks and brackets to hole them together and make a mounting point for the rest of the enclosure. The 4U is similar, but the heatsink is a single piece.



http://i198.photobucket.com/albums/a...ps82f8a4cd.jpg
This build will also utilize the 'DIY friendly' baseplate, here shown with the feet and hardware, and also the heatsink's brackets.

http://i198.photobucket.com/albums/a...psc3c5f01d.jpg
There is a hardware package available for the pre-drilled back and heatsinks, including input and output jacks, IEC module, and hardware for the PCB and heatsinks.

http://i198.photobucket.com/albums/a...ps9fb0c96c.jpg
The contents of the hardware bag.

http://i198.photobucket.com/albums/a...s85a2e08a.jpeg
Using the brass PCB standoffs, install them into the PCB mount holes as shown, to get the following pattern;

http://i198.photobucket.com/albums/a...psf97a8602.jpg
Now there is a place to mount the amplifier PCB

http://i198.photobucket.com/albums/a...ps1544a1a0.jpg
Speaking of PCB, it's a very nice layout, plenty of room, and the ability to use many sizes of resistors and caps. This is the front.

http://i198.photobucket.com/albums/a...ps5890d195.jpg
Here is the back.

http://i198.photobucket.com/albums/a...ps77bafab7.jpg
Stuffing the PCB should be done in the usual order, from smallest device to biggest - so that would be diodes and resistors first.

Of note, I got the bigger (Dale/Vishay RN60) resistors to see how they would fit on the PCB. They are the size of the PRP resistors that are quite popular amongst the fancy parts crowd. They are great everywhere except the row flanking the small transistors right in the middle. They don't fit there side by side. You could mount them soldier style, or just mix in a few smaller resistors like I did. Or just get RN55's. They are the smaller size.

http://i198.photobucket.com/albums/a...ps30cf4d2c.jpg
Pots and transistors next. (yes, I didn't stuff the input pair when the photo was taken…)

http://i198.photobucket.com/albums/a...ps65e7fd6f.jpg
Ah, there they are.
The ziptie is just to help their thermal tracking.

http://i198.photobucket.com/albums/a...psf8e420df.jpg
And finally the capacitors.

http://i198.photobucket.com/albums/a...ps795ceade.jpg
There is a top and bottom to the Universal Mounting Spec holes, the board mounts as shown

http://i198.photobucket.com/albums/a...ps3359f3f7.jpg
I find it helpful to bend the leads of the transistors first, and mount them (a little bit loose) to the heatsink.

http://i198.photobucket.com/albums/a...psdec762b0.jpg
Like this

http://i198.photobucket.com/albums/a...ps1192f349.jpg
And then mount the PCB. You can snug all the screws down and then solder and trim.

Ok, now lets move on to the Power Supply.

http://i198.photobucket.com/albums/a...ps616b983c.jpg
Here is a photo of the PSU board, I am going to use integrated bridge rectifier blocks, so you need to remove the part of the PCB that mounts the diodes. The new PCB, not quite yet available at the time of this writing, will have a similar feature with the diodes, as well as room for more/bigger capacitors.

http://i198.photobucket.com/albums/a...ps30c7bdad.jpg
As always, stuff the small components first - the light blue resistors are the filter resistors, the darker ones with the teflon are the bleeder resistors, and the small ones are for the LEDs.

This PSU board is the exact same DIYaudio PSU board, just without the top blue soldermask.

http://i198.photobucket.com/albums/a...psd50e6012.jpg
This shows the INPUT edge (from the diode bridges)

The capacitors are Panasonic T-UP 33,000uf 35V

http://i198.photobucket.com/albums/a...psbec07865.jpg
Connecting the bridges to the PCB

http://i198.photobucket.com/albums/a...psf0ac7805.jpg

http://i198.photobucket.com/albums/a...ps6e21e4c3.jpg
This is the OUTPUT edge of the PSU - the colors are
Red V+
White GND
Green V-
The black connects the PSU GND to the CL-60 to the chassis.

http://i198.photobucket.com/albums/a...psd0648203.jpg
The wiring from the PSU to the amp PCB is clearly shown.

http://i198.photobucket.com/albums/a...ps595e76c4.jpg
Here you can see the bridges with the wires attached from the transformer secondary. Remember that the green attached to a bridge must have continuity with the blue attached to the same bridge. (As it's the 2 ends of the same piece of wire)


http://i198.photobucket.com/albums/a...ps2330b348.jpg
As long as were are tailing about the transformer, here is a photo of the terminal block shown wired for 120v. The Blur lead is the AC Live, and the clear the AC neutral. The reds and blacks are the transformer primaries.

Transformer is an Antek 400VA 18v+18v, part number AN-4218.

http://i198.photobucket.com/albums/a...ps3ff1ace7.jpg

The last bit of the PSU wiring is the chassis connection, the black comes from the PSU GND, and the green is the AC safety earth.

The AC to primary wiring confuses everybody, so;

Let's look at the PSU schematic just to make sure everything is OK... Remember that I am wiring it for 120v operation, so the transformer primaries are in parallel. People wiring for 240 with a transformer like this, please ignore.

http://i198.photobucket.com/albums/a...Uschematic.jpg

Notes in red are mine.

Look at the connections of the transformer primary, through the thermistors and line cap, to the mains.

Hot AC is connected to the "120" (which in my case is the red leads on the primaries) One red primary is connected to AC hot through a thermistor.

Neutral AC is connected to the black "0" leads, one of which is connected to the AC through a thermistor.

AC Hot and Neutral have a cap across the leads.


So, yes, the AC will be connected to the center 2 posts, which is across the cap.

http://i198.photobucket.com/albums/a...m/DSCF0098.jpg
(This photo lifted from my F5 thread, but it's the same PSU…)

Left to right we have post 1, 2, 3, 4

POST 1 - Transformer primary 'B 0' which will be connected to AC Neutral at post 2, through the thermistor between post 1 and 2.

POST 2 - AC Neutral in (not shown in photo), connected to Transformer primary 'A 0" , a thermistor to post 1, and a line cap to post 3

POST 3 - AC Hot in, connected to transformer primary "B 120", thermistor to post 4, and line cap to post 2

POST 4 - Transformer primary "A 120", connected to AC Hot through the thermistor to post 3

If you look at the red and black wires in the photo you will see that the Mains AC must to pass through a thermistor to connect to each of the 2 primaries. And that is the point of them, to keep inrush under control during powerup.

Ok!

Now we need to put everything together -

But first a bit more mechanical assembly.

http://i198.photobucket.com/albums/a...ps154c4eb4.jpg
This is the pre-cut back plate and the thick front plate.

http://i198.photobucket.com/albums/a...ps4feae671.jpg
Gather and mount the IEC plug.

http://i198.photobucket.com/albums/a...psea052fad.jpg

http://i198.photobucket.com/albums/a...psf81194a0.jpg
The speaker posts.

http://i198.photobucket.com/albums/a...ps78619adc.jpg

http://i198.photobucket.com/albums/a...s52d02da2.jpeg
And the RCA jacks.

Note that the shoulder washer goes on the inside, so the metal of the chassis doesn't touch the metal of the jack. There is a similar washer on the speaker posts.

http://i198.photobucket.com/albums/a...ps7ea37734.jpg

http://i198.photobucket.com/albums/a...ps81466a6f.jpg
The inside of the back panel.

http://i198.photobucket.com/albums/a...psa6eac495.jpg
And the outside. Looks good, yes?

http://i198.photobucket.com/albums/a...ps6ceffebf.jpg
The IEC module is wired as shown. This will switch both the Live and Neutral. The blue (live) and clear (neutral) go the the wiring block with the thermistors, cap and transformer primaries.

http://i198.photobucket.com/albums/a...ps1c20d402.jpg
The amp PCB completely wired.

http://i198.photobucket.com/albums/a...pse2fd0def.jpg
A bit closer.

http://i198.photobucket.com/albums/a...ps204b9870.jpg
The top connections labeled.

http://i198.photobucket.com/albums/a...ps9fc1ace7.jpg
This happens to be the other channel, but the connections are all the same.

Remember that V- / GND / V+ is always left to right as you are looking at the format of the PCB

http://i198.photobucket.com/albums/a...psf813f64d.jpg
I'm not entirely sure what I was trying to show here, other than the screw and washer. It looks cool. I will keep the photo in the guide.

http://i198.photobucket.com/albums/a...ps4cbad30f.jpg


http://i198.photobucket.com/albums/a...ps250cb1fc.jpg
A few notes on bias -
P1 controls the bias, measured across any of the 3W source resistors. Adjust for 0.13v when it's cold, and watch that it doesn't get higher than 0.2v once it's up to temperature in about an hour. Adjust for 0.2v when hot.

P2 is used to adjust the DC offset on the output to zero.

http://i198.photobucket.com/albums/a...psb9663755.jpg
Attach a DC voltmeter across the speaker outputs to measure offset.



http://i198.photobucket.com/albums/a...ps4b4f9e14.jpg
If you find that the P1 doesn't have enough range, I.E., you can't turn it up enough, replace R9 with a smaller resistor, I used 4.75K and it works well.


http://i198.photobucket.com/albums/a...ps62a0e474.jpg
Connect a voltmeter across any of the source resistors. The outboard ones are easier to clip across.

Adjust for about 0.13v cold, and once the amp is up to operating temperature, trim for 0.20v - It takes a long time to warm up, take your time.

Adjust P2 for zero offset, then re-trim P1

Here is a photo of it all connected and working -

http://i198.photobucket.com/albums/a...psbb6eed41.jpg

I'm driving the F4 with an O2 Headphone amp sourced from an iPod; Driving 85.5db speakers. Although it is a small room, it gets louder than I want to listen. It still can't drive it to clipping, but it does get really, really loud.

One thing worth mentioning, and it speaks very highly to the quality of the amp, is that it is completely non-fatiguing, and more interestingly, very easy to listen to turned up too loud… I don't realize how loud it actually is sometimes. Complete transparency is a word used a lot when describing this amp - but I have to agree. It's fantastic!





Please comment away if you desire.

Also please feel free to ask any F4 questions here, and if you would like to post photos of your F4 completions, old or new, please do!

6L6 17th April 2013 10:24 PM

Placeholder for 6l6


http://i198.photobucket.com/albums/a...ps80a24696.jpg
The eagle-eyed among you noticed that I had the perforated baseplate installed upside-down, so I needed to flip it over and mount it so the screwheads under the steel perf would not touch the actual baseplate.

The provided hardware is a bit short, so I needed to improvise - this is DIY, after all, so no big deal.

http://i198.photobucket.com/albums/a...ps623e98b2.jpg
You can see here the perforated baseplate installed correctly.

http://i198.photobucket.com/albums/a...ps815ac47a.jpg
When searching for screws, they always come in 2 lengths - too short and too long...

http://i198.photobucket.com/albums/a...ps6086f60c.jpg
But those screws on the 4 corners do need to be longer than the center screws because the chassis feet are mounted with them.

http://i198.photobucket.com/albums/a...psf7079bb2.jpg

http://i198.photobucket.com/albums/a...ps1405b55d.jpg
Amp bottom

http://i198.photobucket.com/albums/a...pscdc2de19.jpg
When complete, each side of the amp bottom should look like this.


http://i198.photobucket.com/albums/a...psa294f307.jpg
A neat photo highlighting the extrusion profile of the big heatsinks.


http://i198.photobucket.com/albums/a...ps03c5379d.jpg
That completes it, the chassis is quite simple to assemble, and the pre-drilled back makes things really simple.
The amp goes together with very little effort -- it's a rewarding project.
You can also see in these photos that the 5U 'Big Amp Chassis' is, in fact, as advertised, being quite enormous.
I used the 5U because I had it, and it will be used for a number of these guides. The 4U 'Jack of all Chassis' would be plenty for this amp.

http://i198.photobucket.com/albums/a...ps63b6d483.jpg

http://i198.photobucket.com/albums/a...ps86905660.jpg

http://i198.photobucket.com/albums/a...psf5829d1c.jpg
For now I am driving the F4 with an O2 Headphone amp, as it is the only 'preamp' I have that can swing enough volts (7) to give real volume, although not to clipping. Still, has enough drive for my current setup, so I'm not wishing for something else. It also sounds fantastic. Seriously.
An ImPasse will be built to drive this amp, and I am also very interested in the Pumpkin / Shunty.

So how does it sound? Well, there is not a lot to say because it's so incredibly neutral, it sounds a lot like the O2, which is very neutral and musical itself.

I have been finding the amp extremely difficult to listen to critically and listen to the amp, as I find myself singing along to whatever I play… Every time. It's really cool.

How does it compare to the F5? That's very hard to describe - you the F5 is a fantastic sounding amp, no question. Better than any other amp I have ever built, tube or SS. It (the F5) will make you understand the whole 'Class-A' mystique, and you will be very happy that you built it, because it delivers on it's promises. It truly is a great amp and a great design.

The F5, when compared to the F4 is, in my opinion, is a bit boring. The F4 is that good. . But remember it comes at a price, specifically that you will likely need a dedicated preamp for it. (Or you could bi -amp it with a flea-powered tube amp, but that's a different story. See the manual for more info.)


Some interesting measurements concerning bias levels -

Here are some quick and dirty measurements I did looking at various levels of bias on the F4. ( +/- 22.5V rails )

The conditions are, amplifier to normal temperature, one channel driven (because I cant read 2 at once), input to amplifier 3V 1.1kHz sinewave from 339A, distortion read across 4ohm 100W dummyload resistor, oscilloscope and FFT connected to HP 339A monitor, which was outputting the residual distortion waveform.

http://i198.photobucket.com/albums/a...pse615c5aa.jpg
Bias measured across a .47 source resistor. (This is 1/2 the normal level, for illustration's sake)

http://i198.photobucket.com/albums/a...ps68fcc1d2.jpg
Distortion (Meter is set to the .1 scale, look at the arc above the mirror, here showing .065%)

http://i198.photobucket.com/albums/a...psef7bfb68.jpg
Here is the shape of the distortion residual. (No distortion would look like a perfect sinewave.)

http://i198.photobucket.com/albums/a...ps1060c074.jpg
FFT of the distortion residual. (please excuse the photo of the screen. The next time I do this I will get screenshots.) The 1st peak at 2.2k is the fundamental. (2.2k chosen as it aligns with the gridlines. ) Looking right, he 2nd peak is the 2nd harmonic, the 3rd peak the 3rd harmonic, and the 4th peak the 4th harmonic. Higher level harmonics are not visible, as they are very small and lost in the noise.


Now let's increase the bias to the recommended amount, 200mv measured across the source resistors.

http://i198.photobucket.com/albums/a...psf32bfd5c.jpg

http://i198.photobucket.com/albums/a...ps5331c43a.jpg
Distortion has now decreased to .016%. All that has changed is the bias. What a marked difference!

http://i198.photobucket.com/albums/a...ps0b0df873.jpg
The distortion residual has lost it's humps and is looking very smooth.

http://i198.photobucket.com/albums/a...ps9711f501.jpg
The 4th harmonic is no longer visible, and the 2nd and 3rd are greatly reduced.


Increasing further -

http://i198.photobucket.com/albums/a...ps52ccbb99.jpg

http://i198.photobucket.com/albums/a...ps9a906fdb.jpg
Distortion now .08%

http://i198.photobucket.com/albums/a...ps5a76accf.jpg
Residual very similar to above, but even more smooth. (A little bit, anyway…)

http://i198.photobucket.com/albums/a...psdff94c36.jpg
FFT showing the 2nd and 3rd harmonic even lower. Neat!


So the logical thing is to just crank it all the way up, right? Well, yes and no. Here are the reasons (and people with more experience please correct me if I'm wrong.)

1) Heatsink - at some point you are going to get too hot. With the 5U that wasn't an issue. A good rule of thumb is the transistors 65C max and heatsinks 55C max.

2) Bias current vs. VA of transformer. You don't want your total bias current (in watts) to be more than 1/2 or maybe 2/3 or your transformer's VA rating.

3) Transistor dissipation. Make sure you look at the datasheet for the output transistors, they all have an absolute maximum and a de-rating as they get hotter. For long life don't set more than 1/2 the max dissipation.

4) Point of diminishing returns. In this example the measured distortion continued to decrease (down to .045 or so) as bias was increased to 370mV, but the gains were very small and it would added lots of heat. The sweet spot was closer to 300mV bias.

PKI 17th April 2013 10:46 PM

Beautiful! as always :-)

zany 18th April 2013 01:30 AM

awesome build guide... again! many thanks for all your efforts.

bnorrish 18th April 2013 01:39 AM

:p Awesome build. I should give this a shot - easy to build and swap out with my F5. Preamp outs on my Yamaha receiver would probably drive but the DIY Store could use a pre-amp board with some gain. ;)

buzzforb 18th April 2013 01:52 AM

There are. BA1/2 and BA3. Both are very capable and can easily work as a preamp.

6L6 18th April 2013 02:02 AM

I would agree with Buzz - I looked very closely at the BA3 front-end as a preamp before deciding on the ImPasse... which was decided on for a bunch of non-performance related reasons. (Although it's performance is no slouch at all...)

Specifically, I am interested in a project with an input transformer, I have a ton of very premium 6SN7 and 6DJ8, I haven't built a tube project in a while, etc...

bnorrish 18th April 2013 02:13 AM

Quote:

Originally Posted by buzzforb (Post 3458687)
There are. BA1/2 and BA3. Both are very capable and can easily work as a preamp.

Interesting - board is $7. I have not looked the the BAs that closely. Anyone post one of those to make standalone preamp? Need to add some sort of attenuation for volume. I am sure there are a few other details.

6L6 18th April 2013 02:28 AM

Like anything, put your selector switch then your pot/stepped attenuator before the input of the gain stage. Easy!

PSU could be done a million different ways, choose your preferred flavor.

I would be happy to help, if you would like a nudge in the right direction. :)

thor61 18th April 2013 04:48 AM

1 Attachment(s)
Really great pics and write-up ! I have a heat-sink question as I have not drilled my sinks yet. Could someone tell me the distance from the bottom for the mosfet bolt holes ? See pick Attachment 343260


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