The archive file includes 2 x sizes I haven't used before 15mm and 1/2" or 12.7mm
Please use these files respectfully, these are still my intellectual property. I don't want to see people selling these (unless I have given permission)
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A lot of people message me and ask for project PCBs to build stuff. I am fed up with writing the same messages with the same images so I thought I'd do a post on here with a picture of each board I have and what they are.
Pepers' Pedals - 3PDT Bypass and Utility PCB
3PDT mini Bypass PCB
3PDT Bypass + DC filtering
3PDT Toggle Order Selector
Dual Opamp Buffer (Klone Style. PCB has value errors)
Dr Boogie PRT. Dr Boogie with the standard tone tack removed. In place of that is a modified version of the ROG Tone Mender circuit. Can be used to drive a power amp directly
Dr Boogie. This Dr Boogie PCB can do 3 x variants of the circuit. Standard, GM tuned and LWA Black Mesa
Kinetosis. A modded EQD Sea Machine
HM-Too Many Clones. My HM-2 PCB. Over 200 of these have sold on my DirtyPCBs store. Very good sounding HM-2 clone
Superior Octave Fuzz. Tricked out Super Fuzz. Has so much more to offer than a regular super fuzz
Sassy Drive. OCDv3 PCB that goes into my Sassy Drive build
Dirty old TS9/TS808 board.
EQD Ghost Echo Clone.
4049 Bass Drive PCB. B3K clone
The ROG Tone Mender Circuit. So good.
BE-OD Board
Maximum Overdrive board. Not using these anymore have a few left.
ONE to TWO to ONE. Split and blend. Parallel circuits
Love Squeeze Compressor
SMD RAD. Ditched the through hole and decided to make the RAD as SMD
Grunt Machine. Super high gain amp emulator. Can drive a power amp directly
UPDATED 1-6-2018 - Minor Changes to build doc images. New Blend version coming soon
UPDATED 16-2-2018 - Drilling templates, EQ mods, Diode Mods
After many hours of perfecting and careful component selection and measuring of various crucial components I have finally finished my HM-2 Clone PCB.
I have aptly named it HM-Too Many Clones and it's a very very close recreation of the MIT and HM-300 I have here at home.
This PCB is available to everyone!! You can buy it straight from the fab shop in minimum quantities of 10.
Comes in 2 different versions Pots Up and Pots Down. The PCB itself comes with mods and 3PDT daughter boards too. So it's very flexible. Make sure you choose the right colour. I think it defaults to RED (they do look awesome in red).
First of all the PCBS will come as a panel with all the elements connected together and if you have ordered from the above link you will get a minimum of 10x PCBS you may be lucky and get a few more, that's the beauty of the protopack. These smaller PCBS are joint together by something called a "mouse bite" a row of small holes. All these panels can be easily snapped apart to make the HM-TMC (Too Many Clones) into a few different versions.
HM-2 classic 4 knob
HM-2 with Mids control 5 knob
HM-2 with Mids and Blend control 6 knob
FX-56B Classic 4 knob verison
FX-56B with Mids control 5 knob
FX-56B with Mids and Blend control 6 knob
For more information on my 3PDT daughter boards have a look here. the 1N5817 can be installed either on the 3PDT board OR on the main board. Jumper the one that isn't used.
Now I guess we better go over the BOM. This is the BOM for the one that is in the used in the demo recording below. All component values are marked on the PCB. Values marked with an "*" are the components needed to exchange for the DOD FX-56B HM-2 clone and some are for other mods to come.
You don't necessarily need to use the components I have stated above that was my BOM for the build used in the recording. You are welcome to experiment with ICs transistors, diodes and cap types (be wary of tolerances on caps). There is no reason why you can't use TL072 Op-amps, LEDs for diodes and BC series transistors. I have found the FET buffer can be a J201, 2N5457 or 2SK30 (crossed legs) and all get basically the same sound. You can use 2n3904 and 2n3906 for the transistors too. I've found that the PNP transistor ideal hFE range is about 280-320, the NPN ideal hFE range is about 350-420. Once again experimentation is welcomed.
Wiring configuration for the 5 or 6 knob verison. If you want either just Blend or just Mids mods simply snap off the PCB you don't want and rearrange the wiring to suit.
Wiring configuration for the classic 4 knob HM-2 clone. DON'T FORGET TO BRIDGE THE SOLDER PAD
DOD FX-56B Mods
These are all the component changes required to change it from an HM-2 to a FX-56B
Clipping Diode Mods
By using a DPDT switch (ON-ON or even ON-OFF-ON) and different clipping diodes different flavours of distortion can be obtained. This is a drawing showing where to connect wires to the PCB to take off to switches to add clipping options.
Any combination of diodes or transistors can be used. It's totally up to you to experiment.
Gyrator EQ Adjustments
Have a little play with the EQ bands.
Download my Gyrator EQ calculation spreadsheet HERE
The spreadsheet has all the HM-2 values already inputted.
Drilling Template
I have made up a drilling template to help with assembling this pedal into a box. The file is a .svg which is a scalable vector file. I use Inkscape to make these drawing and I recommend it is used to open this file. Inkscape can be found HERE.
I have set this up using layers so you just need to turn layers off or on as you need them
The template include all the versions and ideal setup
This is my completed build on PCB version 1.0. The new PCBs are a little bit better organised and have a few errors corrected on them.
This is what you want to hear. Results! This is my HM-2 clone played by my great friend Josh Hughes. He has absolutely blown me away with this demo clip. No video just recorded audio.
This is the setup he used for recording all the tracks on guitar and bass in the above demo.
The signal goes Guitar -> NS-2 Loop Send- > HM-TMC -> MXR Fullbore metal -> NS-2 Loop Return -> 35W Pepers Pedals mini power amp. The pedals were used at the settings below. The Fullbore metal is used to simulate a slightly dirty amp channel and for some tone shaping. After talking with him the NS-2 is only to remove noise for recording purposes. The pedal is "as quiet as a mouse"
Any comments or questions on this build put them down below. I will constantly update this page with more mods and additional build instructions if they are needed.
Looking forward to seeing all the community builds come out!!
Everyone loves a good delay. This one was built for a long time customer one of my earliest customers to be precise.
He requested a delay he could hold his foot on and then let go of it and the delay trails off. I suggested that he add the option of being able to have it latching or momentary and also be able to switch the tails on or off. So here is what I come up with.
First of all I needed to work out how to do the switching in this. I decided to use my little Digispark module PCB I made a while back. I've used Digisparks in a few other projects. They are awesome and can be bought for less that the cost of an ATtiny85 the IC that is on the board. CRAZY HUH!!??. This PCB is v1.0 and has so many flaws so I had to hack it up to make it work. I wrote some small code that gave me inputs from a toggle and a stomp switch and outputs to a relay and dual colour LED.
The control goes like so:
Toggle UP - Latching relay and Green indication LED
Toggle DOWN - Momentary relay and Red indication LED
Digispark module installed
Next I needed to add the Tails module. I also have a PCB designed for this. It usually mounts onto a 3PDT switch. I can't take credit for the schematic I found it on the DIY Stompboxes forum. It's explained thoroughly in the post. It's a summing amplifier that mixes the tails back into the normal signal
Slackers Tails Schematic
Tails Bypass module PCB
Tails module installed
Now that the tails module was in it was time to mount the delay board in. It's just a boring PT2933 based analogy sounding digital delay board. I call it the Delays Ahead.
Everything is in. Ready to test.
Now it's time to test it and make sure the switching and delay works as it should
Powers up ok
Latching
Momentary
After fixing a few issues in the code it was away. Worked perfectly. Foot on the switch with the toggle down and it gives delays until foot is lifted off and then trails off until there are no more repeats. Toggle up works as latching. Second toggle enables and disables the tails.
So that pedal was send out to it's owner and he was very pleased with the outcome. A few months past I decided that I should remove the toggle to change modes between latching and momentary by just using the switch. I wrote some new code and tried it out on my test Digispark module. I've developed this switching for a new chaos delay I'll be working on in 2018. If you aren't familiar with my Chaos Delay it is a PT2399 delay with oscillation based on the Rebote 2.5 circuit.
So with this new switching method I'll be able to use the delay for momentary like the above pink delay and also use the switching for the "Chaos" mode where it enables the self oscillation.
Click = Latching click on/off
Hold =Momentary. While being held output is on. Once switch is let go output is off.
Keep an eye out for projects with this switching method in them.