My problems are similar to those of Neve but different in important ways. Most customers are very cost conscious so, for example, they would change a Grayhill stepped gain switch for a REV LOG pot. Some like push buttons, others like toggles. Some want to improve on the Grayhill switches and fit ELMAs instead. This means that even supposedly standard modules are likely to require changes and I don't really want to lay out large 6U PCBs every time this happens.
Part of the problem is mounting components directly to the main PCB. Many mixer manufacturers went as far as to mount all the controls of a module on the PCB and interface this directly to the front panel. To allow for partial customisation they resorted to links on the PCB to allow AUXes for example to be set pre or post fader but that was the limit of customisation. The other problem with this approach is that the controls are now now right angle types and the height of their shafts varies a lot. This means they no longer line up and the front panel and looks a lot less neat. A possible solution to this problem is for the main board to be pretty generic with few if any built in controls (except perhaps for the EQ). Customisation is then done by further PCBs containing the required right angles components. In this way you can more or less get them in line, but you are still left with some differing shaft heights which is a real pain when it comes to designing stereo modules.
The only real solution to getting all the shafts in line is to use vertical mounting controls fitted to a PCB that runs parallel to the front panel. That way the control's shaft can be placed almost anywhere you like. This sounds like a great solution but in practice all it does is shift the problem. You now have to find a range of vertical mounting components that are all the same height. This had me stumped for a long time because there are plenty of vertical components available but finding ones of the right quality with the same height seemed an impossible task, and even if they were available, the sources were often obscure or involved purchasing lots of 1000 units. I managed to do it in a small way when the number of types of components was limited such as in the case of the 4toggles PCB. This little board is used with the Classic Solo design and holds four toggle switches which provide phantom, phase, 20dB pad and mic/line functions. The board is mounted directly to the front panel using the switches themselves, it has mic and line inputs and a single output all on Molex KK connectors.
The challenge is to extend the idea of the 4toggles board to more general interfaces like pan and AUX controls for example. Ideally we need the following controls available in a vertical PCB mounting format with identical heights:
- Rotary pot
- Toggle switch
- Push button
- Rotary switch
and the components all need to be of sufficient quality for them to be used in a pro audio mixer. It would also be nice if there was more than one source of each type.
An Answer
After a lot of research I finally came up with a set of readily available controls that appear to meet all the criteria:
Rotary Pot
I have chosen 9mm vertical pots made by ALPHA:
As you can see, the top surface of the pot is 10mm above the PCB surface. The threaded portion is 5mm deep so it will comfortably fit through a normal 2.5mm front panel leaving 2.5mm for the fixing nut (which is usually about 2.2mm thick). I chose these pots for several reasons:
- ALPHA have an excellent record of reliability in pro audio systems
- The range of values (including REV LOG) is ideal for audio use
- They are available from suppliers on both sides of the Atlantic
- They are available in round or D-shaped shaft styles which widens the choice of knobs.
Toggle Switch
The toggle switches chosen are the ones already in use in the 4toggles PCB:
The top of the toggle switch is only 8.64mm above the PCB but these switches are usually supplied with two nuts so one of them can be used under the front panel to bring the overall height to 10mm. Allowing for the lower nut and a 2.5mm panel thickness there will be just over 2mm of thread protruding above the front panel is is plenty for the small diameter nuts used with this switch. I chose this toggle switch because:
- They are widely used in pro audio
- They are available just about everywhere
- Several manufacturers make them
- The come in a good variety of options from SPST and DPDT types to oes with centre off or centre active positions
Push Button
The push button was perhaps the hardest component type to source. They are used in huge numbers in low cost mixers and are made by the truck load in China but their suitability for use in pro audio is suspect. The one I have chosen is the SPPH4 series by ALPS:
Once again, the top surface of the switch is only 8.5mm above the PCB surface but this does not matter because this part cannot be fixed to the front panel.Its only shortcoming is it has to be used with other components that attach the PCB to the front panel or else special fixings for the PCB have to be added for this purpose. I chose this push button because:
- ALPS has an excellent reputation
- the switches are rated for 10,000 operations
From the drawing it is clear that with the front panel 10mm above the PCB and a 2.5mm panel thickness, the button shaft protrudes 5.5mm above the panel when the button is not pressed. Most buttons are at least 6.5mm deep so these should recess nicely into the front panel.
Rotary Switch
For once we are spoilt for choice. There are four manufacturers of rotary switches that are mechanically compatible with this system. They are:
Knitter MRS18
As you can see from the above diagram, the top of the switch is 7.5mm above the surface of the PCB. A single nut and washer is enough to pad this out to 10mm. As the threaded shaft is 7mm tall, it will protrude 2mm above a 2.5mm thick panel which is just enough to attach a nut to secure it. It is available in 1 pole 9 way or 2 pole 4 way versions. It has 6mm diameter D type shaft. It does not appear to have an adjustable stop.
ALPHA SR17
This is identical to the Knitter MRS18 and is also available in 1 pole 9 way and 2 pole 4 way versions.
GRAYHILL 56 SERIES
As can be seen from the above diagram. the top of the switch is 9.58mm above the PCB surface. A single washer is enough to pad this out to 10mm. With a 2.5mm thick front panel, the threaded shaft protrudes 3.5mm above the front panel which is plenty to include another washer and a nut. It is available in 1 pole 12 way, 2 pole 6 way and 4 pole 3 way versions. It has adjustable stops and a 1/8th inch diameter shaft.
NKK MRK112
The NKK MRK112 is similar but not identical to the Grayhill 56 series switch.The top of the switch is 10.1mm above the PCB surface. The threaded shaft is 5.5mm tall so it protrudes 3mm above a 2.5mm thick panel which is ample for its fixing nut and a washer.It is available in 1 pole 12 way, 2 pole 6 way and 4 pole 3 way versions. It has a 3mm diameter d type shaft.
Conclusion
The above parts are sufficiently mechanically compatible to consider building small PCBs to hold them on a project by project basis. All are either currently employed in pro audio applications or have a life expectancy compatible with pro audio applications. I plan to emply them first in the 6U modules of the MKIII tube mixer.
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