We find that wiring a MFOS PCB to the front panel controls is both time consuming and often detracts from the overall finish. We are not able to alter the MFOS PCBs to make panel wiring easier so we approached the problem from a different angle. We chose to mount the front panel controls on a mini PCBs (breakout boards) that take the panel controls to a JST type XH socket into which is plugged a lead (not included with set but available separately). This lead is then dressed to the main MFOS PCB (or sometimes to other panel controls) and soldered into the respective pads. Many breakout boards have solderable jumpers for making common connections as well as thin tracks to cut where panel mounted resistors need to be connected inline with say a pot wiper. MFOS projects may require multiple breakout boards so we bundle these altogether and offer them in one ST Synth Panel Breakout PCB Set. The pack description will further describe the wiring colour code and what if any links need to be made or cut.
This method does have other advantages other than just time saving and appearance:
- Time saving
- Neater more professional appearance - improves resale value
- Takes care of common connections between panel components
- Has space to accommodate panel mounted resistors and capacitors
- Can improve reliability - have you tried soldering a diode, LED and a wire to one pin on a toggle switch on the 16-step sequencer?
- Makes fault finding easier
If you have any reservations about using connectors, then simply solder wires direct to the breakout boards. Takes longer but you still get all of the other advantages.
The boards are designed to fit our front panel component spacing so you will see references to pitch and whether it is in the 'x' or 'y' or both direction. At the time of writing, there was 30+ breakout boards developed for pots (using pot brackets), sockets (jack and banana), switches and LEDs. Whilst these will not take care of every panel component on over 40 MFOS projects, it will go a long way to achieving it. As we work through making up each MFOS project with these breakout boards, we will see where improvements can be made or even create more breakout boards to provide the best possible solution.
The panel PCBs can also be used with our YuSynth range. YuSynth PCBs are better laid out as regards panel wiring but can still take advantage of these breakout PCBs.
This pack contains the following breakout PCBs:
- 7210-703 x 1
- 7210-704 x 1
- 7210-733 x 1
Whilst you can solder wires between the breakout PCBs and the main PCB, we do recommend using our JST cable assemblies. For the VCO, you will need the following:
- 7210-109 x 1
- 7210-110 x 1
- 7210-112 x 1
See the Build Guide tab for wiring information on how to use these breakout PCBs with this module.
Guidelines when building a State Variable VCF module using our panel PCBs, front and back panels, PCB holder and the MFOS main PCB.
- Assembled MFOS PCB #7210-005
- Front Panel #7210-505
- Back Panel #7210-805
- PCB Holder #7210-905
- 3-Way Pot PCB #7210-703
- 4-Way Pot PCB #7210-704
- 9-Way 1/4" Jack Socket PCB #7210-733
- 12-Way Cable Assemble #7210-112
- 9-Way Cable Assembly #7210-109
- 10-Way Cable Assembly #7210-110
- PCB Holder Brackets Fixing Kit #7210-181
- PCB Mounting Fixing Kit #7210-182
- Additionally you will need our Switchcraft Jack Sockets #7212-209 (Pack of 9)
Panel PCB Preparation
PCB #7210-703 used for the input mixer controls require links A, B & G solder bridging.
PCB #7210-704 requires link A solder bridging
Pot PCB Assembly
There are two pot PCBs to assemble, the 7210-103 has all three pots inserted wheras the 7210-104 has the a space in position P4 which is not used.
Make sure the solder bridges are done before assembly as it is very difficult to solder G afterwards.
- Solder in JST headers noting that the slots in the socket housing point towards the top of the board on the pot
- Remove any anti-rotation lugs on the pots
- Insert pot into bracket and temporarily do up lock nut
- Insert pot with bracket into PCB and solder in position ensuring the pot bracket sits flat on PCB. Only solder the bracket lugs on the bottom of the board
- Repeat for remaining pots
- Remove pot nut
Socket PCB Assembly
General advice an assembling socket boards can be found on the PCB product page. Ensure the JST socket is also soldered in before the sockets.
Panel PCBs Completed
You now have 3 panel PCBs populated and ready for assembly to the panel (front and back panels)
Assembly order is PCB mounting angle brackets, socket PCB, Pot PCBs, finally the main MFOS PCB itself
With the assembly of the Panel complete, it's time for the wiring.
Firstly, plug in the JST cable assemblies, they will only go in one way around as they are keyed.
Not all of the wires are required so we suggest cutting them off at the plug (termed 'Cut' in the tables below).
3-Way 3 Pot PCB
|7||Blue||To Gnd on 4-way pot PCB|
4-Way Pot PCB
Socket PCB Cable
|J9||Grey||Wire to R3 on 3-way Pot PCB|
|J6||Green||Wire to R6 on 3-way Pot PCB|
|J4||Yellow||Wire to R3 on 4-way Pot PCB|
|J3||White||Wire to R9 on 3-way Pot PCB|
3 wires on the socket board are wired to the 3-pot PCB and 1 wire on the socket board is wired to the 4-pot PCB (see above table). We suggest soldering these first. The wires are soldered into the top of the 'R' position. The photo below better shows the wiring from the socket board to the pot PCBs. Also note the blue ground wire from the JST on the 3-pot PCB wired to the ground pad on the 4-pot PCB.
Now the remaining wires can be dressed and soldered to the main PCB. We tend to route the wire first to get a final length before cutting. The cut end is then stripped and tinned and placed into the respective pin on the MFOS PCB. With a fine tipped soldering iron (<1mm), we then solder the wire in position from the top of the PCB. We each have our own preferred method but this works well for us.
Once each wire is routed and soldered, it will be ready for dressing. We use 100mm cable ties to dress the cables.
Wiring is now complete except for the +/-12V supply whcih depends on your own system. We solder in a 3-core cable with a plug on the end which we use for power distribution in our racks. Next is a visual inspection and we also apply power before inserting chips to check for correct polarity across one of the IC sockets.
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