Categories
design

sync_ope psu reverie

tl;dr – im thinking of making a revision of sync_ope to replace the ac-ac psu input with a standard switching ac-dc one

UPDATE: this has been implemented in v1_0_0 – read more about it here

sync_ope is a project iv been collaborating with Gael Jaton on for a few years. initially a concept dreamed up and tested on bread-board, iv worked on a fair few design iterations based on feedback and support from the wider community – we presented a prototype of the concept at FUBAR_2020, and continued improving it via discussions on the scanlines forum.

a over-simplification of her beauty

its been quite slow progress – and like many diy / community driven initiatives (who get passed around and only prioritized in short bursts & on productive weekends) has some built-in identity insecurities:

  • sync_ope is designed to be diy & beginner friendly – spaced out across all of a 100x100mm pcb- with footprints for even the specific video-ic’s in DIP packaging
  • the use case however requires already owning analog-glitch devices, and having pre-established capture flows where sync dropouts are a problem
  • the circuit is strictly analog, and more complicated/advance than many of the other ‘entry level’ underscores projects iv been prioritizing – one LT1251 ic can cost more than a single-board-computer!

Many similar projects in this realm would have fully committed to serving (only) the eurorack video synthesis community – where there’s an active base of designers and users creating complex functions with analog circuitry:

the advantage of this is you don’t need to (re)design common function blocks like power supplies and enclosures – there is even many design best-practices to follow to ensure compatibility

an (ac-ac) eurorack power-supply and case

the problem i see with this approach is that it can be off-putting for some people who havnt fully invested in the modular setup – where certain design preferences and restrains do not apply to them. by only serving the established (and well-enough off) we risk alienating those on the fringe.

the beauty of the sync_ope circuit is it can be just as interesting and useful in a mess-of-circuit-bent-mixers&diy-guitar-pedals as in a large modular synth system

the muddle

technically, the circuit requires a dual power supply to operate (unlike some of my other projects which can be run from a single usb-supply)

this is common and expected in euro-rack-land where all systems carry +/-12v rails. however it is less common for the average ‘non-modular’ hardware setup…

sync_ope’s power supply schematic

the current design has both a eurorack header – that takes +-12v straight from the rails – and a 12-15 AC barrel-jack input – that uses a Rectifier Diode Bridge to convert alternating current to dual dc.

i thought that this implementation struck a balance between serving those who may want to rack-mount it (atleast, all the interface controls are front facing!) and those who will just wanna plug it into a wall.

however as i prepare to distribute a small number of these circuits internationally im discovering that AC-AC wall-warts can be quite tricky to come by.

a search for ac-ac adapter returning a page of AMAZONS-CHOICE for dc ones doh

a different approach that i have been seeing recently is to start with a single dc supply and use a step-down regulator in inverting buck-boost configuration to generate the negative rail.

since composite video sits around the 1-2v range +-5v is plenty of headroom for this circuit to operate. we could start from any single dc 12v wallwart (or the positive side of a eurorack-powerrail) and create the dual 5v’s we need onboard.

lzx are powering their new 3rd gen modules with 12v single supplies and syntonie has optional dc_psu_boards for their cbv* line

syntonie’s stand-alone to euro-module adapter board

although the (ac-ac) current version of sync_ope is available in store now im already thinking about making another revision to the board to use single dc supply instead.

it could follow a similar configuration to Bastiens psu schematic below – instead using LM2575T-5.0 to create the +-5v rails we want. this change may increase the total BOM cost slightly – but since its already quite an expensive circuit i also think its worth ‘doing it right’

syntonie’s CBV002_PSU_Schematic.png

i can already imagine another future revision with smd parts and a more compact ‘rack first’ interface design that would better suit the modular crowd. but for now i will continue to try bridge the gap between this and a more hacky diy approach.

if you understand the ac-ac psu problem im describing and want a sync_ope now anyway then this version is for sale right now in the shop! but if you think you would rather wait some more months and hold out for an ac-dc supplied version then this is also an option for you too !

the beauty of open source is multiple forks of a project can co-exist. time will tell whether this revision will be a direct successor of what we have now or an alternative version