Microscope Power Distribution Unit | Voltlog #436

If you’re an electronics hobbyist or a professional working with intricate setups like trinocular microscopes, you know the struggle of dealing with a mess of wires and multiple power adapters. Voltlog’s latest project, the “Microscope Power Distribution Unit,” offers an ingenious solution to this common issue.

In this project, Voltlog designed a compact PCB that takes a single 12V DC input and distributes power to three individual channels, each with its own protection and voltage regulation. One channel is configured to output 5V for powering LED lights, while the other two channels provide 12V outputs for the monitor and camera.

The beauty of this design lies in its simplicity and versatility. By consolidating multiple power adapters into a single unit, Voltlog has effectively decluttered their workstation and reduced the tangle of wires. Additionally, the open-source nature of the project allows others to replicate or modify the design to suit their specific needs.

Voltlog’s meticulous attention to detail is evident in the choice of components, such as the use of PTCs for overcurrent protection and the inclusion of filtering capacitors for clean power delivery. The sleek green soldermask and ENIG gold plating on the PCBs add a touch of elegance to the functional design.

But the project’s true value extends beyond its practical application. It serves as a testament to the ingenuity and problem-solving skills of the maker community. By identifying a common pain point and developing a tailored solution, Voltlog has demonstrated the power of DIY electronics and the potential for streamlining complex setups.

Voltlog #297 – How To Parfocal A Trinocular Microscope

Welcome to a new Voltlog, in this video I’m gonna show you how to parfocal your trinocular microscope, this means getting both the eyepieces and the third camera port in focus at the same time and maintaining them in focus while adjusting through the zoom range of microscope from low to high. 

This is extremely useful if for example you are using the microscope through the eyepieces, soldering on some board and at the same time you are using the camera port for recording or live streaming. Once you do this procedure, the camera and the eyepieces will be synced in focus even as you adjust a different zoom level but with some limitations, as I will show in a moment, these are the result of the camera optics which will limit the effective zoom range in focus.

Now if you are using a 0.5x barlow lens like I do and like most people doing electronics will be using, you need to consider the fact that the working distance is about 16.5cm between the barlow lens and the work surface. So keep that in mind, because the adjustment we will do later will be happening around that working distance.