Graphical Component Tester

I've got this amazing tool for a while, I never really talked about it, so I think it's time. It's a component tester, relatively cheap, but quite surprising in terms of capabilities. It works on transistors, LEDs, inductors, capacitors, resistors, diodes, among a few others. It can detect the component and present it in a graphical way, providing its basic properties. For instance, it can give you LCR meter readings, distinguish between BJT and MOSFET transistors, NPN or PNP transistors, detect their gain and threshold voltage, and measure a diode's forward voltage. It's quite useful actually, although it typically comes just as a PCB with an LCD, which makes it a bit unpractical to use. And for that reason, I decided to design a 3D printed case for it and the 9V battery that powers it.

MSP430 BSL Rocket EMF Detector

A few months ago I received the MSP430-BSL Rocket from Texas Instruments Europe, as a prize for a Facebook contest. The Rocket is a low-cost programmer for MSP430 devices but since it has its own microcontroller, I thought it would be fun to use it for another application: an EMF detector! By the way if you need a TI launchpad, I'm selling a few of mine on Tindie.

Since it has a rocket shape, I had the idea to build a custom flame shaped PCB for the output LEDs, which I could plug through the 2x5 pins BSL connector.

TDS210 Oscilloscope on LabVIEW over GPIB (IEEE-488)

During my studies, I've done a lot of interesting works, like the calculations for electromagnetic fields on my last post for example, and this is another one. For my Industrial Instrumentation class, I came across this work that had to be done using LabVIEW. The goal was to build a virtual interface for a real instrument that would communicate over GPIB interface (IEEE-488) and that could be used to control and read values remotely.

The work was to be done in groups of 2 and we had the opportunity to choose what instrument we would use. The choice was basically between a TDS210 Oscilloscope and a random multimeter which I don't remember the brand and model anymore.

Electromagnetic Fields (EMF) in High Voltage Power Lines

Have you ever wondered about the electromagnetic field around a high voltage power line? Well I have, quite often actually, but I never really found much information about it, at least online. Fortunately, I had to do a work about it, during my academic studies in 2012, it just asked for the EMF values for a constant height but I thought I should make it more interesting by varying the height and making the results a bit more dimensional.

The problem basically gave me the parameters of a specific transmission line and asked for the electromagnetic values at a constant height of 1.8 meters from ground (approximately the height of a person's head), considering that the person could move on the X axis of a transverse section of the power line.