All-Mechanical Coil Winder is a Scrap-Bin Delight - If there’s something more tedious than winding coils, we’re not sure what it is — ... - https://hackaday.com/2023/08/30/all-mechanical-coil-winder-is-a-scrap-bin-delight/ #amateurradio #magnetwire #mischacks #inductor #solenoid #radio #coil #ham
#ham #coil #radio #solenoid #inductor #mischacks #magnetwire #amateurradio
Practical Inductors in LTSpice - LTSpice and the underlying Spice engine does a great job of simulating ideal compo... - https://hackaday.com/2023/07/18/practical-inductors-in-ltspice/ #softwarehacks #inductor #ltspice #parts #spice
#spice #parts #ltspice #inductor #softwarehacks
How to Make a Larger Air-Cored Inductor https://hackaday.com/2023/03/08/how-to-make-a-larger-air-cored-inductor/ #homeentertainmenthacks #loudspeaker #crossover #inductor #Parts #audio
#homeentertainmenthacks #loudspeaker #crossover #inductor #Parts #audio
The primary of this mains #transformer that was in a power brick from the 1990s seems to be broken internally.
What else can I use it for? Should I attempt to recycle the magnet wire? Try to rewind the laminated core?
The other two transformers seem fine. They both came from digital clocks.
#making #electrical #salvage #components #inductor
#transformer #making #electrical #salvage #components #inductor
Scripting Coils For PCB Motors - PCB inductors are a subject that has appeared here at Hackaday many times, perhaps... - https://hackaday.com/2022/10/25/scripting-coils-for-pcb-motors/ #softwarehacks #pcbinductor #inductor #parts #kicad
#kicad #parts #inductor #pcbinductor #softwarehacks
Scripting Coils For PCB Motors
https://hackaday.com/2022/10/25/scripting-coils-for-pcb-motors/
#SoftwareHacks #PCBinductor #inductor #Parts #KiCAD
#SoftwareHacks #PCBinductor #inductor #Parts #KiCAD
Beautiful Inductors, Now Not Such A Lost Art
https://hackaday.com/2022/07/17/beautiful-inductors-now-not-such-a-lost-art/
#RadioHacks #coilwinder #ToolHacks #inductor #coil
#RadioHacks #coilwinder #ToolHacks #inductor #coil
> Chua in his 1971 paper identified a theoretical symmetry between the non-linear #resistor (voltage vs. current), non-linear #capacitor (voltage vs. charge), and non-linear #inductor (magnetic flux linkage vs. current). From this #symmetry he inferred the characteristics of a fourth fundamental non-linear circuit element, linking magnetic flux and charge, which he called the #memristor. In contrast to a linear (or non-linear) resistor the memristor has a dynamic relationship between current and voltage including a #memory of past voltages or currents.
#resistor #capacitor #inductor #symmetry #memristor #memory