It works. Amazing. At first I thought something was wrong but I forgot to adjust the contrast. This will make LCD connections so much easier and quicker, and probably reliable.
It took far longer to make than I thought it would though.
Making a floppy organ. I know it's bindun etc. but I still think they're pretty cool.
Got a bunch of drives from my brothers work and just started working how to play with them.
So far got the stepping and direction sussed, so that's nice as that's basically all I need. Just need to get my head around interrupts to drive multiple drives at once.
Also, it's not being driven by an Arduino: it's using an mbed which is a cool little arm based Dev board.
Incidentally, the lecturer, who let's me use the lab space for silly projects, his first proper job after graduating was to design a floppy disc controller IC at Siemens (for Western Digital, strangely enough). He was dead excited at seeing my stack of floppy drives (yes, john) but then seemed a bit disappointed that none of them had his chip in them.
so I can fly my quadcopter using my Taranis! Amazing stuff the Arduinos can do :D
I will get around to doing a better job of the wiring, making it a more permanent arrangement so I can attach it to my transmitter without felling like all the wires are going to snap off.
The Taranis powers a 3.3V regulator which powers the Mini and the Transceiver. Little voltage divider with 2 resistors to drop the PPM output of the transmitter to a safe level. And a USBASP device to flash a hex file.
White LED strips and transistors arrived today which gave me something to play with.
A quick PWM fading test
Then adding them to thr timed and LDR control LEDs.
The LED strips flicker a bit too much when dimmed. Not sure if that's because they are being powered by the batteries, the strips are too long or because they struggle with the low PWM load.
My LD strips in th bdroom dfinitly flickr whn thy are dimmd. Not too noticabl whn looking at them but if you move you eyes around or wav things in front of thm it's easy to spot.
(Not to Milko: th "E" on my laptop kyboard has stoppd working proprly so all my input mthods ar now unrliabl :O )
Cool, nice work. Did the smaller strips work better with the battery powering them? Couldn't see the flickering in the video. I hadn't even thought about using those strips with the Arduino.
Have you got a resistor connected through that button? No need for it if you set the pin as INPUT_PULLUP.
Actually how noticeable is the flicker when the strips are dimmed low? I'm wondering if maybe using one of these could make my bedroom lights less flickery, the PWM frequency is around 500Hz.
Still flickering, but I'll see what they're actually like when I get the shift registers and mains power supply. Though I would've thought that batteries would give a smoother DC supply in comparison to a mains adapter doing a conversion.
I am currently using a resistor as I've stolen a bit of the code from elsewhere to switch between modes.
I want to make the button press also kill the current loop as well as change mode because currently it has to wait for the existing loop to finish then the mode changes. Problem with that is I might have a decent length delay of maybe 60 seconds on the timezone mode to prevent too much changing of intensity due to the LDR. Waiting upto 60 seconds to change from the timezone mode would be annoying.