Putting the #RaspberryPi into the classroom

Just wanted to quickly share this with you!

Sway Grantham, one of the Raspberry Pi Certified Educators, has done an absolutely fantastic post over on her blog about her first-hand experiences with putting the Pi in the classroom. It deals with showing the Pi to the class and getting them to work out what you need to turn it into a full-fledged, usable computer. It’s so worth a read if you’re interested in the Pi in education. Brilliant stuff! Read it here.

The RasPiO Analog board for the #RaspberryPi

Alex Eames (from RasPi.TV) gave me one of his new boards to take a look at. It’s called the RasPiO Analog. It gives you the ability to add analog inputs to your Raspberry Pi. It’s essentially a GPIO plugin prototyping board with an MCP3008 analog-to-digital converter chip onboard.

It has the following features:

  • All the useful GPIO pins broken out into at least one group of pins.
  • The entire GPIO broken out into a double row so you can add a box header and a ribbon cable if you want to add another GPIO board (probably via ribbon cable).
  • An LED so you can tell it’s on and working properly.
  • The MCP3008 chip, which gives 8 analog input channels.
  • The 8 channels broken out twice.
  • A large prototyping area with rails for 3v3, ground and 5v.
  • Some additional mini-rails for power and ground.

Here’s the bare board:

And here’s a pic of the full contents of the kit:

It’s a very simple soldering job – it would be easy enough for a beginner to do as the components are well-spaced. As always, the most difficult bit is the 26-way header for the GPIO pins.

And here’s a picture of everything soldered together:

After having assembled it I thought to myself: What can I do with it? I need to get some analog sensors. Well, fortunately, I had a load of light dependant resistors so I could use them.

So, I looked up how to do it and found this page on Raspberry Pi Spy which shows how to hook up an LDR. I also used the code from that page to interface with the MCP3008 chip to get readings. Straight away I got readings and, by placing my hand over the LDR the readings went up or down accordingly. It worked flawlessly.

Here’s a picture of the board with the LDR & resistor soldered on.

So, what can you do with this? Well, you can solder various headers on so you can plug in various analog sensors. You can solder the sensor (as I have done above) directly onto the board. And eventually? You have a board with lots of different sensors on there – perhaps a smaller version of the Picorder.

My only (very minor) criticism is that the 3v3 and ground rails could do with being extended by one hole each, but looking at the board it might be difficult to do that with the path routing getting in the way.

If you’ve ever wanted to get into analog sensors on the Pi, this is an ideal way to do it. It gives you something which can be either permanent (by soldering directly on the board) or temporary (using headers) and there’s enough room on the prototyping area to use all 8 analog inputs.

It will be available soon! Keep an eye on RasPi.tv and RasPiO for more details on a release date.

Score: 9/10

Set up a jukebox on your #RaspberryPi

AudiculaPi is a Linux distro for the Pi that gives you an MPD Jukebox with a web-based front-end. Here are the features of the system:

  • Minimalistic system, installed and running on a just 100MB sized SD card partition
  • Based on OpenWRT / Version Barrier Breaker r40462 / LuCI Trunk (svn-r9964)
  • AudiculaPi provides a Web Browser GUI but no X-Windows GUI 
  • MPD can be controlled via BlueTooth and/or LIRC
  • AX206 based digital picture frames support (see dpf-ax/PyDPF projects)

Get the distro here

IM status indicator nameplates with the #RaspberryPi

This is a nice project. Reagan Ward wanted to give people an idea of whether he and his colleagues were in the office or not. He wired up a Pi with some perfboard and some RGB LEDs, did some nifty programming in C++ and Python and hey presto visitors to their office could tell their status without walking down the corridor to find out. Admittedly, it only saves people about 8 seconds, but it’s still a cool little project. Read more here.