Organize and Share your Electronics the way you want. Sign-Up for a free account now. It takes only 30 seconds!

Getting Power from your Nano

Getting Power from your Nano

Power can be useful when you need to run other small low power devices in conjunction with the Nano. These devices can be small circuits, lights, etc. We will use the power we draw to power a glowing sleeve for the iPod Nano.

What you will need:
– an iPod connector cable to cannibalize (we used a Dock Connector to USB 2.0 + FireWire)
– a multimeter
– a soldering iron
– some sort of thin knife or miniature flat head screwdriver to pry open the connector

First recharge your iPod Nano completely. Take the iPod connector and start by prying off the white plastic housing on the Dock Connector end: Carefully remove the white plastic from the connector and pry the cable or cables out of the back. You should have a foil covered metal box like this:

This foil is sticky backed and can simply be peeled away. Do so now. Next you will need to pry open the metal box. Be extremely careful to not destroy the connector pins inside the box (on the side of the connector, not the cable side). There is a tab on each side on the cable side that needs to be pushed in before you can pry the box open.

One you have the metal box open, you will have something similar to this: …where the foil and ground are soldered to the backplate of the metal box. Go ahead and carefully cut away the cables about one centimeter from the dock connector side above the glue and electrical tape mess. With great care, pry away the glue from the remaining cables with a small knife or flat head screwdriver. Be sure to not break off any of the tabs that are intact.

Now desolder each of the wires from the tabs one by one. Do not introduce too much solder or break any of the solder tabs. Plug the connector back into the Nano and using a multimeter set to DC volts, locate the +3.3V pin on the connector. Using the following diagram, the ground is completely to the right when you have the Nano facing upwards. The +3.3V is the seventh pin over from the right on the top row:

Remove the connector from the Nano so as to not damage the Nano. The seventh pin over from the right on the top row may be missing a solder tab. If so, scrape gently away at the epoxy/red glue on the edge of that pin to expose as much metal as possible to solder to. Tin the exposed metal area with a touch of solder. Solder one small cable to the doubled ground (both the top row and bottom row rightmost pins).

In the image above you can see the exposed metal on the 3.3V pin (seventh over from the right) we scraped away and tinned. Now solder a second lead to the exposed 3.3V pin like so:
Next plug your completed cable into your Nano and test your wiring job: Congrats, you now have a 3.3V cable to power an external device to go along with your Nano! We put a LED on that 3.3 V to have a visual example of our power:

Visit Here for more.







 

More Articles to Read

DECA MAX®10 FPGA Evaluation Kit
DECA MAX®10 FPGA Evaluation Kit
An Arduino laser pinball machine
An Arduino laser pinball machine
CTCSS fingerprinting: A method for transmitter identification
CTCSS fingerprinting: A method for transmitter identification
TI DLP® Pico™ Technology for Aftermarket Head-up Displays
TI DLP® Pico™ Technology for Aftermarket Head-up Displays
Brute force computation for cheap log digital potentiometer
Brute force computation for cheap log digital potentiometer
Smart "Homer"
Smart "Homer"
A DIY Segway-style vehicle
A DIY Segway-style vehicle
Superbeta transistors inside: Die photos and analysis of the LM108 op amp
Superbeta transistors inside: Die photos and analysis of the LM108 op amp
Peeqo is a desktop bot that communicates through GIFs
Peeqo is a desktop bot that communicates through GIFs
Using a Programmable Input Multiplier to Minimize Integer Boundary Spurs
Using a Programmable Input Multiplier to Minimize Integer Boundary Spurs

Top


Shares