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Hi,
My requirement is following : David lynch this train download torrent.
Connecting a card reader device on iOS device through the headset jack. Download starwars battlefront mac free.
Swipe the debit / credit card on the reader device connected to iPhone.
I need to parse the swiped card info to my app.
Is this possible or how this can be done. Mac disk reader for windows.
I had googled, but all the card reader device have their own app. I couldn't find any general API or helpful article for reading data from credit / debit card. Free qr reader for mac. Adobe reader for mac download.
![Magnetic Stripe Reader For Mac Magnetic Stripe Reader For Mac](https://www.mag-stripe.com/Images/msr206u.png)
Acrobat reader for free on mac. Anyways the card reader device specific app also somehow read info from the card. Anybody have idea or logic about this. If there is no general API for reading from Card reader device, What iOS framework is using for this purpose.
Ssd file format for mac os x. I hope the audio is recording while swiping and converting it to text.
Thanks in advance for any help.
iPhone 4, iOS 5
Posted on
Android Magnetic Stripe Reader
Before going any further, read the document I've attached to this step, 'A Day in the Life of a Flux Reversal' by Count Zero. This document is pretty much the bible on how magnetic stripes work, and you need to understand how data is encoded on to them and the basic formatting of the tracks on a given magnetic stripe card. I'm going to go get a cup of coffee; have it read by the time I get back.
..
Finished? Good.
As you will have learned from your reading, data is encoded on to magnetic stripes by means of magnetic flux reversal in the segments on the stripe. When the card is swiped past the card reader, the changing magnetic field of the passing flux reversals induce a current in the reader element, which is then decoded into binary bits, and the original data stored on the magnetic stripe is reconstructed.
So, in order to emulate a particular magnetic stripe, all we need to do is find a way to recreate the pattern of the way its magnetic field changes as it's being swiped past the reader. How are we going to do this? With an electromagnet!
As you may already know, an electromagnet is basically just a solenoid (coil of wire). When an electric current is passed through the coil, a magnetic field is created. By turning the electromagnet on and off rapidly, we can replicate the changing magnetic field of a magnetic stripe swipe.
The final piece of this puzzle is how to control the electromagnet. Well, we're trying to recreate a particular waveform of current through the solenoid in order to create a particular waveform of magnetism. What's a common way of storing waveforms and converting them to electric current? Sound files! So, all we have to do is encode the highs and lows representing the desired flux reversal pattern into a .wav file and play it back on an iPod or similar music player through the solenoid.
Music players designed to play sound through headphones do not produce enough current to drive the electromagnet in this project, so we will also have to construct a basic amplifier that the signal must be passed through before going to the electromagnet.
..
Finished? Good.
As you will have learned from your reading, data is encoded on to magnetic stripes by means of magnetic flux reversal in the segments on the stripe. When the card is swiped past the card reader, the changing magnetic field of the passing flux reversals induce a current in the reader element, which is then decoded into binary bits, and the original data stored on the magnetic stripe is reconstructed.
So, in order to emulate a particular magnetic stripe, all we need to do is find a way to recreate the pattern of the way its magnetic field changes as it's being swiped past the reader. How are we going to do this? With an electromagnet!
As you may already know, an electromagnet is basically just a solenoid (coil of wire). When an electric current is passed through the coil, a magnetic field is created. By turning the electromagnet on and off rapidly, we can replicate the changing magnetic field of a magnetic stripe swipe.
The final piece of this puzzle is how to control the electromagnet. Well, we're trying to recreate a particular waveform of current through the solenoid in order to create a particular waveform of magnetism. What's a common way of storing waveforms and converting them to electric current? Sound files! So, all we have to do is encode the highs and lows representing the desired flux reversal pattern into a .wav file and play it back on an iPod or similar music player through the solenoid.
Music players designed to play sound through headphones do not produce enough current to drive the electromagnet in this project, so we will also have to construct a basic amplifier that the signal must be passed through before going to the electromagnet.