Electronic device enclosure

The invention claimed is: 1. A slot for a magnetic card reading system, comprising: a central section having a first inner surface and a second inner surface that are (i) substantially parallel and (ii) separated from each other by a substantially uniform central separation D, the central section's first and second inner surfaces defining a swipe plane parallel to and equidistant from the central section's first and second inner surfaces; and an upper section joined to the central section at an upper junction, the upper section having a first inner surface adjoining the central section's first inner surface and a second inner surface adjoining the central section's second inner surface; wherein the upper section's first inner surface is separated from the swipe plane by a separation X 1 ; wherein the upper section's second inner surface is separated from the swipe plane by a separation X 2 ; wherein, at the upper junction between the central section and the upper section, the separation X 1 +X 2 between the upper section's first inner surface and the upper section's second inner surface is approximately equal to the central separation D; wherein the separation X 1 increases as the distance from the upper junction along the swipe plane increases; wherein the separation X 2 increases as the distance from the upper junction along the swipe plane increases; and a lower section joined to the central section at a lower junction, the lower section having a first inner surface adjoining the central section's first inner surface and a second inner surface adjoining the central section's second inner surface; wherein the lower section's first inner surface is separated from the swipe plane by a separation Y 1 ; wherein the lower section's second inner surface is separated from the swipe plane by a separation Y 2 ; wherein, at the lower junction between the central section and the lower section, the separation Y 1 +Y 2 between the lower section's first inner surface and the lower section's second inner surface is approximately equal to the central separation D; wherein the separation Y 1 increases as the distance from the lower junction along the swipe plane increases; and wherein the separation Y 2 is substantially constant as the distance from the lower junction along the swipe plane increases. 2. The slot according to claim 1 , wherein the separation X 1 and the separation X 2 increase linearly as the distance from the upper junction along the swipe plane increases. 3. The slot according to claim 1 , wherein the separation X 1 and the separation X 2 increase parabolically as the distance from the upper junction along the swipe plane increases. 4. The slot according to claim 1 , wherein the separation X 1 and the separation X 2 remain approximately equal as the distance from the upper junction along the swipe plane increases. 5. The slot according to claim 1 , wherein the separation X 1 and the separation X 2 increase at different rates as the distance from the upper junction along the swipe plane increases. 6. The slot according to claim 1 , wherein the upper section's first inner surface and the upper section's second inner surface define an angle of approximately 31 degrees. 7. The slot according to claim 1 , wherein the separation Y 1 increases linearly as the distance from the lower, junction along the swipe plane increases. 8. The slot according to claim 1 , wherein the separation Y 1 increases parabolically as the distance from the lower junction along the swipe plane increases. 9. The slot according to claim 1 , wherein the tower section's first inner surface and the lower section's second inner surface define an angle of approximately 19 degrees. 10. An electronic device enclosure, comprising: a magnetic card reading system; and a slot for the magnetic card reading system, comprising: a central section having a first inner surface and a second inner surface that are (i) substantially parallel and (ii) separated from each other by a substantially uniform central separation D, the central section's first and second inner surfaces defining a swipe plane parallel to and equidistant from the central section's first and second inner surfaces; and an upper section joined to the central section at an upper junction, the upper section having a first inner surface adjoining the central section's first inner surface and a second inner surface adjoining the central section's second inner surface; wherein the upper section's first inner surface is separated from the swipe plane by a separation X 1 ; wherein the upper section's second inner surface is separated from the swipe plane by a separation X 2 ; wherein, at the upper junction between the central section and the upper section, the separation X 1 +X 2 between the upper section's first inner surface and the upper section's second inner surface is approximately equal to the central separation D; wherein the separation X 1 increases as the distance from the upper junction along the swipe plane increases; wherein the separation X 2 increases as the distance from the upper junction along the swipe plane increases; and wherein the upper section's first inner surface and the upper section's second inner surface define an angle of approximately 31 degrees. 11. The electronic device enclosure according to claim 10 , wherein the separation X 1 and the separation X 2 increase linearly as the distance from the upper junction along the swipe plane increases. 12. The electronic device enclosure according to claim 10 , wherein the separation X 1 and the separation X 2 increase parabolically as the distance from the upper junction along the swipe plane increases. 13. The electronic device enclosure according to claim 10 , wherein the separation X 1 and the separation X 2 remain approximately equal as the distance from the upper junction along the swipe plane increases. 14. The electronic device enclosure according to claim 10 , wherein the separation X 1 and the separation X 2 increase at different rates as the distance from the upper junction along the swipe plane increases. 15. An electronic device enclosure, comprising: an image capture and processing system; a magnetic card reading system; and a slot for the magnetic card reading system, comprising: a central section having a first inner surface and a second inner surface that are (i) substantially parallel and (ii) separated from each other by a substantially uniform central separation D, the central section's first and second inner surfaces defining a swipe plane parallel to and equidistant from the central section's first and second inner surfaces; and an upper section joined to the central section at an upper junction, the upper section having a first inner surface adjoining the central section's first inner surface and a second inner surface adjoining the central section's second inner surface; wherein the upper section's first inner surface is separated from the swipe plane by a separation X 1 ; wherein the upper section's second inner surface is separated from the swipe plane by a separation X 2 ; wherein, at the upper junction between the central section and the upper section, the separation X 1 +X 2 between the upper section's first inner surface and the upper section's second inner surface is approximately equal to the central separation D; wherein the separation X 1 increases as the distance from the upper junction along the swipe plane increases; and wherein the separation X 2 increases as the distance from the upper junction along the swipe plane increases.