Smart charging cable and method for operating a portable electronic device

We claim: 1. A method for providing power to an electronic device, comprising the steps of: (a) electrically connecting a cable to the electronic device and to an electrical power source so that the electrical power source charges a battery associated with the electronic device or provides power to the electronic device via the cable; (b) analyzing a first voltage of the power source with an analyzing circuitry located on the cable, wherein the voltage analyzing circuit further comprises an under voltage lock out device; and wherein if the result from step (b) (i) is that the first voltage is below the level sufficient to charge the battery and comprises a DC current then the first voltage is transformed up to the second voltage, (ii) is that the first voltage is above the level sufficient to charge the battery and comprises a DC current then the first voltage is transformed down to the second voltage, (iii) is that the first voltage comprises an AC current then the first voltage is transformed to a DC current and said transformed DC current is re-analyzed by step (b), or (iv) is that the first voltage is sufficient to charge the battery then the first voltage charges the battery without being transformed, wherein the under voltage lock out device shuts down the electronic device when the first voltage of the power source falls below an operating voltage of the electronic device. 2. The method of claim 1 further comprising the step (c) of charging a second storage device. 3. The method of claim 1 wherein the analyzing circuitry is located within the cable. 4. A method for providing power to an electronic device, comprising the steps of: (a) electrically connecting a cable to the electronic device and to an electrical power source so that the electrical power source charges a battery associated with the electronic device or provides power to the electronic device via the cable; (b) analyzing a first voltage of the power source with an analyzing circuitry located on the cable; wherein if the first voltage is less than a bypass voltage (c) transforming the first voltage to a bypass voltage with a converter to charge the battery and disabling a bypass circuit; wherein if the first voltage is greater than the bypass voltage (d) disabling the converter and enabling the bypass circuit, and wherein in step (c) if the first voltage is less than an under voltage lock out (e) disabling the bypass circuit and disabling the converter. 5. The method of claim 4 , further including the step of (f) activating a battery check and disabling the converter and disabling the bypass circuit. 6. A smart cable comprising: (a) a cable having an input end and an output end; and (b) an analyzing assembly electrically connected to the cable between the input end and the output end, wherein the analyzing assembly includes a voltage analyzing circuit disposed to analyze a first voltage supplied to the input end of the cable, wherein the voltage analyzing circuit further comprises an under voltage lock out device; at least one electrical converter to transform the first voltage to a second voltage sufficient to charge a battery of an electronic device or to power the electronic device, wherein the second voltage is supplied to the output end of the cable; and a bypass circuit; wherein when the first voltage is sufficient to charge the battery or to power the electronic device the first voltage is directed to the bypass circuit to charge the battery or to power the electronic device, and wherein when the first voltage is not sufficient to charge the battery or to power the electronic device the first voltage is transformed to the second voltage by the at least one electrical converter to charge the battery or to power the electronic device. 7. The smart cable of claim 6 , wherein the at least one electrical converter comprises a DC/DC converter. 8. The smart cable of claim 7 , wherein the DC/DC converter is a step-up converter. 9. The smart cable of claim 7 , wherein the DC/DC converter is a step-down converter. 10. The smart cable of claim 6 , wherein the at least one electrical converter comprises an AC/DC converter. 11. The method of claim 6 , wherein the second storage device is located within the cable. 12. The smart cable of claim 6 , wherein the voltage analyzing circuit further comprises a state of charge indicator. 13. The smart cable of claim 12 , wherein the voltage analyzing circuit further comprises an operating switch connected to the state of charge indicator. 14. The smart cable of claim 6 further comprising an energy storage device that is capable of charging the battery or to power the electronic device. 15. The smart cable of claim 14 , wherein the energy storage device comprises a second battery or a capacitor.