Reduced noise power converter using novel shield

What is claimed is: 1. A power converter, comprising: a first inductor having a first end and a second end, the first inductor being electrically connected to a direct-voltage power source at the first end, and electrically connected to a first power lead of a transistor and an anode of a diode at the second end; a first capacitor having a first end and a second end, the first capacitor being electrically coupled to the direct-voltage power source at the first end of the first capacitor, and electrically coupled to a cathode of the diode at the second end the first capacitor; a second inductor having a first end and a second end and magnetically coupled to the first inductor, wherein the first end of the second inductor is electrically open and the second end of the second inductor is electrically coupled to ground via a second capacitor; and control circuitry to control switching of the transistor. 2. The power converter of claim 1 , wherein when the transistor is repeatedly switched on and off, a current loop is formed through the transistor, the first inductor, the second inductor, and the second capacitor, the current loop causing a reduced amount of switching noise to be generated by the power converter. 3. The power converter of claim 2 , wherein the second capacitor is placed in close proximity to the second inductor and to ground so as to appreciably minimize parasitic impedance within the current loop. 4. The power converter of claim 2 , further comprising a ferrite core that magnetically couples the first inductor and the second inductor. 5. The power converter of claim 4 , wherein at least one winding of the second inductor occurs between at least half-windings of the first inductor. 6. The power converter of claim 1 , further comprising two or more light-emitting diodes coupled in series between the first end of the first capacitor and the first end of the second capacitor. 7. A power converter, comprising: a first inductor having a first end and a second end, the first inductor being electrically connected to a first capacitor at the first end, and electrically connected to a first power lead of a transistor at the second end; a second inductor having a first end and a second end and magnetically coupled to the first inductor, wherein the first end of the second inductor is electrically open and the second end of the second inductor is electrically coupled to ground via a second capacitor; and control circuitry to control switching of the transistor, wherein when the transistor is repeatedly switched on and off, a current loop is formed through the transistor, the first inductor, the second inductor and the second capacitor, the current loop causing a reduced amount of switching noise to be generated by the power converter. 8. The power converter of claim 7 , wherein the first inductor, a diode, the first capacitor and the transistor are configured so as to provide a buck-boost power converter, wherein an anode of the diode is electrically connected to the second end of the first inductor. 9. The power converter of claim 7 , further comprising two or more light-emitting diodes coupled in series between the first end of the first capacitor and the second end of the first capacitor. 10. The power converter of claim 7 , wherein the second capacitor is placed in close proximity to the second inductor and to ground so as to appreciably minimize parasitic impedance within the current loop. 11. The power converter of claim 7 , further comprising one or more noise filters electrically coupled to the first inductor and configured to reduce an amount of noise generated by the power converter to power leads providing power to the power convert. 12. The power converter of claim 7 , further comprising a ferrite core that magnetically couples the first inductor and the second inductor. 13. The power converter of claim 12 , wherein at least one winding of the second inductor occurs between at least half-windings of the first inductor. 14. A power conversion method, comprising: rectifying an input voltage to provide a direct-voltage power source leading to a power converter that includes a first inductor electrically coupled to a transistor, and a second inductor magnetically coupled to the first inductor, wherein a first end of the second inductor is electrically open and a second end of the second inductor is electrically coupled to ground via a capacitor; and switching the transistor so as to provide an output voltage, wherein when the transistor is repeatedly switched on and off, a current loop is formed through the transistor, the first inductor, the second inductor and the capacitor, the current loop causing a reduced amount of switching noise to be generated by the power converter. 15. The power conversion method of claim 14 , wherein a ferrite core magnetically couples the first inductor and the second inductor. 16. The power conversion method of claim 15 , wherein at least one winding of the second inductor occurs between at least half-windings of the first inductor. 17. The power conversion method of claim 14 , further comprising powering at least two or more light-emitting diodes using the output voltage.