Wireless power transmitter with removable magnetic connector panel for vehicular use

The invention claimed is: 1 . A power transmitter for wireless power transfer at an operating frequency selected from a range of about 87 kilohertz (kHz) to about 360 kHz, the power transmitter comprising: an interface surface; a control and communications unit; a vehicular power input regulator configured for receiving input power and filtering the input power to a filtered input power, the vehicular power input regulator including: an input protection circuit, and a DC/DC voltage converter; an inverter circuit receiving the filtered input power and converting the filtered input power to a power signal; a coil configured to transmit the power signal to a power receiver, the coil formed of wound Litz wire and including at least one layer, the coil having at least a coil top face; a ferrite shielding comprising a magnetic core, a magnetic backing, and a magnetic ring having a magnetic ring top face, wherein the magnetic core is centrally positioned on the magnetic backing and the magnetic ring is positioned around an outer edge of the magnetic backing, wherein the magnetic core, the magnetic backing, and the magnetic ring define a cavity in the ferrite shielding, wherein the coil is positioned with the cavity and the cavity is configured such that the ferrite shielding substantially surrounds all but the coil top face, and wherein the coil top face is positioned above the magnetic ring top face; at least one magnet configured as a ring, the at least one magnet comprises a magnet top face, wherein the at least one magnet substantially surrounds an outermost turn of the coil, and wherein the at least one magnet is configured to attract at least one receiver magnet when the power receiver is proximate to the interface surface, wherein the magnet top face is separated from the interface surface by a first separation distance and the coil top face is separated from the interface surface by a second separation distance, and wherein the first separation distance is less than the second separation distance; and a housing configured to house, at least in part, one or more of the control and communications unit, the inverter circuit, the coil, the ferrite shielding, the at least one magnet, or combinations thereof. 2 . The power transmitter of claim 1 , wherein the wherein the coil has an inner diameter length in a range of about 15 millimeters (mm) to about 25 mm. 3 . The power transmitter of claim 1 , wherein the wherein the coil has an outer diameter length in a range of about 40 millimeters (mm) to about 50 mm. 4 . The power transmitter of claim 1 , further comprising a tuning system, the tuning system configured to selectively tune the coil to operate at a first operating frequency and a second operating frequency. 5 . The power transmitter of claim 4 , wherein the first operating frequency is in a range of about 87 kHz to about 205 kHz and the second operating frequency is in a range of about 127 kHz to about 360 kHz. 6 . The power transmitter of claim 1 , wherein the at least one magnet includes a plurality of magnetic portions, the plurality of magnetic portions including a first north polarity portion and a first south polarity portion. 7 . The power transmitter of claim 6 , wherein the first north polarity portion is positioned adjacent to the first south polarity portion. 8 . The power transmitter of claim 7 , wherein the plurality of magnetic portions further includes a second north polarity portion and the second north polarity portion is positioned adjacent to the first south polarity portion. 9 . The power transmitter of claim 6 , wherein the receiver magnet includes a second north polarity portion and a second south polarity portion, and wherein the first north polarity portion is configured to attract the second south polarity portion and the first south polarity portion is configured to attract the second north polarity portion, when the power receiver is proximate to the front plate. 10 . The power transmitter of claim 1 , wherein the input protection circuit includes an overvoltage protection circuit. 11 . The power transmitter of claim 1 , wherein the input protection circuit includes an electromagnetic interference mitigation circuit. 12 . A base station for a wireless power transfer system at an operating frequency selected from a range of about 87 kilohertz (kHz) to about 360 kHz, the base station comprising: an interface surface; a control and communications unit; a vehicular power input regulator configured for receiving input power and filtering the input power to a filtered input power, the vehicular power input regulator including: an input protection circuit, and a DC/DC voltage converter; an inverter circuit receiving the filtered input power and converting the filtered input power to a power signal; at least one coil configured to transmit the power signal to a power receiver, the at least one coil formed of wound Litz wire and including at least one layer, the at least one coil having at least a coil top face; a ferrite shielding comprising a magnetic core, a magnetic backing, and a magnetic ring having a magnetic ring top face, wherein the magnetic core is centrally positioned on the magnetic backing and the magnetic ring is positioned around an outer edge of the magnetic backing, wherein the magnetic core, the magnetic backing, and the magnetic ring define a cavity in the ferrite shielding, wherein the coil is positioned with the cavity and the cavity is configured such that the ferrite shielding substantially surrounds all but the coil top face, and wherein the coil top face is positioned above the magnetic ring top face; at least one magnet configured as a ring, the at least one magnet comprises a magnet top face, wherein the at least one magnet substantially surrounds an outermost turn of the coil, and wherein the at least one magnet is configured to attract at least one receiver magnet when the power receiver is proximate to the interface surface, wherein the magnet top face is separated from the interface surface by a first separation distance and the coil top face is separated from the interface surface by a second separation distance, and wherein the first separation distance is less than the second separation distance; and a housing configured to house, at least in part, one or more of the control and communications unit, the inverter circuit, the at least one coil, the ferrite shielding, the at least one magnet, or combinations thereof. 13 . The base station of claim 12 , wherein the input protection circuit includes an overvoltage protection circuit. 14 . The base station of claim 12 , wherein the input protection circuit includes an undervoltage protection circuit. 15 . The base station of claim 12 , wherein the input protection circuit includes an electrostatic discharge protection circuit. 16 . The base station of claim 12 , wherein the input protection circuit includes an electromagnetic interference mitigation circuit. 17 . The base station of claim 12 , wherein the wherein the at least one coil has an inner diameter length in a range of about 15 millimeters (mm) to about 25 mm. 18 . The base station of claim 12 , wherein the wherein the at least one coil has an outer diameter length in a range of about 40 millimeters (mm) to about 50 mm. 19 . The base station of claim 12 , further comprising a tuning system, the tuning system configured to selectively tune the at least one coil to operate at a first operating frequency and a second operat