Inductively coupled dielectric barrier discharge lamp

The invention claimed is: 1. A point-of-use water treatment system comprising: a base station including an inductive primary adapted to generate a time-varying electromagnetic field in a power supply mode and in a communications mode, the base station defining a fluid flow path; and a lamp assembly adapted to be removably supported within the base station and adapted to radiate ultraviolet light for treating a fluid moving through the fluid flow path, the lamp assembly including: an inductive secondary adapted to receive power from the inductive primary, first and second electrodes electrically coupled to the inductive secondary, an ultraviolet lamp electrically coupled to the first and second electrodes, an RF antenna for communication with the inductive primary, and a memory tag associated with the RF antenna, wherein the inductive secondary is adapted to receive power from the inductive primary when operating in the power supply mode and adapted to supply the power to the first and second electrodes to energize the ultraviolet lamp, and wherein the inductive primary is operable in the communications mode to read data from the lamp assembly memory tag before energizing the ultraviolet lamp and operable in the communications mode to write data to the lamp assembly memory tag after energizing the ultraviolet lamp without a separate coil for RF communications to the lamp assembly. 2. The point-of-use water treatment system of claim 1 wherein the ultraviolet lamp is a compact fluorescent lamp, a tube fluorescent lamp, or an LED lamp. 3. The point-of-use water treatment system of claim 1 wherein the inductive secondary defines an outer radius less than an inner radius defined by the inductive primary, the inductive secondary and the inductive primary being substantially coaxial. 4. The point-of-use water treatment system of claim 1 further including a pulse driver circuit electrically connected between the inductive secondary and the first and second electrodes to convert a first voltage received by the inductive secondary into a second voltage applied across the first and second electrodes. 5. The point-of-use water treatment system of claim 1 wherein the base station includes a sensor to measure the luminescent output of the lamp assembly. 6. The point-of-use water treatment system of claim 1 wherein the base station includes a sensor to measure the turbidity, pH, or temperature of a fluid moving through the base station fluid flow path. 7. The point-of-use water treatment system of claim 1 wherein the base station includes a sensor to measure the flow rate of the fluid moving through the base station fluid flow path. 8. The point-of-use water treatment system of claim 1 wherein the RF antenna is adapted to generate a waveform for transmission to the inductive primary. 9. The point-of-use water treatment system of claim 1 wherein the RF antenna is adapted to reflect a waveform for reception by the inductive primary. 10. The point-of-use water treatment system of claim 1 wherein the inductive secondary extends around a magnetic core. 11. The point-of-use water treatment system of claim 1 wherein the inductive secondary is received within an interior opening of the inductive primary such that the inductive primary and the inductive secondary are concentrically arranged with respect to each other. 12. The point-of-use water treatment system of claim 1 wherein the data read from the lamp assembly memory tag includes historical operational data of the lamp assembly. 13. The point-of-use water treatment system of claim 1 wherein the data written to the lamp assembly memory tag includes updated operational data of the lamp assembly.