Ultraviolet light sanitizing assembly with flow switch and keyed lamp

What is claimed is: 1. An ultra-violet (UV) light source assembly for treating a fluid with UV light comprising: a tubular housing defining: an interior chamber having a treatment zone; an inlet; and an outlet so that the fluid entering the inlet passes through the treatment zone; a mounting bracket coupled to the tubular housing, the mounting bracket defining at least one slot and a hollow; a UV source mounted in the interior chamber for supplying UV light to the treatment zone, the UV source includes: at least one tab that twist-locks in the slot; a connector that aligns with the hollow when locked for cabling to a ballast controller; and an RFID tag; an RFID antenna on the mounting bracket so that when locked, the RFID antenna interacts with the RFID tag to emit a first signal indicating position of the UV source; and a flow switch sending a second signal indicating fluid flow for the interior chamber, the flow switch includes: a guide fixed in the inlet; a shaft mounted to the guide for sliding motion; a disc on a first end of the shaft so that flow against the disc moves the shaft; a collar coupled to a second end of the shaft for retaining the shaft within the guide; a spring mounted between the collar and the guide to bias the shaft toward a closed position; a magnet coupled to the shaft for motion therewith; and a sensor mounted to the housing for generating the second signal based on proximity of the magnet thereto, wherein, during little or no flow through the inlet, the spring biases the shaft so that the magnet is positioned to be detected by the sensor, and during flow through the inlet, the flow applies pressure to move the disc and, in turn, the magnet moves to be positioned to not be detected by the sensor. 2. An ultra-violet (UV) light source assembly as recited in claim 1 , further comprising a ballast controller for receiving and processing the first and second signals, wherein the ballast controller powers the UV source based upon the first and second signals. 3. An ultra-violet (UV) light source assembly as recited in claim 2 , wherein the ballast controller receives a signal indicating a flow rate and adjusts an output of the UV source based upon the flow rate. 4. An ultra-violet (UV) light source assembly as recited in claim 2 , wherein the ballast controller records at least one operational statistic of the UV source to determine when to replace the UV source. 5. An ultra-violet (UV) light source assembly as recited in claim 4 , wherein the at least one operational statistic is stored in the RFID tag. 6. An ultra-violet (UV) light source assembly as recited in claim 1 , wherein the interior chamber is defined by a housing defining an inlet along an axis and a large diameter portion of the housing adjacent the inlet flares outward from the axis, the guide has a ring shaped body with internal vanes defining a central aperture for receiving the shaft. 7. An ultra-violet (UV) light source assembly for treating a fluid with UV light comprising: a tubular housing defining: an interior chamber having a treatment zone; an inlet; and an outlet so that the fluid entering the inlet passes through the treatment zone; a mounting bracket coupled to the tubular housing, the mounting bracket defining at least one slot and a hollow; a UV source mounted in the interior chamber for supplying UV light to the treatment zone, the UV source includes: at least one tab that twist-locks in the slot; a connector that aligns with the hollow when locked for cabling to a ballast controller; and an RFID tag; and an RFID antenna coupled to the mounting bracket so that in when locked, the RFID antenna interacts with the RFID tag to emit a signal. 8. An ultra-violet (UV) light source assembly as recited in claim 7 , wherein the at least one slot is two opposing slots and the at least one tab is two opposing tabs, the connector is adjacent one of the tabs, and at least one of the slots is sized to allow the tab and adjacent connector to pass therethrough. 9. A flow switch for an interior chamber, wherein the interior chamber is defined by a housing defining an inlet along an axis and a large diameter portion of the housing adjacent the inlet flares outward from the axis, the flow switch comprising: a guide fixed in the inlet, the guide having a ring shaped body with internal vanes defining a central aperture surrounded by at leat one flowpath; a plunger assembly having a disc and a shaft extending from the disc, wherein the shaft is coupled in the central aperture for sliding motion along the axis; a collar coupled to a distal end of the shaft for retaining the shaft within the central aperture; a spring mounted between the collar and the guide to bias the plunger assembly toward a closed position; a magnet coupled to the plunger assembly for motion therewith; and a sensor mounted to the housing for determining proximity of the magnet, wherein, in the closed position during little or no flow through the inlet, the spring biases the plunger assembly so that the magnet is positioned to be detected by the sensor, and in an open position during flow through the inlet, the flow applies pressure to move the disc into the large diameter portion of the housing and, in turn, the magnet moves to be positioned to not be detected by the sensor.