Germicidal amalgam lamp with temperature sensor for optimized operation

The invention claimed is: 1. A germicidal UV amalgam lamp comprising: an elongated tubular lamp body hermetically sealed at opposite ends with pinch-sealed portions, the body confining a gas volume, each pinch-sealed portion bearing a socket; at least two filaments located on the opposite ends of the lamp body within the gas volume and configured to produce a gas discharge along a discharge path between the filaments, each filament comprising two electrical connectors, each electrical connector including an internal portion connected to the filament and pinch-sealed into the lamp body, and an external portion located outside the lamp body and configured for electrical connection of the lamp to a controlled power supply; and an electrical temperature sensor mounted to each socket and having at least two electrical connections connected in parallel to the two electrical connectors of one of the filaments. 2. The germicidal UV amalgam lamp of claim 1 , wherein the socket comprises a void and the temperature sensor is located inside the void. 3. The germicidal UV amalgam lamp of claim 2 , wherein the temperature sensor is sealed into the void in a watertight manner. 4. The germicidal UV amalgam lamp of claim 1 , wherein the connection of the temperature sensor to the filament is located inside the socket. 5. The germicidal UV amalgam lamp of claim 1 , wherein the temperature sensor is a metal wire sensor. 6. The germicidal UV amalgam lamp of claim 5 , wherein the metal wire sensor is a platinum wire sensor or a thermocouple. 7. The germicidal UV amalgam lamp of claim 1 , wherein the temperature sensor is a semiconductor sensor. 8. The germicidal UV amalgam lamp of claim 7 , wherein the semiconductor sensor is a PTC or NTC sensor. 9. The germicidal UV amalgam lamp of claim 1 , wherein the temperature sensor is a bus-controlled sensor or a microcontroller. 10. A method of operating a germicidal UV amalgam lamp, the lamp comprising a lamp body having at least one pinch-sealed end portion, a gas volume within the lamp body, a socket adjacent the at least one pinch-sealed end portion, and at least one filament disposed within the gas volume and having two electrical connectors for connection to a power supply, the method comprising: providing a temperature sensor integrated into a socket adjacent the pinch-sealed end portion of the lamp and having at least two electrical connections connection in parallel to the two electrical connectors of the filament; and using the temperature sensor to measure temperature of an end portion of the lamp. 11. The method of claim 10 , comprising measuring the temperature with the temperature sensor before starting the lamp. 12. The method of claim 11 , comprising selecting a lamp starting voltage or a lamp starting frequency dependent upon the temperature measured by the temperature sensor. 13. The method of claim 10 , comprising electrically preheating a filament of the lamp before starting the lamp when the temperature measured by the temperature sensor is below a predetermined threshold value. 14. The method of claim 10 , comprising not starting the lamp when the temperature measured by the temperature sensor is outside of a predetermined range or when the temperature sensor is unable to measure the temperature. 15. The method of claim 10 , comprising controlling electric power supplied to the lamp dependent upon the temperature measured by the temperature sensor. 16. A method of operating a germicidal UV amalgam lamp, comprising: using a temperature sensor integrated into a socket adjacent a pinch-sealed end portion of the lamp to measure temperature of an end portion of the lamp, and terminating operation of the lamp if the temperature measured by temperature sensor is above a predetermined threshold value. 17. The method of claim 16 , wherein the lamp is a member of a lamp group or array and the method comprises terminating operation of the lamp group or array as a whole when the temperature measured by temperature sensor is above the predetermined threshold value. 18. The method of claim 16 , wherein the lamp is a member of a lamp group or array and the method comprises terminating operation of the lamp group or array as a whole when the temperatures measured by temperature sensors of two lamps of the lamp group or array both exceed the predetermined threshold value. 19. A method of operating a germicidal UV amalgam lamp, comprising: using a temperature sensor integrated into a socket adjacent a pinch-sealed end portion of the lamp to measure temperature of an end portion of the lamp, and using a lamp controller to estimate an amalgam temperature of the lamp based upon the temperature measured by temperature sensor. 20. The method of claim 19 , further comprising basing the estimate of the amalgam temperature of the lamp on at least one other parameter in addition to the temperature measured by temperature sensor. 21. The method of claim 20 , wherein the at least one other parameter comprises operating time of the lamp, electric power consumption of the lamp, or ambient temperature.