Field configurable low water cut-offs

What we claim is: 1. A field configurable low water cutoff switch controller comprising: a dual inline package (DIP) having DIP switches that are dedicated to different application types or modes corresponding to different water heater models for the low water cutoff switch controller to control, each DIP switch configured to be set during installation in a respective application type or mode corresponding to a particular water heater model, and also configured to provide DIP switch signaling containing information about a respective DIP switch that is set in the respective application type or mode; and a low water cutoff switch processor configured to respond to the DIP switch signaling, and also configured to respond to corresponding signaling containing information about a sensed water level contained in the particular water heater model being controlled by the field configurable low water cutoff switch controller, and provide control signaling containing information to control the operation of the particular water heater model. 2. A field configurable low water cutoff switch controller according to claim 1 , wherein the field configurable low water cutoff switch controller comprises a test/manual reset common switch configured to respond to a pressing force applied for a duration of time, and provide test/manual reset common switch signaling; and the low water cutoff switch processor configured to respond to the test/manual reset common switch signaling, and set the field configurable low water cutoff switch controller for operating in the respective application type or mode corresponding to the particular water heater model. 3. A field configurable low water cutoff switch controller according to claim 2 , wherein the low water cutoff switch processor is configured to set the field configurable low water cutoff switch controller for operating in the respective application type or mode corresponding to the particular water heater model one time and does not allow the respective application type or mode corresponding to the particular water heater model to be changed. 4. A field configurable low water cutoff switch controller according to claim 1 , wherein the DIP switches can be set to application types or modes, as follows: Sr. No. 120 volts applications 24 volts applications 1 Hot water - automatic mode Hot water - automatic mode 2 Hot water - manual mode Hot water - manual mode 3 Steam - automatic mode Steam - automatic mode 4 Steam - manual mode Steam - manual mode 5 Steam - high water manual Steam - high water manual mode mode. 5. A field configurable low water cutoff switch controller according to claim 2 , wherein the low water cutoff switch processor is also configured to provide LED control signaling; and the field configurable low water cutoff switch controller comprises an LED module having LEDs corresponding to application types or modes, the LED module configured to respond to the LED control signaling, and provide an LED indication of one of the application types or modes selected. 6. A field configurable low water cutoff switch controller according to claim 5 , wherein the LED module comprises dual colour LEDs having a green LED for lighting to indicate an auto/power mode, a yellow LED for lighting to indicate a manual/power mode, and a red LED for lighting to indicate a control status mode. 7. A field configurable low water cutoff switch controller according to claim 1 , wherein the dual inline package (DIP) comprises DIP LEDs, each DIP LED corresponding to a respective one of the DIP switches for providing a respective LED indication when the respective one of the DIP switches is selected. 8. A field configurable low water cutoff switch controller according to claim 2 , wherein the low water cutoff switch processor is configured to respond to the test/manual reset common switch signaling, and lock the field configurable low water cutoff switch controller so that any further change to the DIP switches will not effect the operation of the field configurable low water cutoff switch controller. 9. A field configurable low water cutoff switch controller according to claim 1 , wherein the plurality of different water heater models include 24V or 120V applications. 10. A field configurable low water cutoff switch controller according to claim 1 , wherein each DIP switch is configured to be manually set by a field operator during installation to a respective position corresponding to the respective application type or mode corresponding to the particular water heater model. 11. A low water cutoff switch controller comprising: a dual inline package (DIP) having DIP switches, each DIP switch configured to set in a respective application type or mode corresponding to a particular water heater model for the low water cutoff switch controller to control, and also configured to provide DIP switch signaling containing information about a respective DIP switch set; and a low water cutoff switch processor configured to respond to the DIP switch signaling, and also configured to respond to corresponding signaling containing information about a sensed water level contained in the particular water heater model being controlled by the low water cutoff switch controller, and provide control signaling containing information to control the operation of the particular water heater model, wherein the low water cutoff switch controller comprises a relay module configured to respond to the control signaling, and provide relay signaling containing information to control the operation of the particular water heater model. 12. A low water cutoff switch controller according to claim 11 , wherein the relay signaling includes NC—burner contact signaling, no—WF contact signaling and/or com signaling containing information to control the operation of the particular water heater model.