Chemical Controller System and Method

1 . A chemical controller for an aquatic application, comprising: at least one output relay; a current detection circuit configured to detect current on an output of the at least one output relay; a current fault detection device configured to output a current fault signal indicative of an occurrence of a current fault condition, wherein the current fault condition comprises a condition where a current exists on the output of the at least one output relay while the at least one output relay is instructed to be deactivated via a corresponding relay enable signal; at least one relay latch configured to receive the relay enable signal and the current fault signal and to decouple the relay enable signal from a corresponding relay latch output when the current fault signal indicates the occurrence of a current fault condition and to couple the relay enable signal to the corresponding relay latch output when the current fault signal indicates a current fault condition has not occurred; and a relay drive circuit configured to receive a signal from the corresponding relay latch output and to responsively activate and deactivate the at least one output relay. 2 . The chemical controller of claim 1 further comprising: at least one output power shutoff relay configured to remove an output power provided to the at least one output relay when the current fault signal indicates the occurrence of the current fault condition. 3 . The chemical controller of claim 1 , wherein the chemical controller is in electrical communication with a pump. 4 . The chemical controller of claim 3 , wherein the pump is designed to deliver a chemical into the aquatic application. 5 . The chemical controller of claim 1 , wherein the aquatic application is at least one of a pool, a hot tub, a spa tub, a fountain, a pond, or a recirculating aquaculture system. 6 . The chemical controller of claim 1 , wherein the chemical controller is in communication with a sensor, the sensor configured to sense one or more characteristics of the aquatic application. 7 . The chemical controller of claim 6 , wherein the one or more characteristics include pH values and alkalinity values. 8 . The chemical controller of claim 6 , wherein the chemical controller controls a pump to cause delivery of a chemical based on the sensed characteristic of the aquatic application. 9 . The chemical controller of claim 8 , wherein the chemical controller controls at least a first and a second body of water in the aquatic application. 10 . A method of monitoring an output relay in a chemical controller, the method comprising: detecting a current on an output of at least one output relay using a current sensor; outputting a current fault signal from the current sensor, the current fault signal indicative of an occurrence of a current fault condition, wherein the current fault condition comprises a condition where a current exists on the output of the at least one output relay while the at least one output relay is instructed to be deactivated via a corresponding relay enable signal; decoupling a relay enable signal from a corresponding relay latch output when the current fault signal indicates the occurrence of a current fault condition and coupling the relay enable signal to the corresponding relay latch output when the current fault signal indicates a current fault condition has not occurred; and transmitting a signal to a relay drive circuit from the corresponding relay latch output, the relay drive circuit configured to activate and deactivate the at least one output relay based on the received signal. 11 . The method of claim 10 , further comprising: removing an output power provided to the at least one output relay when the current fault signal indicates the occurrence of the current fault condition. 12 . The method of claim 11 , wherein the output power is removed to the at least one output relay by deactivating a power master relay. 13 . The method of claim 10 , further comprising: outputting a processor fault signal from a processor, the processor fault signal indicative of an occurrence of a processor fault condition; decoupling a relay enable signal from a corresponding relay latch output when the processor fault signal indicates the occurrence of a processor fault condition; and transmitting a signal to a relay drive circuit from the corresponding relay latch output, the relay drive circuit configured to activate and deactivate the at least one output relay based on the received signal. 14 . The method of claim 12 , wherein the processor fault signal indicates a hung processor. 15 . A chemical control system for an aquatic application, the system comprising: a chemical controller, the chemical controller configured to regulate a chemical parameter of the aquatic application; a pump, the pump configured to introduce at least one chemical into the aquatic application, wherein the chemical controller controls operation of the pump using an output relay; and an output relay monitoring circuit, the output relay monitoring circuit comprising: a current detection circuit configured to detect a current on an output of the output relay; a current fault detection device configured to output a current fault signal when current exists on the output of the output relay while the output relay is instructed to be deactivated via a corresponding relay enable signal; a relay latch circuit configured to receive the current fault signal and decouple a relay enable signal from a corresponding relay latch output; and a relay drive circuit, the relay drive circuit deactivating the output relay when the relay enable signal is decoupled. 16 . The chemical control system of claim 15 , wherein the output relay monitoring circuit further comprises at least one output power shutoff relay configured to remove an output power provided to the at least one output relay when the current fault signal indicates an occurrence of a current fault condition. 17 . The chemical control system of claim 15 , wherein the chemical controller includes a user interface, the user interface configured to allow a user to input chemical parameters associated with the aquatic application. 18 . The chemical control system of claim 17 , wherein the controller includes a display. 19 . The chemical control system of claim 15 , wherein the chemical controller is in communication with a sensor, the sensor configured to sense one or more chemical characteristics of the aquatic application. 20 . The chemical control system of claim 15 , wherein the pump is a peristaltic pump.