Output current configuration based on load connection

What is claimed is: 1. A driver port providing selectable output currents, comprising: a plurality of shunt resistors connected in series between a negative output of a driver and a ground; a driver port having a plurality of connection points, wherein each respective connection point is connected to a different connection between two of the plurality of shunt resistors; wherein a load is capable of being connected between one of the connection points of the driver port and a positive output of the driver; and wherein the driver comprises: an EMI front end coupled to a voltage source, the EMI front end configured to provide a rectified direct current voltage; a boost PFC circuit coupled to the EMI front end and configured to provide a boosted voltage; an inverter coupled to the boost PFC circuit; a PFC and Half Bridge coupled to the boost PFC circuit and the inverter; an isolation transformer having a primary side coupled to the inverter; a rectifier coupled to a secondary side of the isolation transformer; and an output filter coupled to the rectifier, wherein an output of the output filter is coupled to the driver port; and a regulator circuit in communication with the driver and the driver port, wherein the regulator circuit comprises a first input in communication with the negative output of the driver, a second input in communication with the output of the output filter of the driver, and an output coupled to a primary side of the isolation transformer. 2. The driver port of claim 1 , wherein the plurality of connection points provide different output currents for the load. 3. The driver port of claim 1 , further comprising a driver for one or more solid state light sources in electrical communication with the driver port. 4. A method of providing different currents to different loads, comprising: providing a plurality of shunt resistors connected in series between a negative output of a driver of one or more solid state light sources and a ground; providing a driver port having a plurality of connection points, each respective connection point connected to a different connection between two of the plurality of shunt resistors; and connecting a load comprising one or more solid state light sources between one of the connection points of the driver port and a positive output of the driver; and placing the driver of one or more solid state light sources in electrical communication with the driver port by providing a driver of one or more solid state light sources, the driver comprising: an EMI front end coupled to a voltage source, the EMI front end configured to provide a rectified direct current voltage; a boost PFC circuit coupled to the EMI front end and configured to provide a boosted voltage; an inverter coupled to the boost PFC circuit; a PFC and half bridge coupled to the boost PFC circuit and the inverter; an isolation transformer having a primary side coupled to the inverter; a rectifier coupled to a secondary side of the isolation transformer; and an output filter coupled to the rectifier, wherein an output of the output filter is coupled to the driver port; and providing a regulator circuit comprising a first input in communication with the negative output of the driver, a second input in communication with an output of the output filter of the driver, and an output coupled to a primary side of the isolation transformer, in communication with the driver and the driver output port. 5. The method of claim 4 , wherein providing different connection points provides different output currents for the load. 6. The method of claim 4 , wherein providing a regulator circuit in communication with the driver and the driver output port comprises providing a constant current constant voltage regulator in communication with the driver and the driver output port.