Patent Number: 
Section: claims

1. A power supply including;an alternating current input;a direct current output that is configured to be adjustable between substantially 0 and 2,500 VDC;a test point configured to provide an operator with information about any alternating current component of the direct current output, superimposed on the direct current output; andwherein the power supply comprises two separate circuit modules, a first module of the two separate circuit modules comprises a line powered switcher for converting the alternating current input into a steady state direct current at the direct current output and a second module of the two separate circuit modules comprises a high voltage switcher constructed to raise the voltage level inputted from the first module to a desired output voltage and the first module and the second module are respectively independent switched mode power supplies;wherein the first module includes a series arrangement of an input current limiter, a first surge protector, an inrush limiter, a line filter, an EMI filter, a second surge protector, an input rectifier/filter, a transformer, an output rectifier and an output filter; andfurther including a controller/switch optically coupled in series with a reference generator in parallel with series arrangement of the transformer, output rectifier and output filter. 2. The power supply of claim 1 wherein one of the first surge protector and the second surge protector is a Metal Oxide Varistor. 3. The power supply of claim 2 wherein another of the first surge protector and the second surge protector is a transient voltage suppressor. 4. The power supply of claim 1 wherein the second module comprises:a potentiometer including a resistive wire connected between a reference voltage and ground and a wiper configured to move along and in electrical contact with the resistive wire, the wiper being connected in a series arrangement including:a buffer amplifier;a controller;a driver/switches;a high voltage transformer;an output rectifier doubler; andan output filter. 5. The power supply of claim 4 including a feedback loop between an output of the output filter and an input to the controller. 6. The power supply of claim 4 including an overvoltage sensing circuit connected between an output of the output filter and the controller in parallel with the series arrangement, the overvoltage sensing circuit being configured to identify an overvoltage condition and signal the controller when an overvoltage condition is detected to shut down the power supply. 7. The power supply of claim 4 including an overcurrent sensing circuit connected between the controller and the driver/switches, in parallel with the series arrangement, the overcurrent sensing circuit being configured to identify an overcurrent condition and signal the controller when an overcurrent condition is detected to shut down the power supply. 8. The power supply of claim 1 wherein the power supply is at least partially enclosed within a housing including a plurality of lights visible from the housing which, when lit, respectively identify a potential overcurrent, overvoltage and ripple condition in the direct current output.