Isolated power converter for a thermal system

What is claimed is: 1 . A power converter system for providing adjustable power to a heater, the power converter system comprising: a full-bridge isolating converter comprising a transformer; and a power controller configured to: operate the full-bridge isolating converter to generate an isolated output voltage; determine whether the transformer is operating in a flux walk state based on an electric current flowing through a primary winding of the transformer being greater than or equal to a flux current threshold; and generate instructions to adjust an input voltage applied to a plurality of heating elements of the heater in response to the transformer operating in the flux walk state. 2 . The power converter system of claim 1 , wherein the full-bridge isolating converter further comprises a full-bridge rectifier electrically coupled to the transformer, wherein the transformer is configured to generate an isolated full-wave voltage. 3 . The power converter system of claim 2 , wherein the full-bridge isolating converter further comprises an output rectifier configured to rectify the isolated full-wave voltage to generate the isolated output voltage. 4 . The power converter system of claim 1 , wherein the full-bridge isolating converter includes a first pair of electronic switches and a second pair of electronic switches to drive the transformer with a rectified line power. 5 . The power converter system of claim 4 , wherein the power controller is configured to deactivate the first pair of electronic switches and the second pair of electronic switches in response to the transformer operating in the flux walk state. 6 . The power converter system of claim 5 , wherein the first pair of electronic switches and the second pair of electronic switches are deactivated for a given switch cycle of a variable frequency control routine. 7 . The power converter system of claim 1 further comprising a filter configured to filter the isolated output voltage to output a desired output voltage. 8 . The power converter system of claim 1 further comprising an input rectifier configured to rectify a line power having a line energy. 9 . The power converter system of claim 8 , wherein the input rectifier is configured to receive, as the line power, one of a single-phase alternating current (AC) or a direct current (DC). 10 . The power converter system of claim 8 , wherein the full-bridge isolating converter is configured to generate the isolated output voltage based on the rectified line power, and wherein the isolated output voltage is electrically isolated from the line energy. 11 . The power converter system of claim 1 further comprising a bridge sensor coupled to the full-bridge isolating converter, wherein the bridge sensor is configured to detect the electric current flowing through the primary winding of the transformer. 12 . A power converter system for providing adjustable power to a heater, the power converter system comprising: a full-bridge isolating converter comprising a full-bridge rectifier; and a power controller configured to perform a variable frequency control to generate an isolated output voltage, wherein the variable frequency control comprises reducing a switching frequency of the full-bridge rectifier in response to reducing a pulse period of the full-bridge rectifier. 13 . The power converter system of claim 12 , wherein the variable frequency control further comprises reducing the pulse period in response to reducing the switching frequency. 14 . The power converter system of claim 12 , wherein the full-bridge isolating converter further comprises: a transformer electrically coupled to the full-bridge rectifier, wherein the transformer is configured to generate an isolated full-wave voltage; and an output rectifier configured to rectify the isolated full-wave voltage to generate the isolated output voltage. 15 . The power converter system of claim 12 further comprising an input rectifier configured to rectify a line power having a line energy. 16 . The power converter system of claim 12 further comprising a bridge sensor coupled to the full-bridge isolating converter. 17 . A power converter system for providing adjustable power to a heater, the power converter system comprising: a power controller configured to: operate a full-bridge isolating converter to generate an isolated output voltage based on a variable frequency control; determine whether the full-bridge isolating converter is operating in a flux walk state based on a detected electric current; and generate instructions to adjust an input voltage applied to a plurality of heating elements of the heater in response to the full-bridge isolating converter operating in the flux walk state. 18 . The power converter system of claim 17 further comprising an input rectifier configured to rectify a line power having a line energy. 19 . The power converter system of claim 18 , wherein the full-bridge isolating converter is electrically coupled to the input rectifier. 20 . The power converter system of claim 19 further comprising a bridge sensor coupled to the full-bridge isolating converter, wherein the bridge sensor is configured to detect the electric current flowing through the full-bridge isolating converter.