Circuit arrangement for supplying current to an electrolysis device and a method for operating the circuit arrangement

The invention claimed is: 1. A circuit arrangement supplying DC current, comprising: a rectifier that converts an input-side AC voltage into an output-side first DC voltage, the rectifier controllable to determine the first DC voltage a plurality of down-converters, each responsive to the first DC voltage for controllably converting the first DC voltage to a second DC voltage, a like plurality of electrolysers each connected to the output-side of a respective down-converter, a like plurality of first measuring devices for measuring the amount of substance produced by a respective electrolyser, a like plurality of second measuring devices for measuring an operating point of a respective electrolyser, a like plurality of third measuring devices for measuring a current of a respective electrolyser, and from the application of Ohm's Law, determining a resistance of a respective electrolyser based thereon, a like plurality of bypass switches directly connected, with no intervening components, between an input and an output of each down converter such that closing the switch bypasses the respective down-converter, the bypass switch controllable between only two configurations, an opened configuration and a closed configuration with no configurations between the opened and the closed configuration, when the bypass switch is in the opened configuration the first DC voltage is supplied to the down converter, the down converter acts on the first DC voltage to produce the second DC voltage, and the second DC voltage is supplied to the electrolyser, and when the bypass switch is in the closed configuration the bypass switch shorts the down converter input to the down converter output, thereby supplying the first DC voltage to the electrolyser, and a computing device for controlling the rectifier responsive to the plurality of the first, second, and third measuring devices to control the first DC voltage, and for controlling each down converters, responsive to the plurality of the first, second, and third measuring devices to control the second DC voltage, and for controlling each bypass switch, responsive to the plurality of the first, second, and third measuring devices, to the opened or the closed configuration. 2. The circuit arrangement as claimed in claim 1 , wherein each down-converter comprises at least one energy-storage inductor and at least one transistor, which are connected in series with the electrolyser connected to the down-converter. 3. The circuit arrangement as claimed in claim 1 , wherein the rectifier comprises a thyristor assembly. 4. The circuit arrangement as claimed in claim 1 , wherein the circuit arrangement comprises a capacitor, which is connected in parallel with the output of the rectifier. 5. The circuit arrangement as claimed in claim 1 , wherein the input side of the rectifier is connected to a secondary of a transformer that converts a first AC voltage present on a primary of the transformer into a second AC voltage present on the secondary. 6. The circuit arrangement as claimed in claim 5 , wherein the transformer comprises a tertiary, which is connected to a passive filter. 7. The circuit arrangement as claimed in claim 1 , wherein one or more electrolysers of the plurality of electrolysers having the lowest resistance, as determined by the respective second measuring devices, is responsive to the second DC voltage and all other electorlysers of the plurality of electrolysers are each responsive to the first DC voltage. 8. The circuit arrangement as claimed in claim 1 , wherein the computing device controls the first DC voltage and the second DC voltage responsive to the amount of substance produced by one of the electrolysers or by the amount of substance produced by all of the electrolysers. 9. The circuit arrangement as claimed in claim 1 , wherein one or both of the first and second DC voltages are determined to place operation of each electolyser at a desired operating point. 10. An electrolysis device, comprising: at least one circuit arrangement as claimed in claim 1 , and wherein each one of the plurality of electrolysers comprises at least one proton exchange membrane.