Device of protection against transient electrical overvoltages

The invention claimed is: 1. A device of protection against transient electrical overvoltages, comprising: two voltage-limiting passive components, disconnectors sensitive to a state of the components and adapted to individually disconnect each end of life component therefrom, wherein the components are joined in parallel between a first and a second terminal of the device, wherein a reference voltage of the first component is inferior to a reference voltage of the second component, and wherein a ratio of the reference voltages is inferior to 2 and wherein, for a voltage applied between the first terminal and the second terminal exceeding the reference voltage of the first component, the current flowing through the first component is greater than the current flowing through the second component and the difference between the current flowing through the first component and the current flowing through the second component is increasing when the voltage applied between the first terminal and the second terminal is increasing. 2. The device according to claim 1 , wherein at least one of the voltage-limiting components is a varistor. 3. The device according to claim 1 , wherein the disconnectors are associated with a display element, the display element being arranged to indicate an interruption of the current flow in at least one branch of the device, said at least one branch comprising one of the voltage-limiting passive components. 4. The device according to claim 3 , wherein the display element is arranged to indicate an interruption of the current flow in the two branches comprising the voltage-limiting passive components. 5. The device according to claim 1 , wherein the disconnectors are associated with remote warning units arranged to indicate an interruption of the current flow in at least one of the two branches comprising the voltage-limiting passive components. 6. The device according to claim 1 , further comprising an arrangement for adjusting a current unbalance between a first branch comprising the first voltage-limiting passive component and a second branch comprising the second passive limiting-voltage component, the first and the second branches being joined in parallel between the first and the second terminals of the device. 7. The device according to claim 6 , wherein the arrangement for adjusting the unbalance comprises at least one resistive element arranged in one of the branches of the device between the first and the second terminals of the device. 8. The device according to claim 1 further comprising a capacitor joined between the first and the second terminals of the device. 9. A device of protection against transient electrical overvoltages, comprising: two voltage-limiting passive components, disconnectors sensitive to a state of the components and adapted to individually disconnect each end of life component therefrom, wherein the components are joined in parallel between a first and a second terminal of the device, wherein a reference voltage of the first component is inferior to a reference voltage of the second component, and wherein the ratio of the reference voltages is inferior to 2 and superior to 1.2, and wherein, for a voltage applied between the first terminal and the second terminal exceeding the reference voltage of the first component, the current flowing through the first component is greater than the current flowing through the second component and the difference between the current flowing through the first component and the current flowing through the second component is increasing when the voltage applied between the first terminal and the second terminal is increasing. 10. A device of protection against transient electrical overvoltages, comprising: two voltage-limiting passive components, disconnectors sensitive to a state of the components and adapted to individually disconnect each end of life component therefrom, wherein the components are joined in parallel between a first and a second terminal of the device, wherein a reference voltage of the first component is inferior to a reference voltage of the second component, and wherein the ratio of the reference voltages is inferior to 2 and superior to 1.4, and wherein, for a voltage applied between the first terminal and the second terminal exceeding the reference voltage of the first component, the current flowing through the first component is greater than the current flowing through the second component and the difference between the current flowing through the first component and the current flowing through the second component is increasing when the voltage applied between the first terminal and the second terminal is increasing.