Overspeed protection device of an aircraft engine

The invention claimed is: 1. An overspeed protection device of an aircraft engine comprising a fuel supply system of said aircraft engine, the overspeed protection device comprising a voltage source delivering voltage according to negative or positive polarization via a polarizer mounted in parallel with said voltage source; a logic control device connected in series to the voltage source, said logic control device opening or closing the fuel supply system as a function of the polarization of the delivered voltage; a first electronic unit connected in series to the voltage source and the logic control device and which comprises a first speed sensor delivering a first discrete electric control signal as a function of a speed of the aircraft engine; a normally closed first switch controlled by said first discrete electric control signal; a second electronic unit connected in series to the voltage source and the logic control device and which comprises a second speed sensor delivering a second discrete electric control signal as a function of the speed of the aircraft engine; a normally closed second switch controlled by said second discrete electric control signal; the normally closed first switch and the normally closed second switch having a ‘closed’ state letting current pass through and an ‘open’ state letting no current pass through; the logic control device being arranged between both the first electronic unit and the second electronic unit; the normally closed first switch and the normally closed second switch being sensitive respectively to the first discrete electric control signal and the second discrete electric control signal only if the voltage has a same predetermined polarization, for this same predetermined polarization, the normally closed first switch and the second normally closed switch letting the first electronic unit and the second electronic unit isolate or connect the logic control device to the voltage source as a function of said discrete electric control signals, wherein the logic control device can only be supplied by the voltage source when both the normally closed first switch and the normally closed second switch are closed. 2. The overspeed protection device according to claim 1 , wherein the first speed sensor and the second speed sensor are configured to measure a speed of the aircraft engine and deliver discrete electric control signals having a high state (‘1’) for the speed of the aircraft engine Vengine as Vthreshold 1 ≤Vengine<Vthreshold 2 , with Vthreshold 1 a first threshold and Vthreshold 2 a second threshold characteristic of overspeed; a low state (‘0’) for the speed of the aircraft engine as 0≤Vengine<Vthreshold 1 and such as Vengine≥Vthreshold 2 , or else when the aircraft engine has a breakdown. 3. The overspeed protection device according to claim 1 , wherein the first electronic unit and the second electronic units isolate the logic control device from the voltage source as soon as the normally closed first switch and the normally closed second switch move from an ‘open’ state to a ‘closed’ state while the logic control device was open, the change of state of said normally closed first switch and normally closed second switch causing closing of a servo-valve. 4. The overspeed protection device according to claim 1 , wherein the first speed sensor and the second speed sensor are configured to provide electric energy from rotation of the aircraft engine so as to self-feed said overspeed protection device. 5. The overspeed protection device according to claim 4 , wherein the first speed sensor and the second speed sensor are of inductive type, including a phonic wheel, of alternator winding type or else an active electric sensor for measuring speed. 6. The overspeed protection device according to claim 1 , wherein the normally closed first switch and the normally closed second switch are constituted by a transistor preferably of Darlington or bipolar type.