Electronic circuit for protecting a load against over-voltage

The invention claimed is: 1. An electronic circuit for protecting a load against over-voltage, the electronic circuit comprising: an input port for receiving a voltage from a power source; an output port for feeding the voltage to the load; a first switching unit, connected to the input port and the output port, wherein the first switching unit is arranged to switch on and off the voltage from the input port; a capacitive component, connected to the output port, wherein the capacitive component is arranged to receive the voltage when the first switching unit is switched on and to feed the voltage to the output port when the first switching unit is switched off; a first comparing unit, connected to the first switching unit and the output port and arranged to obtain a value of the voltage at the output port, wherein the first comparing unit is configured to: control the first switching unit, via a first comparator of the first comparing unit, to be switched off when the value exceeds a first threshold indicating a highest voltage to be fed to the output port; and control the first switching unit, via the first comparator, to be switched on when the value is below a second threshold indicating a least voltage to be fed to the output port, wherein the first comparator is configured to compare reference voltages that include the first threshold value and the second threshold value of the voltage; and a second comparing unit connected to the input port and the first comparing unit, wherein the second comparing unit comprises a second comparator in communication with a second switching unit, wherein the second comparing unit is configured to control power supply to the first comparing unit, based on the voltage received from the power source. 2. The electronic circuit according to claim 1 , further comprising a ground wire, wherein the voltage is received between the input port and the ground wire. 3. The electronic circuit according to claim 1 , wherein the first switching unit has a control port for receiving a control signal to switch on or off the first switching unit, wherein the control port is connected to the comparing unit. 4. The electronic circuit according to claim 2 , wherein the capacitive component is further connected to the ground wire. 5. The electronic circuit according to claim 1 , wherein the first switching unit is a transistor. 6. The electronic circuit according claim 1 , wherein the capacitive component is a capacitor.