Differential comparator circuit

The invention claimed is: 1. An electronic circuit comprising a differential comparator circuit, the differential comparator circuit comprising: a voltage amplifier of negative gain configured to receive an analog input signal and to generate an inverted analog input signal, wherein the analog input signal and the inverted analog input signal form differential analog input signals; and a comparator input circuit comprising: a first capacitive divider configured to generate a first signal as an average of the analog input signal and a first ramp signal; and a second capacitive divider configured to generate a second signal as an average of the inverted analog input signal and a second ramp signal, wherein the first and second ramp signals are differential ramp signals; wherein the differential comparator circuit is configured to compare the first signal with the second signal in order to generate a signal transition having a timing based on the analog input signal. 2. The electronic circuit according to claim 1 , wherein the voltage amplifier is a capacitive voltage amplifier, and wherein the negative gain is a negative unitary gain. 3. The electronic circuit according to claim 1 , wherein the voltage amplifier comprises: an amplifying stage having an inverting input; an input capacitor coupled between an input of the voltage amplifier receiving the analog input signal and the inverting input; and a feedback capacitor coupled between the inverting input and an output of the voltage amplifier providing the inverted analog input signal; wherein the input capacitor and the feedback capacitor having capacitances that are equal or substantially equal to each other. 4. The electronic circuit according to claim 3 , wherein the voltage amplifier comprises a reset switch activated by a control unit, wherein said reset switch is coupled between the inverting input of the amplifying stage of the voltage amplifier and the output of the voltage amplifier. 5. The electronic circuit according to claim 1 , wherein: the first capacitive divider comprises: a first capacitor coupled between a first input node of the comparator input circuit receiving the analog input signal and a first output of the comparator input circuit providing the first signal; and a second capacitor coupled between a second input node of the comparator input circuit receiving the first ramp signal and the first output of the comparator input circuit; and the second capacitive divider comprises: a third capacitor coupled between a third input node of the comparator input circuit receiving the inverted analog input signal and a second output of the comparator input circuit providing the second signal; and a fourth capacitor coupled between a fourth input node of the comparator input circuit receiving the second ramp signal and the second output of the comparator input circuit; wherein the first, second, third and fourth capacitors all have the same, or substantially the same, capacitance. 6. The electronic circuit according to claim 1 , wherein the comparator input circuit comprises: an amplifier having an inverting input configured to receive the first signal, and a non-inverting input configured to receive the second signal; and an initialization circuit configured to apply: a common mode voltage to the non-inverting input of the amplifier; and the common mode voltage between the inverting input and an output of the amplifier of the differential comparator circuit. 7. The electronic circuit according to claim 1 , wherein the analog input signal is a pixel output signal of a pixel of an array of pixels. 8. The electronic circuit of claim 1 , wherein the differential comparator circuit is configured to define a first comparator; further comprising a second comparator comprising a second differential comparator circuit, the second differential comparator circuit comprising: a second voltage amplifier of negative gain configured to receive a second analog input signal and to generate a second inverted analog input signal, wherein the second analog input signal and the second inverted analog input signal form differential analog input signals; and a second comparator input circuit comprising: a third capacitive divider configured to generate a third signal as an average of the second analog input signal and a third ramp signal; and a fourth capacitive divider configured to generate a fourth signal as an average of the second inverted analog input signal and a fourth ramp signal, wherein the third and fourth ramp signals are differential ramp signals; the second differential comparator circuit being configured to compare the third signal with the fourth signal in order to generate a signal transition having a timing based on the second analog input signal; and further comprising a matrix of pixels, the analog input signal of the first comparator being provided by a first pixel of a first column of the matrix, and the second analog input signal of the second comparator being provided by a second pixel of a second column of the matrix. 9. The electronic circuit of claim 1 , configured to define an analog to digital converter comprising: the differential comparator circuit; and a time to digital converter configured to generate a digital output signal based on the timing of the signal transition. 10. An electronic circuit comprising a differential amplifier circuit, the differential amplifier circuit comprising: a swapping circuit configured to couple, during a first time period, a first capacitor between a first input node and a common node and a second capacitor between a second node and the common node, and to couple, during a second time period, the first capacitor between the second node and the common node and the second capacitor between the first input node and the common node; the swapping circuit comprising: a first switch coupled between the first input node and a first electrode of the first capacitor; a second switch coupled between the second node and the first electrode of the first capacitor; a third switch coupled between the second node and a first electrode of the second capacitor; and a fourth switch coupled between the first input node and the first electrode of the second capacitor, wherein a second electrode of the first capacitor and a second electrode of the second capacitor are coupled to the common node; and a control circuit configured to: control, during the first time period, the first and third switches to be conductive and the second and fourth switches to be non-conductive; and control, during the second time period, the second and fourth switches to be conductive and the first and third switches to be non-conductive, such that roles of the first and second capacitors are swapped between the first and second time periods. 11. The electronic circuit according to claim 10 , wherein the control circuit is configured to control the switches over a succession of time periods, wherein during each time period of the succession, the control circuit is configured to perform the control of the first, second, third and fourth switches to select, pseudo-randomly, either a switch configuration corresponding to the first time period or a switch configuration corresponding to the second time period, the selection being kept constant during each time period. 12. The electronic circuit according to claim 10 , further comprising a differential comparator circuit, the differential comparator circuit comprising: a voltage amplifier of negative gain configured to receive an analog input signal and to generate an inverted analog input signal, wherein the analog input sign