Current-measurement device

The invention claimed is: 1. A device for measuring current by means of integration, said device comprising: a first operational amplifier comprising a first inverting input, with the current to be measured being applied on said first inverting input; an integration capacitor arranged between the first inverting input of the first operational amplifier and an output of said first operational amplifier; an active current source connected to the first inverting input of the first operational amplifier, with the current source being configured to: in a first measurement state of the device, compensate for leakage current of the device; in a second reset state of the device, triggered by a charge value of the integration capacitor substantially equal to a maximum value Q Max that is reachable by the integration capacitor, generate a current which is adapted to return said charge to its initial value Q 0 ; a control system configured to: memorize a Q 0 initial charge state of the integration capacitor, corresponding to a voltage Vco at the output of the first operational amplifier; place the device in the measurement state and keep it there until the charge of the integration capacitor substantially reaches Q Max , corresponding to a voltage V CMax at the output of the first operational amplifier; when the charge of the integration capacitor substantially reaches Q Max , corresponding to a voltage V CMax at the output of the first operational amplifier, place the device in the reset state until the charge of the integration capacitor substantially reaches Q 0 . 2. The device according to claim 1 , wherein the active current source comprises a second operational amplifier connected as a follower, said second operational amplifier further comprising a positive reaction by means of a first resistor R 5 with a value greater than 500 MOhms. 3. The device according to claim 2 , wherein an output of the second overational amplifier of the current source is connected, after a resistor R 10 of about 1 kOhm, to two diodes D 1 and D 2 connected as follows: for D 1 , connected to a common point of the diodes D 1 and D 2 and to R 1 by its cathode, an anode of D 1 is connected via a protective resistor of low value R 11 to a low logic level when the circuit is in its measurement state, and a high logic level when the circuit is in its reset state and when it is desired to inject into first capacitor C 5 a current in a first direction; for D 2 , connected to the common point of the diodes D 1 and D 2 and to R 10 by its anode, a cathode of D 2 is connected to a high logic level when the circuit is in its measurement state, and a low logic level when the circuit is in its reset state and when it is desired to inject into the first capacitor C 5 a current in a second direction. 4. The device according to claim 3 , wherein the control system comprises a microcontroller configured to control a passing of a reset current of the first capacitor C 5 in one direction or in the other thanks to the diodes D 1 and D 2 , and wherein logic levels to which are brought the anode of D 1 via R 11 , and the cathode of D 2 are each applied by a logic output of the microcontroller. 5. The device as claimed in claim 3 , wherein the device is switchable into an transimpedance amplifier state thanks to an electronic switch SW 1 of which a central contact is connected to an end of R 5 not connected to the non-inverting input of the second operational amplifier, and makes it possible to connect said contact either on the common point between the first diode D 1 and the second diode D 2 in order to obtain an operation of the circuit as a current measurer by means of integration, or on the output of the first operational amplifier in order to obtain an operation of the circuit as a transimpedance amplifier, with said electronic switch being controllable by the microcontroller. 6. The device according to claim 3 , further comprising a system to measure heat drifts T of said device, said system to measure heat drifts T being connected to an input of the microcontroller. 7. A system for measuring current by means of integration, said system comprising: an ionisation chamber wherein the current circulates; and a device for measuring current by means of integration as claimed in claim 1 .