SU614390A1 - Low-value dc measuring arrangement - Google Patents

Claims (2)

through another resistor to the common terminal of the device, and the drain through the third resistor is connected to the positive power source. The drawing shows a schematic of a device for measuring low constant currents. The device contains an integrator 1, the output of which is connected to the input of the discriminator 2. The output of the discriminator 2 is connected to the input of the shaper 3 of the discharge pulse. One of the codes of the driver 3 is connected through a series-connected resistor 4 and a capacitor 5 connected to the source of the field-effect transistor 6. The source of the field-effect transistor 6 is connected to the common terminal of the device through the other resistor 7, and the drain through the resistor 8 is connected to the positive power source. The gate of the field-effect transistor b is connected to the input of the integrator 1. To the second output of the driver 3. connect the | | en meter frequency pulse sequence. The device works as follows. When a measured current is applied to the input of a device, a charge accumulates on the capacitor of integrator 1 and the voltage at its output increases. When this voltage reaches the threshold of the discriminator 2 at the output of the latter, a voltage level is generated that controls the shaper of the discharge pulse 3. When a voltage drop is applied to the shaper input at its inputs S, a time of equal duration of the generated bit pulse exists zero potential. Otherwise, the voltage of the driver 3 is equal to the supply voltage. During the accumulation of charge on the condenser of the integrator 1, the field effect transistor b operates with a reverse-biased pn junction, and hence with a very low gate current. The selection of the initial mode of the transistor 6 is carried out by resistors and 8. During the action of the discharge pulse, the voltage at the output of the forming body 3 is zero, and at all other times - the supply voltage. In this case, the voltage of the charged capacitor 5 is distributed between the resistors 4 and creating a negative voltage at the source of the field transistor 6. Since the potential of the gate of the field effect transistor is almost unchanged and equal to zero, its control (the transition opens and ensures the discharge of the storage capacitance of the capacitor 5, the potential of the source during the action of the pulse remains unchanged, therefore the discharge current of the integrator 1 remains unchanged. acting on the discharge pulse, the voltage at the integrator output becomes lower than the threshold voltage of discriminator 2. The initial state of the device is restored, and under the action of the input current the voltage on you the integrator begins to grow again. The accumulation process of charge dump on the capacitor of integrator 1 is periodic. The frequency of the pulse sequence obtained from the output of the driver 3 is proportional to the measured current. The tests showed that the proposed device is not inferior to the technical data known At the same time, it is much simpler and more reliable. The device can be widely used to measure low DC currents and high resistances. Apparatus of the Invention A device for measuring small dc currents containing a current integrator connected in series, a discriminator and a discharge pulse shaper to one output of which a meter is connected, and a fixed charge source is connected to another integrator input to reset the integrator. -, so that, in order to simplify the circuit and increase its reliability while maintaining the same sensitivity, the source of a fixed charge for resetting the integrator is performed on the field transition a torus with a pn junction, resistors and a capacitor, the gate of the transistor being connected to the input of the current integrator, the source through a successively connected capacitor and a resistor to the output of the discharge pulse driver and through another resistor to the common terminal of the device, and the drain through the third The resistor is connected to the positive power source. Sources of information taken into account in the examination: 1.Shvetsky B.I. Electronic digital devices, with digital readout. Kiev, Technique, 1970. 2. Instruments for scientific research, 1965, 5, p. 15. R