SU442431A1 - Digital Integrating Voltmeter Overload Detection Device - Google Patents

Description

The invention relates to the field of measurement technology, in particular, to devices for determining the overload of integrating digital volt meters, operating on the principle of double integration.

Devices for determining overloads are known, co-sequencing the integrator, and the zero-organis. However, it is noted that it is impossible to determine the overloads of digital integrating voltmeters in each conversion cycle.

In the proposed device, there are triggers, assembly circuits, a discriminator, through which the output of the utility is connected to one /, from the inputs of the assembly circuit, two, to the other inputs of the assembly circuit, to the unit outputs of the triggers, and the inputs of the triggers to the outputs. org on.

FIG. I shows the flax function of the device; on fiRv2 jT timing charts

in five consecutive measurement tsikah.

The device contains an amplifier, an integrator 2, a nuhlorgan 3, a diode criminator 4, triggers B and 6, and an OR (assembly) 7.

The integrator operation clock sets the control signal with a frequency of 25 Hz. The output voltage of the amplifier, depending on the magnitude of the measured signal and the magnitude of the interference voltage, has a magnitude and φ) shown in the time diagram.

In the first and second cycles, the output voltage of the device I and I does not exceed the limits of the nominal level, the integrator 2 is not overloaded and there is no overload. In the third and fourth cycles, the output voltage of the amplifier, beyond the limits of the nominal level, overloads the integrator. In the third measurement cycle, the null organ 3 is triggered at the first clock cycle C, the integration (/ x) and remains in this state until the beginning of the second clock cycle. This moment occurs and the zero signal is issued. In the fourth cycle, the integrator is overloaded. in such a way that its output voltage for Bpewifi of the second cycle does not reach the initial level, the null body does not work. At the end of the second cycle, the state of the zero body also is polled. If the null organ did not sang by the time of the rpm, an overload signal was also issued, the fifth cycle illustrates the operation of the device in the case when the actual measured signal contains a variable component on it. Here it is possible to go beyond the range of linearity of the us1Shitel (limitation). The inequality of the positive and negative half-waves of the variable component leads to the addition of some constant signal, which results in a measurement and is classified as an overload. The overload conditions determined in this way (in the third, fourth and fifth cycles) are transferred to the assembly circuit 7, from the output of which the signal indicating the presence of overload is transferred if the digital part of the voltmeter and distance to the display, as well as to the output to the digital printing device and m, n, the proposed device eliminates the possibility of further processing the distorted measurement result,; SUBJECT OF THE INVENTION A device for determining the overload of a digital integrating voltmeter, containing an amplifier, an integrator and a null order, characterized in that, in order to determine the overloads of the digital integrating voltmeters, each trigger circuit has a trigger circuit, an assembly scheme, a discriminator, which output amplifiers are connected to one input at the inputs of the circuit, two other inputs of the circuit; assemblies are connected to single outputs of the flip-flops, and inputs of the flip-flops are connected to the outputs of the null organ.