SU1161903A1 - Device for automatic measuring of noise factor of four-terminal network - Google Patents

Abstract

DEVICE FOR AUTOMATIC MEASUREMENT OF NOISE quadripole, comprising series-connected voltage divider, analog-to-digital converter and a microprocessor and serially connected accumulator and the indicator, wherein the control outputs of the microprocessor are connected to respective inputs of the voltage divider and the accumulator, from l ichayuschees In order to improve speed, a descrambler is inserted into it, the input of which is connected to the information output of the micro processor, and the output - with the information input accumulating adder. (Ls

Description

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with about with 1. The invention relates to a measurement technique and can be used in measuring instruments for the noise ratio of a flow terminal with an extended range of the magnitude of the measured signals. A device for measuring the noise ratio of a flow cell is known, comprising a reference voltage source, a nonocoBoff amplifier, a threshold circuit, a pulse counter, a calibration voltage generator, an integrator, a pulse driver and a time interval meter. This device essentially does not measure the noise figure, but only compares it with a specific value, i.e. carries out the scrutiny, which is associated with quantization of the noise signal by just two times. The closest in technical essence to the proposed is a device for automatic measurement of the noise factor of a quadrupole, containing a serially connected analog divider, analog-to-digital converter, a microprocessor, accumulator and and a switch, wherein the control outputs of the microprocessor are connected to the corresponding inputs of the voltage divider and to the adducting adder 2j. A disadvantage of this device is the relatively low fast action, due to the considerable time required for organizing in the microprocessor to square the number corresponding to the instantaneous values of the noise voltage, as well as multiplying these numbers by a factor that takes into account the change in the transfer ratio of the voltage divider. The purpose of the invention is to increase the response of the device. The goal is achieved by the fact that a device for automatic measurement of the noise factor of a quadrupole containing series-connected voltage divider, analog-to-digital converter and microprocessor, as well as series-connected accumulator and indicator, and controlling the outputs of the microprocessor 32 with the corresponding inputs of the voltage divider and accumulating adder, a decoder is entered, the input of which is connected to the information output of the microprocessor, and the output from the information output Odom accumulator. The drawing shows a block diagram of the device. The device contains a voltage divider 1, the input of which is connected to a terminal for connecting a tested quadrupole, serially connected analog-to-digital converter 2, microprocessor 3, decoder 4, accumulating adder 5 and indicator 6. The device operates as follows. A noise voltage is applied to the input of the voltage divider 1, which corresponds to the noise coefficient of the studied quadrupole. The transfer ratio of the voltage divider 1 is discretely varied according to the control commands of the microprocessor 3. At the initial moment of time, the transmission voltage divider 1 is maximum. The signal from the voltage divider 1 goes to the analog-to-digital converter 2, where it converts the digital code to the microprocessor 3 for processing. If the voltage at the input of the analog-digital converter 2 exceeds its maximum threshold, the microprocessor 3 commands the divider 1 voltage, the transmission coefficient of which decreases in this case (during the measurement process several such commands can be given), whereby the signal at the input of the analog-digital converter 2 is brought to the range in which measuring error is minimal. In this case, the transfer coefficient of the voltage divider 1 is equal to .. (T where n is the number of control commands sent to the voltage divider 1. Since the quantization characteristic of the analog-digital converter 2 is non-linear with the ratio of neighboring quantization levels equal to H digital code H on its output is proportional to the logarithm on this basis

Claims (1)

DEVICE FOR AUTOMATIC MEASUREMENT OF THE FOUR-POLE NOISE COEFFICIENT, comprising a series-connected voltage divider, an analog-to-digital converter and a microprocessor, as well as a series accumulating adder and an indicator, the microprocessor controlling outputs being connected to the corresponding inputs of the voltage divider and the accumulator that, in order to improve performance, a decoder is introduced into it, the input of which is connected to the information output of the microprocess ora, and an output - to an information input of the accumulator. e < f 1 -> 2 Λ -> 5 6 eleven