SU1132251A1 - Device for measuring amplitude modulation suppression - Google Patents

Abstract

A DEVICE FOR MEASURING THE AMPLITUDE MODULATION PRESSURE, containing serially connected high-frequency generator of standard signals, serially connected amplifier-limiter and multiplier, low-pass filter, amplifier with adjustable gain, first, band-pass filter and voltmeter, serially connected second band-pass filter, voltage comparison unit , the second input of which is connected to the output of a constant voltage source, and a constant voltage amplifier connected An adjustable gain amplifier and phase shifter output, characterized in that, in order to increase the measurement resolution, a switch, a frequency-independent equivalent, a storage unit and a control unit are inserted into it, the first input of the switch is connected to the output of the limiter amplifier, and the first output is with the input of the phase shifter, the output of which is connected to the second input of the switch, the second output of which is connected to the second input of the multiplier l, the third output of the rectifier is connected to ode frequency-independent equivalent, the output of which the third input of Switch podklyuchen.k ents, and a storage unit connected between the output of the amplifier constant voltage and vtorm input amplifiers. l with adjustable gain, while the outputs of the block CO O P jn control are connected. to the fourth | input to the switch and control input of the borrowing unit, respectively.

Description

i The invention relates to a radio measuring technique, to devices for measuring non-linear distortions of modulated oscillations. A device for measuring amplitude modulation suppression is known, comprising a series-connected high-frequency generator of standard signals, a tested receiver of frequency-modulated signals, two parallel-connected band-pass filters and a voltmeter connected to the outputs of the band-pass filters. The disadvantage of this device. The measurement resolution is low, limiting the parasitic frequency deviation of the high frequency generator of standard signals. The closest to. its technical nature to the proposed. is a device for measuring the suppression of amplitude modulation in microcircuits, which transform frequency-modulated signals into low-frequency ones, containing serially connected high-frequency generator of standard signals, the test microchip consisting of series-connected amplifiers and multiplier, the second input through which the phase shifter is also connected to the output of the amplifier-limiter, a low-pass filter, an amplifier with an adjustable gain of the first bands th filter passing components due to distortion products caused s litudnoy modulation and voltmeter. A second band pass filter connected in series, which passes a component to the main modulating frequency of the useful frequency modulated signal, a voltage comparison unit, the second input of which is connected to a constant voltage source, and a constant voltage amplifier are connected between the output of the amplifier with an adjustable gain factor and its second input 2 This device allows automatic measurement of the amplitude modulation suppression ratio in the microcircuit. Its disadvantage is the low measurement resolution, which limits the parasite 12 to the frequency deviation in a high-frequency generator of standard signals. The aim of the invention is to increase the measurement resolution. The goal is achieved in that a device containing a series-connected high-frequency standard signal generator, a series-connected amplifier-limiter and multiplier, a low-pass filter, an amplifier with adjustable gain, a first band-pass filter and a voltmeter, are connected in series to the second band-pass filter, a comparison unit the second input of which is connected to the output of a constant voltage source, and a DC voltage amplifier connected to the output of the an adjustable gain factor, and a phase shifter, a switch, a frequency-independent equivalent, a storage unit, and a control unit are inserted, the first input of the switch is connected to the output of the limiter amplifier, and the first output is connected to the input of the phase shifter, the output of which is connected to the second input of the switch, The second output of which is connected to the second input of the multiplier, the third output of the switch is connected to the input of the frequency-independent equivalent, the output of which is connected to the third input of the switch, and the app the switching unit is on-between the output of the DC amplifier and the second input of the amplifier with adjustable gain, while the outputs of the control unit are connected to the fourth input of the switch and the control input of the storage unit, respectively. The drawing shows a block diagram of the proposed device. The device contains a high-frequency generator 1 of standard signals, the tested microcircuit 2, amplifier limiting 3, multiplier 4, phase shifter 5, low-pass filter 6, amplifier 7 with adjustable gain, band-pass filters 8 and 9, comparison unit 10; voltages, DC voltage amplifier 11, voltmeter 12, DC voltage source 13, switch 14, frequency-independent equivalent 15, memory unit 16, control block 17.

There are connected in series a high-frequency generator 1 of standard signals, a test chip 2 consisting of a series-connected limiting amplifier 3 and a multiplier 4, a low-pass filter 6, an adjustable gain amplifier 7, a first band-pass filter 8 and a voltmeter 12. The second are connected band-pass filter 9, a voltage comparison unit 10, the second input of which is connected to the output of a constant voltage source 13, the constant voltage amplifier 11 and the storage unit 16, the second input to The second is connected to the second output of the control unit 17, connected between the output of the amplifier 7 with an adjustable gain factor and its second input. The inputs of the switch 14 are connected to the output of the amplifier-limiter 3, the output of the phase shifter 5, the output of the frequency-independent equivalent 15 and the first output of the control block 17, and the outputs - with the input of the phase shifter 5, the second input of the frequency independent equivalent 15.

The device works as follows.

The switch 14 is set to position 1 by a command from the control unit 17, when between the output of the limiting amplifier 3 and the second input of the multiplier 4 a phase shifter 5 is turned on. From the output of the generator 1 standard signals to the input of the test chip 2 ", the test signal is modulated as frequency and amplitude. At the same time at the output of the filter 6 lower frequencies there are components

wanted signal and components caused by non-linear distortion. From the output of the low-pass filter 6, the signal is fed to the amplifier 7 with an adjustable gain factor and then fed to the second band-pass filter 9, which allocates a component of the useful signal. Using the comparison unit 10, the source 13 of the voltage, the amplifier 11 of the constant voltage and the storage unit 16 change the gain of the amplifier 7 with an adjustable

gain in such a way that the level of the useful signal at the OUTPUT of the amplifier 7 is fixed and equal to the voltage from the output of the source 13 of a constant voltage. In this case, a constant voltage level necessary to maintain the gain of the gain of the amplifier 7 with an adjustable gain is recorded in the memory.

Then, a command from the control unit 17 in the storage unit 16 opens the feedback circuit supporting the steady-state gain in the amplifier 7, and the gain of the amplifier 7 remains constant from that moment and maintained by the storage unit 16, the switch 14 is set to position 2 when between the output of the limiting amplifier 3 and the second input of the multiplier 4 include a frequency-independent equivalent of 15. Since the characteristics of the equivalent of 15 do not depend on the frequency of the signal, then The oscillation in the multiplier 4 does not contain a low-frequency component distinguishing the filter 6 with the lower frequencies. The components are modulated in the frequency modulation of the measuring signal, since the phase shift between the oscillations at the inputs of the multiplier 4 remains constant. The output of the low-pass filter in this case contains only the components caused by the influence of the parasitic amplitude modulation of the oscillations at the inputs of the multiplier 4. These components, after passing through the amplifier 7 with an adjustable gain factor, are specified in the first stage. measurements, the gain is separated by the first band-pass filter 8 and measured by a voltmeter 12. If the DC voltage level at the output of the DC voltage source 13 is set to 1 V, then the voltage measured by the voltmeter 12 is equal to suppress and amplitude modulation in the test chip 2.

In this device, after setting the sensitivity limit of the meter to the IC chip under test, instead of the phase rotator 5, before

Claims (1)

^; A device for measuring the suppression of amplitude modulation, comprising serially connected high-frequency standard signal generator, serially connected amplifier-limiter and multiplier, low-pass filter, amplifier with adjustable gain, first, band-pass filter and voltmeter, serially connected second band-pass filter, voltage comparison unit, the second input of which is connected to the output of the constant voltage source, and the constant voltage amplifier — voltage connected to an ode to an amplifier with an adjustable gain, and a phase shifter, characterized in that, in order to increase the resolution of the measurement, an switch is inserted into it, a frequency-independent equivalent, a memory unit and a control unit, the first input of the switch connected to the output of the amplifier limiter, and the first output - with the input of the phase shifter, the output of which is connected to the second input of the switch, the second output of which is connected to the second input of the multiplier, the third output of the switch is connected to the input frequency -independent equivalent, the output of which is connected to the third input of the switch, and the storage unit is connected between the output of the DC amplifier and the second input of the amplifier, with an adjustable gain, while the outputs of the control unit are connected to the fourth j input of the switch and the control input of the storage unit respectively.