SU628616A1 - Arrangement for measuring amplitude-frequency characteristics of communication channels - Google Patents

Description

The invention relates to eectrosis and can be used in measurements of amplitude-frequency characteristics (AHC) and anagrams of the levels of communication paths.

A device for measuring,

the amplitude-frequency characteristics of the communication paths, which contains an oscillating hour generator at the transmitting near end, the first and second matching blocks and the amplitude de | -h | Q tector and amplitude modulator at the far end, and the matching block at the receiving near end , amplitude detector and indicatorGD

However, the known device does not provide the possibility of measuring absolute -15 levels at the far end of the measuring paths, does not simultaneously measure the reverse direction from the transmitting end of the AHC path, and additionally, the use of amplitude modulation does not provide immunity and does not eliminate the instability reverse path.

The purpose of the invention is to improve the accuracy of measurement and provide opportunities 25

measuring the amplitude-frequency characteristics of the reverse-path communication paths and enabling measurement of the level diagram.

Claims (2)

For this purpose, the proposed device for measuring amplitude-frequency x. The characteristics of the communication paths are entered at the far end by a voltage calibrator, a voltage converter — a frequency and an extension cord, a serially connected band-pass filter, a limiter, a frequency detector, an adder, a first switch, an upper frequency filter, and a second switch, at the receiving near end, and the far end of the output of the first block matching through a successive | but connected voltage calibrator, amp1) and detector, voltage converter — the frequency is connected to the first input of the second matching unit, the second input of which is connected to the input of the voltage calibrator through an extension, at the receiving near end the output of the matching unit is connected via serially connected (1 / the upper frequency detector, the amplitude detector to another input of the adder and the first input of the second switch, the input of which is connected to the output of the adder, and the third to another input of the frequency detector An oracle, which is connected to another input of the first switch, the output of the matching unit is connected to the input of a bandpass filter, p the output of the second switch is connected to the input of the indicator, and the voltage calibrator is parallel in the form of a parallel (amplitude and filter The drawing shows a structural electrical circuit of the proposed device, a device for measuring the amplitude-frequency characteristics of the communication paths contains on the transmitting side, on the proximal end - generator 1 is wobbled frequency ss, at the far end - the first and second matching blocks 2 and 3, the voltage calibrator 4, the amplitude detector 5; frequency converter 6 voltage and extension cable 7, and at the receiving near end - matching unit 9 upper frequency filter (HPF), amplitude detector 1O, adder 11, band-pass filter 12, limiter 13, frequency detector 14, indicator 15 and two jumpers 16 and 17, in addition, the voltage calibrator 4 comprises an upper frequency filter 18 and a limiter 19. The device operates as follows. From the output of the measured path in the forward direction, the measuring. oscillation with a frequency within the operating frequency range of the measured path is fed to the input of matching unit 2, and then fed to an upper frequency filter (HPF) 9, its cut-off frequency is chosen slightly higher than the upper cut-off frequency of the measured path, then the wobble goes converter-voltage-to-voltage converter 6. The converted frequency modulated oscillation is fed through the second matching unit 3 to the input of the reverse direction path. The average frequency of the voltage-frequency converter 6 is chosen-g with above the working frequency range of the measured path. During calibration, the calibration voltage, whose frequency is selected above the upper operating frequency of the measured path, from the output of the forward path through the matching unit 2 and the limiter 19 is fed to the voltage-frequency converter 6 and then through the second matching unit - 6 64 nor 3 at the entrance of the tract of the air direction. Extender 7 aligns the levels of the loop from the Grakt of the forward and reverse directions. When measuring the amplitude-frequency characteristic (AFC) (the calibration process is not required. Measuring the diagram 5, the calibration voltage is supplied above the operating frequency range of the measured path, the level of which is stabilized by the limiter 19, provides the output voltage reference frequency, corresponding to the determination of the voltage level of the degega. From the output of the path of the reverse direction, neither measuring or balancing., the oscillation goes to the matching unit 8 and then through 9 high frequency amplitude detector 10 to one of the inputs of the adder 11. The envelope of the measuring oscillation fed to the adder, 11, is proportional to the frequency response of the loop consisting of forward and backward paths. Simultaneously from the output of the matching unit 8, the measuring oscillation j modulated in frequency, arrives at the bandpass filter 12 and then to the limiter 13. The limited voltage goes to the frequency detector 14 and then to the second input of the adder 11 and to. switches 17 and 16. The voltage on, over 1 of the frequency detector 14 is proportional to the frequency response of the direct path, the degree of distortion of this characteristic is proportional to the frequency deviation,. In adder 11, the voltage proportional to the frequency response of the forward path is subtracted from the voltage proportional to the frequency response of the loop. At the output of the adder 11, as a result of the subtraction, a voltage is generated that is proportional to the A – F of the reverse path. When calibrating, the voltage detection corresponding to the reference frequency is made by the indicator 15, to which the voltage passing through the band-pass filter 12, the limiter 13 and the frequency detector 14 is supplied. The switch 17 connects the indicator, torus 15 or to the output of the adder 11, either to the output of the amplitude detector 10, or to the output of the frequency detector 14. Switch 16 connects an oscillographic indicator (OI) either to the course of the adder 11 or to the output of the frequency detector 14. In the first case on the screen of the indicator 15 it draws from the frequency response of the reverse path, in the second ATCH of the forward path. The proposed device measures the frequency response of the forward and reverse directions; the laziness and the level diagrams of the measured section of the communication path, in addition, it eliminates the need to use expensive measuring equipment at the full end of the measured section. Claim 1. A device for measuring the amplitude of the frequency characteristics of the communication paths, comprising a sweep frequency generator at the transmitting near end, first and second matching blocks and an amplitude detector at the receiving end, and an amplitude detector and indicator at the receiving close end , characterized in that, in order to improve measurement accuracy and enable measurement of the amplitude-frequency characteristics of the reverse-link communication paths, a calibrator is inserted at the far end The transducer is a voltage converter and an extension cable, and at the receiving near end are serially connected bandpass filters, a limiter, a frequency detector, an adder, and a first reprocessor filter and a frequency filter, the second switch, through a series-connected voltage calibrator, the amplitude detector voltage-frequency converter is connected to the first input of the second matching unit, the second input of which is connected to the output of the calibrator voltage nor through an extension, at the receiving near end, the output of the matching unit is connected via a series-connected frequency of the upper frequency, the amplitude detector to another input of the adder and the first input of the second switch, the second input of which is connected to the output of the adder, and the third to the other output of the frequency detector, which connected to another input of the first switch, the output of the matching unit is connected to the input of the bandpass filter, and the output of the second switch is connected to the input of the indicator, 2. The device according to claim 1, characterized in that, in order to make both ends possible to measure the level diagram, the voltage calibrator is made in the form of parallel-connected amplitude limiters and a high-frequency filter. Sources of information taken into account in the examination :. 1. Technical Description Measurement of communication systems using a measuring, workplace 10 kHz to 25 MPx, published by Siemens, 1968.