SU789843A1 - Predetermined frequency-band power meter - Google Patents

Description

This invention relates to a radio metering technique.

Of the known devices, the closest in technical essence is a power meter in a given frequency band, which contains a series-connected tunable local oscillator, a mixer, a band-pass filter, a quadratic detector and a Q-block indication, a sweep generator, an output connected to one of the inputs of the indication block, the device input bus is connected to one of the inputs of the mixer 1.

However, this meter does not allow for the prompt measurement of the power of noise emitted in a frequency band that is n times the bandwidth of the meter. The power and width of the band of interest to the operator can be calculated by calculating the area under the curve and the width of the section on the frequency axis. This leads to the appearance of additional problems due to operator errors when reading the measured power at each frequency, as well as due to errors in the construction, curve fitting, and area calculation.

The purpose of the invention is to increase the measurement accuracy.

This goal is achieved by the fact that the power meter in a given frequency band, containing a sequence. directly connected oscillator, mixer, bandpass filter, quadratic detector and display unit, sweep generator, output connected to one of the inputs of the display unit, the input to the device bus is connected to one of the mixer inputs, sequentially connected synchronous integrator is introduced, ana-aly-temporary a converter, a key and a power core, as well as a strip counter, a tuning unit, a label driver and a strip selector, the output of which is connected to the control input of the synchronous integrator and the input of the field counter wasps, and the first and second inputs are connected to the first output of the tag maker and the first output of the tuning unit, respectively, the second output of the latter is connected to the input of the local oscillator, the third output of the tuning unit is connected to the sweep generator and the input of the imaging unit, the fourth output of the tuning unit is connected to the control input

key, one of the outputs of the quadratic detector is connected to the input of the synchronous integrator and the output of the forg-shrovatel tags connected to the display unit.

Accuracy improvement is achieved by directly summing the amplitude values of voltages at the output of a quadratic detector and setting the specified integration duration synchronously with the connection time of the frequency synthesizer (voltage of a given frequency) to the mixer, as well as direct reading of the power and frequency band. The accuracy of the counting of the band is determined by the chosen discreteness of the frequency synthesizer.

Automation of the measurement process is achieved by direct counting the synchronous integrator (synthetic TQPOM frequencies) pulses that pass through the band selector and the direct counting of clock generator pulses, the number of which at the output of the key, as a result of voltage conversion, is proportional to power.

FIG. 1 shows a block diagram of a power meter in a given. frequency band with automatic reading of measurement results; FIG. Figure 2 shows the spectral and temporal diagrams explaining the basic operation of the device.

The device contains a mixer 1, a local oscillator 2, a tuning unit 3, a band-pass filter 4, a quadratic detector -5, an indication unit 6, a sweep generator 7, a label driver 8, a synchronous integrator 9, an analog-time converter 10, a strip selector 11, a meter 12 band, key 13, power meter 14.

The device works as follows.

The measured broadband signal is fed to the input of the mixer 1, where it is converted by means of the local oscillator 2, which is used as a frequency synthesizer, controlled by the tuning unit 3. The converted signal passes through a band-pass filter 4 and after a quadratic, detector 5 enters the vertical plates of the display unit 6, and the horizontal plates receive signals from the generator. 7 sweep and imager 8 tags, which allows visual visualization of the strip marks and the measured signal || . Select the required band of interest to the operator.

At the same time, the signal from the output of the quadratic detector 5 is fed to the synchronous integrator 9. The integration time is set equal to the duration of the local oscillator operating at a fixed frequency. With the transfer of the local oscillator 2 to the new frequency, the voltage from the integrator is fed to the analog-time converter 10, and the integrator is prepared for operation. Control pulses go to the integrator synchronously with the local oscillator restructuring pulses from block 3, through the band selector 11, which does not interrupt the control pulses in the whole local oscillator reorganization range, but only in the interval between the frequency labels of the imager of 8 labels. The latter is launched synchronously with the launch of the sweep generator and produces

two marks observed on the screen of block 6 and manually adjustable. The marks are shifted relative to each other and the start of the start of the sweep generator, which allows you to select the desired band

5 frequencies in which power is measured.

The number of control pulses transmitted through the selector 11 is counted by a counter 12 with a digital indication of the bandwidth.

The voltage of the integrator 9 converts (Zuetus into pulses of proportional 5 duration, which, opening the key 13, passes to the input of counter 14 pulses of the clock frequency generator (quartz oscillator) from block 3. The total number of pulses is proportional to the power of the measured wideband signal in a given frequency band.

Claims (1)

Invention Formula A power meter in a given frequency band containing a serially connected local oscillator, a mixer, a band-pass filter, a quadratic detector and a display unit, a sweep generator, an output connected to one of the inputs of the display unit, an input bus of the device connected to one of the mixer inputs, and so that increase the accuracy; a synchronously integrated integrator, an analog-time converter, a key and a power meter, a band counter, a tuning unit, a label shaper and a band selector, the output of which is connected to the control input of the synchronous integrator and the input of the band counter, are entered into it, and the first and the second inputs are connected 5 with the first output of the tag maker and the first output of the tuning unit, respectively, the second output of the latter is connected to the input of the local oscillator, the third output of the tuning unit is connected to the control input of the key, one of the output of the sweep generator and the input of the marking unit. the outputs of the quadratic detector are connected to the input of the synchronous integrator, cd0M (the output of the tag maker is connected to the display unit. Sources of information taken by the HE in the examination 1, Handbook of radio-priority devices, - Ed. Gavrilova Yu.S. and others. M, Energie, 1976, p. 380. BUT I in &9 6m H MININ