DE2724375A1 - METHOD AND DEVICE FOR MEASURING THE QUALITY OF RECEPTION OF A FREQUENCY MODULATED VHF SIGNAL - Google Patents

Description

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Institute for Broadcasting Technology RSb7 ^ 4 ^ 375

GmbH
8000 Munich 45

Method And Apparatus For Measuring The Reception Quality Of A Frequency Modulated VHF Signal

The invention relates to a method of the type specified in more detail in the preamble of claim 1 and to a device to carry out the procedure. Procedures and facilities of this type are known (research report by British Broadcasting Corporation BBC RU 1975/33).

When receiving frequency-modulated ultra-short waves (VHF-FM-Eiiipfang) occur as a result of the multipath propagation of the Ultra-short wave amplitude and phase noise modulations on, which affect the reception quality. For assessment the reception quality is therefore the metrological detection of the called interference modulations indispensable. In this case, the phase interference modulation cannot be detected on the LF side, since during a VHF broadcast cannot be determined which phase changes are to be assigned to the useful signal and which phase changes are to be assigned to the interference signal are. In contrast, the amplitude modulation represents a technically usable disturbance effect, since VHF transmitters always emit with a constant amplitude (so-called "full

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control "), so that amplitude fluctuations are only caused by disturbances can be caused.

In a known method for measuring the amplitude interference modulation (research report by British Broadcasting Corporation BBC RD 1975/33 entitled "A field strength measuring receiver for band II") the amplitude curve of the received VHF signal as a function of the signal frequency on an oscilloscope screen and based on read off a scale cross. The amplification of the amplitude signal, which determines the ordinate position of the oscillogram curve, must be chosen so that the reference axis of the curve is congruent with the abscissa of the scale cross. The reference axis of the curve is an imaginary horizontal line, which corresponds to the curve when there are no reflections. In practice, however, the choice of amplification of the amplitude signal is extremely difficult and time-consuming, although it is known Method provides an automatic mean value control for the amplification of the amplitude signal, which at a suitable moment is switched off by pressing a button, whereby the currently existing gain is retained. Since, however, with automatic mean value control, the gain can also be arbitrarily long setting time due to the continuous change in the The amplitude interference modulation and thus the mean amplitude also changes continuously, is determined by the push of a button

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keeps the gain at a random value within the control range and therefore generally does not provide the desired congruence of the reference axis with the scale abscissa. This lack of congruence not only makes reading the scale extremely difficult, but also means that the ordinate scale, which is based on 100% degree of modulation, is changed so that the operator has to convert the scale scale depending on the respective position of the imaginary curve reference axis. In addition, once the amplitude signal amplification has been retained, the reception conditions, in particular the alignment of the receiving antenna, must no longer be changed, which means that the known method for determining optimal reception conditions, as can be done, for example, by rotating the receiving antenna and simultaneously measuring the reception quality, does not change suitable.

The object of the invention is to provide a method and a Device of the type mentioned to improve that the reference axis of the oscillogram curve for the course of the Interference modulation amplitude as a function of the signal frequency is always congruent with the scale abscissa and can therefore be assessed easily, even if the reception conditions change.

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According to the invention, the sub-task aimed at creating a method is provided by the features in the characterizing part of claim 1 specified features solved.

An advantageous embodiment of the method according to claim 1 is characterized in claim 2.

The sub-task aimed at creating a device is achieved according to the invention by the features in the characterizing part of claim 3 specified features solved.

Advantageous refinements and developments of the device according to claim 3 are characterized in claims 4 to 6. With the help of the measures according to claim 6, the own, most favorable demodulator bandwidths are set for each reflection, whereby the optimal uniqueness of the Oscillogram curve received.

The basic idea of the present invention is to provide a to provide automatic gain control, which only regulates the amplitude of the VHF carrier to a constant value, but leaves the amplitude interference modulation unaffected. This becomes the reference axis during the entire measuring process the amplitude interference modulation is in a fixed ratio

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Carrier amplitude is regulated to a constant value coinciding with the scale abscissa, whereby the reference axis of the Oscillogram curve no longer shifts or "drifts" in the ordinate direction. The amplitude interference modulation, which is not influenced by the control, changes according to the actual frequency profile with respect to the scale abscissa and can therefore comfortably be constant, standardized conditions or unchanged scale. As a result of the carrier amplitude control during the entire measurement process, changes in reception remain, such as those caused, for example, by rotating the receiving antenna are caused without affecting the position of the reference axis of the oscillogram curve, which coincides with the scale abscissa, whereby measurements are made at the same time as the change in the reception conditions and the reception optimum is determined can.

The invention is explained in more detail with reference to the drawings. It shows:

1 shows a block diagram of a device according to the invention, and

FIG. 2 is a view of one on the oscilloscope screen of FIG Device according to FIG. 1 reproduced curve, which iert the amplitude profile of a störmodiil VHF signal as a function of the VHF signal frequency.

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That illustrated in Fig. 1 with the aid of a block diagram Embodiment of a measuring device according to the invention consists largely of a known VHF receiver, the was added for the purposes of the invention. In detail, the device shown has an FM tuner 10, which from an antenna 11 with a frequency modulated FM signal is fed. The VHF tuner 10 is followed by an IF bandpass filter 20 in the usual way, which the in the Tuner 10 transmits VHF signal converted to an intermediate frequency. The output of the bandpass filter 20 forks into two signal branches 50 and 60. The signal branch 50 contains an FM intermediate frequency amplifier 30, which is a limiting FM discriminator is downstream. The signal branch 60 contains an AM intermediate frequency amplifier 70, which is followed by an AM demodulator 80 is. The amplifier 70 is controllable, for which purpose a controller 100 is provided, the output of which is connected to the via a line 101 Control input of the amplifier 70, whose actual value input via a line 81 to the output of the demodulator 80 and its Setpoint input with one from a DC voltage source and a series-connected potentiometer 110 is connected to existing setpoint adjuster. The controller 100 is controlled by a Zero voltage detector 90, for example a window discriminator, scanned, the input of which is connected to the output via a line 42 of the discriminator 40 is connected. Furthermore, the output signal of the discriminator 40 is on a line 41 the control input of the VHF tuner 10 is fed back. The discriminator 40 and the demodulator 80 lead via lines

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or 82 to a bandwidth-variable low-pass filter 130 or 140, respectively, at the outputs of which a signal ^{corresponding to the instantaneous frequency deviation ω or a signal corresponding to the normalized (that is, based on the reference axis) VHF signal amplitude A} is present. The low-pass filter 130 is connected via a line 131 to the horizontal deflection device of a cathode ray oscillograph 150, the vertical deflection device of which is fed via a line 141 from the output of the low-pass filter 140.

The mode of operation of the circuit parts 10, 20, 30 and 40 is known from conventional VHF receivers and does not require any further explanation. The IF signal fed into the signal branch 60 from the bandpass filter 20 is amplified by the amplifier 70 as a function of the controller output signal on the line 101 in such a way that only the amplitude of the IF carrier has a constant value, whereas the normalized amplitude i_des AM interference signal remains unaffected. This keyed control is made possible by the zero voltage detector 90, which determines when the output signal of the discriminator 40, which is proportional to the instantaneous frequency deviation ω, becomes zero. A frequency deviation ω = Ο means that the pure IF carrier is currently present at the output of the bandpass filter 20. As a function of the stated determination by the detector 90, the controller 100 is keyed in or initiated, so that the signal amplitude present at its actual value input at the time of keying in, as required, is present

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is equal to the non-modulated amplitude of the IF carrier. This The actual value is compared in the usual way with the setpoint value set on the potentiometer 110, the resulting value Error signal from controller 100 is converted into a control signal for amplifier / 0 according to its control characteristic. As soon as the detector 90 detects a voltage other than zero at the output of the discriminator 40, it scans the Controller 100 off, as a result of which the gain setting of amplifier 70 present at the moment of blanking remains unchanged until the next keying-in of controller 100.

By constant control of the ZF carrier and suitable choice of the controller setpoint at the potentiometer 110, it is achieved that the reference axis of the reproduced curve corresponding to the carrier amplitude is in congruence during the entire measuring process.

O equality with the abscissa of a scale on the oscilloscope screen applied scale cross is held (Fig. 2). This allows the reproduced curve without difficulty using the

ο Measure the scale cross exactly, with the dimensional accuracy also is conducive to the fact that the X, Y deflection devices of the Oscillographs 150 upstream low-pass filters 130 or 140 Ensure a low-noise oscillogram and still through the Appropriate choice of bandwidths does not lose the uniqueness of the curve.

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2 shows a view of the oscilloscope screen, a scale cross being plotted on the screen, the abscissa scale of which is calibrated in frequency units and the ordinate scale in ratio units between the amplitude of the VHF signal and the amplitude of the signal without reflections. The sinusoidal curve A [ ^6} ) drawn in the example shown represents a simplified special case of a

ο
Amplitude interference modulation, as essential in practice

more complicated forms of the oscillographed curve occur.

It is essential that the reference axis of the curve i during the

ο the entire course of the measurement coincides with the abscissa scale, even if the reception conditions, for example by rotating the receiving antenna 11 (Fig. 1), can be changed.

This allows the curve shown ~ i ^ - from an operating

o person can be measured continuously and without any problems, with the optimum in the event of a change in reception conditions is easy to determine. The curve -J "'- shown can be measured in various ways, preferably

^A o
by finding the maximum curve gradient, as in the

Priority registration P (Reg. 575) closer

is explained.

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Claims (6)

Institut für Rundfunktechnik Reg. 574 GmbH 2 ^ 24375 8000 Munich 45 patent claims 1. Method for measuring the reception quality of a frequency-modulated VHF signal, in which the amplitude modulated by wave reflections and the frequency of the VHF signal are separated are determined and set in relation to one another, characterized in that the Amplitude of the VHF signal carrier is regulated to a constant value, such that the interference amplitude modulated onto the VHF signal carrier remains unregulated. 2. The method according to claim 1, characterized in that the current frequency deviation is "zero" of the VHF signal is detected and, depending on this zero detection, a gain control for a signal branch for determination the VHF signal amplitude is sampled. 3. Device for measuring the reception quality of a frequency-modulated VHF signal, in particular according to the method according to claim 1 or 2, with a chain arrangement of an input-side VHF tuner, a bandpass filter and a signal branch, the latter having a first signal branch with a 8098A8 / 0A88 FM intermediate frequency amplifier and a limiting FM discriminator and a second signal branch with a adjustable AM intermediate frequency amplifier and an AM demodulator has, characterized by a control loop (70, 80, 81, 100, 101) for the AM intermediate frequency amplifier (70), which from a detector (90) for the instantaneous frequency deviation "zero" of the FM signal is palpable. 4. Device according to claim 3, characterized in that that the detector (90) is connected on the input side to the output of the FM discriminator (40) and that the control loop (70, 80, 81, 100, 101) has a controller (100) scanned by the detector (90), whose Actual value input with the output of the AM demodulator (80) connected is. 5. Device according to claim 4, characterized in that that a window discriminator is provided as a detector (90). 6. Device according to one of claims 2 to 5, characterized in that the two signal two ge (50, 60) each have a variable-bandwidth low-pass filter (130 and 140) are connected to X and Y deflection devices of a cathode ray oscilloscope (150). 809848/0488