RU2224264C2 - Device measuring dynamic range of radio receiver by intermodulation - Google Patents

Abstract

FIELD: measurement of parameters of separate stages. SUBSTANCE: device includes generators of legitimate and blocking signals, antenna equivalent, measured radio receiver, voltmeter, program control unit and unit computing dynamic range in which dynamic intermodulation range is computed on basis of blocking emf when it is measured by commands of program control unit. EFFECT: automatization of measurement of dynamic intermodulation range. 1 cl, 2 dwg

Description

 The invention relates to the field of radio engineering measurements and can be used to measure the dynamic range of radio receivers by intermodulation or individual cascades.

 A device for measuring the dynamic range of a radio receiver by intermodulation [1]. The device diagram is shown in figure 1. The device contains signal generators 1 and 2. Decoupling cascades of generators 3 and 4 in order to eliminate mutual modulation in the generators themselves. Frequency filters 5 and 6, so as not to miss the harmonics of the generators that affect large emf generators at the radio input. Equivalent to antenna 7, the output of which is connected to the input of the radio 8. The voltmeter 9 is connected to the output of the radio.

The process of measuring the dynamic range includes operations in which the measuring signals with frequencies f ₁ and f ₂ and equal in amplitude are increased to a value at which the intermodulation component of the form 2f ₁ -f ₂ becomes equal to the nominal value of the useful signal. In frequency, the measuring signals are tuned into the filter delay band of the first intermediate frequency, but in the preselector band. It is necessary to make sure that the intermodulation component is not any combination of a higher order or a measuring signal with the local oscillator harmonic, and also that its value is maximum, i.e. its frequency is equal to the tuning frequency of the radio. To fulfill these conditions when measuring the dynamic range even at one point or on a narrow section of the frequency range, the operator has to change the amplitudes and frequencies of the measuring signals and constantly analyze the results. These facts do not allow automating the process of measuring the dynamic range of a radio receiver by intermodulation.

где Е_БЛ - ЭДС блокирования в микровольтах;
|K_БЛ| - абсолютное значение коэффициента блокирования.A known method (Mikhailov) of measuring the dynamic range of an intermodulation radio receiver, patent 2030751, 1995 [2], according to which a relationship is established between the values of the dynamic range of intermodulation and EMF block, expressed by the formula:

where E _BL - EMF blocking in microvolts;
| K _BL | - the absolute value of the blocking coefficient.

 An object of the present invention is to automate the measurement of the dynamic range of a radio receiver by intermodulation.

где D_2-1 - динамический диапазон;
Е_БЛ - ЭДС блокирующего сигнала в микровольтах;
|K_БЛ| - абсолютное значение коэффициента блокирования.The essence of the invention lies in the fact that the device for measuring the dynamic range of an intermodulation radio receiver, comprising a useful signal generator and a blocking signal generator, an antenna equivalent, the inputs of which are connected to the outputs of these generators, a radio receiver connected to its output to the antenna equivalent output, and a voltmeter, connected to the output of the radio receiver, a program control unit and a dynamic range calculation unit are introduced, while the outputs of the program control unit are intended values for controlling the amplitude of the EMF of the blocking signal and the voltage at the output of the radio receiver are connected respectively to the input of the generator of the blocking signal designed to control the amplitude of the EMF and to the input of the radio receiver designed to control the voltage at the output of the radio receiver, the outputs of this block are designed to control the frequency of the blocking signal , the frequency of the useful signal and the tuning frequency of the radio, respectively connected to the input of the blocking signal generator, meaning to control its frequency, to the input of the useful signal generator, designed to control its frequency, and to the input of the radio, designed to control the frequency of its tuning, and the input of this unit is connected to the output of the radio, one of the inputs of the dynamic range calculation unit is connected to the output of the generator blocking signal, its other input, intended for instructions defining the computational process, is connected to the corresponding output of the program control unit, Ramm in the dynamic range calculation portion based on the formula:

where D _2-1 is the dynamic range;
E _BL - EMF blocking signal in microvolts;
| K _BL | - the absolute value of the blocking coefficient.

 The proposed device for measuring the dynamic range of an intermodulation radio receiver, the circuit of which is shown in FIG. 2, contains a useful signal generator 1, a blocking signal generator 2, an antenna antenna 3, the inputs of which are connected to the outputs of the generators, and a radio receiver 4 is connected to its output, a voltmeter 5, connected to the output of the radio receiver, a program control unit 6 and a dynamic range calculation unit 7. The outputs 8 and 9 of block 6, designed to control the amplitude of the EMF of the generator 2 and the output voltage of the radio 4, are connected to the corresponding inputs 10 of the generator 2 and 11 of the radio 4. The outputs 12 and 13 of block 6, designed to control the frequency of the blocking signal, the frequency of the useful signal and the frequency of tuning the radio, respectively connected to the input 14 of the generator 2, to the input 15 of the generator 1 and to the input 16 of the radio 4. The input 17 of block 6 is connected to the output of the radio. The input 18 of block 7 is connected to the output of the generator 2, and the input 19 of this block is connected to the output 20 of block 6, intended for commands that determine the computing process.

 The operation of the device is as follows. Preliminarily, at the input of the antenna equivalent, the frequency and emf of the useful signal are significantly higher than noise (for example, 100 μV). By commands from the outputs 13 and 9 of block 6, the rated voltage is set at the output of the radio receiver at a tuning frequency equal to the frequency of the useful signal. On command from the output 8 of block 6, which is input to the input 10 of the generator 2, the EMF of the blocking signal at the input of the antenna equivalent smoothly increases to such a value that the voltage at the output of the radio receiver becomes lower than the nominal one by the specified blocking coefficient. After that, according to the commands received from the output 20 of block 6 to the input 19 of block 7, the dynamic range is calculated taking into account the value of the EMF of blocking, which is supplied from the output of the generator 2 to the input 18 of block 7.

где Е_БЛ - ЭДС блокирующего сигнала в микровольтах;
|K_БЛ| - абсолютное значение коэффициента блокирования.The dynamic range is calculated by the formula:

where E _BL - EMF blocking signal in microvolts;
| K _BL | - the absolute value of the blocking coefficient.

где f₁ и f₂ - частоты измерительных сигналов при измерении динамического диапазона путем получения интермодуляционной составляющей вида 2f₁-f₂.The frequency of the blocking signal should be in the band of the preselector of the radio receiver, but behind the bandwidth of the main channel, that is, in the same range of the frequency range in which the measuring signals are usually found when measuring the dynamic range in a known manner by obtaining an intermodulation component of the form 2f ₁ -f ₂ [1 ]. As a result of the research, the frequency of the blocking signal matters according to the following ratio:

where f ₁ and f ₂ are the frequencies of the measuring signals when measuring the dynamic range by obtaining the intermodulation component of the form 2f ₁ -f ₂ .

Sources of information
1. Golubev V.N. Effective radio receiver selectivity. - M.: Communication, 1978.- 240 p.

 2. Mikhailov B. I. Method (Mikhailov) measuring the dynamic range of a radio receiver by intermodulation, patent 2030751, 1995.

Claims (2)

1. A device for measuring the dynamic range of an intermodulation radio receiver, comprising a useful signal generator and a blocking signal generator, an antenna equivalent whose inputs are connected to the outputs of these generators, a radio receiver connected to its output to the antenna equivalent output, and a voltmeter connected to the output of the radio receiver, characterized the fact that the program control unit and the dynamic range calculation unit are introduced into it, while the outputs of the program control unit intended to control the amplitude of the EMF of the blocking signal and the voltage at the output of the radio receiver, respectively connected to the input of the generator of the blocking signal, designed to control the amplitude of the EMF, and to the input of the radio, designed to control the voltage at the output of the radio, the outputs of the program control unit for controlling the frequency of the blocking signal, the frequency of the useful signal and the tuning frequency of the radio, respectively connected to the input of the blocking signal generator, p designed to control its frequency, to the input of the useful signal generator, designed to control its frequency, and to the input of the radio, designed to control the frequency of its tuning, and the input of the program control unit is connected to the output of the radio, one of the inputs of the dynamic range calculation unit is connected to the output the generator of the blocking signal, its other input, intended for commands that determine the computing process, is connected to the corresponding output of the program control unit Ia, the computer program in the dynamic range calculation portion based on the formula

where D _2-1 is the dynamic range; E _BL - EMF of the blocking signal, mV; | To _BL | - the absolute value of the blocking coefficient. 2. The device according to claim 1, characterized in that when measuring the dynamic range, the frequency of the blocking signal matters according to the following ratio:

where f ₁ and f ₂ are the frequencies of the measuring signals when measuring the dynamic range by obtaining the intermodulation component of the form 2f ₁ –f ₂ .

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