UA5189U - Method for adjusting and testing the unit for increasing and converting the signal frequency of a radio monitoring station - Google Patents

Abstract

The proposed method for adjusting and testing the unit for increasing and converting the signal frequency of a radio monitoring station consists in switching on the required power supply voltages of the unit, supplying the output signals of high-frequency oscillators to the corresponding inputs of the unit, measuring the amplitudes and frequencies of the output signals of the unit, determining the waveforms and characteristics of the output signals by an oscillograph and a frequency meter. To adjust the unit, discrete signals are used with a level of ( - 0.4…0) V corresponding to logic 0 and a level of 1.4 … 5 V corresponding to logic 1.

Description

The useful model refers to the field of radio engineering, namely, to radio engineering measurements and can be used to adjust and check the units of amplification and conversion of the frequency of the input signal (BPPC), which are part of the receiving devices of radio technical control stations.

There is a known method of adjusting and checking a high-frequency amplification unit consisting of an antenna switch, a high-frequency amplifier, a mixer with a local oscillator and an intermediate frequency pre-amplifier, which consists in the fact that the adjustment and checking of the main output parameters are carried out using standard measuring devices in a static mode (1), that is, in the mode of checking the supply voltage and output parameters of the unit outside the station equipment.

Disadvantages of the known method of adjusting and checking the block include: - spending considerable time on adjustment and checking; - inability to adjust and check the unit in dynamic mode.

As you know, the adjustment and verification of serial equipment consists in obtaining optimal output parameters that meet the technical conditions (TU) without changing the circuit and design, using the adjustable variable radio elements present in the equipment.

Optimum parameters within the limits of TU norms are considered to be achieved in the case when the joint operation of the unit being adjusted with other equipment of the station is the best stations (dynamic mode) do not always coincide. Surely, in order to obtain more reliable data, it is necessary to create an opportunity to adjust and check individual units, putting them in conditions similar to those in which they work as part of the entire equipment of the station, that is, in dynamic mode.

The closest in technical essence to the proposed method is the method of regulation and verification

BPPCHUCH, which is part of the receiving device of the target detection station (2| which includes the supply to the input of the unit under test of the necessary supply voltages, input signals from high-frequency (HF) generators, measurement of the amplitude, frequency and shape of the received signal, determination of the characteristics of the output parameters using an oscilloscope and a frequency meter, is carried out using a device for adjustment and verification

BPPCHUCH, consisting of a switching unit for connecting the necessary power sources, HF generators, an oscilloscope, a frequency meter and the unit under test. The capabilities of the device provide regulation and verification in static mode according to the following main parameters per block: - block transfer coefficient; - signal restriction level; - the amplitude of the remnants of the suppressed signal and the leads from the blanking pulse; - local oscillator frequency tuning range; - phasing pulse parameters; - channel bandwidth; - average channel adjustment frequency.

The main purpose of the device (stand) used to implement this method is to create a switching node for supplying power supply voltages and input signals from HF generators to the unit under test, measuring the amplitude, frequency and shape of the received signal, determining the characteristics of the output parameters using an oscilloscope and a frequency meter. This method, which is the closest analogue of the proposed method, significantly reduces the time of adjustment and inspection of the unit under inspection, but does not allow to adjust and check its parameters in dynamic mode and obtain their optimal values.

The basis of the proposed method is the task of changing the conditions (mode) of regulating and checking the BPPC, providing it with conditions similar to those under which it works as part of the entire station equipment, i.e. in dynamic mode, which allows you to check the unit according to the parameters that characterize its operation in this mode, increase the number of checked parameters, get the most optimal, accurate and reliable main output parameters of the BPPC during its adjustment and verification.

The fulfillment of the task is achieved by the method of regulation and verification of the BPPC of the radio technical control station, which includes the supply to the input of the unit being tested of the necessary supply voltages, input signals from HF generators, measurement of the amplitude, frequency and shape of the received signal, determination of the characteristics of the output parameters with using an oscilloscope and a frequency meter, it is carried out with the help of a device for regulating and checking the BPPC, through which logic control signals with the levels: log.O - (minus 0.4...0)88 are sent to the unit being checked; log.1-(1,4...538.

A distinctive feature of the proposed method from its closest analogue is a new device for its implementation, which additionally includes functional blocks that create the necessary operating mode for

The BPPCHUCH being tested is similar to the dynamic mode of its operation as part of the entire station equipment, in particular: - they form the control signals necessary for checking the unit and ensure their required level: log.О0 - (minus 0.4... ОВ, log.1- (1,4 ...5)8 - carry out verification of the HF tract, amplification and conversion of the input signal of the BPPC being tested - provide information indication using a ten-digit digital display;

The proposed method of regulation and verification of the unit of amplification and conversion of the frequency of the signal (BPPCH) of the radio technical control station, which includes the supply to the input of the unit under test of the necessary supply voltages, input signals from the generators of the VU, measurement of the amplitude, frequency and shape of the received signal, determination of the characteristics of the output parameters using an oscilloscope and a frequency meter, is carried out with the help of a device for regulating and checking the BPPC through which logic control signals with the levels: log.O - (minus 0.4...0)88 are sent to the block being checked; log.1-(1,4...538.

The connection diagram, which implements the proposed method of regulating and checking the BPPC is shown in Fig. 1. It consists of a device for adjusting and checking the BPPC 1, which includes: a switching unit 2 for connecting the necessary power sources 3, HF generators 4, an oscilloscope 5, a frequency meter 6, the BPPC being tested 7.

The proposed method of regulating and checking the BPPC involves performing the following interrelated actions: - connecting to the switching node 2 the device for regulating and checking the BPPC 1, the necessary power sources C, having previously set the necessary values of the output voltages, the HF generators 4, the oscilloscope 5, the frequency meter 6, as well as the BPPC being tested 7, supplying the input of the BPPC with the necessary supply voltages, input signals from HF generators 4, measuring the amplitude, frequency and shape of the received signal, determining the characteristics of the output parameters using an oscilloscope 5 and frequency meter 6, while on the BPPC unit, which is checked, the logic control signals necessary for checking the block are supplied from device 1 and their required level is ensured: log.0 - (minus 0.4...0)ЧО8; log.1-(1,4...5USH; which create the necessary mode of operation for the BPPC being tested, similar to its mode of operation as part of the entire equipment of the station.

The proposed method allows you to adjust and check the BPPC according to the following main parameters: - operating frequency range on each channel (Pn and Ev), MHz; - block sensitivity in each channel, db/w; - dynamic range of the block in each channel, dB; - decrease in sensitivity of the block at frequencies of lower En and higher Ev in relation to the sensitivity at frequencies of En and Ev on each channel, dB; - transmission coefficient of the block, db; - reduction of the transmission coefficient of the block in the frequency bands that are below En and above Ev in relation to the transmission coefficient at the limiting frequencies of En and Ev, db; - unevenness of the transmission coefficient in the intermediate frequency band, dB; - the error of transferring the input signal to the intermediate frequency of each channel, MHz; - the level of the local oscillator parasitic signal in the intermediate frequency range, dB.

A comparative analysis of the initial parameters of the BPPC that are checked by the proposed method using a device for its implementation in comparison with the closest analog allows us to conclude that their optimal values and quantity can be obtained only using the proposed device, that is, these parameters as a technical result are in a cause-and-effect relationship in connection with the new essential features of the proposed method, namely the changed mode of regulation and verification of the BPPC.

Sources of information: 1. Ya.I. Berman, B.M. Goldin Setup and testing of radar equipment, L., 1962, p.7, 130-143. 2. Technical conditions for defecting, overhaul and acceptance after repair of the OP63-6M2 block,

TSKO.026.047 of the Criminal Code. and and E and

Fig. 1

Claims (1)

The method of adjusting and checking the unit of signal frequency amplification and conversion (BPPCH) of the radio technical control station, which includes the supply to the input of the unit under test of the necessary supply voltages, input signals from high-frequency (HF) generators, measurement of the amplitude, frequency and shape of the received signal, determination of the characteristics of the output parameters using an oscilloscope and a frequency meter using a device for adjusting and checking the BPPC, which is distinguished by the fact that logic control signals with levels of: log.0-(minus 0.4-0)V are applied to the unit being checked; log.1-41,4-5)V.