UA46637A - METHOD OF CONTROL OF AMPLITUDE CHANNEL OF PHASE ANTENNA GRILLE - Google Patents

Abstract

The present invention relates to the radio measurement techniques. The proposed method for monitoring an amplitude channel of a phased array involves receiving the signal transmitted by an external radiation source, adding signals of the phased array channels, and determining serviceability of the tested channel from the results of measurement of the received signals. In order to increase reliability of monitoring, the external radiation source is placed at an arbitrary spatial point, only one amplitude channel is turned on at a time, the entire monitored spatial area is scanned, and the maximal level of the received signal is selected and compared with the reference signal level.

Description

Description of the invention

The invention relates to radio measuring technology and can be used to control the amplitude of 2 channels of a phased antenna array (PAR).

A known method of PAR control (US patent No. 3378846, class 343 - 100, 1968) is based on receiving a signal from an external radiation source, modulating it in the controlled PAR channel, summing the signals of the PAR channels, demodulating the total signal, and determining the operability of the monitored channel on the measured demodulated signal.

Essential features of the analogue and the invention that coincide are: - reception of the PAR signal from an external source; - summation of the signals of the FAR channels; - determining the operability of the monitored channel based on the measured demodulated signal.

The disadvantage of the analogue is that this method does not ensure high reliability of control of each amplitude 12 channel of the PAR.

The closest in terms of technical essence is the control method (AS USSR Mo 675377, cl. (301K29/10, 1979), based on receiving a signal from an external radiation source located at a point corresponding to the minimum of the radar directional diagrams, summing the signals of the radar channels, and determining the operability of the monitored channel based on the measured signal.

The disadvantage of the prototype is that this method does not ensure high reliability of monitoring each amplitude channel of the PAR in conditions of strong interference from local objects of the signal of an external source within the area of the PAR opening.

The basis of the invention is the task of increasing the reliability of the control of the amplitude of the PAR channel in conditions of strong interference from local objects. 29 The task is achieved by receiving the signal of an external radiation source, summing the signals of the PAR channels, determining the performance of the controlled channel based on the measured one, the new thing is that the external radiation source is placed at an arbitrary point of the irradiated space, only one controlled amplitude channel is included in turn, scan the entire working area of space with a beam

PAR, choose the maximum level of the received signal and compare it with the standard. in

The causal relationship between the set of features of the invention and the technical result is as follows. co

Due to the fact that the external radiation source is located at an arbitrary point of the irradiated space, only one controlled amplitude channel is turned on, the beam scans the entire working area of the space of the phased antenna array, selects the maximum level of the received signal and compares it with the standard. 3o Figure 1 shows a structural diagram of a device for monitoring the amplitude channel of a phased antenna array, which implements the claimed method.

The device, which implements the claimed method, consists of an external radiation source 1, a phased array antenna (PAR) 2, consisting of amplitude channels 3...p, which contain emitters 4...7, connected to the inputs of controlled phase shifters 5...17, the outputs of which are connected to the inputs of adders 6...p, and the outputs of the latter are connected to the inputs of low-noise amplifiers that are switched off (MSHP) with 7...p. The outputs of the MSHP 7...n, which are the outputs of the amplitude channels 3...n, are connected to the inputs of the adder 8,

From" included in PAR 2. The control unit 9, included in PAR 2, is connected to the control inputs of controlled phase shifters 5...17t and to the control inputs of MSHP 7...p. The output of the adder 8 is connected to the input of the receiver 10, the reference channel of the receiver 10 is connected to the external radiation source 1.

The essence of the method is as follows. shk The external radiation source 1 is placed at an arbitrary point of the irradiated space of the PAR 2, which

Gee! emits a reference signal. The reference signal is fed to the emitters 4...7 of the controlled amplitude channel 3...p of the headlamp 2. From the outputs of the emitters 4...t the signals are sent through the controlled phase shifters 5...t to the b inputs of the adders 6...p. The signals at the output of the adders 6b..p represent a superposition of the signals at the inputs of 20 emitters 4...pt, taking into account the phase shifts in the controlled phase rotators 5...t. The control unit 9 sends a control signal to the controlled phase shifters 5...t7, due to which the entire working space is scanned by the beam of the PAR 2, which leads to a change in the signal level at the outputs of the adders 6...p with an unchanged radiation signal of the PAR 2 from an external source radiation 1. In this way, such a position of the beam of PAR 2 in space is selected, at which the signal in the controlled amplitude channel 3...n 22 is maximum, and therefore the influence of interference dips within the area revealed by PAR 2 is minimal. Signals from outputs of the adders 6...p through the MSHP 7...p are sent to the adder 8. According to the commands of the control unit 9, they are turned off

MSHP 7...p with the exception of the one located in the controlled amplitude channel 3...p, which achieves the alternate verification of each amplitude channel 3...p PAR 2. From the output of the adder 8, the signal is fed to the input of the receiver 10, where it is detected using of the reference signal coming from the source of external radiation 1. 60 Then measure the power of the signal received by the controlled amplitude channel 3...p and select the maximum value. The maximum values of the signals received by each of the amplitude channels 3...p are normalized among themselves relative to the most powerful and compared with the standard.

The proposed method of controlling the amplitude channel of the phased antenna array allows to increase the reliability of the control of the amplitude channel 3...p PAR 2 in conditions of strong interference from local objects.

Claims (1)

The formula of the invention is the method of controlling the amplitude channel of the phased antenna array, based on the reception of the signal of 2 external radiation sources, the summation of the signals of the channels of the phased antenna array and the determination of the operability of the controlled channel based on the measured signal, which is distinguished by the fact that the external radiation source is located at an arbitrary point of the irradiated space, queues include only one controlled amplitude channel, beam scan the entire working area of the space of the phased antenna array, select the maximum level of the received signal and compare it with the standard. " in Zo so (Se) (Se) " - and? sh" (o) (o) (95) that 60 b5