SU1173367A1 - Apparatus for radar detection of flight danger and cloudy areas - Google Patents

Abstract

1. DEVICE. FOR RADIOLATIVE DETERMINATION OF HAZARDOUS FLYING ZONES IN THE CLOUD, containing a series-connected transmitter, antenna switch, and antenna, a series-connected receiver and amplitude detector, and a threshold -block, with the receiver input connected to the second antenna output of the switch, which is In order to increase the reliability of the received information, the sequentially connected correlation interval meter and discriminant function generator, as well as the l average power, the output of the amplitude detector is connected to the input of the average power meter and the input of the correlation interval meter, the second input and output of the discriminant function generator are connected respectively to the output of the average power meter and the input of the threshold unit. 2. The device according to claim 1, wherein the discriminant function generator consists of the first logarithmic amplifier and. first amplifier, serially connected second logarithmic amplifier and second amplifier, successively connected first quadr and third amplifier, after successively connected second quad and fourth amplifier, serially connected multiplication unit and fifth amplifier, as well as: adder, whose inputs are connected with the outputs of the corresponding amplifiers, with the output of the first logarithmic amplifier connected to the inputs 00 of the first quad and the first input from the multiplication unit, The output of the second log amplifier is connected to the inputs of the second quadr and the second input of the multiplier unit, the first and second inputs of the driver disk. The aliasing function are the inputs of the second and first log amplifiers, respectively, and its output is the output of the adder.

Description

The invention relates to the field of radar and can be used to determine areas dangerous for aircraft operations in adverse weather conditions, for example, using airborne radars.

The purpose of the invention is to increase the reliability of the information received.

FIG. Figure 1 shows a structural electrical diagram of a device for the radar detection of flight hazardous areas in cloud cover; in fig. Figure 2 shows the structural electrical circuit of the discriminant function generator.

The device for radar detection of flight hazardous areas in the cloud includes a transmitter 1, antenna switch 2, antenna 3 receiver 4, amplitude detector 5, threshold unit 6, correlation interval meter 7, discriminant function driver 8, average power meter 9, first logarithmic amplifier 10, the first amplifier 11, the second logarithmic amplifier 12, the second amplifier 13, the first quad 14, the third amplifier 15, the second quad 16, the fourth amplifier 17, multiplication unit 18, the fifth amplifier 19 and the adder 20.

The device works as follows.

The probe signal emitted by antenna 3 generated in transmitter 1, reflected from the meteorological object, is received by antenna 3 and through antenna switch 2 enters receiver 4 and further into amplitude detector 5. From the output of the amplitude detector.5, the signal goes to the average power meter 9 and meter 7 correlation interval,

The signal at the output of the amplitude detector 5 is a sequence of n pulses, followed by 1 dyx with a repetition period T, with the amplitude of the pulses fluctuating from period to period. From the output of meters 9 and 7, signals proportional to the average power Z and the correlation interval of the specified sequence of received pulses are received at the inputs of the imaging unit 8 of the discriminant function. The discriminant function generator 8 generates a signal y, the value of which in a certain way depends on both the average power and the length of the correlation interval of the initial sequence of received pulses. This signal is compared to the threshold level Ufigp in threshold block 6, where a decision is made about the danger of the meteorological object.

Shaper discriminant function implements the operation

 y (x, x2) oCx2 + S X ;, + Sx,

where o, l, If, 8 and g: - determine the gains of the first, respectively, fifth, amplifiers 11, 13, 15, 17 and 19.

 Ig z; X, Igb

X

The first 10 and second 12 logarithmic amplifiers are designed to log the values of z and b, the first 14 and second 16 quadgers and the adder 20 are designed to form the function (1).

The magnitudes of the gains depend on the amplitude response of the receiving / amplifying path. The values of these gains, for example, for linear and logarithmic receivers are shown in the table.

c

Y

t

"Xi

“O

FIG. Z

Claims (2)

1. DEVICE FOR RADAR DETERMINATION OF HAZARDOUS FLIGHTS OF ZONES IN CLOUD, containing a series-connected transmitter, antenna switch, and antenna, series-connected receiver and amplitude detector, as well as a threshold unit, the receiver input connected to the second output of the antenna switch, characterized in that - that, in order to increase the reliability of the information received, series-connected correlation interval meter and discriminant function generator are introduced into it, as well as rer average power, the output of the amplitude detector connected to the input average power meter and the inlet meter correlation interval, a second input and an output of the discriminant function generator connected respectively to the average power output meter and the input of the threshold unit. 2. The device according to claim 1, wherein the discriminant function generator consists of the first logarithmic amplifier and connected in series. the first amplifier, the second logarithmic amplifier and the second amplifier connected in series, the first quad and third amplifiers connected in series, the second quad and fourth amplifiers connected in series, the multiplication unit and the fifth amplifier connected in series, and the adder, the inputs of which are connected to the outputs of the respective amplifiers and the output of the first logarithmic amplifier is connected to the inputs of the first quad and the first input of the multiplication unit, the output of the second of the harmonic amplifier is connected to the inputs of the second quadrator and the second input of the multiplication unit, the first and second inputs of the shaper of the disk. The inputs of the second and first logarithmic amplifiers, respectively, are the primary function, and its output is the output of the adder. - 1 zTOm ⁿⁱ⁾ -ns