A transmitter (12) with an antenna (26) transmits a series of radio frequency (RF) pulses with sequential, incrementally changing carrier frequencies f_T. A receiver (14) receives energy from multiple scattering points (S₁-S_M) of an object (16) reflecting such transmitted RF pulses. The received energy from each one of such scattering points (S₁-S_M) includes a series of radio frequency (RF) pulses corresponding to the transmitted pulses delayed in time, τ, from the transmitted pulses an amount proportional to the range to such scattering point and shifted in frequency from the carrier frequency an amount proportional to the doppler velocity of such scattering point. The receiver (14) includes a heterodyning section (18), responsive to a range tracking error signal, E_R, and a velocity tracking error signal, Δ_VEL, for producing at an output (19) a series of pulsed signals for each one of the scattering points. Each one of the pulsed signals for any given scattering point sequentially changes in phase, φ, at a rate, Δφ/ΔT, related to the range to the scattering point producing such one of the pulsed signal series. A processor (24), responsive to each of the series of pulsed signals produced by the heterodyning section (18), unambiguously determines from the frequency spectrum thereof the range tracking error signal, E_R, and velocity tracking error signal, Δ_VEL, for each of the scattering points as well as the range centroid.

An apparatus for determining a target position within a selected range segment includes a range gate generator (13) which provides a range gate signal that enables a detector (11) for a time interval corresponding to the range segment and a signal generator (17), responsive to the range gate signal, which provides a signal having an amplitude which varies with time. The output signal of the signal generator is sampled by a sample and hold circuit (19). A control signal generator (15) enabled during the range gate interval couples a switching signal to the sample and hold circuit (19) which, upon the reception of a target reflected signal, causes the sample and hold circuit to switch from the sampling mode to the hold mode . The signal amplitude in the hold mode is a representation of the target position within the range gate. Range rate is determined from a knowledge of the elapsed time between range gates corresponding to the same range segment and the difference in positions within the range gates established by the sample and hold circuit when switched to the hold mode upon receptions of the target reflected signals.

A radar system for determining first time around targets from multiple time around targets using two radar pulse trains of different pulse repetition intervals (31) and thresholding means (35). Echos from pulses at each pulse repetition interval being compared (37) to determine first time around targets from subsequent time around targets. The radar system using thresholding levels to determine an echo and being less prone to problems of coincidence gate clashing with high duty cycles.

A set containing an odd number N of successive raw range data samples from precision distance measuring equipment is established. The set is arranged in ascending order of sample magnitude. The median member of the ordered set, i.e. themember, is selected for processing in an alpha-beta type digital filter. The filter output is compensated for the delay introduced by using the median member of the set as the input to the alpha-beta filter. The compensated filter output is utilized as the distance input signal to a display or aircraft flight control system.

L'invention concerne un dispositif de télémétrie radar pour système de conduite de tir.

Le dispositif comporte des moyens (8) de commande du pointage de l'axe de l'antenne sur l'objectif par l'intermédiaire des moyens d'entrainement (7) de l'antenne à partir d'un instant to de référence, instant de coincidence de la direction de l'axe de l'antenne et de la direction d'un objectif vu dans un viseur. Des moyens de calcul (10) de la vitesse radiale de l'objectif par rapport à l'antenne délivrent, en fonctionnement, à l'intégrateur (5) de la boucle de poursuite en distance à partir du même instant to un signal représentatif de la vitesse radiale de l'objectif par rapport à l'antenne.

Application aux systèmes de conduite de tir aéroportés.