SU467276A1 - Device for measuring the amplitudes of pulsed radio signals - Google Patents

Description

pulse radio signals. The amplitude sampling step is determined by the required accuracy of measuring the amplitudes of the reflected signals. This is how reference signals are formed.

The generator 6 generates a constant-level noise signal, which arrives at the attenuator 3, which, under the action of the pulses of software block 4, automatically switches, sequentially issuing to the adder reference noise levels from 0 to a value exceeding the dynamic range of the radio receiver. The sampling rate of the interference levels is also determined by the required accuracy of measuring the amplitudes of the reflected signals. This is the formation of reference interference levels.

At each operating frequency or group of frequencies at which the characteristics of the radio receiver remain constant with permissible accuracy, sequences of reference signals are formed at all reference interference levels.

The mixture of reference signals and reference noise levels from the output of adder 1 through the equivalent of 7 antenna 8 and the switch-calibration 9 enters the input of the radio receiver 10, two output circuits of which are connected to the voltage meter 13.

One output circuit, which is the output of the main gain path of the radio receiver, is connected to the synchronization circuit AND and the key circuit 12. The key circuit passes the signal from the radio receiver output to the voltmeter 14 only if there is a signal from the synchronization circuit, i.e. the presence of reference signals. Calibration can be performed when the synchronization circuit is disabled. In this case, the key circuit should be opened with a signal from program block 4 at time intervals corresponding to the formation of reference signals by generator 5. The voltmeter measures the amplitudes of the mixture of reference signals and reference noise levels. The measurement results are transmitted to the decision node 15, in which they are recorded (memorized). As a crucial node you can use, for example, a digital computer. You can register measurement results, for example, on punched tape for the purpose of further processing using a special device.

The other output circuit of the radio receiver 10 is connected directly to the voltmeter 14. This circuit supplies the voltage corresponding to the reference noise level (usually the voltage produced by the radio receiver's automatic control circuit is used for this purpose). The measurement results are sent to the decision node. The synchronization circuit 11, which is supplied with voltage from the main gain path of the radio receiver, automatically detects the reflected signals according to a certain algorithm, for example, "3 of" 4, and opens the key circuit 12 for the duration of the reflection. The amplitude of the reflected signal is measured by a voltmeter, which measures the voltage corresponding to the level of the rooms. The results of these measurements are fed to a decision node, which,

comparing them with the results of calibration, gives the true value of the amplitude of the reflected signal.

The frequency of calibration depends on the stability of the characteristics of the receiving and measuring paths and is mainly determined by the radio receiver.

Subject invention

A device for measuring the amplitudes of pulsed radio signals, such as echoes in ionospheric stations, operating on the principle of calibration, comprising a software unit, a reference generator,

including a signal generator and a noise generator, which are connected via attenuators to an adder, an antenna connected in series, a calibration switch, a radio receiver and a measuring unit including a synchronization circuit connected through a key circuit to a voltmeter, and the inputs of these circuits are connected to the output of the radio receiver; The receiver output, which contains information about the noise level, is connected to a voltmeter, characterized in that, in order to increase the measurement accuracy in a wide dynamic range a range of signals and interferences, a program block connected to a signal generator and attenuators of signals and interferences, and the output of a voltmeter connected to an additional decision node.