SU788044A1 - Device for measuring electric component of electromagnetic pulse - Google Patents

Description

(54) DEVICE FOR MEASURING ELECTRIC ELECTROMAGNETIC COMPONENT The invention relates to a radio measurement technique. A device for measuring the electrical component of an electromagnetic pulse, consisting of a sensor, a transmission line and a pulse voltage recorder 1, is known. However, the known device has a low sensitivity. The purpose of the invention is an increase in sensitivity. To achieve this goal, in the device for measuring the electrical component of an electromagnetic pulse consisting of a sensor, a transmission line and a pulse voltage recorder, the sensor is implemented as a two-wire transmission line with an open end facing the source of an electromagnetic electromagnetic pulse. The drawing shows the design of the device. The device for measuring the electromagnetic component of the electromagnetic pulse consists of a sensor 1, a transmission line 2 and a recorder 3 of pulse voltages, while the sensor 1 is designed as a segment of a two-wire transmission line with an open pulse facing the source of the electromagnetic pulse with vectors , f electric and magnetic field. The device works as follows. Let at the time t О a jump of the electromagnetic field with a rectangular front and an amplitude of intensity LE. It begins to propagate along the electrodes 4 and 5 of sensor 1. Since the electrodes 4, 5 are perpendicular, then a longitudinal current does not arise in them. If transmission line 2 (coaxial cable) were not connected to electrodes 4, 5, then after time t (b - electrode length 4.5, C - electromagnetic pulse propagation speed), electrodes 4, 5 would be entirely located in a static field with the intensity of the LE, while the potential difference between the electrodes 1, 4, 5 would be the value of di d-DE, where d is the distance between the electrodes 4, 5. However, there is a transmission line 2 at the moment t 4 - at its input By the action of a voltage, a current wave arises, propagating to

The open end of sensor 1 and to recorder 3. With equal impedances of sensor 1, transmission line 2 and input resistance of recorder 3, as follows from the theory of long lines, a rectangular voltage pulse of amplitude duration is transmitted to the input of recorder 3. Thus, until t-W, when the potentials of the electrodes 4, 5 are equalized along the entire length, the jump of the field with a rectangular front is fixed as a rectangular voltage jump at the input of the recorder 3. The voltage front has a duration of about This characteristic time at an ideally steep front of the falling field determines the process of establishing between the electrodes 4 and 5 an electric field structure corresponding to the potential difference. The flat part of the impulse field within the interval is transmitted without distortion. With ideal broadband of transmission line 2 and recorder 3, the device for any electromagnetic pulse of duration T, 2 has an effective bandwidth from zero edge frequency. There is no loss in sensitivity in comparison with the known device. Moreover, with a characteristic impedance of sensor 1, which is rather small compared to the characteristic impedance of transmission line 2 at the junction of sensor 1 - transmission line 2, it is possible to make an additional increase in the recorded signal, that is, to increase sensitivity.

Claims (1)

Invention Formula A device for measuring the electrical component of an electromagnetic pulse, consisting of a sensor, 15 transmission line and pulse voltage recorder, characterized in that, in order to increase the sensitivity of the device, the sensor is made in the form of a two-wire segment 20 transmission lines with an open end facing the source of the electromagnetic pulse. Sources of information taken into account in the examination 1, Vorobiev V.A. and others. Measurement of the unsteady field of radiation of an asymmetric conical vibrator. Sat The study of non-stationary electromagnetic fields. M., Atomiztsat, 1977, p. 102-112.