SU809010A1 - Device for measuring three-dimension screen magnetic parameters - Google Patents

Description

(S4) DEVICE FOR MEASURING MAGNETIC

PARAMETERS OF VOLUME SCREENS

a block with the recorder, an additional generator is connected to the second input of the recorder, and the magnetic field sensor is located outside the external magnetic field concentrator, with the axis of the DIRO1M1 and the directivity of the sensor perpendicular to the axis of the symmetry of the hub.

FIG. 1 shows a functional diagram of the proposed device; in fig. 2 shows the temporary diapami Mi / ibi: external magnetic field Ho (t), the floor of the currents H (t) induced in the screen and the floor inside the screen H (t)

The device contains a hub

1 external magnetic field electrically connected to the generator

2 current. A screen 3 is located in the cavity of the concentrator 1. A magnetic field sensor 4 is located outside the concentrator 1, which through the integrating unit 5 is connected to the first input of the recorder 6, to the second input of which an additional generator 7 is connected.

The device works as follows.

The shielding effect of non-magnetic shields is that under the action of an external magnetic field H,) (d), currents are induced in the screen, creating a field H (t) of induced currents. Superposition of fields. flg (t) and H (t) gives the yoke inside the screen Ho (t), i.e. H (t) +) H (t). At the first moment of time, while Ho (t) exists, the field t) of induced currents in the cavity of the screen is directed towards the external one (Fig. 2). After H (t) reaches its maximum value, the induced current field decreases and changes its direction to the opposite, because the energy stored in the screen inductance relaxes with time T L | R, where L and R are inductance and resistance screen, respectively.

As the results of measurements of the fields H (t) of induced currents inside shields of various sizes (cyanindrical, spherical, etc.) show, the amplitude of the maximum of the first quasi-period H (t) has the opposite sign, almost equal to the amplitude of the acting field Ho (t) and coincides with it in time, t. in. / maxHn (t) H (t) /.

The screen through which the induced currents flow, for external space, is a magnetic dipole, emitting a field H (t). The radiation pattern of such a dipole coincides with the axis of the screen, and the maximum direction of the radiation is perpendicular to it and, therefore, the field H (t) exists also outside the magnetic field concentrator. The temporal form of the field H (t) does not depend on the point of observation, and its value decreases as the point of observation moves away from the axis e. Thus, it is possible to measure the field outside the concentrator of the magnetic field, and the decrease in the magnitude of the field H (t) at these distances can be compensated for by a corresponding increase in the sensitivity of the meter. In addition, it is possible to measure the amplitude-time characteristics of the field H (t) inside the cavity of the screen. This is ensured by the fact that in the cavity of the screen there is an equality (max Ho (t) / / max H (t)., Which is a condition for the normalization of these signals. To accomplish this, a current or voltage generator 7 is inputted into the device, which produces signals whose time parameters coincide with the time parameters of the operating field Hp (t), the amplitude of the generator output signal is equal to max H (t), measured at the sensor location point H (t), and has a reverse sign. Since sensor 4 and generator 7 are connected to different inputs of recorder 6, a signal with amplitude-time characteristics corresponding to the field Hj (t) in the cavity of the screen is observed on its screen.

Thus, by turning on the generator 2 of the current, a magnetic field H (, (t) is created in the cavity of the concentrator 1. The sensor 4 field H (t) has a field outside the cocentrator so that the axis of the sensor pattern is perpendicular to the axis of symmetry of the concentrator (Fig. 1 Sensor 4 is connected via an integrating unit 5 to one of the inputs of the recorder 6. The output of an additional generator 7, whose output signal value is zero, is connected to the second input of the recorder B. When the probe screen 3 is inserted into the magnetic field of concentrator 1, then the recorder 6, a signal is observed corresponding to the field H (t) at the location of the sensor 4. Then the amplitude of the signal of the additional generator 7 is increased until the equality / max H (t) / / max H (t) / is satisfied. , plates ud is set, then on the screen of the recorder 6 there is a signal corresponding to the field inside the screen H (t).

Claims (2)

1. USSR author's certificate No. 646281, class, G 01 R 33/00, 1978. 2. Measuring equipment, 1971 and 6 p. 10-21.