SU800916A1 - Device for measuring magnetic field strength - Google Patents

Description

(54) DEVICE FOR MEASURING THE TENSION OF MAGNETIC FIELD

The second circuit is connected to the second switch, the anode of the first diode and the cathode of the second diode-capacitor circuit are connected to the first output of the switch, and the second plates of both capacitors are connected to the bias winding.

The drawing shows a diagram of the device.

The device contains an alternating voltage generator 1, the output of which is connected to a magnetically controlled contact (reed switch) 2 placed in the winding 3 bias. The reed switch 2 is connected to the indicator 4. The output of the generator 1 is connected to the input of the first switch 5, the first output of which is connected to the bias winding 3 through diode-capacitor circuits; consisting of diodes 6 and 7 and capacitors 8 and 9. The second output of the first switch 5 is connected to the input of the stabilizer 10, the output of which is connected to the bias winding 3 through the current regulator 11. The connection points of the diodes 6 and 7 and the capacitors 8 and 9 are connected to the second switch 12.

The device works as follows.

Before measuring, the second switch disconnects the connection points of the diodes b and 7 and capacitors 8 and 9. The first switch 5 connects the alternating voltage generator 1 to the bias winding 3 through the diodes b and 7 and the capacitors 8 and 9. A positive half-wave voltage passes through diode 7 and capacitor 9, and negative through diode 6 and capacitor 8, producing a charge on capacitors 8 and 9 The charge on capacitors 8 and 9 during one period is determined by the constant charge time of capacitors. The time constant is chosen such that over a 20-30 period of alternating current a full charge of capacitors 8 and 9 occurs. During this time, the voltage on the bias winding 3 gradually decreases from the maximum value to zero. On the circuits of diodes 6 and 7 and capacitors 8 and 9, on the contrary, the voltage increases. The voltage on the winding is 3 magnetizations, and therefore am-. The magnitude of the magnetizing reed switch 2 of the alternating magnetic field is smoothly reduced, the reed switch demagnetizing, 2. Further, the first switch 5 P6D1 switches the alternating voltage generator 1 through the stabilizer 10 and the current regulator 11 to the winding 3 bias. For measurements, the reed switch 2 with the winding 3 magnetizing is inserted into the measured magnetic field so that the magnetic lines of force coincide with the longitudinal axis of the reed switch 2. If the measured magnetic field strength is equal to or greater than the selected threshold, the reed switch 2 closes the indicator circuit 4. At this time, the second switch 12 discharges capacitors 8 5 and 9, preparing them for the next measurement cycle.

Claims (2)

Invention Formula A device for measuring the intensity of a magnetic field containing a magnetically controlled contact placed in a bias winding 5 an alternating voltage generator connected via a magnetically controlled contact with an indicator, and a stabilizer, the output of which is connected via a current regulator to a bias winding, characterized in that, in order to improve the accuracy, two switches and two parallel connected diode-capacitor are inserted into it circuit, the second output of the first switch is connected 5 to the input of the stabilizer, and the input to the alternating voltage generator, the cathode of the diode and one plate of the capacitor of one diode-capacitor circuit, the anode of another diode and one 0 capacitor plate of another similar circuit connected to the second switch, the anode of the first diode and the cathode of the diode of the second diode-condenser circuit connected to the first g the output of the first switch, and the second plates of both capacitors to the winding, bias. Sources of information taken into account during the examination 0 1. USSR author's certificate 440620, cl. G 01 R 33/02, 1973. 2. New physical methods of non-destructive quality control of products. M., Moscow House of Scientific and Technical Propaganda. F., E. Dzerzhinsky, 1977, p. 142-145.