SU390654A1 - METHOD OF EXCITING ELECTRIC SIGNALS - Google Patents

Description

one

The known method of exciting electrical signals based on the interaction of a permanent magnet with the field of a coil of a resonant oscillatory circuit does not allow amplifying a signal in a wide frequency range.

In order to expand the frequency range of the amplified voltage, the proposed method changes the time of interaction of the permanent magnet with the coil field within one quarter of the amplified voltage period, keeping the condition (1 / 4- | + n), where T is the oscillation period of the amplified signal, and n 1, 2, 3, 4 ...

The drawing shows a diagram of the device that implements the proposed method.

A permanent magnet 1, located on a non-magnetic disk 2, is brought into vras, with a help of a motor, and a driving motor 3, which is connected to the disk with a rubber strap 4.

The magnet / s movement can cross the turns of the fixed coil 5, which is an element of the oscillating circuit.

The gain is performed as follows. A generator of amplified signals is connected to a serial resonant oscillatory circuit, which excites oscillations in the circuit with a frequency equal to the natural frequency of the circuit. The amplifier can be tuned to the frequency of the amplified

signal in the general case by changing the parameters of the oscillating circuit (by changing the frequency of the natural oscillations of the circuit). Through the fixed coil 5 of the amplifier, a current flows at a frequency (Oo, which creates an alternating magnetic field around the coil. A permanent magnet 1, moving in the field of coil 5, interacts with it, slowing down or accelerating.

In the case of the resulting deceleration of the magnet / field of the coil, the map 5 will transfer some of its energy to it.

The transit time of the permanent magnet / field of interaction with the coil 5 is set in accordance with the regularity of t 7 () with its simultaneous change within a quarter of the period of the supply voltage, where T is the oscillation period of the amplified signal, and p. 1, 2, 3, 4 ...

Select the rotational speed of the drive motor 3 and the width of the field of operation of the magnet / with the field of the coil 5 so that the time of flight of the constant magnet of the field of interaction is paria 11/4 of the period of natural oscillations of the circuit ().

In this case, a preferential bargaining of the moving magnet / field coil 5 is observed, which, in turn, provides an additional contribution to the oscillatory circuit.

If a soft coupling of the drive motor and the moving magnet is carried out, thereby allowing the mobile magnet to change the transit time in the interaction space with the coil field, the resulting kinetic braking energy is coupled to the coil, which leads to pumping energy into the circuit.

The amount of energy in the circuit is limited by the non-linearity of the system and the quality of the circuit.

Thus, the number of revolutions of the magnet / may be repeatedly the period of the natural oscillations of the circuit.

Subject invention

A method of exciting electrical signals based on the interaction of a constant magnet with a coil field of a resonant oscillating circuit, characterized in that, in order to expand the frequency range of the amplified voltage, the time of interaction t of the permanent magnet with the coil zero within one quarter of the amplified voltage is changed preserving the condition t G (1/4 +), where T is the oscillation period of the amplified signal, a, 2, 3, 4 ...