PL3348B1 - Ammeter for currents of high frequency and any intensity. - Google Patents

Description

The present invention relates to a measuring device for high-frequency currents and of any considerable intensity. Let us consider a winding ring made of a completely non-magnetic material. Let us place this ring in a plane perpendicular to the straight-line conductor on which the measured current Ilf flows in such a way that the axis of the ring meets the conductor. The beam will induce this Ix in a ring which is obviously non-metallic, a current I2. This current may be much weaker and it can be measured by a thermal or other ampere meter for weak or at least adequately weakened currents (a few amperes at most). We have: / 2 = Mo 7t Yr2 + L * ( 1). where L denotes the coefficient of self-induction, M the coefficient of mutual induction, R— resistance of the enclosing circuit! ring i co - current pulsation rate. From (1) we get: I ^ _ j / R2 + L * o) 2 M (2), It is easy to calculate that L = n2M, which could be predicted in advance, because the ring had the property magnetic riot control; Here n2 is the number of turns of the ring. If we replace M by - in formula (2), we get: ^ = nj / 1 + R "(3). ni HU * co2 The ratio of currents does not depend on the frequency, because - the circumference containing the ring , has a sufficient value; this ratio will depend only on n2. If you obey this principle, you can build an ammeter for strong currents of high frequency. A shortfall is enough, or - 10, v * - ¦'¦¦¦¦ ¦. \ ¦¦ ^ in "¦ R co" give only%% errors when replacing the exact value - - determined from equation aaiiai (3) with the approximate value n2. technical apparatus to strong currents, which at very high frequencies show values less or more or less. It has already been proposed to use rings made of thin sheet metal to measure currents of technical frequency, but so far no one noticed that, leaving the pickup oru (3), it is possible to use a ring made of non-magnetic juterium to measure strong currents with a magnitude of magnitude exceeding the number of periods per second. It should be noted that the present invention gives much more accurate results, rather than in the case of rings made of; of maignetic ma- riails used so far, because the absence of iron us ^ / wt ^ sfadaiy and w $ ór (3) becomes very strict, t v ¦ PL

Claims (1)

1. Disclaimer, patent. An instrument for measuring currents of high frequency and of any intensity, characterized by the use of a non-metallic ring made of a non-magnetic material, is thus formed, Differently differentiated differently on the surface of the ring, it is connected with the ammeter to weak or weak currents. Joseph Bethenod. Deputy: M. SlkteypkoWski, patent attorney. Print by L. Boguslawski, Warsaw. PL