DE616529C - Series resonance circuit, whose inductive conductors simultaneously form the allocation of its capacitance (winding capacitor) - Google Patents

Description

Series resonance circuit, whose inductive conductor is also the assignments Form its capacitance (winding capacitor) For short-circuiting and dissipating Alternating currents of a certain frequency are generally used that are tuned to this frequency Series resonance circles as shown in FIG. So far, such circles have been built from a fixed or variable inductance L and its fixed or variable Capacitor C on. The invention aims, the known structure of the matched To simplify series resonance circuits.

It is assumed that wound capacitors or metal wires or strips wound up in the manner of a wound capacitor have an inductive as well as a capacitive impedance. The assignments or wound conductors each represent an inductance, and both inductivities are against each other via the capacity of the assignments or conductors connected (Fig. 2). It has therefore already been proposed that wound capacitors too to be used where a series connection of inductance and capacitance is desired is.

The invention is now based on the knowledge that a wound capacitor is only effective as an inductance when the charging current is in all Bielegumgen in the same direction, based on the winding sense. This is by no means the case with all known wound capacitors, because it is. common to both liven up theirs. Beginnings or to join at their ends, or both foils. in, the middle with a feed A-wire to connect. Both with the -Mitüel connection and with the lead out of the capacitor assignments. whose. Beginnings or theirs. Endren, however, is the effective inductance of the coil practically equal to h, Tull. In every unit of time, the opposing positions of the assignments are of approximately the same size, but @ opposite directed. Charging currents flowed through. Usually you bring. the assignments for wound capacitors. in such a way that first a part of the capacitor configurations is wound up, then the power supply for one configuration is introduced, then a few layers are further wound, then the power supply for the other configuration is inserted and the rest of the configuration is then wound up. The relationships of a capacitor produced in this way are intended to be illustrated in FIG. 2. The current fed to the connection A is divided into a charging current, which flows through the inductance Li, and one which flows through the inductance L2, while the current exiting at the connection B consists of a charging current that flows through L3 and one that flows through L1 flowed. is composed. In the part of L3, which is exactly opposite L1, and in the part of L "which is lL, 1 opposite, currents flow in opposite directions and of almost the same strength and phase in a certain unit of time. In the pieces labeled L5 and L6, however, currents flow in the same direction Only the pieces L5 and La thus result in a resulting self-induction of the capacitor Lr = L5 -f- LE + 6.2M, where M is the mutual inductivity of the two pieces L5 -and L6.

The maximum value of the inductance of a wound capacitor is at Bringing out one assignment at the end and the other at the beginning. Man is therefore able to produce certain inductances for a given wound capacitor by leading out the assignments in certain places. to achieve.

According to the invention is a series resonant circuit, its inductive Head at the same time the animations, form its capacity, by connecting the Assignments at certain points along the assignments on the frequency of the to be derived Alternating current, tuned.

The assignments expediently have several taps, each of which only one is connected, namely the one with the help of which one is desired Natural frequency of the arrangement; achieved. With a sufficient number of taps one is able to use the natural frequency as a pure series resonance circuit Winding capacitor or a similar device in relatively Weib To change boundaries.

Of course, the effect described can only be achieved with a wound capacitor and not with another capacitor, because, as FIGS. 3 and 4 show, the dependence of the cutting resistance Z on the angular velocity w is linear only in the case of a normal capacitor (FIG. 3 ), while with a wound capacitor, as shown in FIG. 4, a minimum impedance is present at a certain frequency, which increases again after a certain frequency is exceeded. This point of minimum resistance is achieved in wound capacitors according to the invention by a specific arrangement of the leads to the assignments.

Claims (2)

PATENT CLAIMS: i. Series resonance circuit, whose inductive letiter simultaneously form the allocation of its capacity. (Winding capacitor), Ge characterized by ports at such locations along the bindings that the size of the inductance and the capacitance, a desired natural frequency assigned the circle. 2. paralysis resonance circuit according to claim i, characterized in that that several taps are provided on each of the assignments.