DE2109079C3 - Dipole with an opening in a dipole arm for taking current samples - Google Patents

Description

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The invention relates to a dipole with a round cross section, with an opening in a dipole arm and with a coaxial line guided in this dipole arm, with one located at the location of the opening Device for taking electricity samples is connected.

Such a dipole is in the literature: NTG-U.R.S.I.-Tagung »Antennae and electromagnetic Felder ", Darmstadt, October 17th to 20th, 1967, Short version of the lectures of the VDE working group 1967, the VDE district association Frankfurt Main. P. 35 to 37, shown in picture 1 - Meinke. In this dipole, a coaxial line runs in the tube, the inner conductor of which passes through an opening in the dipole protrudes and forms a Messondc designed either as a pin or a loop.

It is the object of the invention to provide a dipole with a device for taking current samples indicate that no parts protrude beyond the dipole surface.

This object is achieved by the means specified in the characterizing part of claim 1.

The invention will now be explained in more detail with reference to the drawings, for example. It shows

1 shows a dipole with an incised slot with a coaxial line connected to it;

Fig. 2 a to 2 c different options for Adaptation of the coaxial line connected to the slot.

In Fig. 1, the adjacent parts 1 and 2 of the two arms of a dipole made of tubes shown; a narrow slot 3 is cut into the surface of one arm 2. At the In the middle of one side of the slide, the inner conductor 4 of a coaxial line 5 is connected, whose Outer conductor is conductively connected to the middle of the other opposite side of the slot.

This slot cut into the surface of one of the dipole arms interrupts a small part of the Current flow in the dipole and generates a voltage proportional to the current across the middle of the slot. at The power that can be drawn from the connected coaxial line is not too large of the slot dimensions 30 to 50 dB less than the power of the dipole. A maximum coupling to the dipole is reached when the longitudinal extension of the slot is perpendicular to the current flow in the dipole, as it is drawn in FIG. This type of coupling has a negligible effect on the current distribution in the dipole.

The slot represents a low resistance generator that is slightly inductive. It can be adapted to the transmission line with the characteristic impedance Z ₀ by means of a resistor R = Z ₀ (FIGS. 2 a to 2 c).

According to Fig. 2a, the resistor R is in series with the slot. The largest bandwidth is achieved here, but compensation for the inductive component of the slot is not possible, so that the adaptation is not precise.

In the second possibility, shown in Fig. 2b, the resistor R is parallel to the slot at a distance (// 4 - .1) from the slot. The length Δ can be used to compensate for the inductive component of the slot.

Because the slot is a source of low internal resistance. is the coupling of the slot with the Dipole relatively insensitive to external influences, for example to water in the vicinity of the slot.

In the third possibility, shown in Fig. 2c, the resistor R is in series with the slot at a distance (A / 2 -. I) from the slot. The length . I can in turn be used to compensate for the inductive component of the slot.

The described arrangements can be used to measure the amplitude and phase of the current in the dipole.

For this 1 sheet of drawing

Claims (4)

Patent claims: 1. Dipole with a round cross-section, with an opening in one dipole arm and with one in this Coaxial line with poor dipoles, which is connected to a device located at the or * of the opening is connected to the removal of current samples, characterized in that the opening itself as a device for removing the Current sample is used. by cutting them as a transverse, preferably perpendicular, to the dipole axis Slot (3) is formed, on the long sides of the coaxial line with her Inner and outer conductor is connected. 2. Dipole according to claim 1, characterized in that the impedance of the slot is adapted to the characteristic impedance (Z ₁ ) of the coaxial line (5) by means of a scrien resistance connected directly to the slot (3) (Fi g. 2a). _{3. Dipole according to claim 1, characterized in that the impedance of the slot is adapted to the characteristic impedance (Z 0} ) of the coaxial line (5) by means of a parallel resistor connected at a distance (I) smaller than a quarter of the operating wavelength from the slot , and that the distance (I) is dimensioned so that the inductive component of the slot impedance is compensated (FIG. 2 b). 4. Dipole according to claim I. characterized in that the impedance of the slot means one at a distance (I) shorter than half the operating wavelength. " series resistor connected by the slot to the wave impedance (ZJ of the coaxial line (5) is adapted and that the distance (I) is dimensioned so that the inductive component the slot impedance is compensated (Fig. 2c).