DE29516904U1 - Electric cables with constant impedance in the low frequency range - Google Patents

Description

Applicant:

Walter Fuchs
A leash 43
44803 Bochum

Inventor:

Walter Fuchs
A leash 43
44803 Bochum

Electrical cables with constant impedance in the low frequency range

Electrical cables with constant impedance in the low frequency range are mainly used in the audio sector to improve the playback properties of high-quality hi-fi systems. If, for example, loudspeakers are connected to amplifiers with conventional cables without constant impedance, the ratios of the individual signal components are influenced by the changing impedance.

- Shifting the phase position of individual frequency ranges

- Filter effect and thus change of amplitude ratios

- and therefore ripple in the transmission function of the cable.

It is obvious without any further specialist knowledge that such transmission errors have a negative influence on the sound properties of audio systems.

State of the art

Low-frequency cables with constant impedance are predominantly characterized by the fact that the compensation of the impedance response is generated by passive electronic components. Compensation by active components is also conceivable. In any case, however, the design of the compensation elements for a given cable structure depends on the cable length. Such cables can therefore only be offered to end users ready-made in previously defined lengths.

Object of the invention

The task is to propose a low-frequency cable with a constant impedance that can be manufactured without any passive or active electronic components, i.e. the impedance compensation must be achieved through the mechanical structure of the cable. The advantages of such a cable are that the impedance compensation is independent of the length. Economic advantages arise from the elimination of electronic components and the possibility of offering the cable unassembled as meter goods.

Solution to the inventive problem

Surprisingly, the solution to the problem according to the invention is achieved by braiding three insulated individual strands of a conductor cable into a braid (Fig. 1). A braiding other than a normal braid is also conceivable. The individual strands can consist of both stranded and solid conductors. Several insulated wires or strands can also be combined as individual strands.

For larger cable cross-sections, the solution according to the invention consists in braiding three or more than three of the braided cables described above again into a braid.

Implementation example 1

A 100 cm long cable according to the invention was braided from three insulated individual wires with a cross section of 1 mm² and a length of 115 cm. No change in the impedance of the cable produced in this way was detectable in the frequency range from 100 Hz to 100,000 Hz. A 200 cm long cable with the same structure showed the same measurement results.

Implementation example 2

Three cables manufactured according to Example 1 were braided again into a braid with a conductor cross-section of 9 mm². This cable also showed no change in impedance in the frequency range from 100 Hz to 100,000 Hz.

Claims (1)

Applicant: Walter Fuchs A Leash 44803 Bochum Electrical cables with constant impedance in the low frequency range Protection claims Claim 1 Electrical cable with constant impedance in the low frequency range, characterized in that the cable is braided from three insulated conductor strands. Claim 2 Electric cable according to claim 1, characterized in that the individual conductor strands consist of one or more insulated individual conductors. Claim 3 Electric cable according to claim 1 or claims 1 and 2, characterized in that a solid conductor or stranded wire is used as the individual conductor. Claim 4 Electrical cable with constant impedance in the low frequency range, characterized in that three or more than three cables according to claim 1 are braided again to form a braid.