DE19740601C1 - Signal distortion correction device for wideband transmission system - Google Patents

Abstract

The signal distortion correction device has the signals received from a transmission wire of the signal transmission line supplied to an electrically conductive body (1) with a surface which is curved in 2 dimensions, the signals extracted from a required point (3) on this surface, determined in dependence on the required signal characteristics.

Description

From signal theory it is known that when transmitting impulses Distortions of the Waveform (curve shape) occur when the group delay over the entire frequency range of the transmitted signals is not constant. It is known that devices for correcting the group delay of signals in digital technology with the help of signal processors and corresponding Calculation methods can be implemented (US 4,630,285 / US 4,458,362), the disadvantage is the inevitable conversion of the signals into digital ones Form, as well as the conversion back into the analog form, and that occurring quality losses of the signal.

Furthermore in analog technology through implementation with all-pass links (US 4,422,052 / US 5,425,106), with a not inconsiderable effort Electronics is necessary. Here too there are losses in signal quality inevitable.

The patent DE 41 29 353 A1 describes a calibration line for implementation adjustable group transit times with the help of all-passports and short Coaxial cable pieces the setting of certain group delay values enables. These group delay values are in the intended frequency range constant, but there is a frequency-dependent damping, which over equalizing an equalizing amplifier. This calibration line is but not suitable for a non-constant group runtime over a wide frequency range, primarily with baseband transmission, to an im Total frequency range to bring constant value because the adjustable Group delay values of the calibration line are frequency-independent.  

Problem:

The invention has for its object the frequency-dependent Group runtime of a transmission system with broadband transmission of Signals over the entire frequency range to a relatively constant value bring as in the transmission of signals by cable and active Amplifier stages often have distortions in the timing of the signals occur so that a constant group duration over the Total frequency range is usually not given.

Such distortions occur particularly in the audible frequency range noticeably noticeable and lead to blurring of the transmitted Information, the naturalness of the acoustic information is lost, or is in great need of improvement.

Because unpredictable, especially with low-frequency transmission systems Group delay distortions occur from the construction of this Devices or in an overall system by combining different Devices from different manufacturers depend, these can only by one Correction of the group delay characteristic that can be variably influenced be eliminated, so that largely in the entire transmission range constant group duration can be achieved.  

Solution:

This problem is solved by the in claim 1 and claim 2 and Claim 3 characteristics solved.

Design example:

An advantageous embodiment of the invention is in claim 2 specified. The metallic body has the shape of a hemisphere shell the feed in the middle between the outside and inside of the Hemisphere surface takes place. The signal is tapped in one any point on the outside of the hemisphere.

Fig. 1 shows the embodiment of the invention according to claim 2 with the hemisphere shell ( 1 ), the feed point ( 2 ) of the signal and the signal tap ( 3 ) on the surface of the hemisphere shell.

By changing the position of the tap point ( 3 ) on the surface of the hemispherical shell, the group delay characteristic of the signal changes; a point can be determined on the surface at which the group delay of the overall system to which this invention is incorporated reaches a relatively constant value.

The feed point ( 2 ) and the tap point ( 3 ) are interchangeable, so that the signal can also be fed in at point ( 3 ) and the signal can be tapped at point ( 2 ), as specified in claim 3.

Achieved advantages:

The advantages achieved by the invention are in particular that the device for correcting the group runtime especially in Low frequency range can be manufactured very inexpensively, and contains no active or lossy passive components. Furthermore, the group duration can be varied by the possible Influencing for all those already on the market Low frequency transmission systems are optimally corrected to the best Ensure transmission quality even with devices that do not have a constant group runtime due to the manufacturing process. With the help of the invention is the correct reproduction of signals easy to set, the pulse reproduction is greatly improved and leads in the low frequency range for a more natural reproduction.

Reference list

(1

) Hemisphere shell according to claim 2

(2nd

) Entry point of the signal in the edge of the hemisphere shell

(3rd

) Tapping point of the signal on the surface of the hemisphere shell

Claims (3)

1. Device for influencing and correcting group delay distortion in wired transmission of analog and digital signals, characterized in that the telecommunications signals transmitted via a wire of the line are fed into an electrically conductive body with a curved surface in two dimensions, the continuation of the signal line by tapping the signals at any point in the area of the curved surface and by the position of the tapping point on the surface a direct, continuous influence on the group delay characteristic of the tapped signal can be exerted. 2. Device according to claim 1 characterized, that the electrically conductive body with the in two dimensions curved surface has the shape of a hemisphere, in which the feeding of the signals in the middle of the edge of this hemisphere shell takes place, and the tapping of the signals on the convex side of the Hemisphere surface is made. 3. Device according to claim 1 characterized, that the feeding of the signal is also at a point on the curved Surface can be made, and the tap in another area of the Body takes place, so the direction of the signal path is not fixed.