DE1949420A1 - Circuit arrangement to increase the transmission quality in rope transmitters in conveyor systems - Google Patents

Description

Circuit arrangement for increasing the transmission quality in cable transmitters in conveyor systems.

The invention relates to a circuit arrangement for increasing the transmission quality for rope transmitters in conveyor systems with a narrow operating frequency band is used.

For the inductive transmission of alternating voltages to a conveyor rope loop is usually (see e.g. German Auslegeschrift 1 057 303) a cable transformer used. The primary winding of this cable transformer is connected to a transmitter or Transmit amplifier connected while its secondary winding is only one turn forming conveyor rope loop. The one to be transmitted is then on the hoisting rope AC voltage for the individual conveyor baskets can be removed.

Usually the audio frequencies to be transmitted are immediately i.e. transmitted to the hoist rope without frequency conversion.

However, carrier frequency systems are also used with their application Transmission filters are necessary, which absorb the harmonics produced by the modulation sift out. These transmission filters usually require ohmic terminating resistors.

In the transformer of conventional design, the impedance is the Transformer windings are much greater than the internal resistance of the feeding source or chosen as the terminating resistor, so that the transformer is approximately ideal viewed can be. It is different with the rope transfer, where the Secondary winding consists of a single turn, the hoisting rope. The hauling rope in turn, has a resistance that increases rapidly with increasing frequency. The hoisting rope is therefore transformed with the consumer resistance (for decoupling the alternating voltages) as a relatively large resistance parallel to the Primary inductance. The primary inductance for its part cannot be arbitrary make it large (in order to approximate the ratios of the ideal transformer), because only thin, low-permeable sheets or ferrites are used for higher frequencies can be. The equivalent circuit diagram given in FIG. 1 then applies. Besides that are the unfavorable geometrical dimensions of the rope transmitter (diameter 300 - 400 mm, 2 iron cross-sections approx. 10 cm) are given, so that even if this is the case Highly permeable core materials only achieve one inductance per turn which is very small.

These relationships are indicated in FIGS. A transmitter or transmission amplifier S is followed by a transmission filter F for the carrier frequency. The transmission filter F is terminated with the transformer u, which has a primary winding P, a core K and a hoisting rope S as a secondary winding.

The equivalent circuit diagram in F-b2 related to the primary side shows the Translated load resistance RL ', the loss resistance RV of the cable transformer and the inductive resistance aL of the cable transmitter. This inductive resistance is now much smaller than the translated resistance? '. The disadvantage is that the Cable transmitter has a high apparent power due to the very small inductive resistance L. takes in; this can also result in undesired core saturation and thus an impermissible high distortion factor.

The object of the invention is to provide a circuit arrangement of the type mentioned to avoid the disadvantages outlined. This is because of this achieves that the primary winding of the cable transformer is preceded or by a capacitor is connected in parallel with this one series or parallel resonant circuit for the operating frequency band. This is in Figures 3 and 4 with the capacitor C and the primary winding P of the SeSAbertragers 11 shown. That way will not only the filter terminating resistor ohmic at the operating frequency, but also the "internal resistance" of the equivalent voltage source transformed into the secondary circuit has a defined high value so that it short-circuits in the secondary circuit limited and the firedamp resp.

Only guaranteed explosion safety of the Sellkrels.

1 claim, 1 sheet drawing, 4 figures

Claims (1)

Circuit arrangement for increasing the transmission quality for rope transmitters in conveyor systems with a narrow operating frequency band is used, characterized in that the primary winding (P) of the cable transformer (11) a capacitor (C) is connected upstream or in parallel with this one Forms series or parallel resonant circuit for the operating frequency band.