DE888519C - Receiving device for remote transmissions using the pulse frequency method - Google Patents

Description

For remote transmission of measured values, the measured value in a Frequency or converted into a pulse frequency, which is then available on the standing. Channel is transmitted to the receiving station. Stepping on the canal is inevitable Distortion of the waveform, and also represents the attenuation of the transmission channel usually not a fat size .dar, but is due to the most varied of circumstances conditional, changeable within certain limits. But intensity and curve shape are allowed in no way have an influence on the replica size at the receiving location which the remote measured value is to be simulated. This replica size should be considered with consideration on the ease of summing up and on the use for control purposes Be direct current.

This object is achieved according to the invention in that the measurement frequency is converted on the receiving side into a square curve, the amplitude of which is from; the intensity and waveform, the measuring frequency is independent, and that the square-wave voltage by means of capacitor charging and by means of rectifiers into a rectifier. electricity converted which after amplification -by a compensation amplifier for simulation the measured variable is used.

An exemplary embodiment of the invention is shown schematically in the figures shown, namely Fig. i shows the basic circuit on the receiving side; Dep. 2 is used to explain this circuit. On the receiving side, first the amplitude of the reception frequency is amplified to such an extent that a considerable excess is present in intensity. These in Fig-. i and 2 with u, designated frequency considerable amplitude is applied to the input terminals i, 2, of the circuit. The circuit contains a resistor R and two rectifiers Cl and C2, the are connected in series with voltage sources El, E2. From the circuit shown the rectifier and the two voltage sources it results that the received Alternating current u ,, the .in Fig-. 2i drawn, almost rectangular delimited curve "form u,. This curve is then largely independent of the curve shape the amplitude of the received. Frequency. This square wave voltage is applied to the terminals 3, q: fed to the actual receiving circuit, which consists of a capacitor C1 and a rectifier system G3. The capacitor C1 is used for production of a frequency proportional in current. The charging current of the condenser, satoir rectified. A direct current is drawn from the rectifier system, the smoothed by means of a further capacitor C2 and then a measuring or control device M is fed. This direct current is a measure of the pulse frequency and thus for the measured value. Occasionally this direct current can be too low Have energy content and also be dependent on the load. In such a This is the case with a DC compensation amplifier of known design amplified and then first fed to the measuring device or control device M. The arrangement has the advantage that it works completely without mechanical contacts. The measuring frequency itself can either be sinusoidal, or it can be with the help of a contactor or a transmitter relay can be transmitted as a pulse frequency.

Claims (3)

PATENT CLAIMS: i. Receiving device for long-distance transmissions according to .dem Impulsfrequen.zverfahren, characterized in that the measuring frequency on the Receiving side is converted into a rectangular curve, the amplitude of which depends on the intensity and Kurvonform the measurement frequency is independent, and that the square wave voltage by means of Capacitor charge and converted into a direct current by means of rectifiers, which after amplification by a compensation amplifier to simulate the Measured variable is used. 2. Receiving device according to claim i, characterized in that d'ass to convert the measuring frequency into a square wave rectifier opposite Forward direction can be used with auxiliary voltage sources. 3. Receiving facility according to claims i and 2, characterized in that the square-wave voltage. about a Capacitor (C1) for producing a frequency proportional current to a rectifier system (G3) is fed, from which ider to be measured or amplified direct current is removed.