DE817179C - Arrangement for recording the transmission rate of any four-pole connection - Google Patents

Description

To measure the transmission rate as a function of variable transmission frequency of any four-pole by current and voltage measurement one often uses recording or display devices, for example the gain or attenuation curve visible as a function of the, for example, periodically changing measurement frequency be let.

If the transmitter and receiver are spatially separated, e.g. B. when measuring the transmission rate of telecommunication lines, prepares the necessary synchronization some difficulties from the sender and receiver. In general, send and Tilt generators used on the receiving side; the ripple generator on the transmitter side controls the The measuring frequency periodically sweeping through the usable frequency band, the ripple generator at the receiving end is used to control the timing of the z. B. on a Braunschen. Tube taking place Recording of the attenuation curve used. At the beginning of the period of the relaxation generator a synchronization pulse is transmitted from the transmitter to the receiver, which the receiving side Tilt generator takes.

The synchronization pulse is mainly used at the trough of the transmission area lying frequencies. The effort for an operationally reliable synchronization of the breakover voltage is relatively high.

In order to save the synchronization pulse generator, has already been proposed a blocking oscillator to generate the breakover voltage controlling the transmission side to use whose feedback loop has a natural oscillation, which with certainty can still be transmitted to the receiving side and especially in the middle of the frequency band to be transmitted lies. This occurs at the beginning of every tipping period Natural oscillation should then be used as a synchronization pulse for the synchronization of the receiving side Tilt generator can be used. The transmission is preferably carried out with a larger Amplitude than that of the level frequencies possibly used.

The invention provides, on the other hand, the coming measuring voltage a frequency measuring device from which one of the respective frequency proportional control DC voltage is obtained, which is used for the time deflection in the display or writing part of the receiver is used.

This makes it possible to do without any synchronization.

Further details of the invention are based on the in the figure illustrated schematic diagram of a receiver explained.

The incoming measuring voltage is after a pre-amplification in the amplifier V 2 of the receiver once after rectification in Gl the vertical pair of plates a Braun tube Br, on the other hand it is used in a frequency measuring device F generates a DC control voltage, the size of which is a clear measure for the respective Receiving frequency is. This control voltage is applied to the horizontal pair of plates given to the Braun tube and causes the time diversion.

The control voltage can, for. B. be generated in that from the incoming sinusoidal waves made by overdriving a square wave voltage whose amplitude is constant for all practically occurring input voltages is.

A downstream capacitor resistor is then created a DC control voltage, the size of which is a clear measure of each at the receiver lying frequency is. A particular advantage is that also individual Frequencies, e.g. at Han4 Betriel>, are displayed in the correct position.

PATENT CLAIMS: I. Arrangement for recording or visualization the attenuation or amplification of any quadrupole as a function of a changeable one Measuring frequency with spatial separation of transmitter and receiver, characterized by a frequency measuring device, with which one of the incoming measuring voltage In each case the frequency proportional control DC voltage will be filled, the serves to divert time in the display or writing part of the receiver.

Claims (1)

2. Arrangement according to claim I, characterized by means for conversion the incoming measurement voltages in square wave voltages i and other means for derivation a frequency-proportional DC control voltage. 3. Arrangement according to claim 2, characterized in that the frequency proportional DC voltage is formed on a capacitor resistor member. 4. Arrangement according to one of the preceding claims, characterized in that that the incoming Aleßspalltnung is first pre-amplified.