SU834609A1 - Method of measuring transmission system amplifier overload level - Google Patents

Description

The invention relates to a measurement technique, in particular to methods for measuring the overload level of a transmission system amplifier. There is a known method for measuring the overload level of a transmission system amplifier by measuring the non-linear distortions introduced by the amplifier of a transmission system. The method allows for relative simplicity of the process I j. However, the limestone method does not provide high measurement accuracy. There is also known a method of measuring the overload level of a transmission system amplifier by measuring the level of the main sinusoidal signal at the output of the amplifier of the transmission system with an increase in the level of the main sinusoidal signal, which affects the input of the amplifier - transmission system. This method allows for a relatively high measurement of the overload level of the transmission system amplifier 7. The disadvantage of this method is the considerable complexity of the measurement process and its long duration. The purpose of the invention is to reduce the complexity and duration of the measurement process of the overload level of the transmission system amplifier. To achieve the goal, the input of the transmission system amplifier is affected by an additional sinusoidal signal of constant amplitude, the level of which is measured at the output of the transmission system amplifier. In this case, the measurement of the level of the main sinusoidal signal is made at the time of the change in the level of the additional sinusoidal signal at the output of the transmission system amplifier by a predetermined value. The drawing shows a diagram of the device for implementing the proposed method, one of the options.

The device contains the source 1 of the main sinusoidal signal and the source 2 of the additional sinusoidal signal, the outputs of which are connected through the voltage accumulator 3 to the input of the amplifier 4 of the transmission system with frequency division channels. The outputs of the amplifier 4 of the transmission system are connected to the inputs of the meter 5 of the main sinusoidal signal and the meter 6 of the additional sinusoidal signal.

The measurement of the overload level of the amplifier 4 of the transmission system is as follows. .

The input of amplifier 4 of the transmission system through the adder 3 voltages is influenced by the main sinusoidal signal coming from the output of the source 1 of the main sinusoidal signal and an additional sinusoidal signal of constant amplitude received through the adder 3 of the voltage from the source 2 of the additional sinusoidal signal. The level of the additional sinusoidal signal is measured at the output of the amplifier 4 of the transmission system by means of a meter 6. Before measuring, the levels of the main and additional sinusoidal signals at the input of the amplifier 4 of the transmission system are significantly less than the value corresponding to the overload level. In the measurement process, the level of the main sinusoidal signal at the input of the amplifier 4 of the transmission system is increased at a constant level of the additional sinusoidal signal. At the same time, at the time of changing the level of the additional sinusoidal signal at the output of the amplifier 4 of the transmission system, a level of the axial sinusoidal signal at the same output is measured by the meter 5 by a predetermined value.

The result of measuring the level of the main sinusoidal signal is the overload level of amplifier 4 of the transmission system.

The use of the present invention significantly reduces the complexity and duration of the process of measuring the overload level of a transmission system amplifier.

Claims (2)

1.The International Telegraph and Telephone Consultative Committee. Sreen book, v. W-1, Seneva, 1973i p. igt. 2. Rombro B.C. and others. Measuring the characteristics of multichannel communication systems. M., Holy Hour, 1977, p. 45 (prototype).