SU403017A1 - DEVICE AUTOMATIC LEVEL ADJUSTMENT - Google Patents

Description

one

The invention can be used on long-haul multi-channel communications.

A device for automatically controlling the level of a control frequency for multi-channel communication systems is known.

In order to improve the dynamics of the operation of a chain of cascaded automatic level controls at the control frequency, AGCs are used with the main (slow-acting) and auxiliary (fast-acting) control loops.

However, such an AGC scheme does not completely exclude the phenomenon of overshooting and does not provide an optimal transient process in the chain of cascaded AGCs.

In order to avoid overshoot in the proposed device, the output of the additionally introduced differential system connected to the filter of the control frequency is connected to the input of the control frequency amplifier, the output of the additionally introduced phase switch is connected to the second input of the differential system, the output of the control frequency and additionally connected to the first input of the differential system the entered blocking node connected to the actuating node, and the sensor output is connected to the other input of the phase manipulator Single pulses, and to an input of

the last connected output of the evaluating node.

The drawing shows a block diagram of the device.

The device contains an adjustable element 1, a linear amplifier 2, an extra node 3, an evaluating node 4, a detector 5, a control frequency amplifier 6, a differential system 7, a control frequency filter 8, a blocking node 9, a phase handler 10 and a pulse sensor 11.

At the nominal level of the control frequency at the output of the linear amplifier 2, the control signal at the output of the evaluating node 4 is absent. From the output of the sensor 11, the pulses to the phase handler 10 are not received. In this case, the phase manipulator 10 must provide a discontinuity for the signal from the output of the amplifier 6 to the input of the differential system 7.

In the event of a deviation of the control frequency level from the nominal value, a control signal appears at the output of the evaluating node 4. Executive node 3 is enabled

to work. At the same time, sensor 11, which generates rectangular pulses with a frequency of 6-10 Hz, is started. As a consequence, from the output of amplifier 6, the signal of the control frequency, having lost phase manipulation, is fed to the input of the differential system 7. Differential system 7 must be unbalanced and provide a damping of at least 6.5 ne (56.5 dB) in the direction from the output phase manipulator 10 to the input of the amplifier 6. When phase manipulation is carried out at 180 ° from the output of the manipulator 10, the differential system 7 and filter 8 receive a signal with a frequency D; h ± 7 Hz, where / kch is the value of control ac th s. The presence in the linear path of a signal with a frequency of ± 7 Hz is fixed in the blocking node 9 of all subsequent AGCs, while ensuring their blocking for the AGC operating time, 15 which performs the regulation. Consequently, if, due to a change in the level of the control frequency, the AGC is placed closer to the place where the level of the control frequency changes, all subsequent AGCs are blocked. At the end of his work, the level control may alternately produce all subsequent AGCs. With such an AGC scheme, the speed of each controller operation is not summed, therefore, each individual AGC level can be adjusted with the maximum allowable speed, which ensures an optimal but 30% speed control process for adjusting the output coordinate of each single AGC and the cascade-connected AGC. A similar sequence occurs when proactively adjusting a transmission level diagram along a trunk of a multichannel communication system by technical personnel. The subject of the invention A device for automatic level control over a control frequency for multichannel communication systems, comprising an adjustable element, the output of which is connected through a linear amplifier to the input of the filter of the control frequency, and an output of the executive node, to the first input of which is connected through serially connected to one of the inputs of the adjustable element. the evaluating unit and the detector — the output of the control frequency amplifier, characterized in that, in order to avoid overshoot, to the input of the control amplifier The output frequency is connected to the output of the additionally introduced differential system connected to the control frequency filter, to the second input of the differential system there is connected the output of the additionally inputted phase manipulator, to the first input of which the output of the control frequency amplifier is connected and the input blocking node connected to the executing node, and the output of the pulse sensor is connected to another input of the phase manipulator, and the output of the estimating node is connected to the input of the latter.