JPH043142B2 - - Google Patents

Description

[Detailed description of the invention] [Summary] A reference signal is derived from a bipolar signal such as an AMI signal,
The reference signal is compared with each polar component (high level or low level signal component) of the bipolar signal to generate a signal representing each polar component.

[Industrial application field]

The present invention relates to a bipolar signal receiving device, and in particular,
The present invention relates to a bipolar signal receiving device suitable for receiving bipolar signals used in digital transmission systems such as ISDN.

[Conventional technology]

The AMI signal used in the digital transmission system is the fifth
It is designed to transmit at the signal level shown in the figure. When receiving this AMI signal, the level of the AMI signal is detected using 1/2 of the peak value of the AMI signal as a threshold level, and the AMI signal is divided into high-level signal components and low-level signal components. It is necessary to output For this reason, in conventional receiving devices, a comparison circuit is inserted into the AMI signal transmission system.
The AMI signal is divided into a high-level signal component and a low-level signal component and output depending on whether the AMI signal exceeds a threshold level of a comparator circuit.

[Problem that the invention seeks to solve]

However, in conventional devices, the threshold level was fixed;
The AMI signal transmission system is long and the AMI signal is attenuated.
When the peak value of the AMI signal drops below the threshold level, the AMI signal cannot be faithfully separated into high-level signal components and low-level signal components and output.

The present invention has been made in view of the above-mentioned conventional problems, and its purpose is to faithfully convert the AMI signal into high level signal components, low level signal components, etc. even when the level of the AMI signal etc. is attenuated. An object of the present invention is to provide a bipolar signal receiving device that can separately output signals.

[Means for solving problems]

In order to achieve the above object, the present invention, as shown in FIG. 3, a component signal extraction circuit 4 that separates and outputs a first polar component and a second polar component of the bipolar signal;
a first comparison circuit 5 for comparing the first polarity component with a reference signal to generate a signal representing the first polarity component; and a second comparison circuit 5 for generating a signal representing the second polarity component. and a second comparison circuit 6 for comparing the polar component of the reference signal with the reference signal, and the attenuation circuit 2
Alternatively, the input side of one circuit of the peak hold circuit 1 is connected to the component signal extraction circuit 4, the output signal of the circuit into which the bipolar signal is input is used as the input signal of the other circuit, and the output signal of the other circuit is used as the first circuit. and a bipolar signal receiving device which is output as a reference signal for the second comparison circuits 5 and 6.

[Effect]

When the input side of either the attenuation circuit or the peak hold circuit is connected to the AMI signal transmission system, the output signal of the circuit into which the AMI signal is input is transmitted as the input signal of the other circuit. Then, the output signal of the other circuit is outputted as a reference signal of the comparison circuit. Therefore, even if the level of the AMI signal is attenuated, it is possible to set the reference signal according to the level of the AMI signal.

〔Example〕

FIG. 2 shows the configuration of a preferred embodiment of the invention. In the figure, the AMI signal transmission system 10
A transformer T1 is inserted in the transformer T1, and a comparator circuit 12 is connected to the output line of the transformer T1. This transformer T1 has terminals A-B:terminal B-
C: It is configured with a winding ratio of terminal C-D=1:1:2, and a bias voltage is applied to terminal C via resistors R1 and R2. The terminal A is connected to the comparator IC2 (the first comparison circuit 5 in FIG. 1), and the terminal D is connected to the comparator IC3 (the second comparison circuit 6 in FIG. 1). Terminal B is connected as a high impedance input to a comparator IC1 of a peak hold circuit (an example of a peak hold circuit in FIG. 1) 1. A circuit system outputs the first polarity component of the AMI signal to terminal A, the second polarity component of the AMI signal to terminal D, and a signal that is 1/2 of the first polarity component to terminal B. This is an example of the component signal extraction circuit 4 in FIG. 1. As shown in Figure 3 a and b, the terminal B has 1/2 of the terminal A.
A voltage of the level of is applied.
In other words, transformer T1 reduces the level of A to MI signals by 1/2.
It functions as an attenuation circuit (an example of an attenuation circuit in FIG. 1) that attenuates the output voltage.

Peak hold circuit 1 includes resistors R3 and R4, operational amplifier IC1, diode D1, and capacitor C1.
It holds the peak value of the output signal at terminal B without affecting the transmission system, and outputs the held signal as the reference signal for comparators IC2 and IC3, as shown in Figure 3b. It's becoming like that. That is, the output signal of the peak hold circuit 1 is set as the threshold level of the comparators IC2 and IC3.

Comparators IC2 and IC3 are terminal A and
The AMI signal transmitted from D is compared with the threshold level, and the AMI signal is determined as c,
As shown in d, the high-level signal component and the low-level signal component are separated and output to the logic circuit.

As described above, in this embodiment, a signal obtained by attenuating the level of the AMI signal to 1/2 is output to the comparator circuit 12 via the peak hold circuit 1, and this signal is used as a reference signal for the comparator circuit 12. Therefore, even if the level of the AMI signal is attenuated, the level of the reference signal decreases in accordance with the decrease in the level of the AMI signal, making it possible to reproduce the AMI signal faithfully to the original signal.

〔Effect of the invention〕

As explained below, according to the present invention, the reference signal of the comparator circuit is set by the attenuation circuit and the peak hold circuit, so even if the AMI signal is attenuated, the reference signal of the comparator circuit is changed according to the decrease in the AMI signal. Therefore, the excellent effect of being able to reproduce the AMI signal faithfully to the original signal and transmitting the signal with high fidelity can be obtained.

[Brief explanation of drawings]

Fig. 1 is a principle block diagram of the present invention, Fig. 2 is a circuit configuration diagram showing an embodiment of the present invention, and Fig. 3 is a block diagram of the principle of the present invention.
FIG. 4 is a waveform diagram of the AMI signal. In Figures 1 and 2, 1 is a peak hold circuit, 2 and 16 are attenuation circuits, 3 is a bipolar signal transmission system, 4 is a component signal extraction circuit, 5, 6, and 12 are comparison circuits, and 10 is AMI transmission system, T1 is a transformer.

Claims (1)

[Claims] 1. A peak hold circuit 1 that holds the peak value of the input signal; an attenuation circuit 2 that attenuates the level of the input signal; and a peak hold circuit 2 that is connected to the bipolar signal transmission system 3 and that a component signal extraction circuit 4 that separates and outputs a polar component and a second polar component; and a first component signal extraction circuit that compares the first polar component and a reference signal to generate a signal representing the first polar component.
a comparator circuit 5 for comparing the second polarity component with a reference signal to generate a signal representing the second polarity component;
a comparison circuit 6, the input side of one of the attenuation circuit 2 or the peak hold circuit 1 is connected to the component signal extraction circuit 4 as a high impedance input, and the output signal is connected to the input side of the other circuit; A bipolar signal receiving device characterized in that the output signal of the other circuit is output as a reference signal of the first and second comparison circuits 5 and 6.