JPS62257222A - Connection part for communication equipment - Google Patents

Abstract

PURPOSE:To satisfy the standards of the output voltage by the NTT K.K. with excellent S/N by using a changeover section to apply an element having a nominal impedance of a high speed digital transmission line thereby terminating the line when the high speed digital transmission line is not connected. CONSTITUTION:When the high speed digital transmission lines l, 2 are not connected, changeover sections 6, 7 use the element 3 having the nominal impedance of the lines l, 2 to terminate them. Since the element 3 having the nominal impedance of the lines l, 2 terminates the line by the changeover sections 6, 7 even at the output terminal open state, the standards are satisfied by bringing the output voltage of the communication equipment to 0.6V when it is connected to the lines l, 2 thereby improving the S/N.

Description

[Detailed Description of the Invention] [Summary] In a connection section of a communication device connected to a high-speed digital transmission line, when the high-speed digital transmission line is not connected, the switching section switches the element having the nominal impedance value of the high-speed digital transmission line to an element having the nominal impedance value of the high-speed digital transmission line. By terminating it, the S/N ratio is good and it satisfies the output voltage standards of NTT Corporation.

[Industrial application field]

The present invention relates to an improvement in a connection section of a communication device that connects to a high-speed digital transmission line of, for example, 1.544 Mbps.

An example of a communication device connected to a high-speed digital transmission line is as shown in FIG. The digital signal of Z is converted into a CMI code by a cog 15 in order to facilitate removal of the DC component and extraction of timing information, amplified by a driver 16, and this output is passed through a resistor 18, 19 and a transformer 20. There are some devices that are connected to a balanced high-speed digital transmission line 1.2.

For example, one standard for the output voltage of such a communication device is:
When connected to high-speed digital transmission line 1.2, the peak value is between 2.0V and 6.0V, and when the output end is open, it is 6.
．． It is defined as below OV.

[Conventional technology]

When a communication device is connected to a high-speed digital transmission line, the peak output value is 2.0V to 6.0V, and when the output end is open, it is usually 4.0V to 12.0V. .

■It becomes. For this reason, in the past, the peak value when connected to a high-speed digital transmission line was suppressed to 2.0V to 3.0V, and the voltage when the output end was open was set to 6.0V or less.

[Problem that the invention seeks to solve]

However, the above method has a problem in that the S/N is poor because the peak value when connected to a high-speed digital transmission line is as low as 2.0V to 3.0V.

[Means for solving problems]

As shown in the principle circuit diagram of Fig. 1, the above problem arises when the switching unit 6
, 7 is solved by the connection of the communication device according to the invention, which is terminated with an element 3 having a nominal impedance value of the high-speed digital transmission line 1.2.

[Effect]

According to the present invention, even if the output end is opened, the switching section 6
．． 7, the high-speed digital transmission line is terminated with an element 3 having a nominal impedance value of 1°2, so that the communication device 4 when connected to the high-speed digital transmission lines 1 and 2
The output voltage of 6. Since it becomes possible to satisfy the standard even if it is set to 0■, it becomes possible to improve the S/N ratio.

〔Example〕

FIG. 2 is a sectional view of a connecting portion according to an embodiment of the present invention.

In the figure, 8 is a resistor having a nominal impedance value of 110Ω for a high-speed digital transmission line; 9. ．． 10 is a spring made of a conductive material such as phosphor bronze, and 11.12 is a metal fitting made of a 4-electric material such as copper to which the resistor 8 is connected. 13 and 14 indicate lead wires for connection to the inside of the communication device.

Using this connection, connect the high-speed digital transmission line 1.
When spring 9.2 is inserted, spring 9.10 is expanded in the direction of arrow A and connected to the communication device via lead wire 13.14. The IO and the metal fittings 11 and 12 are separated.

On the other hand, when the high-speed digital transmission line 1.2 is removed and the output end is opened, the communication device is terminated at the resistor 8 via the spring 9.10 and the metal fitting 11.12. Therefore, the output voltage when connected to the high-speed digital transmission line 1.2 is, for example, 6. O
Even if it is set to V, it will be 6.0■ even when the output terminal is open, so the output voltage will be set to 6.0. 0■, and the S/N can be improved.

FIG. 3 shows another embodiment.

In this example, switching is performed electrically, and when the disconnection detection circuit 23 detects disconnection of the received signal, the resistor 8 is connected to the driver 16 by the switches 21 and 22.

〔Effect of the invention〕

As described in detail above, by using the connecting portion of the present invention, it is possible to make a communication device connected to a high-speed digital transmission line have a good S/N ratio and satisfy output voltage standards.

[Brief explanation of drawings]

Fig. 1 is a circuit diagram of the principle of the present invention, Fig. 2 is a sectional view of a connecting part of an embodiment of the invention, Fig. 3 is a diagram showing another embodiment of the invention, and Fig. 4 is a diagram of a communication device. FIG. 3 is an example circuit diagram. In the figure, 1.2 is a high-speed digital transmission line, 3 is an element having a nominal impedance value, 4 is a communication device, 5 is a connection part, 6.7 is a switching part, 8 is a resistor, 9.10 is a spring, 11. 12 is a metal fitting, and 13 and 14 are lead wires.

Claims (1)

[Claims] In the connection part (5) of the communication device (4) connected to the high-speed digital transmission line (1, 2), when the high-speed digital transmission line (1, 2) is not connected, the switching part (6 , 7), the element (3) has a nominal impedance value of the high-speed digital transmission line (1, 2).
A connection part of a communication device, characterized in that the connection part is terminated with.