JPH0410729A - Bipolar signal data transmission equipment - Google Patents

Abstract

PURPOSE:To attain the transmission of bipolar signal data even without preparing a time division multiplexing circuit and a separating circuit by transmitting a 2nd channel data as a DC superposed signal to a transmission line. CONSTITUTION:The 2nd channel data DC-superposed from a transmission side equipment 1 to the transmission line are transmitted to a receiving side equipment 9 through the line 4. In the equipment 9, the presence of DC superposition to the 2nd channel data is detected by a superposed current detecting circuit 12 through a receiving transformer 10 and the 2nd channel data are decoded by a 2nd channel data decoding circuit 13 and received by a 2nd channel data receiving circuit 14. Namely, the 2nd channel data are transmitted to the equipment 9 together with a 1st channel data by the DC superposing method. Thereby, data transmission can be attained without preparing a time division multiplexing circuit and a separating circuit.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a digital data transmission device, and particularly to a second digital data transmission device.
The present invention relates to a bipolar signal data transmission device for transmitting channel data.

[Conventional technology]

In a conventional data transmission device using bipolar signals, the transmitting device multiplexes first channel data and second channel data using a time division multiplexing circuit, and the receiving device multiplexes the transmitted multiplexed data. Each channel data was separated by a separation circuit.

[Problem to be solved by the invention]

The conventional data transmission device using bipolar signals described above requires a data time division multiplexing circuit and a data demultiplexing circuit.
Furthermore, there is a drawback that data transmission cannot be performed unless a signal line is provided separately from the data transmission line in order to synchronize both circuits.

SUMMARY OF THE INVENTION An object of the present invention is to provide a bipolar signal data transmission device which eliminates the above-mentioned drawbacks and is capable of data transmission without providing a time division multiplexing circuit 1 separation circuit and a signal line.

[Means for Solving the Problems] In the present invention, a transmitting side device having a transmitting transformer and a receiving side device having a receiving transformer are connected to a transmission path through the transmitting transformer and the receiving transformer, and 2
A bipolar signal data transmission device that uses bipolar signals to transmit channel data from a transmitting device to a receiving device. a switch that superimposes a direct current supplied from the constant current source onto a transmission line by a transmission transformer; a second channel data transmission path that transmits second channel data; and a second channel data that controls the switch. and a second channel data conversion circuit that converts the signal into a signal.

Further, the receiving device of the present invention includes a superimposed current detection circuit that detects the presence or absence of superimposition of direct current from a signal transmitted from the transmitting device via a transmission line and passed through a receiving transformer; and the superimposed current detection circuit. It is characterized by comprising a second channel data decoding circuit that decodes the detected signal into second channel data, and a second channel data receiving circuit that receives the signal decoded by the second channel data decoding circuit.

〔Example〕

Next, embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a circuit block diagram showing one embodiment of the present invention.

This bipolar signal data transmission device consists of a transmitting side device 1 and a receiving side device 9, and the transmitting side device 1 includes a data sending circuit 2, a transmitting transformer 3, a second channel data sending circuit 5, a second The receiving side device 9 includes a channel data conversion circuit 6, etc., a constant current source 7, and a switch 8. 13 and a second channel data receiving circuit 14. Further, the transmitting side device 1 and the receiving side device 9 are mutually connected to a transmission line 4 via a transmitting transformer 3 and a receiving transformer 10.

Data transmission circuit 2 sends first channel data to transmission transformer 3.

The transmitting transformer 3 is connected to the transmission path 4 and transmits the first channel data from the data sending circuit 2 and the switch 8 and the DC superimposed signal (second channel data) to be superimposed on the transmission path to the receiving device 9. do.

Second channel data sending circuit 5 sends second channel data to second channel data converting circuit 6.

The second channel data conversion circuit 6 converts the second channel data from the second channel data sending circuit 5 into a signal for controlling the switch 8 .

Constant current source 7 supplies direct current to be superimposed on switch 8 .

The switch 8 is controlled by the second channel data conversion circuit 6 and turns on and off the DC current from the constant current source 7 according to the second channel data, and in the transmission transformer 3,
It is superimposed on the first channel data.

The receiving transformer 10 of the receiving device 9 receives the first channel data and the DC superimposed signal transmitted from the transmitting device 1 through the transmission line 4, and sends it to the data receiving circuit 11 and the superimposed current detecting circuit 12. do.

The data receiving circuit 11 receives first channel data via the receiving transformer 10.

The superimposed current detection circuit 12 detects the presence or absence of a DC superimposed signal (second channel data) via the receiving transformer 10 and communicates the detected signal to the second channel data decoding circuit 13 .

The second channel data decoding circuit 13 decodes the signal detected by the superimposed current detection circuit 12 into second channel data.

The second channel data receiving circuit 14 receives the second channel data decoded by the second channel data decoding circuit 13.

Next, the operation of this embodiment will be explained.

The first channel data and the DC superimposed second channel data are transmitted from the transmitting device 1 to the receiving device 9 via the transmission path 4. The first channel data of this data is transmitted from the data sending circuit 2 via the transmitting transformer 3 from the transmitting side device 1, and is received by the data receiving circuit 11 via the receiving transformer 10 of the receiving side device 9.

On the other hand, the second channel data is sent from the second channel data sending circuit 5 to the second channel data converting circuit 6,
Here, it is converted into a signal that controls the switch 8. This converted signal turns the switch 8 on and off, and causes the DC current from the constant current source 7 to be superimposed on the transmission path via the transmission transformer 3.

In this way, the second channel data superimposed with direct current on the transmission path is transmitted from the sending device 1 to the receiving device 9 via the transmission path 4.

In the receiving side device 9, the second channel data is passed through the receiving transformer 10, the superimposed current detection circuit 12 detects the presence or absence of DC superposition, and the second channel data decoding circuit 13 decodes the second channel data to receive the second channel data. The signal is received by circuit 14 .

In this way, the second channel data is transmitted to the receiving device together with the first channel data in a manner of superimposition.

(Effects of the Invention) As explained above, the present invention has the effect of eliminating the need for a time division multiplexing circuit and a separation circuit by transmitting second channel data using a DC superimposed signal on a transmission path. Furthermore, since it is possible to synchronize the circuits of both the transmitting side device and the receiving side device, there is also the effect that data transmission can be performed without providing a signal line separate from the data transmission path.

[Brief explanation of the drawing]

FIG. 1 is a circuit block diagram according to an embodiment of the present invention. 1...Sending side device 6...Second channel data conversion circuit 7...
Constant current source 8... Switch 9... Receiving side device 10... Receiving transformer 12... Superimposed current detection circuit

Claims (2)

[Claims] (1) A transmitting side device having a transmitting transformer and a receiving side device having a receiving transformer are connected to a transmission path through the transmitting transformer and the receiving transformer, and receive first and second channel data from the transmitting side device. A bipolar signal data transmission device that uses a bipolar signal to be transmitted to a side device, and the transmitting side device has a constant current source that supplies a constant DC current, and a DC current supplied from the constant current source by opening and closing a switch. a switch that superimposes a current onto a transmission path using a transmission transformer; a second channel data sending circuit that sends out second channel data; and a second channel data conversion that converts the second channel data into a signal that controls the switch. A bipolar signal data transmission device comprising a circuit. (2) In the bipolar signal data transmission device according to claim 1, the receiving device includes a superimposition device that detects the presence or absence of direct current superimposition from the signal transmitted from the transmitting device via the transmission path and passed through the receiving transformer. a current detection circuit; a second channel data decoding circuit that decodes the signal detected by the superimposed current detection circuit into second channel data; and second channel data that receives the signal decoded by the second channel data decoding circuit. A bipolar signal data transmission device comprising a receiving circuit.