JP2002026888A - Data transmission method, data transmission system, transmitter and receiving device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a data transmission method that can be applied to a data transmission where no error detection code is added to data and have a large improvement effect of the transmission efficiency. SOLUTION: A frame pattern insertion section 14 of a transmitter 1 periodically inserts a frame pattern to a frame signal, and an information insertion section 15 inserts additional data to a time slot other than that of the frame pattern of the frame signal. A data transmission section 11 transmits a data signal and a frame transmission section 13 transmits the frame signal. A frame pattern detection section 23 of a receiver 2 detects the frame pattern inserted to the frame signal to identify a phase of the frame. A data reception section 21 recognizes the frame on the basis of the phase to extract data from the data signal. An information reception section 24 extracts the additional data from the time slot other than that of the frame pattern of the frame signal.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data transmission system, and more particularly to a data transmission system in which a transmitting device and a receiving device transmit data in synchronization.

[0002]

2. Description of the Related Art As a data transmission system, there is a data transmission system using a method of transmitting data in frames of a fixed period. As a conventional basic method used in that case, there is a method of transmitting a data signal, a clock signal, and a frame signal from a transmitting device to a receiving device to perform data transmission.

A transmitting apparatus using a basic data transmission method has a clock signal serving as a reference for data transmission, a frame signal indicating the phase of a data frame in synchronization with the clock signal, and a clock signal and a frame signal. Transmitting data signal. Usually, there is one clock line for transmitting a clock signal and one frame line for transmitting a frame signal. The number of data lines through which the data signal is transmitted may be one or more.

The receiving device receives the frame signal in synchronization with the clock signal, detects the start timing of the frame from the frame signal, receives the data signal in synchronization with the clock signal at the phase indicated by the timing, and receives the data. Take out.

[0005] In a data transmission system such as the one described above, data transmission efficiency is important, and various methods for improving data transmission efficiency have been conventionally proposed.

In many cases, data transmission is performed by attaching an error detection code such as a parity code or a CRC code in order to detect a data error in a transmission line by a receiving apparatus, and a dedicated signal line is provided for the error detection code. The data signal may be multiplexed in a time division manner. As a method for improving the transmission efficiency of a system for performing data transmission by attaching an error detection code as described above, there is a method disclosed in Japanese Patent Application Laid-Open No. 06-338877.

The method disclosed in Japanese Patent Application Laid-Open No. 06-338877 transmits an error detection code on the same signal line as a frame signal.

In Japanese Patent Application Laid-Open No. 06-338877, a frame signal is a signal for indicating the phase of a frame. For example, the timing at the beginning of a frame is indicated by a frame pulse. An error detection code is multiplexed on the signal. That is, as shown in FIG. 3, the head of the frame is displayed at the rising timing of the frame pulse, and the value of the error detection code is indicated by the pulse width.

Thus, it is not necessary to provide a dedicated signal line for transmitting the error detection code, and the signal line can be allocated to data transmission. Further, since the error detection code is not multiplexed into the data signal, more data can be transmitted.

[0010]

A conventional data transmission method in which the width of a frame pulse is changed according to the value of an error detection code can be used only for a data transmission system to which an error detection code is added. Further, the effect of improving the data transmission efficiency was only for the error detection code.

An object of the present invention is to provide a data transmission method which can be applied to data transmission without adding an error detection code and has a large effect of improving transmission efficiency.

[0012]

In order to achieve the above object, a data transmission method according to the present invention provides a data transmission method for inserting data into a frame composed of a plurality of time slots and transmitting the data from a transmitting device to a receiving device. A method of periodically inserting a frame pattern indicating a phase with a value given to a predetermined number of time slots into a frame signal for indicating a phase of a frame, and adding the frame pattern to a time slot other than the frame pattern of the frame signal. Data is inserted, a data signal is generated by inserting data into a frame according to the phase, a frame signal and a data signal are transmitted from a transmitting device together with a reference clock signal, and at a receiving device, the timing of the clock signal Recognize the frame of the data signal at the phase indicated by the frame pattern, extract the data, and extract the frame of the frame signal. Retrieve the additional data from the pattern other than the time slot.

Therefore, data (additional data) can be transmitted not only in the data signal but also in the frame signal.

According to an embodiment of the present invention, the frame is 3 frames.
A frame pattern composed of one or more time slots and composed of more than half of the number of time slots of a frame is inserted into a frame signal by the transmitting device.

[0015] Therefore, it is possible to transmit additional data that is close to half the frame length.

Further, since the frame pattern has a length equal to or more than half the length of the frame, the frame pattern is not erroneously recognized no matter what additional data of the pattern is transmitted.

A data transmission system according to the present invention is a data transmission system for transmitting data by inserting data into a frame composed of a plurality of time slots, wherein a frame assigned to a predetermined number of time slots indicates a phase of the frame. A frame signal in which a pattern is inserted periodically and additional data is inserted in a time slot other than the frame pattern, and a data signal that forms a frame according to the phase are generated, and the frame signal and a clock that is used as a reference A transmitting device that transmits together with a signal, and a receiving device that recognizes a frame of a data signal at a phase indicated by a frame pattern and extracts data at the timing of a clock signal and extracts additional data from a time slot other than the frame pattern of the frame signal Have.

According to an embodiment of the present invention, the frame is 3
The transmitting apparatus inserts a frame pattern composed of one or more time slots and composed of more than half the number of time slots of the frame into the frame signal.

A transmitting apparatus according to the present invention is a transmitting apparatus that inserts data into a frame composed of a plurality of time slots and transmits the data. The transmitting apparatus adds a predetermined number of time slots to a frame signal for indicating the phase of the frame. A frame pattern insertion unit that periodically inserts a frame pattern indicating a phase with a value, an information insertion unit that inserts additional data into a time slot other than the frame pattern of the frame signal, and inserts data into a frame according to the phase. A data transmission unit that generates a data signal and transmits the data signal in synchronization with a reference clock signal, and a frame transmission unit that transmits a frame signal in synchronization with the clock signal.

According to an embodiment of the present invention, the frame is 3
The frame pattern insertion unit including one or more of the time slots, and inserts a frame pattern including more than half of the number of time slots of the frame into the frame signal.

A receiving apparatus according to the present invention is a receiving apparatus for extracting data from a frame including a plurality of time slots, detects a frame pattern inserted in a predetermined number of time slots of the frame, and specifies a phase of the frame. A frame pattern detection unit, which recognizes a frame with the phase,
It has a data receiving unit for extracting data from a data signal and an information receiving unit for extracting additional data inserted in a time slot other than the frame pattern of the frame signal.

According to an embodiment of the present invention, the frame is 3
The frame pattern detection unit includes one or more time slots, and detects a frame pattern including more than half the number of time slots of the frame.

[0023]

DESCRIPTION OF THE PREFERRED EMBODIMENTS A data transmission system according to one embodiment of the present invention will be described in detail with reference to the drawings.

Referring to FIG. 1, the data transmission system of the present embodiment has a transmitting device 1 and a receiving device 2.
The transmitting device 1 and the receiving device 2 are connected by a clock line L1, a frame line L2, and a data line L3.

The clock line L1 transmits a clock signal S1 as a reference for data transmission, the frame line L2 transmits a frame signal S2 indicating a phase of a frame, and the data line L3 is a data signal having a frame configuration. Transmit S3.

The data transmission system of the present embodiment transmits data by a frame signal S2 in addition to transmitting data by a data signal S3. here,
The data transmitted by the frame signal S2 is called additional data.

The transmitting apparatus 1 has a data transmitting unit 11, a clock generating unit 12, a frame transmitting unit 13, a frame pattern inserting unit 14, an information inserting unit 15, and a frame generating unit 16.

The clock generator 12 generates a clock signal as a reference for data transmission, transmits the clock signal S1 to the receiver 2 via the clock line L1, and transmits the clock signal S1 to the receiver 2, and the data transmitter 11 and the frame transmitter 13 in the transmitter 1. , A transmission reference clock to the frame pattern insertion unit 14, the information insertion unit 15, and the frame generation unit 16.

The frame generating section 16 includes the clock generating section 1
2 generates a frame pulse of a predetermined cycle indicating the head time slot of the frame in synchronization with the transmission reference clock received from the second and distributes it to the data transmission unit 11, the frame transmission unit 13, the frame pattern insertion unit 14 and the information insertion unit 15. .

The data transmission unit 11 is provided with a frame generation unit 16
The data signal S3 in the form of a frame is transmitted to the receiving apparatus 2 via the data line L3 in synchronization with the frame pulse from the clock generator 2 and the transmission reference clock from the clock generator 2.

The frame pattern insertion section 14 outputs to the frame transmission section 3 a frame pattern synchronized with the frame pulse from the frame generation section 16 and the transmission reference clock from the clock generation section 2. The frame pattern is a timing signal of a specific pattern that is repeated at a predetermined cycle to indicate the phase of the frame.

As shown in FIG. 2, in a frame composed of N (N is a natural number of 3 or more) time slots, the length of the frame pattern is M (M is a natural number greater than N / 2) time slots. In each time slot, an incremented value such as 1, 2,..., M is set.

The information inserting section 15 synchronizes with the frame pulse from the frame generating section 16 and the transmission reference clock from the clock generating section 12 to add additional data to be inserted into a time slot other than the frame pattern of the frame signal S2. Output to the frame transmission unit 13.

The frame transmitting section 13 multiplexes the frame pattern from the frame pattern inserting section 14 and the additional data from the information inserting section 5 and transmits the multiplexed frame signal S2 to the receiving apparatus 2 via the frame line L2.

The receiving device 2 has a data receiving section 21, a clock receiving section 22, a frame pattern detecting section 23, and an information receiving section 24.

The clock receiving section 22 receives the clock signal S1 from the transmitting apparatus 1 and distributes the clock signal S1 to the data receiving section 21, the frame pattern detecting section 23 and the information receiving section 24 as a reception reference clock.

The frame pattern detector 23 uses the reception reference clock from the clock receiver 22 as a reference timing to search the frame signal S2 for a phase that matches the frame pattern. When a phase that matches the frame pattern of the frame signal S2 is detected, a frame pulse indicating the head time slot of the frame is generated based on the detected phase and distributed to the information receiving unit 24 and the data receiving unit 21.

The data receiving section 21 receives the data line L based on the reception reference clock from the clock receiving section 22 and the timing of the frame pulse from the frame pattern detecting section 23.
1 receives the data signal S1.

The information receiving section 24 receives additional data from the frame line L2 in synchronization with the reception reference clock from the clock receiving section 22 and the frame pulse from the frame pattern detecting section 23.

Next, the operation of the transmitting apparatus 1 of the present embodiment will be described.

In the transmitting device 1, the clock signal S 1 is generated by the clock generator 12 and output to the receiving device 2. Also,
The clock signal S1 is used as a transmission reference clock as a data transmission unit 11, a frame transmission unit 13, and a frame pattern insertion unit 1.
4. It is also supplied to the information insertion unit 15 and the frame generation unit 16. A frame pulse synchronized with the transmission reference clock is created by the frame generator 16 to which the transmission reference clock is input. The frame pulse is distributed to the data transmission unit 11, the frame transmission unit 13, the frame pattern insertion unit 14, and the information insertion unit 15.

The frame pattern insertion unit 4 into which the transmission reference clock and the frame pulse are input generates a frame pattern synchronized with the frame pulse with reference to the transmission reference clock. Further, the information insertion unit 15 to which the transmission reference clock and the frame pulse are input outputs additional data synchronized with the frame pulse with reference to the transmission reference clock. The frame transmitting unit 13 to which the frame pattern and the additional data are input multiplexes the frame pattern and the additional data, and outputs the frame signal S2 to the receiving device 2.

The data transmitting section 11 outputs a data signal S3 having a frame structure synchronized with the frame pulse to the receiving apparatus 2 based on the transmission reference clock.

Here, since the frame length is N time slots and the frame pattern length is M time slots,
As shown in FIG. 2, the clock signal S1 and the frame signal S2
And the data signal S3 are output from the transmission device 1.

Next, the operation of the receiving device 2 of the present embodiment will be described.

The receiving apparatus 2 receives the clock signal S1 from the transmitting apparatus 1 by the clock receiving section 22, and uses the data receiving section 21 and the frame pattern detecting section 2 as a reception reference clock.
3 and the information receiving unit 24. Clock receiver 2
The frame pattern detection unit 23 to which the reception reference clock has been input from step 2 searches the frame signal S2 based on the reception reference clock, and detects a phase that matches the frame pattern. Then, a frame pulse indicating the head time slot of the frame is generated based on the detected phase and distributed to the information receiving unit 24 and the data receiving unit 21.

The data receiving unit 21 to which the reception reference clock is input from the clock reception unit 22 and the frame pulse is input from the frame pattern detection unit 23 recognizes the frame based on the reception reference clock and the timing of the frame pulse. , And extract data from the data signal S1.

The information receiving unit 24, to which the receiving reference clock is input from the clock receiving unit 22 and the frame pulse is input from the frame pattern detecting unit 23, recognizes the frame based on the timing of the frame pulse with reference to the receiving reference clock. Then, additional data is extracted from the frame signal S2.

Therefore, since data can be transmitted not only in the data signal S3 but also in the frame signal S2, a highly versatile data transmission method applicable to data transmission without using an error detection code can be provided. .

Further, since only additional data close to half the frame length can be transmitted, the transmission efficiency is greatly improved.

Further, the frame pattern is 1 /
Since it has a length of two or more, any pattern of additional data is not erroneously recognized as a frame pattern.

[0052]

According to the present invention, since additional data can be transmitted by a frame signal in addition to data of a data signal, highly versatile data which can be applied to data transmission without using an error detection code. A transmission method can be provided.

Further, since only additional data close to half the frame length can be transmitted, transmission efficiency is greatly improved.

Further, since the frame pattern has a length equal to or more than half the length of the frame, no additional data of any pattern is transmitted so that it is not mistaken as a frame pattern.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating a configuration of a data transmission system according to an embodiment of the present invention.

FIG. 2 is a timing chart showing an operation of the data transmission system of the embodiment.

FIG. 3 is a timing chart for explaining a conventional data transmission method.

[Explanation of symbols]

 Reference Signs List 1 transmitting device 11 data transmitting unit 12 clock generating unit 13 frame transmitting unit 14 frame pattern inserting unit 15 information inserting unit 16 frame generating unit 2 receiving device 21 data receiving unit 22 clock receiving unit 23 frame pattern detecting unit 24 information receiving unit L1 clock Line L2 Frame line L3 Data line

Claims (8)

[Claims] 1. A data transmission method for inserting data into a frame consisting of a plurality of time slots and transmitting the data from a transmitting device to a receiving device, wherein a frame signal for indicating a phase of the frame includes a predetermined number of frames. Periodically insert a frame pattern indicating the phase with a value given to the time slot, insert additional data into the time slot other than the frame pattern of the frame signal, and insert the data into the frame according to the phase. To generate a data signal, and transmit the frame signal and the data signal together with a reference clock signal from the transmitting device. At the receiving device, the timing indicated by the clock signal indicates the phase indicated by the frame pattern. Recognizing the frame of the data signal and extracting the data, A data transmission method for extracting the additional data from the time slot other than the frame pattern of a signal. 2. The frame is composed of three or more time slots, and the frame pattern composed of more than half of the number of time slots of the frame is inserted into the frame signal by the transmitting device. The data transmission method according to claim 1. 3. A data transmission system for transmitting data by inserting data into a frame including a plurality of time slots, wherein a frame pattern indicating a phase of the frame by a value assigned to a predetermined number of the time slots is periodic. And a frame signal in which additional data is inserted in the time slot other than the frame pattern and a data signal constituting the frame according to the phase are generated, and the frame signal and the data signal are used as a reference. A transmitting device that transmits the data signal together with a clock signal, and, at the timing of the clock signal, recognizes the frame of the data signal at the phase indicated by the frame pattern and extracts the data, and extracts the data other than the frame pattern of the frame signal. Reception for extracting the additional data from a time slot Data transmission system with a location. 4. The frame includes three or more time slots, and the transmitting device inserts the frame pattern including the time slots having more than half the number of the time slots of the frame into the frame signal. The data transmission system according to claim 3, wherein 5. A transmitting apparatus for inserting data into a frame composed of a plurality of time slots and transmitting the data, wherein a frame signal for indicating a phase of the frame is provided with a value assigned to a predetermined number of the time slots. A frame pattern insertion unit for periodically inserting a frame pattern indicating the phase; an information insertion unit for inserting additional data into the time slot other than the frame pattern of the frame signal; and the data in the frame according to the phase. A data transmission unit that generates a data signal by inserting the frame signal and transmits the data signal in synchronization with a reference clock signal; and a frame transmission unit that transmits the frame signal in synchronization with the clock signal. . 6. The frame includes three or more time slots, and the frame pattern insertion unit converts the frame pattern including more than half of the number of the time slots of the frame into the frame signal. The transmitting device according to claim 5, wherein the transmitting device is inserted. 7. A receiving apparatus for extracting data from a frame consisting of a plurality of time slots, comprising detecting a frame pattern inserted into a predetermined number of the time slots of the frame, and specifying a phase of the frame. A detecting unit; a data receiving unit that recognizes the frame with the phase and extracts the data from a data signal; and an information receiving unit that extracts additional data inserted into the time slot other than the frame pattern of the frame signal. Receiver. 8. The frame includes three or more time slots, and the frame pattern detection unit detects the frame pattern including more than half of the number of the time slots of the frame. Item 7. The receiving device according to Item 7.