JPS6074830A - Digital transmission system - Google Patents

Abstract

PURPOSE:To attain transmission of multiplex signals through the simple processing and to reduce the added information quantity for each transmission frame, by adding signals every two bits to each transmission frame. CONSTITUTION:Transmission frames 7 have the same constitution within a sampling period, and a time slot 6 containing two bits is provided to each frame 7. Then the slot 6 is allocated to a signal bit 9 used for transmission of multiplex signals as well as to a marker bit 8 showing the validity/invalidity of a signal bit. Such a multiplex signal is converted into a series digital signal and then transmitted successively every bit by means of the signal bit.

Description

Detailed Description of the Invention [Technical field to which the invention pertains] The present invention relates to a transmission system having a frame structure, in which a signal having a sampling period longer than the frame period of a transmission frame is time-division multiplexed. The signal length of one sample of the signal is n
The present invention relates to a digital signal transmission system that satisfies n x m, where m is the number of bits and transmission frames transmitted within the sampling period of the signal.

[Description of prior art]

When transmitting digital signals as described above using a transmission method that has a frame structure, conventionally, a multi-frame that matches the sampling period of the multiplexed signal is configured, or a time slot is used to transmit the multiplexed signal in every transmission frame. was set up for transmission.

FIG. 1 shows a conventional transmission format for transmitting multiplexed signals in a multi-frame configuration.

In FIG. 1, the drawing code t1 is the frame period of the multi-frame, 1 is the frame synchronization signal of the multi-frame, and 2 is the frame period of the multi-frame.
is a multiplexed signal, and 3 is a transmission frame. This method requires a small amount of overall transmission information to transmit multiplexed signals, but because it has a multi-frame configuration, it is necessary to perform frame synchronization twice, making signal processing complicated. have

FIG. 2 shows another conventional method which is a transmission format in which a time slot 1 for multiplex signal transmission is provided in every frame to transmit multiplex signals.

The configuration of the transmission frames 5 in this case is all the same, and each transmission frame is provided with a time slot 4 for transmission of multiplexed signals. If the data length of one sample of the multiplexed signal is n pins, then the length of time slot 4 is also n pins. The signals transmitted in this time slot are all the same within the sampling period of the multiplexed signal. This method has a simple frame structure, so the signal processing method is simple, but it has the disadvantage that the amount of transmitted information increases because an n-bit multiplexed signal is added to every transmission frame.

[Purpose of the invention]

SUMMARY OF THE INVENTION The present invention solves the above-mentioned problems, and aims to provide a time-division transmission system for digital signals that allows easy signal processing and reduces the amount of transmitted information.

[Features of the invention]

The present invention provides a method for transmitting data in which the sampling period is longer than the frame period and the number of data bits per sample is smaller than the number of frames transmitted during the sampling period in a transmission method having a frame structure.
One frame consists of a frame synchronization signal, a transmission information signal, and a 2-bit time slot, and one bit of the 2-bit time slot is assigned a bit for sequentially transmitting the data after converting it into a serial digital signal. The other one bit of the time slot is characterized in that a signal indicating whether the signal of the bit for transmitting the serial digital signal is valid or invalid is assigned.

[Explanation based on examples]

First, FIG. 3 shows an embodiment of a transmission format when multiplexed signals are transmitted using the transmission method according to the present invention. The structure of the transmission frames 7 is all the same within the sampling period, and each transmission frame is provided with a time slot 6 consisting of 2 bits, and this time slot is used for transmitting multiplexed signals with a signal bit 9, and the signal bit is valid. Assigned to marker bit 8 indicating whether the data is invalid or not. These multiplexed signals are converted into serial digital signals and then transmitted bit by bit using the signal bits mentioned above.

Next, as an example to which the present invention is applied, a frequency information transmission method for matching clock frequencies of transmission and reception will be described.

In a communication device, there is a sample number transmission method as a method for matching the frequency fc of the clock CLKS on the transmitting side and the frequency fp of the clock CLK R on the receiving side. This counts the number of clock pulses of the transmission clock CLKS on the transmitting side for a certain period of time T(7), and transmits the value as frequency information. The receiving side also counts the number of clock pulses of the received clock CLKR for the same time T, and compares that value with the number of clock pulses of the clock CLKS transmitted from the transmitting side, so that the two values match. Control the frequency fR. In this method, if the clock counting time T is short, the frequency accuracy of the receiving side clock frequency rp with respect to the transmitting side clock period fc will be lowered, so the above T needs to be sufficiently long, that is, the sampling period must be made long. The transmission method according to the present invention can be applied to such frequency information.

FIG. 4 shows n-bit frequency information signals D1 to Dn with a period t.
2 shows the transmission format for transmission. In the figure, t3 is the frame period of the transmission frame, 10 is a 2-bit time slot provided in each transmission frame, and these 2 bits 1 are assigned to the marker bit 11 and the signal pin 12 for the frequency information transmission signal. Above signal bit 12
is valid only when the marker bit 11 is "0" and is invalid when the marker bit is "1". When frequency information is not transmitted, the marker bit is set to rlJ, and the data bit may be either "1" or "0". When frequency information is generated, the marker bit is set to rOJ, and the n-bit frequency information signal is serially transmitted one bit at a time starting from Dl using the signal bits. After transmitting n bits of data, the marker bit is set to "1" again. On the receiving side, the marker bit is constantly monitored, and when the marker bit becomes rOJ, the data bits from that frame to the frame where the marker pin 1- becomes "1" are successively read into the register and the frequency information is reproduced and received.

〔Effect of the invention〕

According to the present invention, when transmitting multiplexed signals that meet the above conditions, there is no need for a special frame configuration, and the multiplexed signals can be transmitted by a simple process of adding a 2-bit signal to each transmission frame. can do. In addition, since information that occurs intermittently at period T is distributed and transmitted using frames transmitted during time T, it has the effect of reducing the amount of additional information per transmission frame. .

[Brief explanation of drawings]

Figure 1 shows a conventional transmission formant with a multi-frame structure. Figure 2 shows another conventional transmission format with a multi-frame structure. FIG. 3 is a transmission formant according to an embodiment of the present invention having a multi-frame structure. FIG. 4 is a detailed diagram of the transmission format of the embodiment of the present invention. ■・・・Multi-frame frame synchronization signal, 2...
Multiplexed signal, 3.5.7... Transmission frame, 4... Time slot for multiplexed signal transmission, 6.10... 2-bit time slot, 8.11... Marker bit, 9.
12...Signal bit, tl...Multi-frame frame period, t2...Frequency information transmission period, t3...
...Frame period %D1 to Dn...m of transmission frame
s Number information signal. Patent applicant representative patent attorney Naotaka Ide

Claims (1)

[Claims] (1) The sampling period of a transmission signal having a frame structure is longer than the frame period, and the number of data bits per sample is at the center of the sampling period. In this method, one frame consists of a frame synchronization signal and transmission information U (words and two
One bit of the 2-bit time slot node is a signal bit for converting the data into a serial digital signal (signal bit for transmitting the signal in the order of the signal after converting it into a word).・Allocate as the slot number, the other 1 slot number of the time slot and the slot number of the slot number 11
The data of the computer that sends out digital signals is
A digital transmission method characterized by being assigned as a bit indicating J or invalid.