JPH0821994B2 - Signal multiplexing transmission system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of use] The present invention connects a plurality of digital telephones with electronic devices and controllers other than the digital telephones via a line, and uses this line to provide voice data and control data. In a system for transmitting data (for example, a home bus system using a digital multi-function telephone with a built-in controller), a signal multiplex transmission method capable of transmitting voice data and control data by a two-wire line without deviation in synchronization timing. It is about.

[Prior Art] A system in which a plurality of digital telephones and electronic devices other than the digital telephones (for example, facsimiles and personal computers) and a controller are connected via a line, and voice data and control data are transmitted using this line. In addition to the two-wire type line for voice data transmission between a plurality of digital telephones, a dedicated line for control data transmission for controlling electronic equipment other than the digital telephone with the digital telephone is provided. .

As shown in FIG. 7, the transmission format of voice data in one call is bit synchronization code (16 bits), frame synchronization code (15 bits), ID code (8 bits), control data (64 bits) and 167-bit control word (1) consisting of secret key data (64 bits) and this control word (1)
It consisted of the following audio data (2).

[Problems to be Solved by the Invention] However, in the conventional example, since a dedicated line for control data transmission must be provided in addition to the two-line type line for voice data transmission, the system configuration becomes complicated. There was a problem. Further, since the control word (1) is added only once before the voice data (2) for one voice data call, there is a problem that when the volume of the voice data (2) increases, the synchronization timing tends to shift. There was a point.

The present invention has been made in view of the above problems, and an object of the present invention is to provide a signal multiplex transmission system capable of transmitting voice data and control data by a two-wire line and less likely to cause synchronization timing deviation. Is.

[Means for Solving the Problems] In the signal multiplexing transmission method according to the present invention, a complicated digital telephone, electronic equipment other than the digital telephone, and a controller are coupled via a line, and voice data and control data are connected using the line. In a system for transmitting a voice, a voice frame obtained by dividing voice data of one call every m bits and an n-bit synchronization frame having a synchronization code and control data and inserted before each voice frame. It is time-division multiplexed and transmitted at bit rate v (bps).
It is characterized in that the m / n is set to 15 or more and the v is set to 2400 or more.

[Operation] Since the voice data of one call is divided into m-bit voice frames, and the n-bit sync frame having the sync code and the control data before each voice frame is time-division multiplexed and transmitted. The voice data and the control data can be transmitted by the two-wire line, and the reception of the voice data of one call can be synchronized for each voice frame. Also, since m / n is set to 15 or more and v is set to 2400 or more, the ratio of m / v and n / v can be set so that the reproduced sound of the audio data does not become unnatural, and the reproduced sound is It doesn't sound unnatural.

[Embodiment] FIG. 1 to FIG. 6 show an embodiment of the present invention, and FIG. 6 shows a system configuration.
(11) is a pair cable twisted with each other as a two-wire line. The pair cable (11) includes a controller (12), digital telephones (13) (14) (15) having an encryption circuit and a decryption circuit, an AV (audiovisual) device (16) and a facsimile (17). ), A personal computer (18), a word processor (19) and a security device (20), and a transmitting / receiving antenna (22) for transmitting / receiving with a cordless digital telephone (21). ing.

The main control of the controller (12) is to perform time division control so that the plurality of devices (13) to (20) can send and receive data on the common pair cable (11) without any trouble. .

The controller (12) is housed in one (eg, (13)) of the digital telephones (13), (14), and (15), and this (eg, (13)) is stored in the digital multifunction telephone. May be

In the system of FIG. 6, as in the case where the digital telephone (13) controlled by the controller (12) transmits to the telephone (14) and the digital telephone (13) controls the AV equipment (16) on or off. A bit rate v (eg v = 2400bp) for a signal containing audio data and control data.
The transmission format of the signal when transmitting in
It is configured as shown in the figure.

That is, an n-bit (for example, n = 48) synchronization frame (30), an m-bit (for example, m = 720) voice signal frame (40), and voice data in one call are duplicated by secret key data described later. The voice frames (51) (52) (53), which are obtained by dividing the encrypted data into m bits, and the voice frames (51) (52) (53), which are inserted before each of the voice frames (51) (52) (53). The synchronous frame (30) and the n-bit synchronous frames (61) (62) (63) ... Of the same structure are time-division multiplexed.

The synchronization frame (30) is, for example, when n = 48,
16-bit bit sync code (31), 15-bit frame sync code (32), 2-bit type identification code (33), 8
It consists of 48 bits consisting of a bit ID code (34), a 4-bit control identification code (35) and a 3-bit secret key code (36).

For example, when m = 720, the speech signal frame (40) includes a 16-bit bit synchronization code (41), a 15-bit frame synchronization code (42), and a 2-bit speech identification code (4).
3), the 105-bit speech signal block (40a) consisting of the 8-bit ID code (44) and the 64-bit secret key data (45) is repeated 5 times in succession, and then a 195-bit empty data block without data ( 40b) is added to make up a total of 720 bits.

The secret key data (4 in the speech signal frame (40)
5) consists of a 16-bit variable data part (45a) and a 48-bit fixed data part (45b) as shown in FIG. 2, and the variable data part (45a) is used for each voice data call. It is variably set, for example, based on the code table as shown in FIG. 3 stored in the memory in the digital telephone (13) on the transmitting side, the synchronization frame (30)
One of 8 types of 16-bit data corresponding to the 3-bit secret key code (36) is randomly changed for each call, and the fixed data portion (45b) is
For example, it is fixedly set until it is decrypted by a third party.

The secret key code (36) in the synchronization frames (61) (62) ... is the voice frames (51) (52) ...
The variable data portion (45a) of the secret key data (45) is replaced with any data of 8 kinds of 16-bit data based on the code table of FIG. It is for.

In the system of FIG. 6, AV equipment (16) is provided by the digital telephone (13) controlled by the controller (12).
As in the case where only the ON / OFF control is performed, when the signal including only the control data not including the audio signal is transmitted at the bit rate v, the transmission format of the signal is the fourth.
It is configured as shown in the figure. That is, an n-bit (for example, n = 48) synchronization frame (30a) (61a) (62)
.. and empty data frames (70), (71), (72), ... Without m-bit (for example, m = 720) data are alternately multiplexed in a time division manner.

 Next, the operation of the above embodiment will be described.

(1) First, the case of transmitting voice data and control data will be described.

(A) In the system shown in FIG. 6, audio data is transmitted from one of a plurality of digital telephones (13), (14) and (15) (for example, (13)) to another digital telephone (14) and the AV data is transmitted. Assuming that the control data for turning on or off is transmitted to the device (16), the signal transmission format at this time is as shown in FIG. That is, the voice data of one call is AD (analog-digital) converted in the digital telephone (13) on the transmitting side, and then the voice frame (5) for every m bits (for example, m = 720).
1) (52) ... and each voice frame (51) (52) ... is composed of the secret key data (45) in the speech signal frame (40) and the immediately preceding synchronization frame (61) (62). …
The variable data portion (45a) is doubly encrypted by the secret key data in which the variable data portion (45a) is replaced with corresponding data based on the secret key code (36). As a result, the confidential story strength is improved. Then, an n-bit (eg, n = 48) synchronization frame (61) inserted immediately before each of the audio frames (51) (52) ... Consisting of these encrypted audio data.
(62) ... And an m-bit speech signal frame (40) inserted between the first synchronization frame (61) and the earliest synchronization frame (30) of the synchronization frames (61) (62). ) Are multiplexed in a time division manner and transmitted at a bit rate v (for example, v = 2400 bps) via the pair cable (11).

(B) The receiver side digital telephone set (14) synchronizes with the bit synchronization code (41) and the frame synchronization code (42) in the speech signal frame (40) to obtain the speech identification code (43) and the ID code (44). ) Confirms that it is the voice data for itself, the encrypted received voice data is the secret voice key data (45) received and the secret data in which the variable data portion (45a) is replaced with the secret voice key code (36). Audio frames (51) (52) based on key data and ...
Each time it is decoded, D-A converted, and the voice is received.

Also, the audio data is an audio frame for every m bits (51).
It is divided into (52) ... and is divided by n-bit sync frames (61) (62) ...
m / v (eg m / v = 720/2400 = 300msec) and division period n / v
(For example, n / v = 48/2400 = 20 msec) is set to a ratio that does not result in an unnatural sound, so an unnatural sound is not reproduced.

Further, each of the audio frames (51) (52) ... Is a synchronization frame (61) (62) ... Inserted immediately before each of them.
.., and the frame synchronization codes (32), (32), ... Are synchronized with each other, so that even if the audio data becomes long, the synchronization timing is less likely to shift.

(C) The AV device (16) on the controlled side has a sync frame (30)
(61) (62) ... Bit synchronization codes (31) (31) ... are synchronized, and the ID code (34) confirms that the control data is for itself. As shown in FIG. The control word created based on the identification code (33) and the control identification code (35) performs predetermined control (for example, turning on or off the power).
That is, when the type identification code is "00", the control identification code "0001" is doubled to create the control word "00010", and when the type identification code is "01", the control identification code "0001" is generated. The control word “00011” is created by doubling and adding 1.

(2) Next, a case where only control data is transmitted without voice data will be described.

(B) If one of the digital telephones (13), (14) and (15) (for example, (13)) transmits control data for turning on or off to the AV device (16), The transmission format of the signal at this time is as shown in FIG.
That is, n (for example, n = 48) bits of synchronization frames (30a) (61a) (62a) ... And m bits of empty data frames (70) (71a) (72a) ... are alternately multiplexed in a time division manner. It is configured to transmit. That is, from the transmission format including the voice data shown in FIG.
0) is deleted, and the inside of each audio frame (51) (52) ... becomes empty data. At this time, the type identification code (33), I in the synchronization frame (30a) (61a) (62a) ...
D code (34) and control identification code (35) are A
Set corresponding to V device (16). In addition, the secret key code (36) in the synchronization frame (30a) (61a) (62a) ...
Since it is unnecessary, it may be empty data.

(B) When the AV device (16) confirms that it is the control data for itself by the ID code (34) in the same manner as (c) of (1) above, the type identification code (33) and the control identification code Predetermined control (for example, turning on or off the power) is performed by the control word created as shown in FIG. 5 by (35).

In the above embodiment, the digital telephones (13) (14) (1
The AV device (16) is controlled to control electronic devices other than 5), but the same applies to control of other electronic devices (for example, the security device (20)).

In the above embodiment, the bit rate v is 2400 bps, the bit number m of the audio frame is 720, and the bit number n of the synchronization frame is n.
However, the present invention is not limited to this, and the bit rate v is set to 2400 bps or more and m / n is set to 15 or more, and m / v
And n / v may be set so that the reproduced sound of the audio data does not become unnatural.

[Advantages of the Invention] As described above, the signal multiplexing transmission system according to the present invention
The voice data for one call is divided into m-bit voice frames, and an n-bit sync frame including a sync code and control data is time-division multiplexed before each voice frame and transmitted at a bit rate v. Therefore, the voice data and the control data can be transmitted by the two-wire line, and at the same time, the synchronization timing can be prevented from being shifted.

Moreover, since m / n is set to 15 or more and the bit rate v is set to 2400 bps or more, the ratio of m / v and n / v can be set to a ratio at which the reproduced sound of the audio data does not become unnatural. It is possible to prevent the sound from becoming unnatural (for example, sounding unnatural).

[Brief description of drawings]

1 to 6 show an embodiment of a signal multiplexing transmission system according to the present invention. FIG. 1 is a diagram for explaining a transmission format of a signal including voice data and control data, and FIG. FIG. 4 is a diagram for explaining the contents of the secret key data of FIG. 1, FIG. 3 is an explanatory diagram of a code table showing the correspondence between the secret key code and the variable data portion, and FIG. 4 contains only control data. FIG. 5 is a diagram for explaining a signal transmission format, FIG. 5 is a diagram for explaining creation of a control word, FIG. 6 is a block diagram showing a system configuration, and FIG.
The figure is a diagram for explaining a conventional signal transmission format. (11) ... Pair cable (2-wire type), (12) ... Controller, (13) (14) (15) (21) ... Digital telephone, (16) (17) (18) (19) (20) … Electronic devices other than digital telephones, (30) (30a) (61) (61a) (62)
(62a) (63) ... Synchronous frame, (36) ... Secret key code, (40) ... Speech signal frame, (45) ... Secret key data, (45a) ... Variable data part of secret key data (45), ( 45b) ... Fixed data part of the secret key data (45), m, n ... Bit number, v ... Bit rate.

Claims (2)

[Claims] 1. A system in which a plurality of digital telephones, electronic devices other than the digital telephones, and a controller are coupled via a line, and voice data and control data are transmitted using the line, voice data of one call is m bits. An audio frame divided for each time and an n-bit synchronous frame having a sync code and control data and inserted before each of the audio frames are time-division multiplexed and transmitted at a bit rate v (bps). The m / n is 15 or more, the v is
A signal multiplexing transmission method characterized by being set to 2400 or higher. 2. The bit rate v is 2400 bps, the bit number m of a voice frame is 720, and the bit number n of a sync frame is 4.
8. The signal multiplex transmission system according to claim 1, wherein each signal is set to eight.