JPH05161182A - Data transceiver - Google Patents

Abstract

(57) [Abstract] [Purpose] To provide a highly reliable data transmitter / receiver that enables quick and reliable data transmission regardless of an error in address setting to each terminal. [Structure] The central control unit 11 and a plurality of terminal devices 12a ... To which addresses are individually set are connected by a signal line 13, and the central control unit 11 transmits a data request command to each terminal device. In a data transmission / reception device that transmits its own data to the central control unit 11 with a time delay corresponding to its own address from the reception of the data request command, each terminal device waits until data transmission from another terminal device. When there is no data transmission for a certain period of time, the numerical data for determining the time delay until transmission is updated in the decreasing direction by a predetermined address, and when there is a collision of multiple data on the signal line, the above numerical data Is updated in the increasing direction by a predetermined address.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data transmitter / receiver of a time division multiplex transmission system.

[0002]

2. Description of the Related Art As a remote monitoring device for monitoring the status of a plurality of remote places, a data transmission / reception device of a time division multiplex system is used. An example is shown in FIG.

The central control unit 1 and a plurality of terminals 2a, 2b,
2n are connected via a signal line 3, and when a data request command is transmitted from the central control unit 1, it is received by the terminals 2a, 2b, ... 2n.

Upon receiving the data request command, the terminals 2a, 2b, ... 2n transmit their own data to the central control unit 1 with a time delay corresponding to their own address from the reception of the data request command.

Therefore, the data unique to each terminal is sequentially fetched into the central control unit 1, and the states of a plurality of locations can be monitored while the central control unit 1 is present. For example, the invention can be applied to a multi-type air conditioner that collectively air-conditions a plurality of rooms such as a building.

[0006]

In the above-mentioned data transmitting / receiving apparatus, an address is set in each terminal unit during installation work, etc., and each individual address becomes an element for determining the time delay until data transmission. However, since the address setting to each terminal depends on the manual operation of the worker, an error often occurs in the address setting. For example, if there is a vacant address due to the setting being forgotten, the data transmission is temporarily interrupted, and it takes a long time to complete the data transmission of all the terminals.

FIG. 5 shows an example of a data transmission / reception format when there is a vacant address, and forgetting to set the addresses "3", "4" and "7" causes a delay in data transmission. Also, if there is an overlapping address setting, data will be sent from multiple terminals simultaneously, and
It collides with the above and normal transmission cannot be performed.

The present invention takes the above circumstances into consideration,
It is an object of the present invention to provide a highly reliable data transmitter / receiver that enables quick and reliable data transmission regardless of an error in the address setting to each terminal.

[0009]

In the data transmitting / receiving apparatus of the present invention, a central control unit is connected to a plurality of terminal units each having an address set by a signal line, and the central control unit requests data from each terminal unit. In the data transmission / reception device that transmits a command and transmits its own data to the central control unit with a time delay corresponding to its own address from the reception of the data request command in each terminal device, the time provided in each terminal device Storage means for storing numerical data for determining the delay, first detecting means provided in each of the terminal devices for detecting the presence or absence of transmission data on the signal line, and data storage means provided in each of the terminal devices until data transmission A means for updating numerical data in the storage means in a decreasing direction by a predetermined address when the first detection means does not detect the presence of data for a certain period of time during standby; Second detecting means provided in each terminal device for detecting a plurality of data collisions on the signal line, and second detecting means provided in each terminal device when the second detecting means detects a data collision during data transmission. And means for updating the numerical data in each storage means in the increasing direction by a predetermined address.

[0010]

In the data transmission / reception apparatus of the present invention, each terminal unit is a numerical value for determining the time delay until transmission when data transmission from another terminal unit does not exist for a certain time while waiting for data transmission. The data is updated in the decreasing direction by a predetermined address, and when a plurality of data collide with each other on the signal line, the numerical data is updated in the increasing direction by the predetermined address.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings.

As shown in FIG. 1, the central control unit 11 and a plurality of terminals 12a, 12b, ... 12n are connected via a signal line 13. Then, the terminals 12a, 12b, ... 12
The counters 14a, 14b, ... 14n are connected to n. The central control unit 11 has a function of transmitting a data request command to each terminal device in accordance with a monitoring mode setting operation by an administrator. The counters 14a, 14b, ... 14n are for storing addresses individually set for each terminal as numerical data. The terminal 12a is equipped with a microcomputer and a communication circuit for transmission / reception,
The following functional means are provided.

(1) A means for transmitting data including its own address to the central control unit 11 with a time delay corresponding to the numerical data in the counter 14a when receiving a data request command from the central control unit 11. (2) First detection of presence / absence of transmission data on the signal line 13
Detection means.

(3) The above-mentioned first condition during waiting for data transmission.
A means for updating numerical data in the counter 14a in a decreasing direction by a predetermined address (one address) when the detecting means does not detect the presence of data for a certain period of time. (4) Second detection means for detecting collision of a plurality of data on the signal line 13. (5) A means for updating the numerical data in the counter 14a in the increasing direction by a predetermined address when the second detecting means detects a data collision during data transmission. The remaining terminals 12b, ... 12n have the same configuration. Next, the operation will be described with reference to FIGS. When a data request command is issued from the central control unit 11, it is sent via the signal line 13 to the terminals 12a, 12b, ... 12n.
Sent to.

When each terminal receives the data request command, each terminal sends data including its own address to the attached counter (1
4a, 14b, ... 14n) are transmitted to the central control unit 11 with a time delay corresponding to the numerical data in 4a, 14b ,.

Specifically, the presence / absence of transmission data on the signal line 13 (transmission data of another terminal device) is monitored, and each time there is transmission data, the numerical data in the attached counter is incremented by "1". Subtract. Then, the data transmission is waited until the numerical data in the counter becomes "0", and the data is transmitted only when the numerical data becomes "0". Therefore, following the data request command, a plurality of data are sequentially transmitted to the central control unit 11.

Also, each terminal monitors whether or not data transmission from other terminals exists within a fixed time while waiting for data transmission, and when transmission data does not exist for a fixed time, it is attached. The numerical data in the counter of is updated by "1" in the decreasing direction.

Therefore, as shown in FIG. 2, even if there are empty addresses "3", "4", and "7" at the beginning and there is a dead time for data transmission, each time the data request command is repeated. Data transmission is shifted forward by one address, and eventually, continuous data transmission without an empty address is performed. That is, the time required for data transmission can be shortened to the minimum time corresponding to the number of terminals.

Further, each terminal monitors the collision of a plurality of data on the signal line 13, and when there is a data collision at the time of transmitting its own data, the numerical data in the attached counter is divided by a predetermined address. Only update in the increasing direction. As for the number of increasing addresses, a random number is selected for each terminal.

Therefore, as shown in FIG. 3, even if there is a data collision at the transmission timing of the address "1", the collision data is shifted backward by a predetermined address each time the data request command is repeated. ,
By adding the above-mentioned left-justified shift to it, continuous data transmission without collision and without an empty address will be performed in due course. That is, even if there is an error in the address setting to each terminal, data can be transmitted quickly and reliably regardless of the error. Therefore, the reliability can be improved.

[0021]

As described above, according to the present invention, each terminal has a time delay until transmission when data transmission from another terminal does not exist for a certain time while waiting for data transmission. Since the numerical data for determining is updated in the decreasing direction by the predetermined address, and when there is a collision of a plurality of data on the signal line, the numerical data is updated in the increasing direction by the predetermined address. It is possible to provide a highly reliable data transmitter / receiver that enables quick and reliable data transmission regardless of an error in the address setting to the terminal.

[Brief description of drawings]

FIG. 1 is a diagram showing the configuration of an embodiment of the present invention.

FIG. 2 is a diagram showing a format of data transmission / reception when a free address exists in the embodiment.

FIG. 3 is a diagram showing a data transmission / reception format when collision transmission data is present in the embodiment.

FIG. 4 is a diagram showing a configuration of a conventional device.

FIG. 5 is a diagram showing an example of a data transmission / reception format when a conventional device has a vacant address.

[Explanation of symbols]

11 ... Central control unit, 12a, 12b, ... 12n ... Terminal device, 13 ... Signal line, 14a, 14b, ... 14n ... Counter (storage means).

Claims (1)

[Claims] 1. A central control unit is connected to a plurality of terminals each having an address set by a signal line, and the central control unit transmits a data request command to each terminal unit, and each terminal unit has its own data. In a data transmission / reception device that transmits to the central control unit with a time delay corresponding to its own address from the reception of the data request command, a memory storing numerical data for determining the time delay provided in each of the terminal units. Means, first detecting means provided in each of the terminal devices for detecting the presence or absence of transmission data on the signal line, and each of the first detecting means provided in each of the terminal devices while waiting for data transmission. Means for updating numerical data in each of the storage means in a decreasing direction by a predetermined address when not detected for a certain period of time, and a plurality of data on the signal line provided in each of the terminals. Second detection means for detecting a collision of
And a means for updating the numerical data in the storage means in an increasing direction by a predetermined address when the second detection means detects a data collision at the time of data transmission provided in each of the terminals. Data transmission / reception device.