JPS6328149A - Communicadtion equipment for multiple terminals - Google Patents

Abstract

PURPOSE:To rapidly process a request from a terminal side by a host side, by searching a vacant channel, and informing the request to the host side, only when the request is inputted to the terminal side. CONSTITUTION:When a data desired to transmit to a signal processing unit 10 at the host side is generated in a terminal unit 21, the frequency band areas fr1-fr4 of four modulators M11-M14 arc investigated by using a frequency band checker K1, and a vacant frequency band area, in this case, the frequency band area fr1 of an air conditioner M11, is selected by a selection means Sl, and the data is transmitted to the signal processing unit 10 by using the frequency fr1. The host side, when receiving the data, responds the request by using a modem 11. By adding the address of the terminal equipment in a transmission data when the response is being performed, the terminal side can decide whether the data is the one addressed to its own terminal, resulting communication between the host side, and the terminal side. In this way, it is possible to perform the communication smoothly.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention provides a polling type communication device that specifies a specific terminal among a large number of terminals and instructs that terminal to start transmission. Regarding bidirectional CAT, especially when a large number of terminal devices are connected, the performance is determined by the response speed.
The present invention relates to a communication device for multiple terminals suitable for V-systems.

[Conventional technology]

Conventionally, in a communication device that employs a frequency division multiplexing method, as shown in FIG. 8, the signal processing unit 41 on the host side has one transmission channel Cht and one reception channel chr. unit 41
performs polling pl to, for example, the first terminal Tl via the modem 4z, waits for a response rt from the terminal TI, and then sends polling p2 to the next second terminal T2. He was looking like he was going to do something.

In other words, in the case of a communication method based on hauling thefting, as shown in FIG. 3, the signal processing unit 41 on the host side is the terminal device Tl.

T2 Polling p! to see if there is a request for each one of them. lp2. ..., and the terminal device responded and sent data only when polling came for itself.

[Problem that the invention seeks to solve]

In the conventional communication device described above, the terminal side cannot notify the request as long as the polling from the host side is completed. Therefore, when a large number of terminals are connected, the waiting time becomes considerable.

In order to eliminate the waiting time for boring, which was a conventional problem, the communication device of the present invention is designed to search for an empty channel and notify the host side of a request by providing a transmission channel selection function on the terminal side. be.

[Means for solving problems]

The communication device of the present invention is a communication device that connects a large number of terminal devices to a cable connected to a host side, and performs communication between these terminal devices and the host (Q). a plurality of modulators each having a different frequency band for transmission, a checking means for checking an unoccupied frequency band among the plurality of frequency bands, and a check means for selecting the modulator for the unoccupied transmission frequency band. b selection means.

Therefore, only when there is a request from the terminal side, the host side can be notified using an empty channel, so that the host side can quickly process the request from the terminal side.

〔Example〕

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram partially showing one embodiment of the present invention. The signal processing unit 10 on the host side processes each terminal device 21 . . . , performs signal processing, and sends the results to each terminal device 21 . ...is to be notified to the other party.

Terminal 21. . . . receives requests from each user and notifies the signal processing unit 10 of the contents via the coaxial cable 13.

The modem 11 demodulates the frequency division multiplexed reception signal from the coaxial cable 13, converts it into a digital signal for each of first to fourth reception channels chr 1 to chr 4, which will be described later, and the signal processing unit 10 converts it into a digital signal. The receiver is used to send the signal to the coaxial cable 1B to the signal processing unit 'j--.

In other words, in this embodiment, as shown in FIG. The receiving channel chr t −Chr
The reception frequency band corresponding to 4 is frl~fr4.
This is what I did.

To further explain FIG. 1, the modem 11 includes a no-brid branching device HO connected to the coaxial cable 1B, and a modulator M connected to the branching device HO.
The modulator Mof and the demodulator Dol-DO4 are
via transmission channels chtfl and first to fourth reception channels chr1 to chr4, respectively,
It is connected to the signal processing unit IO.

The terminal device 21 includes a hybrid branch H1 connected to the coaxial cable 13, four modulators Mtt to M14 and one demodulator D1 connected to the branch H1, and the modulators Mtt to Mx4t. and a terminal device T21 connected to a demodulator Dl, and a selection means such as a switch is arranged between the terminal device T21 and the four modulators Mls-M14, A checker K for checking the frequency band is connected to the branching device H1.
l is arranged. The checker Kl checks which frequency bands frl to fr4 are in use using a carrier signal or the like.

In this embodiment having the above-described configuration, when data to be transmitted to the signal processing unit 10 on the host side is generated in the terminal device 21, for example, 1 is used for the frequency band checker and the four modulators M11 to λIla are Frequency band frl~f
r4 and selects an available frequency band, in the case shown, the frequency band frl of the modulator M11, using the selection means Sl! , and using the frequency band frl, the signal processing unit 10
Send data to.

The host side is ready to receive the data at any time, and if it is able to receive the request, it responds to the request by modem 1 in Figure 1.
1 to pressure them to respond. When responding, add the terminal address to the sent data.
The terminal side can determine whether the data has come to it, and the host side and terminal side can communicate.

Therefore, as in the conventional example shown in Fig. 8, it is not necessary for the host side to poll the terminal side each time.
Communication becomes smoother and faster.

〔Effect of the invention〕

As explained above, the present invention searches for an empty channel only when there is a request from the terminal side and notifies the host side of the request, so processing such as polling and selection is required compared to the conventional polling method. Since it is unnecessary, the host side can quickly process requests from the terminal side.

[Brief explanation of drawings]

FIG. 1 is a schematic block diagram partially showing an embodiment of the present invention, FIG. 2 is an explanatory diagram of the same, and 1st O: signal processing unit. 11: Modem. 1B = coaxial cable. 21: Terminal. Kl two frequency band checker. SL: Selection means. MO, Mlt~M14: Modulator. Dl, Dot A-DO4: Demodulator. Ho, 81: Hybrid branching device. T21: Terminal device.

Claims (1)

[Claims] In a communication device in which a large number of terminal devices are connected to a cable connected to a host side and communication is performed between these terminal devices and the host side, each of the terminal devices transmits data. a plurality of modulators having frequency bands of different reliability; a checking means for checking an unoccupied frequency band among the plurality of frequency bands; and a selection means for selecting the modulator of the unoccupied transmission frequency band; A communication device for multiple terminals, characterized by comprising: