JPS5871751A - Controlling system for transmission right - Google Patents

Abstract

PURPOSE:To improve the efficiency of transmission even for a local network which is capable of a high-speed transmission of data, by realizing the detection and transmission of a transmission right signal by means of hardware. CONSTITUTION:When a transmission right signal is circulated within a transmission line 100, a unit consisting of a detecting circuit 10 and a transmitting circuit 20 of the transmission right signal, a receiving path switch 40 of data, and a control circuit for these parts is put into the transmitting channel of each node 200. Then a prescribed transmission right signal train is detected out of the signal trains sent from other nodes 200. In this case, if a data transmission request or a transmission right holding request is given to the corresponding node, the switch 40 is turned off. At the same time, a data transmitting/receiving circuit 30 of the own node is started to transmit the data to other nodes. Then the circuit 20 is started if no transmission right holding request is given when the transmission of data to other nodes is over. Thus the transmission right signal is sent to other nodes, and at the same time the switch 40 is turned on.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a control system for circulating a transmission right signal in order to communicate between nodes in a local communication network or the like.

When communicating between nodes in a communication network, the question becomes which node should be given the right to transmit. A typical example of this transmission right control system is a control token (transmission right circulation) system.

In this method, in a local communication network consisting of a loop-shaped transmission path 100 and a plurality of nodes 200 connected to it as shown in FIG. 1, a transmission right called a control token is circulated through the transmission path 100, and This is a method in which communication is performed by limiting only one node among the nodes 200 that can send data.

By the way, in this transmission right circulation method, data sent within the network circulates around the network (transmission path) and comes back again, so it is necessary to remove unnecessary data, but the conventional method , a specific node periodically removes unnecessary data, which has the disadvantage of decreasing transmission efficiency. Further, in this transmission right circulation system, it is necessary to separate the transmission right signal and the data. If this identification is realized by software, in a local network with a high transfer rate, the time required for software processing cannot be ignored compared to the time required for data transmission, resulting in extremely low transmission efficiency. To solve this problem, when realizing identification using hardware, conventionally the frame structure has been changed, such as by changing the address part of the high-level data link control procedure (HDLC). Since LSI cannot be used, a complicated hardware configuration is required to implement this method.

The present invention has been made to solve the above-mentioned conventional drawbacks,
A transmission right control unit consisting of a transmission right signal detection circuit, a transmission circuit, a switch, and their control circuits is installed on the transmission path side of each node connected to the local network, and the frame configuration in the general communication control procedure can be changed. The detection and transmission of the transmission right signal is realized by hardware without any need for transmission, and unnecessary information is removed by turning on/off the switch on the receiving side accordingly, and the position of the transmission right signal is not fixed.
It can be inserted arbitrarily between sending and receiving frames,
Furthermore, it is an object of the present invention to provide a transmission right control system that allows nodes that do not require transmission rights to be logically separated from a local network.

Hereinafter, one embodiment of the present invention will be described in detail using the drawings marked with = (=
explain.

FIG. 2 shows an embodiment of the present invention, in which 1 is an input data terminal connected to a transmission line, 2 is an output data terminal also connected to a transmission line, 3 is a transmission right generation terminal, and 4 is data presence/absence. Detection terminal, 5 is a data generation terminal, 6 is a data cancellation terminal, 7 is a transmission right cancellation terminal, 8 is a transmission right reservation set terminal,
9 is a transmission right reservation set terminal. Also, 10 is a signal @
A counter that counts the number of consecutive 1'', the head is a transmission right signal sending circuit, I is a data transmitting/receiving circuit, 40 is a switch, 50
is a buffer for received data. The configuration shown in FIG. 2 is provided in each 7-board 200 in FIG. 1.

Now, the operation of FIG. 2 will be explained assuming that the transmission right signal is '011111110'.

(1) Data input from the input data terminal 1 is normally stored in the buffer 50 and then passed through the signal line 601, switch 40, signal line 602, 603.0 circuit 56, signal line 605, and OR circuit 70. The data is output from the output data terminal 2 and transmitted to the next node (2).

(2) At the same time, the counter 10 counts the number of consecutive '1's in the input data, and when the count value reaches '7', the signal line 600 becomes high level. Therefore, if the next input signal is "+", this means that a transmission right signal has been received.

At this time, either the flip-flop 59 is set by the terminal 8 and the signal line 511 is at a high level (transmission right reserved state), or the flip-flop 54 is set by the terminal 5 and the signal line 4 is at a high level. If there is (transmission request data present) (=, the output line 701 of the OR circuit 72 is at a high level, the AND condition of the AND circuit 71 is established, the sono output line 501 is at a high level, and the OR circuit 72 output line 701 is at a high level. The flip-flop 51 is set through the circuit and the signal line 502. On the other hand, when the transmission right is reserved or there is no transmission request data, the output line 501 of the AND circuit 71 remains at a low level, and the transmission right is not set. The signal is sent as is to other nodes.

(3) Set ζ of the flip-flop 51: Therefore, the output line 503 of the flip-flop 51 becomes high level (=, turning off the switch 40. At this time, if the node has transmission request data, ζ: Since the terminal 4 is at a high level, the output line 504 of the AND circuit 53 is at a high level (
Second, the data transmission and reception circuits are activated and data transmission begins. Data passes through the signal line 6Q4, the OR circuit 56, the signal line 605, and the OR circuit 70, and outputs data to the output data terminal 2.
is sent to the network. However, if there is no data transmission request to the node, the process moves to operation (6) described later.

(4) When the data transmission is completed, the end signal comes up from the data transmitting/receiving circuit Shu through the signal line 505, so the flip-flop 54 is reset through the OR circuit 55 and the signal line 506, and the terminal 4 goes low and becomes a bell. Become.

15) When terminal 4 becomes low level (no data to be sent), signal line 503 is still at high level, so AN
The AND condition of the D circuit 52 is satisfied, and the signal line 507 becomes high. At this time, if there is a request to reserve the transmission right (that is, if the transmission right reservation set terminal 8 is set and the signal line 511 is at a high level), the transmission right is reserved and data is continuously transmitted. If desired, set data generation terminal 5 (high level) to
becomes high level, the data transmitting/receiving circuit Shu is activated again through the AND circuit 53 and the signal line 504, and data transmission becomes possible. However, if there is no transmission right reservation request (that is, if the transmission right non-reservation set terminal 9 is set and the signal line 511 is at a low level), the transmission right is not reserved and the AND circuit 58 The output line 509 becomes high level, and the transmission right signal sending circuit is activated.

+6) When the transmission right signal sending circuit is activated, it sends the transmission right signal "'011111110" to the output data terminal 2 through the signal line 700 and the OR circuit 70, and when it is finished, the signal line 508 is set high. level.

(7) Signal? ts508 Kako Reherni Naruto, OF
The flip-flop 5 is connected through the L circuit 57 and the signal line 510.
1 is reset. As a result, the switch 40 is turned on again, and the data arriving from the input data terminal 1 is transferred to the buffer 50, the signal line 601, the switch 40, and the signal line 60.
2 and is received by the transmitting/receiving circuit I, and the signal line 6
03, the OR circuit group, the signal line 605, and the OR circuit 70, the signal is also sent from the output data terminal 2 to other nodes.

Note that the setting/resetting of terminals 3, 5, 6, 7, and 8.9 is controlled from the node side. For example, when the relevant node wants to send data, it checks the status of terminal 4 and sets it to a low level. If so, set terminal 5, and if you want to stop sending out data that has been set once, set terminal 6. Also, when you want to generate a transmission right in your own node, set terminal 3, and when you want to erase it, set terminal 7. Further, when it is desired that the own node holds the transmission right, terminal 8 is set, and when there is no need to hold the transmission right, terminal 9 is set.

As is clear from the above description, the present invention provides the following advantages.

(1) The corresponding node sets the sending data. Since data is automatically sent by simply using the LAN, data can be transferred with high transmission efficiency even on local networks that enable high-speed data transfer.

(2) Simply inserting a circuit that detects and sends a transmission right signal using hardware into the previous stage (on the transmission path side) of a conventional data transmitting/receiving circuit will not affect the application of general communication control procedures. Because there is no general communication control LSI
can be applied.

(3) Since the delay in one node is small, the overhead associated with transmission right transfer is small.

(4) When holding the transmission right, the switch is turned off, so
Abnormal data received from the transmission path is ignored, and unnecessary information on the transmission path can be removed.

(5) Continuous transmission of frames is possible by switching between reservation and non-reservation of transmission rights.

(6) Transmission rights can be given preferentially to specific nodes by setting generation/destruction of transmission rights and using the upper layer protocol.

[Brief explanation of drawings]

FIG. 1 is a diagram showing an example of a local network targeted by the present invention, and FIG. 2 is a diagram showing an embodiment of the present invention. 1...Input data terminal, 2...Output data terminal, 3
... Transmission right generation terminal, 4... Data presence/absence detection terminal,
5...Data generation terminal, 6...Data cancellation terminal,
7... Transmission right extinguishing terminal, 8... Transmission right reservation setting terminal, 9... Transmission right non-reservation setting terminal, 10... Counter, add... Transmission right signal sending circuit, nod... Data transmitting/receiving circuit, 40... switch, 50... receiving buffer, 100... transmission path, 200... node. Luck-6

Claims (1)

[Claims] 1. In a communication system in which a transmission right signal circulates within the network in order to communicate between nodes connected to a communication network, a transmission right signal detection circuit and a transmission right signal sending circuit are installed on the transmission path side of each node. , a unit consisting of a data reception path switch and their control circuit is inserted, and the detection circuit detects a predetermined transmission right signal string from the signal strings sent from other nodes, and then the node When there is a data transmission request or a transmission right reservation request, the switch is turned off; at the same time, the data transmission/reception circuit of the own node is activated to send data to other nodes, and the Transmission right control characterized in that when transmission is completed and there is no transmission right reservation request at that time, the transmission right signal sending circuit is activated to send out the transmission right signal to another node, and the switch is turned on. method.