JPH02239746A - Lan control circuit - Google Patents

Abstract

PURPOSE:To reduce traffic and to maintain the performance of the network by providing a means detecting a special signal outputted from a DTE and stopping the signal transmission to a host layer into a network expansion unit (HUB), thereby disconnecting DTEs in the unit of groups tentatively from the network. CONSTITUTION:A special signal detection circuit 1 detects a special signal at all times in parallel with the detection of collision by a collision detection circuit 2 in the inside of the HUB and when the special signal detection circuit 1 detects the special signal, the transmission line is connected to a reception line while being folded at a line ON/OFF circuit 4. Thus, a DTE connecting to the IN jack of the HUB is disconnected from the host network from an OUT jack. Thus, a LAN having many traffics in the network is disconnected between the high and low layers of the HUB belonging to the LAN to reduce the influence onto other traffic.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to a LAN control circuit, and in particular, it is possible to temporarily disconnect DTEs in a certain group from the network as necessary, even if the network grows to a certain extent. The present invention relates to a LAN control circuit that makes it possible to reduce traffic volume and maintain network performance.

[Conventional technology]

Conventionally, in a CSMA/CD type LAN, network expansion was performed using HUB1, HUB1, and HUB1, as shown in Figure 3.
Network expansion units such as No. 2 were used to connect data terminals (DTEs) through media cables. In addition to this, some devices include a configuration in which data terminals (DTEs) are connected by daisy chain connection.

Regarding this, for example, see the Institute of Electronics, Information and Communication Engineers, ``
"Electronic Information and Communication Handbook '88" (published by Ohmsha, 19
You can refer to the description in 1988).

[Problem to be solved by the invention]

Since the CSMA/CD type LAN is a bus type as shown in Figure 3, data cannot be sent from two or more DTEs at the same time. The data transmission is by sending the data after confirming that there is no data signal on the network. If another data transmission starts almost simultaneously during transmission, data signal collision will occur.
It is well known that retransmission is necessary.

In a LAN configured as described above, as the network becomes larger and the number of connected DTEs increases, the amount of network traffic also increases and data packet collisions occur. Therefore, there is a problem in that the transfer speed between the DTEs decreases and the performance of the network deteriorates.

The present invention has been made in view of the above-mentioned circumstances, and its purpose is to solve the above-mentioned problems in the conventional technology, and even if the network becomes large to a certain extent, DTE of a certain group can be controlled as needed. An object of the present invention is to provide a LAN control circuit that can be temporarily disconnected from a network to reduce traffic volume and maintain network performance.

[Means to solve the problem]

The above object of the present invention is to provide a network expansion unit (H
In a LAN device that connects data terminals (DTEs) via a media cable via a hub, a means for detecting a special signal output from the DTE in the HUB, and a case where the detection means detects the special signal. This is achieved by a LAN control circuit characterized in that it is provided with means for stopping signal transmission to the upper layer.

[Effect]

In the LAN control circuit according to the present invention, the DTEs connected to the network include those that occasionally transmit and receive small amounts of data and those that continuously transmit and receive large amounts of data at once, depending on the usage pattern. In view of this, by separating the pTE, which continuously transmits and receives a large amount of data at once, from the rest of the network, the influence on other network parts is reduced.

〔Example〕

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The principle of the present invention will be briefly explained below, and then embodiments will be explained in detail based on the drawings.

First, the principle of the present invention is that when large data is continuously transmitted and received between DTE4-1 and DTE4-3 in the LAN device shown in FIG. Because it flows to D
Even when there is communication between TE5-1 and DTE3-1, the D
By separating TE4-1, DTE4-2, and DTE4-3 (portions within the broken line frame) from the rest of the network, the influence on other network parts is reduced.

Examples will be specifically described below. In this embodiment, a LAN network composed of multi-layered HUBs as shown in FIG. 3 is applied.

FIG. 1 is a block diagram of a control circuit provided in a HUB showing one embodiment of the present invention. In the figure, 1 indicates a special signal detection circuit for detecting special signals from each DTE to be described later, 2 indicates a known collision detection circuit, 3 indicates a retiming circuit, and 4 indicates a line ON/OFF circuit. .

Transmission data from each DTE is input through the IN jack (on the left side of the diagram) inside the HUB, and is amplified and retimed inside the HUB. If the upper layer is connected, the signal is output to the upper layer through the OUT jack (on the right side of the figure) in the HUB.

Inside the HUB, in parallel with collision detection by the collision detection circuit 2, special signal detection by the special signal detection circuit 1 is always performed.

In the normal state, that is, when no special signal is output from any DTE, the transmission line passes through the line ON/OFF circuit 4 and is connected to the transmission line as is, as shown in Figure 2 (Ca). To the OUT jack mentioned above,
Also, the reception line from the OUT jack can be connected directly to H.
Connected to the reception line inside UB. On the other hand, when a special signal is detected by the special signal detection circuit 1, the transmission line is turned back by the line ○N/○FF circuit 4 and connected to the reception line as shown in FIG. 2(b). be done. As a result, the DTE connected to the IN jack of the HUB is separated from the upper layer network from the OUT jack. Further, by looping back the transmission line to the reception line, the transmission data is looped back at the HUB and flows to the DTE connected to the IN jack of the HUB and the lower layer HUB.

The above-mentioned special signals sent from each DTE may be of any type as long as they can be detected by the HUB, but specific examples include the following.

(1) Special data is placed in the packet and detected by the HUB.

(2) A packet having a frame length longer than a predetermined length is sent out and detected by the HUB.

(3) Sending out a signal pattern other than the predetermined code,
This is detected by the HUB.

According to the above embodiment, by isolating a portion of the LAN network with a lot of traffic between the upper and lower layers of the HUB to which it belongs, the impact on other traffic is reduced and the responsiveness of the network is improved. , the disconnected portion also has the effect of making full use of the network's performance to enable high-speed data transfer.

The above embodiment is shown as an example, and the present invention should not be limited thereto. For example, the present invention
The present invention is applicable not only to the LAN having the configuration shown in FIG. 3 but also to a LAN network having other data terminals connected to the LAN in a daisy chain connection manner.

〔Effect of the invention〕

As described above in detail, according to the present invention, data terminals (D
In a LAN device that connects the DT. Since a means for detecting the special signal outputted by E and a means for stopping the signal transmission to the upper layer when the detecting means detects the special signal,
Even if the network grows to a certain extent, if necessary,
This has the remarkable effect of realizing a LAN control circuit that can reduce traffic volume and maintain network performance by temporarily disconnecting a group of DTEs from the network.

[Brief explanation of drawings]

Fig. 1 is a block diagram of a control circuit provided in a HUB showing an embodiment of the present invention, Fig. 2 is a diagram for explaining the operation of the embodiment, and Fig. 3 shows a general configuration of a LAN. It is a diagram. 1: Special signal detection circuit, 2: Collision detection circuit, 3: Retiming circuit, 4: Line ON/OFF circuit, HUB:
Network expansion unit, DTE: Data terminal.

Claims (1)

[Claims] (1) LA that connects data terminals (DTE) with a media cable via a network expansion unit (HUB)
N device, characterized in that the HUB includes means for detecting a special signal outputted by the DTE, and means for stopping signal transmission to an upper layer when the detecting means detects the special signal. LAN control circuit.