JPH04278750A - Remote control method for lan terminal module and lan terminal power source - Google Patents

Abstract

PURPOSE:To turn on or off a terminal power source by executing remote control from another terminal in LAN network. CONSTITUTION:The LAN controller 3 of the terminal loards a command from P-ROM 6 storing a command table and becomes a initialization mode by executing the command and loading the proper network ID. Next, a packet having the proper network ID is transmitted from another terminal so that the LAN controller 6 receives the packet and detects the coincidence of the proper network ID. After that, the main power source is turned on with detection as a trigger. Thus, the main power source of the terminal is turned on/off by remote control from another terminal in the network.

Description

[Detailed description of the invention]

0001

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a LAN terminal module and a method for remotely controlling a LAN terminal power supply, which can be turned on and off by remote control from a terminal on a network.

0002

2. Description of the Related Art In a star type LAN, the maximum configuration is a HUB connected under a header HUB, and a terminal further connected under the HUB via a repeater. One HUB is
Up to 50 terminals, and header HUB up to 50 HUs
B, respectively. Theoretically, 2
This means that 500 terminals can be accommodated in one network. The protocol specifications for star type LAN are OSI 1,
It specifies two layers. The first layer is the physical access control layer (PA).
It is called C) and the second layer is divided into two. The lower layer is called the medium access control layer (MAC), and the upper layer is called the logical link control layer (LLC). The PAC has the function of emitting a high-level signal to sense carriers and detect collisions. IEEE802 is promoting standardization of LAN,
In IEEE802.3, Ethernet is CSM
It was decided to become the standard for A/CD bus type LAN. In addition,
Regarding LAN, for example, "Nikkei Electronics"
1985, No. 4-22, pp. 185-269, 198
6, No. 4-21, pp. 185-211, 1989, 5
-15, pp. 131-183, etc.

0003

[Problem to be solved by the invention] Conventionally, IEEE802
．． In environment No. 3, there was no way to remotely turn on and off power to terminals on the network. In particular, it is extremely difficult to turn on the power. This includes the initial settings of the receiver, the circuit for determining received packets, or the controller.
This is due to the complexity of the system. An object of the present invention is to solve such conventional problems and provide a LAN terminal module and a method for remotely controlling the power supply of a LAN terminal, which can be turned on and off by remote control from a terminal on a network. There is a particular thing.

0004

[Means for Solving the Problems] In order to achieve the above object, the LAN terminal module of the present invention includes (a) a P-ROM storing a command table, a P-ROM and a LA
A bus switching circuit for switching and connecting buses between N controllers, an initial control circuit for triggering initialization of the LAN controller, and a trigger.
It has a LAN controller that reads commands from a command table, executes the commands, and loads a unique network ID.
The feature is that the AN controller is initialized. Moreover, the LAN terminal power supply remote control method of the present invention includes (b)
LA initialized and loaded with unique network ID
By sending a packet with a unique network ID from another terminal on the network to the terminal equipped with the N controller, the LAN controller receives the packet and assigns the network ID. The main power source is turned on by detecting a match between the two and generating a reception trigger signal.

[0005]

[Operation] In the present invention, first, in order to put the terminal module into an idle state, the LAN controller activates the P-R.
Reads the OM command table and loads operating parameters and unique addresses. This puts the terminal in an idle state, so by sending broadcast packets with the terminal's unique address from other terminals on the network, the LAN controller detects a match between the unique addresses. and notifies the power controller of this fact. The power supply controller turns on the main power supply on the condition that the main power supply is in the idle state and the main power supply off state. As a result, the terminal is powered on and equipped with transmitting and receiving functions, making it possible to communicate with other terminals. In the present invention, a LAN controller loads commands from a P-ROM that stores a command table,
By executing this, the LAN controller can be put into the initialization mode in terms of hardware. Also,
By sending a unique address packet from another terminal to a LAN controller in initialization mode, the main power of the terminal can be turned on by remote control from the network.

[0006]

Embodiments Hereinafter, embodiments of the present invention will be explained in detail with reference to the drawings. FIG. 2 is a system configuration diagram of a LAN to which the present invention is applied. As shown in FIG. 1, HUB10, 11,
The network was expanded with 12 line concentrators, allowing them to communicate with each other. Under HUB10, 11, and 12 are terminals DTE■,■, DTE■,■,■, and DTE, respectively.
TE ■, ■, ■ are connected. In network communication, first, a terminal desiring communication outputs the network name of the communication partner using a broadcast packet, and waits for a response. For example, when terminal ■ sends out a broadcast packet with the other party's terminal name ■ attached, it is connected to terminal ■ from HUB 11 via HUB 10 and HUB 12,
A virtual line is set up between these two terminals, and subsequent communication is then started. In this case, for network communication, it is necessary that the power of the other party's terminal is turned on and that the receiving section of the network is initialized so that communication can be performed. In the present invention, the receiving section of a terminal on the network is initialized by hardware by supplying power, and the initialized LAN controller is then transmitted from another terminal on the network to the initialized LAN controller. The main power supply ON signal is generated using the reception of the unique address packet as a trigger. This allows the power to be turned on by remote control from a terminal on the network.

FIG. 1 is a block diagram of a LAN controller section showing one embodiment of the present invention. Here, as an example, a case of IEEE802.3 10BASET using an INTEL 82586 LAN controller will be described. In Figure 1, 1 is an analog line interface, 2 is a Manchester encoder/decoder,
3 is a LAN controller, 4 is a bus switching section, 5 is a shared RAM, 6 is a P-ROM, 7 is an initial control section, and 8 is a power supply control section. Share
The hard RAM 5 is connected to the host interface,
The initial control unit 7 receives a status MSTAT indicating on/off of the main power supply. Further, a status MSTAT indicating on/off of the main power supply is input to the power supply control section 8, and M-ON for turning on the main power supply is outputted from the power supply control section 8. Initial control section 7 to P-ROM6
A P-ROM address and a data bus enable signal EN are outputted to the initial control section 7, and a signal ENM indicating an idle state or a non-idle state is outputted from the initial control section 7 to the power supply control section 8. . Further, a shared RAM enable signal REN is outputted from the initial control section 7 to the shared RAM 5. Furthermore, channel attention CA is output from the initial control section 7 to the LAN controller 3. Further, an event trigger signal INT is input from the LAN controller 3 to the power supply control section 8. The LAN controller 3 in FIG. 2 is usually a power supply controller.
When the main power of the module 8 is turned on and the module is operating as a terminal on the network, it functions as a transmitting/receiving module. On the other hand, in idle mode, that is, when the main power is off and the device is waiting for a power-on trigger from another terminal on the network, it functions as a receiver and this module only is energized.

[0008] In order for this module to function as a receiving section when entering the idle state, the LAN controller 3 must be initialized and loaded with the unique address of the terminal. In order to initialize the LAN controller 3, a command table converted into a P-ROM is installed, and the data address bus for the LAN controller 3 is transferred to the P-ROM 6 side by the bus switching unit 4. Switch to . Initialization of the LAN controller 3 is controlled by an initial control section 7. That is, the initial control section 7 confirms that the main power supply is off by MSTAT, outputs EN, and turns P
- By enabling the ROM 6, the bus switching section 4 switches the bus to the P-ROM 6 side. Thereafter, the initial control unit 7 outputs the CA signal to the LAN controller 3, thereby controlling the LAN controller.
Let La 3 execute the command. The LAN controller 3 reads the command table in the P-ROM 6, sets operating parameters and loads a unique address, and then enters an idle state. In this way, the LAN controller 3 can be initialized in terms of hardware by supplying power. After this, the LAN controller 3 functions as a receiving section.

After completing the initialization of the LAN controller 3, the initial control section 7 notifies the power supply control section 8 of the idle state using the ENM signal. When the LAN controller 3 is initialized, it is set to a mode that disables broadcast packets, so when it is in an idle state and receives a packet that matches the unique address, the LAN controller 3 disables broadcast packets. 3 is the power supply control unit 8 for receiving the event trigger signal (INT).
tell to. The power supply control unit 8 outputs a main power on signal of M-ON to turn on the main power under the conditions of an idle state and a condition that the main power is off at MSTAT. When the main power is turned on,
The initial control section 7 learns the main power on state by MSTAT, enables the shared RAM 5 and bus switching section 4 by the REN signal, and switches the bus between it and the LAN controller 3 to the shared RAM 5 side. Switch to . Thereby, the LAN controller 3 comes to function as a transmitting/receiving section. That is, under control from the host side, the LAN controller 3 fetches the transmission data from the main memory and stores it in the L through the shared RAM 5.
After storing it in the buffer in the AN controller 3, it is encoded by the encoder 2 and sent to the analog line interface 1.
The packet data is sent to the transmission line Tx. Further, packet data received from the reception line Rx is decoded by a decoder 2 via a line interface 1, and then passed to the host side by a LAN controller 3.

[0010] In this way, by sending a packet with a unique address to an idle terminal from another terminal on the network, the LAN controller of that terminal can be activated and the main power supply can be remotely turned off. It can be turned on by operation. This allows the idle terminal's LA
The N controller changes from a receive-only function to a transmit and receive module, allowing it to communicate with each other.

FIG. 3 is an operational flowchart of the LAN controller of the controlled terminal. First, in a terminal whose main power is turned off (step 101), the P-ROM is enabled.
At the same time, the bus is switched to connect the LAN controller and P-ROM (step 102). The LAN controller sets operating parameters and loads a unique address by reading the P-ROM command table (step 1).
03). This results in an idle state (step 1
04), upon receiving a packet matching the unique address loaded from another terminal on the network (step 105), the LAN controller sends an event trigger signal (INT) to the power controller ( Step 106)
. As a result, the power is turned on (step 107),
The bus is switched so that the LAN controller and shared RAM are coupled (step 108). As a result, the LAN controller of the terminal in the idle state:
Operates as a transmitting and receiving module.

0012

[Effects of the Invention] As explained above, according to the present invention,
(b) The LAN controller of the terminal in the idle state loads a command from the P-ROM that stores the command table, and by executing this command, the hardware is turned on by energizing it.
The LAN controller can be put into initialization mode using hardware. (b) By sending a unique address packet from another terminal on the network to the initialized LAN controller, this can be used as a trigger to control the network by remote control from the network. The main power of the terminal can be turned on.

[0013]

[Brief explanation of the drawing]

FIG. 1 is a connection diagram of a LAN controller in a terminal showing an embodiment of the present invention.

FIG. 2 is a configuration diagram of a LAN system to which the present invention is applied.

[Figure 3] Operation flowchart of the LAN controller in Figure 1
It is.

[Explanation of symbols]

1 Analog line interface 2 Manchester encoder/decoder 3 LAN controller 4 Bus switching section 5 Shared RAM 6 P-ROM 7 Initial control section 8 Power supply control section 10, 11 ,12 HUB

Claims (2)

[Claims] [Claim 1] P-RO storing a command table
M, a bus switching circuit for switching and connecting a bus between the P-ROM and the LAN controller, and the LAN controller.
An initial control circuit that triggers the initialization of the controller, and a LAN controller that reads a command from the command table and executes the command when triggered, and also loads a unique network ID. 1. A LAN terminal module having a controller, and initializing the LAN controller using electricity supply as a trigger. [Claim 2] Initialized and unique network ID
By sending a packet having the above-mentioned unique network ID from another terminal on the network to the terminal equipped with the LAN controller loaded with received and the network
The LA is characterized in that the main power is turned on by detecting a match between the client ID and generating a reception trigger signal.
N terminal power supply remote control method.