JPH0225578B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Technical Field) The present invention relates to automatic power control of a communication device connected via a communication circuit, and in particular, the present invention relates to automatic power control of a communication device connected via a communication circuit, and particularly when the communication device is connected to a digital circuit switching network or a packet switching network (hereinafter referred to as a digital switching network). The present invention relates to a remote power control device that remotely controls power-on operation when connected to a remote control device.

(Background Art) There have been various remote power control devices that remotely control the power-on operation of communication devices connected via specific communication lines, public telephone networks, or private lines, but as systems become more diversified, In order to accommodate flexible system configurations, there is an increasing need for a remote power control device that remotely controls the power-on operation of a communication device when the communication device is connected via a digital switching network.

(Problem of the Invention) An object of the present invention is to provide a remote power control device for remotely controlling the power-on operation of a communication device connected to a digital circuit switching network or a packet switching network via a line termination device, which includes a control circuit; Depending on the switching circuit that switches between connecting the digital circuit switching network or the packet switching network to either the communication device or the control circuit, and the startup time from when the communication device is powered on until it becomes ready for communication, the digital circuit switching network or the packet switching network and an information setting section in which an interface specification for whether or not to temporarily disconnect the packet switching network is set, and the control circuit connects the digital line switching via the switching circuit in a call waiting state when communication is not possible. When a network or a packet switching network is connected to itself and an incoming call signal is received, based on the interface specifications set in the information setting section,
If the startup time is slow, an instruction to temporarily disconnect the digital circuit switching network or packet switching network is issued to the switching network, and an instruction to power on the communication device is issued. If the startup time is fast, the digital circuit switching network Alternatively, if the communication device is instructed to turn on the power without disconnecting the packet switching network and detects that the communication device is ready for communication, the switching circuit is controlled to switch the communication device to the digital circuit switching network or the packet switching network. The object of the present invention is to provide a remote power supply control device which is characterized in that it is connected to the communication device, and is capable of flexibly and economically supporting a system using a digital switching network. Explain.

(Structure and operation of the invention) FIG. 1 is an example of a system using a remote power control device that remotely controls the power-on operation of a communication device connected via a digital switching network.
2 is a communication partner device, 2 is a line termination device of a digital switching network, 3 is a digital switching network, 4 is a remote power control device according to the present invention, and 5 is a communication device that is automatically powered on by 4, which is a communication partner device. In this system, when communication device 1 and communication device 5 communicate via a digital switching network, remote power supply control device 4 automatically turns on the power of communication device 5 to perform communication.

FIG. 2 is a detailed block diagram of the remote power control device 4 of FIG. 1, and the numbers in the figure correspond to those in FIG. 4-1 in the figure is a switching circuit for connecting the interface signal _S1 with the line termination device to the main control circuit 4-2 in the remote power control device 4 or to the communication device 5; When connecting to the control circuit 4-2, it is switched to the signal line _S2 , and when connecting to the communication device 5, it is switched to the signal line _S7 . It is a control circuit, and controls the switching circuit 4-1 by signal line _S3 , incoming call control by signal line _S2 , and signal line
Reading of information setting unit 4-3 by S ₄ , signal line S ₅
Interface circuit 4-4 with communication device 5 according to
The information setting unit 4-3 is a circuit for controlling the interface of the communication device 5, the type of line switching, the type of packet switching, the type of additional service,
Holds ID numbers for the number of communication partner devices of communication partner device 1 (line switching) or calling terminal equipment (calling DTE) addresses for the number of communication partner devices (packet switching), and setting information such as fixed messages. The interface circuit 4-4 is a circuit that interfaces with the power supply and communication control unit of the communication device 5 via the signal line _S6 , and the signal line _S5 is Main control circuit 4-
2.

3 and 4 are examples of the operation sequence of the remote power supply control device 4 configured by the circuit shown in FIG. 2. is a case where the communication device 5 is connected to a digital packet switching network, and according to both interface regulations, the start-up time from when the power is turned on until the communication device 5 becomes ready for communication is slow and takes a considerable amount of time, and the network must be temporarily disconnected. It is something. The operation of the remote power supply control device shown in FIG. 2 will be described in detail below in accordance with the sequences shown in FIGS. 3 and 4.

(a) Explanation of FIG _. 3 (Embodiment when connected to digital circuit switching network) In FIG. -3 specifies the type of interface regulation of the communication device 5, type of line switching, packet switching, type of additional service, and ID of the communication partner device.
Alternatively, read the calling DTE address, fixed message, etc. If the system shown in Fig. 1 is connected via a digital circuit switching network, and there is only one communication partner device, the communication device 5 is turned on until it becomes communicable. The rise time is slow and takes a considerable amount of time,
Recognizing that the interface specifies that the network be temporarily disconnected, it initializes the operation control mode, connects the signal line _S2 to the signal line _S1 via the signal line _S3 , and enters a call waiting state. Next, when a calling signal is received as an incoming call signal at A in FIG. 3, an incoming call acceptance signal is sent out at B in FIG. 3, and the information setting section 4-3
If there is a notification of the other party in the additional service, it will wait for ID reception. Next, the third
When the ID is received in Figure C, it checks the ID of the communication partner device read out from the information setting section 4-3, and if it is not the ID of the communication partner device, it sends out a recovery request and enters the call waiting state again. If it is the ID of the communication partner device, the device enters a communication ready state.
Next, when receiving a communicable message from the digital circuit switching network in FIG.
In Figure 3E, a predetermined procedure (timeout due to message exchange or no response to received message) is executed with the communication partner device, and a disconnection instruction from the digital circuit switching network or a recovery request is sent from this device. Accordingly, the network is temporarily disconnected in FIG. 3F, and power to the communication device 5 is turned on from the interface circuit 4-4 via the signal line _S6 in FIG. 3G. Thereafter, when the main control circuit 4-2 detects via the interface circuit 4-4 that the communication device 5 is in a communicable state via the signal line _S6 , the signal line _S3 is detected as shown in FIG. Signal line
Connect S ₁ to S ₇ and connect the interface signal with the line to the communication device 5. The subsequent call control and message exchange are controlled by the communication device 5.
The operation continues until the end of the communication operation is detected from the interface signal line _S6 , and when the main control circuit 4-2 detects the end of the communication operation from the interface circuit 4-4, the signal I in FIG. The signal line S ₁ and the signal line S ₇ are cut off via the line S ₃ (and the power of the communication device 5 is cut off at the same time), and the communication device 5 enters the call waiting state again.

Further, if the information setting unit 4-3 does not notify the other party of the additional service, the process does not wait for ID reception and shifts to the communication ready sequence shown in FIG. 3E.

Also, although not shown in the sequence of FIG. 3, the startup time from turning on the power to the communication device 5 until it becomes communicable is fast, and the time it takes to become communicable is fast due to the setting information of the information setting section 4-3. If unnecessary communication charges are not a problem,
The network is not disconnected once, A or D is turned on in the sequence shown in FIG. 3, and then, when the communicable state of the communication device 5 is detected, the circuit switching network is connected to the communication device 5. In addition,
Selection of these sequence operations is made by the information setting section 4.
-3.

In addition, in FIG. 1, there is one communication partner device 1, but if there are multiple devices, the information setting section 4-3
It can be easily inferred that this is possible by having ID numbers for multiple machines, and checking for a match with any of the IDs for the multiple machines when receiving the ID shown in FIG. 3C.

(b) Explanation of FIG. 4 (Embodiment of digital packet switching network) In the same way as the explanation of FIG.
3 is read, and the system shown in Fig. 1 is connected by a digital packet switching network partner selection connection (VC connection), there is only one communication partner device, and the communication device 5 is connected from power-on to communication state. Recognizing that the startup time is slow and takes a considerable amount of time, and that the interface specification is to temporarily disconnect the network, we initialize the operation control mode and connect signal line _S2 to signal line S by signal line _S3 . ₁ , transitions to asynchronous negotiation mode (ABM mode), performs initial settings at the link level and packet level, and enters a state in which it waits to receive an incoming call packet, that is, a state in which it waits for an incoming call. Next, when an incoming call packet is received as an incoming call signal from the packet switching network in FIG. , an incoming call rejection packet is sent in Figure 4B, and if the result of comparison with the calling DTE address is a mismatch, the device returns to the incoming call packet reception waiting state (incoming call waiting state) and the comparison result is the same. If the communication device 5 is
The power supply is connected to the signal line from the interface circuit 4-4.
Inject via _S6 . Thereafter, when the main control circuit 4-2 detects via the interface circuit _4-4 that the communication device 5 is in a communicable state via the signal line S6, the signal line _S3 is connected via the signal line S6 in FIG. The signal line S ₁ is connected to S ₇ and the interface signal with the circuit is connected to the communication device 5. Subsequent link level control and packet level control are controlled by the communication device 5, and the operation continues until the end of the communication operation of the communication device 5 is detected from the interface signal line _S6 , and the end of the communication operation is detected by the interface circuit 4. -4, when the main control circuit 4-2 detects it, _{the signal line S1 and} the signal line _S7 are cut off via the signal line S3 in Fig. 4E (at the same time, the power of the communication device 5 is cut off).
Then, the signal line _S1 is connected to the signal line _S2 , the ABM mode is set, the link level and the packet level are initialized, and the state returns to the waiting state for receiving an incoming call packet (incoming call waiting state).

Although not shown in the sequence of FIG. 4, if the startup time of the communication device 5 from turning on the power to becoming ready for communication is fast due to the setting information of the information setting section 4-3, this may be the case in the case of a digital circuit switching network. Similarly, the net is not cut once,
After checking the calling DTE address at A in Figure 4,
Alternatively, after sending out an incoming call acceptance packet at B in FIG. 4, the power is turned on, and when the communication ready state of the communication device 5 is detected, the digital packet switching network is connected to the communication device 5.

Furthermore, although an example of a fixed connection to a digital packet switching network (PVC connection) is not particularly shown, when a packet switching network PVC connection is recognized based on the setting information of the information setting section 4-3, the power is turned on by receiving a reset packet. communication device 5
When it detects that the communication device 5 is ready for communication, it connects the network to the communication device 5.
I have a sequence to connect to.

Also, similar to the explanation in FIG. 3, in FIG. 1 there is one communication partner device 1, but if there are multiple devices, it is possible to have the calling DTE address of the information setting section 4-3 for multiple devices. It is easy to infer what will happen.

(Effects of the Invention) As described above, it is possible to realize a remote power control device that remotely controls the power-on operation of a communication device connected via a digital switching network, and depending on the type of communication device, the network By having an information setting section that specifies whether or not to temporarily disconnect, an economical power-on operation can be realized, and a flexible and economical system using a digital switching network can be constructed.

[Brief explanation of drawings]

Figure 1 is a diagram showing an example of a system using a remote power control device that remotely controls the power-on operation of a communication device connected via a digital circuit switching network or a packet switching network. The block diagrams of the remote power supply control device according to the invention, FIGS. 3 and 4, show an example of the operation sequence when the remote power supply control device of the present invention is connected to a digital circuit switching network, and an example of the operation sequence when the remote power supply control device according to the invention is connected to a digital packet switching network. It is a figure showing an example. 1 is the communication partner device,
2 is a line termination device, 3 is a digital circuit switching network or a packet switching network, 4 is a remote power supply control device according to the present invention, 5 is a communication device, 4-1 is a switching circuit,
4-2 is a main control circuit, 4-3 is an information setting section, 4-
4 is an interface circuit with the communication device 5;

Claims (1)

[Scope of Claims] 1. A remote power control device for remotely controlling the power-on operation of a communication device connected to a digital circuit switching network or a packet switching network via a circuit termination device, comprising: a control circuit; and a digital circuit switching network. Alternatively, a digital circuit switching network or a packet switching network can be connected to a digital circuit switching network or a packet switching network by using a switching circuit that switches the packet switching network to be connected to either the communication device or the control circuit, and the startup time from when the communication device is powered on until it becomes ready for communication. and an information setting unit in which an interface specification for whether or not to disconnect once is set, and the control circuit connects to the digital circuit switching network or packet switching via the switching circuit in a call waiting state when the communication is not possible. When it connects the network to itself and receives an incoming call signal, it issues an instruction to temporarily disconnect the digital circuit switching network or packet switching network if the start-up time is slow, based on the interface specifications set in the information setting section. transmitting the communication to the switching network and instructing the communication device to turn on the power, and if the start-up time is fast, instructing the communication device to turn on the power without disconnecting the digital circuit switching network or the packet switching network; 1. A remote power supply control device, characterized in that, when detecting that the device is in a communicable state, the switching circuit is controlled to connect the digital circuit switching network or the packet switching network to the communication device.