JP2016220041A - Image communication device, control method therefor and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain the insulation of a high voltage signal inside an SLIC, which is difficult because the SLIC is generally composed of a semiconductor device.SOLUTION: An image communicate device includes: a telephone unit which supports a PBX line; a telephone control circuit which controls the telephone unit; and a generation circuit which generates a ringing signal for the telephone unit; and a switchover circuit which switches a connection in a manner to connect between the telephone unit and the telephone control circuit, or between the telephone unit and the generation circuit. At the supply of the ringing signal to the telephone unit to ring, the switchover circuit connects between the telephone unit and the generation circuit, so that the ringing signal generated in the generation circuit is supplied to the telephone unit.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an image communication apparatus, a control method therefor, and a program.

  In recent years, IP (Internet Protocol) telephone voice communication and ITU-T recommendation T.30. Next generation network (NGN) that performs image communication by IP-FAX communication according to 38 is widely used. The NGN is an IP network that has a bandwidth guarantee function and a security function in the network itself, and integrates a telephone service, a video communication service, a data communication service, and the like. In addition, a virtual session is established with these LAN or NGN communication devices, and SIP (Session Initiation Protocol) that provides a service while this session is established is widely used. . Various forms of services are provided such that a communication device that establishes a session by SIP performs a call or image communication using a protocol such as IP or VOIP (Voice Over IP), and performs these simultaneously.

  For these image communication apparatuses, various forms are provided, and there are image communication apparatuses that can connect a telephone corresponding to an IP telephone or a PBX (private branch exchange) as an external telephone. In order to control a telephone compatible with PBX, an SLIC for performing telephone control is required. This SLIC has a function for D / A conversion and A / D conversion of a call voice signal, a function for generating a ringing signal for ringing a telephone call ringer, and a function for detecting an off-hook of a telephone. As described above, the SLIC (telephone control unit) for controlling the telephone is used between the telephone corresponding to the PBX and the IP network.

  In general, a ringing signal for ringing a telephone ringing ring is a high voltage signal such as an AC signal of hundreds of volts, so that it is boosted by DC / DC separately from a normal power source necessary for operating the SLIC. The ringing signal is generated by supplying the selected voltage. Thus, since the call signal is a high voltage signal, an image communication apparatus equipped with this call signal generation function is required to have a design that takes insulation into consideration from the high voltage signal from the viewpoint of electric shock protection.

  Patent Document 1 discloses a facsimile apparatus and a control method therefor that reduce the influence of impedance and suppress the enlargement of the apparatus even when a plurality of telephones are connected. In this facsimile apparatus, a plurality of telephones are connected to a PBX (public line network) to perform a call, and the connection between each of the plurality of telephones and a pseudo CI circuit that outputs a pseudo CI signal is exclusively switched. The pseudo-CI signal is sequentially output to the telephone. With this configuration, the design is designed in consideration of insulation from the paging signal which is a high voltage signal.

JP 2009-290486 A

  Among image communication apparatuses equipped with an IPFAX function, there is an image communication apparatus in which a telephone connected to a PBX (public line network) can be connected as an external telephone. In order to connect such a PBX telephone, a telephone control device is required. For this reason, an SLIC (telephone control unit) having functions such as voice data conversion and call signal generation is used. When a telephone is ringed by this SLIC, since the calling signal is a high voltage signal, a design considering insulation from the calling signal is required from the viewpoint of electric shock protection. However, SLICs are generally composed of semiconductor elements, and it has been difficult to insulate high voltage signals inside the SLIC. Further, in order to insulate the high-voltage signal from the control signal connected to the SLIC, it is necessary to add an insulating component such as a transformer to each control signal line. If such a circuit is configured, it becomes complicated and expensive. .

  An object of the present invention is to solve the above-described problems of the prior art.

  A feature of the present invention is to provide a technique for insulating a telephone control means for performing telephone control of a telephone from a calling signal which is a high voltage signal.

In order to achieve the above object, an image communication apparatus according to an aspect of the present invention has the following arrangement. That is,
A phone that supports the PBX line;
Telephone control means for controlling the telephone;
Generating means for generating a calling signal for the telephone;
First switching means for switching connection so as to connect the telephone and the telephone control means or the telephone and the generation means;
Control is performed so that when the ringing signal is supplied to the telephone and the ringing is performed, the telephone is connected to the generation unit by the first switching unit, and the ringing signal generated by the generation unit is supplied to the telephone. And a control means.

  According to the present invention, telephone control means for performing telephone control of a telephone can be insulated from a calling signal which is a high voltage signal.

  Other features and advantages of the present invention will become apparent from the following description with reference to the accompanying drawings. In the accompanying drawings, the same or similar components are denoted by the same reference numerals.

The accompanying drawings are included in the specification, constitute a part thereof, show an embodiment of the present invention, and are used together with the description to explain the principle of the present invention.
1 is a block diagram illustrating a configuration of an image communication apparatus according to a first embodiment of the present invention. FIG. 2 is a block diagram illustrating a configuration of a controller of the image communication apparatus according to the first embodiment. 5 is a flowchart for explaining FAX / TEL switching processing in the image communication apparatus according to the first embodiment. 5 is a flowchart for explaining telephone control in the image communication apparatus according to the first embodiment. The block diagram explaining the structure of the image communication apparatus which concerns on Embodiment 2 of this invention.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following embodiments do not limit the present invention according to the claims, and all combinations of features described in the embodiments are not necessarily essential to the solution means of the present invention. .

  In the present embodiment, call control of a telephone control unit in an image communication apparatus equipped with an IPFAX function will be described. In particular, the present invention relates to a technique for reliably isolating ASIC and SLIC from a paging signal which is a high voltage signal in a device using ASIC and SLIC for telephone control. In this embodiment, a switching circuit for connecting a telephone and either SLIC or pseudo CI signal generation is provided, and when a call signal is supplied to the telephone, pseudo CI generation for generating a call signal that is a high voltage signal And SLIC are separated. For example, when the switching circuit includes a relay, insulation between the high voltage signal and the SLIC is ensured by a physical gap when the switching circuit is disconnected by the relay.

[Embodiment 1]
FIG. 1 is a block diagram illustrating the configuration of the image communication apparatus 101 according to the first embodiment of the present invention.

  The controller 2 is a control unit that performs overall control of the image communication apparatus 101. The main functions include control of data transmission / reception, image reading, image printing, and the like. The line 110 is connected to an intranet, a network such as the Internet, or an NGN network. The SLIC (telephone control unit) 8 serves as an interface between the telephone and the line 110 in order to connect a telephone (telephone corresponding to PBX) usable by connecting to the PBX line to the IP line. The main functions of the SLIC 8 include a CODEC function that performs DC application, off-hook detection, A / D and D / A conversion of transmission / reception signals through the telephone 16, and also has an SPI interface and a PCM interface with the controller 2. I have. Since the SLIC 8 generates a voltage for direct current of the telephone set 16 and further has other functions for controlling the telephone set, it consumes a large amount of power. Both the controller 2 and the bridge circuit 5 have a UART, and the data line 3 is used for serial communication of data with the SLIC 8 via the bridge circuit 5 and the data line 6. Similarly, the data line 4 is serially used for serial communication with the modem 9 through the data line 7. The bridge circuit 5 functions as an adjustment circuit that generates transmission / reception timing of serial data between the UART of the controller 2 and the SLIC 8 or the modem 9. The modem 9 is a G3 modem for FAX, and is used for VOIP_G3 communication.

  The switching circuit 10 switches the connection according to the switching signal 19 from the controller 2. When the switching circuit 10 supplies the telephone 16 with a calling signal generated by the pseudo CI generation unit 12, the switching circuit 10 connects the telephone 16 and the pseudo CI generation unit 12. When ringing the telephone set 16, the switching circuit 10 connects the pseudo CI generation unit 12 and the telephone set 16 and supplies a calling signal to the telephone set 16. While the calling signal is supplied to the telephone set 16 in this way, the SLIC 8 is physically separated from the pseudo CI generation unit 12 by the switching circuit 10, and thus is isolated from the calling signal of the high voltage signal. For example, when the switching circuit 10 is configured by a relay, insulation is ensured by a physical gap when the switching circuit 10 is disconnected by the relay. The off-hook detection unit 11 detects an off-hook of the telephone set 16 while being connected to the telephone set 16 via the switching circuit 10.

  The pseudo-CI generation unit 12 is supplied with power from the night-time power supply 13, generates a transmission signal while the power is supplied, and further boosts the transmission signal while being insulated from the supply voltage by a transformer. Thus, a ringing signal that is a high-voltage AC signal is generated. Accordingly, the transformer ensures insulation between the calling signal and the power source from the night-time power source 13. Here, in the calling signal, a DC voltage is superimposed on the AC signal, but this DC voltage is also insulated from the power supply from the night-time power supply 13 by the pseudo CI generation unit 12.

  FIG. 2 is a block diagram illustrating the configuration of the controller 2 of the image communication apparatus 101 according to the first embodiment.

  The CPU 201 controls each device connected to the CPU 201 according to a program stored in the ROM 202 and controls the entire image communication apparatus 101. The CPU 201 also performs TCP / IP protocol processing, and the assembly of image data into a TCP / IP frame is performed under the control of the CPU 201. Further, the CPU 201 decodes the encoded image data when receiving the image data. The RAM 203 is used as a work memory at the time of program execution and also for buffering image data to be transmitted / received. A scanner control unit 205 controls the scanner 204 and outputs image data obtained by the scanner 204 reading a document to the bus 218. The compression processing unit 206 compresses the image data received from the scanner control unit 205 and stores it in the HDD 217 or decodes and decompresses the compressed image data stored in the HDD 217.

  The UART 207 is a circuit that performs parallel / serial conversion of data, and is connected to the bridge circuit 5. In the first embodiment, the CODEC 210 supports a VoIP encoding / decoding scheme for a voice signal or a facsimile signal transmitted / received as deemed speech. Furthermore, CODEC 210 is a T.W. It supports at least the encoding / decoding system necessary for transmitting and receiving 38 Internet facsimile signals. The operation unit includes a key operation unit 211 and a display unit 212. The operation unit includes a numeric keypad mainly used for dial numbers, a start / stop key, operation buttons for facsimile transmission / reception, and a display unit 212 having a touch panel function, and receives an operation instruction from a user. The printer control unit 214 controls a printer engine 215 of a recording system such as an electrophotographic system or an ink jet system, converts received image data or image data input from another interface into printing raster data, and prints it. The HDD 217 is a hard disk drive, and is used to store various data such as received image data, transmitted image data, and print data. A network I / F control unit (LANC) 216 is a LAN controller, and transmits and receives data through the line 110. A CPU 201, ROM 202, RAM 203, scanner control unit 205, compression processing unit 206, UART 207, key operation unit 211, display unit 212, and the like are connected to the bus 218, and control signals and data signals from the CPU 201 are transmitted.

  Next, the ringing of the telephone 16 will be described with an example of a FAX / TEL switching operation that is one of the operations of the image communication apparatus 101.

  FIG. 3 is a flowchart for explaining FAX / TEL switching processing in the image communication apparatus 101 according to the first embodiment. A program for executing this process is stored in the ROM 202, and the process shown in this flowchart is achieved by the CPU 201 reading and executing the program.

  This process is based on the assumption that the incoming signal of the image communication apparatus 101 is automatically determined by detecting the presence or absence of a CNG (Calling) signal, whether it is a voice signal for a call or a facsimile signal received as a deemed voice. It is said.

  First, in step S301, the CPU 201 detects whether there is an incoming signal. If there is an incoming signal, that is, if a SIP session establishment request (INVITE) is received from the originating device, the process proceeds to step S302. In step S302, the CPU 201 establishes a SIP session with the caller apparatus using the SIP function and starts a connection operation. For establishing the SIP session, the originating device transmits a SIP session establishment request (INVITE) to the image communication device 101, and the image communication device 101 returns a success response to the received INVITE to the originating device. When receiving the success response, the transmission side apparatus is executed in a procedure such as transmitting an ACK to the image communication apparatus 101. The media to be used in the SIP session is determined by exchanging (SDP negotiation) the SDP describing the media that the originating device and the terminating device want to use each other and the port number for receiving the media. . SDP is an abbreviation for Session Description Protocol. In this way, an SIP session is established between the image communication apparatus 101 and the transmission-side apparatus, which realizes data communication using audio media information that both agree. It is also possible to establish a session with a media type other than the audio described above. As a result, an SIP session may be established between the image communication apparatus 101 and the transmission-side apparatus to realize data communication using the media information of an image that both agree.

  After S302, the process proceeds to S303, and the CPU 201 determines whether the SIP session established in S302 is a session based on audio media information. If it is determined that the session is based on audio media information, the process proceeds to S305. If not, for example, if a SIP session is established with the image media type, the process proceeds to S304. Facsimile reception is performed by 38 digital facsimile procedures. At this time, the T.C. The 38 facsimile signal is subjected to necessary decoding processing and decompression processing under the control of the CPU 201, and then printed, and this processing ends.

  If it is determined in S303 that the media type is audio, the process proceeds to S305, where a voice call is possible, or the T.D. VoIP facsimile communication according to 30 facsimile procedures is possible. Here, the CPU 201 establishes a call connection using the received signal as an audio signal, and starts automatic reception. This is an automatic reception operation for automatically determining whether a received signal is a voice signal for a call or a facsimile signal received as a deemed voice by detecting the presence or absence of a CNG (Calling) signal. In step S306, the CPU 201 executes CNG signal detection processing. In step S307, the CPU 201 determines whether the received signal is a voice signal for a call or a facsimile signal received as a deemed voice by detecting the presence or absence of the CNG signal. . When the CPU 201 determines in step S307 that the CNG signal has been detected, the process proceeds to step S308. In S308, the CPU 210 performs T.P. The modem processing for facsimile reception by the 30 facsimile procedure is performed. The process advances to step S309, and the CPU 201 determines that the T.I. Facsimile reception by the facsimile procedure 30 is performed, and this processing is terminated.

  On the other hand, if the CPU 201 determines in step S307 that a CNG signal is not detected in the received signal, the process proceeds to step S310, and the switching circuit 10 is switched to connect the telephone set 16 and the pseudo CI generation unit 12 and supply the calling signal to the telephone set 16. Then, the telephone 16 is sounded. When the off-hook detection unit 11 detects the off-hook of the telephone set 16, the process advances to step S <b> 311, and the CPU 201 controls the switching of the switching circuit 10 to connect the SLIC 8 and the telephone set 16. In this way, a voice call is performed by the telephone set 16 by telephone control by the SLIC 8, and this process is terminated.

  Here, the switching circuit 10 is also a circuit that switches whether the off-hook detection of the telephone 16 is performed by the SLIC 8 or the off-hook detection unit 11.

  The emergency night power supply 14 is a power supply circuit that supplies power only during normal operation, and its power output is turned off in the sleep mode. On the other hand, the night-time power supply 13 is a power supply circuit that constantly supplies power, and supplies power to predetermined locations even in the sleep mode. The DC-DC converter 15 generates a high DC voltage that is supplied to the line of the telephone 16 generated by the SLIC 8.

  The operation in the energy saving mode (sleep mode) is as follows. In the sleep mode, the power supplied from the emergency night power supply 14 to the SLIC 8 is turned off. At this time, the switching circuit 10 switches the connection of the telephone 16 to the off-hook detection unit 11. Further, the off-hook detection unit 11 is supplied with the DC voltage generated by the pseudo CI generation unit 12 by the power supplied from the night-time power supply 13 to the pseudo CI generation unit 12. This DC voltage is supplied to the line of the telephone 16 through the switching circuit 10.

  In this way, since the power supply to the SLIC 8 is interrupted during the sleep mode, the power consumption of the telephone control system in the sleep mode can be reduced. However, the telephone function in the sleep mode is only the detection of the off-hook in the telephone set 16 by the off-hook detection unit 11. When the off-hook is detected, the SLIC 8 is activated and the telephone circuit 16 and the SLIC 8 are connected by the switching circuit 10 to activate the telephone function. . The emergency night power supply 14 supplies power to a place where power is not supplied in the sleep mode during normal operation. The places where power is not supplied in the sleep mode include, for example, the printer control unit 205, the printer 214, the scanner control unit 205, the scanner 204, the SLIC 8, and the like.

  On the other hand, the night-time power supply 13 supplies power to a portion that operates in the sleep mode. These locations include, for example, peripheral circuits with the CPU 201, ROM 202, RAM 203, LANC 216, a part of the operation unit, the display unit 212, the switching circuit 10, the off-hook detection unit 11, the pseudo CI generation unit 12, and the like.

  FIG. 4 is a flowchart illustrating telephone control in the image communication apparatus 101 according to the first embodiment. A program for executing this process is stored in the ROM 202, and the process shown in this flowchart is achieved by the CPU 201 reading and executing the program.

  Here, the telephone control unit includes an SLIC (telephone control) 8, a switching circuit 10, an off-hook detection unit 11, a pseudo CI generation unit 12, a night-time power source 13 that is a power supply system, an emergency night power source 14, and the like. The normal mode is not a sleep mode but a state in which power is supplied to all circuits, and here, the sleep mode is a state in which power is supplied from the night power source 13 and from the emergency night power source 14. This is a state in which the power supply is stopped.

  First, in step S <b> 401, the CPU 201 determines whether the CPU 201 has been off-hooked by the telephone 16. This off-hook detection is performed by the off-hook detection unit 11 in the sleep mode and by the SLIC 8 in the normal mode. If off-hook is detected, the process advances to step S402, and the CPU 201 determines whether the power consumption mode of the image communication apparatus 101 is the sleep mode. This determination is made based on whether or not the flag indicating the sleep mode is set in the RAM 203. If it is not the sleep mode, that is, if it is in the normal mode, the process proceeds to S405, and telephone control for dialing and talking is performed through the SLIC 8.

  On the other hand, if it is determined in S402 that the CPU 201 is in the sleep mode, the process proceeds to S403, where the CPU 201 turns off the aforementioned flag and turns on the emergency night power supply 14 in order to turn off the sleep mode. In step S <b> 404, the CPU 201 switches the switching circuit 10 to connect the telephone set 16 and the SLIC 8 by the switching signal 19. In step S405, the SLIC 8 operates to execute telephone control that enables dialing and talking. Next, proceeding to S406, the CPU 201 monitors the operation status of the telephone 16, and when the SLIC 8 detects the on-hook of the telephone 16, it determines that the call is finished and proceeds to S401.

  On the other hand, if the CPU 201 determines in step S401 that it is not off-hook, the process advances to step S407 to determine whether there is reception from the line 110. If there is reception, the process advances to step S408, and the CPU 201 determines whether or not the telephone 16 is receiving. If the call is not received by the telephone 16, the process proceeds to S423 to execute data reception processing. Note that this data reception process is not a feature of the present embodiment, and therefore will not be described in detail and will be described briefly. For example, when data such as print data is received and the sleep mode is set, the sleep mode is canceled and the normal mode is restored. The received print data is analyzed and output to the printer engine 214 for printing. Alternatively, if the original is requested to be read, the scanner 204 reads the original and executes processing such as transmitting image data obtained by the reading to the request source. When the data reception process in S423 is thus completed, the process proceeds to S401.

  If it is determined in step S408 that the telephone set 16 is received, the process advances to step S409, and the CPU 201 determines whether the power consumption mode of the image communication apparatus 101 is the sleep mode, as in step S402. If the sleep mode is determined here, the process proceeds to S410, and similarly to S403, the sleep mode is turned off, the emergency power supply 14 is turned on, and the process proceeds to S412. On the other hand, if it is determined in S409 that the mode is not the sleep mode, the process advances to S411, and the CPU 201 controls the switching circuit 10 by the switching signal 19 to connect the telephone set 16 and the pseudo CI generation unit 12. In this way, the process proceeds to S <b> 412, and the pseudo CI generation unit 12 supplies the generated calling signal to the telephone set 16 to cause the telephone set 16 to ring. Thereby, the SLIC 8 can be separated from the high voltage for ringing the telephone set 16.

  In step S413, the off-hook detection unit 11 determines whether the off-hook of the telephone 16 has been detected. When the off-hook is detected, the process advances to step S414, and the CPU 201 switches the switching circuit 10 using the switching signal 19 to connect the telephone 16 and the SLIC 8. To do. Thus, the SLIC 8 operates and performs telephone control, so that a telephone call between the telephone set 16 and the calling-side apparatus becomes possible. In step S415, the CPU 201 executes telephone control as in step S405. The process advances to step S416, and the CPU 201 monitors the operation status of the telephone set 16. When the SLIC 8 detects that the telephone 16 is on-hook, the CPU 201 determines that the call has ended and advances to step S401.

  If the off-hook of the telephone set 16 is not detected in S413, the process proceeds to S417, where it is determined whether a certain time has elapsed, and if the certain time has not elapsed, the process proceeds to S413, and if the certain time has elapsed, the process proceeds to S418. In S418, the CPU 201 stops the output of the calling signal from the pseudo CI generation unit 12 because no one answers the phone even when the telephone 16 is ringed. Then, the switching circuit 10 is switched to the SLIC 8 side by the switching signal 19, the telephone 16 and the SLIC 8 are connected, the reception operation is stopped, and the process proceeds to S401.

  When no data is received in S407, the process proceeds to S419, and the CPU 201 determines whether the power consumption mode of the image communication apparatus 101 is the sleep mode, as in S402. If it is determined that the sleep mode is selected, the process proceeds to S401. If it is determined that the sleep mode is not selected, the process proceeds to S420. In step S420, the CPU 201 determines whether the condition for the image communication apparatus 101 to shift to the sleep mode is satisfied. This condition indicates a case where there is no operation such as reception of data or copying by the user for a predetermined time. If it is determined in S420 that the condition for shifting to the sleep mode is satisfied, the process proceeds to S421, and the CPU 201 controls the switching circuit 10 by the switching signal 19 and switches the telephone 16 and the pseudo CI generating unit 12 to be connected. Further, the flag of the sleep mode of the RAM 203 is set to ON. Next, proceeding to S422, the CPU 201 turns off the power output of the emergency night power supply 14 that supplies power to the SLIC 8, and proceeds to S401. When the sleep mode is set in this way, the connection between the telephone set 16 and the SLIC 8 is cut off, and the power supply output of the emergency night power supply 14 is turned off so that no power is supplied to the SLIC 8, so that power consumption can be reduced.

  As described above, according to the first embodiment, when there is an incoming call and the telephone is ringed, the ringing signal of the telephone is generated not from the SLIC but from the pseudo CI generation unit, so that the SLIC is increased when the telephone is ringed. It can be isolated from the voltage signal.

  In the first embodiment, the power supply to the SLIC is cut off in the sleep mode, and the telephone is used while the power consumption is reduced by detecting the off-hook of the telephone by the off-hook detection circuit that consumes less power. Phone control can be performed.

[Embodiment 2]
FIG. 5 is a block diagram illustrating the configuration of the image communication apparatus 101 according to the second embodiment of the present invention. Portions common to the configuration of FIG. 1 according to the first embodiment are denoted by the same symbols, and description thereof is omitted.

The image communication apparatus 101 has an emergency night power supply 17 and a switching circuit 18 added to the image communication apparatus according to the first embodiment. The point in which the switching circuit 18 switches to supply power to the pseudo-CI generation unit 12 from either the night-time power source 13 or the emergency night-time power source 17 is different from the configuration of the first embodiment. Specifically, in the normal mode, power is supplied from the emergency night power supply 17 to the pseudo CI generation unit 12, and in the sleep mode, the power is supplied from the nighttime power supply 13 to the pseudo CI generation unit 12. The circuit 18 switches the power supply source. The switching in the switching circuit 18 is controlled by a switching signal 20 from the controller 2.
The night-time power supply 13 is a power supply with high power supply efficiency because it supplies power only to a portion that needs to be energized in the sleep mode. With such a configuration, it is possible to further reduce power consumption when the image communication apparatus 101 is in the sleep mode.

  On the other hand, the emergency night power supply 17 supplies power for generating a calling signal to the pseudo CI generation unit 12 via the switching circuit 18 and needs to supply a large amount of power. High power supply is adopted.

  Note that the control processing of the image communication apparatus 101 according to the second embodiment is the same as that described with reference to FIGS. 3 and 4 of the first embodiment, and thus the description thereof is omitted.

  Therefore, even in the second embodiment, as in the first embodiment, when a telephone is ringed when there is an incoming call, the telephone is ringed by flowing a telephone ringing signal not from the SLIC but from the pseudo CI generation unit. In some cases, the SLIC can be isolated from the high voltage signal.

(Other embodiments)
The present invention supplies a program that realizes one or more functions of the above-described embodiments to a system or apparatus via a network or a storage medium, and one or more processors in a computer of the system or apparatus read and execute the program This process can be realized. It can also be realized by a circuit (for example, ASIC) that realizes one or more functions.

  The present invention is not limited to the above-described embodiment, and various changes and modifications can be made without departing from the spirit and scope of the present invention. Therefore, in order to make the scope of the present invention public, the following claims are attached.

  DESCRIPTION OF SYMBOLS 2 ... Controller, 5 ... Bridge circuit, 8 ... SLIC (telephone control part), 10 ... Switching circuit, 11 ... Off-hook detection part, 12 ... Pseudo CI production | generation part, 13 ... Night power supply, 16 ... Telephone

Claims (8)

A phone that supports the PBX line;
Telephone control means for controlling the telephone;
Generating means for generating a calling signal for the telephone;
First switching means for switching connection so as to connect the telephone and the telephone control means or the telephone and the generation means;
Control is performed so that when the ringing signal is supplied to the telephone and the ringing is performed, the telephone is connected to the generation unit by the first switching unit, and the ringing signal generated by the generation unit is supplied to the telephone. Control means to
An image communication apparatus comprising:   The image communication apparatus according to claim 1, further comprising an off-hook detection unit that is connected between the generation unit and the telephone and detects an off-hook of the telephone. Emergency night power supply means for supplying power to the telephone control means;
A night power supply means for supplying power to the generating means,
The control means turns off the power output of the emergency night power supply means in the sleep mode, and connects the telephone and the generation means supplied with power from the night power supply means by the first switching means. 3. The image communication apparatus according to claim 2, wherein an off-hook of the telephone is detected by the off-hook detection means. First emergency night power supply means for supplying power to the telephone control means;
A night power supply means and a second emergency night power supply means for supplying power to the generating means;
A second switching unit that switches whether to supply power to the generating unit from the night power source unit or the second emergency night power unit;
In the sleep mode, the control means supplies power from the night-time power supply means to the generation means by the second switching means, and performs off-hook detection of the telephone by the off-hook detection means,
3. The image communication apparatus according to claim 2, wherein in the normal mode, control is performed so that power is supplied from the second emergency night power supply unit to the generation unit by the second switching unit.   The control means turns on the emergency night power supply means when the off-hook detection means detects the off-hook of the telephone in the sleep mode, and connects the telephone and the telephone control means by the first switching means. The image communication apparatus according to claim 3.   The control means turns on the first emergency night power supply means when the off-hook detection means detects the off-hook of the telephone in the sleep mode, and the telephone and the telephone control means are switched by the first switching means. The image communication apparatus according to claim 4, wherein the image communication apparatus is connected. A control method for controlling an image communication apparatus having a telephone corresponding to a PBX line, telephone control means for controlling the telephone, and generation means for generating a calling signal for the telephone,
A switching step of switching connection so that the switching means connects the telephone and the telephone control means, or the telephone and the generation means;
When the control means supplies the ringing signal to the telephone and makes it ring, the telephone and the generation means are connected in the switching step, and the ringing signal generated by the generation means is supplied to the telephone. A control process to control;
A control method for an image communication apparatus, comprising:   The program for functioning a computer as each means of the image communication apparatus of any one of Claims 1 thru | or 6.

Images