JP6828699B2 - Facsimile equipment and facsimile communication system - Google Patents

Description

The present invention relates to a facsimile machine on the receiving side, a facsimile machine on the transmitting side, and a facsimile communication system including these facsimile machines.

The facsimile machine may receive an echo (echo signal) of a signal transmitted to the other party. The signal transmitted by the other party and the echo signal may overlap. In addition, the echo signal may affect the image signal. Patent Document 1 describes an example of a technique for dealing with echo in facsimile communication.

In Patent Document 1, the reception level of the signal received from the transmission side terminal is detected, the reception level of the first signal (DCS signal) is stored, and after the reception of the first signal, the second signal received from the transmission side terminal is received. Described is a facsimile device that ignores the second signal and shifts to the next signal reception procedure when the reception level of (CFR signal) is lower than the reception level of the first signal. When the reception level of the second signal received from the transmitting terminal is lower than the reception level of the DCS signal, the signal is regarded as an echo and ignored (see Patent Document 1: Claim 1, paragraph [0021], etc.).

Japanese Unexamined Patent Publication No. 2009-081594

When the output impedance and input impedance are not matched, signal reflection occurs. Impedance matching between the line and the facsimile machine may not be achieved. In this case, the transmitted signal is reflected, and the reflected signal may be returned as an echo signal. The echo signal is the same size (length) and data as the transmitted signal. That is, the echo signal reflected by the facsimile machine that receives the signal may return to the facsimile machine that transmitted the signal.

Here, the modem used for facsimile communication has a plurality of modes. In facsimile communication, ITU-T Recommendation V. The control signal is transmitted in the mode (mode for the control signal) conforming to 21. In addition, ITU-T Recommendation V. 17 or V. Training signals and image data (image signals) are transmitted in a mode (mode for image signals) conforming to 29. Since the data of the image signal is large, the communication speed of the mode for the image signal is faster than the communication speed of the mode for the control signal.

When receiving the control signal, the mode of the modem becomes the mode for the control signal. When the exchange of image signals is started, the mode of the modem becomes the mode for image signals. The image signal mode and the control signal mode are not compatible. In order to prevent the control signal from being missed, in the facsimile standard, when the control signal transmitted in the control signal mode is received in the image signal mode, the modem mode is generally set to the control signal mode. Is.

When the receiving stage of the image signal is reached, the receiving facsimile machine automatically switches the modem mode to the image signal mode. However, after the image signal mode is set, the receiving facsimile machine may receive the echo signal of the control signal emitted by itself. In this case, the echo signal may be mistaken for the control signal transmitted by the other party. Then, the facsimile machine on the receiving side may switch the modem mode to the control signal mode again. The image signal cannot be received due to the mode switching by the echo signal.

In recent years, VoIP (Voice Over Internet Protocol) adapters and facsimile machines may be connected. In this case, signals are exchanged using a network line. Conventionally, a facsimile machine has been connected to a telephone line. Therefore, conventional facsimile machines are often matched with the impedance of telephone lines. However, the impedance of VoIP adapters varies. The impedance difference between the facsimile machine and the VoIP adapter may be large. When a VoIP adapter is used, a large echo signal is likely to be generated.

Conventionally, as an echo signal countermeasure, after switching to the image signal mode, the control signal received within a certain period of time has been ignored. This measure is often effective when using a telephone line. However, in a network line, a loss of a control signal may occur due to packet loss. When the control signal is lost, the control signal is retransmitted from the other unit, and the own unit needs to respond to the retransmitted control signal. Therefore, when using a VoIP adapter, it may not be possible to normally terminate facsimile communication simply by ignoring the control signal received within a certain period of time.

The technique described in Patent Document 1 is effective only when the echo signal arrives before the image signal.
When the echo signal overlaps with the image signal, the signal level with the first signal (DCS signal) cannot be compared. The image signal on which the echo signal is superimposed may be received as a correct image signal. Further, since the levels cannot be compared, in some cases, it is determined that the control signal has arrived in the image signal mode, and the possibility of switching the modem mode to the control signal mode is not zero. Therefore, the problem caused by the echo signal cannot be sufficiently solved.

In view of the above problems, the present invention enables normal facsimile communication even if an echo signal is generated in a VoIP environment.

In order to solve the above problems, the facsimile machine according to the present invention includes a communication unit and a control unit. The communication unit includes a modem for performing facsimile communication, and transmits and receives signals to and from a transmitting side facsimile device. The control unit controls the communication unit. The modem operates in either a first mode or a second mode. The first mode is a mode used for transmitting and receiving a predetermined control signal in the facsimile communication. The second mode is a mode used for transmitting and receiving an image signal. When the communication unit transmits a CFR signal, which is a kind of the control signal, to the transmission side facsimile device, the control unit uses the modem until the communication unit receives an echo countermeasure signal from the transmission side facsimile device. Maintain in the first mode. The echo countermeasure signal is a kind of the control signal for notifying the reception of the CFR signal and the start of transmission of the image signal, and is a signal that can be received when the modem is in the first mode. When the communication unit receives the echo countermeasure signal from the transmitting side facsimile device, the control unit sets the modem in the second mode.

According to the present invention, even if an echo signal and a signal loss occur in a VoIP environment, facsimile communication can be normally performed. Facsimile communication can be performed normally by excluding the effects of both the echo signal and the signal loss.

It is a figure which shows an example of the facsimile communication system which concerns on embodiment. It is a figure which shows an example of the transmitting side facsimile apparatus which concerns on embodiment. It is a figure which shows an example of the receiving side facsimile apparatus which concerns on embodiment. It is a figure which shows an example of the flow of the facsimile communication using the echo countermeasure signal which concerns on embodiment. It is a figure which shows an example of the flow of the facsimile communication using the echo countermeasure signal which concerns on embodiment. It is a figure which shows an example of the flow of the facsimile communication which does not use the echo countermeasure signal which concerns on embodiment. It is a figure which shows an example of the 2nd NSS signal which concerns on embodiment. It is a figure which shows an example of the 2nd NSS signal which concerns on embodiment.

Hereinafter, the facsimile communication system 100 according to the embodiment of the present invention will be described with reference to FIGS. 1 to 8. In the following description, a case where the transmitting side facsimile device 1 and the receiving side facsimile device 2 are a multifunction device will be described. However, each element such as the configuration and the arrangement described in the present embodiment does not limit the scope of the invention and is merely an explanatory example.

(Overview of Facsimile Communication System 100)
First, an example of the facsimile communication system 100 according to the embodiment will be described with reference to FIG. FIG. 1 is a diagram showing an example of a facsimile communication system 100 according to an embodiment.

The facsimile communication system 100 shown in FIG. 1 includes a transmitting side facsimile apparatus 1 and a receiving side facsimile apparatus 2. The transmitting side facsimile device 1 and the receiving side facsimile device 2 are multifunction devices. The multifunction device has multiple functions. For example, each facsimile machine has a facsimile communication function, a printing function, and a scan transmission function. Each facsimile is provided with the ITU-T Recommendation T.I. Communicate in accordance with 30 standards. The transmitting side facsimile apparatus 1 transmits an image signal (image data) based on the image data of the original obtained by reading to the receiving side facsimile apparatus 2. The receiving side facsimile device 2 receives this.

The transmitting side facsimile device 1 is connected to the transmitting side VoIP adapter 3. The receiving side facsimile device 2 is connected to the receiving side VoIP adapter 4. Each VoIP adapter is an adapter that enables facsimile communication by using network 5 (Internet) using VoIP technology.

The transmitting VoIP adapter 3 converts the signal (audio signal) transmitted from the transmitting facsimile apparatus 1 into data (packet). The transmitting VoIP adapter 3 transmits the converted data to the receiving VoIP adapter 4. The receiving VoIP adapter 4 returns the received data to the waveform of the signal transmitted by the transmitting facsimile machine 1. The receiving-side VoIP adapter 4 inputs the signal whose waveform has been returned to the receiving-side facsimile apparatus 2.

Further, the receiving side VoIP adapter 4 converts the signal (audio signal) transmitted from the receiving side facsimile apparatus 2 into data (packet). The receiving VoIP adapter 4 transmits the converted data to the transmitting VoIP adapter 3. The transmitting VoIP adapter 3 returns the received data to the waveform of the signal transmitted by the receiving facsimile apparatus 2. The transmitting VoIP adapter 3 inputs a signal whose waveform has been returned to the transmitting facsimile apparatus 1.

The transmitting side facsimile device 1 can be used as the receiving side facsimile device 2. Further, the receiving side facsimile device 2 can also be used as the transmitting side facsimile device 1. Since the operations of the transmitting side and the receiving side are different, the device for transmitting the image signal is referred to as the transmitting side facsimile device 1 for convenience of explanation. A device that receives an image signal is referred to as a receiving side facsimile device 2. The fax machine on the transmitting side and the receiving side may be the same model or different models. Further, each facsimile machine may be a dedicated machine for facsimile communication.

(Sender Facsimile Device 1)
Next, an example of the transmitting side facsimile apparatus 1 according to the embodiment will be described with reference to FIG. FIG. 2 is a diagram showing an example of the transmitting side facsimile apparatus 1 according to the embodiment.

The transmitting side facsimile apparatus 1 includes a transmitting side control unit 10, a transmitting side storage unit 11, a transmitting side operation panel 12, a transmitting side reading unit 13, a transmitting side printing unit 14, and a transmitting side communication unit 15. The transmission side control unit 10 includes a CPU 10a and an image processing circuit 10b. The CPU 10a performs calculations and controls based on control programs and data stored in the transmission side storage unit 11. The image processing circuit 10b can generate image data (image signal) to be transmitted to the receiving side facsimile apparatus 2. The transmitting side storage unit 11 includes a ROM, a flash ROM, a RAM, and an HDD. The transmitting side control unit 10 controls the operations of the transmitting side operation panel 12, the transmitting side reading unit 13, the transmitting side printing unit 14, and the transmitting side communication unit 15.

The transmitting side operation panel 12 includes a display panel 12a, a touch panel 12b, and a hard key 12c. The display panel 12a displays a message and a setting screen. The touch panel is provided on the display panel 12a. The user can make settings related to facsimile transmission using the touch panel 12b and the hard key 12c. For example, the destination and transmission size can be set. The transmitting side operation panel 12 accepts the setting of facsimile transmission.

The transmitting side reading unit 13 reads the document and generates image data of the document. The transmitting side reading unit 13 reads the conveyed document and the document set on the platen. The transmission side printing unit 14 includes a paper feeding unit 14a, a paper conveying unit 14b, an image forming unit 14c, and a fixing unit 14d. At the time of printing, the transmitting side control unit 10 causes the paper feeding unit 14a to perform paper feeding. The transmitting side control unit 10 conveys the paper to the paper conveying unit 14b in the machine. The transmitting side control unit 10 causes the image forming unit 14c to form the toner image and transfer the toner image to the paper. The transmission side control unit 10 causes the fixing unit 14d to fix the toner image on the paper.

Further, the transmitting side control unit 10 and the transmitting side communication unit 15 are connected. The transmitting side control unit 10 controls the communication processing of the transmitting side communication unit 15. The transmitting side communication unit 15 is a circuit that communicates with the receiving side facsimile device 2. The transmitting side communication unit 15 transmits an image signal (image data, message) to the receiving side facsimile apparatus 2 (facsimile transmission). The transmitting side communication unit 15 can also receive data from a computer or another facsimile machine. Based on the received data, the transmitting side control unit 10 causes the transmitting side printing unit 14 to print (printer function, facsimile receiving function). Further, the transmitting side communication unit 15 includes a transmitting side modem 16. The transmitting modem 16 has a plurality of modes (details will be described later).

(Receiving fax machine 2)
Next, an example of the receiving side facsimile apparatus 2 according to the embodiment will be described with reference to FIG. FIG. 3 is a diagram showing an example of the receiving side facsimile apparatus 2 according to the embodiment.

The receiving side facsimile apparatus 2 includes a receiving side control unit 20, a receiving side storage unit 21, a receiving side operation panel 22, a receiving side reading unit 23, a receiving side printing unit 24, and a receiving side communication unit 25. The receiving side control unit 20 includes a CPU 20a and an image processing circuit 20b. The CPU 20a performs calculations and controls based on control programs and data stored in the receiving side storage unit 21. The image processing circuit 20b can generate image data (image signal) to be transmitted to another facsimile machine. The receiving side storage unit 21 includes a ROM, a flash ROM, a RAM, and an HDD. The receiving side control unit 20 controls the operations of the receiving side operation panel 22, the receiving side reading unit 23, the receiving side printing unit 24, and the receiving side communication unit 25.

The receiving side operation panel 22 includes a display panel 22a, a touch panel 22b, and a hard key 22c. The display panel 22a displays a message and a setting screen. The touch panel is provided on the display panel 22a. The user can make settings related to facsimile transmission using the touch panel 22b and the hard key 22c. For example, the destination and transmission size can be set. The receiving side operation panel 22 can also accept the setting of facsimile transmission.

The receiving side reading unit 23 reads the document and generates image data of the document. The receiving side reading unit 23 reads the conveyed document and the document set on the platen. The receiving side printing unit 24 includes a paper feeding unit 24a, a paper conveying unit 24b, an image forming unit 24c, and a fixing unit 24d. At the time of printing, the receiving side control unit 20 causes the paper feeding unit 24a to perform paper feeding. The receiving side control unit 20 conveys the paper to the paper conveying unit 24b in the machine. The receiving side control unit 20 causes the image forming unit 24c to form the toner image and transfer the toner image to the paper. The receiving side control unit 20 causes the fixing unit 24d to fix the toner image on the paper.

Further, the receiving side control unit 20 and the receiving side communication unit 25 are connected. The receiving side control unit 20 controls the communication processing of the receiving side communication unit 25. The receiving side communication unit 25 is a circuit that communicates with the transmitting side facsimile apparatus 1. The receiving side communication unit 25 receives an image signal (image data, message) from the transmitting side facsimile apparatus 1 (facsimile reception). In addition, the receiving side communication unit 25 can receive data from a computer or another facsimile machine. Based on the received data, the receiving side control unit 20 causes the receiving side printing unit 24 to print (printer function, facsimile reception). Further, the receiving side communication unit 25 includes a receiving side modem 26. The receiving modem 26 has a plurality of modes (details will be described later).

(Flow of facsimile communication)
Next, the basic flow of facsimile communication in the facsimile communication system 100 according to the embodiment will be described with reference to FIGS. 4 to 6. 4 and 5 are diagrams showing an example of the flow of facsimile communication using the echo countermeasure signal according to the embodiment. FIG. 6 is a diagram showing an example of a flow of facsimile communication that does not use the echo countermeasure signal according to the embodiment.

The impedance of the VoIP adapter and the facsimile machine may not match. For example, the difference between the output impedance of the VoIP adapter and the input impedance of the facsimile machine may be large. Impedance mismatch results in signal reflection. The signal reflected due to impedance mismatch (echo signal) may be large enough to affect facsimile communication.

Conventionally, the echo signal has been dealt with by ignoring the control signal received within a certain period of time (passing the echo signal) after switching to the image signal mode (second mode described later). On the other hand, there is a best effort type network 5 (Internet) line. The arrival point of the echo signal is different from that of facsimile communication using a telephone line. For example, the echo signal may arrive later than when using a telephone line. In a VoIP environment, conventional measures for echo signals may not be sufficient.

Therefore, the transmitting side facsimile apparatus 1 and the receiving side facsimile apparatus 2 according to the embodiment have an echo countermeasure function. The transmitting side facsimile device 1 and the receiving side facsimile device 2 confirm whether or not they support the echo countermeasure function in the process of communication. When each facsimile device supports the echo countermeasure function, the transmitting side facsimile device 1 and the receiving side facsimile device 2 exchange an echo countermeasure signal. By this exchange, even if there is an echo signal, each facsimile machine performs facsimile communication accurately and normally.

Hereinafter, with reference to FIGS. 4 and 5, an example of the flow of facsimile communication in which the transmitting side facsimile device 1 and the receiving side facsimile device 2 exchange echo countermeasure signals will be described. Here, in the transmission of the following facsimile communication, the transmitting side VoIP adapter 3 and the receiving side VoIP adapter 4 function as exchanges in the telephone line. The transmitting side communication unit 15 inputs a signal to the transmitting side VoIP adapter 3 via the network 5. The transmitting VoIP adapter 3 transmits the digitized signal to the receiving VoIP adapter 4. The receiving VoIP adapter 4 restores the digitized signal. The receiving VoIP adapter 4 inputs the restored signal to the receiving communication unit 25. Further, the receiving side communication unit 25 inputs a signal to the receiving side VoIP adapter 4. The receiving VoIP adapter 4 transmits the digitized signal to the transmitting VoIP adapter 3 via the network 5. The transmitting VoIP adapter 3 restores the digitized signal. The transmitting VoIP adapter 3 inputs the restored signal to the transmitting communication unit 15.

First, the transmitting side operation panel 12 accepts a setting for the receiving side facsimile apparatus 2 as a destination. After the setting, the transmitting side operation panel 12 receives the facsimile transmission start instruction. Based on the transmission start instruction, the transmitting side control unit 10 causes the receiving side facsimile device 2 to transmit a CNG signal (Calling Tone) to the transmitting side communication unit 15. The CNG signal is a call tone signal. The CNG signal is a signal for notifying that the user is a facsimile machine (step # 1).

When the receiving side communication unit 25 receives the CNG signal, the receiving side control unit 20 causes the receiving side communication unit 25 to transmit the CED signal toward the transmitting side communication unit 15 (step # 2). The CED signal is a response signal transmitted by the called party. The CED signal is a signal for telling the transmitting side facsimile apparatus 1 that facsimile communication can be performed.

Subsequently, the receiving side control unit 20 sends an NSF signal (Non-Standard Facilities), a DIS signal (Digital Identification Signal), and a CSI signal (Called Subscriber Identification) to the receiving side communication unit 25 toward the transmitting side communication unit 15. Send (step # 3). The NSF signal is a function possessed by the receiving side facsimile apparatus 2, and is a signal notifying a non-standard function in the ITU-T recommendation. The receiving side control unit 20 uses the NSF signal to notify that it has an echo countermeasure function (corresponds to the echo countermeasure signal). The receiving side control unit 20 sets 1 in the NSF signal to notify that it has an echo countermeasure function.

The DIS signal is a signal that informs the transmitting side facsimile device 1 of the function (reception capability) of the receiving side facsimile apparatus 2 as a standard function of the ITU-T recommendation. For example, the receiving side facsimile apparatus 2 informs the transmitting side facsimile apparatus 1 of the communication speed of the modem, the width of the recording paper, and the corresponding compression method by the DIS signal. The CSI signal is a signal for transmitting information to identify the called terminal. The CSI signal is, for example, a facsimile number registered in the receiving side facsimile apparatus 2.

Next, the transmitting side control unit 10 receives the first NSS signal (Non-Standard facilities Set-up), the TSI signal (Transmitting Subscriber Identification), and the DCS signal (Digital Command Signal) toward the receiving side communication unit 25. The communication unit 25 is made to transmit (step # 4). The first NSS signal is a signal informing that a non-standard function is used in the ITU-T recommendation. The first NSS signal is a signal for causing the receiving side facsimile apparatus 2 to set the use of the non-standard function. The transmitting side control unit 10 instructs the receiving side facsimile apparatus 2 to use the echo countermeasure function (corresponding to the echo countermeasure signal) by using the first NSS signal. The transmission side control unit 10 sets the bit of the first NSS signal for instructing the use of the echo countermeasure function to 1.

The TSI signal is a signal for notifying the receiving side facsimile apparatus 2 of information for identifying the transmitting terminal. The TSI signal is, for example, a facsimile number registered in advance in the transmitting side facsimile apparatus 1. The DCS signal is a signal that commands the receiving side facsimile apparatus 2 to transmit conditions according to the received DIS signal. In other words, the DCS signal is a signal that transmits a function to be actually used to the receiving side facsimile apparatus 2. For example, the transmitting side facsimile apparatus 1 informs the transmitting side facsimile apparatus 1 of the communication speed at the time of transmitting the image signal, the width of the image signal (recording paper) to be transmitted, and the compression method to be used by the DIS signal.

Subsequently, the transmitting side control unit 10 causes the receiving side communication unit 25 to transmit a TCF signal (Training Check) to the transmitting side communication unit 15 (step # 5). The TCF signal is a signal for training whether or not communication can be performed at the speed transmitted by the DCS signal.

When the receiving side communication unit 25 receives the TCF signal, the receiving side control unit 20 confirms whether or not the receiving side communication unit 25 can receive the image signal based on the training result (the reception result of the TCF signal). In other words, the receiving side control unit 20 confirms whether or not the TCF signal can be correctly received. When the receiving side communication unit 25 determines that the image signal can be received, the receiving side control unit 20 causes the receiving side communication unit 25 to transmit a CFR signal (Confirmation To Receive) to the transmitting side communication unit 15 (step). # 6). The CFR signal is a signal that notifies the transmitting side facsimile apparatus 1 that the image signal can be received by the receiving side communication unit 25.

When the CFR signal is received, the transmitting side control unit 10 causes the receiving side communication unit 25 to transmit the second NSS signal 6 (Non-Standard facilities Set-up) to the transmitting side communication unit 15 (step # 7, step # 7, 7 and 8). The second NSS signal 6 is an echo countermeasure signal. The second NSS signal 6 is a non-standard signal in the ITU-T recommendation. The transmitting side facsimile device 1 and the receiving side facsimile device 2 support communication using the second NSS signal 6.

After transmitting the second NSS signal 6, the transmitting side control unit 10 causes the receiving side communication unit 25 to transmit an image signal (image data, message data) to the transmitting side communication unit 15 (step # 8). When the transmission of all pages is completed, the transmitting side control unit 10 causes the receiving side communication unit 25 to transmit an EOP signal (End Of Procedure) to the transmitting side communication unit 15 (step # 9).

When the EOP signal is received, the receiving side control unit 20 causes the transmitting side communication unit 15 to transmit an MCF signal (Message Composition) to the receiving side communication unit 25. The MCF signal is a signal for notifying normal reception. Finally, the transmitting side control unit 10 causes the transmitting side communication unit 15 to transmit a DCN signal (Disconnect) toward the receiving side communication unit 25. The DCN signal is a signal instructing the line to be disconnected. Facsimile communication is terminated by sending and receiving DCN signals.

Here, the transmitting side modem 16 and the receiving side modem 26 both have a first mode and a second mode. The first mode is the ITU-T Recommendation V.I. This is a mode compliant with 21. The communication speed in the first mode is 300 bps. The predetermined control signal (binary code) is transmitted in the first mode. Among the above signals, the control signals are CED signal, NSF signal, DIS signal, CSI signal, first NSS signal, TSI signal, DCS signal, CFR signal, second NSS signal 6, EOP signal, MCF signal, and DCN signal. .. The type of signal to be transmitted / received in the first mode is predetermined.

On the other hand, the second mode is the ITU-T Recommendation V.I. 17 or V. This is a mode compliant with 29. ITU-T Recommendation V. The communication speed at 17 is, for example, 14400 bps. The communication speed in the second mode is, for example, 14400 bps (ITU-T Recommendation V.17) or 9600 bps (ITU-T Recommendation V.29). The second mode is a mode for transmitting image signals (image data, messages) at high speed. Depending on which standard the modem supports, V.I. 17 and V. Which of 29 is compliant is determined. Both the transmitting modem 16 and the receiving modem 26 have ITU-T Recommendation V. When corresponding to 17, the transmitting side control unit 10 sets the transmitting side modem 16 to the ITU-T recommendation V.I. Set the mode according to 17. The receiving modem 26 is the ITU-T Recommendation V. It does not correspond to 17, and V.I. When only 29 is supported, the transmitting side control unit 10 uses the transmitting side modem 16 as the ITU-T recommendation V.I. The mode conforms to 29.

Then, the TCF signal (training signal) and the image signal are transmitted in the second mode. In other words, the type of signal to be transmitted / received in the second mode is predetermined. The communication speed of the first mode is slower than that of the second mode. The communication speed of the second mode is faster than that of the first mode.

4 and 5 show the modes of the transmitting modem 16 and the receiving modem 26 during the facsimile communication sequence.

First, an example of mode switching in the transmitting modem 16 will be described. First, the transmitting side control unit 10 sets the transmitting side modem 16 as the first mode. The transmitting side control unit 10 causes the transmitting side communication unit 15 (transmitting side modem 16) to receive the CED signal, the NSF signal, the CSI signal, and the DIS signal in the first mode. Further, the transmitting side control unit 10 causes the transmitting side communication unit 15 (transmitting side modem 16) to transmit the first NSS signal, the TSI signal, and the DCS signal in the first mode. After transmitting the first NSS signal, the TSI signal, and the DCS signal, the transmitting side control unit 10 sets the transmitting side modem 16 as the second mode. After the second mode is set, the transmitting side control unit 10 transmits a TCF signal (training signal). When the transmission of the TCF signal (training signal) is completed, the transmitting side control unit 10 sets the transmitting side modem 16 as the first mode in order to receive the CFR signal. When the second NSS signal 6 is transmitted after receiving the CFR signal, the transmitting side control unit 10 sets the transmitting side modem 16 in the second mode. After the second mode is set, the transmitting side control unit 10 causes the transmitting side modem 16 to transmit the image signal. After transmitting the image signal, the transmitting side control unit 10 returns the transmitting side modem 16 to the first mode. Then, the EOP signal, the MCF signal, and the DCN signal are exchanged.

Next, an example of mode switching in the receiving modem 26 will be described. First, upon receiving the CNG signal, the receiving side control unit 20 sets the receiving side modem 26 as the first mode. The receiving side control unit 20 causes the receiving side communication unit 25 (reception side modem 26) to transmit the CED signal, the NSF signal, the CSI signal, and the DIS signal toward the transmitting side communication unit 15. Further, the receiving side control unit 20 causes the receiving side communication unit 25 (receiving side modem 26) to receive the first NSS signal, the TSI signal, and the DCS signal in the first mode. Upon receiving the first NSS signal, the TSI signal, and the DCS signal, the receiving side control unit 20 sets the receiving side modem 26 as the second mode in preparation for the TCF signal (training signal). After receiving the TCF signal (training signal), the receiving side control unit 20 sets the receiving side modem 26 as the first mode for transmitting the CFR signal. After receiving the CFR signal, the receiving side control unit 20 maintains the receiving side modem 26 in the first mode until the second NSS signal 6 is received. Upon receiving the second NSS signal 6, the receiving side control unit 20 sets the receiving side modem 26 in the second mode in preparation for receiving the image signal. The receiving side control unit 20 causes the receiving side modem 26 to receive the image signal in the second mode. After transmitting the image signal, the receiving side control unit 20 returns the receiving side modem 26 to the first mode. Then, the EOP signal, the MCF signal, and the DCN signal are exchanged.

In conventional facsimile communication (ordinary facsimile communication), the facsimile machine that transmits the CFR signal immediately sends the modem to the ITU-T Recommendation V. 17 or V. I was switching to a mode compliant with 29. This is to prepare for the reception of the image signal. Further, the transmitting side started transmitting the image signal immediately after receiving the CFR signal.

On the other hand, ITU-T Recommendation V. 17 or V. In a mode compliant with 29, ITU-T Recommendation V.I. If a signal conforming to 21 is received, the modem is referred to by ITU-T Recommendation V. The facsimile communication standard stipulates switching to a mode compliant with 21. Then, the receiving side communication unit 25 (receiving side modem 26) may receive the echo signal 7 of the CFR signal. When the echo signal 7 of the CFR signal is received, V.I. In order to receive the signal of 21, the mode of the modem is set to ITU-T Recommendation V.I. It may switch to a mode compliant with 21. In this case, since the modem mode is not set, the transmitted image signal cannot be received.

Therefore, in the facsimile communication system 100, the second NSS signal 6 (echo countermeasure signal) is used. The anti-echo signal is a kind of control signal for notifying the reception of the CFR signal and the start of transmission of the image signal. The second NSS signal 6 is a signal that can be received when the modem is in the first mode.

When the transmitting side control unit 10 receives the CFR signal, it causes the receiving side communication unit 25 to transmit the second NSS signal 6. Further, the receiving side control unit 20 maintains the modem in the first mode until the receiving side communication unit 25 receives the second NSS signal 6 (echo countermeasure signal) from the transmitting side facsimile apparatus 1. When the receiving side communication unit 25 receives the second NSS signal 6 from the transmitting side facsimile device 1, the receiving side control unit 20 sets the receiving side modem 26 in the second mode. When the receiving side control unit 20 detects the echo signal 7 of the CFR signal, it is possible to prevent or reduce the mode of the receiving side modem 26 from returning to the first mode automatically.

Further, in a VoIP environment, the CFR signal may not arrive due to packet loss. According to the facsimile communication standard, when the CFR signal cannot be received within a predetermined time after the TCF signal (training signal) is transmitted, the transmitting side transmits the first NSS signal, the TSI signal, the DCS signal, and the TCF signal (training signal). It has been decided to resend. In FIG. 5, step # 6-2 shows the loss of the CFR signal. Steps # 4-2 and # 5-2 of FIG. 5 show the retransmission process by the transmitting side facsimile machine 1. Step # 6-2 shows the retransmission of the CFR signal by the receiving side facsimile apparatus 2.

When a conventional facsimile machine transmits a CFR signal, the receiving side sets the mode of the modem to the ITU-T recommendation V. 17 or V. The mode conforms to 29 (mode for image signal communication). On the other hand, when the CFR signal is lost, the first NSS signal, TSI signal, and DCS signal are retransmitted. In the mode for image signal communication, the first NSS signal, TSI signal, and DCS signal cannot be received. Therefore, it is a signal to be retransmitted, and the ITU-T Recommendation V. In some cases, the signal to be received in the mode compliant with 21 could not be received correctly.

In the receiving side facsimile apparatus 2 of the present embodiment, after the CFR signal is transmitted, the mode of the receiving side modem 26 is maintained in the first mode until the second NSS signal 6 is received. Therefore, the receiving side communication unit 25 (receiving side modem 26) can correctly receive the control signal retransmitted due to the timeout of the CFR signal.

When transmitting an echo countermeasure signal, each fax machine must support the echo countermeasure function. It is necessary to confirm whether or not it has an echo countermeasure function. The receiving side control unit 20 notifies the receiving side communication unit 25 that the echo countermeasure signal is supported by the NSF signal. When the first NSS signal includes an instruction to take an echo countermeasure, the receiving side communication unit 25 executes the maintenance of the first mode after the transmission of the CFR signal until the reception of the second NSS signal 6. The receiving side facsimile device 2 uses the echo countermeasure function only when the partner type supports the echo countermeasure function.

Further, the transmitting side control unit 10 determines whether or not the receiving side corresponds to the echo countermeasure signal based on the NSF signal. When it is determined that the receiving side facsimile apparatus 2 corresponds to the echo countermeasure signal, when the receiving side control unit 10 receives the CFR signal, the transmitting side control unit 10 causes the transmitting side communication unit 15 to transmit the second NSS signal 6. The transmitting side control unit 10 causes the transmitting side communication unit 15 to transmit the image signal after transmitting the echo countermeasure signal. The transmitting side facsimile device 1 uses the echo countermeasure function only when the other party type supports the echo countermeasure function.

When both the transmitting side and the receiving side facsimile machines do not support the echo countermeasure function, normal facsimile communication is performed. FIG. 6 shows an example of switching between a modem mode and a signal exchanged by normal facsimile communication (communication when one of the facsimile machines does not support the echo countermeasure function). In this case, the second NSS signal 6 is not transmitted. If the transmitting device does not support the echo countermeasure signal, the receiving control unit 20 immediately switches the mode of the receiving modem 26 from the first mode to the second mode after transmitting the CFR signal. If the receiving device does not support the echo countermeasure signal, the transmitting control unit 10 does not transmit the second NSS signal 6 after receiving the CFR signal, but directs the image signal to the other facsimile machine. Is started by the transmitting side communication unit 15.

(2nd NSS signal 6)
Next, it is a figure which shows an example of the 2nd NSS signal 6 which concerns on embodiment, using FIG. 7 and FIG. 7 and 8 are diagrams showing an example of the second NSS signal 6 according to the embodiment.

As shown in FIG. 7, the transmitting side control unit 10 generates a second NSS signal 6 (echo countermeasure signal) longer than the CFR signal. The transmitting side control unit 10 causes the transmitting side communication unit 15 to transmit a second NSS signal 6 which is longer than the CFR signal.

The second NSS signal 6 includes flag data 61. The flag data 61 is data indicating that the second NSS signal 6 is a kind of NSS signal. For example, the flag data 61 is 0x7E. In terms of binary numbers, the flag data 61 is 01111110.

The transmitting side control unit 10 includes the specific data 60, which is a bit string of a predetermined pattern, in the second NSS signal 6. The transmitting side control unit 10 attaches specific data 60 to each of the beginning and the end of the echo countermeasure signal. As shown in FIGS. 7 and 8, specific data 60 can be attached to the front side of the flag data 61 at the beginning and the rear side of the flag data 61 at the end. The bit pattern of the specific data 60 can be a bit pattern that is not used for the CFR signal. For example, the specific data can be three consecutive 0x55 data. In terms of binary numbers, "01010101" is repeated three times.

The data between the flag data 61 and the flag data 61 can be appropriately determined. The transmitting side control unit 10 can fill the space between the flag data 61 and the flag data 61 with the first NSS signal. In this case, the previously transmitted data can be reused. It is not necessary to generate data to fill the space between the two flag data 61.

In this way, the second NSS signal 6 is made longer than the CFR signal. Further, the specific data 60 is added to the beginning and end of the second NSS signal 6. As a result, even if the echo signal 7 of the CFR signal and the second NSS signal 6 overlap, the receiving side control unit 20 can recognize that the second NSS signal 6 has been received.

The uppermost figure of FIG. 8 shows an example of the second NSS signal 6. In FIG. 8, the second stage figure shows an example of a state in which the second NSS signal 6 and the echo signal 7 of the CFR signal are superimposed. In the second row, the echo signal 7 of the CFR signal is shaded.

The second figure of FIG. 8 shows a state in which the first bit of the second NSS signal 6 and the first bit of the echo signal 7 of the CFR signal overlap. As shown in the second stage figure, even if all of the echo signals 7 of the CFR signal overlap with the second NSS signal 6, the receiving side control unit 20 uses the second NSS signal based on the specific data 60 at the end of the second NSS signal 6. It can be recognized that 6 has been received.

The third figure of FIG. 8 shows a state in which the last bit of the second NSS signal 6 and the last bit of the echo signal 7 of the CFR signal overlap. Also in the third row, the echo signal 7 of the CFR signal is shaded. As shown in the third stage diagram, even if all of the echo signals 7 of the CFR signal overlap with the second NSS signal 6, the receiving side control unit 20 uses the second NSS signal based on the specific data 60 at the beginning of the second NSS signal 6. It can be recognized that 6 has been received.

In this way, the facsimile machine (reception side facsimile machine 2) according to the embodiment includes the reception side communication unit 25 (communication unit) and the reception side control unit 20 (control unit). The receiving side communication unit 25 includes a receiving side modem 26 (modem) for performing facsimile communication, and transmits / receives a signal to / from the transmitting side facsimile device 1. The receiving side control unit 20 controls the receiving side communication unit 25. The receiving modem 26 operates in either the first mode or the second mode. The first mode is a mode used for transmitting and receiving a predetermined control signal in facsimile communication. The second mode is a mode used for transmitting and receiving image signals. When the receiving side communication unit 25 transmits a CFR signal, which is a kind of control signal, to the transmitting side facsimile device 1, the receiving side communication unit 25 transmits the echo countermeasure signal (second NSS signal 6) to the receiving side control unit 20. The receiving modem 26 is maintained in the first mode until it is received from the facsimile machine 1. The anti-echo signal is a kind of control signal for notifying the reception of the CFR signal and the start of transmission of the image signal, and is a signal that can be received when the receiving modem 26 is in the first mode. When the receiving side communication unit 25 receives the echo countermeasure signal from the transmitting side facsimile device 1, the receiving side control unit 20 sets the receiving side modem 26 in the second mode.

By receiving the echo countermeasure signal, the receiving side control unit 20 can recognize that the transmitting side facsimile apparatus 1 has received the CFR signal. Further, the receiving side control unit 20 can know that the transmitting side facsimile apparatus 1 starts transmitting the image signal by receiving the CFR signal. After the start of transmission of the image signal is confirmed, the receiving side control unit 20 can switch the mode of the receiving side receiving side modem 26 to the second mode (image signal mode). Even if an echo signal is generated, an image signal (correct image signal) on which the echo signal is not superimposed can be received. Even if an echo signal is generated by using a VoIP adapter, facsimile communication can be performed without any problem.

Also, the CFR signal may be lost. If the CFR signal cannot be received from the call (TCF signal (training signal)) within a certain period of time, the transmitting facsimile apparatus 1 retransmits the control signal (for example, the first NSS signal) (transmission of the image signal is not started). The receiving side control unit 20 maintains the receiving side modem 26 in the first mode until the receiving side communication unit 25 receives the echo countermeasure signal from the transmitting side facsimile apparatus 1. The receiving side communication unit 25 can receive the retransmitted control signal as it is (without mistakes).

When the receiving side communication unit 25 (communication unit) receives the control signal retransmitted from the transmitting side facsimile device 1 after transmitting the CFR signal and before receiving the echo countermeasure signal, the receiving side control unit 20 (control unit) ) Retransmits the CFR signal to the receiving side communication unit 25 toward the transmitting side facsimile apparatus 1. The CFR signal can be retransmitted as a reply to the control signal retransmitted from the transmitting side facsimile apparatus 1.

The anti-echo signal includes specific data 60 which is a bit string of a predetermined pattern. When the receiving side communication unit 25 (communication unit) receives the specific data 60 after transmitting the CFR signal to the transmitting side facsimile device 1, the receiving side control unit 20 (control unit) determines that the echo countermeasure signal has been received. To do. The receiving side control unit 20 can accurately determine whether or not the echo countermeasure signal has been received. It is possible to accurately determine the time when the mode of the receiving modem 26 is switched.

Before transmitting the CFR signal, the receiving side control unit 20 (control unit) causes the transmitting side facsimile apparatus 1 to notify the receiving side communication unit 25 (communication unit) that the echo countermeasure signal is supported. When the receiving side communication unit 25 receives an instruction to take echo countermeasures from the transmitting side facsimile device 1, the receiving side control unit 20 receives after transmitting the CFR signal until the receiving side communication unit 25 receives the echo countermeasure signal. The mode of the side communication unit 25 is maintained in the first mode. When the receiving side communication unit 25 does not receive an instruction to take echo countermeasures from the transmitting side facsimile device 1, the receiving side control unit 20 immediately sets the mode of the receiving side modem 26 to the second mode after transmitting the CFR signal. The receiving side facsimile device 2 can notify the transmitting side facsimile device 1 that it corresponds to the echo countermeasure signal. When the transmitting side facsimile device 1 supports the echo countermeasure signal, facsimile communication using the echo countermeasure signal can be performed. When the transmitting side facsimile device 1 does not support the echo countermeasure signal, facsimile communication (normal facsimile communication) that does not use the echo countermeasure signal can be performed.

The transmitting side facsimile device 1 includes a transmitting side communication unit 15 (communication unit) and a transmitting side control unit 10 (control unit). The transmitting side communication unit 15 transmits / receives a signal to / from the receiving side facsimile apparatus 2. The transmitting side control unit 10 controls the transmitting side communication unit 15. When the transmitting side communication unit 15 receives the CFR signal from the receiving side facsimile device 2, the transmitting side control unit 10 causes the transmitting side communication unit 15 to transmit the echo countermeasure signal toward the receiving side facsimile device 2. The transmitting side control unit 10 causes the transmitting side communication unit 15 to start transmitting the image signal after transmitting the echo countermeasure signal. The anti-echo signal is a kind of control signal for notifying the reception of the CFR signal and the start of transmission of the image signal.

By transmitting the anti-echo signal, it is possible to notify the receiving side facsimile apparatus 2 that the CFR signal has been received. Further, by receiving the CFR signal, the transmitting side facsimile apparatus 1 can notify the receiving side facsimile apparatus 2 of the start of transmission of the image signal. It is possible to notify that the mode of the receiving modem 26 should be switched to the second mode (image signal mode). The receiving side facsimile apparatus 2 can accurately receive the image signal. By using the VoIP adapter, even if an echo signal is input to the receiving side facsimile device 2, facsimile communication can be performed without any problem.

The transmitting side control unit 10 (control unit) causes the transmitting side communication unit 15 (communication unit) to transmit an echo countermeasure signal longer than the CFR signal. The echo signal 7 of the CFR signal can cause an error in transmitting and receiving an image signal. The echo signal 7 of the CFR signal has the same length as the CFR signal. The echo countermeasure signal can be made longer than the CFR signal. The length of the echo countermeasure signal can be set to a length that is not crushed by the echo signal 7 of the CFR signal. Even if the echo signal 7 of the CFR signal and the echo countermeasure signal are superimposed, the receiving side facsimile apparatus 2 can receive the echo countermeasure signal that has not been partially modified. It is possible to make the receiving side facsimile apparatus 2 notice the reception of the echo countermeasure signal.

The transmitting side control unit 10 (control unit) includes the specific data 60, which is a bit string of a predetermined pattern, in the echo countermeasure signal. The receiving side facsimile apparatus 2 can easily recognize that the received signal is an echo countermeasure signal. It can inform when the mode of the receiving modem 26 should be switched.

The transmitting side control unit 10 (control unit) attaches specific data 60 to each of the beginning and the end of the echo countermeasure signal. Even if the echo signal is superimposed on the echo countermeasure signal, the receiving side facsimile apparatus 2 can easily recognize that the received signal is the echo countermeasure signal based on the specific data 60 portion at the beginning or the end portion.

The transmitting side control unit 10 (control unit) determines whether or not the receiving side facsimile device 2 corresponds to the echo countermeasure signal based on the communication with the receiving side facsimile device 2. When it is determined that the receiving side facsimile device 2 corresponds to the echo countermeasure signal, when the CFR signal is received, the transmitting side control unit 10 causes the transmitting side communication unit 15 to transmit the echo countermeasure signal, and the echo countermeasure signal is transmitted. After transmission, the transmitting side communication unit 15 (communication unit) is made to transmit the image signal. When the receiving side facsimile device 2 determines that the echo countermeasure signal is not supported, when the transmitting side communication unit 15 receives the CFR signal, the transmitting side control unit 10 does not transmit the echo countermeasure signal and receives the receiving side. The transmitting side communication unit 15 starts the transmission of the image signal toward the facsimile apparatus 2. When the receiving side facsimile device 2 supports the echo countermeasure signal, facsimile communication using the echo countermeasure signal can be performed. When the receiving side facsimile device 2 does not support the echo countermeasure signal, facsimile communication (normal facsimile communication) that does not use the echo countermeasure signal can be performed. It is possible to prevent the receiving side facsimile apparatus 2 from transmitting a signal that cannot be understood.

The present invention can also be regarded as a facsimile communication system 100. The facsimile communication system 100 includes a transmitting side facsimile apparatus 1 and a receiving side facsimile apparatus 2. The transmitting side facsimile device 1 includes a transmitting side communication unit 15 and a transmitting side control unit 10. The transmitting side communication unit 15 transmits / receives a signal to / from the receiving side facsimile apparatus 2. The transmitting side control unit 10 controls the transmitting side communication unit 15. The receiving side facsimile apparatus 2 includes a receiving side communication unit 25 and a receiving side control unit 20. The receiving side communication unit 25 includes the receiving side modem 26 and transmits / receives a signal to / from the transmitting side facsimile apparatus 1. The receiving side control unit 20 controls the receiving side communication unit 25. The receiving modem 26 operates in either the first mode or the second mode. The first mode is a mode used for transmitting and receiving a predetermined control signal in facsimile communication. The second mode is a mode used for transmitting and receiving image signals. When the transmitting side communication unit 15 receives a CFR signal which is a kind of control signal transmitted from the receiving side communication unit 25, the transmitting side control unit 10 transmits an echo countermeasure signal toward the receiving side facsimile apparatus 2. The communication unit 15 is made to transmit. The transmitting side control unit 10 causes the transmitting side communication unit 15 to start transmitting the image signal after transmitting the echo countermeasure signal. After transmitting the CFR signal, the receiving side control unit 20 maintains the mode of the receiving side modem 26 in the first mode until the receiving side communication unit 25 receives the echo countermeasure signal from the transmitting side facsimile device 1. When the receiving side communication unit 25 receives the echo countermeasure signal from the transmitting side facsimile device 1, the receiving side control unit 20 sets the receiving side modem 26 in the second mode. The anti-echo signal is a kind of control signal for notifying the reception of the CFR signal and the start of transmission of the image signal, and is a signal that can be received when the receiving modem 26 is in the first mode.

Although the embodiments of the present invention have been described, the scope of the present invention is not limited to this, and various modifications can be made without departing from the gist of the invention.

The present invention can be used for facsimile communication.

100 Facsimile communication system 1 Transmitter facsimile device 10 Transmitter control unit (control unit) 15 Transmitter communication unit (communication unit)
2 Receiving side facsimile device 20 Receiving side control unit (control unit)
25 Receiving side communication unit (communication unit) 26 Receiving side modem (modem)
6 Second NSS signal (echo countermeasure signal) 60 Specific data 7 Echo signal

Claims (5)

A communication unit that sends and receives signals to and from a transmitting facsimile machine, including a modem for facsimile communication,
A control unit that controls the communication unit is provided.
The modem operates in either the first mode or the second mode.
The first mode is a mode used for transmitting and receiving a predetermined control signal in the facsimile communication.
The second mode is a mode used for transmitting and receiving image signals.
When the communication unit transmits a CFR signal, which is a kind of the control signal, to the transmission side facsimile machine,
The control unit maintains the modem in the first mode until the communication unit receives an echo countermeasure signal from the transmitting facsimile machine.
The echo countermeasure signal is a kind of the control signal for notifying the reception of the CFR signal and the start of transmission of the image signal, and is a signal that can be received when the modem is in the first mode.
When the communication unit receives the echo countermeasure signal from the transmitting side facsimile device, the control unit sets the modem in the second mode .
When the communication unit receives the control signal retransmitted from the transmitting side facsimile device after transmitting the CFR signal and before receiving the echo countermeasure signal.
The control unit is a facsimile machine that retransmits the CFR signal to the communication unit toward the transmission side facsimile machine. A communication unit that sends and receives signals to and from a transmitting facsimile machine, including a modem for facsimile communication,
A control unit that controls the communication unit is provided.
The modem operates in either the first mode or the second mode.
The first mode is a mode used for transmitting and receiving a predetermined control signal in the facsimile communication.
The second mode is a mode used for transmitting and receiving image signals.
When the communication unit transmits a CFR signal, which is a kind of the control signal, to the transmission side facsimile machine,
The control unit maintains the modem in the first mode until the communication unit receives an echo countermeasure signal from the transmitting facsimile machine.
The echo countermeasure signal is a kind of the control signal for notifying the reception of the CFR signal and the start of transmission of the image signal, and is a signal that can be received when the modem is in the first mode.
When the communication unit receives the echo countermeasure signal from the transmitting side facsimile device, the control unit sets the modem in the second mode.
The control unit
Before transmitting the CFR signal, the transmitting side facsimile device is notified to the communication unit that the echo countermeasure signal is supported.
When the communication unit receives an instruction to take an echo countermeasure from the transmitting side facsimile device, the mode of the modem is set to the first mode after the transmission of the CFR signal until the communication unit receives the echo countermeasure signal. Keep in
A facsimile machine that sets the mode of the modem to the second mode immediately after transmitting the CFR signal when the communication unit does not receive an instruction to take an echo countermeasure from the transmitting side facsimile machine. The anti-echo signal includes specific data which is a bit string of a predetermined pattern.
When the communication unit receives the specific data after transmitting the CFR signal to the transmitting side facsimile device,
The facsimile machine according to claim 1 or 2, wherein the control unit determines that the echo countermeasure signal has been received. It is equipped with a transmitting side facsimile machine and a receiving side facsimile machine.
The transmitting side facsimile machine
A transmitting side communication unit that transmits and receives signals to and from the receiving side facsimile device,
A transmission side control unit that controls the transmission side communication unit is provided.
The receiving side facsimile machine
A receiving side communication unit that includes a receiving side modem and transmits / receives signals to / from the transmitting side facsimile device.
A receiving side control unit that controls the receiving side communication unit is provided.
The receiving modem operates in either the first mode or the second mode.
The first mode is a mode used for transmitting and receiving a predetermined control signal in facsimile communication.
The second mode is a mode used for transmitting and receiving image signals.
When the transmitting side communication unit receives a CFR signal which is a kind of the control signal transmitted from the receiving side communication unit,
The transmitting side control unit
An echo countermeasure signal is transmitted to the transmitting side communication unit toward the receiving side facsimile apparatus.
After transmitting the echo countermeasure signal, the transmitting side communication unit is started to transmit the image signal.
The receiving side control unit
After transmitting the CFR signal, the mode of the receiving side modem is maintained in the first mode until the receiving side communication unit receives the echo countermeasure signal from the transmitting side facsimile apparatus.
When the receiving side communication unit receives the echo countermeasure signal from the transmitting side facsimile device, the receiving side modem is set to the second mode.
The echo countermeasure signal is a kind of the control signal for notifying the reception of the CFR signal and the start of transmission of the image signal, and is a signal that can be received when the receiving modem is in the first mode.
When the receiving side communication unit receives the control signal retransmitted from the transmitting side facsimile device after transmitting the CFR signal and before receiving the echo countermeasure signal.
The receiving side control unit is a facsimile machine that retransmits the CFR signal to the receiving side communication unit toward the transmitting side facsimile machine. It is equipped with a transmitting side facsimile machine and a receiving side facsimile machine.
The transmitting side facsimile machine
A transmitting side communication unit that transmits and receives signals to and from the receiving side facsimile device,
A transmission side control unit that controls the transmission side communication unit is provided.
The receiving side facsimile machine
A receiving side communication unit that includes a receiving side modem and transmits / receives signals to / from the transmitting side facsimile device.
A receiving side control unit that controls the receiving side communication unit is provided.
The receiving modem operates in either the first mode or the second mode.
The first mode is a mode used for transmitting and receiving a predetermined control signal in facsimile communication.
The second mode is a mode used for transmitting and receiving image signals.
When the transmitting side communication unit receives a CFR signal which is a kind of the control signal transmitted from the receiving side communication unit,
The transmitting side control unit
An echo countermeasure signal is transmitted to the transmitting side communication unit toward the receiving side facsimile apparatus.
After transmitting the echo countermeasure signal, the transmitting side communication unit is started to transmit the image signal.
The receiving side control unit
After transmitting the CFR signal, the mode of the receiving side modem is maintained in the first mode until the receiving side communication unit receives the echo countermeasure signal from the transmitting side facsimile apparatus.
When the receiving side communication unit receives the echo countermeasure signal from the transmitting side facsimile device, the receiving side modem is set to the second mode.
The echo countermeasure signal is a kind of the control signal for notifying the reception of the CFR signal and the start of transmission of the image signal, and is a signal that can be received when the receiving modem is in the first mode.
The receiving side control unit
Before transmitting the CFR signal, the transmitting side facsimile device is notified to the receiving side communication unit that the echo countermeasure signal is supported.
When the receiving side communication unit receives an instruction to take echo countermeasures from the transmitting side facsimile device, after transmitting the CFR signal, until the receiving side communication unit receives the echo countermeasure signal, the receiving side modem The mode is maintained in the first mode,
A facsimile machine that sets the mode of the receiving side modem to the second mode immediately after transmitting the CFR signal when the receiving side communication unit does not receive an instruction to take echo countermeasures from the transmitting side facsimile machine.

Images