JP3689514B2 - Facsimile machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention particularly relates to ITU-T Recommendation V.3. 8, V. 34 relates to a facsimile apparatus capable of communication.
[0002]
[Prior art]
Conventionally, V.D. 8, V. 34, in the facsimile apparatus capable of communication, V. 8 steps or V. A facsimile apparatus has been proposed that selects whether to execute 21 procedures (for example, Japanese Patent Application No. 6-31386; hereinafter referred to as the first prior art).
[0003]
In this proposal, for the first incoming call, V. 34 communication, V.D. 17, V. 29, V.R. A procedure capable of supporting 27ter communication is started, and the capability of the other party is determined. And as the opponent's ability, V. If there is a 34 communication function, an incoming call from the destination after the next time Respond in 8 steps. V. If the communication function is not provided, an incoming call from the destination after the next time This is executed in 21 steps to shorten the communication time.
[0004]
Further, the conventional V.I. 8, V. As a facsimile apparatus capable of 34 communication, V.I. 8 full-duplex communication procedure or If communication in the full-duplex communication procedure cannot be executed, redial is performed and 21 half-duplex procedure; 27ter, V.I. 29, V.R. One that performs 17 half-duplex image transmission has been proposed (for example, Japanese Patent Application No. 7-44188; hereinafter referred to as the second prior art).
[0005]
That is, when full-duplex communication is disabled, the line is once released, then re-called and connected, and half-duplex communication is executed.
[0006]
[Problems to be solved by the invention]
By the way, in the first prior art, V.V. is associated with each call destination regardless of the line characteristic. 34 communication is selected. 17, V. 29, V.R. Since it has been determined whether or not to select 27ter communication, depending on the state of the line characteristics, the communication may be inefficient.
[0007]
For example, V.I. In 34 communication, there is a drawback that all high-speed data becomes an error in one instantaneous interruption due to superframe encoding or the like. In other words, V. 34 When trying to communicate, The communication time is longer than 17 communication, and the reliability of communication is low.
[0008]
In the first conventional example, since the transmission baud rate and the transmission bit rate are not determined based on the usable bandwidth, when the usable bandwidth is narrow, V.P. When 34 communication is selected, communication may not be possible because communication cannot be performed even at 2400 b / s.
[0009]
That is, V.I. 34 communication baud rates include 2400, 2743, 2800, 3000, 3200, and 3429, and 2400 baud is required even at a transmission rate of 2400 b / s. V. 27ter, 2400b / s baud rate is 1200; The baud rate of 27ter, 4800b / s is 1600.
[0010]
Therefore, when the available bandwidth is narrow, V. When 34 communication is selected, there is a drawback that communication is impossible because communication cannot be performed even at 2400 b / s.
[0011]
In the second conventional example, it is determined that full duplex communication cannot be performed when a response signal to the line probing signal cannot be received. I tried from 17 image transmissions. For this reason, it is necessary to fall back from 14.4 kb / s to 12 kb / s, and further to 9.6 kb / s, 7.2 kb / s, and 4.8 kb / s. There was a drawback of becoming longer.
[0012]
The present invention relates to V.I. 8, V. It is an object of the present invention to provide a facsimile apparatus capable of performing efficient image communication by appropriately selecting 34 communication.
[0013]
[Means for Solving the Problems]
The first invention of the present application is a facsimile apparatus capable of detecting call destination telephone number information before call connection. 8, V. 34 communication means, ITU-T recommendation V21, 27ter, V.I. 29, V.R. 17 communication means and V. corresponding to the call destination telephone number. 8, V. 34 communication is performed, 21, V.R. 27ter, V.I. 29, V.R. 17 for registering whether or not to execute communication, the initial state of the registration means is that V.V. 8, V. 34 After registering to perform communication and detecting an error during reception of the primary channel, if all frames continue to error until the last frame for a predetermined number of times, Corresponding to the destination telephone number 21, V.R. 27ter, V.I. 29, V.R. It is characterized by registering to execute 17 communications.
[0014]
In addition, the second invention of the present application, when an error is detected during reception of the primary channel, and when one frame is correctly received before a predetermined number of times that all the frames are in error until the final frame, A counter that counts a predetermined number of times is reset.
[0015]
In the first and second inventions described above, it is highly likely that one error will affect all subsequent frames from a destination with many interruptions. 34 without communication, one error affects only the next few frames. 27ter, V.I. 29, V.R. 17 communication is performed, and it is possible to reliably perform communication even from a destination with many interruptions.
[0016]
In addition, the third invention of the present application detects a correct frame after an error frame before an error occurs during reception of the primary channel and before a final number of times that all frames have errors. In this case, the counter for counting the predetermined number of times is reset. In the third aspect of the present invention, the V.V. 34 communication can be realized with an emphasis on communication.
[0031]
BEST MODE FOR CARRYING OUT THE INVENTION
FIG. 1 is a block diagram showing the configuration of a facsimile apparatus according to an embodiment of the present invention.
[0032]
In order to use the telephone network for data communication, the NCU (network control unit) 2 is connected to the terminal of the line, performs connection control of the telephone exchange network, switches to the data communication path, loops, etc. Holding. If the signal level (signal line 20a) from the control circuit 20 is “0”, the NCU 2 connects the telephone line 2a to the telephone 4 side. If the signal level is “1”, the NCU 2 connects the telephone line 2a. It connects to the facsimile machine side. In the normal state, the telephone line 2a is connected to the telephone 4 side.
[0033]
The hybrid circuit 6 separates the transmission system signal and the reception system signal, sends the transmission signal from the adder circuit 12 to the telephone line 2a via the NCU 2, receives the signal from the other party via the NCU 2, The signal is sent to the modem 8 via the line 6a.
[0034]
The modem 8 is an ITU-T recommendation V.30. 8, V. 21, V.R. 27ter, V.I. 29, V.R. 17, V. The transmission mode is designated by the signal line 20c. The modulator / demodulator 8 inputs a signal output to the signal line 20b, outputs modulation data to the signal line 8a, receives a reception signal output to the signal line 6a, and inputs the demodulated data to the signal line 8b. Output.
[0035]
The ANSam transmission circuit 10 is a circuit for transmitting an ANSam signal. When a signal level “1” is output to the signal line 20 d, the ANSam transmission circuit 10 transmits the ANSam signal to the signal line 10 a and the signal level “d” to the signal line 20 d. When a “0” signal is output, no signal is output to the signal line 10a.
[0036]
The adder circuit 12 inputs information on the signal line 8a and information on the signal line 10a, and outputs the addition result to the signal line 12a. The reading circuit 14 reads an image of a document and outputs the read image data to a signal line 14a. The recording circuit 16 sequentially records information output to the signal line 20e for each line.
[0037]
The memory circuit 18 is used for storing raw information of read data or encoded information, and storing received information or decoded information.
[0038]
The call signal detection circuit 22 is a circuit that detects a call signal from a line. When a signal of the signal line 2b (signal line 2a) is input and a call signal is detected, a signal level “1” is applied to the signal line 22a. When a call signal is not detected, a signal level “0” is output to the signal line 22a.
[0039]
The telephone number detection circuit 24 is a circuit that detects a telephone number input from a line (signal line 2a) during the call signal. The telephone number detection circuit 24 inputs a signal on the signal line 2b and outputs telephone number information between the call signals. Output to line 24a.
[0040]
The registration circuit 26 corresponds to the telephone number information between call signals, that is, the call destination. 8, V. 34 communication, or V. 21, V.R. 27ter, V.I. 29, V.R. 17 is a circuit for registering whether to perform 17 communications through the signal line 26a.
[0041]
The operation unit 28 has a one-touch dial, abbreviated dial, start key, set key, numeric keypad, * / # key, registration key for the registration circuit 26, and other function keys, and outputs pressed key information to the signal line 28a. To do.
[0042]
The control circuit 20 controls the entire facsimile apparatus. In particular, in this embodiment, the initial state is V.V. corresponding to each call destination telephone number of the registration circuit 26. 8, V. 34, when an error is detected during reception of the primary channel and all the frames up to the last frame are in error for a predetermined number of times. 21, V.R. 27ter, V.I. 29, V.R. 17 Communication is executed. Here, after an error is detected during reception of the primary channel, if one frame can be correctly received before an error occurs in all frames up to the final frame, the counter for the predetermined number of times is reset.
[0043]
2 to 6 are flowcharts showing the operation of the control circuit 20 in the first embodiment of the present invention.
[0044]
In FIG. 2, the operation starts at S0. At S2, the registration circuit 26 is connected to all destinations via the signal line 26a. 8, V. It registers when 34 communication is carried out.
[0045]
In S4, the signal level “0” is output to the signal line 20a, and the CML is turned off. In S6, a signal level “0” is output to the signal line 20d, and the ANSam signal is not transmitted.
[0046]
In S8, information on the signal line 28 is input, and it is determined whether or not registration in the registration circuit 26 is selected. If registration is selected, the process proceeds to S10, and the destination is determined based on the information on the signal line 28a. Correspondingly, 8, V. 34 communication or V. 21, V.R. 27ter, V.I. 29, V.R. 17 is registered in the registration circuit 26 as to whether or not to communicate, and the process proceeds to S12. If registration is not selected, the process proceeds directly to S12.
[0047]
In S12, information on the signal line 22a is input, and it is determined whether or not a call signal is detected. If a call signal is detected, the process proceeds to S16. If no call signal is detected, the process proceeds to S14 and other processing is performed. do.
[0048]
In S16, the information of the signal line 24a is input, and it is determined whether or not the telephone number between the calling signals is detected. If detected, the process proceeds to S18, and the telephone number between the calling signals is stored and detected. If not, the process proceeds to S24.
[0049]
In S20, it is determined whether or not the telephone number between call signals is registered in the registration circuit 26. If registered, the process proceeds to S22, and if not registered, the process proceeds to S24.
[0050]
In S22, it is determined what type of communication is registered in the registration circuit 26 in correspondence with the telephone number between the call signals. 8, V. If the 34 communication is registered, the process proceeds to S32, where 21, V.R. 27ter, V.I. 29, V.R. If 17 communication is registered, the process proceeds to S24.
[0051]
In S24, the signal level “1” is output to the signal line 20a, and the CML is turned on. In S26, V.V. 21 Pre-procedure, V. 27ter, V.I. 29, V.R. Reception of 17-screen signal, V. 21 Perform post-procedures. After this, the process proceeds to S4.
[0052]
In S32, a signal level “1” is output to the signal line 20a, and the CML is turned on. In S34, the ANSam signal is transmitted. In S36, V.I. It is determined whether or not the CM signal of 8 is detected. If detected, the process proceeds to S54, and if not detected, the process proceeds to S38.
[0053]
In S38, it is determined whether or not 3 seconds have elapsed since the start of the transmission of the ANSam signal. If 3 seconds have not elapsed, the process proceeds to S34, and the transmission of the ANSam signal is continued. Proceed to stop transmission of the ANSam signal.
[0054]
In S40, V.I. 21 NSI / CSI / DIS signals are transmitted. Here, V. Declare that there is 8 communication function. In S42, V.I. If the NSS / TSI / DCS signal of No. 21 is detected, the process proceeds to S44, and the reception from this destination is V.21. 21, V.R. 27ter, V.I. 29, V.R. 17 that the communication is made in the registration circuit 26. If 21 NSS / TSI / DCS signals are not detected, the process proceeds to S46.
[0055]
In S46, V.I. 8 determines whether the CI signal of 8 has been detected. If the CI signal of No. 8 is detected, the process proceeds to S52. If the CI signal of 8 is not detected, the process proceeds to S48.
[0056]
In S48, V.I. After the transmission of the 21 NSI / CSI / DIS signal, it is determined whether or not 3 seconds have elapsed. If 3 seconds have elapsed, the process proceeds to S50, and if 3 seconds have not elapsed, the process proceeds to S42.
[0057]
In S50, it is determined whether or not 35 seconds have elapsed since CML was turned on (call connection). If 35 seconds have elapsed, the process proceeds to S4, and if 35 seconds have not elapsed, the process proceeds to S40.
[0058]
In S52, an ANSam signal is transmitted. In S54, a CM signal is received. In S56, a JM signal is transmitted. In S58, a CJ signal is received. A line probing signal is received in S60, a long training signal is received in S62, and parameter exchange is performed in S64.
[0059]
In S66, when an error is detected during reception of the primary channel and all the frames up to the last frame are continuously errored a predetermined number of times (three times), reception from this call destination telephone number is V. 21, V.R. 27ter, V.I. 29, V.R. For the process of performing 17 communications, the counter (continuous error counter) that counts continuous errors for a predetermined number of times (three times) is cleared.
[0060]
In S68, primary channel information is received, and in S70, it is determined whether control channel information has been detected. If control channel information is detected, the process proceeds to S72. If control channel information is not detected, the process proceeds to S68.
[0061]
In S72 and S74, the content of the control channel information is determined. If it is a PPS-Q signal (Q; EOM, MPS, EOP), the process proceeds to S78, and if it is a CTJ signal, the process proceeds to S76. If it is an EOR-Q signal, the process proceeds to S96.
[0062]
In S78, it is determined whether or not there is an error frame in the received primary channel information. If there is an error frame, the process proceeds to S86, and if there is no error frame, the process proceeds to S80.
[0063]
In S80, the continuous error counter cleared in S66 is cleared, and in S82, transmission of the MCF signal in the control channel is shown.
[0064]
In S84, it is determined whether or not the received PPS-Q signal is a PPS-EOP signal. If the received signal is a PPS-EOP signal, the process proceeds to S4. Therefore, the process proceeds to S68.
[0065]
In S86, after receiving the primary channel, it is determined whether all the frames are in error and the consecutive error frames are 5 frames or more after the occurrence of the error frame. If the response is an affirmative response, the process proceeds to S88. The value of the continuous error counter cleared in step 1 is incremented by 1, and the process proceeds to S90. If it is a negative response, the process proceeds to S94, a PPR signal is transmitted as a control channel signal, and the process proceeds to S68.
[0066]
In S90, as a result of the increment in S88, it is determined whether or not the value of the continuous error counter is 3 or more. If it is 3 or more, the process proceeds to S92. 21, V.R. 27ter, V.I. 29, V.R. 17 The fact that communication is to be performed is registered in the registration circuit 26, and the process proceeds to S94. If it is less than 3, the process directly proceeds to S94.
[0067]
In S96, an ERR signal is transmitted on the control channel, and in S98, a DCN signal is transmitted on the control channel. After this, the process proceeds to S4.
[0068]
Next, a second embodiment of the present invention will be described.
[0069]
In the second embodiment, in the first embodiment, after an error is detected during reception of the primary channel, an error frame is detected before a predetermined number of times (three times) that all frames have errors until the last frame. If the frame can be correctly detected later, the predetermined number of counters are reset.
[0070]
FIG. 7 is a flowchart showing portions of the operation of the second embodiment different from those of the first embodiment (FIGS. 2 to 6).
[0071]
In FIG. 7, S100 represents NO in S86. In S102, after receiving an error frame in primary channel reception, it is determined whether or not there is a correctly received frame. If the response is affirmative, the process proceeds to S104, the value of the continuous error counter is cleared, and a negative response is received. If there is, the process proceeds to S106 (S94).
[0072]
Next, a third embodiment of the present invention will be described.
[0073]
FIG. 8 is a block diagram showing the configuration of a facsimile apparatus according to third to fifth embodiments of the present invention.
[0074]
In order to use the telephone network for data communication or the like, the NCU 102 is connected to the terminal of the line, performs connection control of the telephone exchange network, switches to a data communication path, and holds a loop. is there. If the signal level (signal line 120a) from the control circuit 120 is “0”, the NCU 102 connects the telephone line 102a to the telephone 104 side. If the signal level is “1”, the NCU 102 connects the telephone line 102a. It connects to the facsimile machine side. In the normal state, the telephone line 102a is connected to the telephone 104 side.
[0075]
The hybrid circuit 106 separates the transmission system signal and the reception system signal, sends the transmission signal from the adder circuit 112 to the telephone line 102a via the NCU 102, receives the signal from the other party via the NCU 102, The signal is sent to the modem 108 via the line 106a.
[0076]
The modem 108 is an ITU-T recommendation V.30. 8, V. 21, V.R. 27ter, V.I. 29, V.R. 17, V. 34, modulation and demodulation are performed, and each transmission mode is designated by a signal line 120c. The modulator / demodulator 108 inputs a signal output to the signal line 120b, outputs modulated data to the signal line 108a, receives a reception signal output to the signal line 106a, and inputs the demodulated data to the signal line 108b. Output. In addition, usable band information is output to the signal line 108c as a determination result in receiving the line probing signal.
The ANSam transmission circuit 110 is a circuit for transmitting an ANSam signal. When a signal level “1” is output to the signal line 120d, the ANSam transmission circuit 110 transmits the ANSam signal to the signal line 110a and outputs the signal level “1” to the signal line 120d. When a “0” signal is output, no signal is output to the signal line 110a.
[0077]
The adder circuit 112 inputs information on the signal line 108a and information on the signal line 110a, and outputs the addition result to the signal line 112a. The reading circuit 114 reads an image of a document and outputs the read image data to a signal line 114a. The recording circuit 116 sequentially records information output to the signal line 120e for each line.
[0078]
The memory circuit 118 is used for storing raw information of read data or encoded information, and storing received information or decoded information.
[0079]
The call signal detection circuit 122 detects a call signal from the line (signal line 102a). When the signal of the signal line 102b is input and the call signal is detected, the signal level “1” is applied to the signal line 122a. If a call signal is not detected, a signal level “0” is output to the signal line 122a.
[0080]
The telephone number detection circuit 124 is a circuit that detects a telephone number between call signals input from a line (signal line 102a). The telephone number detection circuit 124 receives a signal on the signal line 102b and receives telephone number information between the call signals as a signal line 124a. Output to.
[0081]
The registration circuit 126 is a circuit for registering the used line band determined by line probing via the signal line 126a in correspondence with the telephone number information between call signals, that is, the call destination.
[0082]
The control circuit 120 controls the entire facsimile apparatus. In particular, in this embodiment, the V. 8 procedures, V.D. If the usable bandwidth is equal to or lower than the predetermined bandwidth when the line probing signal is received, the communication is interrupted, and the incoming call for the predetermined time after that is V.34. 21 procedures; 27ter image transmission is controlled.
[0083]
9 and 10 are flowcharts showing the operation of the control circuit 120 in the third embodiment of the present invention.
[0084]
In FIG. 9, the operation starts in S200. Clear the timer (V.27ter communication timer) that forces 27ter. Note that this timer is not negative.
[0085]
In S204, a signal level “0” is output to the signal line 120a, and the CML is turned off. In S206, the signal level “0” is output to the signal line 120d, and the ANSAN signal is not transmitted.
[0086]
In S208, information on the signal line 122a is input, and it is determined whether or not an incoming call is selected. If the incoming call is selected, the process proceeds to S212. If the incoming call is not selected, the process proceeds to S210, and other processing is performed.
[0087]
In S212, a signal level “1” is output to the signal line 120a, and the CML is turned on. In S214, V.I. It is determined whether or not the 27ter communication timer exceeds 0. If it exceeds 0, the process proceeds to S216 and subsequent steps. 27ter communication is executed, and if it is 0, the process proceeds to S222 and thereafter. 8, V. 34 communication is executed.
[0088]
In S216, a pre-procedure is performed. Here, V. 21 DIS signal, V. Declare 27ter 4800b / s, 2400b / s communication function available. In S218, V.I. 27ter image signals are received. In S220, V.I. 21 performs the post-procedure and proceeds to S204.
[0089]
On the other hand, ANSam signal transmission is performed in S222, CM signal reception is performed in S224, JM signal transmission is performed in S226, and CJ signal reception is performed in S228. In S230, a line probing signal is received, and the result is determined in S232. If the used line bandwidth is 2400 Hz or more, the process proceeds to S234. 34, communication is continued, and if it is less than 2400 Hz, the process proceeds to S240 and communication is interrupted.
[0090]
In S234, a long training signal is received. In S236, parameter exchange is performed. In S238, primary channel transmission and control channel transmission are sequentially performed. Thereafter, the process proceeds to S104.
[0091]
In S240, V.P. Set 10 minutes to the 27ter communication timer. In S242, since the line bandwidth used is narrow, 34 Record that the communication is interrupted as a communication result report. Thereafter, the process proceeds to S104.
[0092]
Next, a fourth embodiment of the present invention will be described.
[0093]
This fourth embodiment is the same as that of V.I. 8, V. 34, the usable bandwidth determined by receiving the line probing signal during communication is sequentially registered corresponding to the destination, and when receiving a call, the destination information of the destination is determined and registered correspondingly. Depending on the available bandwidth, V. 8, V. 34 communication or V. 21, Decide whether to execute V27ter communication. That is, when the available bandwidth exceeds the predetermined bandwidth, V. 8, V. 34 communication is executed and when it is below the predetermined bandwidth, 21, V.R. 27ter communication is executed.
[0094]
FIGS. 11 and 12 are flowcharts showing portions of the operation of the fourth embodiment that are different from the third embodiment (FIGS. 9 and 10).
[0095]
In FIG. 11, S250 represents the above S200. In S252, all the contents of the registration circuit 126 are cleared via the signal line 126a. Thereafter, in S254, the process proceeds to S204.
[0096]
S256 represents YES in S208. In S258, if there is telephone number information between call signals, it is stored. Next, in S260, it is determined whether or not the destination detected in S258 is registered in the registration circuit 126. If registered, the process proceeds to S266, and if not registered, the process proceeds to S262.
[0097]
In S262, the signal level “1” is output to the signal line 120a, and the CML is turned on. In S264, the process proceeds to S222.
[0098]
In S266, it is determined whether or not the used line bandwidth registered in the destination registration circuit 126 detected in S258 is 2400 Hz or more. If it is 2400 Hz or more, the process proceeds to S262, and if it is less than 2400 Hz, the process proceeds to S268. move on.
[0099]
In S268, the signal level “1” is output to the signal line 120a, and the CML is turned on. In S270, the process proceeds to S216.
[0100]
S272 represents S230 described above. In step S274, corresponding to the call destination detected in step S258, registration is performed in the use line band registration circuit 126 detected in the line probing reception. Thereafter, in S276, the process proceeds to S234.
[0101]
Next, a fifth embodiment of the present invention will be described.
[0102]
In the fifth embodiment, V.D. 8 procedures, V.D. If the usable bandwidth is equal to or lower than the predetermined bandwidth when the line probing signal is received, the process proceeds to the execution of 34-image transmission. 21. After that, V. 27ter image transmission is executed.
[0103]
FIG. 13 is a flowchart showing portions of the operation of the fifth embodiment different from those of the third embodiment (FIGS. 9 and 10).
[0104]
In FIG. 13, S280 represents S200, S282 represents S204, S284 represents S212, and S286 represents S222. That is, in this embodiment, the process proceeds directly from S200 to S204 and directly from S212 to S222. The processing by the 27ter communication timer is not performed.
[0105]
S288 represents NO in S232. In S290, V.P. 21 NSF / CSI / DIS signals are transmitted. Here, the V.V. Only 27ter 4800b / s and 2400b / s reception functions are notified.
[0106]
Next, in S292, V.P. 21 NSS / TSI / DCS signals are received. In S94, V.V. In the pre-procedure based on No. 21, V. 27ter image transmission. The post-procedure based on 21 is sequentially performed, and the process proceeds to S204 in S300.
[0107]
Next, a sixth embodiment of the present invention will be described.
[0108]
FIG. 14 is a block diagram showing the configuration of a facsimile apparatus according to the sixth and seventh embodiments of the present invention.
[0109]
In order to use the telephone network for data communication or the like, the NCU 202 connects to the terminal of the line, performs connection control of the telephone exchange network, switches to the data communication path, and holds a loop. is there. If the signal level (signal line 220a) from the control circuit 220 is “0”, the NCU 202 connects the telephone line 202a to the telephone 204 side. If the signal level is “1”, the NCU 202 connects the telephone line 202a. It connects to the facsimile machine side. In the normal state, the telephone line 202a is connected to the telephone 204 side.
[0110]
The hybrid circuit 206 separates the transmission system signal and the reception system signal, sends the transmission signal from the addition circuit 212 to the telephone line 202a via the NCU 202, receives the signal from the other party via the NCU 202, The signal is sent to the modem 208 via the line 206a.
[0111]
The modem 208 is an ITU-T recommendation V.30. 8, V. 21, V.R. 27ter, V.I. 29, V.R. 17, V. 34, modulation and demodulation are performed, and each transmission mode is designated by a signal line 220c. The modem 208 receives the signal output to the signal line 220b, outputs the modulated data to the signal line 208a, receives the received signal output to the signal line 206a, and inputs the demodulated data to the signal line 208b. Output.
[0112]
The ANSam transmission circuit 210 is a circuit that transmits an ANSam signal. When a signal level “1” is output to the signal line 220d, the ANSam transmission circuit 210 transmits an ANSam signal to the signal line 210a and outputs a signal level “1” to the signal line 220d. When a “0” signal is output, no signal is output to the signal line 210a.
[0113]
The adding circuit 212 inputs information on the signal line 208a and information on the signal line 210a, and outputs the addition result to the signal line 212a. The reading circuit 214 reads an image of a document and outputs the read image data to a signal line 214a. The recording circuit 216 sequentially records information output to the signal line 220e for each line.
[0114]
The memory circuit 218 is used for storing raw information of read data or encoded information, and storing received information or decoded information.
[0115]
When a call command pulse is generated on the signal line 20g, the calling circuit 222 outputs a selection signal for the telephone number output on the signal line 220f to the signal line 202b.
[0116]
The registration circuit 224 is a circuit for registering a communication mode and a counter (used as a communication error counter and a communication establishment counter) corresponding to a call destination of a one-touch dial or abbreviated dial, and is input / output via a signal line 224a. Is done.
[0117]
The control circuit 220 controls the entire facsimile apparatus. 8, V. 34 After starting the communication and transmitting the line probing signal, if the response signal from the partner machine cannot be received, the line is disconnected, the call is automatically made to the destination after a predetermined time, and the retransmission is executed. To control. When this retransmission is performed, V. 21, V.R. 27ter communication is controlled.
[0118]
15 to 17 are flowcharts showing the operation of the control circuit 220 in the sixth embodiment.
[0119]
First, the operation is started in S400, and in S402, a signal level “0” is output to the signal line 220a, and the CML is turned off. In S404, the signal level “0” is output to the signal line 220d, and the ANSam signal is not transmitted.
[0120]
Next, in S406, it is determined whether or not automatic calling is selected by an operation unit (not shown in FIG. 14). If selected, the process proceeds to S410. If not selected, the process proceeds to S408, and other processing is performed. To do.
[0121]
In S410, 0 is set to a call counter that counts the number of calls. In S412, the calling circuit 222 is used to make a call to the designated destination. In S413, the signal level “1” is output to the signal line 220a, and the CML is turned on.
[0122]
Next, the ANSam signal is received in S414, the CM signal is received in S416, the JM signal is received in S418, and the CJ signal is transmitted in S420.
[0123]
Next, S422 represents transmission of the line probing signal. In S422, it is determined whether or not a response signal INFOh signal for the line probing signal has been received. If not, the process proceeds to S432.
[0124]
In S426, a long training signal is received, in S428, parameter exchange is performed, and in S430, transmission of a primary channel and transmission of a control channel are sequentially performed. Thereafter, the process proceeds to S402.
[0125]
In S432, the signal level “0” is output to the signal line 232a to turn off the CML. In S434, the value of the calling counter is incremented by one.
[0126]
In S436, it is determined whether or not the call counter is 3 or more, and if it is 3 or more, the process proceeds to S402.
[0127]
If it is less than 3, the process proceeds to S438, waits for one minute, and then, in S440, uses the calling circuit 222 to redial the destination that has just called.
[0128]
Next, in S442, a signal level “1” is output to the signal line 220a and CML is turned on. Pre-procedure according to 21 is performed. Here, V. 21 DCS signal, V. Select 27ter 4800b / s. If the training TCF signal falls back, transmission at 2400 b / s is selected. In S446, V.S. 27 ter image transmission is performed. The post-procedure according to 21 is performed. Thereafter, the process proceeds to S402.
[0129]
Next, a seventh embodiment of the present invention will be described.
[0130]
In the seventh embodiment, as an initial state, V.V. 8, V. 34 If the communication that cannot receive the response signal from the other party continues after transmitting the line probing signal after transmitting the line probing signal after registering to execute 34 communication, The call to the destination is V. 21, V.R. 27ter communication.
[0131]
In the seventh embodiment, V.V. 21, V.R. In communication to a call destination registered to perform 27ter communication, if 4800b / s communication is established without error for five consecutive times, V.V. 21, V.R. 27ter, V.I. 29, V.R. 17 Register to perform communication, and execute communication based on this information.
[0132]
Further, in the seventh embodiment, V.I. 21, V.R. 27ter, V.I. 29, V.R. In the communication to the callee registered to perform the 17 communication, if the 14.4 kb / s communication is established without error for 5 consecutive times, the V.17 8, V. 34 Registration is performed when communication is performed, and communication is executed based on this information.
[0133]
FIGS. 18 and 19 are flowcharts showing portions of the operation of the control circuit 220 in the seventh embodiment that are different from those in the sixth embodiment (FIGS. 15 to 17).
[0134]
In FIG. 18, S450 represents S400. In step S452, the circuit 224 is connected to all destinations via the signal line 424a. 8, V. The counter is cleared as 34 communication. Thereafter, in S454, the process proceeds to S402.
[0135]
S456 represents S413 described above. In S458, the communication mode registered in the registration circuit 224 corresponding to the call destination is checked. 8, V. If the communication is 34 communication, the process proceeds to S460 (S414). 21, V.R. If it is 27ter communication, the process proceeds to S462 (S444). 21, V.R. 27ter, V.I. 29, V.R. If it is 17 communications, the process proceeds to S464.
[0136]
In S464, V.I. Pre-procedure according to 21 is performed. Here, V.V. 17, V. 29, V.R. 27ter is selected from a high transmission speed. In S466, V.I. 17, V. 29, V.R. 27 ter image transmission is performed. The post-procedure at 21 is performed.
[0137]
In S470, it is determined whether or not all pages are transmitted at 14.4 kb / s. If it is an affirmative response, the process proceeds to S474, and if it is a negative response, the process proceeds to S472.
[0138]
In S472, the counter value of the designated call destination of the registration circuit 224 is cleared via the signal line 224a. Thereafter, the process proceeds to S402 in S480.
[0139]
In S474, the designated call destination counter value of the registration circuit 224 is incremented by one via the signal line 224a. In S476, it is determined whether or not the counter value incremented in S474 is 5 or more. If 5 or more, the process proceeds to S478, and if it is less than 5, the process proceeds to S402 in S480.
[0140]
In S478, the V.V. signal corresponding to the designated destination of the registration circuit 224 via the signal line 224a. 8, V. 34 communication, the counter is reset and stored. Thereafter, the process proceeds to S402 in S480.
[0141]
Next, S482 represents the above S448. In S484, it is determined whether or not all pages are transmitted at 4.8 kb / s. If the response is an affirmative response, the process proceeds to S486. If the response is a negative response, the process proceeds to S472.
[0142]
In S486, the counter value of the designated call destination of the registration circuit 224 is incremented by one through the signal line 224a as in S474. In S488, similarly to S76, it is determined whether or not the counter value incremented in S486 is 5 or more. If it is less than 5, the process proceeds to S492 (S402), and if it is 5 or more, the process proceeds to S490. .
[0143]
In S490, V.A corresponds to the designated destination of the registration circuit 224 via the signal line 224a. 21, V.R. 27ter, V.I. 29, V.R. 17 communication, and the counter is reset and stored. Thereafter, the process proceeds to S492 (S402).
[0144]
S494 represents S430 and S496 represents S472. That is, in this embodiment, after the primary channel transmission and the control channel transmission are sequentially performed in S494, the process does not proceed directly to S402, but in S496, the designated call destination of the registration circuit 224 via the signal line 224a. In step S480, the process proceeds to step S402.
[0145]
S498 represents NO in S424. In S500, the counter value of the designated call destination of the registration circuit 224 is incremented by one through the signal line 224a.
[0146]
Next, in S502, it is determined whether or not the counter value incremented in S500 is 2 or more. If it is 2 or more, the process proceeds to S504. If it is less than 2, the process proceeds to S402 in S506.
[0147]
In step S504, the address corresponding to the designated destination of the registration circuit 224 via the signal line 224a is set. 21, V.R. 27ter communication, the counter is reset and stored. Thereafter, the process proceeds to S402 in S506.
[0148]
【The invention's effect】
As described above, according to the first and second inventions of the present application, it is highly likely that one error will affect all subsequent frames from a destination with many interruptions. 34 without communication, one error affects only the next few frames. 27ter, V.I. 29, V.R. Since 17 communication is performed, it is possible to reliably perform communication from a destination with many interruptions depending on the line status.
[0149]
In addition, according to the third invention of the present application, V.V. 34 communication can be realized with an emphasis on communication.
[Brief description of the drawings]
FIG. 1 is a block diagram showing the configuration of first and second embodiments of the present invention.
FIG. 2 is a flowchart showing the operation of the first embodiment.
FIG. 3 is a flowchart showing the operation of the first embodiment.
FIG. 4 is a flowchart showing the operation of the first embodiment.
FIG. 5 is a flowchart showing the operation of the first embodiment.
FIG. 6 is a flowchart showing the operation of the first embodiment.
FIG. 7 is a flowchart showing the operation of the second embodiment.
FIG. 8 is a block diagram showing a configuration of third, fourth, and fifth embodiments of the present invention.
FIG. 9 is a flowchart showing the operation of the third embodiment.
FIG. 10 is a flowchart showing the operation of the third embodiment.
FIG. 11 is a flowchart showing the operation of the fourth embodiment.
FIG. 12 is a flowchart showing the operation of the fourth embodiment.
FIG. 13 is a flowchart showing the operation of the fifth embodiment.
FIG. 14 is a block diagram showing a configuration of sixth and seventh embodiments of the present invention.
FIG. 15 is a flowchart showing the operation of the sixth embodiment.
FIG. 16 is a flowchart showing the operation of the sixth embodiment.
FIG. 17 is a flowchart showing the operation of the sixth embodiment.
FIG. 18 is a flowchart showing the operation of the seventh embodiment.
FIG. 19 is a flowchart showing the operation of the seventh embodiment.
[Explanation of symbols]
2, 102, 202 ... NCU,
4, 104, 204 ... telephone,
6, 106, 206 ... hybrid circuit,
8, 108, 208 ... modems,
10, 110, 210 ... ANSam sending circuit,
12, 112, 212 ... adder circuit,
14, 114, 214 ... reading circuit,
16, 116, 216... Recording circuit,
18, 118, 218 ... memory circuit,
20, 120, 220 ... control circuit,
22, 122... Call signal detection circuit,
24, 124 ... telephone number detection circuit,
26, 126, 224 ... registration circuit,
28 ... operation unit,
222: Calling circuit.

Claims (3)

In a facsimile machine capable of detecting the call destination telephone number information before connecting the call,
ITU-T Recommendation V. 8, V. 34 communication means;
ITU-T Recommendation V21, V.I. 27ter, V.I. 29, V.R. 17 communication means;
Corresponding to the call destination telephone number 8, V. 34 communication is performed, 21, V.R. 27ter, V.I. 29, V.R. 17 registration means for registering whether to execute communication;
Have
For the registration means, the initial state is that V.V. 8, V. 34 After registering to perform communication and detecting an error during reception of the primary channel, if all frames continue to error until the last frame for a predetermined number of times, Corresponding to the destination telephone number 21, V.R. 27ter, V.I. 29, V.R. 17. A facsimile apparatus that registers to execute communication. In claim 1,
After detecting an error during reception of the primary channel, if one frame is correctly received before a predetermined number of times that all the frames are in error until the last frame, the counter for counting the predetermined number of times is reset. A facsimile machine. In claim 1,
If a correct frame is detected after an error frame before an error occurs during the primary channel reception and before the final frame, all frames up to the last frame are generated. A facsimile machine characterized by resetting.

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