JP5790182B2 - Facsimile machine - Google Patents

Description

  The present invention relates to a facsimile apparatus having an energy saving mode.

2. Description of the Related Art In recent years, composite type facsimile apparatuses in which a facsimile apparatus having a facsimile communication function and a telephone call function are combined with a plurality of functions such as a printer function and a copy function have become widespread.
In addition, in order to realize power saving, a composite facsimile machine capable of shifting between a normal mode that can be operated immediately in response to a job request and an energy saving mode in which power consumption is reduced compared to the normal mode. Has been proposed.

JP 2005-354376 A

  In the energy saving mode, the control unit, the modem, and the like that process the detection of signals related to incoming facsimiles are in the sleep state. When a CI (Call Indicator) signal, which is a call signal, is received in such an energy saving mode, the facsimile apparatus is controlled to return from the energy saving mode in response to the detection of the CI signal. However, the control unit cannot perform the signal detection process after the CI signal is detected until the facsimile apparatus returns from the energy saving mode. As a result, since the control unit detects signals after the CI signal after the facsimile apparatus returns to the normal mode, there is a problem that it takes time to process the incoming facsimile.

  SUMMARY OF THE INVENTION An object of the present invention is to shorten the time required for facsimile incoming call processing in an energy saving mode in a facsimile apparatus.

Hereinafter, a plurality of modes will be described as means for solving the problems. These aspects can be arbitrarily combined as necessary.
A facsimile apparatus according to an aspect of the present invention includes a first control unit and a second control unit. The first control unit operates in the energy saving mode or the normal mode, and controls incoming calls via the public line network. When the first control unit is in the energy saving mode or returning from the energy saving mode to the normal mode, the second control unit detects a CI (Call Indicator) signal via the public network instead of the first control unit. Process signal detection.

  Here, even when the first control unit is returning from the energy saving mode or the energy saving mode to the normal mode, the second control unit can control the signal detection process after the CI signal in place of the first control unit. Therefore, after returning to the normal mode, the first control unit may take over the signal detection processed by the second control unit and control the incoming facsimile. As a result, even when the first control unit is returning to the normal mode from the energy saving mode or the energy saving mode, it is possible to shorten the time required for the facsimile incoming call processing. Even when the first control unit is returning to the normal mode from the energy saving mode or the energy saving mode, the second control unit controls the signal detection process on behalf of the first control unit. The signal via the network can be detected reliably.

The second control unit may include a result notification unit that notifies the first control unit of the processing result by the second control unit after the first control unit returns to the normal mode.
Here, the result notification unit notifies the first control unit after the processing result by the second control unit has returned to the normal mode, so that the first control unit takes over the processing by the second control unit and promptly Control of facsimile reception can be started.

  According to the present invention, even when the first control unit is returning from the energy saving mode or the energy saving mode to the normal mode, it is possible to shorten the time required for the facsimile incoming call processing in the facsimile apparatus.

1 is a block diagram showing the overall configuration of a facsimile apparatus. The block diagram which shows the internal structure of a basic block and a sub control unit. The flowchart which shows the flow of a process between a main control unit, a sub control unit, and NCU.

1. First Embodiment (1) Outline of Facsimile Apparatus Hereinafter, a facsimile apparatus 1 according to the present embodiment will be described with reference to FIG. FIG. 1 is a block diagram showing the overall configuration of the facsimile apparatus of this embodiment. The facsimile apparatus 1 is a so-called multifunction machine having a copy function, a facsimile communication function, a scanner function, and a network printer function.

The facsimile machine 1 includes a basic block 10, a sub control unit 30, a function block 40, a power supply device 50, and a power supply controller 60. The facsimile apparatus 1 further includes a system bus 70, and each unit in the facsimile apparatus 1 is connected to each other by the system bus 70.
In addition, a telephone 90 is connected to the facsimile apparatus 1 via a cable (not shown), and the telephone 90 can perform transmission / reception of voice data with the other party, that is, telephone operation.

  The facsimile apparatus 1 is set with a normal mode and an energy saving mode. The state of the facsimile machine 1 can be shifted between the normal mode and the energy saving mode under the control of a CPU (Central Processing Unit) 12 of the main control unit 11 described later. The normal mode refers to a state in which the facsimile apparatus 1 can immediately execute processing based on the operation instruction when there is any operation instruction. The energy saving mode refers to a state where the power consumption is lower than the power consumption in the normal mode. For example, in the energy saving mode, the power supply to the main control unit 11 is lowered in the facsimile apparatus 1 and each part of the main control unit 11 enters a sleep state. In the energy saving mode, the power supply to the functional block 40 is lowered, the operation unit 42 and the display unit 45 of the functional block 40 are not displayed, and the standby temperature in the recording unit 46 is lowered.

  The facsimile apparatus 1 shifts from the normal mode to the energy saving mode under the control of the CPU 12 when there is no operation input from the operation unit 42 and the display unit 45 for a certain time or when there is no image data input for a certain time. Further, when the facsimile apparatus 1 receives an input of a return operation from the operation unit 42 and the display unit 45 to the normal mode, the facsimile machine 1 returns from the energy saving mode to the normal mode under the control of the CPU 12. Furthermore, in the present embodiment, when the facsimile apparatus 1 receives a return request from the sub-control unit 30, it returns from the energy saving mode to the normal mode under the control of the CPU 12, and details will be described later.

  The basic block 10 controls basic operations of the facsimile apparatus 1 and controls transmission / reception of communication via a public line network (PSTN: Public Switched Telephone Network) in the figure. The basic block 10 includes a main control unit 11 and an NCU (Network Control Unit) 20.

When the main power supply (not shown) of the facsimile apparatus 1 is ON and the facsimile apparatus 1 is in the normal mode, power is always supplied from the power supply device 50 to the basic block 10 via the power supply controller 60.
Further, when the facsimile apparatus 1 is in the energy saving mode, the power supply from the power supply apparatus 50 to the main control unit 11 is reduced, and the main control unit 11 enters a sleep state. On the other hand, even when the facsimile apparatus 1 is in the energy saving mode, the NCU 20 is supplied with a certain amount of power from the power supply apparatus 50, and the NCU 20 detects a signal via the public network 80 as in the normal mode. it can. Details of the basic block 10 and the NCU 20 will be described later.

  The sub-control unit 30 detects a signal related to communication via the public line network 80 instead of the main control unit 11 when the facsimile apparatus 1 is in the energy-saving mode or returns from the energy-saving mode to the normal mode. Process. When the main power supply of the facsimile apparatus 1 is ON, a constant power is supplied from the power supply apparatus 50 to the sub control unit 30 regardless of whether the facsimile apparatus 1 is in the normal mode or the energy saving mode. Details of the sub-control unit 30 will be described later.

  The function block 40 executes a copy function, a facsimile communication function, a scanner function, and a network printer function. Power corresponding to the normal mode and the energy saving mode is supplied from the power supply device 50 to the functional block 40 via the power supply controller 60. The functional block 40 includes a reading unit 41, an operation unit 42, an image memory 43, a codec 44, a display unit 45, a recording unit 46, and a LAN interface (I / F in the figure) 47.

The reading unit 41 reads image data of a document and outputs the read binarized data and the like to a predetermined output destination according to an instruction from the CPU 12 of the main control unit 11.
The operation unit 42 includes a one-touch key for designating a destination by a one-touch dial, a start key for giving a transmission start instruction to the facsimile apparatus 1, a numeric keypad for inputting a telephone number, and a reverse display in the display unit 45. An arrow key for moving and the like is provided. An operation instruction by the user is received by the operation unit 42.

The image memory 43 temporarily stores the received image data and the image data read by the reading unit 41 and converted into black and white binary and encoded by the codec 44.
The codec 44 encodes and decodes image data corresponding to a predetermined protocol. Specifically, the codec 44 encodes the image data received from the reading unit 41 by an MH (Modified Huffman) and MR (Modified READ) method for transmission, and decodes the image data received from the external device. The codec 44 also encodes and decodes image data in accordance with a TIFF method that is an image format generally used as a file that can be attached to an e-mail.

The display unit 45 includes a display panel and the like, and displays information related to the state of the facsimile machine 1, various operation instruction screens, and the state of the facsimile machine 1.
The recording unit 46 is made of, for example, an electrophotographic system, forms an image of the received image data on a sheet, and discharges the sheet. For example, image data of a document read by the reading unit 41, image data received by facsimile, and image data received via a LAN are printed on paper.

  The LAN I / F 47 transmits / receives data to / from other devices installed on the same LAN using SLP or TCP (Transmission Control Protocol) / IP (Internet Protocol).

  The power supply device 50 is a power supply device that converts alternating-current commercial power into direct current and supplies it to the facsimile machine 1. The power supply device 50 supplies power corresponding to the normal mode or the energy saving mode to each part of the facsimile machine 1 under the control of the power supply controller 60 when the main power supply is on.

  The power supply controller 60 includes an electromagnetic relay, an FET (field effect transistor), and the like, and is connected to each part of the facsimile apparatus 1 via a power supply line 61. The power supply controller 60 connects and disconnects the power supply line 61 in accordance with a control command from the CPU 12 of the main control unit 11, and supplies power corresponding to the normal mode or the energy saving mode to each part of the facsimile apparatus 1.

(2) Functional Configuration of Basic Block Next, the functional configuration of the basic block 10 will be described with reference to FIG. FIG. 2 is a block diagram showing an internal configuration of the basic block and the sub control unit. The basic block 10 includes the main control unit 11 and the NCU 20 as described above.

(2-1) NCU
The NCU 20 is connected to the public line network 80 and controls communications including outgoing calls and incoming calls via the telephone line 28. If the NCU 20 in the present embodiment detects a signal exceeding a predetermined level on the telephone line 28 and detects a line change of the telephone line 28, the NCU 20 calls the CPU 12 of the main control unit 11 or the sub CPU 31 of the sub-control unit 30. The line change of the line 28 is notified. Thereafter, the NCU 20 is controlled by the CPU 12 of the main control unit 11 or the sub CPU 31 of the sub control unit 30. In the following description of the NCU 20, an example in which the facsimile apparatus 1 is in the normal mode and the NCU 20 is controlled by the CPU 12 of the main control unit 11 will be described.

  The NCU 20 includes a CML relay 21, a first transformer 22, a signal detection circuit 23, an off-hook detection circuit 24, a ringing voltage generation circuit 25, an H relay 26, a second transformer 27, and a telephone line 28.

  The CML relay 21 is provided to selectively connect the telephone line 28 to the modem 17 and the signal detection circuit 23. When the CML relay 21 is switched to the a contact side under the control of the CPU 12, the telephone line 28 is connected to the signal detection circuit 23. On the other hand, when the CML relay 21 is switched to the b contact side under the control of the CPU 12, the telephone line 28 is connected to the modem 17 via the first transformer 22. In a state where the facsimile apparatus 1 is waiting for an incoming facsimile from an external apparatus, the CML relay 21 is connected to the a contact side.

  The signal detection circuit 23 is arranged so as to be connected to the a contact side of the CML relay 21, detects a signal transmitted from an external device via the telephone line 28, and notifies the CPU 12 of the signal detection. Specifically, the signal detection circuit 23 detects a CI (Call Indicator) signal that is a calling signal.

  The off-hook detection circuit 24 is connected to the telephone 90. The off-hook detection circuit 24 detects the off-hook state of the telephone 90 and outputs the detection result to the CPU 12. The off-hook state refers to a state where the handset of the telephone 90 is picked up.

The ringing voltage generation circuit 25 supplies a predetermined current to the telephone set 90 when detecting the off-hook state of the telephone set 90. Specifically, the ringing voltage generation circuit 25 supplies a predetermined current to the telephone set 90 in order to detect the off-hook state of the telephone set 90.
The ringing voltage generating circuit 25 has a function of generating a pseudo bell signal that is the same signal as a general CI signal and ringing the telephone 90 to notify the user of an incoming facsimile. The pseudo bell signal is an incoming bell signal for ringing the telephone 90 in response to the reception of the CI signal from the external device. The ringing voltage generation circuit 25 generates a pseudo bell signal when the CI signal is detected by the signal detection circuit 23.

The H relay 26 is provided for selectively connecting the telephone 90 to the telephone line 28 and the ringing voltage generation circuit 25. When the H relay 26 is switched to the contact a side under the control of the CPU 12, the telephone 90 is connected to the telephone line 28 side, and when the H relay 26 is switched to the contact b side, the telephone 90 is connected to the ring voltage generating circuit 25. Connected to the side. In the state where the facsimile apparatus 1 is waiting for an incoming facsimile from an external apparatus, the H relay 26 is connected to the b contact side, and the telephone 90 and the ringing voltage generating circuit 25 are connected.
The second transformer 27 is connected between the telephone 90 and the modem 17.

(2-2) Main Control Unit The main control unit 11 controls the basic operation of the facsimile machine 1 and controls the NCU 20. As described above, the main control unit 11 operates by shifting between the energy saving mode and the normal mode in the same manner as the facsimile machine 1. The main control unit 11 has a CPU 12, a modem 17, a ROM 18 and a RAM 19.

  CPU12 controls each part which comprises the facsimile apparatus 1 according to a predetermined program. The CPU 12 includes a CI signal detection unit 13, a DTMF detection unit 14, a reception control unit 15, and a mode notification unit 16. As will be described later, the CI signal detection unit 13, the DTMF detection unit 14, the reception control unit 15, and the mode notification unit 16 perform the following operations only when the facsimile apparatus 1 is in the normal mode.

The CI signal detection unit 13 determines whether the signal detection circuit 23 has detected a CI signal when the telephone line 28 has changed.
A DTMF (Dual Tone Multi Frequency) signal detector 14 receives a DTMF signal sent from the external device to the facsimile machine 1. In the present embodiment, the DTMF signal is a signal for instructing facsimile reception processing, and is generated when the user presses a dial key (not shown) of the telephone 90.

  The reception control unit 15 controls the NCU 20 when it is determined that the CI signal detection unit 13 has detected a CI signal. Specifically, the reception control unit 15 controls the relay of the NCU 20 to perform facsimile incoming call processing. For example, the reception control unit 15 connects the H relay 26 to the contact b side and causes the telephone 90 to ring the incoming call bell by a pseudo bell signal output from the calling voltage generation circuit 25. Further, when the DTMF signal is detected by the DTMF detection unit 14, the reception control unit 15 switches the CML relay 21 to the b contact side, connects the telephone line 28 and the modem 17, and receives the facsimile in the facsimile apparatus 1. Start processing.

  If there is a mode transition in the facsimile apparatus 1, the mode notification unit 16 notifies the sub control unit 30 of the mode transition. For example, when the facsimile apparatus 1 starts transition from the normal mode to the energy saving mode or returns from the energy saving mode to the normal mode, a notification of mode transition is output to the sub-control unit 30.

  The modem 17 is a modem device that mutually converts a digital signal and an analog signal, and has a function of a facsimile modem for facsimile communication. The modem 17 is directly connected to the NCU 20.

A ROM (Read Only Memory) 18 stores various programs read by the CPU 12.
A RAM (Random Access Memory) 19 is a main memory of the CPU 12 that stores various setting information registered in advance, and functions as a work area for executing various programs.

In such a basic block 10, when the line change of the telephone line 28 occurs in the NCU 20 and the CI signal is detected by the signal detection circuit 23, a pseudo bell signal is output by the ringing voltage generation circuit 25, and the ringing ring of the telephone 90 is It rings. At this time, the H relay 26 is connected to the b contact side, and a pseudo bell signal from the calling voltage generation circuit 25 is output to the telephone 90 via the H relay 26.
Thereafter, when the user who has heard the ringing ring of the telephone 90 off-hooks the telephone 90 and presses a predetermined dial key on the telephone 90, a DTMF signal is generated. If the generated DTMF signal is detected by the DTMF detector 14, the CML relay 21 is switched to the b contact side by the reception controller 15, the telephone line 28 and the modem 17 are connected, and the facsimile reception process in the facsimile apparatus 1 is performed. Be started.

(3) Functional configuration of sub-control unit The sub-control unit 30 communicates via the public line network 80 instead of the main control unit 11 when the facsimile apparatus 1 returns to the normal mode from the energy-saving mode or the energy-saving mode. The signal detection process is performed. The sub control unit 30 will be described again with reference to FIG.

As described above, when the facsimile apparatus 1 is operating in the normal mode, the main control unit 11 controls the NCU 20. That is, if the detection of the CI signal by the signal detection circuit 23 is determined and then the DTMF signal is detected, the main control unit 11 performs facsimile reception processing in the facsimile apparatus 1. However, when the main control unit 11 is in the energy saving mode or when returning from the energy saving mode to the normal mode, the DTMF signal cannot be detected.
Therefore, when the main control unit 11 is returning from the energy saving mode or the energy saving mode to the normal mode, the sub control unit 30 controls the NCU 20.

The sub control unit 30 includes a sub CPU 31 and a DTMF processing result storage unit 35.
The sub CPU 31 controls the NCU 20 from the mode notification unit 16 until the facsimile apparatus 1 receives a notification of transition from the normal mode to the energy saving mode and then receives a notification of return from the energy saving mode to the normal mode. The sub CPU 31 includes a sub CI signal detection unit 32, a sub DTMF detection unit 33, and a result notification unit 34.

  The sub-CI signal detection unit 32 determines whether or not the signal detection circuit 23 has detected a CI signal when there is a line change in the telephone line 28. If the sub-CI signal detection unit 32 determines that the CI signal has been detected, the sub-CI signal detection unit 32 transmits a request for returning from the energy saving mode to the normal mode to the CPU 12 of the main control unit 11.

  The sub DTMF detector 33 detects a DTMF signal that is a signal for instructing a facsimile reception process. Further, the sub DTMF detection unit 33 stores the received DTMF signal in the DTMF processing result storage unit 35.

  When the result notification unit 34 receives the notification of the return of the facsimile apparatus 1 to the normal mode from the mode notification unit 16, the result notification unit 34 indicates the processing result performed by the sub control unit 30 instead of the main control unit 11. To notify. For example, the result notification unit 34 notifies the main control unit 11 of a CI signal detection notification and / or a DTMF signal detection notification. In the present embodiment, if the result notification unit 34 receives the notification of the facsimile apparatus 1 returning to the normal mode, the sub-control unit 30 performs the main control on the processing result after the detection of the CI signal and the detection of the DTMF signal. The unit 11 is notified.

  The DTMF processing result storage unit 35 stores the DTMF signal detected by the sub DTMF signal detection unit 33. The DTMF signal stored in the DTMF processing result storage unit 35 is referred to when the result notification unit 34 notifies the main control unit 11 of the processing result.

(4) Control of NCU by Main Control Unit and Sub Control Unit Next, the flow of control of the NCU 20 by the main control unit 11 and the sub control unit 30 will be described with reference to FIG. FIG. 3 is a flowchart showing a signal flow among the main control unit 11, the sub control unit 30 and the NCU 20.
Hereinafter, the flow of control of the NCU 20 by the main control unit 11 and the sub control unit 30 in the facsimile apparatus 1 that shifts from the normal mode to the energy saving mode will be described.

  First, the CPU 12 of the main control unit 11 shifts the facsimile machine 1 from the normal mode to the energy saving mode (step S101). Subsequently, the mode notification unit 16 of the CPU 12 notifies the sub CPU 31 of the sub control unit 30 of the transition to the energy saving mode (step S102). When receiving the notification of the transition to the energy saving mode, the sub CPU 31 starts the facsimile incoming call processing in the NCU 20, and starts the CI signal detection determination and the DTMF signal detection (step S103).

Thereafter, when the NCU 20 detects a line change of the telephone line 28 (Yes in step S104), the NCU 20 notifies the sub CPU 31 of the sub control unit 30 of a line change notification (step S105).
If a notification of detection of a line change is received from the NCU 20, the sub CI signal detection unit 32 of the sub CPU 31 determines whether the signal detection circuit 23 detects a CI signal. If it is determined that the signal detection circuit 23 detects the CI signal (Yes in step S106), the sub CI signal detection unit 32 requests the CPU 12 of the main control unit 11 to return from the energy saving mode to the normal mode. Is transmitted (step S107).

  Thereafter, when the sub DTMF detection unit 33 detects a DTMF signal (Yes in step S108), the sub DTMF detection unit 33 stores the detected DTMF signal in the DTMF processing result storage unit 35 (step S109).

On the other hand, if a request for returning from the energy saving mode to the normal mode is received from the sub CI signal detection unit 32, the CPU 12 of the main control unit 11 returns the facsimile machine 1 to the normal mode (step S110).
Thereafter, when the facsimile apparatus 1 returns to the normal mode (Yes in step S111), the mode notification unit 16 of the CPU 15 notifies the sub CPU 31 of the sub control unit 30 of the return notification to the normal mode (step S112). .
After receiving the return notification to the normal mode, the result notifying unit 34 of the sub control unit 30 notifies the main control unit 11 of the signal detection processing result by the sub control unit 30 (step S113). For example, the result notification unit 34 notifies the main control unit 11 of the detection of the CI signal and the DTMF signal. Here, the result notification unit 34 may notify the main control unit 11 of the detection of the DTMF signal with reference to the DTMF processing result storage unit 35.

  The main control unit 11 that has received the notification of the signal detection result by the sub-control unit 30 then starts controlling the NCU 20 according to the signal detection processing result (step S114). In the present embodiment, the CML relay 21 is switched to the b contact side by the reception control unit 15 based on the DTMF signal indicating a facsimile reception command, and the telephone line 28 and the modem 17 are connected to perform facsimile reception processing in the facsimile apparatus 1. Is started.

Here, even when the main control unit 11 is returning to the normal mode from the energy saving mode or the energy saving mode, the sub control unit 30 can process the detection of the DTFM signal after the detection of the CI signal in place of the main control unit 11. . Accordingly, after returning to the normal mode, the main control unit 11 can control the facsimile reception by taking over the detection of the DTFM signal processed by the sub-control unit 30. As a result, even when the main control unit 11 is returning from the energy saving mode or the energy saving mode to the normal mode, it is possible to shorten the time required for facsimile incoming call processing. Even when the main control unit 11 is returning from the energy saving mode or the energy saving mode to the normal mode, the sub control unit 30 controls the signal detection process in place of the main control unit 11. Therefore, a signal transmitted via the public network 80 can be reliably detected in the facsimile apparatus 1.
The result notification unit 34 notifies the main control unit 11 after returning to the normal mode of the processing result by the sub control unit 30. Accordingly, the main control unit 11 can take over the processing by the sub-control unit 30 and start the facsimile reception control promptly.
(5) Features The above embodiment can be expressed as follows.
(A) The main control unit 11 and the sub control unit 30 are provided. The main control unit 11 operates in the energy saving mode or the normal mode, and controls incoming calls via the public line network 80. The sub control unit 30 detects the CI signal transmitted via the public network 80 on behalf of the main control unit 11 when the main control unit 11 is returning to the normal mode from the energy saving mode or the energy saving mode. Process signal detection.

(B) The sub control unit 30 includes a result notification unit 34 that notifies the main control unit 11 of the processing result of the sub control unit 30 after the main control unit 11 returns to the normal mode.

2. Other Embodiments Although one embodiment of the present invention has been described above, the present invention is not limited to the above embodiment, and various modifications can be made without departing from the scope of the invention. In particular, a plurality of embodiments and modifications described in this specification can be arbitrarily combined as necessary.

(A) In the above-described embodiment, the result notification unit 34 receives the signal after the detection of the CI signal and / or the DTMF signal is completed when the mode notification unit 16 receives the notification of the facsimile apparatus 1 returning to the normal mode. An example of notifying the main control unit 11 of the processing result of the detection is given.
However, if the result notification unit 34 receives a notification of the facsimile apparatus 1 returning to the normal mode, even if the sub-control unit 30 is detecting the CI signal or the DTMF signal, the detection is performed up to that point. The processing result of the detected signal may be notified to the main control unit 11.

  (B) In the above embodiment, when the facsimile apparatus 1 is restored from the energy saving mode or the energy saving mode to the normal mode, the sub control unit 30 performs the detection determination of the CI signal and the detection of the DTMF signal. Listed. However, when the facsimile apparatus 1 is restored from the energy saving mode or the energy saving mode to the normal mode, the CI signal detection determination may be executed on the main control unit 11 side. Then, the sub control unit 30 may be a unit that performs processing for detecting the DTMF signal after the main control unit 11 determines to detect the CI signal.

(C) In the above embodiment, an example has been given in which the sub CI signal detection unit 32 of the sub CPU 31 detects the DTMF signal after transmitting a return request to the main control unit 11. However, the timing of transmitting the return request and detecting the DTMF signal in the sub CPU 31 is not limited to this example, and the timing of transmitting the return request and detecting the DTMF signal may be the same timing. Further, the return request may be transmitted after the DTMF signal is detected.

  The present invention can be widely applied to facsimile machines having an energy saving mode.

1 Facsimile Machine 10 Basic Block 11 Main Control Unit 12 CPU
13 CI signal detector 14 DTMF detector 15 Reception controller 16 Mode notifier 17 Modem 18 ROM
19 RAM
20 NCU
21 CML relay 22 first transformer 23 signal detection circuit 24 off-hook detection circuit 25 ringing voltage generation circuit 26 H relay 27 second transformer 28 telephone line 30 sub control unit 31 sub CPU
32 sub CI signal detection unit 33 sub DTMF signal detection unit 34 result notification unit 35 DTMF processing result storage unit 40 functional block 41 reading unit 42 operation unit 43 image memory 44 codec 45 display unit 46 recording unit 47 LAN interface 50 power supply device 60 Power supply controller 61 Power supply line 70 System bus 80 Public line network 90 Telephone

Claims (2)

A first control unit that operates in an energy saving mode or a normal mode, and starts a facsimile reception process when a DTMF signal instructing a facsimile reception process is detected during the normal mode operation ;
A second control unit that detects the DTMF signal when the first control unit is returning from the energy saving mode or the energy saving mode to the normal mode;
With
If the second control unit detects the DTMF signal during the return from the energy-saving mode or the energy-saving mode to the normal mode, the second control unit will return to the normal mode after the first control unit returns to the normal mode. , Notifying the first control unit of a signal detection processing result including detection of the DTMF signal;
Facsimile device. The second control unit further detects a CI signal that is a call signal through a public network when the first control unit is returning from the energy saving mode or the energy saving mode to the normal mode,
If the second control unit detects the CI signal during the return from the energy saving mode or the energy saving mode to the normal mode, the second control unit causes the first control unit to change from the energy saving mode to the normal mode. Send a return request for
The facsimile apparatus according to claim 1.

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